DE2159766A1 - PRESSURE REGULATION WITH ADJUSTABLE PUMP - Google Patents

Description

Pressure control with a variable displacement pump The invention relates to a variable displacement pump with pressure control, especially for feeding several consumers. In well-known In the case of a variable displacement pump with pressure control, the flow rate is reduced to such an extent that that the pressure set on the pressure regulator is just maintained by the pump will.

If there are several consumers on the pump that differ from each other Pressure requirement connected, the pressure setting of the pressure regulator must be the highest required consumer pressure. The rest of the Operating consumers with this pressure also during the time in the Consumer with this highest pressure requirement is out of service, acted upon. but a consumer with only changing pressure requirements is also used with this known pressure control constantly pressurized by the highest pressure set on the pressure regulator.

The object of the invention is to provide a variable displacement pump with pressure control to create the pressure setting of the currently required highest pressure requirement must be continuously adjusted in order to ensure economical operation of the pump.

According to the invention this is achieved in that the hydraulic Adjusting device of the variable displacement pump influencing control valve in one control direction in a manner known per se from the pump pressure and from the other control direction Consumer pressure, and a spring force is applied, the spring force at least that caused by flow losses at the control member of the control valve acting pressure difference between pump and consumer pressure corresponds and the Consumer pressure together with the spring force the control member in the sense of an increase applied to the delivery rate of the pump.

By using the consumer pressure as another on the control element the control pressure acting on the control valve is the delivery rate of the variable displacement pump based on the currently required highest consumer pressure and thus an economical operation of the pump is guaranteed. This is advantageous Control valve designed as a longitudinal slide valve, the control piston of which has a control chamber includes the one with the pressure line of the pump, as well as one with the tank in Connected controlled connection and a third connection for the Has adjusting device of the variable displacement pump leading control line, wherein the Adjusting device is formed by a differential cylinder whose piston rod side Cylinder chamber from the pump pressure and its piston-side cylinder chamber from the control pressure of the control valve -is acted upon and in the piston-side cylinder chamber additionally a spring loading the piston in the direction of the piston rod is effective. More expedient Way are to Damping of the adjusting movement of the adjusting cylinder both cylinder chambers connected via a throttle.

In a further embodiment of the invention is that of the control valve to Adjustment device for the pump leading control line via a, the pump when reached a statically effective maximum pressure that controls back into the zero delivery position Control valve guided. This control valve is also in an advantageous manner Formed longitudinal slide valve and the control piston also has a control chamber with three connections, one of which is connected to the consumer pressure controlled control valve is connected via a control line and a with the tank connected connection are to be controlled by the control piston and a Another uncontrolled connection directly to the adjusting device for the variable displacement pump leading control line is in operative connection and the control piston in the closing direction of the tank connection can be adjusted by a setting that defines the maximum pump pressure Spring is loaded and in the closing direction of the connection with the control line is connected, which leads to the control valve controlled by the consumer pressure from the pump pressure is applied. If several consumers are fed by the variable displacement pump, stand this in a simple manner via interleaved shuttle valves with the Control line connected to the control valve controlled by the consumer pressure leads.

An embodiment of the invention is shown schematically in the drawing shown.

In the single figure, 1 is the variable displacement pump and 2 is that of a differential cylinder formed adjusting device referred to. The pressure line 3 of the variable displacement pump leads to a distribution line 4, from which the individual line sections 4a, 4b, 4c and 4d for the control elements 5, 6, 7 and 8 formed by directional control valves to lead. These control organs are working cylinders 9, lo and 11, as well as a hydraulic motor 12 assigned. The working line leading from the control element 5 to the working cylinder 9 13 and the working line 14 leading from the control element 6 to the working cylinder lo Via line sections 13a, 14a with the two inlets of a shuttle valve 15 The working lines leading from the control element E to the hydraulic motor 12 are also connected 16 and 17 via line sections 16a, 17a with the inputs of a shuttle valve 18 connected, the output of which via a line 19 to the input of another Shuttle valve 20 is in communication, the other input via line 21 connected to the working line 22 leading from the control element 7 to the working cylinder 11 is. The line 23 leading away from the shuttle valve 15 and that from the shuttle valve 2c Line 24 leading away lead to the inputs of a further shuttle valve 25, its output via a control line 26 to the piston chamber 27 of a control valve 28 is in connection.

This nested connection of the working cylinders and the Hydraulic motor via shuttle valves to control line 26 prevails in this in each case the highest pending consumer pressure. The control valve 28 has a control piston 29, which includes a control chamber 30, which in turn has three connections P1, A1 and T1. The connection P1 is via the line 31 with the pressure line 3 of the pitch pump 1 in connection and the connection T1 via a line 32 with the tank line 33 leading to the tank T. The connections P1 and T1 are controlled by the control edges 29a, 29b of the control piston 29. The uncontrolled one Connection A1 is connected to connection P2 of a control valve 35 via a line 34 tied together. Furthermore, the control valve 28 has a control chamber 28a, which via the Connection X1 with the line leading to the pressure line 3 of the pitch pump 1 in connection stands. So that the control piston 29 is in the closing direction of the port P1 from Immediately applied to the pump pressure. The control piston moves in the opposite direction 29 in addition to the consumer pressure prevailing in the spring chamber 27 also from the spring 43 loaded, which can be adjusted in its spring tension via an actuator 44.

The control valve 35 has a control piston 36 which has a control ' room 37 is limited. In this control room 37, in addition to the connection P2, the Connections T2 and A2. The connection T2 is via the line 38 with the tank line 33 in connection and the connection A2 via the line 39 with the piston-side Cylinder space 40 of the adjusting device 2. The control edges 36a and 36b of the control piston 36 control the connections P2, T2.

The connection A2 is uncontrolled and is therefore permanently connected to the Control room 37 in connection. The control piston is in the closing direction of port T2 36 loaded by the adjusting spring 41 and in the opposite direction, that is, in the closing direction of port P2 is the control piston through the connection of the control chamber 36c via the connection X2 the line section 42, as well as via the line 34 with the the control pressure prevailing in the control chamber 30 of the control valve 28 is applied.

The cylinder chamber 45 on the control piston side of the adjusting device is at a standstill Via the line 46 also with the one leading to the pressure line 3 of the pitch pump 1 Line 31 -in connection. A line 47 with a throttle leads from the line 46 48 to the piston-side cylinder space 40 of the adjusting device 2. The piston 49 is additionally by a compression spring 50 arranged in the piston-side cylinder space 40 in the sense of an increasing delivery rate of the variable displacement pump 1. For security the drive unit leads from the pressure line 3 of the pitch pump 1 a line 51 to a pressure relief valve 52, the output of which via line 53 with the Tank is in communication.

The mode of operation of the variable displacement pump with the pressure control is as follows: In the non-operating position shown, the variable displacement pump 1 is due to the force the spring 50 in the adjusting device 2 is adjusted to its maximum delivery rate. Since the spring chamber 27, as well as the Control chamber 28a of the control valve 28 is also depressurized, the control piston 29 is by means of the spring 43 in the shown Displaced starting position in which the ports A and P1 via 1 1 the control chamber 30 are in operative connection with one another. The terminal T1, which is via the line 32 is in communication with the line 33 leading to the tank T is in this starting position of the control piston 29 is closed by the control edge 28b of the control piston 28.

The control valve 35 is also in its starting position in which the terminal P2 and the terminal A2 are in communication with one another. Of the Terminal T2 is also closed off by the control edge 36b of the control piston 36. Since in this operating position the control elements 5, 6, 7 and 8 are also in their Starting or closed position b are and the consumers 9tlo, 11 and 12 are depressurized are, the pump 1 only works against the pressure set on the compression spring 43, i.e., when this pressure is reached, the pump only delivers the leakage losses, so that no pressure fluid flows to the tank T via the pressure relief valve 52. As soon as one of the control organs 5,6,7 or 8 or several of the same in the switching position a are shifted, the pressure relief valve 52 and the relevant Consumers 9, 10, 11 or 12 start moving. This is done using the shuttle valves 5,10,25,10 and 18 the highest consumer pressure prevailing via the control line 26 and the connection Y1 are fed to the spring chamber 27 of the control valve 18. In order to the control piston 29 is in addition to the force of the spring 43 also from the consumer pressure in the direction of the control chamber 28a, which is under the pressure at the output of the variable displacement pump stands, pressurized or

burdened. If the pump pressure now rises compared to the consumer pressure stronger, the control piston 29 moves in the direction of the spring chamber 27 and hereby closes the connection P1, while with the control edge 29b that with the tank related terminal T1 is opened. This causes the pressure to drop in the control room 30. Since this control room 30 via the line 34, the connection P2 of the Control valve 35, the control chamber 37, the connection A2 and via the line 39 with the piston-side cylinder chamber 40 of the adjusting device 2 is connected, decreases also in this cylinder space 40, the pressure correspondingly from, so that as a result of the continued in the piston rod-side cylinder chamber 45 acting pump pressure of the piston 49 of the Adjusting cylinder 2 moved in the direction of the piston-side cylinder space and so that the delivery rate of the pitch pump 1 is reduced at the same time. As soon as the The delivery rate of pump 1 has reached a value through which a pressure in the Pressure line 3 builds up, which corresponds to the consumer pressure plus the force of the spring 43 corresponds in the control valve 28, the control process is initially ended. Changes for example the consumer pressure versus the pump pressure in the sense that the control piston 29 of the control valve 28 is displaced in the direction of the control chamber 28a and here the tank connection T1 is throttled or completely closed and is if port P1 opens accordingly, there is a pressure increase in the control chamber 30, which is also in the piston-side cylinder space through the connection mentioned 40 of the adjusting device and there the piston 49 in the direction of the piston rod side Cylinder chamber 45 shifts so that the variable displacement pump increases in size Delivery rate swiveled. As soon as the movement of the consumer has ended and themselves a static pressure builds up in the entire pipe system according to the pump pressure and thus also the spring chamber 27 of the control valve 28 is acted upon by the pump pressure is, shifts due to the continued effective force of the spring 43 of the control piston 29 in the direction of the starting position shown in which the connection P1 is fully open and the tank connection T1 is closed.

Since in this operating state the pump pressure is also in the control chamber 42 of the control valve 35 prevails, the control piston 36. against the force of the Spring 41 shifted in the direction of this spring 41 and the one with the pump via the control valve 28 connected connection P of the control piston 36 is closed and the tank connection T2 open. The piston-side cylinder space 40 is thus above the connection A2 of the control valve 35 and the tank connection T2 with the tank in communication, so that due to the pump pressure acting in the cylinder chamber 45 on the piston rod side Piston 49 is moved in the direction of the piston-side cylinder space 40 and the pump adjusted in the direction of their zero delivery.

Claims (6)

Claims Hydraulic variable displacement pump with pressure control, especially for supply several consumers, so that it is the hydraulic one Adjusting device (2) influencing control valve (28) in one control direction in a manner known per se from the pump pressure (3) and in the other control direction is acted upon by the consumer pressure (26) and a spring force (43), the Spring force at least that caused by flow losses on the control member (29) of the Control valve (28) acting pressure difference between pump and consumer pressure corresponds and the consumer pressure together with the spring force the control member (29) acted upon in the sense of an increase in the delivery rate of the variable displacement pump. 2. Hydraulic variable displacement pump according to claim l, characterized g e -k e n n z e i c h n e t that the control valve (28) is designed as a longitudinal slide valve is, the control piston (29) includes a control chamber (30), which one with the Pressure line (3) of the pump (1) connected controlled connection (P1) and a controlled connection (TI) r and in communication with the tank (T) a third with the adjusting device (2) of the variable displacement pump (1) via a control line (34,39) operatively connected uncontrolled connection (A1), wherein the adjusting device (2) in a manner known per se from a differential cylinder is formed, the piston rod-side cylinder space (45) from the Pump pressure and its piston-side cylinder space (40) from the control pressure of the control valve (28) is acted upon and in the piston-side cylinder space (40) additionally a den Piston (49) in the direction of the piston rod (49a) loading spring (50) is effective. 3. Hydraulic variable displacement pump according to claim 2, characterized in that g e -k e n n z ei c h ne t that the two cylinder spaces (40, 45) of the adjusting device (2) are in communication via a throttle (48). 4. Hydraulic variable displacement pump according to one or more of the claims 1 to 3, characterized in that the control valve (28) to the control device (2) leading control line (34,39) via a variable displacement pump (1) when it is reached a statically effective maximum pressure that controls back into the zero delivery position Control valve (35) is guided. 5. Hydraulic variable displacement pump according to claim 4, characterized g e -k e n n z e i c h n e t that the variable displacement pump (1) is controlled back into the zero delivery position Control valve (35) is designed as a longitudinal slide valve, the control piston (36) of which a control room (37) with three connections (P2, T2, A2), of which the Connection (P2), which is controlled by the consumer pressure via a control line (34) Control valve (28) communicates with the tank (T) related connection (T2) are to be controlled by the control piston (36) and the further uncontrolled connection (A2) directly to the adjusting device (2) leading control line (39) is connected and the control piston (36) in the closing direction of the tank connection (T2) can be adjusted by a device that defines the maximum pump pressure Spring (41) is loaded and in the opposite direction from in the control chamber (30) of the control valve (28) the prevailing pressure is applied. 6. Hydraulic variable displacement pump according to one or more of the claims 1 to 5 for supplying several consumers, therefore not shown, that the consumers (9,10,11,12) via shuttle valves (15,18,20,25) with the control valve (28) are interleaved.