SU1765545A1 - Hydraulic drive - Google Patents

Abstract

Usage: in hydraulic machines, presses and other machines. Summary of the Invention: One of the pumps communicates with the working cavities of the first hydraulic cylinder through a reversible distributor. Another pump through the first valve sequence communicates with one of the working cavities of the second hydraulic cylinder. Two of the three check valves are installed in hydraulic lines that communicate the same cavities of the hydraulic cylinders. The second valve is sequentially installed parallel to the first one and connected by an outlet to another working cavity of the second hydraulic cylinder. A third non-return valve is installed in the discharge line of the second pump and is connected by an outlet to the control cavity of its unloading valve. The control cavities of the sequence valves communicate with the respective cavities of the first hydraulic cylinder. 1 il.

Description

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The invention relates to general engineering, in particular to hydraulic drives of machine tools, presses and other machines.

The purpose of the invention is the expansion of technological capabilities by unleashing control of hydraulic cylinders suppression.

The drawing shows a schematic diagram of the hydraulic drive.

The hydraulic actuator contains pumps 1.2 with relief valves 3.4, one of which (pump 1) communicates in working cavities 5.6 of the first hydraulic cylinder 7 through a reversing valve 8, and pump 2 through the first valve of sequence 9 communicates with working cavity 10 of the second hydraulic cylinders 11, and the second valve of the sequence 12. In this case, the hydraulic actuator is equipped with three check valves 13, 14.15, two of which 15.14 are installed in the hydraulic lines 16.17, indicating the same cavities of the hydraulic cylinders 7 and 11, the second valve of the sequence 12 is installed in parallel P The first one is connected to the working cavity 18 of the hydraulic cylinder by an outlet, the third non-return valve 15 is installed in the discharge hydraulic line of the second pump 2 and connected by an outlet to the control cavity 19 of the discharge valve 4, while the control cavities 20.21 of the sequence 9,12 valves communicate with the corresponding cavities of the first hydraulic cylinders 7. In addition, the hydraulic actuator is equipped with a throttle 22.23 and a check valve 24.

The hydraulic actuator works as follows.

When switching the distributor 8, the oil from the pumps 1.2 will flow into the cavity 5 of the hydraulic cylinder 7, the piston of which will move to the right (according to the drawing) with a low idle pressure. After

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When the piston of the hydraulic cylinder 7 reaches the fixed stop, the pressure in the circuit of pump 1 first rises to the magnitude of the valve setting of sequence 9, which opens the passage of oil from the pump 2 to the cavity 10 of the hydraulic cylinder 11. Then the pressure in the circuit of pump 1 rises to the desired value of the adjustment of the discharge valve 3 Moreover, part of the oil from pump 1 will flow through throttle 22 into cavity 10 of hydraulic cylinder 11. In this case, hydraulic cylinder 7 will perform the working process at the required pressure of pump 1 (for example, pressing), and the second hydrocyli 11 etc. is idling quickly move to a low pressure pump of the total flow 2 and flow rate of the pump 1.

The drain from the cavity 18 of the hydraulic cylinder 11 will be carried out through a check valve 14 and a valve 8.

After the piston of the hydraulic cylinder 11 reaches the fixed stop, oil from the pump 1 will flow through the throttle to the cavity 10 of the hydraulic cylinder 11, maintaining the working pressure therein, and to the control cavity 19 of the unloading valve 4, which will open the oil from the pump 2 to the drain without pressure.

Valve 4 is adjusted to a pressure sufficient for idle strokes of the power cylinders 7.11 and at the same time allowing it to be opened due to the pressure difference arising on throttles 22.23 from pump 1 with stationary hydraulic cylinders.

Claims (1)

The proposed solution allows the expansion of technological capabilities by creating the required working pressure in the hydraulic cylinder, regardless of the movement of another hydraulic cylinder at idle, and, in addition, reducing energy costs by eliminating the flow of the full working fluid of the pump unit through sequence valves at significant pressure x Claims of the Invention A hydraulic actuator comprising pumps with relief valves, one of which communicates with the working cavities of the first hydraulic cylinder through a reversing valve, another pump communicates with one of the working cavities of the second hydraulic cylinder through the first valve of the sequence, and the purpose of expanding technological capabilities by decoupling the control of the hydraulic cylinders to the suppression, it is equipped with three check valves, two of which are installed in the hydraulic lines, The second valve of the sequence is installed parallel to the first and connected to the other working cavity of the second cylinder by its output, the third non-return valve is installed in the discharge hydraulic line of the second pump and connected to the outlet of the control valve of its discharge valve, with the corresponding control valve cavities the cavity of the first hydraulic cylinder. J J18 /