DE19710050A1 - Electromagnetic valve especially for hydraulic brake systems - Google Patents

Abstract

The electromagnetic valve includes a magnetic drive (2) with a magnetic coil (4). A switching valve (3) has a magnetic armature (7) and core (5), and the armature drives a plunger (8) carrying a valve member (9). The switching valve has a valve plate (10) with a valve seat (17) and form an integral component. Preferably, the magnetic plate is directly or indirectly fitted to the magnetic core via a coupler (11), connected frictionally or positively to the valve plate and the magnetic core. Typically the coupler forms a pressure medium connection as integral part of the valve.

Description

The invention relates to an electromagnetic valve, in particular for hydraulic brake systems with Brake pressure control devices, with a magnetic drive and a switching valve, the magnetic drive being a solenoid has and the switching valve with a magnet armature and is provided with a magnetic core, the magnetic armature one Drives the tappet and the tappet carries a valve closing member, which interacts with a valve seat.

Such electromagnetic valves are in a variety known. So z. B. from WO-A-9205989 Solenoid valve has become known, in which the Magnetic armature and the magnetic core within a valve sleeve sit and caulked the valve sleeve with a valve housing is. The solenoid coil is arranged around the valve sleeve. Of the Magnet armature drives a valve lifter, the free end of which with a valve closing member, e.g. B. a ball head is trained. This valve closing member works with one Valve seat together, which is located in the valve housing. At assembly of the switching valve with the valve housing be made sure that the valve closing member the correct distance from the valve seat.

DE 41 12 920 A1 is a further solenoid valve became known, in which the valve seat also in Valve housing and the switching valve as an add-on unit is designed. Again, the valve closing member, which is provided on the valve lifter, and the valve seat can be adjusted to each other.

The invention is based on the invention, a simple to provide manageable solenoid valve, which is universally applicable.

This object is achieved in that the Switching valve is provided with a valve plate and the Valve plate has the valve seat and the switching valve forms a structural unit.

At the electromagnetic valve according to the invention there is therefore a Valve plate provided, which has the valve seat with which the valve closing member interacts with. Since the Valve plate forms a structural unit with the switching valve, the valve closing element and the valve seat can be exactly in advance can be set, whereby the solenoid valve a has a more secure structure compared to solenoid valves, which are built in the block. In addition, the structure of the Solenoid valve according to the invention easier than in the previous valves. Another advantage is that the risk of contamination of the solenoid valve is reduced and due to the compact structure and the simpler design of the valve housing Scrap costs are reduced. They are also coarser Tolerances in the valve plate permitted. Since that Solenoid valve according to the invention can be used universally markings are omitted.

A further development provides that the valve plate by means of a connecting element directly or indirectly on the magnetic core is arranged. This connecting element can, for. Legs Be sleeve, which on the magnetic core and on the valve plate attacks. This sleeve can be made of metal and on appropriate ring grooves may be crimped, but it can also consist of plastic, here z. B. corresponding  Snap connections are possible. In any case, the Valve plate tightly connected to the switching valve. over this connecting element can the valve plate exactly Valve closing element can be aligned or adjusted. This connecting element can either be on the magnetic core attack or on a valve sleeve, which in turn on Magnetic core is attached.

A pressure medium connection in the switching valve is advantageous integrated. It is a preferred Embodiment of the pressure medium connection from Connection element formed for the valve plate. This Pressure medium connection is z. B. in a normally open (SO) valve a valve outlet and when de-energized closed (SG) valve one valve inlet.

The valve plate advantageously has a sealing section on that with a valve block or valve body cooperates. This is the sealing section Solenoid valve according to the invention at the installation site sealed. It can be preferred Embodiments of the sealing section of a axial cutting edge seal, a radial Christmas tree seal, a self-clinch seal, one Cone seal, an axial and / or radial Elastomer seal or the like are formed. Furthermore, the Sealing section completely on the valve plate be provided, or the seal consists of two Sections, one of which is on the valve plate, and the another is provided on the valve housing or valve block.

The connecting element advantageously has a filter. This can be flowed through either axially or radially.

In another embodiment, the valve plate  provided with a filter insert. In addition, the Valve plate have a check valve which, for. B. is designed as a plate valve. Furthermore, the Valve plate have a throttle orifice that is individual can be tailored to the application needs. This Throttle orifice plate can also be retrofitted be used.

The switching valve is preferably on via the magnetic drive can be attached to a valve block or valve housing. Doing so the solenoid actuator is pushed over the switching valve and lies on a shoulder or the like on the switching valve, so that the Switch valve when fastening the magnetic actuator in the direction is clamped on the valve block. The Attachment in the axial direction and the sealing of the Switch valve is opposite the valve block from the Valve plate causes. So there are no additional ones Measures to seal the switching valve required in addition, only a single seal is required.

In another embodiment, the magnetic drive arranged in the switching valve. This solenoid valve has a very slim design, light weight and requires a much smaller space than conventional solenoid valves.

In a preferred development, the magnetic drive is via a sleeve, in particular with a sleeve reinforcement connected to the valve plate.

Further advantages, features and details of the invention result from the subclaims and from the following description, in which with reference to the Drawing particularly preferred embodiments in Individuals are described. Show:  

Fig. 1 shows a longitudinal section through a first embodiment of the solenoid valve according to the invention;

Figures 2 and 3 solenoid valves with different sealing sections.

FIG. 4 shows a solenoid valve with integrated in the valve plate orifice plate;

Fig. 5 is an electromagnetic valve with integrated magnetic drive; and

Fig. 6 is a solenoid valve with self-clinch device.

In Fig. 1, an electromagnetic valve designated 1 is shown in longitudinal section. This electromagnetic valve 1 is formed by a magnetic drive 2 and a switching valve 3 . The magnetic drive 2 has a magnetic coil 4 , into which the switching valve 3 can be inserted. This switching valve 3 has a magnetic core 5 , a valve sleeve 6 fastened to a free end, a magnet armature 7 arranged coaxially in the valve sleeve and axially displaceably mounted, and a plunger 8 which is coupled to the magnet armature 7 . This plunger 8 extends through the magnetic core 5 and has a valve closing member 9 in the form of a spherical section at its free end. On the free end face of the magnetic core 5 there is a valve plate 10 which is connected to the magnetic core 5 via a connecting element 11 . For this purpose, the magnetic core 5 is designed step-like in the region of this free end and has a section 12 with a reduced diameter. The connecting element 11 , which is designed like a sleeve, is pushed over this section 12 , the outer diameter of the connecting element 11 being selected such that it corresponds to the maximum outer diameter of the switching valve 3 or of the magnetic core 5 .

The magnetic core 5 has a circumferential groove 13 which can receive a radially inwardly projecting circumferential edge of the connecting element 11 . For easy insertion or sliding of the connecting element 11 into the circumferential groove 13 , the insert facing the free end of the magnetic core 5 is chamfered into the circumferential groove 13 . The opposite end face of the connecting element 11 also has a radially inwardly projecting peripheral edge 14 which engages in a peripheral groove 15 of the valve plate 10 . Here, the circumferential groove 15 has radially extending groove side edges, so that the circumferential edge 14 can be easily inserted into the circumferential groove 15 via an entry slope 16, but is held securely in this.

The diameter of the valve plate 10 essentially corresponds to the diameter of the connecting element 11 and essentially the outer diameter of the magnetic core 5 . This valve plate 10 is provided with a valve seat 17 which interacts with the valve closing member 9 . A bore 18 adjoins the valve seat 17 and opens out of the valve plate 10 . Immediately following the bore 18 is an orifice plate 19 , via which the flow or the flow rate is controlled. The orifice plate 19 is held on the valve plate 10 by means of a cap 20 , for which purpose the valve plate 10 is provided with a circumferential groove 21 and the cap 20 is provided with a radially inwardly projecting circumferential edge 22 at its front end.

In the axial direction, a radial shoulder 23 of the valve plate 10 has a cutting edge seal 24 with which the electromagnetic valve 1 can be sealed off from a valve block (not shown).

The electromagnetic valve 1 according to the invention shown in FIG. 1 has the essential advantage that it is designed as an independently manageable structural unit and has a relatively simple construction and can be inserted into the valve block and fastened there without further valve components. In addition, the solenoid valve 1 can be manufactured universally, only the orifice plate 19 having to be individually matched to the intended use, so that the respectively specifically required orifice plate 19 is placed on the universal solenoid valve 1 by means of the cap 20 and the solenoid valve 1 is thereby adapted to the intended use can.

In FIG. 2, another embodiment of the solenoid valve 1 according to the invention is shown in which the sealing portion 25 is formed by a cone seal 26. In this exemplary embodiment, the valve plate 10 has an axial ring 27 which has the conical seal 26 and into which the cap 20 , which is designed on the end face, can be inserted. The front end of the cap 20 is provided with a receiving shoulder 28 for the diaphragm plate 19 . Again, the universally designed solenoid valve 1 by using an individual orifice plate 19 which, for. B. is attached by means of the cap 20 , adaptable to the special purpose.

In FIG. 2, the end face of the magnetic core 5 an axial recess 29, thereby creating a stepped end face. Accordingly, the end face of the valve plate 10 facing the magnetic core 5 is provided with a central axial recess 30 , as a result of which the valve plate 10 can be centered on the magnetic core 5 . The distance between the magnetic core 5 and the valve plate 10 can be adjusted by inserting disks or the like into the recess 30 , as a result of which the distance between the valve closing member 9 and the valve seat 17 can be changed.

In the embodiment of Fig. 3 is provided, the radial circumferential surface of the Axialrings 27 with a radial Tannenbaum seal 31 in the form of a saw tooth. Here, too, the cap 20 and the connecting element 11 have one or more openings in the circumferential direction through which the flow medium can flow. These breakthroughs can be covered by sieves, filters or the like.

In contrast to FIGS. 1 to 3, which show valves that are open when de-energized, FIGS . 4 to 6 represent valves that are closed when de-energized. In the exemplary embodiment in FIG. 4, the magnetic core 5 merges into a valve sleeve 6 , which is connected to a holding element 32 is. The connecting element 11 , to which the valve plate 10 is fixed, is fastened to this holding element 32 . In this exemplary embodiment, too, both the valve closing member 9 and the valve seat 17 are provided on the electromagnetic valve 1 , which forms a structural unit. In addition, the aperture plate 19 is inserted into an axial recess 33 .

In the embodiment of FIG. 5, the valve sleeve 6 is extended and provided with a widened end that it can receive the valve plate 10 with its front end. In addition, there is the magnetic drive 2 with the magnetic coil 4 in the widening 34 , so that the entire solenoid valve 1 is given a slim design. The expansion 34 can, for. B. welded to the pole core 35 of the magnetic drive 2 .

In the embodiment of FIG. 6, the free end face of the valve plate 10 is provided with an axial extension 36 , which has a self-clinch seal 37 on its circumferential surface. There is also a reinforcing insert 38 between the magnetic drive 2 and the expansion 34 .

Claims (17)

1. solenoid valve, in particular for hydraulic brake systems with brake pressure control devices, with a magnetic drive ( 2 ) and a switching valve ( 3 ), the magnetic drive ( 2 ) having a solenoid coil ( 4 ) and the switching valve ( 3 ) with a magnet armature ( 7 ) and one Magnetic core ( 5 ) is provided, the magnet armature ( 7 ) driving a plunger ( 8 ) and the plunger ( 8 ) carrying a valve closing member ( 9 ) which cooperates with a valve seat ( 17 ), characterized in that the switching valve ( 3 ) is provided with a valve plate ( 10 ) and the valve plate ( 10 ) has the valve seat ( 17 ), and the switching valve ( 3 ) forms a structural unit. 2. Electromagnetic valve according to claim 1, characterized in that the valve plate ( 10 ) by means of a connecting element ( 11 ) on the magnetic core ( 5 ) is arranged directly or indirectly. 3. Solenoid valve according to claim 2, characterized in that the connecting element ( 11 ) is frictionally and / or positively connected to the valve plate ( 10 ) and / or the magnetic core ( 5 ). 4. Solenoid valve according to one of the preceding claims, characterized in that a pressure medium connection is integrated in the switching valve ( 3 ). 5. Electromagnetic valve according to claim 4, characterized in that the pressure medium connection is formed by a connecting element ( 11 ) for the valve plate ( 10 ). 6. Electromagnetic valve according to one of the preceding claims, characterized in that the valve plate ( 10 ) has a sealing section ( 25 ) which cooperates with a valve block. 7. Solenoid valve according to claim 6, characterized in that the sealing portion ( 25 ) of an axial cutting edge seal ( 24 ), a radial fir tree seal ( 31 ), a self-clinching device ( 37 ), a cone seal ( 26 ), an axial and / or radial elastomer seal or the like. 8. Solenoid valve according to one of claims 2 to 7, characterized in that the connecting element ( 11 ) has a filter. 9. Electromagnetic valve according to one of the preceding claims, characterized in that the valve plate ( 10 ) is provided with a filter insert. 10. Solenoid valve according to one of the preceding claims, characterized in that the valve plate ( 10 ) has a check valve. 11. Solenoid valve according to claim 10, characterized characterized in that the check valve as Plate valve is formed. 12. Electromagnetic valve according to one of the preceding claims, characterized in that the valve plate ( 10 ) has a throttle diaphragm ( 19 ). 13. Electromagnetic valve according to one of the preceding claims, characterized in that the switching valve ( 3 ) via the magnetic drive ( 2 ) can be fastened to a valve block. 14. Solenoid valve according to claim 13, characterized in that the attachment is carried out in the axial direction and the sealing of the switching valve ( 3 ) against the valve block by the valve plate ( 10 ) is effected. 15. Electromagnetic valve according to one of claims 1 to 12, characterized in that the magnetic drive ( 2 ) is arranged in the switching valve ( 3 ). 16. Solenoid valve according to claim 15, characterized in that the magnetic drive ( 2 ) via a sleeve ( 6 ), in particular with a sleeve reinforcement ( 38 ) with the valve plate ( 10 ) is connected. 17. Solenoid valve according to one of the preceding claims, characterized in that it can be equipped with an individually coordinated orifice plate ( 19 ).