DE102016206034A1 - Electromagnetic valve, in particular for slip-controlled motor vehicle brake systems - Google Patents

Abstract

In order to provide a smooth switching behavior - especially in solenoid valves - which are normally closed, it is already known to provide two valve closing bodies (7, 8), wherein the first valve closing body (7) has a small diameter valve passage (5) in the second valve closing body ( 8) is able to close and the second valve closing body (8) serves to close a cross-sectional valve passage (6) in the housing of the valve. The second valve closing body (8) is loaded by a valve spring (17), which still holds it in its closed position in the initial phase of an opening process. Only when a certain pressure equalization has taken place, the valve spring (17) comes into effect and pulls the second valve closing body (8) against the first valve closing body (7), so that the first valve passage (5) is closed and for the further pressure equalization of the second valve passage (6) is available. In the present invention, the valve spring (17) is designed as a tension spring, which is arranged between the first and the second valve closing body (7, 8) and produces a tension-loaded connection between them.

Description

The invention relates to a solenoid valve, in particular for slip-controlled motor vehicle brake systems, with a valve housing in which a first and a second valve closing body are in coaxial arrangement, which are able to open or close a first and a second valve passage, wherein the first Valve passage has a smaller cross-section than the second valve passage, with an opening into the valve housing pressure medium inlet and a Druckmittelauslass, the first valve closing body depending on the electromagnetic excitation of a valve spool is able to open or close located in the second valve closing body first valve passage and wherein the second valve closing body under the influence of a valve spring releases the second valve passage exclusively in the open position of the first valve passage, so that a pressure medium present in the pressure medium inlet runs along a S flow path within the valve housing, in which the first and second valve passage is located, passes to the pressure medium outlet.

Such a solenoid valve is in the DE 102 52 231 A1 described and works as follows:
The solenoid valve is normally closed. It is opened, in which the solenoid of the valve is energized, so that a magnet armature, which is connected to the first valve closing body, is pulled against a magnet.

Thus, the first valve passage in the second valve closing body is opened at the same time, so that first passes through pressure medium from the pressure medium inlet to the pressure medium outlet.

Since the cross section of the first valve passage is small, the pressure compensation takes place only slowly. The first valve closing body is loaded on the one hand by the pressure at the pressure medium inlet and on the other hand by the pressure at the pressure medium outlet of the valve, whereby - since the second valve passage is larger in cross section than the first - the pressure at the pressure medium outlet first valve closing body, d. h as long as no pressure equalization has taken place, press against the second valve passage, so that it remains closed.

The first valve closing body is loaded by a valve spring, which works against the pressure at the pressure medium inlet.

After the first valve passage has been opened, thereby gradually adjusting pressure equalization, there is a certain point where the total pressure force on the first valve closing body becomes smaller than the force of the valve spring so as to lift the second valve closing body from the second valve passage and this opens.

The further pressure medium discharge now takes place rapidly over the large cross section of the second valve passage.

By such a two-stage design of the valve, a soft opening operation can be realized.

The valve spring is designed as a compression spring and from below, d. H. against a surface, which is directed to the second valve passage, applied against a collar on the second valve closing body.

To realize a support opposite to the federal government for the valve spring, located on the armature a sleeve which engages under the collar and has an inwardly directed shoulder, on which the valve spring is supported. Thus, an additional component, namely the sleeve, is needed to provide support for the valve spring.

The invention is based on the object to continue to realize a soft switching operation - as explained above - and thereby to achieve a simpler construction of the valve.

The invention is achieved in that the valve spring is arranged between the first and the second valve closing body and is attached thereto in such a way that a train-loading connection between the valve closing bodies is made.

In contrast to the prior art, the valve spring is thus not used as a compression spring, but as a tension spring. This has the advantage that can be dispensed with another component that realizes a support for the valve spring.

Preferably, the valve spring is designed so that the valve spring has a minimum stroke and a maximum stroke, wherein the minimum stroke is present when the first valve closing body abuts the first valve passage, and the maximum stroke is present when the first valve closing body is spaced from the second valve closing body and the second valve closing body on second valve passage is applied, and that the spring property of the valve spring is set so that the spring force in the maximum stroke is smaller than a predetermined holding force, which is determined by the difference in cross-section of the second and first valve passage pressure difference value at the second valve body, in which this a position at which the second valve passage is still closed but has not yet taken place pressure equalization between the inlet pressure and the outlet pressure, but is greater than a release force, which is determined by the pressure difference value based on the cross-sectional difference of the second and first valve passage on the second valve body, in which it is in a position at which second valve passage is still closed, but because of the opened first valve passage has already taken place at least a partial pressure equalization between the inlet pressure and the outlet pressure.

This vote of the valve spring causes their spring force is insufficient to follow the second valve closing body, as long as no pressure equalization has taken place. Rather, the second valve closing body initially remains in its closed position on the second valve passage.

Only when a certain pressure equalization has taken place and the total pressure force on the second valve closing body has decreased, the spring tension is able to lift the second valve closing body from the second valve passage and to open it.

In order to secure the valve spring, it is proposed that the magnet armature on its side facing the second valve closing body a first base and the base of this opposite end face of the second valve closing body has a second base, wherein the valve spring is secured with its ends in each case on one of the pedestals ,

The attachment is particularly easy to implement when the valve spring is a cylinder spring and that the pedestals each have a cylindrical shape and the ends of the valve spring are attached to the base.

There are no further fastening means necessary if the inner diameter of the valve spring is slightly smaller than the outer diameter of the base, so that the inside of the valve spring is frictionally held on the lateral surface of the base.

The difference of the inner diameter of the cylinder spring to the outer diameters of the base must be chosen so that the frictional engagement gives a greater fastening force than is the release force.

The invention further provides that the second valve closing body is made as a turned part of free cutting steel.

In addition, the invention provides that the valve housing is made in one piece, the remote from the second valve passage open sleeve end is closed by an effective as a magnetic core plug, which is designed as a cold impact or extrusion part.

In the following, the invention will be explained in more detail with reference to an embodiment. The only Fig. Shows a longitudinal section through a valve according to the invention.

The solenoid valve therefore has a one-piece, thin-walled by deep drawing valve housing 1 , the upper end of a separate, attached to the outer circumference of the valve housing and secured by laser welding retaining collar 2 receives, which is produced by non-cutting forming, for example, as a cold-formed part. The essentially disc-shaped retaining collar 2 is formed on the outer circumference as Verstemmstempel, so that this with its circumferential circumference undercut with the assembled valve housing 1 can be pressed in a stepped receiving bore of a block-shaped valve carrier, not shown here, the soft material is displaced during the Einpressvorgangs for fastening and sealing purposes in the undercut.

At the bottom of the retaining collar 2 is a sleeve 9 attached, which is an extension of the valve body 1 forms. Above the retaining collar 2 is the open end portion of the sleeve-shaped valve housing 1 with a stopper 14 closed, which simultaneously performs the function of a magnetic core. Also the stopper 14 consists of a cost-effective and sufficiently precisely manufactured cold-formed part, which with the valve housing 1 laser welded at the outer periphery. Below the plug 14 there is a magnet armature 4 , which is also made very cost-effective from a round or polygonal profile by cold hammering or extrusion. The magnet armature 4 closes under the action of a closing spring 16 in the basic valve position with the magnet armature 4 attached first valve closing body 7 a first, in a second valve closing body 8th arranged first valve passage 5 , The second valve closing body 8th is in the sleeve 9 , which are below the second valve closing body 8th a valve seat body 10 stops, through which a second valve passage 6 runs.

For this purpose, the first valve closing body 7 conveniently as a valve ball 11 in a recess in an end face of a pedestal 20 on the front side of the magnet armature 4 caulked. The second valve closing body 8th is designed as a hollow cylinder. Under the action of a valve spring 17 it is in the closing direction on a second valve passage 6 loaded.

Due to the effect of the between the stopper 14 and the armature 4 arranged closing spring 16 remains - in the illustration of the basic valve position - the effective valve closure valve ball 11 at the second valve passage provided in the lower end of the valve 6 whose passage cross section is considerably larger than the opening cross section of the first valve passage 5 ,

The pressure medium inlet formed essentially as a transverse channel in the valve carrier 13 sits down on a cavity in the valve carrier to a stamped transverse bore 18 in the sleeve 9 so that inlet-side pressure fluid directly on the second valve closing body 8th pending.

The second valve passage 6 is for mechanical relief of the valve body 1 in a disc or sleeve-shaped valve seat body 10 provided on the inner wall of the sleeve 9 is held by means of press fit. The valve seat body 10 consists of a wear-resistant metal.

In contrast to the prior art embodiment, the valve spring is 17 not designed as a compression spring, but as a tension spring.

The magnet armature has this 4 a central extension in the form of a pedestal 20 , at the free end of the valve ball 11 is pressed into a depression. The base 20 Slightly conical but with a cylindrical foot.

The second valve closing body 8th owns on his the magnet armature 4 facing end also a pedestal 23 having a cylindrical surface, through the center of the first valve passage 5 runs.

The front of the pedestal 23 is a little conically drawn inwards, forming a valve seat 24 coming from the valve ball 11 can be occupied, so the first valve passage 5 to lock.

The valve spring 17 is designed as a cylindrical spring and has an inside diameter that is slightly smaller than the diameter of the two sockets 20 . 23 so that their ends can be pressed onto them, whereby a frictional connection is created, which is a firm connection of the valve spring 17 between the armature 4 and the second valve closing body 8th realized.

The valve spring 17 has some bias so that the valve ball 11 with a slight pressure on the valve seat 24 is attached and keeps it closed.

When the valve opens, the armature becomes 4 magnetized and against the force of a closing spring 16 against the magnetic core (plug 14 ) drawn. Since the second valve closing body 8th is loaded by the pressure at the inlet of the valve in the closing direction, the bias of the valve spring is not enough to take this with it. Rather, the second valve closing body remains 8th at its valve seat on the second valve passage 6 ,

Now can pressure medium from the pressure medium inlet 13 to the pressure medium outlet 19 below the second valve passage 6 over the first valve passage 5 , which has a small cross section, flow. However, since this represents a hydraulic resistance, the pressure compensation takes place only slowly.

At some point, however, a pressure at the pressure medium outlet 19 present, which equalizes the pressure at the pressure medium inlet, so that the total pressure force on the second valve closing body 8th is reduced and thus the valve spring 17 is placed in the position, the second valve closing body 8th against the first valve closing body 7 to draw. Although this is the first valve passage 5 closed, but at the same time the second valve passage 6 open, so that in the second phase of the pressure compensator a large cross-section is available, which promotes rapid pressure equalization.

LIST OF REFERENCE NUMBERS

1

 valve housing

2

 retaining collar

4

 armature

5

 first valve passage

6

 second valve passage

7

 first valve closing body

8th

 second valve closing body

9

 shell

10

 Valve seat body

11

 valve ball

13

 Pressure inlet

14

 Plug

16

 closing spring

17

 valve spring

18

 cross hole

19

 pressure medium outlet

20

 base

23

 base

24

 valve seat

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 10252231 A1 [0002]

Claims (8)

Electromagnetic valve, in particular for slip-controlled motor vehicle brake systems, having a valve housing ( 1 ), in which a first and a second valve closing body ( 7 . 8th ) are in coaxial arrangement, having a first and a second valve passage ( 5 . 6 ) to open or close, wherein the first valve passage ( 5 ) has a smaller cross section than the second valve passage ( 6 ), with a in the valve housing ( 1 ) opening pressure medium inlet ( 13 ) and a pressure medium outlet ( 19 ), wherein the first valve closing body ( 7 ) depending on the electromagnetic excitation of a valve spool in the second valve closing body ( 8th ) located first valve passage ( 5 ) can open or close and wherein the second valve closing body ( 8th ) under the influence of a valve spring ( 17 ) exclusively in the open position of the first valve passage ( 5 ) the second valve passage ( 6 ), so that one in the pressure medium inlet ( 13 ) pressure medium along a flow path within the valve housing ( 1 ), in which the first and second valve passage ( 5 . 6 ), to the pressure medium outlet ( 19 ), characterized in that the valve spring ( 17 ) between the first and the second valve closing body ( 7 . 8th ) is arranged and attached to these such that a train loaded connection between the valve closing bodies ( 7 . 8th ) is made. Electromagnetic valve according to claim 1, characterized in that the valve spring ( 17 ) has a minimum lift and a maximum lift, wherein the minimum lift is present when the first valve closing body ( 7 ) at the first valve passage ( 5 ) is present, and the maximum stroke is present when the first valve closing body ( 7 ) of the second valve closing body ( 8th ) is spaced and the second valve closing body ( 8th ) on the second valve passage ( 6 ) is applied, and that the spring property of the valve spring ( 17 ) is set up so that the spring force in the maximum stroke is smaller than a predetermined holding force, which results from the on the cross-sectional difference of the second and first valve passage ( 5 . 6 ) related pressure difference value at the second valve closing body ( 8th ) in which it is in a position in which the second valve passage ( 6 ) is still closed but no pressure equalization between the inlet pressure and the outlet pressure has taken place, but is greater than a release force resulting from the on the cross-sectional difference of the second and first valve passage ( 5 . 6 ) related pressure difference value at the second valve closing body ( 8th ) in which it is in a position in which the second valve passage ( 6 ) is still closed but because of the opened first valve passage ( 5 ) has already taken place at least a partial pressure equalization between the inlet pressure and the outlet pressure. Electromagnetic valve according to claim 1 or 2, characterized in that the magnet armature ( 4 ) at its the second valve closing body ( 8th ) facing side a first socket ( 20 ) and the base of the opposite end face of the second valve closing body a second base ( 23 ), wherein the valve spring ( 17 ) with their ends in each case on one of the pedestals ( 20 . 23 ) is attached. Electromagnetic valve according to claim 3, characterized in that the valve spring ( 17 ) a cylindrical spring is that the pedestals ( 20 . 23 ) each have a cylindrical shape and the ends of the valve spring ( 17 ) on the pedestals ( 20 . 23 ) are plugged. Electromagnetic valve according to claim 4, characterized in that the inner diameter of the valve spring ( 17 ) is slightly smaller than the outer diameter of the pedestals ( 20 . 23 ), so that the inside of the valve spring ( 17 ) frictionally engaged on the lateral surface of the base ( 20 . 23 ) is held. Electromagnetic valve according to claim 5, characterized in that the frictional engagement gives a greater fastening force than is the release force. Electromagnetic valve according to one of the preceding claims, characterized in that the second valve closing body ( 8th ) is manufactured as a turned part of free cutting steel. Electromagnetic valve according to one of the preceding claims, characterized in that the valve housing ( 1 ) is made in one piece, whose from the second valve passage ( 6 ) facing away from an open end of a magnetic core as a plug ( 14 ) is closed, which is designed as a cold impact or extrusion part.

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