DE3101906C2 - - Google Patents

Description

The invention relates to a pressure relief valve arrangement for two working groups according to the preamble of claim 1.

Such a pressure relief valve arrangement is known from DE-OS 28 21 393. If the pump is switched on with this pressure limitation device, fluid flows over the pressure regulator to load the accumulator. When the pressure in the accumulator rises, the supply current to the brake circuit is interrupted by the valve piston and the pressure fluid is fed to the level control. The pressure in the accumulator continues to increase until it reaches the point where the pressure regulator is actuated and opens to return pressure fluid from the pump to the reservoir, allowing the pump to run empty. Then the accumulator is loaded with the maximum pressure required for the level control system, which is generally about 140 kp / cm ² .

To again in the known pressure relief valve arrangement Establish connection between the brake circuit and the memory , the valve piston must first move to an end position be pushed. Since the booster pressure in the brake circuit is in This has to be made available in a fraction of a second extremely disadvantageous.

In the known arrangement, the valve piston moves when the pressure in the brake circuit drops, not from its second shift position in the first switch position.

The object of the invention is therefore a pressure limiting valve til arrangement of the type mentioned to create the simple is under construction and in which the second working group, in particular  the level control can have a higher pressure than that Brake booster, while ensuring that the Brake booster is primarily supplied with pressure.

This object is achieved in that the Pressure accumulator and the pressure switch are arranged in the brake circuit and in a line leading to an unpressurized container second working group, a solenoid valve is provided, the Pressure switch when falling below a certain pressure can be actuated to interrupt the connection to the container. This creates a particularly simple arrangement in which both the pressure accumulator and the pressure switch in the brake circuit are arranged and at which the entire memory pressure at any time is available for braking.

According to a preferred embodiment of the invention Valve housing arranged a housing-fixed insert, the one has central bore in which the valve piston is arranged is, which has cross holes that the central hole with the Connect consumer connections.  

In order to ensure in a particularly simple manner that the the second working group formed a higher one Can have pressure than the brake circuit, is in further training of the Invention for spring loading of the valve piston a Compression spring provided, the increase in force related to the Low travel or the spring curve is degressive.

The compression spring is expediently arranged in the valve housing net, using a screw insert to adjust the spring force is axially screwed into the valve housing on which the pressure spring rests with one end. The other end of the pressure spring rests against a pressure plate in an advantageous manner the other side of which the valve piston rests.

Further refinements of the invention provide that for limitation tion of the movement path of the valve piston a stop is seen, which is preferably part of the screw insert.

Another connection is advantageously on the valve housing provided that can be connected to an unpressurized container, where the leak oil can be discharged.

The invention is described below using an exemplary embodiment explained in more detail, which is shown in the drawing.

The single figure shows a pressure relief valve 1 for two working groups, namely a brake circuit with a pressure accumulator 2 and a level control. The pressure relief valve 1 has a valve housing 3 which has a central pressure connection 4 which is connected to a pump 6 via a line 5 . A first and a second consumer connection 7 and 8 are also provided in the valve housing 3 . The first consumer connection 7 leads via a line 10 , in which a check valve 11 is connected to the brake circuit 12 , not shown. From the second consumer connection 8 a line 13 goes out, which leads via a check valve 14 to the level control 15 , not shown in more detail.

A housing-fixed insert 16 is inserted into a central bore of the valve housing 3 , seals 17 a, b, c being arranged between the valve housing 3 and the insert 16 . The ge fixed housing insert 16 has a central bore 18 in which a valve piston 19 is axially displaceable. Furthermore, 16 transverse bores 20 and 21 are provided in the housing-fixed insert, which on the one hand open into the central bore 18 and on the other hand are open to the consumer connections 7 and 8 . The valve piston 19 has a central longitudinal bore 22 which leads to a continuous transverse bore 23 .

An extension 24 of the valve housing bore follows the housing-fixed insert 16 , into which an insert 25 , which is open towards the valve piston 19 , is inserted. The screw set 25 has a thread 26 in a front section and an annular groove 27 in the rear section, a sealing ring 28 being inserted in the latter. Inside the screw insert 25 , a central pin 29 is provided, which forms a stop for a pressure plate 30 , on one side of which the valve piston 19 and on the other side of which a compression spring 31 rests, the other end of which is located on the pin 29 on the screw insert 25 supports. In the expanded part 24 of the central housing bore, a further connection 32 is provided for discharging the leak oil, which leads via line 33 to a pressureless container 34 .

From the line 10 leading to the brake circuit 12 , a branch line 10 a leads directly to the pressure accumulator 2 . Another branch line 10 b leads to a pressure switch 35 so that it is acted upon by the storage pressure.

From the line 33 a first branch line 13 a goes upstream of the check valve 14 to a 2/2-way solenoid valve 36 and then leads into a pressureless container 37 . Another branch line 13 b goes after the check valve 14 to a further 2/2-way solenoid valve 38 and then likewise into the container 37 . The solenoid valves 36 and 38 are in a circuit in which a level switch 39 is arranged. This circuit can be interrupted by the pressure switch 35 when the pressure falls below a certain value.

The following is the mode of operation of the print limits shown Description of the valve arrangement:

The liquid flow conveyed by the pump 6 reaches a pressure chamber 40 via the pressure connection 4 and acts on the valve piston 19 . In the position shown, the flow through the central bore 22 , the cross bores 23 and 20 to the circuit 7 and thus via the line 10 to the pressure accumulator 2 or the brake circuit 12 is open. After reaching a pressure of the pressure spring 31 and the surface of the valve piston 19 predetermined pressure from the valve piston 19, the transverse bore 21 and thus the flow to the consumer connection 8 and this is released via the line 13 to the level control 15 .

The electrical contact of the pressure switch 35 is connected to the solenoid valve 36 ("lifting"). Is now switched from the level switch 39 to "lifting", then the flow through the solenoid valve 36 is blocked and the liquid flow is directed to the strut provided with the level control 15 . If the pressure required on the struts is lower than the pressure set on the pressure relief valve 1 , then the excessively high pressure in the pressure limiting valve 1 is reduced by the valve piston 19 . The Druckab construction takes place at the transverse bore 21 in connection with the valve piston 19th The gap is set according to the pressure drop. If the pressure on the struts of the level control 15 is higher, then the valve piston 19 is already moved up to the stop pin 29 at a slight increase in pressure and a correspondingly large cross section is released on the transverse bore 21 .

If the pressure in the pressure accumulator 2 falls below the permissible pressure during a level control process, the circuit of the solenoid valve 36 is interrupted by the pressure switch 35 . The solenoid valve 36 thereby reaches its position which opens the line to the pressureless container 37 . The valve piston 19 is brought by the compression spring 31 to the left in its transverse bore 20 via the transverse bore 23 releasing position, so that the hydraulic fluid can flow via lines 10 and 10 a to the pressure accumulator 2 until it is loaded again.

Claims (8)

1. Pressure relief valve arrangement for two working groups, of which a first has a brake circuit and the second in particular a level control, with a pressure accumulator, with a valve housing which has a pressure connection that can be connected to a pressure supply source, a first load connection that can be connected to the brake circuit and has a second consumer connection that can be connected to the second working circuit, the pressure connection opening into a pressure chamber delimited by a valve piston, and wherein in a first switching position in which the valve piston is spring-loaded, the valve piston opens a connection between the pressure chamber and the first consumer connection and closes a connection of the pressure chamber to the second consumer connection, and in a second switching position the pressure chamber is connected to the second consumer connection and the connection of the first consumer connection to the pressure chamber is interrupted, and to a pressure switch, which is acted upon by the accumulator pressure, characterized in that the accumulator ( 2 ) and the pressure switch ( 35 ) are arranged in the brake circuit and in a line ( 13 a) of the second working circuit leading to an unpressurized container ( 37 ) a solenoid valve ( 36 ) is provided which can be actuated by the pressure switch ( 35 ) when the pressure falls below a certain value in order to interrupt the connection to the container ( 37 ). 2. Pressure relief valve arrangement according to claim 1, characterized in that in the valve housing ( 3 ) a housing-fixed insert ( 16 ) is arranged, which has a central bore ( 18 ) in which the valve piston ( 19 ) is arranged, the transverse bores ( 20th , 21 ) which connect the central bore ( 18 ) with the consumer connections ( 7, 8 ). 3. Pressure relief valve arrangement according to claim 1 or 2, characterized in that for the spring loading of the valve piston ( 19 ) a compression spring ( 31 ) is provided, the increase in force based on the spring travel is small. 4. Pressure relief valve arrangement according to one of claims 1 to 3, characterized in that for the spring loading of the valve piston ( 19 ) a compression spring ( 31 ) is provided, the spring characteristic is degressive. 5. Pressure relief valve arrangement according to one of claims 2 to 4, characterized in that the compression spring ( 31 ) in the valve housing ( 3 ) is arranged, wherein for adjusting the spring force, a screw insert ( 25 ) is screwed axially into the valve housing, on which the compression spring ( 31 ) rests with one end. 6. Pressure relief valve arrangement according to claim 5, characterized in that the other end of the compression spring ( 31 ) abuts a pressure plate ( 30 ), on the other side of which the valve piston ( 19 ) abuts. 7. Pressure relief valve arrangement according to one of the preceding claims, characterized in that a stop ( 29 ) is provided to limit the movement path of the valve piston ( 19 ), which is preferably part of the screw insert ( 25 ). 8. Pressure relief valve arrangement according to one of the preceding claims, characterized in that a further connection ( 32 ) is provided on the valve housing ( 3 ), which can be connected to an unpressurized container ( 34 ).