SU699235A1 - Pneumatic-hydraulic multiplier - Google Patents

Description

The invention relates to hydraulic and pneumatic: general purpose systoles and, in particular, to pneumohydraulic multipliers. A pneumatic-hydraulic multiplier is known, comprising a housing inside which a cylinder with a hollow piston is housed, having a Z-shape in axial section and covering the working piston plunger, which together with the pneumatic cylinder of the inlet, outlet and working cylinder, and the hydraulic cavity of high and low pressure, the latter of which are connected via a check valve with a reservoir, and control spools. The specified pneumohydravical multiplicator is the closest to the described invention by its technical nature. The disadvantage of it is low productivity. The aim of the invention is to increase productivity by eliminating idling of the hollow piston. This is achieved in that the multiplier contains an additional check valve, coaxial, main and connecting high and low pressure hydraulic cavities, the main check valve is equipped with a diaphragm by means of control and a control piston located between it and the main check valve, the control cavity of which is connected to the pneumatic cavity the control cavity of the diaphragm is connected to the working pneumatic cavity, and the SOUTH piston is provided at the end with an internal rim and sealing element in contact with The surface of the plunger. The drawing shows a diagram of the pneumatic hydraulic multiplier. In the housing 1 there is a cylinder 2, in which the hollow piston 3, the working piston 4 with the plunger 5 are placed coaxially with each other, forming a pneumatic one. bones working b, inlet 7, outlet 8 and the hydraulic cavity low 9 and high 10 pressure. A hollow piston 3 having a Z-shaped axial section is provided at the end with an inner 11c sealing element 12 in contact with the surface of the plunger 5. The other end of the hollow piston is installed in the housing 1 with an inner and outer sealing section and provided with sealing elements. 13.

A main check valve 14 is mounted coaxially and in series with each other, connecting the reservoir 15 with the working fluid with a low pressure hydraulic cavity 9 and an additional check valve 16 connecting the low pressure hydro cavity of 9 with a high pressure hydraulic cavity 10. Between the two check valves 14 and 16, a pusher 17 is installed with a gap 18 relative to the additional check valve 16. Both check valves 14 and 16 are equipped with a control piston 19, the control cavity 20 of which is connected by a channel 21 to the pneumatic cavity 8 and the control diaphragm 22 , the control cavity 23 of which is connected by channel 24 to the working pneumatic cavity 6. A diaphragm 22 controls the main check valve 14. The control piston 19 is installed between the diaphragm 22 and the main check valve 14. The multiplier output channel 25 Inonii with the power cylinder 26. For originating multiplier 26 and the power cylinder are used automatic differential spool 27, reversing valve 28 and the throttle 29.

The multiplier works as follows.

When the distributor 28 is turned on, the compressed air flows through the spool 27 into the supply cavity 7, the hollow piston 3 displaces the pressurized oil from the cavity 9 through the additional check valve 16 to the power cylinder 26 and the latter. begins to accelerate. Drosel 29 maintains in the outlet cavity 8 a pressure sufficient to hold the differential spool 27 in the initial position and not enough to act on the piston 19 to open the main check valve 14.

When a resistance cylinder 26 meets the rod, for example, in the form of a riveted product, the hollow piston 3 stops, the air pressure in the outlet cavity 8 drops to zero, the differential spool 27 switches and the compressed air enters the working cavity 6, and the control cavity 23 of the diaphragm 22 provides through the control piston .19 opening only the main check valve 14, while the low pressure cavity 9 is connected to the reservoir 15. Plunger 5 under the influence of the working piston, n 4 delivers pressurized oil: n From I cavity 10, providing a stroke for the power cylinder 26. When the dispenser 28 is turned off, the valve 27 is actuated and the compressed air enters the outlet cavity 8, into the control cavity 20 of the control piston 19 and into the rod cavity of the power cylinder 26, the control piston 19 opens both check valves 14 and 16, selecting a gap 18 between the pusher 17 and the additional check valve 16. The hollow piston 3 acts on the working piston 4 and they both return to their original position. In this case, the oil from the power cylinder 26 enters simultaneously both into the cavity 10 of the high pressure and into the cavity 9 of the low pressure. Power returns

5 of cylinder 26 to the starting position and accelerating the charging of the multiplier. without additional idle travel of the hollow piston 3 and without additional oil circulation between the cavity

0 10 high pressure, low pressure cavity 9 and reservoir 15.

Thus, the proposed pneumohydraulic multiplier increases labor productivity

5 by eliminating the idle movement of the hollow piston.

Claims (1)

1. USSR author's certificate No. 399633, cl. F 15 B 3/00, 1970.; 2 222013 5 Е-75/4 17 f8 fS /..,(,/,,,/