DE19744389A1 - Valve with pressure medium inlet and outlet chambers connectable together by inlet valve - Google Patents

Abstract

The valve system comprises a control piston (5) is pressurized by a first control chamber (2). A first control valve (34, 33, 30, 31) is provided, via which the first control chamber is selectively connectable with a pressure medium source or a pressure medium depression. An outlet valve (17, 18) connects the pressure medium outlet chamber (15) with a pressure medium depression. Between the inlet valve and the pressure medium outlet chamber is arranged a check valve closing in the direction of the inlet valve, by means of which a back flow of pressure medium from the pressure medium outlet chamber into the pressure medium inlet chamber is prevented.

Description

The invention relates to a valve device according to the Preamble of claim 1.

Such a valve device is from DE 33 45 697 A1 known. The known valve device consists in we substantial from a controllable inlet valve and a controllable exhaust valve. There is a via the inlet valve Pressure medium inlet chamber with a pressure medium outlet chamber connectable. The outlet valve is used for connection the pressure medium outlet chamber with a pressure medium sink.

The known valve device is part of a pressure medium equipped with an anti-lock control system actuated vehicle brake system and in this between egg a motor vehicle brake valve and at least one brake cylinder Linder arranged a vehicle axle.

In a normal braking process, in which there is no danger blocking the vehicle wheels, that flows from Motor vehicle brake valve pressure fluid coming into the pressure central entrance chamber and from this through the open  Inlet valve in the pressure medium outlet chamber, by wel cher it then in the brake cylinder or in the Bremszylin who arrives.

If, for the purpose of releasing the brake, the motor vehicle Brake valve brought into its brake release position, builds the pressure in the brake cylinder or in the brake cylinder on the pressure medium outlet chamber, the open Inlet valve, the pressure medium inlet chamber and the Mo Torwagen brake valve down to the pressure medium sink.

Only if a wheel assigned to the brake cylinder Vehicle blocking tendency is shown by means of a Electronics as control valves for the inlet valve and the Solenoid valves serving exhaust valve, in such a way that the inlet valve in its closing position tion and the exhaust valve reaches its open position. The pressure in the brake cylinder or in the brake cylinders is then lowered until the wheel is not blocked inclination shows more. Then the electromagnets arrive tile back to its original position. The inlet The valve then moves to its open position and off the let valve reaches its closed position.

If not caused by a pressure control process Release of pressure in the brake cylinder releases the brake slower than with a pressure control process acted pressure reduction, since the pressure in the brake cylinder linder or in the brake cylinders via the inlet valve the valve device, which from the pressure medium inlet to the Mo Torwagen brake valve leading pressure medium line and that Motor vehicle brake valve takes place.

The invention has for its object a valve direction of the type mentioned at the beginning, with wel cher the brake release process is improved.

This object is specified with that in claim 1 NEN invention solved. Training and advantageous Embodiments of the invention are in the subclaims specified.

The invention has the particular advantage that with simple means in the process of releasing the brake Brake pressure reduction in the brake cylinder is accelerated. There by that between the pressure medium outlet chamber and the Inlet valve on toward the inlet valve closing check valve is arranged can Brake release process the pressure medium in the pressure medium gear chamber and thus also from the brake cylinder to Pressure medium outlet chamber returning pressure medium do not get into the pressure medium inlet chamber. The Pressure medium in the tax assigned to the exhaust valve Chamber can thus freely through the pressure medium input chamber and the verbun with the pressure medium inlet chamber the motor vehicle brake valve towards the pressure medium sink stream. Thanks to the rapid pressure reduction in the control chamber assigned to the outlet valve can do this Exhaust valve from the pressure in the pressure medium outlet chamber be quickly brought into its open position. Of the The brake cylinder is then connected to the exhaust valve Pressure fluid sink connected. Because the brake cylinder directly connected to the pressure medium sink via the outlet valve pressure in the brake cylinder is reduced more quickly  than in the known valve device. The goodness of Brake pressure control is significantly improved.

An execution example is given below with reference to the drawing game of the invention explained in more detail.

The illustration shows one between a motor vehicle brake valve and a brake cylinder of a vehicle brake system arranged valve device, in which between a Inlet valve and a pressure medium outlet chamber one in Non-return valve direction to close valve is arranged.

The valve device has a housing ( 1 ) in which a pressure medium input chamber ( 7 ), a pressure medium output chamber ( 15 ) and a pressure medium sink, for. B. the atmosphere, leading pressure medium outlet ( 24 ) are arranged on. The pressure medium input chamber ( 7 ) is connected via a first pressure medium connection ( 38 ) of the housing ( 1 ) and a pressure medium line ( 37 ) to a pressure medium output of a valve designed as a motor vehicle brake valve ( 40 ). A pressure medium input of the motor vehicle brake valve ( 40 ) is connected via a pressure medium line ( 41 ) to a compressed air supply container ( 42 ) serving as a pressure medium source. The pressure medium outlet chamber ( 15 ) is connected via a further pressure medium connection ( 14 ) of the housing ( 1 ) and a pressure medium line ( 16 ) to a consumer as a brake cylinder ( 22 ).

The pressure medium input chamber ( 7 ) and the pressure medium output chamber ( 15 ) can optionally be connected to one another or shut off from one another via an inlet valve ( 6 , 4 ). A first control piston ( 5 ) is used to actuate the inlet valve ( 6 , 4 ). The first control piston ( 5 ) is formed by a membrane which is richly attached with its outer Randbe in the housing ( 1 ). The inlet valve ( 6 , 4 ) consists of a housing-fixed inlet valve seat ( 6 ) and a valve closing member ( 4 ), which is formed by a reinforced region of the membrane. The valve closing member ( 4 ) is acted upon by a spring ( 3 ), which is supported with one end on the housing ( 1 ) and with the other end of the valve closing member ( 4 ) in the direction of the inlet valve seat ( 6 ) valve seat ( 6 ) held. Via an outlet valve ( 17 , 18 ), the pressure medium outlet chamber ( 15 ) can either be connected to the pressure medium outlet ( 24 ) or locked against it. A second control piston ( 21 ) is used to actuate the outlet valve ( 17 , 18 ). The second control piston ( 21 ) is also formed by a membrane which is fastened with its outer edge region in the housing ( 1 ). The outlet valve ( 17 , 18 ) consists of a housing-fixed outlet valve seat ( 17 ) and a valve closing member ( 18 ) which is formed by a reinforced area of the other membrane. The valve closing member ( 18 ) by a spring ( 20 ), which is supported at one end on the Ge housing ( 1 ) and with its other end the valve closing member ( 18 ) in the direction of the exhaust valve seat ( 17 ) to act on Keep exhaust valve seat ( 17 ) ge. A pressure medium outlet ( 23 ) of the outlet valve ( 17 , 18 ) is connected to the pressure medium outlet ( 24 ) of the valve device.

The first control piston ( 5 ) limits with its one side the pressure medium input chamber ( 7 ) and with its other side facing this water side a first control chamber ( 2 ). The second control piston ( 21 ) delimits the pressure medium outlet chamber ( 15 ) on one side and a second control chamber ( 19 ) on the other side opposite this side.

Via a pressure medium line ( 36 ) designed as a housing channel, the first control chamber ( 2 ) is connected to the pressure medium outlet of a first control valve ( 34 , 33 , 30 , 31 ) arranged in the housing ( 1 ) of the valve device, which is operated as an electromagnetically operable 3/2 - Directional control valve is formed, connected. The first control valve ( 34 , 33 , 30 , 31 ) has an inlet valve ( 34 , 33 ) and an outlet valve ( 30 , 31 ). A pressure medium inlet ( 35 ) of the first control valve ( 34 , 33 , 30 , 31 ) is with the pressure medium inlet chamber ( 7 ) and a pressure medium outlet of the first control valve ( 34 , 33 , 30 , 31 ) is with the pressure medium outlet ( 24 ) of the valve device connected. The first control valve ( 34 , 33 , 30 , 31 ) is used to selectively connect the first control chamber ( 2 ) with the Druckmit telingangskammer ( 7 ) or with the first Druckmittelan circuit ( 38 ) or with the pressure medium outlet ( 24 ) of the Ven tileinrichtung.

A in the housing ( 1 ) of the valve device arranged second control valve ( 29 , 28 , 26 , 27 ) serves to selectively connect the second control chamber ( 19 ) with the pressure medium inlet chamber ( 7 ) or with the pressure medium outlet ( 24 ). The second control valve ( 29 , 28 , 26 , 27 ) is designed as an electromagnetically actuated 3/2-way valve, which has an inlet valve ( 29 , 28 ) and an outlet valve ( 26 , 27 ). A pressure medium inlet ( 39 ) of the second control valve ( 29 , 28 , 26 , 27 ) is connected to the pressure medium inlet chamber ( 7 ) of the valve device and a pressure medium outlet ( 25 ) of the second control valve ( 29 , 28 , 26 , 27 ) is via a housing channel formed pressure medium line connected to the second control chamber ( 19 ). A pressure medium outlet of the second control valve ( 29 , 28 , 26 , 27 ) is connected to the pressure medium outlet ( 24 ) of the valve device. The two control valves ( 34 , 33 , 30 , 31 and 29 , 28 , 26 , 27 ) are electrically connected to a plug device ( 32 ) arranged on the housing ( 1 ). The plug device ( 32 ) is connected to electronics (not shown).

The inlet valve ( 6 , 4 ) of the valve device has a pressure medium outlet ( 8 ) in which a non-return valve ( 9 , 10 ) is arranged in the direction of the inlet valve ( 6 , 4 ). The check valve ( 9 , 10 ) has a tubular body ( 12 ) which rests with one end on a step of the housing ( 1 ) and extends with its other end sealed into the Druckmit tel output ( 8 ). An annular projection, which serves as a valve seat ( 9 ), is arranged on the inside of the wall of the tubular body ( 12 ). In the tubular body ( 12 ) on the inlet valve ( 6 , 4 ) facing away from the valve seat ( 9 ) as a valve closing member Ven ( 10 ) serving ball in the direction of the valve seat ( 9 ) or in the direction away from this bar arranged. The valve closing member ( 10 ) is on its side facing away from the valve seat ( 9 ) by a spring ( 11 ) arranged in the tubular body ( 12 ), which is supported with one end on the step of the housing ( 1 ) and with its other end the valve closing member is urged towards the valve seat ( 9 ), held on the valve seat ( 9 ). The tubular body ( 12 ) serves as a guide for the valve closing member ( 10 ). The wall of the tubular body ( 12 ) has at least one through opening ( 13 ) through which pressure medium can flow unhindered. The through opening ( 13 ) is arranged between the valve closing member ( 10 ) and the valve closing member ( 10 ) distal end of the tubular body ( 12 ), which sits on the step of the housing ( 1 ), in the wall of the tubular body ( 12 ) net.

The tubular body ( 12 ) can, for. B. braid from a Gitterge or consist of a perforated sheet.

It is of course also possible to dimension the tubular body ( 12 ) in the direction of its longitudinal axis such that its end facing away from the valve seat ( 9 ) does not sit on the step of the housing ( 1 ), but extends freely into the pressure medium outlet chamber ( 15 ) .

The function of the valve device described above tion is explained in more detail below.

The valve device is arranged in the compressed air-actuated brake system of a vehicle equipped with an anti-lock control system between the valve designed as a motor vehicle brake valve ( 40 ) and the brake cylinder ( 22 ). When the brake is not actuated, the inlet valve ( 6 , 4 ) and the outlet valve ( 17 , 18 ) of the valve device as well as the check valve ( 10 , 9 ) are in their closed position. The pressure medium outlet chamber ( 15 ) is thus shut off against the pressure medium inlet chamber ( 7 ) and against the pressure medium outlet ( 24 ). The Druckmit telingangskammer ( 7 ) is connected via the pressure medium line ( 37 ) and the motor vehicle brake valve ( 40 ) with the atmosphere. The first control chamber ( 2 ) is shut off from the pressure medium inlet chamber ( 7 ) by means of the first control valve ( 34 , 33 , 30 , 31 ) and connected to the pressure medium outlet ( 24 ) of the valve device. The second control chamber ( 19 ) is connected by means of the second control valve ( 29 , 28 , 26 , 27 ) to the pressure medium input chamber ( 7 ) of the valve device and thus to the atmosphere and is shut off from the pressure medium outlet ( 24 ) of the valve device. The pressure medium output chamber ( 15 ) and the brake cylinder ( 22 ) are depressurized.

Compressed air is actuated by actuating the motor vehicle brake valve ( 40 ) from the motor vehicle brake valve ( 40 ), this reaches through the pressure medium line ( 37 ) via the first pressure medium connection ( 38 ) into the pressure medium input chamber ( 7 ) of the valve device. At the same time, compressed air flows from the first pressure medium connection ( 38 ) through the open inlet valve ( 29 , 28 ) of the second control valve ( 29 , 28 , 26 , 27 ) into the second control chamber ( 19 ).

Due to the pressure in the pressure medium inlet chamber ( 7 ) and the annular surface of the first control piston ( 5 ) acting in the opening direction of the inlet valve ( 6 , 4 ), the valve closing member ( 4 ) against the force of the spring ( 3 ) from the inlet valve seat ( 6 ) lifted off so that the inlet valve ( 6 , 4 ) reaches its open position. The air then flowing from the pressure medium inlet chamber ( 7 ) through the opened inlet valve ( 6 , 4 ) to the Druckmit tel output ( 8 ) of the inlet valve ( 6 , 4 ) then acts on the valve closing member ( 10 ) of the check valve ( 9 , 10 ) in the opening direction, whereby then the valve closing member ( 10 ) against the force of the Fe ( 11 ) from the associated valve seat ( 9 ) is lifted ben. The compressed air coming from the inlet valve ( 6 , 4 ) passes through the then opened check valve ( 9 , 10 ) into the pressure medium outlet chamber ( 15 ) and from this through the second pressure medium connection ( 14 ) and the pressure medium line ( 16 ) into the brake cylinder ( 22 ).

The pressure building up in the pressure medium outlet chamber ( 15 ) simultaneously acts on the annular surface of the second control piston ( 21 ) assigned to the outlet valve ( 17 , 18 ) in the opening direction of the outlet valve ( 17 , 18 ). However, since the area of the second control piston ( 21 ) acted upon by the pressure medium in the pressure medium exit chamber ( 15 ) is smaller than the area opposing this area, the second control chamber ( 19 ) delimiting area of the second control piston ( 21 ) and the pressure in the second control chamber ( 19 ) is exactly as high as the pressure in the pressure medium outlet chamber ( 15 ), the outlet valve ( 17 , 18 ) is held in its closed position.

If the brake is to be released again, pressing the motor vehicle brake valve ( 40 ) accordingly blocks the first pressure medium connection ( 38 ) and thus the pressure medium input chamber ( 7 ) by means of the motor vehicle brake valve ( 40 ) against the compressed air reservoir ( 42 ) and connected to the atmosphere. The pressure in the first pressure medium connection ( 38 ) and thus the pressure in the pressure medium inlet chamber ( 7 ) decreases towards the atmosphere.

Due to the costs associated with the pressure reduction in the Druckmittelein transition chamber (7) pressure gradient from the pressure medium output chamber (15) to the pressure medium inlet chamber (7) towards the valve closing member (10) is of the non-return valve (9, 10) by the pressure medium in the Druckmittelaus transition chamber (15) brought to bear on the associated valve seat ( 9 ), the closing movement of the valve closing member ( 10 ) being supported by the spring ( 11 ). The pressure medium outlet chamber ( 15 ) is then blocked by means of the check valve ( 9 , 10 ) against the inlet valve ( 6 , 4 ) and thus against the pressure medium inlet chamber ( 7 ).

Simultaneously with these processes, the pressure in the outlet valve ( 17 , 18 ) of the valve device associated with the second control chamber ( 19 ) also builds up via the most pressure medium connection ( 38 ). Due to the pressure reduction in the second control chamber ( 19 ), the force exerted by the pressure in the pressure medium outlet chamber ( 15 ) in the opening direction of the outlet valve ( 17 , 18 ) on the second control piston ( 21 ) outweighs that force directed in the opposite direction on the second control piston ( 21 ) applied force of the pressure in the second control chamber ( 19 ). The second control piston (21) then moves against the force of the spring (20) in the opening direction of the outlet valve (17, 18), wherein the valve closure member (18) seat of the outlet valve (17) is lifted. Through the then open from the valve ( 17 , 18 ), the compressed air flows from the Druckmit tel exit chamber ( 15 ) to the pressure medium outlet ( 24 ) and through this to the atmosphere. If the pressure in the pressure medium outlet chamber ( 15 ) has dropped so far that the forces exerted on the second control piston ( 21 ) by the pressure in the pressure medium outlet chamber ( 15 ) and the pressure in the second control chamber ( 19 ) are in equilibrium , The two th control piston ( 21 ) by the spring ( 20 ) in the closing direction of the exhaust valve ( 17 , 18 ) is driven. The Ven valve closure member ( 18 ) then comes to rest on the exhaust valve seat ( 17 ). The outlet valve ( 17 , 18 ) is then closed.

Since the pressure medium inlet chamber (7) and the pressure with telausgangskammer (15) by means of the check valve (9, 10) are blocked against each other, can flow compressed air from the pressure medium output chamber (15) is not input chamber into the pressure medium (7). As a result, the pressure in the pressure medium inlet chamber ( 7 ) is also rapidly reduced. If the pressure in the pressure medium input chamber ( 7 ) has dropped so far that the force exerted by the spring ( 3 ) on the control piston ( 5 ) in the closing direction of the inlet valve ( 6 , 4 ) is greater than the force opposed to this force first control piston ( 5 ) exerted force of the pressure in the pressure medium input chamber ( 7 ), the first control piston ( 5 ) moves in the closing direction of the inlet valve ( 6 , 4 ). The valve closing member ( 4 ) then comes to rest on the inlet valve seat ( 6 ). The inlet valve ( 6 , 4 ) is then closed.

If a tendency to lock is detected on the wheel of the vehicle belonging to this brake cylinder ( 22 ) during a braking operation, the electronics sends a corresponding signal to the first control valve ( 34 , 33 , 30 , 31 ) and, if appropriate, also to the second control valve ( 29 , 28 , 26 , 27 ). The first control valve ( 34 , 33 , 30 , 31 ) switches over in such a way that its outlet valve ( 30 , 31 ) comes into the closed position and its inlet valve ( 34 , 33 ) into the open position. The first control chamber ( 2 ) is then blocked against the pressure medium outlet ( 24 ) of the Ventilein direction and connected to the first Druckmittelan circuit ( 38 ) or to the pressure medium input chamber ( 7 ). The pressure then building up in the first control chamber ( 2 ) acts on the first control piston ( 5 ) in the closing direction of the inlet valve ( 6 , 4 ). If the force exerted by the pressure in the first control chamber ( 2 ) and the force exerted by the spring ( 3 ) on the first control piston ( 5 ) is greater than that opposed to this force by the pressure in the pressure medium input chamber ( 7 ) on the first control piston ( 5 ) the force exerted, the first control piston ben ( 5 ) moves in the closing direction of the inlet valve ( 6 , 4 ). The valve closing member ( 4 ) then comes into contact with the inlet valve seat ( 6 ). The inlet valve ( 6 , 4 ) is then closed, whereby the compressed air supply to the brake cylinder ( 22 ) is interrupted.

If necessary, the second control valve ( 29 , 28 , 26 , 27 ) also switches over in such a way that its inlet valve ( 29 , 28 ) comes into the closed position and its outlet valve ( 26 , 27 ) into the open position. The second control chamber ( 19 ) is then closed against the first Druckmittelan circuit ( 38 ) or against the pressure medium input chamber ( 7 ) and connected to the pressure medium outlet ( 24 ) of the valve device. The pressure in the second control chamber ( 19 ) then drops. Because of the then higher pressure in the pressure medium outlet chamber ( 15 ), the second control piston ( 21 ) moves in the opening direction of the outlet valve ( 11 , 18 ) of the valve device, as a result of which the outlet valve ( 17 , 18 ) reaches its open position. The pressure in the pressure medium outlet chamber ( 15 ) and thus also the pressure in the brake cylinder ( 22 ) drops.

If the wheel no longer tends to lock, the signals on the two control valves ( 34 , 33 , 30 , 31 and 29 , 28 , 26 , 27 ) drop. The two control valves ( 34 , 33 , 30 , 31 and 29 , 28 , 26 , 27 ) return to their starting position. The first control chamber ( 2 ) is then vented and the second control chamber ( 19 ) is then vented. The inlet valve ( 6 , 4 ) of the valve device reaches again in its open position and the outlet valve ( 17 , 18 ) of the valve device returns to its closed position. Brake pressure is fed into the brake cylinder ( 22 ) again.

If the brake is to be released, the brake pressure is reduced in the brake cylinder ( 22 ), as already described above, via the outlet valve ( 17 , 18 ) of the valve device, the pressure medium outlet chamber ( 15 ) then again using the check valve ( 9 , 10 ) is blocked against the pressure medium inlet chamber ( 7 ).

The pressurizable with the control pressure surface of the first control piston (5) and the second control piston (21) is advantageously greater than that of these FLAE surface opposing to the output pressure beauf whippable surface of the first control piston (5) and the second control piston (21 ), so that a movement of the most control piston ( 5 ) or the second control piston ( 21 ) in the closing direction of the valve assigned to it is favored.

The check valve can of course also be designed differently than the check valve shown in the figure ( 9 , 10 ).

It is possible according to the invention to form the valve seat of the check valve directly on the pressure medium outlet ( 8 ) of the inlet valve ( 6 , 4 ) and to use a portion of the pressure medium outlet ( 8 ) as a guide for the valve closing member ( 10 ). The valve closing member can be designed as a ball, as shown in the exemplary embodiment. However, it can also be designed differently, e.g. B. as a rotationally symmetrical body.

The valve closing member of the check valve can also be formed by a flap-like or tab-like part which is fastened in the region of the pressure medium outlet ( 8 ) of the inlet valve ( 6 , 4 ) in such a way that it closes the pressure medium outlet of the inlet valve ( 6 , 4 ) and by the Inlet valve ( 6 , 4 ) coming pressure medium can be brought into a position to be released the pressure medium outlet ( 8 ) in the direction of the pressure medium outlet chamber ( 15 ).

However, according to the invention it is also possible to arrange a standard check valve in or on the pressure medium outlet ( 8 ) of the inlet valve ( 6 , 4 ).

It is essential for the invention, however, that the return check valve ( 9 , 10 ) between the inlet valve ( 6 , 4 ) and the pressure medium outlet chamber ( 15 ), that is, between the inlet valve ( 6 , 4 ) and a space which is arranged with the consumer (z. B. brake cylinder) and is connected to the input of the outlet valve (17, 18) of the valve device, so that when the venting operation, the pressure medium from the consumer (cylinder) can not flow back into the pressure medium inlet chamber (7) of the valve means .

The valve device according to the invention can be used both in Compressed air brake systems as well as in one Hydraulic fluid working brake systems used become. The control piston can be used as a membrane or as be rigid body, being a rigid body trained pistons sealed in appropriate holes be carried out.

Claims (6)

1. Valve device with the following features:

• a) there is a pressure medium inlet chamber ( 7 ) and ei ne pressure medium outlet chamber ( 15 ) which are connected to one another via an inlet valve ( 6 , 4 );
• b) for actuating the inlet valve ( 6 , 4 ) is used a first control piston ( 5 ), one side of which can be acted upon by the pressure of the pressure medium inlet chamber ( 7 ) and the other side of which is opposite to this side by the pressure of a first control chamber ( 2 );
• c) a first control valve ( 34 , 33 , 30 , 31 ) is provided, via which the first control chamber ( 2 ) can optionally be connected to a pressure medium source or to a pressure medium sink;
• d) there is an outlet valve ( 17 , 18 ) through which the pressure medium outlet chamber ( 15 ) can be connected to a pressure medium sink;
• e) for actuating the outlet valve ( 17 , 18 ) is used a second control piston ( 21 ), one side of which can be acted upon by the pressure of the pressure medium outlet chamber ( 15 ) and the other side of which is opposite this side with the pressure of a second control chamber ( 19 );
• f) a second control valve ( 29 , 28 , 26 , 27 ) is provided, via which the second control chamber ( 19 ) can be connected either to a pressure medium source or to a pressure medium sink;

characterized in that between the inlet valve ( 6 , 4 ) and the pressure medium outlet chamber ( 15 ) a check valve ( 9 , 10 ) to be closed in the direction of the inlet valve ( 6 , 4 ) is arranged, by means of which a return flow of pressure medium from the pressure medium outlet chamber ( 15 ) in the pressure medium inlet chamber ( 7 ) is prevented. 2. Valve device according to claim 1, characterized in that the inlet valve ( 6 , 4 ) has a Druckmit tel output ( 8 ) and the check valve ( 9 , 10 ) in or at the pressure medium outlet ( 8 ) of the Einlaßven valve ( 6 , 4 ) is. 3. Valve device according to claim 1, characterized in that the inlet valve ( 6 , 4 ) has a Druckmit tel output ( 8 ) and that the check valve ( 9 , 10 ) from a in or on the pressure medium outlet ( 8 ) of the inlet valve ( 6 , 4th ) arranged valve seat (9) and a member toward the valve seat (9) to or away movably arranged valve closure (10), wherein the valve closure member (10) by a spring (11) towards the valve seat (9 ) too stressed and kept on it. 4. Valve device according to claim 1, characterized by the following features:

• a) the check valve ( 9 , 10 ) has a tubular body ( 12 ) which extends with one end sealed into a pressure medium outlet ( 8 ) of the inlet valve ( 6 , 4 );
• b) on the inside of the wall of the tubular body pers ( 12 ) is an annular projection angeord net, which serves as a valve seat ( 9 );
• c) in the tubular body ( 12 ) a valve closing member ( 10 ) is arranged to be movable in the direction of the longitudinal axis of the tubular body ( 12 ), the tubular body ( 12 ) serving as a guide for the valve closing member ( 10 );
• d) in the tubular body ( 12 ) on the Ven tilsitz ( 9 ) facing away from the valve closing member ( 10 ) a spring ( 11 ) is arranged, which acts on the valve closing member ( 10 ) in the direction of the valve seat ( 9 );
• e) the wall of the tubular body ( 12 ) in the region between the valve closing member ( 10 ) and the valve closing member ( 10 ) remote end of the tubular body ( 12 ) at least one through opening ( 13 ) for pressure medium.

5. Valve device according to claim 4, characterized in that the spring ( 11 ) is supported with its Ven tilschlussglied ( 10 ) end facing the housing ( 1 ) of the valve device or on a part of the tubular body ( 12 ). 6. Valve device according to claim 1, characterized by the following features:

• a) the inlet valve ( 6 , 4 ) has a pressure center oil outlet ( 8 );
• b) the check valve has a valve closing member serving flap-like or rag-like part, which is fixed in the area of the pressure medium output ( 8 ) so that it closes the Druckmit tel output ( 8 ) and from which a lassventil ( 6 , 4 ) coming Pressure medium can be brought into a position to be released into the pressure medium outlet ( 8 ) in the direction of the pressure medium outlet chamber ( 15 ).