• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Seal system for cartridge filter, comprising a body (1), cylindrical configuration, and a lid (2), which closes tightly the body (1), where the body (1) comprises a projection (8) ), for the support of the cover (2) and a recess (6) for receiving a stop (4) and the cover (2) comprises a perimeter recess (7) for receiving a hollow joint (3) that it is inflated by supplying a fluid through a tube (5) to exert a pressure on the internal wall of the body (1) that generates the tight seal of the filter. Assembly process of the previous sealing system for cartridge filter. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2648637A1
    申请号:ES201630705
    申请日:2016-05-30
    公开日:2018-01-04
    发明作者:Andoni ZELAA IBARLUZEA
    申请人:Fluytec SA;
    IPC主号:
    专利说明:

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    DESCRIPTION
    OBJECT OF THE INVENTION
    The present invention relates to a sealing system for cartridge filter.
    Find special application in the field of industry related to hydraulic filters.
    TECHNICAL PROBLEM TO BE RESOLVED AND BACKGROUND OF THE INVENTION
    Cartridge filters are filtration equipment that consists of filter cartridges housed in a body that is connected to a hydraulic conduit and, therefore, is subjected to the hydraulic pressure with which the conduit works. The pressure filter consists of a body, or ferrule, and one or more covers that are mechanically fixed. The attachment of the filter to the hydraulic conduit is carried out in a manner known in the state of the art and is not part of the present invention, so its constructional form is not detailed.
    Cartridge filters are used in different applications such as systems for purification, for industrial water filtration, for the food industry, for the agricultural industry and for desalination plants. In the application focused on desalination systems, the fiberglass reinforced polyester (GRP) is used as a material, because this material has an optimal performance against water with different degrees of salinity, which implies a considerable reduction in the system maintenance.
    Cartridge filters are systems that basically consist of a body, which is connected to a hydraulic conduit, in which one or more cartridges with appropriate material for water filtration are incorporated. The filter also incorporates a lid that seals it tightly and, therefore, also closes the hydraulic conduit. In this way, when printing pressure to the hydraulic line, the filter is also pressurized, the water exerting a pressure on the cover that is supported by the closure system incorporating the filter of the invention. However, the cover must be removable, so that the cartridges can be accessed for review or replacement.
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    In the current state of the art a variety of devices related to the seal systems used in the cartridge filters are known. One of the most used systems is based on a flanged cover-body joint. This system allows the body cover to be disassembled for maintenance or replacement of cartridges.
    The cover-body assembly is tightened by a series of bolts and nuts placed around the joint. The number and dimensions of the bolts to be used are calculated according to the ASME code.
    An existing alternative to the flanged joint consists of locking systems that include tilting hardware. These systems facilitate assembly since the screws are held in the body. However, they are quite less economical systems, since they do not use standard screws. In addition, they cannot be used in GRP bodies, being intended for metal parts.
    Another alternative consists of clamping systems with jaws. This system has a fairly flexible closure in terms of the number of jaws to be used in each case, although it is less economical than previous systems. In addition, it needs external fixing elements for the jaws, which are usually bars attached to the external wall of the body.
    Thus, the aforementioned devices pose a series of problems such as those mentioned below.
    In systems that incorporate flanges, maintenance times are high. Flange equipment maintenance requires an operator to disassemble all studs from the flanged joint. This procedure can be extended for several minutes. Once the maintenance is finished (cartridge change, cleaning, change of gaskets, etc.), the operator will have to screw each of the bolts of the flanged joint again according to a bolt tightening pattern described in the maintenance manual.
    As for systems with the use of tilting hardware and jaw systems, although it is true that they can reduce maintenance time, it is also true that they are more expensive systems, since they do not use standard screws and,
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    usually, they are not used in GRP bodies.
    In addition, corrosion resistant materials are not used for these types of systems.
    Finally, the manufacture of these systems in several components, consisting of a body and one or two covers joined by flanges, makes them have a complex manufacturing and assembly.
    There is in the state of the art an alternative system consisting of a closing system, which does not include screws or bolts, so that attempts are made to avoid the problems that these parts entail. The system is based on two holes made in the body. In the first, more internal, an O-ring of elastomeric material, such as EPDM, is placed. The cover is mounted on the body supported by a projection, so that it exerts pressure on the joint, creating tightness in the filter. In the outermost pocket there are closing elements that exert pressure on the lid, keeping the system fixed. This system presents a series of problems, among which are the difficulty of manufacturing and the assembly of the lid, having to be of very exact dimensions so that it creates an effective pressure on the O-ring and the desired sealing is carried out .
    The present invention solves the aforementioned problems by presenting a sealing system for cartridge filters of any type of dimensions, completely eliminating all types of mechanical joints by external elements. In this way, the system has the following advantages:
    - Absence of external fixing elements, jaws, screws and outer nuts.
    - Compact filter with a single body.
    - Unbeatable corrosion resistance.
    - Simple opening and minimum maintenance.
    - Valid for diameters of any dimension.
    - Small space.
    - Cost optimization.
    DESCRIPTION OF THE INVENTION
    The present invention describes a sealing system for cartridge filter.
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    The cartridge filter is configured by a cylindrical geometry body, where the filter cartridges are housed.
    The closing system comprises a cover that is fixed on the filter body to close it tightly.
    On the one hand, the configuration of the body is such that it has a protrusion, where it supports the lid, and a recess, located more towards the free end of the body, for the accommodation of a stop, whose function is to prevent movement of the cover due to the pressure exerted by the fluid inside the filter. The stop is formed by at least two pieces that can be independent or, preferably, form a revolution geometry of quadrilateral section.
    To facilitate the assembly and disassembly of the stop, the surface of at least one end, of at least one of the pieces that form the stop, is not coplanar with the axis of rotation of the revolution geometry.
    On the other hand, the configuration of the lid is such that it is housed in the body tightly. The cover has a perimeter recess for the accommodation of a hollow and inflatable joint. The lid also has a hole through which a tube, connected to the joint, passes through to supply a fluid, liquid or gas, from an external source, for inflation.
    The tube incorporates a closing mechanism, such as a key with a stop valve or simply a plug. The tube can also incorporate a hydraulic connection to the external fluid supply source.
    The stop, housed in the recess of the body, is located on the cover, preventing the movement of the cover due to the pressure exerted by the fluid in the hydraulic conduit inside the filter.
    In this way, by connecting the tube to the external source of fluid supply, the gasket inflates and exerts pressure on the inner wall of the body creating a tight seal of the filter.
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    Since a usual application of the filter of the invention is for desalination plants, both the body and the lid are made of polymer material and, more particularly, of glass fiber reinforced polyester, so that they can resist degradation by contact with Saline fluids
    The invention also describes the process of assembling the closure system in the filter. Starting from the tube and the gasket installed in the lid, this process includes the following phases:
    a) Insert the cover into the filter body until it rests on the shoulder;
    b) Insert the stop parts into the body recess;
    c) Supply fluid to the joint through the tube;
    d) Close the tube.
    In particular, the fluid can be supplied to the joint by hydraulically connecting the tube to an external source. In this way, once a pressure of at least 1 bar has been reached, which generates the seal tightness between the joint and the inner surface of the filter body, the tube is closed and the external supply is closed.
    BRIEF DESCRIPTION OF THE FIGURES
    To complete the invention that is being described and in order to help a better understanding of the features of the invention, according to a preferred embodiment of the invention, a set of drawings is attached where, for illustrative purposes and not limiting, the following figures have been represented:
    - Figure 1 represents a perspective view of the closure system of the invention, sectioned to show the elements that compose it.
    - Figure 2 represents a sectioned and exploded perspective view of the components of the closure system of the invention, with the exception of the stop, which has been shown without sectioning.
    The following is a list of the references used in the figures:
    1. Body
    2. Cover.
    3. Board.
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    4. Stop.
    5. Tube
    6. Recessed body.
    7. Recessed lid.
    8. Highlight.
    DESCRIPTION OF A PREFERRED EMBODIMENT OF THE INVENTION
    The present invention relates to a closure system for cartridge filter.
    As can be seen in the figures and, more clearly in Figure 2, the cartridge filter where the closure system of the invention is installed comprises a body (1), of cylindrical geometry, in which the cartridges are inserted , which is connected to the hydraulic conduit through which the fluid to be treated circulates.
    The body (1) incorporates a shoulder (8) that acts as a base for the housing of the cover (2) by means of which the body (1) of the filter is closed. The cover (2) incorporates a perimeter pocket (7) in which a gasket (3) is housed, which is preferably flexible and hollow. The cover (2) also incorporates a hole for the passage of a tube (5), connected to the joint (3), intended to supply a fluid to the joint (3) for inflation, which can be liquid or gas, although preferably it is water. Thus, the tube (5) can incorporate a mechanism for the hydraulic connection to an external system such as a reservoir, a pipe or simply a mouth. The tube (5) also incorporates a closing mechanism, so that, once the pressure in the joint (3) has been reached to ensure the seal tightness between the joint (3) and the inner surface of the body (1), it Can close and maintain pressure. The connection of the hole to the cover (2) is conveniently sealed, so that said connection is tight. In order to create the required tightness, the minimum pressure that must be achieved at the joint (3) is 1 bar. Obviously, the higher the pressure, the better tightness will be achieved.
    Near the projection (8) where the cover (2) is located, located closer to the free end of the filter body, the body (1) incorporates a recess (6) to accommodate a stop (4). The function of the stop (4) is, once pressure is printed on the hydraulic line and therefore inside the filter, to exert pressure on the cover (2) once placed, in its closed position, so that the cover (2) has no possibility of going outside the body (1).
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    In a preferred embodiment, the stop (4) is formed by several pieces in the form of circular segments of quadrilateral section that, once joined, form a geometry of revolution that fits into the recess (6) of the body (1) of full form The pieces in which the stop (4) is divided are created with orthogonal sections, that is, coplanar with the axis of rotation of the revolution geometry.
    In another embodiment of the stop (4), the ends of one of the pieces that form the stop (4), are created by sections that are not coplanar with the axis of rotation of the revolution geometry, presenting an angled geometry. This new geometry is made to facilitate even more the assembly and disassembly of the stop (4), so that the piece with the angled geometry is the last to assemble and the first to disassemble as a closing piece of the assembly. In addition, although the piece may have only one end with this configuration, or that there may be several pieces with this configuration, it is preferable that only one of the pieces has this configuration, so that it is easily recognizable when the set is mounted.
    Once all the pieces that form the stop (4) are inserted in the recess (6), they create a blockage in the movement of the cover (2) towards the outside of the body (1) that prevents its removal.
    To proceed with the installation of the closure system, the cover (2), with the gasket (3) and the tube (5) previously mounted, is inserted into the body (1), so that it is supported on the shoulder (8 ). The outer diameter of the lid (2) is slightly smaller than the inner diameter of the body (1), so that the lid (2) enters the body (1) tightly. Subsequently, the different pieces that form the stop (4) are fitted into the recess (6) of the body (1).
    Once the cover (2) is placed on the body (1) and secured with the stop (4), the gasket (3) is filled with a fluid that, although it may be air or any other type of gas, preferably , is water, to avoid possible pressure losses. By supplying the fluid through the tube (5), the gasket (3) swells and presses against the inner wall of the body (1). In order for the gasket (3) to create the seal that is chased between the cover (2) and the body (1) of the filter, it must reach a pressure that must be at least 1 bar. By exerting the seal (3) pressure on the body (1) through the area of the largest diameter of the seal (3), the tube
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    (5), preferably, is connected to the joint (3) by the area of the smallest diameter, being the most easily accessible area of the system.
    It is important to note that an object of the invention is that the system is resistant to corrosion due to the composition of the water intended to be treated and that it will be in contact with the filter elements of the invention. For this reason, the components are made of polymer material. The gasket (3), moreover, is preferably made of an elastomeric polymer. On the other hand, both the body (1) and the cover (2) are preferably made of glass fiber reinforced polyester.
    In this way, the advantages obtained with this invention would be the following: due to the inflatable joint, a greater tightness is obtained, since the inflation pressure guarantees the same. Likewise, the gasket can deflate the assembly and disassembly of the cover (2) with respect to the body (1) due to the existing play between both elements, which translates into a reduction of times in the opening and closing operations when performing maintenance.
    The invention also relates to the process of assembling the closure system in the filter. Initially it is checked that the cover (2) incorporates the tube (5) and the gasket (3).
    Thus, the phases of which the process consists are the following:
    a) Introduction of the cover (2) until it rests on the shoulder (8);
    b) Introduction of the stop parts (4) in the recess (6) of the body (1);
    c) Supply of fluid to the joint (3) until a minimum pressure of 1 bar is reached, which ensures the seal tightness between the joint and the inner surface of the body (1);
    d) Close the tube (5).
    In any case, the present invention should not be limited to the embodiment described herein. Other configurations can be made by those skilled in the art in view of the present description. Accordingly, the scope of the invention is defined by the following claims.
    权利要求:
    Claims (12)
    [1]
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    1. - Sealing system for cartridge filter, comprising a body (1), cylindrical configuration, and a cover (2), which tightly closes the body (1), characterized in that:
    - the body (1) comprises a shoulder (8), for the support of the cover (2) and a recess (6) for the accommodation of a stop (4),
    - the cover (2) comprises a perimeter recess (7) for housing a hollow and inflatable joint (3) and a hole for the passage of a tube (5) connected to the joint (3) for the supply of a fluid ,
    where,
    - the stop (4) consists of at least two pieces,
    - the cover (2) is housed in the body (1) tightly,
    - the stop (4), housed in the recess (6) of the body (1), prevents the movement of the cover (2) due to the pressure exerted by the fluid to be treated inside the filter,
    so that, when supplying the fluid in the tube (5), the gasket (3) inflates and exerts pressure on the inner wall of the body (1) generating a tight seal of the filter.
    [2]
    2. - Sealing system for cartridge filter according to claim 1,
    characterized in that the tube (5) incorporates a closing mechanism for the passage of the fluid.
    [3]
    3. - Sealing system for cartridge filter, according to claim 1 or 2, characterized in that the pieces that form the stop (4) create a geometry of revolution when joined.
    [4]
    4. - Sealing system for cartridge filter according to claim 3,
    characterized in that the revolution geometry of the stop (4) has a quadrilateral section.
    [5]
    5. - Sealing system for cartridge filter, according to claim 3 or 4, characterized in that the surface of at least one end, of at least one of the pieces that form the stop (4), is not coplanar with the rotation axis of revolution geometry.
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    [6]
    6. - Sealing system for cartridge filter, according to any one of the preceding claims, characterized in that the closing mechanism of the tube (5) is to be selected between a key incorporating a stop valve and a cap.
    [7]
    7. - Sealing system for cartridge filter, according to any one of the preceding claims, characterized in that the tube (5) incorporates a hydraulic connection to be able to connect to an external source of fluid supply.
    [8]
    8. - Sealing system for cartridge filter, according to any one of the preceding claims, characterized in that the body (1) and the cover (2) are made of polymer material to resist degradation by contact with saline fluids.
    [9]
    9. - Sealing system for cartridge filter, according to claim 8, characterized in that the body (1) and the cover (2) are made of glass fiber reinforced polyester.
    [10]
    10. - Assembly process of a sealing system for cartridge filter, according to the preceding claims, characterized in that, starting from a situation where the cover (2) has the tube (5) and the gasket (3) installed, It comprises the following phases:
    a) Insert the cover (2) into the body (1) until it rests on the shoulder (8);
    b) Insert the stop parts (4) into the recess (6) of the body (1);
    c) Supply fluid to the joint (3) through the tube (5),
    d) Close the tube (5).
    [11]
    11. - Assembly process of a sealed closure system for cartridge filter according to claim 10, characterized in that, in phase c), the fluid is supplied to the joint (3) hydraulically connecting the tube (5) to an external source
    [12]
    12. - Assembly process of a sealed closure system for cartridge filter according to claim 11, characterized in that the fluid is supplied until a pressure of at least 1 bar is reached.
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    同族专利:
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    ES2781678T3|2020-09-04|
    EP3466516B1|2020-02-12|
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    WO2017207836A1|2017-12-07|
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    EP3466516A1|2019-04-10|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    FR2712507B1|1993-11-19|1996-01-26|Adriaenssen Luc|Filtration device for industrial liquids and gases.|
    FR2909007B1|2006-11-24|2009-06-26|Cummins Filtration Sarl|FILTRATION CARTRIDGE FOR COOPERATING WITH A CENTRAL TUBE, COMPRISING A SEAL JOINT MOUNTED IN A CAVITY TO COOPERATE WITH SAID TUBE, SINCE THE SEAL IS RADIALLY RETAINED|
    WO2008152700A1|2007-06-13|2008-12-18|Toyofumi Miyazaki|Ultrafine grain burnt sand biofiltration apparatus|
    DE102010029754A1|2010-06-07|2011-12-08|Invent Umwelt- Und Verfahrenstechnik Ag|Device for gassing liquids|
    JP6266447B2|2014-06-24|2018-01-24|株式会社パウレック|Seal device for powder processing equipment|
    NL2013406B1|2014-09-03|2016-09-27|Lagersmit Sealing Solutions B V|Shaft seal.|
    法律状态:
    2018-10-16| FG2A| Definitive protection|Ref document number: 2648637 Country of ref document: ES Kind code of ref document: B1 Effective date: 20181016 |
    优先权:
    申请号 | 申请日 | 专利标题
    ES201630705A|ES2648637B1|2016-05-30|2016-05-30|SEALED CLOSURE SYSTEM FOR FILTER CARTRIDGES AND ASSEMBLY PROCESS OF THE SAME|ES201630705A| ES2648637B1|2016-05-30|2016-05-30|SEALED CLOSURE SYSTEM FOR FILTER CARTRIDGES AND ASSEMBLY PROCESS OF THE SAME|
    EP17805920.0A| EP3466516B1|2016-05-30|2017-05-17|Sealed closure system for a cartridge filter and method for assembling same|
    ES17805920T| ES2781678T3|2016-05-30|2017-05-17|Watertight closure system for a cartridge filter and method of mounting the same|
    PCT/ES2017/070317| WO2017207836A1|2016-05-30|2017-05-17|Sealed closure system for a cartridge filter and method for assembling same|
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