RU2056550C1 - Hydraulic drive - Google Patents

Abstract

FIELD: machine tools. SUBSTANCE: piston and rod cavities of a hydraulic cylinder are open through distributor with hydraulic lines to pressure source and dump. Multiplier with two-step piston is installed in the hydraulic line to join piston cavity to the distributor, and is connected with reverse cavity to the hydraulic line to join rod cavity to the distributor. Multiplier is connected by a valve. Through axial passage is originated in the piston. Control member of the valve is made in the form of a rod rigidly fastened to the bottom of low pressure cavity coaxially to reverse valve. The valve is installed in hydraulic line section to connect reverse cavity of the multiplier to the distributor and to rod cavity. EFFECT: high efficiency. 1 dwg

Description

 The invention relates to mechanical engineering, namely to hydraulic drives of metal-cutting machines and press-forging machines, the operation of which requires an increased flow rate of a working fluid with a pressure of up to 10 MPa and a reduced flow rate of a fluid at a pressure above 10 MPa.

 Known hydraulic press, containing a piston cylinder with a rod and piston cavities, high and low pressure pumps and safety distribution hydraulic equipment.

 The disadvantage of such a hydraulic actuator is the reduced reliability, determined by the reduced reliability of the high pressure pump and the operation of safety distribution hydraulic equipment under high pressure.

 The closest technical solution, selected as a prototype, is a hydraulic actuator containing a sequence valve with a check valve, a check valve, a piston cylinder with a rod and piston cavities, and a multiplier with a two-stage piston forming a return cavity in the body, connected by a trunk to the rod cavity of the hydraulic cylinder, low-pressure cavity and high-pressure cavity connected to the piston cavity of the hydraulic cylinder.

 A disadvantage of the known hydraulic actuator is low reliability, due to the fact that it does not provide a stable sequence of returning to the initial position of the piston of the hydraulic cylinder after returning to the initial position of the two-stage piston of the multiplier.

 This drawback requires the installation of additional devices in the hydraulic drive that provide and control such a sequence on each working cycle.

 The objective of the invention is to increase the reliability of the hydraulic drive.

 This is solved so that in the hydraulic actuator the sequence valve with a check valve is installed in the line connecting the return cavity of the multiplier to the rod cavity of the hydraulic cylinder, the check valve is installed in the two-stage piston of the multiplier, and the control element of the check valve is made in the form of a rod fixedly mounted in the bottom of the cavity low pressure multiplier coaxial to valve.

 Distinctive features of the hydraulic drive can improve the reliability of the hydraulic drive by not using additional devices in it, which ensure and control on each working cycle the sequence of returning the hydraulic cylinder piston to its original position after the return of the two-stage multiplier piston.

 The drawing shows a hydraulic circuit diagram.

 The hydraulic actuator contains a hydraulic cylinder 1, the piston 2 of which with the rod 3 forms the rod cavity 4 and the piston cavity 5, communicated by the highway 6 with the high pressure cavity 7 of the multiplier 8. In the two-stage piston 9 of the multiplier 8 there is an axial channel 10 with a spring-loaded check valve 11, a control rod 12 which is fixedly mounted in the bottom 13 of the cavity 14 of the low pressure, connected by a line 15 to one of the outputs of the reversible distributor 16, controlled by an electromagnet 17. A source 18 is connected to the input of the distributor 16 working fluid, and its second outlet is connected by line 19 with a check valve 20 to the return cavity 21 of the multiplier 8 and line 22 to the rod cavity 4 of the hydraulic cylinder 1. Return cavity 21 by line 23 through a two-stage safety valve 24 with an auxiliary remote discharge piston, control cavity 25 of which communicated by line 26 with highway 6, connected to highway 22.

 The hydraulic actuator operates as follows.

 To make the piston stroke 2 of the hydraulic cylinder 1 to extend the rod 3, the working fluid from the source 18 through the distributor 16, line 15, cavity 14 low pressure, channel 10, cavity 7 high pressure and line 6 enters the piston cavity 5, and merges from the rod cavity 4 along line 22 through the distributor 16. In this case, the working fluid in the return cavity 21 is locked by the check valve 20 and the safety valve 24 and holds the two-stage piston 9 of the multiplier 8. With increasing resistance to the extension of the rod 3 under the influence of the pressure of the working fluid increasing in the piston cavity 5 and, accordingly, in the associated cavities, highways and control cavity 25, the safety valve 24 opens and communicates with the discharge the return cavity 21. In this case, the two-stage piston 9 begins to move, removes the check valve 11 from the control rod 12 and after the check valve 11 closes the channel 10, it begins to displace fluid from the high-pressure cavity 7 along the line 6 into the piston cavity 5. The magnitude of the piston stroke 9 and the ratio of the diameters of its stages They are consumed from the condition that the volume of the working fluid displaced from the high-pressure cavity is sufficient for the piston to make 5 strokes under load.

 To return the pistons 2 and 9 to the initial position, the electromagnet 17 is turned on and the working fluid from the source 18 through the distributor 16 through the line 22 enters the rod cavity 4 and through the line 19 through the check valve 20 into the return cavity 21. In this case, until the piston 9 returns to the initial position and the opening of the control rod 12 of the check valve 11, the pistons 2 and 9 are moved simultaneously, and the working fluid enclosed in the cavities 5.7 and line 6 is a synchronizer of the simultaneity of their movement with the ratio of speeds, determined by the ratio of the areas of the piston 2 and the high pressure stage of the piston 9. After opening the check valve 11 by the control rod 12, the working fluid from the cavity 5 until the piston 2 returns to its original position is discharged.

 Thus, in the proposed hydraulic actuator, there is a guaranteed return to the initial position of the multiplier piston before the moment the hydraulic cylinder piston returns to its original position, and hydraulic losses are also reduced by reducing the throttling of the working fluid on the sequence valve and by reducing the length of the lines. These properties make it possible to use the proposed hydraulic drive as a drive for brick presses, alligator shears, presses for separating operations and to exclude high pressure pumps in existing hydraulic drives of the above machines, which will increase reliability and reduce energy losses.

Claims (1)

 A HYDRAULIC drive containing a hydraulic cylinder, the piston and rod cavities of which are connected by hydraulic lines with a pressure source and drain through a distributor, a multiplier with a two-stage piston installed in a hydraulic line connecting the piston cavity to the distributor, and connected by the return cavity to the hydraulic line connecting the rod cavity to the distributor, which is controlled a valve and a sequence valve, which enables the multiplier to be included in the operation, characterized in that an SLE is made in the two-stage piston heat axial channel with a controlled non-return valve installed in it from the side of the low-pressure cavity, the control element of which is made in the form of a rod rigidly fixed to the bottom of the low-pressure cavity coaxially with the non-return valve, and the sequence valve is installed in a segment of the hydraulic line connecting the return cavity of the multiplier to the distributor and to the stock cavity.

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