DE3840548A1 - Device for driving a variable delivery (displacement, volume) pump - Google Patents

Abstract

A description is given of a device for driving a variable delivery pump with the aid of a hydraulically driven directional control valve via which at least one of the working chambers of the variable delivery pump can be pressurised or relieved as a function of the control pressure. In order to ensure that it is possible to provide electrical pressure regulation in the entire operating region (range) of the variable delivery pump by means of a simple, technical design, the directional control valve is provided by a multiport (multiway) proportional valve whose valve piston is subjected in a first direction to the output pressure of an electrically adjustable pressure control valve and in the opposite direction in the output control mode to a pressure which is derived from the pump pressure and reduced with respect to the latter, and in standby mode to the undiminished pump pressure.

Description

The invention relates to a device for actuation a variable displacement pump, according to the preamble of the patent saying 1.

Variable pumps are increasingly used in hydraulic Supply systems used to meet the energy needs to optimally adapt to the prevailing conditions and thus making the operation more economical. In this The need arises in connection with the variable displacement pump to incorporate a control loop in which naturally at all essentially electrical signals are processed.

The he The underlying task is therefore a device device for controlling a variable displacement pump to create a hydraulically controlled directional valve, with an electrical pressure rain with a simple construction in the entire operating range of the variable displacement pump  can be put.

This task is carried out in the characterizing part of the Features specified claim 1 solved.

The device according to the invention is constructed in such a way that it independently makes a distinction between the actual pressure control operation of the variable displacement pump and the so-called standby operation. In the actual pressure control operation, a pressure derived from the pump pressure and reduced in comparison with this counteracts the control pressure of the electrically adjustable pressure control valve. However, in order to generate realistic control pressures at the hydraulically controlled multi-way proportional valve even in standby mode, ie in an operating range of the adjusting pump in which the pressure level differs significantly from that of the actual pressure control range, care is taken below a predetermined pressure level that the undiminished pump pressure is applied to the control surface of the valve spool of the proportional valve. In this way, in each operating state of the variable pump, a single multi-way proportional valve can be used to control the fluid supply to the working chamber ( s ) of the variable pump.

With the training according to claim 3 results an advantageous for the control of the variable displacement pump Pressure reduction of the derived from the pump pressure and up given a control part of the multi-way proportional valve Pressure such that the output pressure of the variable pump with a certain proportionality is diminished. It results this way a pressure divider circuit with which the pressure applied to the multi-way proportional valve the respective work area of the electrically adjustable Pressure control valve can be reduced.  

The training according to claim 4 provides a most specialized device-technical measures to ensure that at Falling below a certain minimum outlet pressure Variable pump automatically switches the control device on the so-called standby mode. By Coordination of the contact point of the lower Check valve opening pressure level in the pressure part The line to the standby mode of the Variable pump forming pump pressure is ensured that below this limit pressure the undiminished out pressure of the variable pump to the multi-way proportion tional valve is given. The proportional valve can thus in the entire operating range of the variable pump realistic pressures can be controlled.

If the working range of the pressure control valve is below the maximum occurring reduced pressure, results automatically a maximum pressure limit on the outlet side of the variable displacement pump. However, to make sure that if the orifices or throttles are dirty Maximum pressure limitation can be done reliably, it is advantageous, the control pressure line between the two Orifices in the pressure divider line via a pump pressure controllable check valve with the outlet side of the Variable pump to connect. The response threshold of this controllable check valve is placed so that it when a maximum permissible pump pressure is reached is controlled, whereby the multi-way proportional valve against the force of the outlet pressure of the electrically ver adjustable pressure control valve brought into one position is in which a swiveling back of the variable pump lower pressure level occurs.

An additional simplification of the hydraulic circuit for controlling the variable pump results with the further training according to claim 8. Since the pressure control valve keeps the output pressure constant regardless of the input pressure, which can only be varied by varying the control current i , the input pressure of the pressure control valve can be directly from the output pressure Variable displacement pump. The pressure control takes place in such a way that, with increasing control current i, the variable displacement pump 2 is pivoted to a higher pressure level.

Further advantageous embodiments of the invention are Subject of the subclaims.

An embodiment is shown below with reference to the figure the invention explained in more detail. In the figure is a block Circuit diagram of a hydraulic circuit to control one Variable pump shown.

In the figure, a variable displacement pump Ver designated by the reference numeral 2, is sucked to the suction line 4 via a pressure fluid from a tank 6 and supply line in a versor 8, which can be fed leads to various consumers. In the supply line, depending on an actuating device of the adjusting pump 2 , which is indicated in the circuit diagram by the arrow, a differently high pump pressure P. In order to adjust the pump pressure or the pump output, a pivoting mechanism is provided which can be actuated by two working chambers 10 and 12 acting in opposite directions. Each working chamber cooperates with an associated piston, the piston of the working chamber 10 having a larger area than the piston of the working chamber 12 . In the working chamber 12 , a compression spring 14 is brought under, which acts on the pivoting mechanism of the variable displacement pump 2 in the direction of higher pump output.

The working chamber 12 is constantly connected to the supply line 8 by a feed line 16 . The feed line 18 to the further working chamber 10 leads via a continuously adjustable 3/3-way valve, ie proportional valve 20 . The proportional valve 20 has 3 connections, namely an input connection 22 and an output connection 24 for the feed line 18 and an outflow connection 26 to a discharge line 28 leading to the tank 6 .

The valve spool 30 of the 3/3 proportional valve 20 is acted upon in one direction x , ie in the direction of a switching position C , in which the working chamber 10 to the tank 6 can be relieved, by an output pressure p _C in a control line 32 . A return spring 34 also acts in this direction. In the opposite direction y , ie in the direction of a switching position A , in which the pump pressure P is given via the feed line to the larger working chamber 10 , the pressure acts in a second control line 36 , which is referred to as a pressure divider line 38 between two lines Apertures 40 and 42 branches. The pressure divider line 38 is fed via the feed line 18 . Via a check valve 44 opening towards the tank 6 , a connection of the pressure divider line 38 to the tank 6 can be established when the pressure downstream of the orifice 42 is above the response pressure of the check valve 44 .

The first control line 32 is connected to the output side of an electrically adjustable pressure control valve 46 , the output pressure p _{C of which can be changed} as a function of the control current i . The inlet side of the pressure control valve 46 is fed by the supply line 8 .

The circuit described above works like follows:

In the power control mode of the variable displacement pump 2 , a sufficiently high pressure builds up via the feed line 18 and the pressure divider line 38 in front of the check valve 44 in order to lift the valve seat of the check valve 44 . It is thus formed in the pressure divider line 38, a fluid flow, which ensures by the series connection of the two orifices 40 and 42 that in the second control line 36 in proportion to the pump pressure P in the supply line 8 proportionally reduced control pressure is effective. The force of this control pressure is counteracted by the pressure force in the first control line 32 , which can be changed by varying the control current i . The two orifices 40 and 42 are selected so that in control operation for all output pressures of the variable pump 2, the pressure in the second control line 36 is reduced to a pressure which lies in the working range of the Druckregelven valve 46 .

However, if the output pressure P in the supply line 8 drops extremely, which may be the case, for example, in the standby mode of the variable displacement pump 2 , the pressure in the pressure divider line 38 drops upstream of the return check valve 44 to such an extent that the valve seat of the return check valve 44 closes . The pressure reduction function of the orifices 40 and 42 connected in series is canceled in this operating state, so that the unabated pump pressure P is established in the second control line 36 via the orifice 40 . It therefore also acts in the standby mode of the variable displacement pump 2 in the second control line, a sufficiently high control pressure, ie realistic for the practical implementation of the proportional valve 20 .

The hydraulic circuit described above is also able to limit the outlet pressure P of the variable pump 2 to a maximum pressure p _max . This can be done by setting the working range of the pressure control valve 46 so that the maximum outlet pressure p _C in the first control line 32 is kept lower than the maximum pressure drop occurring in the second control line 36 . In order to reliably ensure that the maximum pressure p _max at the outlet side of the variable displacement pump 2 is not exceeded in the event of a closure or contamination of the throttle or orifice 40 , the device for actuating the variable displacement pump additionally has a maximum pressure relief valve 48 , which serves as a check valve formed and integrated in a branch line 50 connecting the second control line 36 to the output side of the variable displacement pump 2 . The check valve 48 is matched to the maximum permissible outlet pressure of the variable displacement pump 2 . As soon as this pressure is exceeded, the valve seat of the check valve 48 opens and gives the full output pressure of the variable displacement pump 2 to the second control line 36 , so that the valve slide 30 is moved to position A , ie in the direction of the pivoting back of the variable displacement pump 2 .

The invention thus creates a device for actuation a variable pump with the help of a hydraulic controlled directional valve, via which depending on Control pressure at least one of the working chambers of Ver pressure pump can be pressurized or relieved. To ensure that with a simple, fixture technical structure of an electrical pressure control in ge entire operating range of the variable displacement pump is provided a multi-way proportion comes as a directional valve tional valve used, the valve spool in one first direction from the outlet pressure of an electrically ver  adjustable pressure control valve and in the opposite Direction in power control mode from one of Pump pressure derived and reduced compared to this Pressure and in standby mode from the undiminished pump pressure is acted upon.

Claims (8)

1. Device for controlling a variable displacement pump, with a hydraulically controlled directional control valve, via which at least one of the working chambers of the variable displacement pump can be pressurized or relieved depending on the control pressure, characterized in that a multi-way proportional valve ( 20 ) is provided as the directional control valve , whose valve spool ( 30 ) in a first direction ( x ) from the outlet pressure ( p _C ) of an electrically adjustable pressure control valve ( 46 ) and in the opposite two-th direction ( y ) in power control mode from one derived from the pump pressure ( P ) and opposite this gemin-reduced pressure ( p _M ) and in standby mode is acted upon by the unimpeded pump pressure. 2. Apparatus according to claim 1, characterized in that the directional control valve is designed as a continuously adjustable 3/3-proportional valve ( 20 ) which has a pump pressure connection ( 22 ) a connection ( 24 ) to a working chamber ( 10 ) of the variable displacement pump ( 2nd ) and has a tank connection ( 26 ). 3. Apparatus according to claim 1 or 2, characterized in that the proportional valve ( 20 ) in a pump line leading the pressure ( 18 ) is incorporated, from the upstream of the proportional valve ( 20 ) branches a Drucktei lerleitung ( 38 ), which has two successive orifices ( 40 , 42 ), between which a Ven tilschieber ( 30 ) in the second direction ( y ) acting control pressure is derived, can be relieved to a lower pressure level, such as to the tank. 4. Apparatus according to claim 3, characterized in that the pressure divider line ( 38 ) downstream of the two orifices ( 40 , 42 ) has a check valve ( 44 ) which opens to the lower pressure level. 5. Device according to one of claims 1 to 4, characterized in that the displacement of the valve spool ( 30 ) in the first direction ( x ) causes the variable displacement pump ( 2 ) to pivot to a higher pump outlet pressure ( P ) and that the outlet pressure ( p _C ) of the pressure control valve ( 46 ) with the control current ( i ) of the pressure control valve increases. 6. Device according to one of claims 1 to 5, characterized in that the working range of the Druckregelven valve ( 46 ) is below the maximum reduced pressure ( p _M ). 7. Device according to one of claims 3 to 6, characterized in that the second control line ( 36 ), which branches between the two diaphragms ( 40 , 42 ) from the pressure divider line ( 38 ), via a controllable by the pump pressure ( P ) Check valve ( 48 ) is connected to the output side of the variable displacement pump ( 2 ). 8. Device according to one of claims 1 to 7, characterized in that the inlet pressure of the pressure regulating valve ( 46 ) corresponds to the pump pressure ( P ).