DE3644737C2 - Control arrangement for at least two hydraulic consumers fed by at least one pump - Google Patents

Description

The main patent relates to a tax arrangement with the Merk specified in the preamble of the claim to paint.

Starting from a known control arrangement (DE-OS 34 22 165), where each of the directional valves to the Ver consumers upstream pressure compensator in addition to first pressure difference which is the difference between the pressure at the inlet and outlet of the directional control valve is still acted upon by a second pressure difference that is the difference between the pump pressure and the highest consumer pressure is determined, in order to prevent the flow when there is insufficient pump delivery flow through all pressure balances proportionally ver wrestle, the main patent is based on the task using the design of this control arrangement of series devices to simplify and accuracy the setting of the flow on the pressure compensators to increase.

The solution to the problem is the second pressure generate difference with the help of a pressure control valve, the control pressure output together to all pressure compensators is led.

This has the advantage that the use a single valve to generate the tax the same control pressure on all pressure compensators pending.

The additional patent is based on the task of finding a new way to solve the task of the main patent. These  The object of the invention is through the features of the patent Claim 1 solved. According to the invention is after the addition patent a pressure sensor from the second pressure difference acted upon and is the pressure control valve by the pressure sensor electrically controlled.

There are various embodiments in the main patent of the pressure compensators. The solution after closing Sentence patent to record the pressure difference electrically and thus generating the control pressure applies to everyone Embodiments of the main patent in the same way.

One of the main patent corresponding to FIG. 1 is explained in more detail below with reference to the drawing, in which a circuit diagram of the hydraulic control arrangement is shown.

A by means of a flow rate controller 1 the stroke volume adjustable pump 2 sucks from a tank 3 and promotes in a line 4 , the lines divided into three branches 5 , 6 and 7 . Each branch line leads to a pressure compensator 8 , 9 , 10 and via a directional valve 11 , 12 , 13 to a consumer, such as a lifting cylinder, which is not shown. The directional control valves are the usual three-position / five-port valves, which control the pressure medium paths between the associated consumer and the pump 2 or a tank. The pressure compensators 8 to 10 are also the usual design as flow control valves, in which the control piston in the opening direction from the pressure of a control spring 14 and the pressure on the output side of the directional control valve via a line 15 and in the closing direction from the pressure on the input side of the Directional control valve via line 16 is opened.

Thus, the flow of the fluid from the relevant branch to the directional valve and to Ver users regardless of the pressure difference between two between the entrance and the exit of the directional valve prevails. This means that the set volume flow also remains constant with pressure fluctuations, so that despite different loads on the consumer whose working speed by changing the through flow resistance in the pressure compensator is kept constant.

Since the springs 14 and lines 15 and 16 of the individual pressure compensators 8 , 9 and 10 correspond to one another, they are provided with the same reference symbols in the drawing.

The flow regulator 1 for the variable displacement pump 2 is controlled by the highest pressure occurring at one of the consumers. For this purpose, a shuttle valve chain is provided, which consists of the shuttle valves 18 and 19 . The higher pressure at the outlet of the directional control valves 12 and 13 , that is, the higher consumer pressure, is switched from the shuttle valve 18 to the line 20 . The shuttle valve 19 ver compares the consumer pressure in line 20 with the pressure at the outlet of the directional control valve 11 and passes the higher pressure via line 21 to the flow regulator 1 , from which the stroke volume of the pump 2 is set according to the requirements of the consumer becomes. In this respect, the order corresponds to the state of the art.

In addition, a pressure control device 24 is provided in the embodiment as a pressure control valve which is connected to a pump 25 , a tank T and to a line 26 which is connected to actuating devices 27 on each pressure compensator 8 to 10 . Instead of the pump 25 , the connection of the pressure control valve 24 can also be connected to the delivery line 4 . The pressure control valve 24 is adjusted in the event of a drop in the predetermined pressure difference between the pump pressure and the highest pressure occurring at one of the consumers in order to generate a control pressure Δp on the line 26 .

For this purpose, a pressure transducer 33 is provided which is pressurized by the highest consumer pressure in line 21 via line 31 and in the opposite direction by the pump pressure in the delivery line via line 32 . The pressure difference is converted by the pressure sensor 33 into an electrical signal voltage U, which is used to control the electrically operated pressure control valve 24 . Intermediate is a matching amplifier 37 with which the timing behavior when adjusting the control valve is optimally adapted to the task ahead. The signal processing can be carried out analog or digital. Preferential measures are taken to increase the damping of the system, but without reducing the adjustment speed or the level accuracy.

The operation of this arrangement is as follows: as long as the pump delivery rate in line 4 is sufficient to actuate the connected consumers at the desired speed, the pressure control valve 24 is closed; the pressure Δp is zero and the pressure balance spring 14 is additionally biased by the spring 35 .

However, the delivery rate of the pump 2 for the drive of the actuated consumer is not sufficient, the pressure control valve 24 is electrically adjusted and the control pressure in the line in accordance with the drop in the pressure difference between the highest load pressure in line 31 and the pump pressure in line 32 26 increased. The result of this is that the flow rate to all consumers is reduced proportionately by means of the adjusting devices 27 , that is to say the flow rates in the set ratio to one another are reduced at all consumers, so that the trajectory set for example by two lifting cylinders of a tool or working medium is obtained remains and only the actuating speed is reduced accordingly.

Claims (7)

1.Control arrangement for at least two hydraulic consumers fed by at least one pump, in which each consumer is assigned a directional and speed-controlling directional control valve and a pressure compensator is seen between the respective directional control valve and the pump, which is used to set a load-independent flow from one between the Input and the output of the associated directional valve prevailing first pressure difference and to reduce the flow in the case of insufficient pump delivery rate is acted upon by a second lower pressure difference, the second pressure difference being generated with the aid of a pressure control valve controlled by the pump pressure and the highest consumer pressure, the control pressure output is guided together to all pressure balances, according to patent 35 32 816, characterized in that a pressure sensor ( 33 ) is acted upon by the second pressure difference and the pressure control valve ( 24 ) is electrically powered by the pressure sensor ch is controlled. 2. Control arrangement according to claim 1, characterized in that between the pressure transducer ( 33 ) and pressure control valve ( 24 ), a matching amplifier ( 37 ) is arranged with setpoint. 3. Control arrangement according to claim 1 or 2, characterized in that the pressure sensor ( 33 ) is designed as a differential pressure sensor. 4. Control arrangement according to claim 1 and 2, characterized in that the pressure transducer is constructed from two absolute pressure transducers and the signal corresponding to an actual value is generated in the matching amplifier ( 37 ). 5. Control arrangement according to one of claims 2 to 4, characterized in that the matching amplifier analog is working. 6. Control arrangement according to one of claims 2 to 4, characterized in that the matching amplifier digital is working. 7. Control arrangement according to one of claims 4 to 6, characterized in that to improve the rule dynamics of the control arrangement by increasing the damping the rate of change of one of the absolute pressures in the Matching amplifier is used (yielding pressure return guide).