ROTARY SPHERICAL BALL VALVE AND METHOD OF MANUFACTURING THE SAME

专利摘要:
The present invention relates to a rotary ball valve and its method of manufacture. Rotary ball valve, comprising a hollow valve body, provided with at least one inlet opening and at least one outlet opening and at least one composite sealing device comprising, on the one hand, a body annular associated with a reinforcing ring, on the other hand, a sealing ring intended to come into sealing engagement on the outer surface of the plug, and, finally, a resilient biasing means axially urging the annular sealing body in the direction bushel. Valve characterized in that the sealing ring (9) has a width smaller than that of the annular sealing body (7) and is arranged on the latter with a radial offset towards the outside, preferably in a shoulder or recess. outer circumferential peripheral of said annular sealing body (7), being prominent in the direction of the plug (2).
公开号:FR3017177A1
申请号:FR1400261
申请日:2014-01-31
公开日:2015-08-07
发明作者:Nicolas Becker；Romain Deletang；Alexandre Floranc；Fabien Moreau
申请人:Systemes Moteurs SAS；
IPC主号:

专利说明:

[0001] The present invention relates to the field of devices for regulating the circulation of fluid, more particularly the proportional or on-off valves, and relates to a rotary valve and its method of manufacture.
[0002] Many constructions of rotary ball valves are already known. When the bushings used have a spherical shape, one of the major technological challenges, for which it is often difficult to find a powerful and reliable solution, is to achieve the sealing at the openings, more particularly between the openings. of entry often subjected to high pressures and the surface of the bushel. By documents EP 1 529 937, EP 2 052 177, US Pat. No. 6,499,720 and DE 10 2009 014 047 in particular, composite sealing devices are already known which make it possible to ensure a good seal with the bushel because of the presence of elastic biasing means urging the sealing means (ring) against the plug. Among these known devices, only that disclosed by the document DE 10 2009 014 047 also mentions a specific sealing with respect to the valve body, that is to say between the sealing device itself and the opening in which the latter is mounted, so between the inside of the opening and the inside of the chamber receiving the bushel. However, in the construction proposed by this last document DE, as well as in the solutions proposed by the other aforementioned documents, the fluid, present at the inlet opening, exerts a significant pressure on the sealing means, which bears against a high pressure stress on the bushel. It is therefore necessary to have a high torque to move the plug and thus to control the valve. An actuator of sufficient power must, therefore, be provided, resulting in high costs and use (energy and wear). - 2 - The negative impact of these disadvantages is further increased when the valve is part of an embedded system. The present invention is intended to provide a solution overcoming these disadvantages.
[0003] For this purpose, the invention provides a rotary valve, comprising a hollow valve body, provided with at least one inlet opening and at least one outlet opening and defining a receiving chamber for the plug, the latter having a spherical outer surface, at least at the outer surface portion (s) facing the inlet opening (s) in any of the possible rotational positions of said plug, said valve also comprising at least one composite sealing device, coaxially installed in a portion of internal passage emerging from the inlet opening or at least one of the inlet openings and comprising, on the one hand, an annular body associated with a substantially rigid reinforcement ring and provided with a radial lip sealing against the inner face of the passage portion, on the other hand, a sealing ring made of a low-viscosity material. oefficient of friction, carried by the annular sealing body and intended to come into sealing engagement on the outer surface of the plug, and, finally, a resilient biasing means axially biasing the annular sealing body in the direction of the plug, the structural assembly formed by the annular sealing body and the sealing ring being arranged with sliding ability guided in the passage portion emerging from the opening concerned, valve characterized in that the sealing ring has a width less than that of the annular sealing body and is disposed thereon with a radial offset outwardly, preferably in a shoulder or an outer circumferential peripheral recess of said annular sealing body, being prominent in the direction of the plug. The invention will be better understood, thanks to the following description, which relates to preferred embodiments, given by way of non-limiting examples, and explained with reference to the appended diagrammatic drawings, in which: FIG. an exploded view of a plug valve according to an embodiment of the invention, in the form of a valve at an inlet and an outlet; FIGS. 2A and 2B are partial sectional views, in a plane containing the axis of rotation of the plug and the central axis of the inlet opening, of the valve represented in FIG. 1, respectively at FIG. closed state and open state; Figure 3 is a view on a different scale of the region of the inlet opening and a portion of the valve plug shown in Figure 2B; Fig. 4 is a view on a different scale of detail B of Fig. 3; Figure 5 is a view identical to that of Figure 4, illustrating an alternative embodiment of the annular body / reinforcing ring assembly; FIG. 6 is a representation similar to that of FIG. 4, symbolically illustrating the application of the inlet pressure (upstream) and of the internal or outlet pressure (downstream) on the composite sealing device (at the closed state of the bushel); FIGS. 7A and 7B schematically represent in section a ball valve with an inlet and an outlet, provided with a sealing device according to the invention, respectively in the open and closed position; FIGS. 8A, 8B and 8C show diagrammatically in section, in three different positions of the plug, a ball valve with two inlets and one outlet, each inlet being provided with a composite sealing device according to the invention; FIGS. 9A, 9B, 9C and 9D show diagrammatically in section, in four different positions of the plug, a two-way double plug valve and an outlet, each inlet being provided with a composite sealing device according to the invention 10 is a top view in section of a functional module for a cooling circuit of an internal combustion engine vehicle, comprising a ball valve according to the invention, associated with a pump. Figures 1 and 2 illustrate a rotary valve 1 2 according to the invention. The latter comprises a hollow valve body 3 provided with at least one inlet opening 4 and at least one outlet opening 4 'and defining a receiving chamber 3' for the plug 2, the latter having a outer spherical surface, at least at the or -4 of the outer surface portion (s) 2 'facing the inlet opening (s) 4 in any of the possible rotational positions of said plug 2 Said valve 1 also comprises at least one composite sealing device 5, coaxially installed in an opening internal passage portion 6 of the inlet opening or at least one of the inlet openings 4 and comprising, on the one hand, an annular body 7 associated with a substantially rigid reinforcing ring 8 and provided with a radial lip 7 'sealing against the inner face of the passage portion 6, on the other hand, a sealing ring 9 realized in a material with low coefficiency friction, carried by the annular sealing body 7 and intended to come into sealing engagement on the outer surface of the plug 2, and finally, elastic biasing means 10 axially biasing the annular sealing body 7 in the direction of plug 2, the structural assembly formed by the annular sealing body 7 and the sealing ring 9 being arranged with sliding ability guided in the through passage portion 6 of the opening 4 concerned. This sealing device 5 is thus mounted in a seat structure, in the form of concentric annular shoulders, constituted by said opening internal passage portion 6. This configuration of said passage portion 6 makes it possible to house the components of the device. 5 without substantially reducing the diameter of passage of the inlet opening 4 (no loss of load in the open position of the plug - substantially identical through-flow diameters for the opening 4, the device 5 and the opening of the plug 2) and providing support for the means 10 for elastic prestressing. According to the invention and as shown more specifically in FIGS. 3 to 6 of the accompanying drawings, the sealing ring 9 has a width 1 which is smaller than that of the annular seal body 7 and is arranged on the latter with a radial offset to the outside, preferably in a shoulder or an outer circumferential peripheral recess 11 of said annular sealing body 7, being prominent in the direction of the plug 2 relative to said body 7. Thanks to these specific provisions causing a shift towards The periphery of the dynamic sealing zone 12, that is to say towards the inner edge 6 'of the passage portion 6 of the opening 4, results in a reduction of the thrust force F exerted on the sealing ring 9, while - allowing sufficient maintenance of the latter by the body 7 (shoulder 11 with internal retaining wing 11 '). Indeed, as illustrated in FIG. 6, in relation to FIGS. 4 and 5, the fluid pressures present, on the one hand, at the inlet and in the passage portion 6 (P2: upstream pressure), and on the other hand, at the outlet of the passage portion 6 and in the chamber 3 '(P1: downstream pressure) generate stresses on the body assembly 7 / ring 9 at the surfaces exposed to said pressures. FIG. 6 diagrammatically illustrates the two types of pressure forces present at the level of the sealing device 5, namely the upstream fluid pressure P2 (longer arrows) and the downstream fluid pressure P1 (weaker arrows). length), with P2> P1 because of the direction of flow of the fluid through the valve 1. Taking into account the provisions according to the invention and the maximum radial offset towards the outside of the ring 9 and therefore the zone of dynamic sealing 12, only the forces generated by the upstream pressure P2 applying to the area of the rear face 7 "of the body 7 located between the axes X1 and X2 of FIG. 6 effectively generate an axial thrust force component F in FIG. direction of the plug 2, the components along this axis of the other forces resulting from the pressure canceling each other.This axial thrust force F therefore consists of a resultant differential force, directed along the axis X of the po passage 6, to which is added the thrust force produced by the means 10 (of minimal value compared to F).
[0004] It will also be noted that the offset towards the outside of the ring 9 makes it possible to produce a plug 2 with a maximum opening. According to a preferred embodiment of the invention, the sealing ring 9 has in section a free end 9 'bevel providing a surface 9 "of potential contact with the plug 2 of frustoconical shape, the dynamic sealing area LI (linear or band-shaped) between the sealing ring 9 and the plug 2 being located between the outer and inner edges of the bevel, and therefore between the outer and inner circular boundaries of said potential contact surface 9 ". Thus, the zone LI (either linear circular or annular surface) corresponds to the limit separating the external contact zone 12 between 2 and 9 (subjected to the pressure P1) from the inner contact zone 12 'between 2 and 9 (subject to pressure P2). The potential contact surface 9 "can have a concave planar or curved configuration, so that the zone LI can theoretically have a linear constitution (flat surface in contact with a spherical surface) .However, given the deformation at least of the sealing ring 9 at the level of the surface 9 'and the phenomena of wear, said zone LI generally corresponds in practice to an annular band, possibly of variable width, in accordance with a feature of the invention in particular of FIGS. 3 to 9, the elastic prestressing means 10 consists of a compression spring bearing under pressure (at a bearing zone 13) against the rear face 7 "of the annular sealing body 7, opposite to the face carrying the sealing ring 9, the thrust force produced by said spring 10 being transmitted to said sealing ring 9 via the sealing body 7. The thrust force provided by the spring 10 is generally small or negligible compared to the thrust force F generated by the pressure difference of the fluid present in the passage portion 6 and the chamber 3 ', this force F being also transmitted via the body 7 to the ring 9. As shown in Figures 3 to 5, the bearing zone 13 of the compression spring 10 at the rear face 7 "of the annular sealing body 7 is advantageously offset radially inwardly relative to the sealing ring 9, the reinforcing ring 8 advantageously participating in the transmission, towards said ring 9 and through the body 7, the thrust force produced by said spring 10 This reinforcing ring 8 forms a counter-support and assures an assembly with a determined constraint of the assembly of the body 7 / ring 9 in the passage portion 6, allowing a sliding retention of this element. seems in this portion 6, while ensuring the achievement of sealing at the radial lip 7 '. In accordance with a first advantageous embodiment, illustrated in FIGS. 2, 3, 4 and 6, the reinforcing ring 8 with a rigid structure, preferably metallic, has a L-shaped cross-section with a radial wing 8 'and a 8 "axial flange, and is substantially fully integrated in the annular sealing body 7, as an overmoulded insert (with the possible exception of local zones for holding the ring 8). in the mold during overmolding), the radial flange 8 'being preferably located opposite the elastic prestressing means 10. In accordance with a second embodiment, illustrated in FIG. 5, the reinforcing ring 8 with a rigid structure, preferably in metal, has a L shape in cross section, with a radial flange 8 'and an axial flange 8 ", and is attached to the inner face of the annular sealing body 7 (for example: bonding by bonding or over-molding e lateral side of the body 7), the radial flange 8 'being preferably in contact with the elastic prestressing means 10.
[0005] Thus, in addition to the functions mentioned above, the reinforcing ring 8 also stiffens the flange 11 'of the body 7 which ensures the internal lateral retention of the ring 9, as well as a stiffening of the part of the body 7 transmitting the thrust force produced by the spring 10 to this ring 9.
[0006] In order to avoid any leakage between these two components 7 and 9, the structural assembly formed by the annular sealing body 7 and the sealing ring 9 has at least one static sealing zone 14 between its two component components. 7 and 9, preferably located in a plane perpendicular to the thrust direction of the elastic prestressing means 10 and the thrust force F generated by the pressure of the fluid in the passage portion 6. The ring 9 can consist of a part or separate part reported by mechanical assembly, with or without joining (for example by gluing), or being overmoulded on the body 7.
[0007] According to another advantageous characteristic of the invention, and as shown by way of example in FIGS. 3 to 6, the radial lip 7 'of the annular sealing body 7 is located at the rear face 7 "of said 7 and is formed by partial segmentation (with formation of a groove) of an outer peripheral strip of the material constituting the latter, so as to form an elastically deformable skirt, inclined and protruding outwardly in the absence The mounting of the plug 2 in the hollow valve body 3 can be realized in different ways.
[0008] In accordance with an advantageous embodiment of the invention, illustrated in particular in FIGS. 1, 2 and 4, the plug 2 comprises two shaft or sleeve portions 15, 15 ', formed on two opposite outer sides. of said plug 2 and aligned with each other to form the axis of pivoting thereof, one of said portions 15 being connected to a drive shaft 16 by a mechanical interlocking connection providing a rotational fastening and allowing at least one low misalignment by inclination between the pivot axis of the plug 2 and the axis of rotation of said drive shaft 16. This particular mechanical connection for the transmission of torque between the drive shaft 16 (itself driven by a actuator not shown in the accompanying figures) and the plug 2 may, for example, be provided by providing a drive shaft 16 with a polygonal section (for example hexagonal or square) with one end nesting 16 'separated from the body of the shaft 16 by a portion of reduced section 16 "forming a circumferential groove. The valve body 3, generally made of a thermoplastic material, or possibly a metal alloy, is composed of at least two parts produced separately and assembled together. Advantageously, and as is apparent in particular from FIGS. 1 and 2, the valve body 3 consists of two constituent parts 17, 17 'assembled together, namely a base portion 17 comprising said at least one inlet opening 4. and a lid portion 17 'having said at least one outlet opening 4'. Said base portion 17 is provided with two opposite recesses 18, 18 'in which are mounted interlocking complementary structures 19, 19' of mounting bearing and / or rotational guide, intended to receive the shaft portions or opposite sleeve 15, 15 'of the plug 2, directly or with the interposition of a sliding ring 15. As is illustrated by way of advantageous example of FIGS. 2A and 2B, the untrained shaft portion provides a rotary mounting on one side of the plug 2 in a rotating guide bearing structure 19, with the interposition of a sliding ring 15 ". The sleeve portion 15 'of the plug 2, opposite to the shaft portion 15 and driven in rotation by the drive shaft 16, is provided with an insert (for example a metal) forming a sleeve 15 ". in which the end 16 '(the socket 15 "' having a polygonal inner section complementary to that of the end 16 ') is engaged. This rotational mounting of the plug 2 on the side of the hollow sleeve 15 'is achieved by means of the shaft 16 itself, which thus forms a support and drive shaft (the shaft 16 being mounted in a rotating guide bearing - see Figures 2A and 2B). Each of the openings 4 and 4 'is, in known manner, extended outwardly in the form of a nozzle or a portion of duct formed integrally with one of the parts 17, 17 'of the valve body 3. By way of example, the parts 17 and 17', as well as the plug 2 may be made by molding a thermoplastic material (for example polyamide for the parts 17 and 17 'and the PPS (polyphenylene sulfide) for the plug 2). The body 7 is advantageously made of EPDM or HNBR and the ring 9 made of PTFE. The spring 10, meanwhile, may be in the form of a wave spring stainless steel, and the reinforcing ring 8 made of sheet steel, aluminum or thermoplastic. The ring 9 may comprise a body of thermoplastic material covered, at the bevel, with a PTFE sheet. The rotary ball valve according to the invention can be provided in different constructive variants both in terms of the shape of the plug 2 that the number of inlet openings 4 and 4 'outlet. In all the embodiments of the invention, however, at least one of the inlet openings, preferably all the inlet openings, comprises (s) a composite sealing device 5, as previously described. In the context of the various constructional variants, it may in particular be provided that: the plug 2 is a spherical plug, said valve 1 having one or two inlet openings 4 and an outlet opening 4 '(FIGS. and 8); the plug 2 is a double plug comprising two bodies 2 "with at least partially spherical outer surfaces, for example interconnected by a cylindrical portion, said valve 1 having two inlet openings 4 and an outlet opening 4 ', and said plug 2 being configured to connect each of the inlets 4 to the outlet 4 'separately and / or simultaneously (Fig. 9) in connection with a preferred application of the plug valve 35 according to the invention, and as shown As an example in FIG. 10, said valve 1 can be structurally integrated with a functional and structural module 1 'by being mounted downstream of a water pump 1 "also incorporated in said module 1', and / or mounted (integrally or independently) in a cooling fluid circulation circuit of an internal combustion engine. Finally, the invention also relates to a method of manufacturing a rotary valve 1 2 as described above. This method may, for example, consist (see FIGS. 1 and 2) of: providing a base portion 17 with at least one inlet opening 4, 10 to be supplied and put in place successively, in the passage portion; 6 of the opening or of each inlet opening 4 of the base portion 17, a compression spring 10 forming resilient prestressing means, an annular sealing body 7 and a sealing ring 9, the latter being optionally formed or previously reported on said annular sealing body 7, so as to constitute one or more composite sealing device (s) 5, and then to supply and pre-assemble a subassembly formed of a plug 2 and two bearing structures 19, 19 'associated with opposite portions of shaft or sleeve 15, 15' of said plug 2, possibly 20 with the interposition of a sliding ring 15 ", - to then mount said sub-part. set preassembled in part d base 17 with interlocking of the bearing structures 19, 19 'in respectively adapted receiving recesses 18, 18' formed in the wall of said base portion 17, and finally providing a lid portion 17 ' with at least one outlet opening 4 'and to seal it to the base portion 17 by locking the engagement of the bearing structures 19, 19' in the corresponding receiving recesses 18, 18 'and compressing at the less slightly the composite sealing device (s) 5.
[0009] FIGS. 2A and 2B, in connection with FIG. 1, show that the bearing structure 19 'only serves to mount the subassembly 2, 19, 19' by vertical interlocking in the lower part 17, sleeve 15 'not being guided in rotation by said structure 19', but by the shaft 16 (link ball joint limited travel and drive).
[0010] Of course, the invention is not limited to the embodiments described and shown in the accompanying drawings. Modifications are possible, particularly from the point of view of the constitution of the various elements or by substitution of technical equivalents, without departing from the scope of protection of the invention.

权利要求:
Claims (15)
[0001]
CLAIMS1) Rotary ball valve, comprising a hollow valve body, provided with at least one inlet opening and at least one outlet opening and defining a receiving chamber for the plug, the latter having a spherical outer surface at least at the outer surface portion (s) facing the inlet opening (s) in any of the possible rotational positions of said plug, said valve also having at least one composite sealing device, coaxially installed in a portion of internal passage emerging from the inlet opening or at least one of the inlet openings and comprising, on the one hand, an annular body associated with a ring of reinforcement substantially rigid and provided with a radial lip sealing against the inner face of the passage portion, on the other hand, a sealing ring made of a material with a low coefficient of f the annular sealing body, intended to come into sealing engagement on the outer surface of the plug, and finally, a resilient biasing means axially biasing the annular sealing body in the direction of the plug, the assembly structure formed by the annular sealing body and the sealing ring being arranged with sliding ability guided in the through passage portion of the opening 20 concerned, valve (1) characterized in that the sealing ring (9 ) has a width (1a1) smaller than that (1a2) of the annular sealing body (7) and is disposed on the latter with a radial offset to the outside, preferably in a shoulder or an outer circumferential peripheral recess (11). ) of said annular sealing body (7), being prominent in the direction of the plug (2).
[0002]
2) Valve according to claim 1, characterized in that the sealing ring (9) has in section a free end (9 ') bevel providing a surface (9 ") of potential contact with the plug (2) of 30 frustoconical shape, the dynamic sealing zone (LI) (12) between the sealing ring (9) and the plug (2) being located between the outer and inner edges of the bevel, and therefore between the outer and inner circular boundaries of said potential contact surface (9 ").
[0003]
3) Valve according to any one of claims 1 and 2, characterized in that the elastic prestressing means (10) consists of a compression spring bearing in pressure against the rear face (7 ") of the sealing body annular (7), opposite to the face carrying the sealing ring (9), the thrust force produced by said spring (10) being transmitted to said sealing ring (9) via the sealing body ring (7).
[0004]
4) Valve according to claim 3, characterized in that the bearing area (13) of the compression spring (10) at the rear face (7 ") of the annular sealing body (7) is shifted radially towards the inner ring with respect to the sealing ring (9), the reinforcing ring (8) advantageously participating in the transmission, towards said ring (9) and through the body (7), the thrust force produced by said spring (10).
[0005]
5) Valve according to any one of claims 1 to 4, characterized in that the reinforcing ring (8) rigid structure, preferably metallic, has a cross sectional shape of L, with a radial flange (8 ') and an axial flange (8 "), and is fully integrated in the annular sealing body (7), as an overmoulded insert, the radial flange (8 ') being preferentially located opposite the elastic prestressing means (10). ).
[0006]
6) Valve according to any one of claims 1 to 4, characterized in that the reinforcement ring (8) rigid structure, preferably metallic, has a cross sectional shape of L, with a radial flange (8 ') and an axial flange (8 "), and is attached to the inner face of the annular sealing body (7), the radial flange (8 ') being preferably in contact with the elastic prestressing means (10).
[0007]
7) Valve according to any one of claims 1 to 6, characterized in that the structural assembly formed by the annular sealing body (7) and the sealing ring (9) has at least one sealing zone static (14) between its two component components (7 and 9), preferably located in a plane perpendicular to the thrust direction of the elastic prestressing means (10) and the thrust force (F) generated by the fluid pressure in the passage portion (6), said ring (9) consisting of a mechanically joined portion, with or without attachment, or overmolded on the body (7).
[0008]
8) A valve according to any one of claims 1 to 7, characterized in that the radial lip (7 ') of the annular sealing body (7) is located at the rear face (7 ") of said body (7) and is made by partial segmentation of an outer peripheral strip of the material constituting the latter, so as to form an elastically deformable skirt, inclined and protruding outwardly in the absence of stress.
[0009]
9) Valve according to any one of claims 1 to 8, characterized in that the plug (2) comprises two shaft portions or sleeve (15, 15 '), formed on two opposite outer sides of said plug (2). and aligned with each other to form the axis of pivoting thereof, one (15 ') of said portions being connected to a drive shaft (16) by a mechanical interlocking connection providing rotational fastening and allowing at least a slight misalignment by inclination between the pivot axis of the plug (2) and the axis of rotation of said drive shaft (16).
[0010]
10) Valve according to claim 9, characterized in that the valve body (3) consists of two constituent parts (17, 17 ') assembled together, namely a base portion (17) comprising said at least one opening an inlet portion (4) and a cover portion (17 ') having said at least one outlet opening (4'), and in that said base portion (17) is provided with two opposite recesses (18, 18 '). ) in which are fitted interlocking complementary bearing (19, 19 ') bearing and / or rotational guide structures for receiving the opposite shaft or sleeve portions (15, 15') of the bushel (2 ), directly or with the interposition of a sliding ring (15 ").
[0011]
11) Valve according to any one of claims 1 to 10, characterized in that the plug (2) is a ball valve, said valve (1) having one or two opening (s) of entry (4) and an opening output (4 ').
[0012]
12) Valve according to any one of claims 1 to 10, characterized in that the plug (2) is a double plug having two bodies (2 ") with outer surface at least partially spherical, for example interconnected by a portion cylindrical, said valve (1) having two inlet openings (4) and an outlet opening (4 '), and said plug (2) being configured to connect each of the inlets (4) to the outlet (4'), separately and / or simultaneously.
[0013]
13) Valve according to any one of claims 1 to 12, characterized in that it is structurally integrated with a functional and structural module (1 ') by being mounted downstream of a pump water jet (1 ") also incorporated in said module (1 '), and / or part of a cooling fluid circulation circuit of an internal combustion engine.
[0014]
14) A method of manufacturing a rotary valve according to claim 10, characterized in that it comprises: - providing a base portion (17) with at least one inlet opening (4), - to providing and successively placing, in the through passage portion (6) of the opening or each inlet opening (4) of the base portion (17), a medium compression spring (10) a resilient prestressing element, an annular sealing body (7) and a sealing ring (9), the latter being optionally formed or previously attached to said annular sealing body (7), so as to constitute one or more devices (s) composite sealing (5),
[0015]
And then supplying and pre-assembling a sub-assembly formed of a plug (2) and two bearing structures (19, 19 ') associated with opposite shaft or sleeve portions (15, 15') of said bushel (2), possibly with the interposition of a sliding ring (15 "), - subsequently mounting said preassembled subassembly in the base part (17) with interlocking of the bearing structures (19, 19 ') in respectively adapted receiving recesses (18, 18 ') formed in the wall of said base part (17), and finally - providing a lid part (17') with at least one outlet opening (4 ') and sealing it to the base portion (17) by locking the engagement of the bearing structures (19, 19 ') in the corresponding receiving recesses (18, 18') and compressing at least slightly the composite sealing device (s) (5).

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同族专利:

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公开号 | 公开日

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FR3017177B1|2016-08-19|

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EP2910826A2|2015-08-26|

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US8490949B2|2010-03-31|2013-07-23|Worldwide Oilfield Machine, Inc.|Valve stem assembly for rotary valve and method|FR3046260B1|2015-12-29|2018-07-27|Systemes Moteurs|GEAR MOVEMENT TRANSMISSION DEVICE AND ACTUATING SYSTEM COMPRISING SAME|

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EP3242061B1|2016-05-04|2019-03-06|Hyundai Motor Company|Coolant control valve unit having sealing structure|

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DE102016223498A1|2016-11-28|2018-05-30|Volkswagen Aktiengesellschaft|Sealing package and valve assembly with such a sealing package|

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FR3081200B1|2018-05-18|2021-07-23|Sogefi Air & Cooling|SEAL, ESPECIALLY FOR A ROTARY BALL VALVE|

法律状态:
2015-12-22| PLFP| Fee payment|Year of fee payment: 3 |

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2016-12-21| PLFP| Fee payment|Year of fee payment: 4 |

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2017-12-21| PLFP| Fee payment|Year of fee payment: 5 |

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2019-12-19| PLFP| Fee payment|Year of fee payment: 7 |

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2020-12-17| PLFP| Fee payment|Year of fee payment: 8 |

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2021-12-15| PLFP| Fee payment|Year of fee payment: 9 |

优先权:

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申请号 | 申请日 | 专利标题

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FR1400261A|FR3017177B1|2014-01-31|2014-01-31|ROTARY SPHERICAL BALL VALVE AND METHOD OF MANUFACTURING THE SAME|FR1400261A| FR3017177B1|2014-01-31|2014-01-31|ROTARY SPHERICAL BALL VALVE AND METHOD OF MANUFACTURING THE SAME|

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EP15305152.9A| EP2910826B1|2014-01-31|2015-02-02|Rotatable ball valve and method for manufacturing same|