SU1315664A1 - Pneudraulic booster - Google Patents

Abstract

The invention relates to engineering hydraulics and allows to expand the functionality and increase the efficiency of the multiplier. In the cavity (P) 11 of the rod 5, a controlled check valve 13 is installed. In the communication line of an additional P 9 with a gas source, a three-line pneumatic valve is installed. P 16 of the control hydraulic cylinder 15 is connected to P 12 of a high pressure cylinder 7. The rod 19 of the piston 17 is mounted with the ability to interact with the valve 13, and the rod 20 with the pneumatic distributor 14, the Additional piston 8 covers the hollow rod 5, on which the stop 10 is fixed. The multiplier creates a high pressure with a maximum force on the rod 5, created by the piston 2, and the force on the rod of the working cylinder increases. 1 il. ko co wore a p35

Description

The invention relates to engineering hydraulics, in particular, to pneumohydraulic multipliers of sequential action.

The purpose of the invention is to enhance the functionality and improve performance.

The drawing shows a diagram of the multiplier in the initial position

The multiplier contains a low pressure cylinder 1 with a main piston 2 forming a piston cavity 3 and a rod cavity 4, while the piston 2 is provided with a hollow rod 3, on the side surface of which a radial bore 6 is made, a high pressure cylinder 7, an additional piston 8 mounted in the rod cavity 4 with the formation of an additional cavity 9 and interacting with stroke limiter 10, the rod cavity 4 being connected through the hole 6 and cavity 11 in the rod 5 with the cavity 12 of the cylinder 7, and cavities 3 and 9 are connected to a gas source ( shown). A controlled non-return valve 13 is installed in the cavity 11, and a three-line pneumatic distributor 14 is installed in the linkage of the cavities 3 and 9 with a gas source. The multiplier is equipped with a control hydraulic cylinder 15, the working cavity 16 of which is connected to the cavity 12 of the cylinder 7 The piston 17 is made with a spring 18 and is equipped with two rods 19 and 20, which interact via a rod 21 with a check valve 13 and a pneumatic distributor 14. A reducing valve 22 is installed in the system.

Cavities 4, 12, and 16 are filled with oil and are connected to working cylinder 23.

The multiplier works as follows.

In the initial position, the piston 2 of the multiplier rests on the end of the main cylinder 1, and the additional piston 8 is pressed with the end to the stop 10 of the stroke. The valve 13 is opened by the action of the rod 21, abutting against the end of the main cylinder 1. The cavities 4 and 12 are freely communicating. The stem .19 of the control hydraulic cylinder 15 is in the extreme right position under the influence of the stem 5 and the pressure of oil generated in cavities 4, 12 and 16 of the working hydraulic cylinder

ra 23, the rod cavity of which is filled with compressed air.

At the same time, the rod 20 acts on a three-line pneumatic distributor separator 14, which connects the cavity 9 of the additional piston 8 with the atmosphere. The cavity 3 of the multiplier is connected to the atmosphere.

When compressed air is fed into the cavity 3 of the multiplier, the piston 2, moving to the left, releases the piston 17 of the control hydraulic cylinder 15, which is driven by its return spring 18 to the leftmost

position, with this three-line

pneumatic valve 14 connects the cavity 9 of the additional piston 8 with a source of compressed air. The air pressure applied to the cavity 9 is reduced by the pressure reducing valve 22 as compared to the air pressure in the cavity 3. The pressure decrease ensures the steady movement of the piston 2 to the left in the direction of the working stroke, as well as the creation of high pressure in the cavity 12 of the cylinder 7 at the initial moment as the resistance increases. on the rod of the working cylinder. When moving the piston

2, the hydraulic lock rod 21 is brought by its return spring to the initial position and the hydraulic lock valve 13 is closed. The valve spring 13 displaces the oil from the low pressure cavity 4 into the cavity 12 of the cylinder 7 under the pressure of compressed air in the cavity 9 to the additional piston 8. The oil pressure is transferred to the working piston cavity

hydraulic cylinders.

With increasing resistance on the stem of the working cylinder from the cavity 12 of the cylinder 7, the oil is already being forced out under high pressure. At the same time, the check valve 13 of the hydraulic lock prevents leakage of oil into the low-pressure cavity 4, and the volume of oil cut off in this cavity shifts the additional piston 8

to the left.

Under the action of high pressure of oil in the cavity 12 gG), the roller 17 of the control hydraulic cylinder 15 is displaced to the extreme right position, the Pre-Prelev action force with its return spring 18, and acts on the hydraulic valve 14, which connects the cavity 9 of the additional piston 8 with the atmosphere.

its end face is an additional cavity and interacting with a travel stop, the rod cavity of the low pressure cylinder is made hydraulic and connected through the radial hole and the cavity in the rod to the cavity of the high pressure cylinder, and the piston and additional cavity of the low pressure cylinder are connected to a gas source differing from that, with the aim of expanding the functionality and increasing the efficiency of work, it is equipped with a controlled reverse flow (5 th valve installed in the cavity of the rod, three-way pneumatic distributor installed in the communication line of an additional cavity with a gas source, and controlling a hydraulic-pneumatic-hydraulic multiplier-20 cylinder, the working cavity of which is a torus containing a high-pressure cylinder placed in the cylinder with the formation of th pressure, and a piston sub-piston and rod cavities; the main piston with a radial bore on the side surface of its hollow rod; a high-pressure cylinder interacting with the hollow rod; and an additional piston mounted in the rod end of the low pressure cylinder to form with

Thus, the high pressure multiplier creates with maximum force on the hollow rod 5, created by the piston 2, and, consequently, increases the force on the rod

booster cylinder,

"

At the end of the working stroke of the multiplier, the compressed air supply to the cavity 4 and the return stroke JQ of the rod 5 is stopped under the action of compressed air supplied into the rod cavity of the working hydraulic cylinder and the cavity 9 of the additional piston 8. The multiplier is brought to its initial position.

Claims (1)

Invention Formula spring-loaded and equipped with two rods, one of which is installed with the possibility of interaction with a controlled check valve, and the other with a three-way pneumatic distributor | with this, an additional piston is made covering the hollow rod, on 30 which is fixed travel stop. Compiled by 3. Pimakhov Editor S. Pekar Tehred M. Hodaiich Order 2333/35 Circulation 639Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk iab., d. A / 5 Production and printing company, Uzhgorod, st. Project, 4 20 by a cylinder, the working cavity of which is associated with the cavity of a high pressure cylinder, and the piston is made under- spring-loaded and equipped with two rods, one of which is installed with the possibility of interaction with a controlled check valve, and the other with a three-line pneumor, the distributor, while the additional piston is made covering the hollow rod, 30 which is fixed travel stop. Proofreader M.Sharoshi V