SU1089306A1 - Pneumohydraulic serial booster - Google Patents

Abstract

UNDER IDRAVLICHBSK NORMAL ACTION MULTIPLICATOR, contained in the housing and rigidly fastened with Spock base Porsche and Porsoe high pressure with formation of pneumatic cavities and hydraulic cavity on both sides. gray pressure on one side of the p (high pressure, an additional piston coaxially with the rod and freely relative to it, low pressure hydro-cavity and channels for supplying and discharging the working medium in the pneumatic cavity, differing from the fact that, in order to simplify the design, removal of the working medium in the levmolopolsti are made in stock, the latter is made stationary, and the body is movable. (L 00: O 00 o a:

Description

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

The pneumohydraulic multiplier is known, which contains a pneumatic cylinder with a rod and a piston fixed on it, and a second piston mounted freely on the rod. The piston section is divided into pneumatic and hydraulic chambers l.

A disadvantage of the known multiplier is that when the direction of the air pressure supply is switched, the fluid pressure in the hydraulic cavities can drop, which contributes to the occurrence of water hammer.

The closest to the present invention is a sequential pneumohydraulic multiplier containing a main piston and a high pressure piston rigidly fastened with a rod and forming high pressure pneumatic cavities and hydraulic fields on either side of the high pressure piston, mounted coaxially with the rod. and an additional piston, a low-pressure hydro-cavity and channels for supplying and discharging the working medium in the pneumatic cavity 2 freely.

The disadvantages of the known multiplier are its somewhat greater complexity and increased heat capacity due to the presence of a fixed jumper.

The purpose of the invention is an upscaling design.

This goal is achieved by the fact that, in a pneumohydraulic multiplier of sequential action, containing a main piston and a high-pressure piston rigidly fastened with a rod to form a main piston of the pneumatic cavities and a high-pressure hydraulic cavity on one side of the high pressure side, mounted coaxially an additional piston, a low pressure hydrocavity and channels for supplying and discharging the working medium in the pneumatic cavity, channels for supplying and removal of the working environment in the pneumatic cavity is made in the rod, the latter is fixed, and the body is movable.

. the drawing shows the proposed pneumohydraulic multiplier.

Pneumohydraulic sequential multiplier

It includes a housing 1, a rod 2, a main piston 3 and a high pressure piston 4 rigidly fastened to the rod 2, pneumatic cavities 5 and 6 on both sides of the main piston 3, a high pressure hydraulic cavity 7 located under the high pressure piston 4. An additional piston 8 is mounted coaxially with the stockholding 2 and relatively relative to it. Between the core 10 tiycoM 1 and additional post 8, a hydro-cavity 9 of low pressure is formed. In rod 2, channels 10 and 11 are made for supplying and discharging the working medium in pneumatic cavity 5 and 6, respectively. The shank 12 is provided with holes 13 for connecting a low pressure hydravole 9 with a high pressure hydro cavity 7 through the holes 14 in the high pressure piston 4 4Q.

The high pressure hydraulic cavity 7 is connected to the consumer through the opening 15. The rod 2 is fixedly fixed, and the body 1 can be moved relative to 25 it.

The device works as follows.

The working medium (air) through the channels 10 and 11 is simultaneously supplied in the pneumatic cavity 5 and b. Under the action of air pressure, the housing 1 moves upwards (relative to the stop of the rod 2). In this case, the fluid from the hydraulic cavity of the low pressure is displaced through the holes 13 and 14 into the hydraulic cavity 7 of the high pressure and then through the opening 15 to the consumer. This process takes place under a pressure equal to the air pressure multiplied by the gain,

0 equal to the correlation of the effective areas of the pistons 4 and 8, which are under the influence of the pressure of the medium in the hydraulic cavity 9 and the pneumatic cavity 6. In obtaining a higher pressure 5 or in the hydraulic cavity 7, a connection is made to the atmosphere of the pneumatic cavity 6 through channel 10. At the same time, together with the housing 1 move the additional piston 8,

Q and the volume of the high pressure hydraulic cavity 7 remains unchanged. During the described movement, the holes 13 are cut off from the openings 14 and in the high pressure hydraulic cavity 7 create a pressure equal to the air pressure multiplied by the force coefficient determined by the ratio of the effective areas of the main piston 3 and high pressure piston 4.

0 When moving in the opposite direction, the pneumatic cavity 5 through the channel 10 is connected to the atmosphere. Air is supplied to the pneumatic cavity b through channel 11. At the same time, additional

5 piston 8, and with it the body 1

Moving away from the stop for the stem 2. At a certain moment, the openings 13 and 14 are combined and the high pressure hydraulic cavity 7 is connected to the low pressure hydraulic cavity 9. At the same time, the fluid from the consumer’s network through the opening 15 and the hydro-cavity 7 of the high pressure fills the low-pressure hydro-cavity 9, thus helping the body 1 to return

initial position .

The application of the proposed multiplier allows, at the same pressure of compressed air, to produce a liquid with two levels of high pressure. This reduces the metal consumption for the fabrication of a simpler mutiplicator. In addition, the smoothness of the multiplier is ensured.

Claims (1)

PNEUMATIC HYDRAULIC MULTIPLICATOR OF SEQUENT ACTION, containing the main piston and high pressure piston installed in the housing and rigidly fastened by the rod with the formation of pneumatic cavities and high pressure hydrocavity on both ⁴ sides. one of the sides of the high pressure piston mounted coaxially with the rod and the additional piston freely connected relative to the rod, a low pressure hydrocavity and channels for supplying and discharging a working medium in a pneumatic cavity, characterized in that, in order to simplify the design, channels for supplying and discharging a working medium in a pneumatic cavity are made in the stock, the latter is made stationary, and the body is movable.