SU1601419A1 - High-pressure automated hydraulic drive - Google Patents

Abstract

The invention relates to engineering hydraulics and can be used in high pressure systems. The purpose of the invention is to increase reliability and reduce metal consumption. A high pressure autohydraulic actuator containing a power source — a pump 13, an expansion tank 4, a multiplier, in case 1 of which a piston 2 with an insert 3 is installed, a pressure, retaining and two check valves 11,8,9,15, respectively, in the case of an expansion tank 4 a disk 5 with a hollow hub 6, on which holes 7 are made, is provided with an on-off valve 19 and a pressure valve 20; the consumer of hydraulic energy is made in the form of a hydraulic cylinder 18, the rod cavity 29 of which is communicated through valve 19 with hydraulic lines 23 and 30 for injection and discharge, and a pressure valve 20 is installed in the hydraulic line 23 for injection in front of the check valve 15. 1 sludge.

Description

(54) AUTOMATIC HYDRAULIC DRIVE (57) The invention relates to mechanical engineering hydraulics and may find application in high pressure systems. The purpose of the invention is to increase reliability and reduce metal consumption. A high-pressure auto-hydraulic actuator containing a power source is a pump 13, an expansion tank 4, a multiplier, in the housing 1 of which a piston 2 with an insert 3 is installed, a pressure, a backup and two check valves 11, 8, 9, 15, respectively, are installed in the housing of the expansion tank 4 the disk 5 with a hollow hub 6, on which the openings 7 are made, is equipped with a two-position distributor 19 and a pressure valve 20, the hydraulic energy consumer is made in the form of a hydraulic cylinder 18, the rod cavity 29 of which is communicated through the distributor 19 with a hydraulic line and 23 and 30 and a discharge drain, a pressure valve 20 installed in the hydraulic line 23 to the discharge check valve 15. 1 yl.

<I ---:

BUT ,

'Y% / 77777/7/7 /> * // 7L $

7 ^ 77 ^ /// ^ 7 /// 777.

^ 7/7 // 7/7 //// 7 ^ / 77/777/77/7,

160 3

The invention relates to mechanical engineering hydraulics and may find application in high pressure systems.

The purpose of the invention is to increase reliability and reduce metal consumption.

The drawing shows a schematic diagram of a hydraulic drive.

The auto-hydraulic actuator contains a multiplier consisting of a housing 1, a floating piston 2, a liner 3, an expansion tank 4 with a disk 5 and a hollow hub 6, on which holes 7 are made, a check valve 8, a check valve 9, a hydrostat 10, a pressure valve 11, a throttle 12 , pump 13, bypass valve 14, non-return valve 15, tank 16, electrical contact pressure gauge 17, hydraulic cylinder 18, distributor 19, pressure valve 20, valve 21, electrical contact pressure gauge 22. Pump 13 is a power source, in the discharge hydraulic line 23 of which valve 20 is installed pressure. The disk 5 is installed with the formation of the inlet and outlet cavities 24 and 25. The outlet cavity 25 is communicated through a check valve 8 with a drive cavity 26, and the working cavity 27 of the multiplier is connected to the rodless cavity 28 of the hydraulic cylinder 18, the rod cavity 29 of which is communicated through the distributor 19 with the hydraulic lines 23 and 30 discharge and discharge. The hydraulic cylinder 18 contains a piston 31 with a rod 32.

Autohydraulic works as follows.

By turning on the pump 13, the system is connected to power operation. The fluid from the pump 13 through the pressure valve 20, the check valve 15, the bypass valve 14, the expansion tank 4 enters the rodless cavity 28 of the high pressure cylinder 18, thereby moving its piston 31 with the rod 32 down. The displaced fluid from its rod cavity 29 is discharged through the distributor 19 into the tank 16. The specified piston 31 with the rod 32 of the hydraulic cylinder 18 makes its auxiliary stroke down to the stop in the working body of the power machine (not shown).

When the pressure of the liquid increases, the pressure valve 11 is activated and closes its normally open channel. After that, the fluid pressure rises to the response value of the retaining valve 8. The fluid through the retaining valve 8 enters the cavity 26 of the multiplier. By moving the piston 2 and the liner 3 of the multiplier 1 (to the right according to the drawing) in the rodless cavity 28 of the hydraulic cylinder 18 creates a high fluid pressure, which moves its piston 31 with the rod 32 down and provides power work. When the fluid pressure rises to the required value, which corresponds to the required final effort on the rod 32 of the hydraulic cylinder 18, the pump 13 is disconnected from the operation of the electric pressure gauge 17. The fluid with the configured bypass valve 14 through the expansion tank 4, the bypass valve 14 is throttled to the 16 v tank the flow of time adjusted according to the limb of the bypass valve 14. When the pressure of the liquid decreases, the pressure valve 11 is activated and the liquid from the cavity 26 of the multiplier with high energy is discharged into the tank 16. In this way, the force created by the system is removed from the rod 32 of the hydraulic cylinder 18, and a command is issued via the time switch (not shown) from the lower installation of the pressure gauge 22 to turn on the pump 13 and the distributor 19. A fluid with the pressure set by the pressure valve 20 passes through the distributor 19 to the rod the cavity 29 of the hydraulic cylinder 18. This ensures the movement of its piston 31 with the rod 32 up to the stop. From the rodless cavity 28 of the hydraulic cylinder 18, the liquid is displaced into the cavity 27 of the multiplier 1 and moves its liner 3 and the piston 2 to the left by a certain amount. From the cavity 26 of the multiplier 1, the liquid is displaced through the normally open channel of the pressure valve 11 into the tank 16. When the liquid pressure rises above the set pressure by the pressure valve 20, the liquid through it, the check valve 15, the bypass valve 14, the expansion tank 4, the check valve 9, enters cavity 26 of the multiplier 1.

The piston 31 of the hydraulic cylinder 18 is kept from moving down by backpressure in its rod cavity 29 created by the pressure valve 20. In this regard, the liner 3 and the piston 2 of the multiplier 1 are moved to the left to their extreme positions. In the indicated positions of the piston 2 and the liner 3 of the multiplier 1, the fluid pressure rises. As a result of this, a command is issued from the pressure gauge 22 with the electrical contact device to disconnect the pump 13 and the distributor 19 from the operation. In this way, the multiplier system - a special hydraulic cylinder 18 is brought to its original position. Subsequent turning on of the pump 13, the described operation of the high pressure autohydraulic drive is repeated.

Claims (1)

' Claim A high-pressure auto-hydraulic actuator containing a power source, an expansion tank, a multiplier, in which a piston is installed with a liner to form a drive and working cavities, a pressure valve, a backup valve, and two check valves, an overflow valve, a power supply discharge line is communicated through the first check valve, an expansion tank , a pressure valve with a drive cavity of the multiplier, a disk with a hollow hub, on which holes are made, is formed in the body of the expansion tank, with the formation of an input and output cavities, while the outlet cavity is communicated through a check valve with a drive cavity and through a second check valve with a working cavity of the multiplier communicated with the consumer of hydraulic energy, the discharge line is communicated through a bypass valve with a drain hydraulic line, characterized in that, in order to increase reliability and to reduce metal consumption, it is equipped with a two-position distributor and pressure valve, the consumer of hydraulic energy is made in the form of a hydraulic cylinder, the rod cavity of which is communicated through vuhpozitsionny injection valve with hydraulic lines and drain rodless cavity communicates with the working chamber of the multiplier, and the pressure valve 10 is installed in the hydraulic line before the first discharge check valve.