SU1474343A1 - Hydraulic jack system - Google Patents

Abstract

The invention relates to mechanical engineering and reduces the energy consumption of a hoist with plunger hydraulic cylinders. The hydraulic cylinder 1 with the plunger 2 is connected through the distributor 6 by hydraulic lines 3,4,5 to the pump 7 and the drain 8. The hydroaccumulator 13 is made in one housing 12 with a hydraulic lock and includes a piston 14 dividing it into cavities / P / 15,16. An elastic element 17 is placed in P 15. P 16 communicates with P 11 of control and is connected by hydroline 5 to pressure relay 19, electrically connected to an electric motor and installed between distributor 6 and hydraulic accumulator 13. Upon reaching 11,16 of a predetermined pressure, in order to maintain the check valve 9 open, the relay 19 switches off the motor. Further, the lowering of the plunger 2 occurs due to the pressure of the working fluid. 1 il.

Description

The invention relates to mechanical engineering, in particular to hydraulic systems of lifts with plunger hydraulic cylinders,

The purpose of the invention is to reduce power consumption by turning off an electric motor.

The drawing shows a constructive diagram of the hydraulic system of the lift.

The hydraulic lift system comprises a hydraulic cylinder 1 with a plunger 2 connected by hydraulic lines 3-5 through a distributor 6 with a driven electric motor (not shown), a pump 7 and a drain 8, and a hydraulic lock formed by a check valve 9 and a control piston 10 limiting the control cavity 11. The hydraulic system is provided with a hydraulic accumulator 13 made in one housing 12 with a hydraulic lock, including a piston 14, separating the hydraulic accumulator 13 on the first cavity 15 and the second cavity 16, and in the first cavity 15 there is an elastic element 17 (spring), and the second cavity communicated through the holes 18 with the cavity 11

control lock and connected

a hydroline 5 with a pressure switch 19 electrically connected to an electric motor and installed between the distributor 6 and the hydraulic accumulator 13. The control piston 10 is equipped with a rod 20. The check valve 9 consists of a shut-off member 21 and a spring 22.

The hydraulic system works as follows.

The pump drive motor 7 is switched on and the distributor spool is moved to the leftmost position (according to the drawing). The working fluid under pressure through the hydroline 4 is fed to the inlet of the check valve 9, as a result of which the locking member 21 opens (lifts). At the same time, the spring 22 is compressed. Then, the working fluid under pressure through the hydroline 3 enters the hydraulic cylinder 1, as a result of which the plunger 2 is extended (lifted) from the hydraulic cylinder 1. The control cavity 11 through the pipeline 5 and the distributor 6 remains connected to the drain 8. The piston .10 control occupies its lower position, resting its lower base on the base of the control cavity 11. Stock

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50

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five

0 5 about 5

The 20 piston 10 of the control does not interact with the shut-off member 21 of the check valve 9.

When the plunger 2 reaches the required lift height, turn off the electric motor and in a known manner move the distributor spool 6 to the neutral position. In this case, the locking member 21 is lowered (the check valve 9 is closed) under the action of the spring 22 and the pressure of the fluid in the hydraulic cylinder 1, ensuring reliable locking of the working fluid in it,

To lower the plunger 2, move the spool of the distributor 6 to the extreme right position (according to the drawing), as a result of which the working fluid under pressure through the hydroline 5 is fed into the control lock chamber 11. When this happens, the piston 10 of the control moves, which by the rod 20 lifts the locking member 21 (opens the check valve 9) and the fluid from the hydraulic cylinder 1 through the hydraulic line 3 through the check valve 9, through the hydraulic line 4 is drained into the tank. At the same time, the piston 14 moves under the action of the working fluid under pressure, compressing the spring 17, i.e. the hydroaccumulator 13 is charged. When the cavities 11 and 16 reach the predetermined pressure necessary to maintain the check valve 9 in the open state, the relay 19 switches off the electric motor. Further, the lowering of the plunger 2 occurs when the electric motor is switched off due to the pressure of the working fluid, due to which electric power is saved.

Claims (1)

Invention Formula A hydraulic lift system containing a single-acting hydraulic cylinder with a plunger, connected through a distributor to a motor driven pump and drain, and a hydraulic lock, so that, in order to reduce energy costs by disconnecting the electric motor, it is equipped with a pressure switch and is made in one housing with a hydraulic lock a hydroaccumulator including a piston separating the hydroaccumulator into the first and second cavities, where the elastic element is placed in the first cavity, and the second cavity 31474343 4 communicated with the control cavity of a hydraulic motor with an installed rosette and is connected hydraulically to between the distributor and the pump accumulator and the pressure switch electrically connected by a motor.