SU1536087A1 - Differential hydraulic cylinder - Google Patents

Abstract

The invention relates to mechanical engineering, in particular to volumetric hydraulic actuators with automatically varying force in the course of piston movement. The aim of the invention is to simplify the hydraulic cylinder by reducing the number of elements embedded in the piston and simplifying the design of the tappets. This goal is achieved by the fact that in a differential hydraulic cylinder with a bypass device built into the piston in the form of valves with spring-loaded working bodies, equipped with push rods fitted against the piston, placed in the cavity, opposite spring, the pusher cavities communicate with each other. In this case, the spring cavities of the valves are in communication with the working cavities of the hydraulic cylinder, the opposite cavities, in which the pushers are placed. 1 il.

Description

(21) 4413163 / 40-29

(22) 04.20.88

(46) 01/15/90. Pul V 2

(72) S.V. Borisov and A.N.Gerasimov

(53) 625.221.2 (088.8)

(56) Japanese Application V 62-366, cl. F 15 IG 15/16, 1981.

(54) DIFFERENTIAL HYDROCYLINDER

(57) The invention relates to mechanical engineering, in particular to volumetric hydraulic actuators with automatically varying force in the course of piston movement. The aim of the invention is to simplify the hydraulic cylinder by reducing the number of pistons embedded in the piston.

elements and simplify the design of the pushers. This goal is achieved by the fact that in a differential hydraulic cylinder with a bypass device built into the piston in the form of valves with spring-loaded working bodies, equipped with pushing members relative to the piston, placed in the cavity, opposite spring, the pusher cavities communicate with each other. In this case, the spring cavities of the valves are in communication with the working cavities of the hydraulic cylinder, opposite to the cavities in which the tappets are placed. 1 il.

The invention relates to mechanical engineering, in particular to volumetric hydraulic actuators with automatically varying force in the course of piston movement.

The purpose of the invention is to simplify the device by reducing the number of elements embedded in the piston and simplifying the pusher structure.

The drawing shows a structural diagram of a differential hydraulic cylinder in the initial position (use case as a pressure transducer).

The housing 1 houses the piston 2 and the rod 3, forming the rod 4 and piston 5 working cavities, equipped with channels 6 and 7 for supplying and discharging the working medium.

In the piston. a bypass device is placed in the fingers of the valves formed by the tight valves 8 and 9 with the pushers 10 and 11 sealed relative to the piston 2 and interacting with the caps 12 and 13 at the end of the stroke of the piston 2. In this case the locking bodies 8 and 9 form In the piston 2 spring popes 14 and 15 and opposite to them are the cavities 16 and 17 of the pushers.

Cavities 14 and 15 communicate respectively with cavities 5 and 4, and cavities 16 and

17 communicated among themselves.

The cavity 5 can be connected to the power source and the back (not shown) through the valve 18, and the cavity 4 can be connected to the piston cavity 19 of the seated cylinder 20. The rod 21 of the cylinder 20 in this case is through the valve

18 is connected to the SOURCE of the pressure and the drain.

During the operation of the device, dp of creating the working force, liquid g is supplied through

ate

with about

About 00

one

the distributor 18 into the cavity 5. At this point, the locking bodies 8 and 9 block the passage of fluid through the piston 2, so that pressure 4 is created in cavity 4 than in cavity 5, and this high pressure is transferred to cavity 19 of cylinder 20 until until the pusher 10 rests on the cover 13.

After that, the top valve according to the drawing with the locking organ 8 opens, the fluid through the cavity 16 enters the cavity 17 and squeezes the locking organ 9, whereby the cavities 4 and 5 are communicated with each other. The pressures in these cavities equalize, the force developed by the cylinder 20 decreases. The pressure in cavities 4 and 19 remains unchanged even after stopping the piston 2 in the extreme (left in the drawing) position.

1 After switching the dispenser} 18 to the other extreme position, the locking member 9 blocks the passage of fluid through the piston 2, in the cavities 19 and 4 a raised pressure is created; which remains unchanged until the pusher 11 contacts the lid 12. With further movement of the piston 2 to the right in the drawing and after the piston 2 stops in the rightmost position, the pressure in cavities 19 and 4 drops and remains unchanged until the cylinder 20 is fully folded.

The system returns to its original position.

Thus, when using a differential hydraulic cylinder in the described hydraulic system, a step change in the operating force of the cylinder 20 is provided, both during forward and reverse operation.

Claims (1)

Invention Formula A differential hydraulic cylinder comprising a housing with covers, a piston with a rod, supply and removal channels for the working medium in communication with the piston and rod cavities, and a bypass device made in the form of valves placed in the piston are spring-loaded and fitted with pistons compacted relative to the piston, interacting with the covers at the end of the stroke of the piston, the springs being placed in the cavity opposite the cavity formed by the pushers, in order to simplify the device by reducing the number of elements built into the piston and simplification of the pusher structures; the valve spring cavities communicate with the hydraulic cylinder cavities, opposite cavities in which the pushers are located, and the valve cavities of the pushers communicate with each other. ////////