SU840509A1 - Hydropneumoaccumulator - Google Patents

Description

I

The invention relates to a hydropic drive, namely, to a hydraulic and pneumatic accumulator for driving pulsed machines and can be used to generate hydraulic shock waves in hydraulic pulsed forging and pressing machines.

The hydropneumoaccumulator is known, which contains a cylindrical body in which a separation piston is installed, a hydraulic web cover with a pulse valve with a servo drive placed on its inner surface, the cylinder of which is made in the form of a glass with windows on its side surface, with a locking body in the form of a piston and with a Saddle a cap and control line connected to the piston cavity of the valve 1.

The known device is closest to the one described in design and functionality.

. A disadvantage of the known hydro-pneumatic accumulator is that the seat is fixed in it, which limits the speed of the pulse valve.

The purpose of the invention is to enhance. high-speed impulse valve.

This goal is achieved by the fact that the saddle of the latter is made in the form of an additional hollow rod interacting with the stem and is placed in the collar with the formation of a cavity connected parallel to the piston cavity of the valve to the control line. .

Figure 1 shows a diagram of a hydro-pneumatic accumulator; Fig. 2 is a flow chart for controlling the operation of a hydropneumoaccumulator.

The hydropneumatic accumulator contains a cylinder; a physical body 1; a separation piston 2, which serves to separate the gas cavity 3 from the hydraulic cavity 4. The cylindrical body 1

on the side of the gas cavity 3, it is closed by a cover 5, and on the side of the hydraulic cavity 4 - by a clamp 6. On the lid 5 there is installed a unit 7 of a hydropneumoaccumulator of the working gas. On Krishka 6, on its inner surface, a pulse valve with a servo actuator is placed (the servo actuator is not shown in the drawing). The cylinder 8 of the said impulse valve is made in the form of a glass with windows 9 on its side surface. The shut-off element of the same valve is made in the form of piston rod 10 and has a seat 12, which is made in the form of an additional hollow piston 13 placed in the lid 6 to form cavity 14. The latter is connected in parallel by control line 15 to the piston cavity 16 of the pulse valve.

The control line, 15 is provided with a control gas supply nipple 17. The hydraulic cavity 4 provides the fitting with a fitting 18 for supplying the working fluid of the pump 19 to it (Fig. 2). The latter on the pressure line has a safety valve 20 and a check valve 21,

A nozzle 17 is connected via pipeline 23 with a battery 24 through the control valve 22. Parallel to the pipeline 23, a control valve 25 is inserted. The control valve 22 is depressed. Pressure is released from the hydro-pneumatic accumulator in waves.

water 26 connected to 27. The latter through an adjustable choke 28 is connected to the drain. In one of its positions, the control valve 22 is connected to the waveguide 26 via an adjustable choke 29 and a check valve 30.

Hydropneumatic accumulator works as follows.

From the accumulator 24, the fluid pressure is supplied through the spool at the direction 22 to the control line 15. Under the action of this pressure, the pistons I1 and the additional hollow piston 13 are pressed to each other. At this time, the hydropneumatic accumulator is charged through the node 7. Turning on the spool 25 causes the control pressure to flow into the right-hand cavity of the control spool 22 and switch it over. In this case, the control line 15 is connected to the drain and pressure is released from the hollows 16 and 14. Iodine is acted upon by the force of the fluid pressure, flowing through the windows 9, the piston 11 and the additional hollow jigger 13 synchronously moving in opposite directions, opening the access of fluid from the hydraulic cavity 4 into waveguide 26. In the latter, a shock wave is generated, the front of which moves

in the direction of the piston of the cylinder 27, giving energy through it, for example, the moving parts of the press hammer (not shown in the drawing). The increase in pressure in waveguide 26 also goes to

adjustable throttle 29 and to the left. the cavity of the control spool 22,. carried out the switching of the latter.

Due to the switching of the controlled spool 22

15 is connected to the pipe 23, since the mentioned switching of the pressure I t under the action of a pressure pulse, therefore, the flow of the control pressure into the piston cavity 16 and the plate 14 takes place in a pulsed mode. Due to this, the piston II converges at high speed with the additional hollow piston 13. And thus the pulse valve closes. If the adjustable throttle 28 is closed, a single water hammer is obtained. Under the specified condition, the system operates in the manual control mode28, then after the pulse valve is closed, the fluid from the waveguide 26 is pushed out to drain, which, due to a drop in pressure, causes the control spool 22 to switch and the cycle repeats. Under this condition, the hydraulic-pneumatic accumulator becomes automatic.

The termination of the hydro-pneumatic accumulator is carried out by switching the spool 25 to the initial position.

The present invention makes it possible to increase the speed of the hydropneumoaccumulator and, consequently, the productivity of the associated forging press machine.

Claims (1)

Invention Formula Hydropneumatic accumulator, containing a cylindrical body, in which the stoma, d If the adjustable throttle 5840 a separation piston, a hydraulic cavity lid with a servo-driven pulse valve placed on its inner surface, whose cylinder is designed as a glass with windows on its lateral surface, with a locking member in the form, a piston current with a saddle in the lid, and a control line connected to the piston valve cavity, which is also distinguished by the fact that, in order to improve the speed of the pulse valve On the latter, the seat is designed as an additional hollow piston interacting with the rod, which is placed in the lid to form a cavity connected in parallel to the piston cavity of the valve to the control line. Sources of information taken in the vn: name during examination 1, USSR Author's Certificate for Application No. 2316246 / 25-06, cl. F 15 B 1 / 02,16.01.76, lr-17 1 84P509 21 / 5 5 (I 8ff. YU. 21 ff J F (lt.2