DE102004025969A1 - Solenoid valve for cam shaft adjustment device, has magnetic part comprising housing connected with bush of valve part, and seal arranged in housing for sealing valve in mounting position, where housing has axial retaining components - Google Patents

Abstract

The valve has a magnetic part (1) and a valve part (2) that comprises a bush in which a piston is placed. The piston is moveable against a counter acting force by using a tappet that is arranged in a housing (3) of the magnetic part. The housing is connected with the bush and a seal (38) is arranged in the housing for sealing the solenoid valve in a mounting position, where the housing is provided with axial retaining components.

Description

The The invention relates to a solenoid valve according to the preamble of the claim 1.

Such Solenoid valves are used, for example, as adjusting valves of camshaft adjusting devices for internal combustion engines used by motor vehicles. The solenoid valves have a magnetic part with a pestle, the when pressed of the magnetic part a piston of the valve member against a counterforce shifts. For sealing the solenoid valve in the installation position is a seal provided with additional components, such as Holding plates, covers and the like, is positioned and fixed. Such a design of the solenoid valve is expensive and expensive the production.

Of the Invention is based on the object, the generic solenoid valve train so that it ensures a safe function with structurally simple training.

These Task is the generic solenoid valve according to the invention with the characterizing features of claim 1 solved.

At the inventive solenoid valve the seal is provided captive on the housing of the magnetic part. That's why extra Fuse elements for the seal is not required. The inven tion proper solenoid valve can therefore be simple and inexpensive be made.

Further Features of the invention will become apparent from the other claims, the Description and the drawings.

The Invention will be described with reference to an embodiment shown in the drawings explained in more detail. It demonstrate

1 in axial section an inventive solenoid valve,

2 a view in the direction of the arrow II in 1 .

3 in axial section a further embodiment of a solenoid valve according to the invention with coil-integrated Anschraublasche,

4 a view in the direction of the arrow IV in 3 .

5 in an enlarged view and in section a seal of the solenoid valve according to the invention 1 .

6 and 7 in a representation accordingly 5 further embodiments of a seal of the solenoid valve.

The solenoid valve has a magnetic part 1 and a valve part 2 , The magnetic part 1 has a housing 3 , which is advantageously cylindrical and made of metal. That of the valve part 2 opposite end of the housing 3 has a radially projecting tab 4 on; the advantageous in one piece with the housing 3 formed and at the free end with an opening 5 is provided for the passage of a fastening screw or a comparable fastener with which the solenoid valve can be mounted on a (not shown) functional part. As 2 shows, is the case 3 at this end with a circumferential flange 6 provided, which projects radially from the housing shell and advantageously integrally with the housing 3 is trained. The tab 4 forms one over this flange 6 protruding part.

In the valve part 2 opposite end of the housing 3 is a coil 7 used, via which the power supply to the magnetic part 1 he follows. This coil 7 consists of a winding carrier 13 . 20 . 21 , a coil winding 15 , a pole disk 42 and a Spulenumspritzung 22 including a plug connection 8th , The sink 7 lies on the inner wall of the housing 3 and has an annular groove 9 for receiving a ring seal 10 that the coil 7 opposite the inner wall of the housing 3 seals.

The coil 7 has a central recess on the front side 11 , in the one end position an anchor 12 protrudes.

The anchor 12 sits on a pestle 14 and is from the winding carrier 13 surrounded by the coil. It surrounds a pole core over part of its length 16 which is in the valve part end of the housing 3 is used. The Polkern 16 has a central opening passing through it axially 17 into which the pestle 14 protrudes. The Polkern 16 points to its the plug connection 8th facing end face a central recess 18 in which the anchor 12 is moved when energizing the solenoid valve. Between the winding carrier 13 and the anchor 12 as well as the pole core 16 there is a sleeve 19 as a separation of the pressure chamber.

The Polkern 16 lies with his the valve part 2 facing area on the inner wall of the housing 3 at. In this area has the Polkern 16 an annular groove 23 for receiving a ring seal 24 , which seal against the inner wall of the housing 3 is applied. To ensure a secure sealing system the housing is 3 at the level of the ring seal 24 plastically deformed inwards, so that the ring seal 24 firmly at the bottom of the ring groove 23 as well as in the deformed area on the housing 3 is applied. Due to the plastic deformation of the housing 3 becomes the ring seal 24 elastically deformed, so that a reliable seal is ensured. Preferably, the plastic deformation is over the circumference of the housing 3 provided so that the ring seal 24 is elastically deformed over its circumference. But it is also possible, the housing 3 in the region of the ring seal 24 only to deform in certain areas. Such deformation is useful when the ring seal 24 in the installation position is already so much elastically deformed that a reliable seal is ensured. In this case, the regional plastic deformation of the housing is used 3 only as an additional safeguard.

The Polkern 16 stands out with a central approach 25 in the sleeve 19 , The approach 25 is with an annular groove 26 for receiving a ring seal 27 provided under elastic deformation on the inner wall of the sleeve 19 sealingly rests.

The Polkern 16 is at its the valve part 2 facing end face with an axially projecting ring 28 provided in the one end of a socket 29 of the valve part 2 intervenes. The ring 28 delimits a central depression 30 in the front of the pole core 16 , In the depression 30 becomes the jack 29 of the valve part 2 until it reaches the bottom of the well 30 is applied. The axially projecting ring 28 lies on the outer wall of the socket 29 at the height of the ring 28 with an annular groove 31 is provided. The ring 28 is so thin-walled that it can be plastically deformed with an appropriate tool so that it into the annular groove 31 protrudes. This will cause the socket 29 of the valve part 2 positively with the housing 3 of the magnetic part 1 connected. Instead of the circumferential ring wall 28 can the polkernel 16 having a plurality of spaced-apart projections, which in the annular groove 31 the socket 29 to be flanged. It is also possible, instead of the annular groove 31 on the circumference of the socket 29 provide a plurality of spaced recesses into which the individual projections of the pole core 16 to be flanged.

The socket 29 has terminals A, B, P, each as ring grooves in the inside of the socket 29 are formed and in the radial, the socket 29 passing through holes open. In the socket 29 is a hollow piston 32 slidable, at its the magnetic part 1 closed end is closed and under the force of at least one compression spring 33 with the closed bottom on the ram 14 of the magnetic part 1 is applied. The compression spring 33 engages at the other end of the hollow piston 32 and is supported by a setting ring 34 in the part of the magnet 1 opposite end of the socket 29 is fixed. With the adjusting ring 34 can the biasing force of the compression spring 33 be adjusted continuously. The tank connection T is located axially.

When the coil winding 15 is not energized, is the anchor 12 under the force of the compression spring 33 at the bottom of the sleeve 19 at. By the compression spring 33 becomes the hollow piston 32 in contact with the ram 14 held. In this position of the hollow piston 32 is the pressure port P via an annular groove 35 in the outer circumferential surface of the hollow piston 32 connected to the work port B. The other working port A is through the hollow piston 32 locked against the pressure port P. For this, the working port A via radial bores 36 of the hollow piston 32 connected to the tank connection T. This allows the hydraulic medium via the working port A and the radial bores 36 in the hollow piston 32 and from there flow axially to the tank port T.

Will the coil winding 15 energized, becomes the anchor 12 and thus the pestle 14 postponed. He takes the hollow piston 32 against the force of the compression spring 33 With. Depending on the current, the anchor becomes 12 and thus over the pestle 14 the hollow piston 32 moved differently far. It can be moved so far that the connection between the working port B and the pressure port P is closed and for the connection between the pressure port P and the working port A is opened. In this case the tank connection T is over further radial bores 37 at the magnetteilseitigen end of the hollow piston connected to the working port B. The hydraulic medium can thus via the working port B and the radial bores 37 in the hollow piston 32 and from there flow axially to the tank port T.

So that the solenoid valve in the installation position on the unit can be reliably attached and sealed, sits on the housing 3 of the magnetic part 1 a seal 38 , which is advantageously designed as an O-ring. It sits captive on the housing with little elastic deformation 3 , In the installation position, the solenoid valve projects into an installation opening of the respective unit. With the tab 4 the solenoid valve is attached to a mounting surface of the unit. With fastening screws and the like, the solenoid valve can be on the tab 4 reliably fasten to the unit. The seal 38 can rest against the bottom and / or on the inner wall of a front-side recess of the unit. It is designed so that the seal 38 can be elastically deformed both axially and radially, so that a perfect seal is guaranteed.

The seal 38 can also, as in 1 represented by means of a spacer 39 on the case 3 be positioned. The spacer 39 is formed as a ring, which advantageously has rectangular cross-section and through the circumferential radial flange 6 axially on the housing 3 is secured.

The seal 38 can also be to the preferably made of metal housing 3 or to the spacer 39 be sprayed or vulcanized. Then the seal 38 securely captive provided on the solenoid valve. The seal 38 can, as in the embodiment, be designed as an O-ring. But it is also possible, the seal 38 form as a profile seal.

In the embodiment of the 3 and 4 are the flange 6 and the tab 4 Part of the coil 7 , The flange 6 and the tab 4 overlap the housing 3 Being connected to the plug connection 8th opposite side on the flange 6 or the tab 4 is applied. Because the tab 4 and the flange 6 Made of plastic, is in the opening 5 the tab 4 a metallic insert 41 used, which serves to improve the allowable surface pressure and is advantageously designed as a ring. It serves to support the bolt forces when the solenoid valve is screwed to the engine block. For manufacturing reasons, the plastic is advantageously fiber-reinforced. Moreover, this embodiment is the same design as the previous embodiment.

The housing 3 of the magnetic part 1 can at its from the valve part 2 opposite side at least one extension 40 ( 2 ) which is bent radially inwardly and the coil 7 engages, seen in front view of the solenoid valve. In the embodiment, two diametrically opposed extensions 40 provided, which are each tab-shaped. With the extensions 40 can be a defined position of the coil 7 and thus an exact alignment of the connector 8th be reached at the solenoid valve. With the tab 4 In addition, the solenoid valve can be easily mounted on the functional part, that provided in the functional part holes for the hydraulic fluid with the corresponding holes of the valve member 2 aligned.

5 shows the seal 38 of the magnetic part according to the 1 and 2 axially in one direction through the spacer 39 is secured. The seal 38 lies in the installation position on a shoulder surface 43 of the indicated by a dotted line function part 44 at. The shoulder surface 43 is radial. The on the case 3 of the magnetic part 1 sitting seal 38 is in the illustrated embodiment, an O-ring, in the installed position between the spacer 39 and the radial shoulder surface 43 is clamped under elastic deformation. In addition, the seal lies 38 sealing against an inner wall 46 the installation space of the functional part 44 at.

6 shows an embodiment in which the seal 38 Distance from the inner wall 46 the installation space of the functional part 44 has and is pressed axially. Moreover, this embodiment is the same design as the embodiment according to 5 ,

7 shows a further exemplary embodiment of the seal 38 , The functional part 44 , which is for example an engine block, has, in contrast to the previous embodiments not a radial, but an inclined shoulder surface 43 where the seal 38 is applied. The seal 38 has in the illustrated, elastically deformed state on the shoulder surface 43 fitting cone surface 45 with which the seal 38 in the installation position sealing on the sloping shoulder surface 43 of the functional part 44 rests.

The 5 to 7 are examples that the sealing effect of the seal 38 radial ( 5 ), axial ( 6 ) or a combination of axial and radial ( 7 ).

Claims (38)

Solenoid valve having a solenoid part and a valve part, which has a bushing in which at least one piston is displaceable by a plunger against a counter force, which is arranged in a magnetteilseitigen housing, which is connected to the socket of the valve member and at least one Seal is provided which seals the solenoid valve in the installation position, characterized in that the seal ( 38 ) captive on the housing ( 3 ) of the magnetic part ( 1 ) is arranged. Solenoid valve according to Claim 1, characterized in that the seal ( 38 ) at any axial location on the circumference of the housing ( 3 ) of the magnetic part ( 1 ) is provided. Solenoid valve according to claim 1 or 2, characterized in that the sealing effect of the seal ( 38 ) is performed axially, radially or in combination of both directions. Solenoid valve according to one of Claims 1 to 3, characterized in that the seal ( 38 ) is mounted captive by radial bias. Solenoid valve according to one of claims 1 to 4, characterized in that the seal ( 38 ) to the housing ( 3 ) of the magnetic part ( 1 ) sprayed or vulcanized. Solenoid valve according to one of claims 1 to 5, characterized in that the seal ( 38 ) is designed as a profile seal. Solenoid valve according to one of claims 1 to 6, characterized in that the seal ( 38 ) by at least one axial securing element ( 4 . 6 . 39 ) on the housing ( 3 ) of the magnetic part ( 1 ) Is secured in position in at least one axial direction. Solenoid valve according to Claim 7, characterized in that the axial securing element ( 4 . 6 ) Part of the housing ( 3 ) of the magnetic part ( 1 ). Solenoid valve according to Claim 7 or 8, characterized in that the axial securing element ( 4 . 6 ) a radially projecting flange of the housing ( 3 ) of the magnetic part ( 1 ). Solenoid valve according to Claim 7, characterized in that the axial securing element ( 4 . 6 ) Part of a coil ( 7 ) of the magnetic part ( 1 ). Solenoid valve according to claim 10, characterized in that the axial securing element ( 4 . 6 ) a radially projecting flange of the coil ( 7 ) of the magnetic part ( 1 ). Solenoid valve according to Claim 7, characterized in that the axial securing element ( 39 ) on the housing ( 3 ) of the magnetic part ( 1 ) is sitting die punched part. Solenoid valve according to Claim 12, characterized in that the spacer ( 39 ) is annular. Solenoid valve according to claim 12 or 13, characterized in that the spacer ( 39 ) consists of elastomeric material, plastic or metallic material. Solenoid valve according to one of claims 12 to 14, characterized in that the spacer ( 39 ) has a cross-section that can serve as an attachment and / or support. Solenoid valve according to one of claims 12 to 15, characterized in that the spacer ( 39 ) on the radially projecting flange ( 6 ) of the housing ( 3 ) of the magnetic part ( 1 ) rests. Solenoid valve according to one of Claims 12 to 16, characterized in that the seal ( 38 ) to the spacer ( 39 ) is sprayed or vulcanized. Solenoid valve according to one of claims 7 to 17, characterized in that the axial securing element ( 4 . 6 ) on the valve part ( 2 ) facing away from the end of the housing ( 3 ) of the magnetic part ( 1 ) is provided. Solenoid valve, in particular according to one of Claims 1 to 18, characterized in that the housing ( 3 ) of the magnetic part ( 1 ) at least one transversely projecting tab ( 4 ) to BEFE stigung the solenoid valve has. Solenoid valve according to Claim 19, characterized in that the tab ( 4 ) on the valve part ( 2 ) facing away from the end of the housing ( 3 ) of the magnetic part ( 1 ) is provided. Solenoid valve according to Claim 19 or 20, characterized in that the tab ( 4 ) integral with the housing ( 3 ) of the magnetic part ( 1 ) is trained. Solenoid valve, in particular according to one of Claims 1 to 18, characterized in that the coil ( 7 ) of the magnetic part ( 1 ) at least one transversely projecting tab ( 4 ) for fixing the magnetic part ( 1 ) having. Magnetic part according to claim 22, characterized in that the tab ( 4 ) on the valve part ( 2 ) facing away from the end of the coil ( 7 ) of the magnetic part ( 1 ) is provided. Magnetic part according to Claim 22 or 23, characterized in that the tab ( 4 ) integral with the coil ( 7 ) of the magnetic part ( 1 ) is trained. Magnetic part according to one of Claims 22 to 25, characterized in that the tab ( 4 ) consists of plastic. Solenoid valve, in particular according to one of Claims 1 to 25, characterized in that the housing ( 3 ) of the Magnettei les ( 1 ) at least one transversely projecting securing element ( 40 ) having. Solenoid valve according to Claim 26, characterized in that the securing element ( 40 ) in one piece with the housing ( 3 ) of the magnetic part ( 1 ) is trained. Solenoid valve according to Claim 26 or 27, characterized in that the securing element ( 40 ) on the valve part ( 2 ) facing away from the end of the housing ( 3 ) of the magnetic part ( 1 ) is provided. Solenoid valve according to one of Claims 1 to 28, characterized in that the bushing ( 29 ) of the valve part ( 2 ) positive or non-positive with the magnetic part ( 1 ) connected is. Solenoid valve according to one of claims 1 to 29, characterized in that the magnetic part ( 1 ) a pole core ( 16 ), which from the housing ( 3 ) is surrounded. Solenoid valve according to Claim 30, characterized in that the pole core ( 16 ) at least one deformation part ( 28 ), which by plastic deformation with the sleeve ( 29 ) of the valve part ( 2 ) is connectable. Solenoid valve according to Claim 31, characterized in that the deformation part ( 28 ) an axially projecting ring on the pole core ( 16 ). Solenoid valve according to Claim 31 or 32, characterized in that the bushing ( 29 ) of the valve part ( 2 ) at least one recording room ( 31 ), preferably an annular groove, for the plastically deformed deformation part ( 28 ) having. Solenoid valve, in particular according to one of Claims 1 to 33, characterized in that the housing ( 3 ) of the magnetic part ( 1 ) has at least one deformation region. Solenoid valve according to Claim 34, characterized in that the deformation region is defined by a weakened wall section of the housing ( 3 ) of the magnetic part ( 1 ) is formed. Solenoid valve according to Claim 34 or 35, characterized in that the deformation region extends over the circumference of the housing ( 3 ) of the magnetic part ( 1 ). Solenoid valve according to one of Claims 34 to 36, characterized in that the deformation region at the level of a seal ( 24 ) lying in the pole core ( 16 ) is provided. Solenoid valve according to Claim 37, characterized in that the seal ( 24 ) is elastically deformable by the deformation region.