DE10342156B4 - Electromagnetically actuated valve, in particular for hydraulic brake systems of motor vehicles - Google Patents

Abstract

Electromagnetically operated valve, in particular for hydraulic brake systems in motor vehicles, with a valve body (16), a valve dome (18) connected to the valve body (16), in which a magnet armature (19) is accommodated in a longitudinally movable manner, with a longitudinal bore (17) in the valve body (16) and a plunger (36) which is longitudinally movably guided in the longitudinal bore (17) for transmitting an armature movement to a closing element (40) of a seat valve (41) in a valve chamber (31) facing away from the valve dome (18), which consists of a The valve seat (42) of the seat valve (41) can be supplied with flowing liquid and can be guided through at least one channel (37) of the plunger (36) into the valve dome (18) and is fixed to the housing with a filter insert (32) assigned to the valve chamber (31) and the filter element (51) of which is connected between the valve seat (42) and a pressure medium outlet (25), characterized in that the filter insert (32) is a circular cylindrical inside the filter element s (51) has lying sleeve part (50) which surrounds the valve seat (42) and is arranged coaxially to the valve seat (42) so that it protrudes with its freely protruding section (53) into the valve chamber (31).

Description

State of the art

The invention is based on an electromagnetically actuated valve according to the genus specified in more detail in the preamble of claim 1.

It is already such an electromagnetically actuated valve from the DE 100 36 576 A1 known as it can be used for example in an electro-hydraulic brake (EHB) as an exhaust valve, which is arranged downstream of a vehicle wheel associated with a wheel brake cylinder in a hydraulic unit. This valve comprises a valve body, which is adjoined by an armature space in which an armature is longitudinally movably guided. The armature is connected to a plunger, which passes through the valve body and on which a valve closure member is formed, which is arranged in a valve chamber and cooperates with a formed on a valve seat member valve seat. When used as an outlet valve of an electrohydraulic brake, this valve has the problem that when the pressure is released rapidly, ie when the brake is released quickly, insufficient noise can cause relatively loud creaking and thus disturbing noises. In order to reduce the noise, the plunger is guided in the valve body with close clearance and forms separate longitudinal channels between the valve chamber and the armature space, so that any air present in the valve dome is degraded as quickly as possible by the fluid flow. However, this valve in the region of the valve seat and the closing member can form circular eddy currents, which trap trapped air bubbles and thus can adversely affect the formation of noise. The existing here filter cartridge in the valve chamber, which is also mounted in the valve body, can not influence this vortex formation.

Furthermore, from the DE 44 29 211 A1 an electromagnetically actuated valve for slip-controlled hydraulic brake systems in motor vehicles, which has a sleeve surrounding the valve seat in a similar construction on a valve seat part. Here, the sleeve cooperates with one end of the plunger at least over a limited stroke range to form a throttle, so that the solenoid valve can take over the function of a flow control valve. In the valve chamber itself no filter element is provided for cleaning the pressure fluid flow.

In addition, the reveals DE 199 21 875 A1 a valve in which a magnetically active elements, such as armature and magnetic core of a fluid carrying part of the valve containing sleeve made of non-magnetizable metal, at the bottom of a valve seat for the attack of an anchor-operated closing member is formed. In addition, the valve has a coil containing an electrical part which is plugged onto the fluid-carrying part and encloses the sleeve with a magnetflußleitenden yoke disc. To reduce the magnetic resistance of the magnetic circuit of the valve, the wall thickness of the sleeve is reduced in the area enclosed by the yoke disc area and compensated for the wall thickness reduction by an inserted between the sleeve and the yoke disc workpiece made of magnetic material. The solenoid-operated valve is usable in slip-controlled hydraulic brake systems of motor vehicles.

Purpose and advantages of the invention

The object of the invention is to make a filter element so that it can be used in addition to the filter function for an advantageous flow guidance. This object is achieved by a valve according to claim 1.

The electromagnetically actuated valve according to the invention with the features of claim 1 has the advantage that in him a better flow guidance is made in the valve chamber, so that circular eddy currents are effectively prevented in the region of the valve seat and the closing member and thus also not trapped air bubbles in the vortex can be. Overall, this favors a faster venting, whereby the tendency of the valve to noise is significantly lower. In addition, the integration of filter element and sleeve part into a single component leads to a cost-effective solution, since neither additional parts nor assembly operations are necessary. Furthermore, this measure can be easily combined with previous solutions for noise reduction.

The measures listed in the dependent claims advantageous refinements and improvements of the claim 1 solenoid valve are possible, which especially a simple, inexpensive and easy to install design is favored. Further advantageous embodiments of the subject of the application will become apparent from the description and the drawings.

drawing

An embodiment of the invention is shown in simplified form in the drawing and explained in more detail in the following description.

Show it

1 a longitudinal section through an electromagnetically actuated valve and

2 a cross section II-II in 1 by a valve body and a plunger of the valve,

3 as a detail on an enlarged scale, the area of the valve chamber with the built-filter element and

4 a perspective view of the filter element according to 1 on an enlarged scale.

Description of the embodiment

An in 1 the drawing shown, electromagnetically actuated valve 10 for hydraulic brake systems of motor vehicles consists essentially of two modules, namely one in a stepped bore 11 a valve block 12 attached hydraulic part 13 and an electrical part plugged on the hydraulic part 14 ,

The hydraulic part 13 has a valve body 16 with a continuous longitudinal bore 17 on. On the side of the electrical part 14 is on the valve body 16 a valve dome 18 attached. In the valve dome 18 is an anchor 19 with longitudinal grooves 20 taken longitudinally movable.

In the stepped bore 11 of the valve block 12 is a valve seat part 22 with a circumferentially arranged sealing ring 23 added. This separates an inflow bore 24 of the valve block 12 from a discharge hole 25 , On the side of the inflow bore 24 is in the stepped bore 11 a filter disc 26 arranged. The one with a longitudinal bore 27 provided valve seat part 22 is by means of a sleeve 28 with the valve body 16 connected. The sleeve 28 has a bore on the shell side 29 ,

The sleeve 28 encloses itself between the valve body 16 and the valve seat part 22 extending valve chamber 31 , In this valve chamber 31 is a filter cartridge 32 which will be discussed in more detail below. This filter insert 32 still protrudes slightly into a larger diameter bore section 33 the longitudinal bore 17 of the valve body 16 into it. At this bore section 33 closes a hollow cone-shaped transition 34 to the smaller diameter part of the longitudinal bore 17 at.

In the longitudinal bore 17 of the valve body 16 is a pin-shaped pestle 36 added. This pestle 36 extends from the anchor 19 into the valve chamber 31 , The pestle 36 is over the entire length of the smaller diameter portion of the longitudinal bore 17 guided longitudinally movable with little radial play. The pestle 36 has four separate channels on the shell side 37 that stretch along the pestle 36 , starting from the valve chamber 31 , up to the valve dome 18 , extend ( 1 and 2 ). The channels 37 are in even division on the ram 36 arranged and rounded concave in cross-section. As the pestle 36 in the valve chamber 31 protrudes, this is due to the hollow cone-shaped transition 34 with a wedge-shaped constriction in cross-section 38 to the pestle 36 in a streamlined manner with its channels 37 in connection.

In the Ventilildomabgewandten valve chamber 31 there is a closing element 40 a seat valve 41 , This has one on the valve seat part 22 formed, hollow cone-shaped valve seat 42 , with the longitudinal bore 27 of the valve seat part 22 is in fluid-conducting connection. Against the valve seat part 22 has the closing member 40 a small diameter, cylindrical section 43 on, the sharp-edged in a valve seat 42 associated ball segment 44 passes. The closing element 40 is valve seat facing away with a pin 45 provided with it, coaxial with the pestle 36 running, with great radial play in these intervenes.

In the valve chamber 31 is also a return spring 47 received in the form of a helical compression spring, which on the one hand on the valve seat part 22 and on the other hand on the closing member 40 with bias attacks. Under the action of the return spring 47 are the closing element 40 , the pestle 36 and the anchor 19 non-positively supported each other. As in 1 shown, takes the seat valve 41 its open position, in which the closing member 40 over the pestle 36 the anchor 19 in the stop at the valve dome 18 holds.

As the 1 in connection with the enlarged detail 3 and the perspective view 4 shows closer, is the filter cartridge 32 formed as a rotationally shaped part with a U-shaped cross-section. The inner leg of the U-shape forms an annular sleeve part 50 while the outer leg as an annular filter element 51 is formed, both by an annular bottom plate 52 are firmly connected to each other. The integrally formed filter insert 32 is with its sleeve part 50 on a cone-shaped extension 53 of the valve seat part 22 Pressed so that the sleeve part 50 the valve seat 42 equiaxed surrounds. The sleeve part 50 is designed so long in the axial direction that it with its cantilevered portion 53 the section 43 of the closing member 40 concentrically encircled while the free end 54 , which is associated with the funnel-shaped transition, in the larger diameter bore portion 33 the longitudinal bore 17 in the valve body 16 protrudes. The free end 54 of the sleeve part 50 is formed in diameter so that it is smaller than the maximum diameter and larger than the minimum diameter of the funnel-shaped transition 34 , The filter element 51 points between jetties 55 trained window-like openings 56 on through the filter fabric 57 are covered. The filter element 51 has a freely projecting, annular edge 58 on, with which the filter cartridge 32 in the axial direction on the valve body 16 supports and at its outer periphery sealingly on the sleeve 28 is applied. This ensures that no liquid can flow unfiltered through the valve. The filter insert 32 is thus designed so that it is used in addition to the filter function still flow guidance in the valve. In addition, it can be inexpensively manufactured as an injection molded part and can be mounted easily in confined spaces.

The electrical part 14 of the valve 10 essentially encloses the from the valve block 12 towering valve body 16 with valve dome 18 and anchor 19 , The electrical part 14 consists of a coil 60 with an electrical winding 61 , which of a magnetic flux conducting housing 62 with yoke ring disc 63 is enclosed. In conjunction with the electrical part 14 is the valve body 16 at the same time pole core of the valve 10 ,

The valve 10 is by energizing its electrical winding 61 and thus generating a magnetic force effect on the armature 19 actuated. The magnetic force causes a movement of the armature 19 against the valve body 16 , The anchor movement is over the ram 36 on the closing member 40 transfer. This is the seat valve 41 switchable from the drawn open position into the closed position, in which the spherical segment 44 at the valve seat 42 attacks, or the seat valve 41 is transferable by current control in any intermediate positions. With open seat valve 41 is the inflow hole 24 of the valve block 12 with the discharge hole 25 connected. Liquid can thereby from the inflow bore 24 through the longitudinal bore 27 of the valve seat part 22 , the valve seat 42 , the valve chamber 31 , the filter element 32 and the hole 29 in the sleeve 28 to the outlet hole 25 flow. With the fluid-filled valve chamber 31 is the valve dome 18 through the channels 37 of the plunger 36 in liquid-conducting connection.

When first filling the brake system, air in the valve dome 18 are located. This air is from the valve dome in the following way 18 repressed:
When from the closed position out opening seat valve 41 get out of the valve seat 42 emerging liquid jets in the valve seat 42 opposite funnel-shaped constriction 38 the valve chamber 31 , This flow guidance is still supported by the valve seat 42 surrounding, tubular sleeve part 50 , From the funnel-shaped narrowing 38 liquid passes through at least one channel 37 and at least one groove 20 of the anchor 19 in the valve dome 22 , There, the liquid displaces the existing air and tears it through another channel 37 with itself in the valve chamber 31 , from which the liquid-air mixture through the outlet bore 25 out of the valve 10 is derived.

Furthermore, the filter cartridge 32 with its special shape through the tubular sleeve part 50 used for targeted flow guidance. Through the freely projecting section 43 of the sleeve part 50 is now prevented from being in the area of the closing member 40 with its bolt-shaped section 43 can form a vortex flow. The from the sleeve part 50 freely cantilevered section 53 , concentric with the valve seat 42 lies, borders the space around the bolt-shaped closing element 40 one. Through this space narrowing, the flow runs within the sleeve part 50 back up and out of it again. As a result, the path of the flow is guided so that no circular vortex flow can form more. This also prevents bubbles from being trapped in the turbulent flow; Rather, these bubbles are through the hole 29 in the sleeve 28 transported directly outside. Overall, this flow guidance results in that the inclination of the valve 10 for noise is much lower. The sleeve part 50 can be compared to the funnel-shaped transition 34 easily form and arrange so that the two effects for venting can be combined well with each other.

Of course, changes to the embodiment shown are possible without deviating from the idea of the invention.

Claims (11)

Electromagnetically actuated valve, in particular for hydraulic brake systems of motor vehicles, having a valve body ( 16 ), one with the valve body ( 16 ) connected valve dome ( 18 ), in which a magnet armature ( 19 ) is longitudinally movably received, with a longitudinal bore ( 17 ) in the valve body ( 16 ) and one in the longitudinal bore ( 17 ) longitudinally movably guided plunger ( 36 ) for transmitting an armature movement to a closing member ( 40 ) of a seat valve ( 41 ) in one of the valve dome ( 18 ) facing away valve chamber ( 31 ), which consists of a valve seat ( 42 ) of the seat valve ( 41 ) flowing liquid and through at least one channel ( 37 ) of the plunger ( 36 ) in the valve dome ( 18 ) is conductive and with one of the valve chamber ( 31 ) associated filter insert ( 32 ) which is fixed to the housing and whose filter element ( 51 ) between valve seat ( 42 ) and a pressure medium outlet ( 25 ), characterized in that the filter cartridge ( 32 ) a circular cylindrical, within the filter element ( 51 ) lying sleeve part ( 50 ) having the valve seat ( 42 ) and equiaxially to the valve seat ( 42 ) is arranged so that it with its freely projecting portion ( 53 ) in the valve chamber ( 31 protrudes. Valve according to claim 1, characterized in that the filter insert ( 32 ) has a substantially U-shaped cross-section, the inner leg of the annular sleeve part ( 52 ) and the outer leg of the annular filter element ( 51 ) formed by an annular bottom plate ( 52 ) are firmly connected. Valve according to claim 1 or 2, characterized in that the filter insert ( 32 ) with its sleeve part ( 50 ) close to a valve seat ( 42 ) having valve seat part ( 22 ) is attached. Valve according to one of claims 2 and 3, characterized in that the filter cartridge ( 32 ) with its free, annular edge ( 58 ) of the filter element ( 51 ) on the valve body ( 16 ) is supported. Valve according to claim 4, characterized in that the annular rim ( 58 ) a seal between valve chamber ( 31 ) and pressure medium outlet ( 25 ). Valve according to one of claims 1 to 5, characterized in that the filter insert ( 31 ) is formed as a one-piece injection molded part. Valve according to one of claims 1 to 6, characterized in that the sleeve part ( 50 ) the valve seat ( 42 ) with a section ( 53 ) surmounted whose free, axial length is greater than the diameter of the valve seat ( 42 ). Valve according to one of claims 1 to 7, characterized in that the plunger ( 36 ) leading longitudinal bore ( 17 ) via a funnel-shaped extension ( 34 ) in the valve space ( 31 ) and that this extension ( 34 ) on the one hand the sleeve section ( 53 ), while on the other hand to them along the ram ( 36 ) leading to the anchor space channels ( 37 ) are connected. Valve according to claim 8, characterized in that the sleeve section ( 53 ) at an axial distance from the funnel-shaped extension ( 34 ) ends. Valve according to one of claims 8 and 9, characterized in that the freely projecting end ( 54 ) of the sleeve part ( 50 ) has a diameter between the maximum and the minimum diameter of the funnel-shaped extension ( 34 ) lies. Valve according to one of claims 1 to 10, characterized in that the valve seat part ( 22 ) a peg-shaped, the valve seat ( 42 ) receiving extension ( 49 ), on which the filter cartridge ( 32 ), in particular is pressed on.

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