engine housing ventilation filter cartridge for removable installation in a housing and mounting it

专利摘要:
ENGINE HOUSING VENTILATION FILTER CARTRIDGES AND ASSEMBLY OF THE SAME The present invention relates to assembling the engine housing ventilation filter. Components, features and methods of assembly and use are described. Many of the principles are related to the preferred cartridge configurations to engage in selected housings. The selected optional features described can be used to provide an indication to a service provider that the correct cartridge is not positioned properly in the housing for use.
公开号:BR112013033930B1
申请号:R112013033930-6
申请日:2012-06-29
公开日:2021-01-26
发明作者:Robert Wood；Gert Willems
申请人:Donaldson Company, Inc.；
IPC主号:

专利说明:

[0001] [001] This application is filed on June 29, 2012, as an application for an International PCT Patent in the name of Donaldson Company, Inc., a company incorporated in the United States of America, applicant for designation of all countries except the United States , Robert Wood and Gert Willems, both citizens of Belgium, applicants for designation of the United States only. Cross Reference to Related Orders
[0002] [002] This application includes the description of, with editions; United States Provisional Order 61 / 503,063 filed June 30, 2011. The full description of document US 61 / 503,063 is hereby incorporated into this quotation.
[0003] [003] This application also includes a description of the United States provisional application 61 / 664,340 filed on June 26, 2012. The full description of document US 61 / 664,340 is incorporated herein by means of this quotation.
[0004] [004] The invention hereby disclosed is also implemented in one of the modalities described in USSN 61 / 665,501 deposited on June 28, 2012. The full description of document USSN 61 / 665,501 is incorporated into this document by means of this quotation.
[0005] [005] Priority is claimed for each of the aforementioned USSN 61 / 503,063; 61 / 664,340; and 61 / 665,501, as appropriate. Description Field
[0006] [006] This description refers to systems and methods for separating hydrophobic fluids (such as oils) that are released as aerosols in gaseous streams, for example, in the gases of the engine housing ventilation filter. In addition, the arrangements also provide for the filtration of other contaminants, such as carbon soot material, from gas streams. The arrangements are typically used to filter the engine box ventilation gases from motorized systems. Methods are also provided to perform the separations.
[0007] [007] Techniques, assemblies, components and methods are described that help to ensure: that a filter cartridge is positioned inside an engine housing ventilation filter assembly during use; and, that the cartridge is a correct filter cartridge for the use system and is properly positioned and sealed for use. Foundations
[0008] [008] Certain gaseous currents, such as engine blast gases (that is, the vent gases from the engine casing, coming from diesel engine engine housings) carry substantial amounts of oils (liquid) released into the engine, such as aerosol. Most drops of oil (liquid) in the aerosol are generally 0.1-5.0 microns in size. In addition, these gas streams also carry substantial amounts of fine particulate contaminants, such as carbon contaminant (soot).
[0009] [009] In some systems, it is desirable to vent such gases into the atmosphere. In general, it is preferable, before venting the gases into the atmosphere, to clean a substantial part of the aerosol and / or organic particulate contaminant therein.
[0010] [0010] In other cases, it is desirable to direct the air or gas stream to the equipment. These systems are sometimes called "closed" engine housing ventilation systems. With these systems closed, it may be desirable to separate aerosolized liquids and / or particulates from the gas stream during circulation, in order to provide the following benefits: reduced negative effects on downstream equipment; increased efficiency; recapture of oil lost in another way; and / or, address environmental issues.
[0011] [0011] Improvements are generally sought in the engine housing ventilation filter systems (ie exhaust gas filtration systems) built for application with a variety of equipment or engine systems. summary
[0012] [0012] In accordance with the present description, assemblies of the ventilation filter of the motor housing; components; resources; and, methods of assembly and use are provided. In certain exemplary arrangements, components include filter cartridges that comprise a medium positioned around a geometric axis of the central cartridge and adjacent to a first end piece. In the examples shown, the first and second sealing members or axially separated seals (vertically in use) are provided on the first end piece. A second end piece (typically closed, although alternative possibilities exist) is usually (and typically) positioned adjacent to a second middle end.
[0013] [0013] As indicated below, unless otherwise indicated, it is not specifically required that the first and second sealing members or vertically separated seals are separately molded sealing members, that is, they can be parts of a construction molded in one piece. However, in typical exemplary assemblies using the principles according to the present description, it will be convenient that the first and second sealing members or vertically (i.e., axially) seals comprise separately molded sealing members. In one example, each of them comprises O-rings, however, alternatives are also described and shown.
[0014] [0014] The first and second sealing member or vertically separated seals may, independently of one another, be a radially directed seal, or an axially directed seal, or may include segments of both. The two seals can be used to provide the advantageous positioning of the cartridge, within the assembly, and to ensure that the cartridges are the correct cartridge for assembly. In fact, the assembly can be configured so that, if the two seals are not properly installed, the service provider will immediately know that the cartridge is the wrong cartridge for the assembly. In addition, the assembly can be configured so that, if the cartridge with the appropriate seal is not installed, the service provider will immediately notice when trying to lock the access cover.
[0015] [0015] In a general characterization of the techniques according to the present description, there is no specific condition as to whether or not a third seal is positioned between the first and second sealing member or vertically separated seals. In at least one modality represented, this third fence does not exist; and, at least in the represented modality, there is this third fence.
[0016] [0016] Still according to the present description, filter cartridges are described and represented which may (optionally in some cases) include an arrangement of the spacer of the access cover / base of the housing on it. This type of arrangement of the spacer on the cartridge is used to arrange the access cover and the base of the housing, in a mounting of the ventilation filter of the motor housing: sufficiently for a firm engagement between the base and access cover; and so that, if the cartridge is not present, the service cover will not be properly tightened on the base of the housing. The examples shown are particularly configured for use when the access cover is installed at the base of the housing with a rotating interlocking arrangement such as: a ring installed with threading; or, installation ring with a non-threaded coupling arrangement. Variations are described.
[0017] [0017] In advantageous arrangements according to the present invention, filter cartridges are provided which include the first and the second sealing members or seals separated vertically, that is, axially; and, the arrangement of the access cover / base spacer of the housing. However, advantages can be obtained in some applications when only one of the resources is present.
[0018] [0018] Housing arrangements for use with engine housing ventilation filter assemblies are described. The housing arrangements in general include a gas flow inlet arrangement, a gas flow outlet arrangement and a coalesced liquid drain arrangement. Optional features to facilitate the condensate drain (ie, for a condensation drain arrangement) are also represented and described.
[0019] [0019] In accordance with the present description, optional but advantageous arrangements are provided to accommodate the preferred rotary orientation between a filter cartridge and a base of the housing in use; such features are in general mentioned herein comprising a rotating alignment arrangement of the housing base / filter cartridge (or filter cartridge / housing base), or similar terms. In a shown example, the projection / receiver arrangement is used in which a lower part of the filter cartridge is provided with a perimeter shape that can only be installed on a base of the housing in a selected rotation orientation, or gear will occur between the two. This arrangement of the rotating alignment of the base of the filter housing / cartridge can be implemented with the features selected from those described above or in alternative arrangements.
[0020] [0020] Furthermore, in the description presented here, an arrangement of the rotating alignment of the access cover / filter cartridge (or filter cartridge / access cover) is optional, but advantageous is described. This arrangement can be applied to provide the selected rotating alignment between the access cover and the cartridge, during assembly, or the access cover will not be installed properly over the housing. In the examples described here, this arrangement is provided by the projection / receiver arrangement that can only engage correctly in a single rotation orientation selected between the two components. The rotating alignment arrangement of the access cover / filter cartridge can be implemented with the features selected from those described above, or alternative arrangements, if desired.
[0021] [0021] It is not specifically required that an assembly of the engine housing ventilation filter, component or method of assembly or use involves all the features here characterized, in order to obtain any benefit according to the present description. The modalities represented are mere examples, and indicate a wide range of environments and structural resources that are possible.
[0022] [0022] Note that multiple modalities are described. To the appropriate extent, each modality can be implemented with resources selected from one or more additional modalities. Therefore, the modalities are not mutually related to the resources represented. Brief Description of Drawings
[0023] [0023] Figure 1 is a schematic top perspective view of a first assembly of the engine housing ventilation filter according to the present description.
[0024] [0024] Figure 2 is a second schematic top perspective view of the assembly of Figure 1; the view of Figure 2 being in general a left posterior perspective in relation to Figure 1.
[0025] [0025] Figure 3 is a schematic side view of the assembly of Figure 1.
[0026] [0026] Figure 4 is a second schematic side view of the assembly of Figure 1.
[0027] [0027] Figure 5 is a schematic cross-sectional view of the assembly in Figure 1, obtained in general along line 5-5, Figure 4.
[0028] [0028] Figure 5A is a fragmented and enlarged schematic view of an identified part of Figure 5.
[0029] [0029] Figure 6 is a second schematic cross-sectional view of the assembly in Figure 1, obtained in general along line 6-6, Figure 4.
[0030] [0030] Figure 7 is a schematic view, in general analogous to Figure 4, with the indication of the selected dimensions.
[0031] [0031] Figure 8 is a second schematic side view obtained in general from the left side of Figure 7, with the general indication of the exemplary dimensions.
[0032] [0032] Figure 9 is a schematic view of the top plane of the assembly of Figures 1-8.
[0033] [0033] Figure 10 is a schematic view of the bottom of the assembly of Figures 1-9.
[0034] [0034] Figure 11 is a schematic top view in partially exploded perspective of the assembly of Figures 1-11.
[0035] [0035] Figure 12 is a schematic cross-sectional view obtained in general along line 12-12, Figure 11.
[0036] [0036] Figure 13 is an exploded schematic top view in perspective of the assembly of Figures 1-12.
[0037] [0037] Figure 14 is a schematic side view, generally analogous to Figures 4 and 7, with some transverse lines indicated.
[0038] [0038] Figure 15 is a schematic cross-sectional view taken along line 15-15, Figure 14.
[0039] [0039] Figure 16 is a schematic cross-sectional view obtained in general along line 16-16, Figure 14.
[0040] [0040] Figure 17 is a schematic cross-sectional view taken along line 17-17, Figure 14.
[0041] [0041] Figure 18 is a schematic cross-sectional view taken along line 18-18, Figure 14.
[0042] [0042] Figure 19 is an exploded side schematic view of the assembly shown in Figures 1-18.
[0043] [0043] Figure 20 is a schematic exploded view of the selected parts of the assembly represented in Figure 19.
[0044] [0044] Figure 21 is a schematic side view in general analogous to Figure 4, but representing the assembly without the positioning of a filter cartridge.
[0045] [0045] Figure 22 is a schematic cross-sectional view obtained in general along line 22-22, Figure 21.
[0046] [0046] Figure 23 is a schematic side view of a filter cartridge component in the assembly of Figures 1-22.
[0047] [0047] Figure 24 is a schematic cross-sectional view of the filter cartridge in Figure 23.
[0048] [0048] Figure 25 is a schematic top perspective view of the filter cartridge in Figure 23.
[0049] [0049] Figure 26 is a second schematic top perspective view of the filter cartridge of Figure 23.
[0050] [0050] Figure 27 is a schematic bottom view in perspective of the cover component of the assembly of Figures 1-22 configured to engage with the filter cartridge of Figures 23-26.
[0051] [0051] Figure 28 is a schematic top view exploded in perspective of a second modality of an assembly using the principles adopted in accordance with the present description.
[0052] [0052] Figure 29 is a schematic cross-sectional view of the assembly shown in Figure 28.
[0053] [0053] Figure 30 is a second schematic cross-sectional view of the assembly shown in Figures 29 and 30.
[0054] [0054] Figure 31 is a schematic cross-sectional view similar to Figure 30, but representing the assembly without the installation of a filter cartridge.
[0055] [0055] Figure 32 is a fragmentary and schematic cross-sectional view of an assembly including features corresponding to a third modality of the present description.
[0056] [0056] Figure 33 is a second fragmentary and schematic cross-sectional view of the assembly represented in Figure 32.
[0057] [0057] Figure 34 is a fragmentary and schematic cross-sectional view representing the resources selected according to the present description in a fourth modality.
[0058] [0058] Figure 35 is a schematic cross-sectional view of the arrangement shown in Figure 34, shown without installing a filter cartridge.
[0059] [0059] Figure 36 is a schematic view of an equipment system using an engine housing ventilation filter assembly according to the present description.
[0060] [0060] Figure 37 is a schematic side view of a fifth embodiment of the present description.
[0061] [0061] Figure 38 is a first schematic cross-sectional view of the arrangement in Figure 37.
[0062] [0062] Figure 39 is a second schematic cross-sectional view of the arrangement in Figure 37, the view in Figure 39 being obtained in general along line 39-39, Figure 37.
[0063] [0063] Figure 40 is a fragmented and enlarged schematic view of an identified part of Figure 39.
[0064] [0064] Figure 41 is a first schematic and exploded top view in perspective of the assembly of Figure 39.
[0065] [0065] Figure 42 is a second schematic and exploded top view in perspective of the arrangement of Figure 39.
[0066] [0066] Figure 43 is a first schematic side view of a filter cartridge component of the arrangement of Figures 37-39.
[0067] [0067] Figure 44 is a second schematic side view of the filter cartridge component of Figure 43.
[0068] [0068] Figure 45 is a third schematic side view of the filter cartridge component of Figure 43.
[0069] [0069] Figure 46 is a schematic bottom view in perspective of the filter cartridge component of Figures 33-45.
[0070] [0070] Figure 47 is a schematic top view in perspective of the filter cartridge component of Figures 43-45.
[0071] [0071] Figure 48 is a schematic cross-sectional view of the filter cartridge of Figures 43- 47; the view of Figure 48 being obtained in general along the line 48-48, Figure 45.
[0072] [0072] Figure 49 is a schematic bottom view of the filter cartridge component of Figures 43-48.
[0073] [0073] Figure 50 is a schematic cross-sectional view similar to Figure 48, representing exemplary dimensions.
[0074] [0074] Figure 51 is a top plan view of the filter cartridge component of Figures 43-49.
[0075] [0075] Figure 52 is a schematic side view of the sealing member usable in the filter cartridge of Figures 43-51.
[0076] [0076] Figure 53 is a schematic view of the top plane of a sealing member of Figure 51.
[0077] [0077] Figure 54 is a schematic cross-sectional view of the sealing member of Figures 52-53.
[0078] [0078] Figure 55 is a schematic bottom view of an assembly or component of the access cover of the filter assembly of Figures 37-42.
[0079] [0079] Figure 56 is a schematic top perspective view of a component of the base of the housing of the assembly of Figures 37-42. Detailed Description I. General Comments
[0080] [0080] As already indicated, the present description in general refers to assemblies of the engine housing ventilation filter, its components and features, and methods of assembly and use. A typical engine housing ventilation filter assembly according to the present description comprises a housing that has a maintainable filter cartridge in it, that is, a filter cartridge that can be removed and replaced in the housing, without causing damage to the housing or cartridge. Typically, the housing comprises a base of the housing and a removable access cover. Among the resources and principles described here, there are resources and principles that help the service provider to immediately understand if a filter cartridge is not properly installed in a housing, when the access cover is positioned. Several modalities representing these resources are described. Many of the features are particularly adapted for use in a system, in which the access cover includes a rotating installation ring, for coupling to a housing, whether the rotating coupling occurs via a threaded or non-threaded connection.
[0081] [0081] It is noted that features are also described that ensure the use of the correct filter cartridge for assembly and its correct positioning for proper use when installed in the housing.
[0082] [0082] Numerous additional features are described with respect to certain modalities that can be used together with the features that contribute to indicate that a cartridge is not properly installed, or that it can be used independently of such features.
[0083] [0083] It is not specifically required that an assembly of the engine housing ventilation filter or feature, component, or method of assembly or use, includes all the features and characteristics described and represented in detail, in order to obtain any benefit in accordance with with this description. II. A First Mode, Figures 1-27
[0084] [0084] A first embodiment of mounting the engine housing ventilation filter according to the present description is shown in Figures 1-27. Firstly in reference to Figure 1, in 1 the assembly of the engine housing ventilation filter is represented in general. Assembly 1 generally comprises a housing 2 which has: a gas flow inlet arrangement 3, a gas flow outflow arrangement 4, and a coalesced liquid (oil) drain outflow arrangement 5. In housing 2 it is represented in a manner generally a maintainable filter cartridge 6 (not shown in Figure 1, see the cross-sectional views of Figures 5 and 6; and, the views of the cartridge in Figures 23-26, discussed below).
[0085] [0085] In general operation, engine exhaust gases or engine housing ventilation filter gases from a motorized system with which assembly 1 is used, are directed to housing 2 through the gas flow inlet arrangement 3. In housing 2, the gases are passed through the filter medium of a filter cartridge that can be maintained internally received 6. Inside the medium, the gases are filtered. The oil coalests inside the middle of the cartridge 6 and is drained out of the cartridge 6, and eventually from the housing 2 via a coil-drained liquid (oil) outlet arrangement 5. The outlet drain arrangement 5, then , is a drain of coalesced oil and is usually connected to the housing or duct that will direct the liquid (oil) to a reservoir or other location in the system with which assembly 1 is used. A flow line attached to outlet 5 may include valves, to control the flow of the coalesced liquid in a desirable manner.
[0086] [0086] Still referring to Figure 1, the filtered gases that passed through the cartridge received internally 6 are generally directed out of assembly 1, through the gas flow outlet arrangement 4.
[0087] [0087] With reference to Figure 1, it is noted that, for the particular assembly of the ventilation filter of the engine box 1 shown: the inlet arrangement of the gas flow 3; the gas flow outlet arrangement 4; and, the drain outlet arrangement of the coalesced liquid 5, are individually represented as a single arrangement of the tube / opening in fluid communication with the interior of the housing 2. Although typical, in alternative modalities, each arrangement of the gas flow inlet 3, the gas flow outlet arrangement 4 and / or the liquid drain outlet arrangement 5 can independently be multiple openings and / or multiple tubes.
[0088] [0088] Still referring to Figure 1, housing 2 generally comprises a base or bottom of housing 14 which has, removably attached to it, an access or service coverage arrangement 15. The access or service coverage arrangement 15 it can be removed from the base of the housing 14 for service access to the interior of the housing 2. This allows, for example, the installation or removal of an internally positioned filter cartridge 6.
[0089] [0089] Note that, for the assembly 1 shown, the installation or connection interaction between the service cover arrangement 15 and the housing base 14 is a rotating interaction arrangement, that is, at least a part of the cover of service 15 is rotated in relation to the base of the housing 14 to firmly connect the two. This will be typical for the arrangements according to the present description, although in some applications of the selected techniques described here there is the possibility of alternatives.
[0090] [0090] Still with reference to Figure 1, it is noted that the inlet arrangement of the gas flow 3 is represented as an inlet arrangement of the upper gas flow, generally directed downwards. This is typical, although there are alternative possibilities.
[0091] [0091] In Figure 2, a second top view in perspective of assembly 1 is provided. The view in Figure 2 is analogous to Figure 1; except that the observer's position is partially rotated around the left of Figure 1. In Figure 2, an installation pad arrangement 18 is shown positioned over housing 2, and in particular at the base of housing 14. The installation 18 is oriented so that assembly 1 can be installed on the equipment for use. The installation pad arrangement 18 can be an individualized arrangement designed for a particular equipment system for use. However, as an alternative it can be a general installation arrangement for a variety of equipment systems. The particular installation pad arrangement 18 shown includes mounting beams or 18x receivers correctly oriented for positioning in the equipment involved. Each of them is configured to receive a pin or similar connector arrangement projecting into it, to fix the position of the assembly 14. Threaded metallic inserts in the 18x receivers can be used for this. It is not specifically required that the installation pad arrangement for all applications be positioned, similarly formed, or similarly include three beams in the 18x receivers.
[0092] [0092] The particular installation cushion arrangement 18 comprises three 18x beams that are molded in place as part of the base of the housing 14, as discussed below, and fitted with inserts. Alternatives are possible. In fact, housing 2 can be provided without an installation pad arrangement, and be attached by an installation band or similar arrangement attached to it during installation. Again, each of the 18x beams represented includes an optional 18t threaded insert member inserted therein, for attachment by means of a pin.
[0093] [0093] At this point, analysis of Figure 3 follows. Figure 3 is a side view of assembly 1. The features previously characterized generally include: housing 2, comprising bottom of housing 14 and service access cover 15; gas flow inlet 3; exit of the coalesced liquid 5; and, gas flow outlet arrangement 4.
[0094] [0094] Referring to Figures 1-3, it is noted that, for the particular assembly 1 shown, the inlet arrangement of the gas flow 3 is in the service access cover 15; and, the gaseous flow outlet arrangement 4 and coalescent liquid drain outlet 5 are provided at the base of housing 14. Although alternative possibilities exist, this type of arrangement will be typical.
[0095] [0095] At this point, analysis of Figure 4 follows. Figure 4 is a side view generally directed to the gas flow outlet arrangement 4, mentioned above. Other previously discussed selected features that are shown in Figure 4 include: accommodation 2, comprising the base of the accommodation 14 and the service access cover 15; gas flow inlet arrangement 3; drain outlet of coalesced liquid 5; and, installation pad arrangement 18 with 18x installation pads on it.
[0096] [0096] Figure 5 is a cross-sectional view obtained in general along line 5-5, Figure 4. In Figure 5, the cross-sectional view shows the cartridge 6, previously identified, functionally positioned inside the 2i of the housing 2.
[0097] [0097] With reference to Figure 5, in general the cartridge 6 comprises an extension of the medium 20 positioned around the interior of the open filter 21 and positioned in the extension between the first and second pieces of the end 22, 23. The medium 20 is in selected for a given application, for filtering and coalescing properties. The exemplary medium is discussed below.
[0098] [0098] In this case, the cartridge 6, the housing 2, and / or assembly 1 can sometimes be characterized as having a central geometric axis X. The geometric axis X is indicated in Figure 5, and is a central geometric axis, typically vertically oriented in use, around which the means 20 is positioned, and which extends vertically through an approximate center or center of the cartridge 6, housing 2, and assembly 1. The geometric axis X is mentioned in numerous Figures.
[0099] [0099] Still referring to Figure 5, the gases from the engine housing ventilation filter or engine exhaust gases are directed to assembly 1 through the inlet arrangement 3. The gases are then directed through the flow opening 22a on the end piece 22 to the inside of the open filter 21. The gases then flow (with filtration) through the medium 20 until the annular 25. The annular 25 is an annular of the filtered gas that surrounds the cartridge 6. In general, the annular 25 is in gaseous fluid communication with the filtered gas flow outlet arrangement 4. That is, the filtered gases can pass out from housing 2, through outlet 4.
[0100] [00100] During the operation, within the medium 20, the liquid transported in the gases will coalesce and develop a liquid head. Under gravity, the liquid will tend to drain out of medium 20 (and cartridge 6). Part of the liquid can reach a perimeter 20p downstream (in the external example), of the medium 20, before draining down to the lower end 14b of the base or bottom of the housing 14, and eventually, due to the influence of gravity and influenced by a configuration funnel as shown, up to the coalesced liquid drain outlet arrangement 5. Part of the liquid can pass directly down through the end piece 23, however, through the use of an axial overlapping drain arrangement of the middle 23o. The arrangement 23o may comprise an arrangement of the axial overlapping drain of the medium using the principles described in WO 2007/05341 1, incorporated herein by means of this quotation.
[0101] [00101] In even more general terms, the cartridge 6 includes the arrangement of the axial overlapping drain of the medium 23o. The axial overlapping drain arrangement of the particular medium 23o shown comprises spaces or openings in and / or through the second end piece 23 (lower in the installation) directly overlapped by an end 20b of the medium 20. The liquid that drains directly down through of the middle 20 can pass directly down through the axial overlapping drain arrangement of the middle 23o, to reach the bottom 14b.
[0102] [00102] In even more generic terms, the axial overlapping drain arrangement of the medium is an arrangement that allows the liquid to flow out of the medium 20 directly downwards, without having to pass out through one of the flow faces of the medium. quite. This could be affected by having a lower end portion of the middle 20 not closed by the lower end piece 23.
[0103] [00103] The axial overlapping drain arrangement of the middle 23o can comprise a variety of optional features. With reference to Figure 5, one of the features represented comprises a plurality of recesses 23r in an outer perimeter 23p of the lower end piece 23, each recess extended radially inward to a location directly below (i.e., overlapped by) the middle 20. The second exemplifying feature comprises an opening arrangement, in the example shown comprising a plurality of openings 23a through the end piece 23, at a location below the middle 20, that is, in axial overlap with the middle 20. It is not specifically required that the arrangement of the axial overlapping drain of the means 23o comprises one or both of the specific features described and represented. On the contrary, in general, the term "axial overlapping drain arrangement of the medium" 23o generally refers to a drain path provided at a location so that at least part of the coalesced liquid within the medium 20 can drain directly downward from the middle without having to flow through a middle perimeter, such as the outer perimeter 20p. For example, in some cases this could be provided simply by having part or all of the lower end piece 23 not extended radially outwardly as far as the outer perimeter 20p of the medium 20.
[0104] [00104] With reference to Figure 5, it is noted that, in some cases, the water vapor carried in the inlet gases that penetrate through the inlet tube 3 will tend to condense on an internal surface 28 of the base or bottom of the housing 14. In general, it is preferable to prevent, to a reasonable extent, the condensed water vapor from draining through the coalesced liquid (oil) drain outlet arrangement 5. To inhibit at least a portion of this condensed water vapor reaches the drain outlet of the coalesced liquid 5, assembly 1 includes a side wall 32 which has an optional coalesced water collection / drainage arrangement 29. The optional condensed water collection / drainage arrangement 28 comprises a drain channel or gutter 30 positioned between the upper part 31 of the side wall 32 (of the base part of the housing 14) and an inner flange 33 in the base 14, and extended substantially and completely around the side wall 22 and the cartridge 6. The chute 30 in general is inclined to taper or c analyze the humidity for the outlet of the trough 35 until the outlet arrangement of the water drain 9. This isolates the condensed water collected from the outlet 5.
[0105] [00105] In the example shown, the water drain arrangement 9 also comprises the gas flow outlet arrangement 4. That is, the condensed water directed to the condensed water outlet arrangement 9 is directed outwards through the outlet arrangement. of the gas flow 4. This will be a particular convenient assembly when the gas flow outlet 4 is vented down towards the atmosphere. It is noted that in some cases, an additional structure can be used to control the drainage and drainage of water.
[0106] [00106] Referring to Figures 4 and 5, it is possible to observe that, if the water condenses along the surface 28, above the channel 30, this water will tend to drain down to the channel or channel 30, and Serpa inhibited by the flange 33 to reach the lower region 14b of the base 14 and the outlet arrangement of the drain of the coalesced liquid 5. This collected water will tend to drain down to the outlet 35 until the arrangement of the water drain 9, Figure 5. Note that the arrangement of the condensed water drain is optional, but in general it is advantageous.
[0107] [00107] In general, cartridge 6 is provided with a housing sealing arrangement. The housing sealing arrangement, in general, inhibits the entry of gaseous flow into the housing from the bypass means 20 and reaching the outlet of the gas flow 4. The sealing arrangement of the housing for the particular assembly 1 shown can be understood in consultation Figures 5 and 6.
[0108] [00108] With reference to Figure 5, as already indicated, the cartridge 6 comprises the means 20 positioned between opposite parts of the end 22, 23. For the exemplary assembly 1 shown, the cartridge 6 is provided with a sealing arrangement of the housing comprising the first and second housing seals or sealing members 39, 40, respectively. In the example shown, the housing sealing arrangement comprises the first and second housing seals or sealing members 39, 40 each positioned on the first end piece 22. The first end piece is typically a rigid structural member (metal or plastic) that supports the sealing members 39, 40.
[0109] [00109] Still, in the example shown, the first and second housing seals or sealing members 39, 40 are vertically separated. The term "vertically separated" in this context means that the seals or sealing members 39, 40 are separated vertically from each other when the cartridge 6 is oriented with the central geometric axis X vertically extended. This is the orientation shown in Figure 5 and is typical for the modalities described here. Usually, the degree of vertical spacing between the seals or members 39, 40 is at least 0.5 mm, usually it is at least 1 mm, in general it is at least 2 mm, typically it is at least 5 mm, and typically it is a maximum of 50 mm, it is usually a maximum of 40 mm, and in general it is a maximum of 30 mm, although there are alternative possibilities. Reasons and advantages of the vertical spacing will be evidenced from the other descriptions that follow.
[0110] [00110] Typically, seals or sealing members 39, 40 are insulated from each other (i.e., they are not integrated with each other). This means that typically each of the two identified seals or members 39, 40 is formed separately, and does not comprise separate parts of the same molded material. In other words, typically and preferably, they are produced independently of each other and are installed independently. However, the seals or sealing members 39, 40 can be formed into a single piece integral with each other as part of a single mold or section of the sealing material, with regions suitably separated to form the desired seals. In this case, when the arrangement is said to include the first and second seals or sealing members, this does not indicate that the seals or sealing members are formed completely and separately from each other or that they are not part of a single solid region of the material. of sealing, unless specifically stated or indicated that each of them comprises a structure like an O-ring that inherently can be separated from each other.
[0111] [00111] Typically, the sealing member or seal of the housing 39 is positioned to form a removable seal against a portion of the cover assembly 15; and the sealing or sealing member of the housing 40 is positioned to form a removable seal against a part of the base of the housing 14, in a housing 2 in which the cover assembly 15 and the base 14 can be separated from each other. In this way, the gaseous flow that penetrates through inlet 3 cannot reach outlet 4 without being filtered; and the gaseous flow that penetrates through the inlet 3 is inhibited from escaping out of the housing 1 between the access cover 15 and the base 14.
[0112] [00112] In this case, when it is stated that a housing sealing or sealing member is positioned to "form a removable seal" it means that the seal will be engaged when the cartridge 6 is properly installed in the housing 2, and the seal will disengage when the cartridge 6 is separated from a part of the housing 2 against which it will form the seal, without causing damage to the housing or the seal.
[0113] [00113] Next, Figures 11, 12 and 13 are analyzed, in which several exploded views of assembly 1 are provided.
[0114] [00114] With reference to Figure 11, the assembly 1 is shown with the cover assembly 15 separated from the base of the housing 14. The cartridge positioned internally 6 can be observed.
[0115] [00115] It is noted that the cover assembly 15 for the particular assembly 1 shown, comprises a center piece or central cover (part) 50 and an installation ring 51. When the assembly of the service cover 15 is positioned in the assembly 1 , the installation ring 51 can be rotated in relation to the center piece (center cover) 50. Installation ring 51 can be rotated between the locked (tight) and unlocked (loose) positions. When the installation ring 51 is in the unlocked position, the access cover or cover assembly 15 can be removed from the base of the housing 14. When the installation ring 51 is rotated to the locked position, (sometimes referred to as the tight position) the cover or cover assembly 15 cannot be separated from the base of the housing 14. It can be seen that in Figure 11, the installation ring 51 is shown rotated to the locked or tightened position, in the exploded view shown.
[0116] [00116] At this point, analysis of Figure 12 follows. Figure 12 is a cross-sectional view obtained in general along line 12-12, Figure 11. With reference to Figure 12, it is possible to observe that the installation ring 51 includes a latch projection arrangement 51x comprising a plurality of latch projections 51 p, each having a lower projection internally and radially extended 51r. After the cover 15 is positioned on the base of the housing 14, the installation ring 51 can be rotated until the lower projections 51r are positioned under the projections 14p on the base of the housing 14, Figure 5 A. The cartridge 6 and the ring of installation 51 can be provided with tight fit configurations in order to inhibit unlocking under the action of the vibration of the equipment involved, in various circumstances. An example is described below, with reference to Figure 27.
[0117] [00117] Comparing Figures 5, 5A, 6, 11 and 12, then, it is possible to observe that the installation ring 51 is configured to rotate independently of the center piece of the cover 50, during the locking of the access cover 15 in place, and so that, after unlocking, the entire access cover 15 can be removed. As we can see in Figure 11, optional markings 54 can be provided on the center piece 50, with additional markings 55 provided on the installation ring 51, configured to operate together and show when the lock (or interlock) has been reached. This is also seen in the top perspective view of Figure 1.
[0118] [00118] Still referring to Figure 11, for the exemplary assembly 1 shown, the engagement between the installation ring 51 (that is, the assembly of the service cover 15) and the base of the housing 14 occurs through an "arrangement of non-threaded rotating coupling ". The exemplary rotating engagement arrangement comprises a plurality of retainers or locking projections 51p on the ring 51, which are aligned (during loading) to a plurality of projections or retainers 14p on the base of the housing 14, without the engagement using threads . It is noted that the threaded (rotating) coupling arrangement can be used with many of the principles of the modality of Figures 1-27, as will be evidenced from the additional descriptions that follow.
[0119] [00119] We now contemplate the cartridge 6. With reference to Figure 5, the cartridge 6, again, comprises an extension of the medium 20 positioned between the end pieces 22, 23 and surrounding the interior of the open filter 21. In general, and still referring to Figure 5, in a typical cartridge 6, the means 20 is positioned surrounding a support of the central cartridge 70. In the example shown, the support of the central cartridge 70 comprises a plurality of prolongations or longitudinal grooves 71 interconnected by grooves transverse or radial grooves 72 defining an open porous structure through which the gas flow can occur during use.
[0120] [00120] Although there are alternative possibilities, typically, medium 20 is a cylindrical construction, positioned around the X geometric axis. Medium 20 can be a spiral construction made of / with multiple windings or spirals of the medium, if desired.
[0121] [00121] Still referring to Figure 5, the exemplary cartridge 6 shown is shown with a support for the central cartridge 70 formed in a single piece with the bottom end piece 23. This is a typical construction, but alternatives are possible.
[0122] [00122] Still, with reference to Figure 5, the cartridge 6 shown is shown with the upper end piece 22 formed in a single piece with the support of the central cartridge 70. This is also typical, although alternative possibilities exist.
[0123] [00123] Still referring to Figure 5, the particular cartridge 6 shown is shown with the bottom end piece 23 closed in the extension through the interior of the open filter 21. That is, a central part 23c of the cartridge 6 is closed, that is that is, it has no through-openings, although there are alternative possibilities in some applications of the principles described here. This closed-end part 23 is typical for cartridge 6 configured for "inside-out" gas flow during filtration, that is, in which filtration occurs as the gases flow from an internal perimeter 20i of the medium for an external perimeter 20p. It will be understood from the descriptions below that many of the features described here can be applied to an assembly where the cartridge is configured to flow in the opposite direction, that is, from "outside to inside" during filtering.
[0124] [00124] Although alternative possibilities exist, for a typical cartridge like the cartridge 6 shown in Figure 5, the upper end piece 22, the central cartridge holder 70 and the lower end piece 23 will be preformed as a single molded unit , rigid and solid, for example, plastic. The medium would then be applied by screwing around the center cartridge holder, and sealing members 39, 40 would be added to complete the construction of the cartridge. Of course, alternatives are possible.
[0125] [00125] Still referring to Figure 5, we now contemplate the first part of the end 22. Note that, for the particular cartridge 6 shown, no sealing member is positioned surrounding the medium 20 and no part of the part of the upper end 22 protrudes downward to a location surrounding the medium 20. This is typical, when the cartridge 6 is assembled using a preform or coil as described, with the medium 20 screwing around it. However, certain principles described here can be applied in alternative arrangements.
[0126] [00126] In Figure 5, the first part of the end 22 can be viewed as being, in the example shown, in a location above the middle 20. This is typical, again, when the cartridge 6 is assembled using a preform or coil as described, by wrapping the medium 20 around it. However, certain principles described here can be applied in alternative arrangements.
[0127] [00127] With reference to Figure 5, the cartridge 6 can be visualized as having a perimeter ring 22z on the first end piece 22 that projects upwards around the outer perimeter of the first end piece 22, and provides the region recessed 22y above the middle 20. The perimeter projection 22z is typically a rigid structure, configured, in part, to support one of the seals or sealing members 40.
[0128] [00128] In general, the first part of the end 22 includes a central opening 22a through, which is an opening of the gas flow through a center of the part of the end 22, typically centered around the geometric axis X. In the exemplary assembly shown, the opening 22a is an opening of the gas flow inlet for the cartridge 6, since the gas flow to be filtered passes into the cartridge 21 through the opening 22a. This is typical with "inside-out" flow arrangements.
[0129] [00129] Still referring to Figure 5, the seals of the first housing or sealing member 39 and the second housing and / or sealing member 40 are represented as separate O-rings 39o, 40o. Although this is typical, alternatives, such as on-site seals, are possible. That is, it is not specifically required that one or both of the housing seals or sealing members 39, 40, comprise separate O-rings as opposed to alternative sealing materials or types of seals, separated or not. Furthermore, there is no condition for each of the sealing members 39, 40 to form a unique seal, as will be understood from the examples below.
[0130] [00130] Still referring to Figure 5, it is noted that, for the particular cartridge 6 shown, the first sealing member or seal of the housing 39 is a radially directed sealing member. Specifically, in the example, the sealing member 39o is an outwardly directed sealing member. This is not a specific condition in the present case, in all applications of the principles according to the present description, but it is convenient for the assembly of Figure 5.
[0131] [00131] It is further noted that, in the example shown, the seal or sealing member 40 is also a radially directed sealing member. Specifically, in the example, the sealing member 40o is a sealing member directed radially outward. Again, although typical and convenient, alternative types of sealing can be used with many of the principles in accordance with the present description.
[0132] [00132] In the present case, a sealing member, like each of the housing seals or sealing members 39, 40, is called "radial" sealing member, when the sealing forces are directed towards or against the geometric axis central X, that is, radially in relation to the central geometric axis X. The term "directed outward" in this context, refers to a sealing member that is positioned over the cartridge 6 to engage in a part of the housing surrounding the member A radial seal in the opposite direction would sometimes be called an "internally directed radial seal" or similar terms.
[0133] [00133] In Figure 5, the first part of the end 22 can be seen as having (and in the example shown, in a location above the middle 20) an O-ring groove or sealing groove 75, on the perimeter wall 22z in the which the sealing member 40 is positioned. Groove 75 is configured to be used with a 40o O-ring as the sealing member 40, and to hold the O-ring in position. Groove 75 is positioned to support the 40o O-ring or the housing sealing member. 40 in an appropriate location to form a seal with an upper part 32u of the side wall 32 (from the base of the housing 14) when the cartridge 6 is properly installed.
[0134] [00134] For the specific exemplary assembly 1 shown, and in particular for the cartridge 6 shown, the sealing member of the housing 40 is positioned in a circular pattern which is defined in a sealing plane generally orthogonal to the central geometric axis X. Although not necessary, this will be typical. In addition, typically the housing sealing member 40 defines a circular pattern, although alternative non-circular patterns, for example, oval or elliptical patterns, are possible.
[0135] [00135] Still referring to the cartridge 6, Figure 5, the first part of the end 22 includes a sealing support for the housing or central tubular projection 78 comprising a tubular extension on the sealing support of the housing 22 extended in a direction in general opposite to the medium 20. The support 78 in general is a rigid flow collar, and in general it can extend parallel (or in line with) the geometric axis X, although alternative configurations are possible. Support 78 may have an outer perimeter with a circular cross section, although alternative possibilities exist.
[0136] [00136] For the particular cartridge 6 shown, the support 78 is configured to have, in the extension around it, the sealing member or seal of the housing 39. To accommodate this, an external surface 78o of the support 70 is provided with a receiving groove 78g therein for the sealing member of the housing 39. The sealing member of the housing 39 for the example shown may comprise an O-ring 39o positioned in the groove 78g.
[0137] [00137] Still referring to Figure 5, each of the sealing members 39, 40, can be characterized as having a greater dimension in cross section of the perimeter. For the sealing member 40, when circular and in a plane orthogonal to the central geometric axis X, this would generally comprise a sealing diameter. However, the term "larger cross-sectional dimension of the perimeter" means that it is a larger dimension through a perimeter of the sealing member.
[0138] [00138] The seal or sealing member 39, which will be understood from the discussion below, is not (for the example shown) in a sealing plane orthogonal to the central geometric axis X, a greater dimension in cross section of the perimeter of the seal 39 also corresponds to a larger dimension through a perimeter of the seal member, but in this case, in the seal plane on which seal 39 is seated. In addition, the sealing member 39, when not in a plane orthogonal to the central geometric axis X, can be projected to a plane orthogonal to the central geometric axis X, and the projection can also be characterized as having a “larger” perimeter sealing dimension corresponding to this projection in a plane orthogonal to the central geometric axis of the cartridge.
[0139] [00139] The first sealing member 39 can be characterized as having a larger sealing dimension of the perimeter of D1 and the second sealing member 40 can be characterized as having a larger dimension in cross section of the perimeter of D2. For the specific example assembly shown in Figure 5, D1 <D2. Typically, for this type of exemplary construction, D1 is at least 0.5 mm smaller than D2, usually at least 1 mm smaller than D2 in general it is at least 10 mm smaller than D2 and in the example shown, it is at least 20 mm smaller than D2 (in other words, D2 is at least 0.5 mm greater than D1 usually at least 1 mm greater than D1, typically at least 10 mm greater than D1 and in the example shown, at least 20 mm greater than D1). Alternatives are possible as will be seen from the discussions below.
[0140] [00140] Still referring to Figure 5, it is noted that the medium 20 has a first external perimeter 20p. In the example shown, the second sealing member D2 depicted has a larger transverse dimension of the outer perimeter than medium 20, although alternative possibilities exist. Typically, the second sealing member 40 has a greater transverse dimension of the outer perimeter D2 which is at least 10 mm greater than a greater transverse dimension of the middle perimeter 20, usually at least 15 mm greater, although alternative possibilities exist.
[0141] [00141] Furthermore, it should be noted that, for the example shown, the largest dimension of the perimeter in cross section D1 for the first seal 39 is smaller than the external perimeter 20p of the medium 20, usually at least 2 mm smaller, in general at least 5 mm smaller, although alternative possibilities exist.
[0142] [00142] The analysis of Figure 13 follows, in which an exploded perspective view of assembly 1 is represented. In Figure 13, a part of the cartridge 6 is shown, and in particular the end piece 22. It is possible to observe, with reference to Figure 13, that the O-ring 39o is flat and is positioned in a defined plane not orthogonal to the axis central geometric X, but that extends not perpendicular to it. This is discussed more fully below with respect to Figures 23-27.
[0143] [00143] Again referring to Figure 5, the access cover of the housing 15 is provided with a sealing collar 80 on it, for engagement by the sealing member of the housing 40. In the example shown, the sealing collar of the housing 80 it is configured with an internal surface 80i as a sealing surface for an outwardly directed radial seal defined by the housing sealing member 39. The sealing collar 80 is configured in the example shown, as a part of the central part 50 of the cover arrangement of service 15.
[0144] [00144] Still referring to Figure 5, surrounding the inside of the support 78, the end piece 22 is provided with an internal shoulder 85 defined by the upper ends of the supports 71. The service cover 15, and in particular the center piece 51 , is provided with a part of the collar directed downwards 88 towards the shoulder 85. The collar 88 may comprise a part of the lower collar of the inlet arrangement 3, directed downwards into the housing 2i when the housing 2 is mounted. This is discussed more fully below with respect to Figures 23-27.
[0145] [00145] With reference to Figure 13, it is noted that the upper end 78u of the support 78 defines a plane that extends non-orthogonally to the central geometric axis X, Figure 5, that is, that is inclined in relation to the central geometric axis X This is typical, although there are alternative possibilities. This point is discussed more fully below with respect to Figures 23-27.
[0146] [00146] Note that assembly 1 includes an arrangement that guarantees a service provider to immediately recognize whether or not a cartridge is properly positioned in the housing, while the housing access cover is installed. This ensures that accidental closing of housing 2 does not occur without installing the correct cartridge 6. This also helps to recognize that the installed cartridge is the correct cartridge (6) for use housing 2. The resources that would facilitate this event can be understood, in part, in reference to Figure 13.
[0147] [00147] With reference to Figure 13, an exploded top perspective view of assembly 1 is provided. The base of the housing 14 can be viewed as having a side wall 32 with an upper edge or tip 32e. The upper edge 32e induces an arrangement of the receiving recess which comprises receiving recesses 32r. Receiving recesses 32r can be viewed as separate recesses or notches on edge 32e. The specific exemplary assembly 1 shown includes four recesses 32r, although the number may vary. Typically, the number of receiving recesses 32r will be at least (um) usually at least 2 (two) and usually at most 6 (six), although alternative possibilities exist.
[0148] [00148] Still referring to Figure 13, the cartridge 6 includes, on the upper end piece 22, an arrangement of the peripheral projection 89 comprising a plurality of projections radially extended outward 90. The cartridge 6 will typically include the same number of projections 90 than the number of recesses 32r at the base of the housing 14, although alternative possibilities exist. The projections 90 are generally sized and positioned to engage the recesses 32r, projecting into them, and typically through them, as the cartridge 6 is lowered into the base of the housing 14, and when the cartridge 6 is properly rotated around from the central geometric axis X until it is fully lowered at the base of the housing 14.
[0149] [00149] At this point, analysis of Figure 5 (and Figure 5 A, an enlarged fragmentary view of part of Figure 5) follows. In this case, the projection (s) 90 extended through the recess (s) 32r can be observed. The arrangement of the projection 89 comprising the projections 90 can be viewed as an arrangement of the vertical spacer, (or arrangement of the spacer_ _ _ base of the access cover housing - or base of the accommodation / access cover--) which guarantees that the central part 51 of a service cover arrangement 15 is positioned at a sufficient distance from the end 32e of the side wall 32 so that the locking ring 51 can firmly engage in a projection arrangement comprising the projections 14p when the ring installation 51 is rotated. In other words, if the cartridge 6 is not present inside the assembly 1, when the service cover 15 is lowered in place, and the ring 51 is rotated, there will be no firm engagement; on the contrary, the installation ring 51 will remain loose. The service provider will notice this immediately, and will recognize that the correct cartridge 6 is not present. Furthermore, if the service provider tries to position the wrong cartridge in the housing 14, in place of the cartridge 6, there will be a similar problem. In addition, the coupling between the projections 90 and the receivers 32r can be used to properly rotate the cartridge 6, so that it is properly oriented to engage with different parts of the housing, as needed.
[0150] [00150] In general terms, the assembly 1 can be characterized as having a vertical spacer arrangement of the housing base / access cover (or access cover / housing base). For the particular example shown, the arrangement of the vertical spacer of the access cover / base of the housing is an arrangement positioned on the cartridge 6, and in the particular example shown, on the first part of the end 22. The arrangement of the vertical spacer of the cover of The access / base of the illustrated housing includes an arrangement of the rigid projection onto the first end piece of the cartridge 22 oriented to project radially outwardly from the remainder of the first endpiece to a radially outward location from an external radial extension maximum of each first and second sealing members of the housing 39, 40. In the example shown, the projection arrangement 89 comprises the projections 90, which are positioned as described. As they protrude even more radially outwardly than the sealing members 39, 40, they can engage the recesses 32r as desired.
[0151] [00151] In this case, the term "dimension of the vertical spacer" and its variants will be used to identify the value of the vertical spacing between the center piece 50 of the service cover 15 and the base of the housing 14 that results from the arrangement of the cover spacer access / base of accommodation. Typically, a spacing value is at least 0.5 mm, usually at least 1 mm, generally at least 2 mm and can be at least 3 mm and in some cases even 5 mm or more. The point is merely that the value of the provided vertical spacing is sufficient that the rotating locking ring 51 cannot properly engage the base of the housing 14 to be locked or tightened properly, unless the center piece 50 of the service cover arrangement 15 is properly lifted by the vertical spacer arrangement.
[0152] [00152] Still referring to Figures 5, 5A and 13, it is noted that the second sealing member 40 is positioned so that it engages in the housing 14 in a location below the receivers 32r, to guarantee the correct isolation of the clean gas ring 25 from the regions external to the housing 2. In addition, the first sealing member 39 is positioned above the projections 90, to properly engage the central part of the housing 50 and to ensure that the gas flow through an articulation between the access cover 15 and the housing base 14, do not reach the interior of assembly 1 undesirably. This also helps to ensure that the gases from the engine housing ventilation filter do not escape out of assembly 1 through a joint between an access cover 15 and the base of accommodation 14.
[0153] [00153] Next, Figures 14-19 are analyzed, for a better understanding of the engagement between cartridge 6 and housing 2. In Figure 14, a side view of assembly 1 is shown with cartridge 6 positioned internally. In Figure 15, a cross-sectional view taken along line 15-15 is shown, Figure 14. This view in general shows: the bottom end piece 23, and the features selected therefrom. For example, recesses 23r comprising an outlet outlet arrangement of the lower medium can be viewed. It is further noted that openings 23a extend through the end piece 23 also in axial overlap to the middle 20. Together, the opening 23a and the recesses 23 operate as the axial overlap arrangement of the previously described medium. In 23c, it is possible to observe the closure through a lower end of the cartridge 6. In 96, a cross-sectional view through the supports 96 at the bottom of the housing 14 can be seen. The supports 96 are shown, for example, in Figure 5. During installation on the base of the housing 14, the cartridge 6 is lowered in use until it rests on the supports 96.
[0154] [00154] In 32b, Figure 15, a cross section is shown through a bottom part 32b of the side wall of the housing 32. It is possible to observe that, in Figure 15, this bottom part is isolated from the water drain outlet 9, as discussed above.
[0155] [00155] Figure 16 is a cross-sectional view taken along line 1616, Figure 14. In this case, the cross-section is usually below the end piece 22 looking upwards. The cross section extends through the edges or retaining edges 51r over the installation ring 51, Figure 6.
[0156] [00156] In Figure 17, the cross-sectional view provided is obtained along line 17-17, Figure 14. The cross-section now extends through the upper part 32u of the side wall 32 where the projections 14p are located for engagement by the edges 51 r on installation ring 51.
[0157] [00157] At this point, analysis of Figure 18 follows. Figure 18 is a cross-sectional view obtained in general along line 18-18, Figure 14, looking upwards. The cross section now extends through a part of the end piece 22 which includes projections 90 thereon. Projections 90 can be viewed at rest on recesses 32r.
[0158] [00158] In Figure 19, an exploded view of assembly 1 is provided. In Figure 19, the cartridge 6 is located when properly rotated until it falls into the base of the housing 14. Thus, the projections 90 on the first piece of the end 22 can go down to the 32r recesses. In Figure 19, the service cover 15 is shown with the installation ring 51 turned to the position it would assume during engagement with the projections 14p. For effective descent, ring 51 would be turned slightly to the right or slightly to the left to allow installation projections 51p to pass between projections 14p, with ring 51 then turned for locking (tightening).
[0159] [00159] In Figure 20, a general view similar to Figure 19 is shown, except for the cartridge 6 which is represented without the means 20 on it. Therefore, what is observed is a preform comprising the upper end piece 22, the lower end piece 23 and the central cartridge holder 70, all together formed in a single solid piece. It is further noted that, in Figure 20, the installation ring 51 is separated and is not shown, the only part of the access cover 15 is displayed, which is the central part 50.
[0160] [00160] The components represented in Figure 20 can be individually preformed components (for example, molded plastic), except to the extent that the inserts can be positioned inside the installation pads 18 for receiving dowels.
[0161] [00161] In Figure 21, a view of the housing 2 is shown, without installing the filter cartridge. It can be seen that the installation ring 51 cannot engage firmly in the projection 14p since the radial projections 51r on the ring 51 are located under the projections 14p and separate from them.
[0162] [00162] In Figure 22, a cross-sectional view obtained in general along line 22-22 is shown, Figure 21. Again, housing 2 is shown without the installation of a cartridge and, as a result, the ring of installation 51 is loose. A service provider attempting to tighten ring 51 would immediately notice that something is wrong, since the ring would not tighten projections 14p.
[0163] [00163] Still in Figures 21 and 22, it is observed that the groove of the drain 30 in the side wall of the housing 32 is shaped to carry out the downward drain until the end 35 and the water drain 9.
[0164] [00164] In Figure 7, a side view of assembly 1 is shown. Exemplary dimensions are indicated as follows: AA = 111.9 mm; AB = 25 mm; AC = 57 mm.
[0165] [00165] In Figure 8, a second side view is provided with the dimensions indicated: AD = 109.8 mm; AE = 60 mm; AF = 75 mm; AG = 35 mm; AH = 227.7 mm; AI = 18 mm; AJ = 12 mm; AK = 25 mm; and, AL = 45 mm.
[0166] [00166] In Figure 9, the exemplary dimension is indicated as follows: AM = 113.9 mm. Note that alternative dimensions can be used with many of the principles in accordance with the present description.
[0167] [00167] An additional view provided not mentioned earlier in this section is Figure 10, a bottom view of assembly 1.
[0168] [00168] Next, Figures 23-27 are analyzed, in relation to the various features of the filter cartridge 6; and, resources pertinent to the engagement between a filter cartridge 6 and the service cover arrangement 15 and, in particular, the part of the central cover 50.
[0169] [00169] Firstly with reference to Figure 23, the filter cartridge 6 is shown in side view, in relation to the central geometric axis X. The cartridge 6, again, comprises the means 20, positioned around the inside of the open cartridge and between the end pieces 22, 23. The end piece 22 is a top end piece in use, and is shown with a vertical tubular projection 78 on it, in the example shown having the receiving groove 78g for an O-ring 39o , Figure 5. The cartridge 6 is also shown, with a groove for the O-ring 40o on the end piece 22.
[0170] [00170] The projections of the spacer 90 are also shown in the end piece 22.
[0171] [00171] With reference to Figure 23, it is noted once again that the upper end 78u of the projection 78 and the sealing member 39 are inclined with respect to a plane orthogonal to the central geometric axis X.
[0172] [00172] In Figure 24, a cross-sectional view of cartridge 6 is shown. Note that, in Figure 24, the O-ring 75 is shown installed in groove 40. Other features and parts 22 are also shown in Figure 24 , 23 previously described.
[0173] [00173] In Z an angle of the plane of the O-ring 39o and the end 78u in relation to the plane orthogonal to the central geometric axis X is represented. Typically, the Z angle will be at least 1 °, and at most 30 °, typically at most 20 °, and in general at least 2 °.
[0174] [00174] In Figure 25, a top perspective view of cartridge 6 is provided. The view is obtained in relation to the end piece 22. In Figure 25, it is possible to observe that the projection 78 is a tubular projection with an internal surface 78f. The projection 78 extends opposite the medium 20 to an end or tip 78u. The end or flange 78u is generally defined in a plane not orthogonal to a central geometric axis X as indicated above with respect to Figure 24.
[0175] [00175] The cartridge 6 also includes a first member of a projection / receiver arrangement of the cartridge for the access cover (or the access cover for the cartridge), the first member being indicated in general at 78x positioned on the surface internal 78f. The first member shown is an arrangement of the projection, and in the example shown, it comprises a plurality of axial splines 78y. The plurality of ribs 78y represented comprise at least some ribs oriented asymmetrically with respect to the central geometric axis of the cartridge X. In this context, asymmetrically oriented means that not all ribs are uniformly positioned radially and separated around the central geometric axis X. The typical asymmetric orientation is for the groove arrangement having at least three 78y grooves with a pair of grooves radially closer to each other than any of them in relation to a third groove.
[0176] [00176] Referring to Figure 26, the grooves 78y can be viewed as comprising the five grooves 78y, two of them spaced apart, and the other three positioned even more radially apart.
[0177] [00177] In Figure 27, a perspective view of the bottom or bottom view of the service cover 15 is provided, comprising the central part of the cover 50 and the rotating installation ring 51.
[0178] [00178] Attention is particularly directed to the central projection 90, which extends downwardly around the projection of the cartridge 78 in use. Firstly, the lower tip 90t of the projection 90 is observed. The lower tip 90t includes several recesses or gaps 90r.
[0179] [00179] With reference to Figure 26, attention is directed to the projections or central streaks 94. It is noted that there are five streaks 94 represented. The grooves 94r are single grooves perfectly separated, at least an arc of 45 ° in relation to the nearest groove. The grooves 94x and 94y, however, are spaced radially from each other.
[0180] [00180] In comparison to the cartridge 6, Figure 26 and the projection 90 on the cover part 50, Figure 27, it is noticed that the cover part 50 can only be fully lowered on the access cartridge 6, when the access 6 is in a single rotation orientation in relation to the 90r gaps. In particular, each of the 90x gaps is too narrow to receive, in projection, the two aligned grooves 94x, 94y, Figure 26, while the 90y gap is wide enough to receive. However, each of the gaps 90r is positioned to receive each of the grooves 94r. Thus, while the cover assembly 50 is lowered, and the projection 78 extends to the tube 90, the cover 15 cannot be completely lowered until the proper rotation. This ensures that the seal is properly oriented in relation to the various features in the projection 90 for the correct seal.
[0181] [00181] Still with reference to Figure 27, it is noted that a locking arrangement by fitting or above the center is provided in association with the projections 51p on the installation ring 51. In particular, in association with at least one (and in some cases, each) of the projections 51p is a cam member 95 and the stop 96 is represented. During rotary locking, the cams 95 will engage in the projections 14p, Figure 11. The rotation of the installation ring 51 will occur until the cams 95 are passed and the stops 96 engaged. This will act as a locking mechanism to inhibit ring 51 from turning under typical circumstances of vibration. However, the cams 95 are sufficiently sized and shaped, and the arrangement is sufficiently flexible, so that, while the service provider rotates the ring 51 for its locking, the cams 95 can be overtaken, bypassing the locking and allowing separation of ring 51.
[0182] [00182] In Figure 24, some exemplary dimensions have been provided as follows: XA = 101.5 mm; XB = 36.8 mm; XC = 137.6 mm; XD = 71 mm; XE = 10.9 mm; and, angle Z = 5 °. In the remaining parts of this description, additional modalities are described. It is noted that many of the resources for the additional modalities can be applied in the previously described modalities; and, many of the features of the previously described modality can be applied in the additional modalities. The description represented here is not intended to be exclusive with regard to the resources of the different modalities. III. A Second Exemplary Mode, Figures 28-31
[0183] [00183] In Figures 28-31, a second embodiment of an assembly is depicted including features in general according to the present description. In Figure 28, an exploded view of assembly 101 is shown. Assembly 101 includes a housing 102 comprising the base of the housing 114 and the service cover 115; the service cover comprising the central part 115a and an installation ring 11b. Assembly 101 includes a gas flow inlet arrangement 103, a gas flow outlet arrangement 104, liquid drain arrangement 105 and an installation pad arrangement 118 including installation pads 118x.
[0184] [00184] The installation base 114 includes an upper end 114e including the receiving recesses 114r. Furthermore, the upper end 114e of the housing base 114 includes the projections 114p thereon, which will be engaged by the locking members 115x on the installation ring 115b when the installation ring 115b is properly tightened.
[0185] [00185] In Figure 28, the cartridge 106 is represented, however, without the medium over it. The medium can be positioned as the medium 20, in the mode previously described.
[0186] [00186] Cartridge 106 then induces preform 106p that has an upper end piece 106u, a center cartridge holder 106c and a lower end piece not shown in Figure 28, but indicated in general terms at 106f in certain figures.
[0187] [00187] The upper end piece 106u includes two vertically separated housing seals or seal members 120, 121, in the example shown each comprising an O-ring surrounding an outer circumference of the end piece 106u, although alternative possibilities exist. Positioned between the first and second housing seals or sealing members 120, 121 (Figure 30) are a plurality of projections of the vertical spacer 120p extending radially outwards and which are sized to be lowered into the receiving recesses 1 14r when the cartridge 106 is positioned for use.
[0188] [00188] In Figure 29, a cross-sectional view is shown. Again, for the sake of clarity, cartridge 106 is shown without the medium, but the medium would typically be positioned as previously described. The housing sealing member 120 is configured to form a seal against the outside 115x of the access cover 115; and the sealing member of the housing 121 is configured to form a seal against a part of the side wall 132 of the base of the housing 114.
[0189] [00189] In Figure 30, a second cross-sectional view is obtained, in this case the view that passes through the 120p projections. It can be seen that the projections 120p operate as an arrangement of the spacer (vertical) of the base of the housing / access cover, to maintain the service cover 115 and, in particular, the center piece 115a sufficiently separated from the base of the housing 114, in order to that the installation ring 115b will be tightened when rotated.
[0190] [00190] In Figure 31, housing 102 is shown without the cartridge installed. It is possible to observe that the center piece 115a of the access cover 115 is not positioned properly, so the system will apparently be loose for the service provider who tries to tighten the installation ring 115b. IV. A Third Mode
[0191] [00191] In the form of Figures 1-27, and in the second form of Figures 2831, the access cover, whatever the case may be, has been configured so that the installation ring on it rotates between the locked and unlocked positions through the interactions of the non-threaded rotating coupling between parts of an installation ring and over the housing. Therefore, the threaded coupling was not used. It is noted that many of the principles described here can be applied in a system in which the threaded coupling is used. In reality, the threaded arrangement could have been used with the previously described modalities. This will be understood, for example, from the modality represented in Figures 32 and 33.
[0192] [00192] It is also observed that in the first modality of Figures 1-27 and in the second modality of Figures 28-31, the cartridge, in any case, was configured so that a preform or central coil could be used, when around which the medium has been threaded between two end pieces. In general this would require that the sealing arrangement and other structure on the upper end piece be above the middle. It is possible to implement the principles according to the present description in arrangements in which a part of the upper end part or a part of the seal, or both effectively, surrounds the middle, contrary to what happens with the positioning above the middle. This will also be understood from the arrangement of Figures 32 and 33. Note that these resources can be deployed with many of the features of the modalities of Figures 1-27, and Figures 28-31, if desired. In addition, such resources may be in line with the document USSN 61 / 503.008, incorporated herein by means of this quotation.
[0193] [00193] Referring to Figures 32 and 33, the assembly 201 is shown comprising housing 202 and the cartridge being internally received 206. Housing 202 comprises a service cover arrangement 215 and a base of housing 214. The cover arrangement service number 215 comprises the central part 216 and the installation ring 217. In this case, the installation ring 217 is configured for threaded engagement with the housing base 214. The threaded arrangement is generally indicated at 220 comprising the threads 221 on the installation ring 222 and threads 222 on the housing base. The cartridge 206 is retracted again without the medium, even though the medium was typically oriented as described in the previous embodiments.
[0194] [00194] The cartridge 206 comprises an upper end part 222 and would typically have a lower end part, not shown, generally analogous to the previously described lower end parts. In this case, the upper end piece 222 is fixed on a preform comprising the support of the central cartridge 270. The fixation can occur, for example, by fitting, hot welding, ultrasonic adhesive welding. An example is described below. The upper end part 222 is shown with housing seals or sealing members (vertically separated) 239, 240; the first 239 positioned to engage the housing cover 215 and the second 240 configured to engage the base of the housing 214. The upper end piece 222 is shown with the projection arrangement 222p on it, which will be positioned between the center 215 of the access cover 215 and the upper end 214u of the base of the housing 214, to ensure the vertical spacing suitable for carrying out the firm threaded coupling.
[0195] [00195] In general terms, then, the exemplary assembly of Figures 32 and 33 includes an arrangement of the spacer of the access cover / base of the housing which is an arrangement of the projection on a first part of the end of a projecting filter cartridge to an external radial location even more radially outwardly from a central geometric axis X, than any between the first and second housing seals or sealing members 239, 240. The spacer arrangement of the access cover / base of the accommodation generally operates in the manner already described. The assembly of Figures 32 and 33 shows how these types of resources can be implanted in an arrangement in which: a threaded coupling is used between the service cover 215 and the base of the housing 214; and, the cartridge includes a first end piece 222 which is attached to the support of the central cartridge 217.
[0196] [00196] In Figure 33, an optional arrangement or engagement between the upper end part 222 and the center cartridge holder 270 is generally shown at 280, where the hook part 281 on the upper end part 222 engages with a receiver 282 on the central cartridge holder 270. With a snap fit, a part of the upper end piece 222 and a sealing arrangement thereon, such as seal 240, can be positioned to surround the medium. One reason for this is that the medium can be positioned on the support 206 before the end piece 222 snaps in place. Thus, the parts 222x of the end piece 222 extended downward around the middle do not prevent the medium from being promptly positioned in place.
[0197] [00197] Of course, in Figures 32 and 33, the 206 cartridge is shown without the medium. With reference to Figure 33, the medium will typically be provided around the support 270 and extended to a location so that, when part 222 is installed, the medium will extend to the receiver 222r.
[0198] [00198] Referring to Figures 32 and 33, consider the situation in which cartridge 6 is not present. When the service cover 215 is lowered over the base of the housing 214, and the rim 217 is rotated to the threaded upright, even if the service provider does not recognize the problem, the valve provider can continue to rotate the installation ring, until rotate beyond the threads in the housing. Thus, the system will appear loose and the service provider will notice the cartridge is missing.
[0199] [00199] Note that, with respect to the mode of Figures 28-31, an option is described in which an end piece is fixed to a support of the central cartridge. This option can be applied in other modalities described here, if desired. V. Fourth Mode, Figures 34 and 35
[0200] [00200] In the modalities previously described in Figures 1-33, the housing sealing arrangements, in all cases, were radially directed seals. Alternative arrangements can be used. For example, the sealing of the cartridge in relation to the housing can occur through vertically separated and axially directed sealing members, which engage the access cover and the base of the housing. This example will be understood from the schematic arrangements of Figures 34 and 35.
[0201] [00201] With reference to Figure 34, an arrangement 301 is shown comprising a housing 302. The cartridge 306 is positioned in the housing 302. The cartridge 306 includes an upper end piece 322 with the sealing arrangement of the housing 340 thereon. The sealing arrangement of the housing 340 comprises a sealing member 341 that engages the service access 315, and a second sealing member 342 that engages in the housing 314. In general, each of the sealing members 341, 342 is a member of axial housing seal. This means that the sealing parts are generally directed in the direction of the X axis of the central cartridge. The sealing members 341, 342 are separated vertically by the spacer 320, positioned on the end piece 322. In the embodiment of Figures 34 and 35, the threaded engagement 350 between the access cover of the housing 315 and the base of the housing 314 is shown, with possible alternatives.
[0202] [00202] In Figure 35, it is possible to observe that, when the cartridge 306 is not present, the spacer 320 is not positioned between the access cover of the housing 315 and the base of the housing 314. Therefore, while the service cover is rotated (threaded), will eventually result in a loose, tight connection. This will immediately make the service provider realize that the cartridge is not present.
[0203] [00203] With reference to Figure 34, it is noted that the seals or sealing members 341, 342 are integrated parts of a single member molded in the 360 location. Although this is a convenient form of manufacture, an alternative is feasible in which the sealing members 341, 342 are molded separately from each other. SAW. Some General Concepts and Resources
[0204] [00204] An Example of Use - Figure 36
[0205] [00205] At this moment, the analysis of Figure 36 follows, where in 450 a typical equipment system is represented, in which an assembly is used according to assembly 401. The system of arrangement 450 can be, for example, an equipment moved by a diesel engine, like an off-road truck.
[0206] [00206] With reference to Figure 36, a 401 filter assembly, according to the present descriptions, is represented for the filtration of the gases from the ventilation filter of the engine housing coming from the 451 engine. The flow of the filtered gas outlet from the The filter assembly 451 is shown on line 452 ideally directed to an air induction system 453, from which gases can be directed through the turbo 454 to the air inlet of the engine 470 to the engine 451. Thus, in the example system 450 shown, the filter assembly 401 is part of a closed assembly of the engine housing ventilation filter in which the filtered gases leaving the assembly 401 are directed back to the air inlet of the engine 470. In 460, an assembly of air cleaning or air filter system for combustion air is represented, also directing the filtered air to the induction arrangement 453. Of course, the filtered gas flow 452 can be directed to the air filter 460 or upstream, if at all. desired.
[0207] [00207] Many of the techniques discussed in the present description can be applied in open systems of the ventilation filter of the engine box. In this case, the outflow of the filter gas from the filter assembly 451 would be directed to the atmosphere, and not to an air induction system 453. This release into the atmosphere may be preferable, when the gas flow from the filter in the line 452 also includes condensed water as described for the modalities selected here. Engine Housing Vent Filter Cartridges With Vertically Separated First and Second Housing Sealing Members
[0208] [00208] In the examples described above, four modes of mounting the engine housing ventilation filter provided with the first and second members or housing seals vertically separated in a "first" end piece have been described. In all cases, the "first" end piece was the top end piece in use, and had a central flow opening through. While the opening of the central air flow, in any case, has been described as an "inlet" opening through which the gas to be filtered penetrates inside the open filter, in an inverted flow situation or "from the outside to the inside" , the flow opening in the first end piece would be an opening for the gas flow outlet.
[0209] [00209] In general, the term "vertically separated", in this context, refers to the spacing between the seals or sealing member (when the sealing occurs) when a cartridge is oriented with a first part of the end directed upwards, this it is, in a normal usage orientation. Another characterization provided is that the cartridge has a central geometric axis X around which the medium is positioned and the vertical spacing is the spacing in the direction of the geometric axis X, when the geometric axis is oriented vertically.
[0210] [00210] Typically, the first and second vertically separated sealing members are separated vertically at least 0.5 mm, usually at least 1 mm, usually at least 2 mm and usually at most 50 mm, generally at most 40 mm, typically a maximum of 35 mm. In general, the spacing is at least 5 mm and a maximum of 30 mm.
[0211] [00211] Typically, the vertical spacing is provided by the rigid structure on the cartridge. That is, the sealing members are separate and distinct from each other, and a rigid structure part of the first end piece is provided between them which ensures vertical spacing.
[0212] [00212] It is noted that in some examples, a third sealing member can be positioned between the first and the second sealing member vertically separated. When this happens, while the third sealing member can be vertically separated from each first and second sealing member, the spacing may or may not correspond to the values characterized above.
[0213] [00213] It is not specifically required that the various sealing members be integrated parts of a single sealing construction or to be separate sealing members installed in the filter cartridge. In addition, there is no specific condition as to the type of sealing that each sealing member provides (directed radially, directed inward or outward, directed axially, directed upwards or downwards). Several exemplary arrangements are described.
[0214] [00214] In the selected arrangements provided in this case, the cartridge includes a spacer arrangement for the access cover / housing base. This arrangement ensures that, when the cartridge is installed in a housing for use, the access cover and the base of the housing are separated at an adequate distance to allow a firm engagement between the two; and, the base of the housing and the access cover of the housing are typically configured so that, in the absence of the cartridge (and therefore the spacer arrangement is not present) the access cover cannot be firmly engaged with the base of the housing. This provides an arrangement whereby the service provider is immediately notified of the absence of a correct filter cartridge in the assembly. In the selected illustrated examples, the spacer arrangement of the access cover / base of the housing comprises a projection arrangement oriented to move radially outwards from a positioned location, in the direction of the extension of the geometric axis of the central cartridge of the cartridge, between the first housing sealing member and the second housing sealing member. In the selected exemplary arrangements, the spacer arrangement projects to a radially outward location from a maximum radial external extension of each first housing sealing member and second housing sealing member. This will be typical and convenient, although alternative possibilities exist.
[0215] [00215] In the examples shown, the seals are generally "flat", that is, each seal is generally defined by a plane. In some arrangements, one or more of the seals may be "non-flat".
[0216] [00216] Examples are shown that demonstrate the use of a variety of types of sealing arrangements. In several arrangements, each sealing member is a radially directed sealing member. Specific examples are provided where each of the two radial sealing members is a sealing member directed radially outward.
[0217] [00217] Examples are described in which the sealing members are in planes generally parallel to each other, and in the specific examples, these planes are generally extended orthogonally to the geometric axis of the central cartridge. In the selected embodiments, one of the radial seals is in a plane generally orthogonal to the geometric axis of the central cartridge, and the other seal is not orthogonal to the central geometric axis of the cartridge. In general it is described that the fence is typically not orthogonal to the central geometric axis, it is in a plane that intersects a plane perpendicular (that is, orthogonal) to the central geometric axis in the smallest acute angle of at least 1 °, typically of at maximum 30 °, and in general in the range of 2 ° -20 °, inclusive.
[0218] [00218] Within the range of examples provided, there are examples demonstrating that the sealing members can be two axially directed seals that are separated by the rigid structure.
[0219] [00219] The sealing members vertically separated in the first end piece are generally configured so that each of them is positioned to form a seal with one of the two separable components of the housing. The two separable components of the housing generally comprise: an access cover; and a base or bottom of the housing.
[0220] [00220] In the represented assemblies, although there are alternatives indicated, the features are particularly configured for use in the ventilation filter assemblies of the engine box in which the access cover is fixed to the base of the housing with an interlock by rotation (or rotary) ) or connection system. In the representations provided, non-threaded rotating couplings and threaded rotating couplings are shown.
[0221] [00221] In the examples, the first and second vertically separated housing sealing members are radial sealing members, and each of them has a greater transverse dimension of the perimeter. When the seals are circular and are in a plane orthogonal to the central geometric axis, this largest dimension in cross section of the perimeter is the diameter. In fact, even when the seal is in a plane not orthogonal to the central geometric axis of the cartridge, if the seal is circular in that plane, the largest transverse dimension of the perimeter can also be viewed as the diameter. However, in some cases, with an inclined seal or a seal in a plane not orthogonal to the geometric axis X of the central cartridge, the seal will be relatively oval in shape, defining a circular pattern in the projection to a plane orthogonal to the central geometric axis.
[0222] [00222] Arrangements are shown in which one of the sealing members has a "larger" cross-sectional dimension of the perimeter larger than the other. This will be typical, but is not specifically necessary for all applications of the housing sealing members vertically separated according to the present description.
[0223] [00223] Typical embodiments are described in which the filter cartridge is provided with the first and second end pieces, the first end piece including the first and second vertically separated housing sealing members, the second end piece typically being a piece of the closed end, that is, there is no through opening in communication with the interior of the open cartridge. C. Provision of an Access Cover Spacer Arrangement / Housing Base
[0224] [00224] In accordance with the present description, engine housing ventilation filter cartridges are described which include the spacer arrangement of the base / housing access cover. In general, the term "access cover spacer arrangement / housing base" and its variants refer to a structure in the cartridge that provides the spacing between the housing base and the access cover. It is used to ensure the positioning of a locking mechanism between the housing base and the access cover that promotes firm interlocking only when the cartridge is in place. The particular access cover / base spacer arrangements shown and described in the examples are configured to operate with an engine housing ventilation filter assembly where the housing is configured so that the access cover is attached to the housing with a rotation interlock arrangement, that is, a rotating installation ring. Interlocking arrangements using non-threaded coupling and threaded coupling are described.
[0225] [00225] The arrangement of the spacer of the access cover / base of the housing in some modalities is an arrangement of the projection on the cartridge that extends to a location between the selected parts of the access cover and the base of the housing. This projection is typically independent of the sealing members, that is, it does not comprise a sealing member itself. In reality, this projection is typically extended externally in a radial direction beyond the most distant extent of the projection of any sealing member.
[0226] [00226] In an embodiment in which the axial sealing members are used for the first and second sealing members, the spacer arrangement is an extension between the two axial sealing members that do not protrude radially outwardly from the cartridge. However, it is positioned to be engaged by the housing, even when the housing cover is configured to be fixed in place with a rotating connection.
[0227] [00227] Typically, the spacer arrangement is configured to have a vertical space dimension of at least 0.5 mm, typically at least 1 mm, generally 2 mm usually at least 3 mm or more, and in some cases 5 mm or more. The arrangement is typically not configured to provide a spacer larger than about 50 mm and typically a maximum of about 40 mm, although alternative possibilities exist. D. Deployment with a Rotating Alignment Arrangement for Coupling between the Filter Cartridge and the Service Cover
[0228] [00228] In the exemplary arrangements, an arrangement of the rotating alignment was provided ensuring the proper rotation orientation between the cartridge 6 and a part of the service cover assembly 15 during use. In the embodiment of Figures 1-29, this arrangement of the rotating alignment was provided between the projections 94 on the first part of the end 22, and the internal projection 90 on the central part of the cover 50 and is described with reference to Figures 26 and 27. In general, a rotation orientation arrangement promotes the correct engagement of the cover section 50 and the cartridge 6. The particular rotation orientation shown is a projection / receiver arrangement in which the projection member 78 on the service cover cannot fully engage the access cover 50, unless a projection arrangement comprising projections 94 on the access cover is properly aligned in rotation with a receiving arrangement comprising receivers or gaps 90r, 90x over the service coverage arrangement 15. Alternatives are possible. E. Implementation of alternatives and specific resources in the various modalities described
[0229] [00229] It is noted that the alternative resources described in relation to the various modalities can be implemented with other modalities. For example, the modality of Figure 1 can be implanted with a threaded coupling arrangement, instead of the non-threaded rotary interlocking between the access cover and the housing base. In fact, the arrangements of the different modalities can also be implemented with several resources of the modality of Figure 1. In addition, in the modality of Figure 30, the access cover is represented as being completely rotatable for installation in an accommodation on a base of the accommodation. Alternatively, it can be installed with a rotating installation ring.
[0230] [00230] Threaded installation arrangements versus non-threaded installation arrangements can be used as an alternative in the various modalities. Selection is a matter of choice for a given system.
[0231] [00231] It is noted that several modalities are represented in a fragmented view. Other resources of the housing and the cartridge in these modalities may be variations of the resources previously described for the other modalities, although alternative possibilities exist. VII. Usable Medium
[0232] [00232] A variety of suitable media for gas / liquid separation can be used, and choosing one of them for the application of interest is not essential for many of the particular resources described here. Examples of usable media include those described in WO 2006/084282; WO 2007/0535411; WO 2008/115985; and, WO 2006/91594 incorporated herein by way of this quotation. VIII. Additional Exemplary Modality, Figures 37-56
[0233] [00233] In Figures 37-56, an additional modality is represented. The arrangement of Figures 37-56 includes many of the features shown and described in the modalities already described. In fact, the modality of Figures 37-56 can be viewed as an improvement on the specific modality of Figures 1-27 and its variants.
[0234] [00234] In general, features characterized, described and / or represented similarly in the mode of Figures 37-56 confer function / operation / advantage similar to the features described for the mode of Figures 1-27. In reality, the modality of Figures 37-56 can be implemented with dimensions similar to those described for Figures 1-27, although alternative possibilities exist.
[0235] [00235] Firstly in reference to Figure 37, in 501, an assembly of the ventilation filter of the engine box is represented in its general aspects. Assembly 501 in general comprises a housing 502 which has: a gas flow inlet arrangement 503; gas flow outlet arrangement 504 and a liquid (oil) drain outlet arrangement 505. In housing 2 there is a maintainable filter cartridge 506 (not shown in Figure 37; see the cross-sectional view of Figure 39). Note that assembly 501 employs optional features for draining condensed water similar to arrangement 1 described above. Thus, outlet 504 is also a condensate drain outlet arrangement 509. Naturally, as with the previously described modalities, each of the flow arrangements 503, 504, and 505, although represented as a single tube, it can be configured as an arrangement of multiple tubes or openings.
[0236] [00236] Still referring to Figure 37, housing 502 in general comprises a base or bottom of housing 514 which has, removably attached to it, an access cover arrangement or access cover 515. As well as the arrangement of the access cover access or access cover 15 of Figure 1, the cover arrangement 515 can be removed from a base of the housing 514 to access its interior 502i for maintenance of the housing 502. This makes it possible to install and remove the filter cartridge positioned internally (maintainable) 506.
[0237] [00237] As with assembly 1, the installation or connection interaction between the service cover arrangement 515 at the base of the housing 514 is a rotating interaction arrangement; that is, at least a part of the service cover 515 is rotated with respect to the base of the housing 514 to connect both securely. Again, this is typical, but not mandatory for all applications of the techniques described here.
[0238] [00238] As with the assembly of Figure 1, the exemplary gas flow inlet arrangement 503 is an upper gas flow inlet arrangement, generally configured to extend vertically to the gas flow inlet in the assembly 501. This is typical, although alternatives are possible.
[0239] [00239] Still with reference to Figure 37, it is noted that the assembly 501 includes, on the base of the housing 502, the installation pad arrangement 518, in the example installed on the base 514. The particular installation pad arrangement 518 represented comprises mounting beams, cushions or 518x receivers, typically each with a threaded metallic insert for engagement by a peg or similar connected arrangement, although alternative possibilities exist.
[0240] [00240] Still referring to Figure 37, it is noted that, for the specific exemplary assembly 501 shown, the inlet arrangement of the gas flow 503 is in the service access cover 515; and the gas flow outlet arrangement 504 and the coalescent liquid drain outlet arrangement 505 are provided at the base of housing 514. Again, although alternative possibilities exist, this is a typical arrangement.
[0241] [00241] Figure 39 is a cross-sectional view obtained in general along line 39-39, Figure 37. In Figure 39, the cross-sectional view shows the previously identified cartridge 506, functionally positioned inside the housing 502i 502. With reference to Figure 39, in general, the cartridge 506 comprises an extension of the means 520 positioned around the inside of the open filter 521. An end 520a of the means 520 is positioned adjacent to the end piece 522. The end 520a is a upper end, in use. A second end 520b in the exemplary cartridge 506 shown is an opposite end 520a, and is positioned adjacent to the end piece 523. Thus, for the exemplary cartridge 506 shown, the means 520 is positioned in the extension between the first and second part of the end 522, 523.
[0242] [00242] As with the previously described modalities, the housing 502, the assembly 501 and the cartridge 506 can be characterized as having a central longitudinal geometric axis X, Figure 39. In general, in the present descriptions, the direction of the extension of the central geometry axis X will be called "axial direction" and when features are characterized as "axially separated" it means that they are separated from each other in a direction of the longitudinal geometric axis X. Since the longitudinal geometric axis X is usually a vertical geometric axis in typical use, these features can be characterized as "vertically separated," with the term "vertical", "vertical direction" and their variants referring to the same direction as the direction of longitudinal extension or axial direction.
[0243] [00243] Still referring to Figure 39, in operation, engine box gases or engine exhaust gases are directed to assembly 501 through inlet arrangement 503. The gases are then directed through flow opening 522a at the end piece 522 to the inside of the open filter 521. The gases then flow (with filtration) through the medium assembly 520 to the annular 525. The annular 525 is in fluid gas communication with the filtered outflow arrangement 504 .
[0244] [00244] As with the previously described modalities, during the operation, and within the medium 520, the liquid transported in the gases will coalesce and develop a liquid head. By gravity, the liquid will tend to drain externally to medium 520 (and to cartridge 506). Part of the liquid can reach a perimeter 520p downstream (in the example, external) of the medium assembly 520 before draining downwards at the lower end 514b of the bottom or base of the housing 514, and eventually, by gravity and by inducing a configuration of funnel shown, up to the 505 coalesced liquid drain outlet arrangement. Part of the liquid can pass directly down from the lower end of the medium 520b through the use of an axial overlapping drain arrangement of the medium 523o. Although alternative possibilities exist, as with the modalities previously described here, arrangement 523 may comprise an arrangement of the axial overlapping drain of the advantageous optional medium using the principles described in WO 2007/053411 incorporated herein by means of this quotation.
[0245] [00245] In general terms, the axial overlapping drain arrangement of the medium 523o comprises one or more parts of the lower end 520b of the medium 520 that are not directly prevented from draining liquid downwards by the lower end piece 523. In the exemplary embodiment The specific arrangement shown, the axial overlapping drain arrangement of the medium 523o comprises spacers or openings in and / or through the second piece of the end 523 (lower in the installation) that allow the drainage directly downwards from the end 520b of the liquid. It is noted that in some applications the axial overlapping drain arrangement of the medium 523o may include or comprise parts of the middle end 520b extending (radially outward) in addition to any part of the extension of the end piece 523.
[0246] [00246] With reference to Figure 39, one of the features of the axial overlapping drain arrangement of the middle 523o comprises a plurality of recesses 523r in an outer perimeter 523p of the lower end part 523, each recess extended radially inward to a location under (that is, overlapped by) the medium 520. The second exemplary resource comprises an opening arrangement; in the example shown comprising a plurality of openings 523a through the end piece 523, at a location under the medium 520. As in the previously described embodiments, it is not specifically required that the arrangement of the axial overlapping drain of the medium 523o comprises anybody or to both the specific types of resources described and represented. In addition, when the axial overlapping drain arrangement of the medium is present, it is not mandatory that all the liquid draining from the medium 520 drain through the arrangement of the axial overlapping drain of the medium 523o. On the contrary, part of the liquid can be directed to drain externally to the outer perimeter 520p of the medium 520.
[0247] [00247] Still referring to Figure 39, it is noted that, if the water vapor condenses against an internal surface 528 of the base or bottom of the housing 514, this drainage can be descending until the water vapor leaves. condensate 509, which in this case also comprises the outlet of the gas stream 504. Thus, the base or bottom of the housing 514 includes the side wall 532 and the optional coalesced water collection / drainage arrangement 529. The arrangement of water collection / drainage 529 represented comprises the drain channel or channel 530 analogous to channel 330 previously described. Gutter 530 is generally inclined to taper or channel moisture to outlet 535 and to drain arrangement 509 (i.e., gas flow outlet 504).
[0248] [00248] As in the arrangements previously described, the 506 cartridge is provided with a housing sealing arrangement. The sealing arrangement of the housing in general inhibits the gas flow that accesses the housing 502 from bypassing the medium 520 and reaching the outlet of the gaseous flow 504. The sealing arrangement of the housing for the particular assembly 501 shown can be understood in general consultation with the Figures 39 and 40.
[0249] [00249] With reference to Figure 39, as already indicated, the cartridge 506 comprises the means 520, in the example shown positioned between opposite parts of the end 522, 523. For the assembly 501 shown, the cartridge 506 is provided with a sealing arrangement of the housing comprising the first and second sealing arrangements of the housing 537, 538 each including at least one seal or sealing member 539, 540, respectively. In the example shown, the housing sealing arrangement comprises the first and second housing seals or sealing members 539, 540, each positioned on the first end piece 522. The first end part 522 is typically configured as a member rigid structural (metal or plastic) that supports the sealing members 539, 540.
[0250] [00250] As will be discussed in more detail below, although alternative possibilities exist, the end piece 522, in the example shown, comprises: a part of the coil including an internal support around which the means 506 is represented; and also the end piece 523. When the cartridge 506 is configured in this way, the reference to the end piece 522 generally refers to the structural member positioned adjacent and superimposed on the end 520a of the middle 506, and not to the inner support surrounded by the middle . That is, the first sealing member 539 and the second sealing member 540 are positioned on an end piece 522, which is positioned adjacent to the end 520a of the means 520.
[0251] [00251] In the example shown, by analogy to the arrangements previously described, the sealing members 539, 540 are separated axially (that is, vertically). Again, the term "vertically separated" in this context means that the sealing members or seals 539, 540 are separated vertically from each other when the cartridge 506 is oriented with the central geometric axis X vertically extended. The term "axially separated" and its variants, in this context, means that the spacing occurs in the general direction of extension of the central geometric axis X. Usually the value of the vertical spacing between the first and second seals or sealing members 539, 540 is at least 0.5 mm, usually at least 1 mm, and typically at least 2 mm, generally at least 5 mm, for example, is at least 8 mm. Typically it is a maximum of 50 mm, usually a maximum of 40 mm, and in general a maximum of 30 mm, although there are alternative possibilities. For example, in many modalities this spacing is contained in the range of 5-40 mm, inclusive, in general of 8-30 mm, inclusive.
[0252] [00252] Typically, the sealing members 539, 540 are isolated from each other (and are not integrated into a single piece) as previously discussed for the embodiment of Figures 1-27, although alternative possibilities exist. The first and second seals or sealing members 539, 540 can be formed into a single piece as part of a single mold or section of the sealing material, with regions suitably separated to form the desired seals. As previously indicated, when the arrangement is said to include the first and second seals or sealing members, it does not mean that the sealing members or seals are or are not formed completely separately from each other and / or that they are or are not parts of a single solid region of the sealing material, unless specifically stated or unless there is an indication that each of them comprises a structure that inherently would be separated from one another.
[0253] [00253] In this case, when it is stated that the first and the second sealing members of the housing 539, 540 are separated vertically and / or axially as characterized, it does not mean that an additional sealing member exists or cannot exist, for example , a third sealing member, which is positioned between them, nor does it mean that that third sealing member cannot be vertically or axially separated from one or two of the first and second sealing members of the housing 539, 540, at a shorter distance than the Preferred values declared for the mutual spacing between the first and second sealing members. In fact, as will be understood from the additional descriptions that follow, the particular cartridge 506 shown includes a third sealing member between the first and second sealing members.
[0254] [00254] Typically, the first sealing member 539 is a sealing member or housing seal positioned to form a removable seal against a portion of the cover assembly 515; and the second sealing or sealing member of the housing 540 is positioned to form a seal against a part of the base of the housing 514, for a housing 502 in which the cover or base assembly 514 can be separated from one another. In this way, the gaseous flow that penetrates through inlet 503 cannot reach outlet 504 without being filtered; and the gaseous flow that penetrates through the inlet 503 is directed to the opening 522a and is prevented from escaping out of the housing 501 between the access cover 515 and the base 514.
[0255] [00255] In this case, when it is stated that a sealing member or seal of the housing is positioned to form a "removable seal" or its variants, as previously indicated, it means that: the seal will be engaged when the 506 cartridge is properly installed in a housing 502; and the seal will disengage when the cartridge 506 is separated from a part of the housing 502 against which it forms the seal, without causing damage to the housing or the seal.
[0256] [00256] Still referring to Figure 39, it is noted that, in the exemplary cartridge 506 shown, the second sealing member 540 comprises a part of a sealing arrangement 538 which also includes an optional sealing member (third) 541 which engages in the 515 cover assembly. This is discussed further below. In general, therefore, when it is stated that the sealing arrangement of the housing 540 is configured to engage the base of the housing 514, it does not mean that this is a specific indication, without further ado, that the sealing member 540 comprises a part of the one sealing arrangement 538 that may or may not have an additional sealing portion that engages elsewhere, such as part 541 that engages in the access cover arrangement 515.
[0257] [00257] At this point, analysis of Figure 40 follows, for an enlarged fragmented view of a part of Figure 39, which allows to view the sealing arrangement 538, the sealing member 540 and the sealing member 541 in more detail.
[0258] [00258] The analysis of Figure 38 follows. Figure 38 is a cross-sectional view similar to Figure 39, except that it was obtained in a different location. In general, assembly 501 can be viewed as having been rotated counterclockwise in Figure 39, if viewed from above, sufficiently so that the entire outlet tube 504 (Figure 39) is no longer viewed. In Figure 38, resources corresponding to those previously described are numbered accordingly.
[0259] [00259] Next, Figures 41 and 42 are analyzed, in which several exploded views of assembly 501 are provided.
[0260] [00260] Firstly referring to Figure 41, the assembly 501 is represented with a cover assembly 515 separate from the base of the housing 514. The cartridge 506, partially removed from the base of the housing 514, can be viewed. Note that the representation in Figure 41 is partially exploded, and generally reflects how the components would be separated (in the field) during normal maintenance.
[0261] [00261] As with the arrangement in Figure 11, the cover assembly 515 for the particular assembly 501 shown comprises a center piece or center cover (part) 550 and a peripheral installation ring 551. For the example shown, when the service cover assembly 515 is positioned on assembly 501, installation ring 551 can be rotated in relation to the centerpiece (center cover) 550. installation ring 551 can be rotated between the locked (tight) and unlocked (loose) positions ). When the installation ring 551 is in the unlocked position, the access cover or cover assembly 515 can be removed from the housing base 514. When the installation ring 551 is rotated to the locked (tight) position, the cover assembly 515 it cannot be separated from the housing 514. It can be seen that, in Figure 41, the installation ring 551 is shown in rotating orientation in the locked or tight position in relation to the base of the housing 514, in the exploded view shown.
[0262] [00262] Still referring to Figure 41, it is noted that, for the particular assembly 501 shown, the installation ring 551 and the base of the housing 514 are configured in such a way that: normally the rotation for the locked or tight position is a clockwise rotation when viewed from above; and so that the rotation for the unlocked orientation is a counterclockwise rotation when viewed from above. Of course, opposite operational configurations are possible.
[0263] [00263] At this point, analysis of Figure 42 follows. Figure 42 is a second top perspective view, exploded (isometric) of assembly 501. The figure shows the additional separation of the components of Figure 41 and, in reality, represents how the Selected components can be produced for assembly, contrary to how the parts would be separated during maintenance.
[0264] [00264] For example, with reference to Figure 42, attention is directed to the base of the housing 514. Here the threaded inserts 518z are shown separately from the installation pads 518x. Normally, once the base 514 is assembled with the threaded inserts 518z in it, the inserts 518z are not separated again during the normal life of the product. Still referring to Figure 42, centerpiece 550 and ring 551 are shown in exploded or separate view. Normally, once the two parts are fixed (for example, fitted) together, during the initial assembly of the 501 arrangement, they are typically not separated again during the life of the product.
[0265] [00265] Still referring to Figure 42, the sealing member or arrangement 538 is shown separately from the end piece 522. For a typical assembly, since the sealing member 538 is installed in the end piece 522, it typically it is not separated again during the service life of the 506 cartridge, although alternative possibilities exist. The sealing member 538 is discussed further below with respect to the other figures.
[0266] [00266] Note that, even in Figure 42, not all components are shown in a fully exploded view. For example, seal 539 is shown positioned on cartridge 506, as a sealing member positioned around it. In addition, the means 520 is shown positioned as part of the cartridge 506.
[0267] [00267] The operation of the installation ring 551, is in general analogous to that of ring 51, discussed with respect to the arrangement of Figures 1-27. It can be understood that the installation ring 551 includes a latch projection arrangement 551x comprising a plurality of latch projections 551p each having a lower projection internally and radially extended 551r, see Figures 39, 40. After the cover 515, Figures 37-41, is positioned at the base of the housing 514, the upright 551 can be rotated until the lower projections 551r are positioned under the projections 514p, Figure 41, on the base of the housing 514. The base of the housing 514 and the installation ring 551 can be provided with fitting settings adjusted to inhibit the interlock subject to the vibration of the equipment involved. In addition, the 514p projections can be provided with a cam engaging surface for the initial engagement with the 551p lock projections, to facilitate locking. Such cam arrangements are shown in 514c, Figure 41.
[0268] [00268] As in the arrangement of Figures 1-27, installation ring 551 is configured to rotate independently of the center of the cover 550 when locking the access cover 515 in place, so that, after unlocking, the entire cover access code 515 can be removed. Optional markings 554 can be provided on centerpiece 550, with additional markings provided on installation ring 551, configured to operate together and show when locking or interlocking has been obtained.
[0269] [00269] As with the arrangement of Figures 1-27, the engagement represented between the installation ring 551 (that is, the assembly of the service cover 515) and a base of the housing 514 occurs through a "coupling arrangement unthreaded rotary ". The exemplary rotating engagement arrangement comprises a plurality of retainers or locking projections 551p, on ring 551, which align (during locking) to a plurality of projections or retainers 514p at the base of housing 514 without the engagement using threads. Naturally, in the alternative, a threaded arrangement (a form of rotating coupling arrangement) can be used with many of the principles of the embodiment in Figure 1.
[0270] [00270] Next, Figures 43-54 are analyzed in relation to the configuration of the cartridge 506 and the components attached to the cartridge 506. In Figures 43-45, several side views of the cartridge 506 are represented. Referring to Figure 44, the first particular sealing member 539 depicted defines a non-orthogonal seal to the central geometric axis X. In fact, in the example, the sealing member 539 defines a flat seal non-orthogonal to the central geometric axis X. The view of Figure 43 refers to the top face of the seal 539, and the view of Figure 45 refers to the bottom face of the seal 539. The seal 539 is discussed more fully below.
[0271] [00271] In Figure 46, a perspective or isometric view of the bottom of the 506 cartridge is provided, and in Figure 47 a perspective or isometric view of the top of the 506 cartridge is provided.
[0272] [00272] In Figure 48, a schematic cross-sectional view obtained in general along line 48-48, Figure 43 is shown. With reference to Figure 48, cartridge 506, again, comprises an extension of medium 520 (which has the opposite ends 520a, 520b) in orientation surrounding the interior of the open filter 521 and the geometric axis X. In the exemplary cartridge 506 shown, one end 520a is oriented adjacent and superimposed on the first part of the end 522. In the example shown, the second end 520b is also engaged by an end piece, in this case, the second end piece 523. Thus, for the exemplary arrangement 506 shown, the means 520 is positioned in the extension between the end pieces 522, 523.
[0273] [00273] In general, and still referring to Figure 48, in a typical cartridge 506, the medium 520 is positioned surrounding a support of the central cartridge 570. In the example shown, the support of the central cartridge 570 comprises a plurality of extensions or striations longitudinal strips 571 interconnected by transverse streaks or radial streaks 572, defining an open porous structure that allows the occurrence of gaseous flow during use.
[0274] [00274] Although alternative possibilities exist, typically medium 520 is a generally cylindrical construction, positioned around the central geometric axis X. Medium 520 can be a spiral construction produced from / with multiple windings or spirals of the medium, around the support 570, if desired. This will be typical. Note that typically the medium 520 (before winding) will have a length (in the direction of the extension between the ends 520a, 520b) that is slightly greater than the distance between the end pieces 522, 523. This will avoid gaps between the medium 520 and parts 522, 523 when the medium is installed, then there is typically no need for an adhesive or potting between the medium and the end pieces 522, 523. Although not shown, a groove arrangement or other feature adjustment device can be installed on one or both end pieces 522, 523 for adjustment engagement with means 520 to prevent a leak path between them.
[0275] [00275] Still referring to Figure 48, the exemplary cartridge 506 shown is shown with the support of the central cartridge 570 formed in a single piece with the bottom end piece 523. This is typical, although alternative possibilities exist.
[0276] [00276] Furthermore, the cartridge 506 shown is shown with the upper end part 522 formed in a single piece with the cartridge holder 570. This is also characteristic, although alternative possibilities exist.
[0277] [00277] Still referring to Figure 48, when the end piece 520, the central support 570 and the end piece 523 are formed in a single piece integral with each other, as shown, in general the resulting construction comprises a coil 573 to the around which the means 520 can be screwed, for convenient construction. Although alternative possibilities exist, this is a convenient system for use in many cartridge arrangements that use the principles in accordance with the present description.
[0278] [00278] Still referring to Figure 48, the particular cartridge 506 shown is shown with the bottom end piece 523 closed in the extension through the interior of the open filter 521. That is, a central part 523c of the cartridge 506 is closed, that is that is, it has no through opening, although there are alternative possibilities in some applications or principles described here. This closed end part 523 is typical for a cartridge 506 configured for "in-out" gas flow during filtration, that is, where filtration normally occurs while gases flow from the inner perimeter 520i of the medium 520 to the perimeter external 520p. It is noted that many of the features described here can be applied in an assembly where the cartridge is configured to flow in the opposite direction, that is, from "outside to inside" during filtering.
[0279] [00279] Still referring to Figure 48, we now contemplate the end piece 522. Note that, for the particular cartridge 506 shown, no sealing member is positioned in a place that surrounds any part of the medium 520, and no part of the upper part 522 protrudes downwards to a location surrounding the medium 520. This is typical when the cartridge 506 is assembled using the preform or coil as described (comprising the end piece 522, the central support 570 and the end piece 523 formed in a single solid piece) with the middle 520 screwing around it, since this type of arrangement facilitates the screwing. However, many of the principles described here can be applied in alternative arrangements, for example, where one or both end pieces 522, 523 and support 570 are formed separately from one or more of the others, and the parts are fixed together during assembly, for example, with a socket, ultrasonic welding, thermal welding or adhesive.
[0280] [00280] In Figure 48, the first part of the end 522 can be viewed as being, in the example shown, in a location "above" of the medium 520, in orientation for normal use. This is typical, again, when the cartridge 506 is assembled using the preform or coil 573 as described, with a thread of the medium 520 around it. It is reiterated that alternatives are possible.
[0281] [00281] Referring to Figure 47, the cartridge 506 can be viewed as having a perimeter ring 522z on the first end piece 522 that projects upward around an outer perimeter of the first end piece 522 and provides the region of the recess 522y above the middle 520, Figure 47. The projection of the perimeter 522z is typically a rigid structure configured, in part, to support one of the seals or sealing members 540.
[0282] [00282] Still referring to Figure 47, the upper surface 522u of the end piece 522 is generally surrounded by the region 522z. Projecting upwardly from surface 522u, end piece 522 includes flow projection 522s. The sealing member 539 is installed in the flow projection 522s. The end piece 522 further includes optional support flanges 522f extended between the perimeter part 522z and the projection 522s for strength purposes. In Figure 48, the cross-sectional view is obtained through two of the flanges 522f, so that the region of the recess 522y in the end piece 522 is not seen in that figure.
[0283] [00283] As indicated and with reference to Figure 48, the first end piece 522 includes a central opening 522a through, which is an opening of the gaseous flow through the center of the end piece 522, typically centered on the geometric axis X. exemplary assembly shown, opening 522a is an opening for the inlet of the gas flow to the cartridge 506, since the gas flow to be filtered passes into the cartridge 521 through the opening 522a. This is typical with "in-out" flow arrangements.
[0284] [00284] Still referring to Figure 48, the sealing member of the housing 539 is installed in a central projection 522s and in the example shown, it comprises an O-ring 539o. Although this O-ring is typical, alternatives such as in-place seals are possible.
[0285] [00285] The sealing member 540 comprises a part of the sealing arrangement 538, which will typically be precast and fitted to the end piece 522, with a recessed part in the peripheral recess 522k. The member 538 shown includes two sealing members thereon: a radially outwardly projected ring or groove comprising the sealing member 540 discussed previously; and, the upper sealing flange directed outward 541. The sealing flange 541 can be viewed as a sealing flange configured to project, at least in part, in the opposite direction to the medium 520 in an axial manner, that is, at least partly in the direction of the longitudinal geometric axis X. The particular flange 541 shown also extends radially outwardly in opposition to the central geometric axis X, while it extends contrary to the middle 520 and the end piece 522. The flange 541 can be viewed as an axial sealing flange, as it will generally engage the part of the relevant housing with sealing forces generally directed in the axial direction.
[0286] [00286] Looking at the cross-sectional view of Figures 39 and 40, the exemplary seal ring 540 shown defines a seal directed radially outwardly against the top of an inner surface of the housing base 514. The seal flange 541 is configured to engage, in the example, axially as a lip seal, on the peripheral flange 550p over the central part 550 of the access cover 515. The seal 541 will inhibit the gaseous flow in or out of the assembly 501 between the cover assembly 515 and base 514 during use. Sealing 541 is advantageous, but it is not mandatory in all applications of the techniques described here so that some minimal advantage is obtained.
[0287] [00287] The sealing ring 538 can be precast in rubber or rubberized material such as AEM (ethylene acrylic similar to rubber, sometimes called AECM) and then be stretched to fit the end piece 522. In Figures 52- 54, seal ring 538 is shown separate from the rest of cartridge 506. In Figure 51, a side view is shown. In Figure 52 a plan view is shown. In Figure 53, a cross-sectional view taken along line 53-53, Figure 52, is shown.
[0288] [00288] Note that the exemplary seal ring 538 shown has a plurality of openings 538a (in the example shown, four). These openings 538a are installation openings sized, located and separated to allow parts of the end piece 522 to extend and pass through when seal ring 538 is installed on the remainder of cartridge 506. In Figure 48, two of these projections 522m onto the end piece 522 are shown extended through two of these openings 538a.
[0289] [00289] Looking at the perspective views of Figures 46 and 47, it is understood that the end piece 522 includes a plurality of projections 522m directed radially out of it. It is also understood that the sealing ring 538 is configured to allow projections 522m to extend through it, in radially external projection. From the analysis of Figure 41, it is understood that the projections 522m will be seated in the receivers 560 at the top of the base of the accommodation 514.
[0290] [00290] It is further understood, through the analysis of Figures 39 and 40, that, if the cartridge 506 is not present, the projections 522m will not cause sufficient separation of the access cover 515 from the base of the housing 514, so that the interlock occurs firm when ring 551 is rotated. In this way, assembly 501 operates analogously to assembly 1, Figures 1-27.
[0291] [00291] In even more general terms, and by analogy to the arrangement of Figures 127, the assembly of Figures 37-56 includes an arrangement of the spacer (or vertical spacer) at the base of the housing / access cover (or access cover / base of the housing) in the 506 cartridge. The spacer arrangement of the access cover / base of the exemplary housing comprises a part of the 506 cartridge (in the example shown, comprising parts of the spacers or projections 522m and devoid of sealing material) which is positioned between parts the base of the housing 514 and the access cover 515, when the cartridge 506 is properly installed. The spacing caused by the spacer arrangement ensures that the installation ring 551 is not loose when rotated, that is, it will be tightened properly. If the spacer arrangement is not present, for example, due to the absence of the cartridge 506 of the assembly 501, the installation ring 541 will be loose, that is, it will not engage firmly in the base of the housing 514.
[0292] [00292] In the example shown, the arrangement of the access cover / base spacer of the housing comprises a projection arrangement (that is, the 522m projection) oriented to project radially outwards from a positioned location, in the direction the extension of the central geometric axis X, between the first sealing member of the housing 539 and the second sealing member of the housing 540. In addition, the projection arrangement, of the spacer arrangement, in the example shown comprising the members 522m, projects up to one radially outwardly from a maximum external radial extension of the projection or extension, from the central geometric axis X, the second sealing member of the housing 540; and, in the example shown, the maximum external radial extension, from the central geometric axis X of the first sealing member of the housing 539.
[0293] [00293] At this point, the analysis of Figure 51 follows, a view of the top plane of the 506 cartridge. In this case, the projections 522m can be seen extended radially outside the perimeter of the end piece 522. It is also possible to observe the grooves 571 in the support 570. Note that the grooves 571x and 571y are positioned adjacent to each other, and create a rotary indexing with part of the access cover 515 in use. In this regard, attention is directed to the representation of Figure 55, which shows an isometric view of the bottom end cover or end cover assembly 515. The central projection 565 can be viewed with the inclusion of a plurality of slots or receivers 566. The projection 565 is long enough so that it cannot fully lower into the central opening 522a, Figure 51, unless the rotating alignment between the access cover 515 and the cartridge 500 is such that the pair of splines 571x, 571y engage in the widest slot 566x. This means that, once the cartridge 506 is installed in the housing 514, the access cover 515 can only be positioned properly when the projection 565 is in the selected rotation orientation in relation to the cartridge 506; the same is valid for the rest of the central section 550.
[0294] [00294] In general terms, assembly 501 includes a rotating alignment or indexing arrangement of the access cover / filter cartridge (or filter cartridge / access cover). This rotary indexing arrangement (or alignment) is an arrangement that means that the access cover 515 can only be installed when the selected rotary alignment is performed in relation to the 506 cartridge. For the exemplary assembly 501 shown, this rotary alignment arrangement allows only one rotation orientation selected between access cover 515 and cartridge 506 during proper assembly. This single selected rotating arrangement occurs when the pair of adjacent splines 571x, 571y is received in the widest slot 566x. However, in even more generic terms, it can be viewed as a projection / receiver arrangement for interaction between cartridge 506 and access cover 515 that is indexed to engage correctly only in the selected orientation; in the example shown, only a radial alignment, although alternative possibilities exist.
[0295] [00295] Again with reference to Figures 43-45, for the particular assembly 501 shown and, in particular, the cartridge 506, the first sealing member 539 is not orthogonal to the central geometric axis X. In fact, for the example shown, the sealing member 539 defines a sealing plane, which plane does not extend orthogonally to the central geometric axis X. In a typical arrangement, the sealing 539 defines a sealing plane extended at the acute angle Z (Figure 44) with a plane that is orthogonal the central geometric axis X, of at least 1 °; usually at most 30 °; in general in the range of 2 ° -20 °; including.
[0296] [00296] At that time with reference to Figure 39, the seal or sealing member 539 is configured, in the example shown, to form a radial seal against the sealing flange 580 on the central member 550 of the access cover 515. As indicated , the particular sealing member 539 is an O-ring, and is configured to form an outward-facing seal, although alternative possibilities exist.
[0297] [00297] Sealing flange 580 is shown in Figure 55. The inner surface of flange 580, which forms the sealing surface with the first sealing member 539 of cartridge 506, can be configured to properly engage only with sealing member 539 in a single rotation orientation, since the assembly includes the arrangement of the rotary alignment described above between the access cover 515 and the filter cartridge 506.
[0298] [00298] Still with reference to Figure 55, previously described features include that the central part 550 and the peripheral installation ring 551 fit together to form the assembly 515; locking projections 551p with internal radial projections 551r on them. The 551r projections can be viewed as having a retention or similar configuration to facilitate interlocking with the 514s projections, Figure 41. In addition, the 551z projections, Figure 55, can be used to facilitate the interaction that will not be promptly separated after the coupling with the resources at the base of the housing.
[0299] [00299] At this moment, analysis of Figure 49 follows, a plan view of the bottom of the cartridge 506. The lower end part shown 523 has an external perimeter 523p defined by the spaced projections 590. Note that one of the projections 591 is shorter in the radial external extension than most (and in the example, all) of the rest. This contributes to providing preferential indexing or radial alignment between the cartridge 506 and the base of the housing 514, which in part can be understood in reference to Figure 56.
[0300] [00300] With reference to Figure 56, the base of the housing 514 includes the wall or ring of the internal flange 532 surrounding the bottom 514b and extended upwards. The splines 593 are provided along the interior of the wall 532. In general, any of the projections 590, Figure 49, will engage the splines 593, preventing the complete descent of the cartridge 506 to the base 514, except for a radially shorter 591. Thus, unless the cartridge 506 is rotated to a shorter projection 591 to align with the splines 593, the cartridge 506 cannot be fully lowered to the base of the housing 514. This means, for the example shown, that the cartridge 506 can only be installed at the base of housing 514 in a single selected rotation orientation. Of course, more than one projection can be a short projection to allow for an alternate number of rotating alignments.
[0301] [00301] In general terms, then, the assembly of Figure 37-56 includes a rotating alignment arrangement (indexing) of the base of the housing / filter cartridge (or filter cartridge / base of the housing). The rotating alignment arrangement (indexing) is configured so that the 506 cartridge can only be fully lowered to the base of the housing when the selected rotation orientation (s) is defined. This rotary alignment arrangement is generally provided by the second end piece 523 which has a non-circular outer perimeter and size and shape that can only be inserted into the base of housing 514 fully, in the selected rotation orientation (s) ( s). In the example shown, the outer perimeter of the lower end part 523 is configured so that only one orientation is provided. Therefore, the cartridge 506 can only be fully lowered if the gear with the splines 593 is avoided, in the example represented by the shorter projection 591.
[0302] [00302] In the example shown, the rotating alignment between the access cover and the housing base is provided by two general resources. The first is the perimeter gear described in the previous paragraph. The second is that the projections 522m can only engage the recesses 560, Figure 41, for the complete descent of the cartridge, if the cartridge 500 is correctly aligned rotatively (in this case, in one of the four rotation directions). The particular arrangement of the rotating alignment of the base of the housing / filter cartridge shown, then, allows only a single rotation orientation after the complete installation of the cartridge 506 in the base of the housing 514. Naturally, in alternative applications, with many of the techniques described herein, the arrangement of the rotating alignment can be configured to allow more than one rotating alignment.
[0303] [00303] In general characterizations, therefore, the arrangement of the rotating alignment between the base of the housing and the filter cartridge is a projection / receiver arrangement that engages properly only to allow complete installation of the 506 cartridge, when one or more is obtained appropriate rotation directions selected between the two.
[0304] [00304] At this point, analysis of Figure 50 follows, a cross-sectional view of the 506 cartridge in general analogous to Figure 48. In 50, the exemplary dimensions of an exemplary assembly are represented for the general understanding of the principles. Naturally, the principles can be applied to a range of alternative assemblies, of different sizes. In Figure 50, the exemplary dimensions indicated are as follows: ZA = 104.3 mm; ZB = 71 mm; ZC = 39.6 mm; ZD = 126.8 mm; ZE = 112.2 mm; ZF = 141.6 mm; e, ZG = 74.2 mm.
[0305] [00305] Note that, in the example shown in this case, each sealing member 539, sealing member 540 and sealing member 541 in general define a circular pattern. Alternatives to one or more of the aforementioned seals are possible. For example, one or more of these seals would generally form an elliptical pattern. It may be particularly convenient for seal 540, which engages the base of the housing in a radial manner, to form a non-circular seal if the housing portion at that location is not circular.
[0306] [00306] It is also noted that the sealing members 539, 540 and 541 can be configured in a "flat" manner, that is, defining an extension plane. Although typical, this is not specifically mandatory in all applications of the principles described here. IX. General principles
[0307] [00307] In accordance with the present description, ventilation filter systems of the engine housing are provided; components; resources; and, methods of assembly and use. It is not specifically required that all the features described in an example be incorporated into a given system in order for that system to obtain any advantage according to the present description. It is possible to develop modalities in which only the selected advantages are obtained, without realizing all the possibilities described here.
[0308] [00308] The present description can be used to provide several advantageous features and characteristics for assembling the engine housing ventilation filter. Two types of features depicted that can be selectively applied to confer a particular advantage include: an arrangement of the access cover / base spacer provided in the filter cartridge; and the sealing arrangement of the advantageous housing provided in the filter cartridge. These resources can be deployed together in an advantageous way. However, it is not specifically required that the features be deployed in the same cartridge to gain an advantage. Generally speaking, when the two features (spacer arrangement and sealing arrangement) are applied to the same cartridge, a particularly advantageous motor housing ventilation filter cartridge for installation in the housing, in use, can be provided.
[0309] [00309] The engine housing ventilation filter cartridge generally comprises an extension of the filter medium surrounding and defining an open filter interior, and the central geometric (longitudinal) axis, the extended means to define the first and second ends . The filter medium can be cylindrical, however, alternative shapes are possible. The medium can be looped, however, alternative configurations are possible.
[0310] [00310] The cartridge includes a first end piece adjacent to a first middle end. Typically, the first end piece is positioned with the first end of the medium contiguous to the first end piece, with the first end piece fully extended through the first end of the middle.
[0311] [00311] The cartridge may include a second end piece at an opposite end of the medium from the first end piece. The second end piece can be configured with parts fully extended through the second end of the medium, but alternatives are possible that provide preferential downward drainage from the medium in use.
[0312] [00312] When the preferred housing sealing arrangement shown is used, the first housing sealing arrangement includes a first housing sealing member, typically positioned on the opposite side of the first end piece from the first end of the filter medium . The first sealing member of the housing can be characterized as having a first larger transverse dimension of the perimeter of the D1 seal. This transverse dimension of the perimeter can be a diameter, or it can be the largest transverse dimension of the sealing member, for example, projected in a plane orthogonal to the central geometric axis X. Typically, it will be the largest transverse dimension of a projection on the member of sealing in a plane orthogonal to the central geometric axis X, if the sealing member itself is not in a plane orthogonal to the central geometric axis X.
[0313] [00313] A second housing sealing arrangement is provided that includes a second housing sealing member. The second housing sealing arrangement is positioned on a first end piece. The second sealing member of the housing is generally positioned to have a second larger transverse dimension of the perimeter of the D2 seal. D1 is less than D2, in some application examples.
[0314] [00314] Typically, the second housing sealing member is separated in the direction of the extension of the central geometric axis (i.e., axially or vertically separated in use) from the first sealing member. Typically, the first sealing member is more distant (axially or vertically) from the middle than the second sealing member.
[0315] [00315] The filter cartridge may include the advantageous sealing arrangement and the spacer arrangement of the access cover / base of the advantageous housing. Typically, the spacer arrangement of the access cover / base of the housing comprises a projection arrangement oriented to project radially outwardly from a location positioned, in the direction of the extension of a central geometric axis, between the first sealing member of the housing and the second housing sealing member. The typical projection arrangement, from the spacer arrangement, projects to a location radially outward from a maximum radial external extension, opposite the central geometric axis X, the second sealing member of the housing. Typically, the arrangement of the vertical spacer of the access cover / base of the housing is also oriented to project radially outwardly from the geometric axis X more than any part of the first sealing member of the housing.
[0316] [00316] The arrangement of the projection, the arrangement of the spacer of the base / access cover, can comprise one or more spaced projections and typically comprises a plurality of spaced projections. Typical examples involve 3-6, including, spacer projections, although alternative possibilities exist. Each particular cartridge represented in the modalities of Figures 1—7 and Figures 37-56 has four projections.
[0317] [00317] Typically, the arrangement of the access cover / housing base spacer on the filter cartridge defines a vertical spacer dimension of at least 0.5 mm, typically at least 1 mm, usually at least 2 mm and in general above this value. Generally, the value of the vertical spacing provided should be merely sufficient to ensure that, once the cartridge is installed, the access cover can be fixed firmly to the base of the housing; and so that, if the cartridge is not installed, the access cover cannot be firmly attached to a base of the housing.
[0318] [00318] The spacer arrangement of the access cover / base of the housing may comprise a projection arrangement integrated with the first end piece. Alternatives are possible.
[0319] [00319] In an exemplary arrangement shown with reference to Figures 37-56, a third housing sealing member is configured to form a removable seal, with the housing in the installation, in a location positioned in the direction of the extension of the central geometric axis between the first housing sealing member and the second housing sealing member. In an example shown, the third housing sealing member comprises an integrated part of a (second) housing sealing arrangement, together with a second housing member.
[0320] [00320] In an example shown, in Figure 40, the third sealing member of the housing is configured, as a flexible flange directed at least partially axially and opposite to the middle, to be pressed vertically in axial overlap against a part sealing (in the example, a part of the flange) of an access cover in use. In one example shown, flexible flanges are also configured extended in a radially opposite direction to the central geometric axis of the X cartridge, in an oblique manner.
[0321] [00321] In the selected arrangement examples shown, the second housing sealing member is configured to form a seal directed radially outward with a surrounding part of a housing base, in use. In the example of Figures 1-27, the second sealing member of the housing is an O-ring. In the example of Figures 37-56, the second sealing member of the housing is a sealing flange of the flange 540.
[0322] [00322] In the exemplary assembly of Figures 1-27 and Figures 37-56, the first and second vertically separated housing sealing members are separated from each other and do not comprise integrated parts of a continuous molding construction. Alternatives are possible.
[0323] [00323] Typically, the first and second vertically separated sealing members are separated vertically by at least 0.5 mm, generally at least 1 mm, typically at least 2 mm and at most 50 mm, for example, at least 5 mm and a maximum of 40 mm, and in general a minimum of 8 mm and a maximum of 30 mm. In typical examples, this spacing is a value within the range of 8-30 mm, inclusive.
[0324] [00324] In exemplary arrangements such as those shown in Figures 1-27 and Figures 37- 56, the second sealing member of the housing is defined in (or defines) a sealing plane orthogonal to the central geometric axis of the cartridge. Furthermore, in the example of Figures 1-27 and 37-56, the first sealing member of the housing is defined as not orthogonal to the geometric axis of the central cartridge. In these examples, the first sealing member of the housing defines a flat seal, in a seal plane not orthogonal to this central geometric axis of the cartridge. When the seal of the first housing is defined in a sealing plane, but this plane is not non-orthogonal to the geometric axis of the central cartridge, the plane is typically oriented at an acute angle in the range of 1 ° -30 °, inclusive, in relation to to a plane orthogonal to the central geometric axis of the cartridge, typically an acute angle in the range of 2 ° -20 °, inclusive.
[0325] [00325] In certain exemplary arrangements shown D2 is at least 10 mm greater than D1, typically at least 20 mm greater than D1. In even more general terms, D2 is generally at least 0.5 mm larger than D1, typically at least 1 mm larger, and usually at most 50 mm larger. Typically, the first sealing member of the housing has an external perimeter smaller than the largest transverse dimension of the medium, although alternatives are possible. In the examples shown, the sealing of the second housing has a larger external perimeter than the larger cross-sectional dimension of the medium, although alternative possibilities exist.
[0326] [00326] In accordance with an aspect of the present description, a filter cartridge for the engine housing is provided which includes the first and second end pieces, and an extension of the medium positioned between the first and second end pieces. In the examples shown, the extension of the filter medium surrounds and defines an open interior. A housing sealing arrangement is positioned over the first end piece. The housing sealing arrangement includes the first and second housing seals or vertically (axially) separate sealing members. The first end piece is typically an open end piece that has a central opening of the through gas flow, in communication with the interior of the open filter.
[0327] [00327] The first and second housing seals or vertically (axially) separate sealing members may be parts of a single integrally molded sealing material, or may comprise members molded or installed separately. In a typical example assembly, the elements are separated and each comprises an O-ring, however, alternatives are possible. Unless specifically stated that the first and second housing seals or sealing members are separated from each other, or that each of them comprises an O-ring, or similar language is used, it does not mean that they are members of a single molded member and that are integrated with each other, or that they are separate molded members.
[0328] [00328] Although there are alternative possibilities, in the typical arrangements shown, the second end does not include a central opening through direct communication with the interior of the open filter, that is, its center is closed. The second end piece may have, as an advantage, an arrangement of the axial overlapping drain of the medium therethrough.
[0329] [00329] A variety of exemplary arrangements with sealing members separated vertically on the first end piece are described. In some, the sealing members or vertically separated seals are radial seals or sealing members. In one, the vertically separated sealing members or seals are axial seals or sealing members. A variety of radial seals are described.
[0330] [00330] The examples shown show radial seals that are sealing members directed radially outward, although possible alternatives are indicated. In certain examples of represented arrangements, radial seals are formed by O-rings, although alternatives are also characterized.
[0331] [00331] Each of the radial seals can be flat and positioned on the sealing plane orthogonal to a geometric axis of the central cartridge. Alternatives are described which include at least one in which one of the seals is not orthogonal to the central geometric axis of the cartridge.
[0332] [00332] A variety of sealing arrangements and particular sealing relationships are shown and described, and a variety of vertical spacing is characterized and described.
[0333] [00333] Still, according to the present description, filter cartridges are shown and described that include an arrangement of the spacer of the access cover / base of the housing thereon. Such cartridges are typically configured for use in a housing that comprises a housing base and an access cover. In typical applications, the access cover is fixed to the base of the housing with a rotary interlock, although alternative possibilities exist in some cases. The various rotary interlocking arrangements described include unthreaded interlocking arrangements and threaded interlocking arrangements.
[0334] [00334] The spacer arrangement of the access cover / housing base on the cartridge ensures that, if the cartridge is not positioned in the housing, the access cover will not be installed firmly on the housing base, providing an indication that the correct cartridge is is not installed. In general, the spacer arrangement of the access cover / base of the housing involves the rigid structure that ensures that the spacing is present when the cartridge is installed. In some instances, the rigid structure comprises a projection arrangement that extends to a location outside any seal on the cartridge and that extends to a location between the housing components during installation. In a described example, however, the spacer arrangement comprises a rigid extension (positioned between two axial seals) that does not protrude to a location radially out of the seals or sealing members.
[0335] [00335] Typically, the vertical spacer arrangement provides a spacing dimension of at least 0.5 mm, usually at least 1 mm and in general 2 mm (sometimes at least 3 mm) or more, for example, 3- 40 mm, inclusive. In general, the required value is a value that, if absent, ensures that the access cover cannot be firmly installed or appears to be firmly installed in the housing. With a rotary interlock arrangement, this value is usually a sufficient spacing value so that the installation ring (or access cover) is loose and cannot be tightened or, if an attempt is made to tighten it, it will have a position loose.
[0336] [00336] Also according to the present description, assemblies of the ventilation filter of the motor housing are provided. The assemblies in general include a housing that has a gas flow inlet arrangement, a gas flow outlet arrangement and a coalesced liquid drain outlet arrangement. An example of a housing is shown, which additionally includes an optional condensate drain outlet arrangement, isolated from the coalesced liquid drain outlet arrangement. The housing in general includes a cartridge according to the present characterizations, positioned functionally in the housing. The term "functionally positioned", in this context, means that the cartridge is positioned for the proper use in assembly. Typically, the housing comprises a base of the housing including an access cover arrangement. The access cover arrangement (or service cover) of some examples comprises a central rigid cover part and an installation ring on the perimeter. The installation ring on the perimeter is generally rotatable in relation to the central part of the cover and allows installation on the cover assembly on the base of the housing. Installation rings with threaded engagement interaction for a housing base are described, as well as installation rings that employ a non-threaded rotating engagement arrangement.
[0337] [00337] In an exemplary embodiment shown, the entire access cover can be rotated in relation to the base of the housing, through a rotary interlock. Likewise, however, if the cartridge is not positioned properly, the access cover will become loose as it is rotated.
[0338] [00338] A variety of housing features are featured to accommodate preferred cartridge features.
[0339] [00339] It is noted that structural variations around the specific exemplary arrangements described here are possible, in accordance with many of the principles of the present description. In addition, it is not mandatory that an assembly, housing, resource, component or method includes all the features described here, so that any benefit is obtained in accordance with this description.

权利要求:
Claims (19)
[0001]
Engine housing ventilation filter (6, 106, 206, 306, 506) (451) for removable installation in a housing (102, 202, 302, 502), in use; the filter cartridge (6, 106, 206, 306, 506) for ventilation of the engine housing FEATURED by the fact that it comprises: (a) an extension of filter medium (20, 520) surrounding and defining an open filter interior (21, 521) and a longitudinal central geometric axis (X); (i) extending the filter medium (20, 520) defining first and second ends (520a, 520b); (b) a first end piece (22, 106u, 222, 322, 522), upper in use, adjacent to the first end (520a) of the filter medium; (c) a first housing sealing member (39, 239, 341, 539) positioned on the first end piece (22, 106u, 222, 322, 522); and, (d) a second housing sealing member (40, 240, 340, 342, 540) positioned on the first end piece (22, 106u, 222, 322, 522); (i) the second housing sealing member (40, 240, 340, 342, 540) being spaced, in the direction of the extension of the central geometric axis (X), from the first housing sealing member (39, 239, 341, 539); and (e) a third housing sealing member configured to form a seal with a housing (102, 202, 302, 502), in installation, in a location positioned in an extension direction of the central geometric axis (X), between the first housing seal member (39, 239, 341, 539) and the second housing seal member (40, 240, 340, 342, 540): (i) the third housing seal member comprising an integral portion of a molded housing seal arrangement (538) which includes the second housing seal member (40, 240, 340, 342, 540) in it: (f) an access cover spacer / housing base arrangement (14, 114, 314, 514) positioned on the filter cartridge (6, 106, 206, 306, 506) and comprising a projection arrangement (89) oriented to project radially outwardly from a location positioned, in a direction of extending the central geometric axis (X), between the first housing sealing member (39, 239, 341, 539) and the second sealing member (40 , 240, 340, 342, 540); (i) the projection arrangement (89), of the access cover spacer / housing base arrangement (14, 114, 314, 514), projecting to a location radially out of a maximum external radial extension at least one of the first housing sealing member (39, 239, 341, 539) and the second housing sealing member (40, 240, 340, 342, 540); and (ii) the projection arrangement (89) comprising a flap on the first end piece (22, 106u, 222, 322, 522), upper in use, projecting through an opening (22a, 522a) in the sealing arrangement of molded housing.
[0002]
Engine housing ventilation filter cartridge (6, 106, 206, 306, 506) according to claim 1, CHARACTERIZED by the fact that: (a) the projection arrangement (89), of the access cover / housing base spacer arrangement (14, 114, 314, 514), projects outwards radially outwardly from an externally radial extension maximum of each of the first housing sealing member (39, 239, 341, 539) and the second housing sealing member (40, 240, 340, 342, 540).
[0003]
Cartridge filter cartridge (6, 106, 206, 306, 506) according to claim 1, CHARACTERIZED by the fact that: (a) a projection arrangement (89), of the access cover / housing base spacer arrangement (14, 114, 314, 514), comprises a plurality of spaced projections (90, 590), each one projecting through an associated opening (22a, 522a) in the molded housing sealing arrangement.
[0004]
Cartridge filter cartridge (6, 106, 206, 306, 506) according to claim 1, CHARACTERIZED by the fact that it comprises: (a) the access cover / housing base spacer arrangement (14, 114, 314, 514) has a vertical spacer dimension of at least 0.5 mm.
[0005]
Cartridge filter cartridge (6, 106, 206, 306, 506) according to claim 1, CHARACTERIZED by the fact that: (a) the access cover / housing base spacer arrangement (14, 114, 314, 514) comprises a projection arrangement (89) integral with the first end piece (22, 106u, 222, 322, 522) .
[0006]
Cartridge filter cartridge (6, 106, 206, 306, 506) according to claim 1, CHARACTERIZED by the fact that: (a) the projection arrangement (89) of the spacing arrangement extends radially outwardly from a maximum external radial extension of the third housing sealing member.
[0007]
Cartridge filter cartridge (6, 106, 206, 306, 506) according to claim 1, CHARACTERIZED by the fact that: (a) the third housing sealing member is configured as a flexible flange directed at least partially away from the middle, to be pressed upwardly and axially against part of an access cover (15, 115, 215, 315, 515), in use.
[0008]
Cartridge filter cartridge (6, 106, 206, 306, 506) according to claim 1, CHARACTERIZED by the fact that: (a) the first housing sealing member (39, 239, 341, 539) has a larger perimeter sealing dimension D1; and, (b) the second housing sealing member (40, 240, 340, 342, 540) has a greater cross-sectional dimension of the perimeter D2; where which D1 <D2
[0009]
Cartridge filter cartridge (6, 106, 206, 306, 506) according to claim 1, CHARACTERIZED by the fact that: (a) the second housing seal member (40, 240, 340, 342, 540) is configured to form a seal directed radially outwardly with a surrounding part of a housing base (14, 114, 314, 514), in use.
[0010]
Engine housing ventilation filter (6, 106, 206, 306, 506) according to claim 6, CHARACTERIZED by the fact that: (a) the second housing sealing member (40, 240, 340, 342, 540) is defined on a sealing plane orthogonal to the central axis (X).
[0011]
Engine housing ventilation filter (6, 106, 206, 306, 506) according to claim 6, CHARACTERIZED by the fact that: (a) the first housing sealing member (39, 239, 341, 539) is non-orthogonal to the central axis (X) of the cartridge (6, 106, 206, 306, 506).
[0012]
Engine housing ventilation filter (6, 106, 206, 306, 506) according to claim 6, CHARACTERIZED by the fact that: (a) the medium (20, 520) has a first external perimeter (20p, 520p); and, (b) the first housing sealing member (39, 239, 341, 539) has a transverse dimension with a larger outer perimeter smaller than the first outer perimeter (20p, 520p) of the middle (20, 520).
[0013]
Engine housing ventilation filter (6, 106, 206, 306, 506) according to claim 6, CHARACTERIZED by the fact that: (a) the medium (20, 520) has a first external perimeter (20p, 520p); and, (b) the second housing sealing member (40, 240, 340, 342, 540) has a transverse dimension of greater perimeter than the first external perimeter (20p, 520p) of medium (20, 520).
[0014]
Engine housing ventilation filter (6, 106, 206, 306, 506) according to claim 6, CHARACTERIZED by the fact that it includes: (a) a second end piece (23, 523) adjacent the second end (520b) of medium (20, 520); (i) the second end piece (23, 523) including a first member of a cartridge-for-housing base indexing rotary alignment arrangement (14, 114, 314, 514).
[0015]
Engine housing ventilation filter (6, 106, 206, 306, 506) according to claim 6, CHARACTERIZED by the fact that it includes: (a) a second end piece (23, 523) adjacent to the second end (520b) of medium (20, 520) having an outer perimeter (20p, 520p) including a plurality of spaced projections projecting radially outwardly ( 90, 590).
[0016]
Engine housing ventilation filter (6, 106, 206, 306, 506) according to claim 6, CHARACTERIZED by the fact that: (a) the first end piece (22, 106u, 222, 322, 522) includes a central tubular projection that has a projection tip and extends through the first end cap; and, (i) the central tubular projection including an internal surface (28, 528) with a first member of a cartridge-for-housing projection / cover arrangement (15, 115, 215, 315, 515).
[0017]
Engine housing ventilation filter (6, 106, 206, 306, 506) according to claim 6, CHARACTERIZED by the fact that: (a) the second sealing member (40, 240, 340, 342, 540) defines an elliptical seal directed radially outwards.
[0018]
Assembly (1, 101, 201, 301, 401, 501) of filter cartridge (6, 106, 206, 306, 506) for engine housing ventilation, as defined in claim 6, CHARACTERIZED by the fact that: (a) the first end piece (22, 106u, 222, 322, 522) includes a central tubular projection that extends in a direction that extends from the middle (20, 520) to the tip of the projection; (i) the projection tip has an end surface defined in a non-orthogonal plane for a central geometric axis (X) cartridge.
[0019]
Assembly (1, 101, 201, 301, 401, 501) of the filter cartridge (6, 106, 206, 306, 506) of the engine housing ventilation as defined in claim 15, CHARACTERIZED by the fact that: (a) one of the spaced projections projecting radially outward (90, 590) is shorter in the radial projection outward than at least most projections projecting radially outward (90, 590).

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US20170120180A1|2017-05-04|

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WO2013003762A2|2013-01-03|

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CN106014538A|2016-10-12|

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法律状态:
2018-04-03| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]|

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2019-07-30| B06U| Preliminary requirement: requests with searches performed by other patent offices: procedure suspended [chapter 6.21 patent gazette]|

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2020-07-14| B06A| Patent application procedure suspended [chapter 6.1 patent gazette]|

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2020-12-08| B09A| Decision: intention to grant [chapter 9.1 patent gazette]|

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2021-01-26| B16A| Patent or certificate of addition of invention granted [chapter 16.1 patent gazette]|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 29/06/2012, OBSERVADAS AS CONDICOES LEGAIS. |

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US201161503063P| true| 2011-06-30|2011-06-30|

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US201261664340P| true| 2012-06-26|2012-06-26|

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