SU877114A1 - Pneumohydraulically driven pump - Google Patents

Description

(54) PNEUMAPLE DRIVE PUMP

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The invention relates to pumping speed, pneumatic hydraulically driven pumps and can be used in various sectors of the national economy for supplying various fluids.

A pneumohydraulic actuator is known, which contains a drive cylinder divided into two drive cavities by a piston connected to the displacer of the pumping chamber and interacting in extreme positions with control valves installed in two control lines of the distributor connected to the drive cavities. one },

The disadvantage of the known pump is the overhead loss of the drive medium, which is constantly bleed through controlled valves. This leads to a decrease in the efficiency of the pump. In addition, the presence of special discharge lines to drain the drive medium through controlled valves complicates the design of the pump.

The purpose of the invention is to increase efficiency and simplify the design of the pump.

This goal is achieved by the fact that each control line

the distributor is provided with a channel communicating with one of the cylinder driving cavities, and each control valve is made normally closed and installed in one of the said channels.

The drawing shows the structural scheme of the proposed pump.

The driving cylinder 1 is divided into two driving cavities 2 and 3 by a piston 4 connected with the displacer-piston 5 of the pumping chamber 6 and interacting in extreme positions with control valves 7. The valves 7 are made normally closed and installed in the channels 8, telling distributing lines 9, connected with outputs 11 and 12 to

20 by driving cavities 2 and 3 of cylinder 1. Distributor 10 is provided with a spool 13 connected to a piston element. 14 of the actuator. In the piston element 14, channels 15 are made communicating the pressure cavity 16 with the actuator chambers 17 connected to the control lines 9. The distributor 10 is provided with a channel 18 for resetting the driving medium. Pump chamber 6 is equipped with

30 suction 19 and discharge 20

valves, the last of which is installed in the piston 5.

The drive medium under pressure is fed through the distributor 10 into one of the drive cavities of the cylinder 1, for example into the cavity 2. The piston 4 moves up (drawing) and at the end of the stroke interacts with the upper valve 7. The latter opens and informs the left-hand drive of the drive 17 with the drive cavity 3, and through it, output 12 of the distributor 10 communicated at this time with the channel 18 for resetting the drive medium. The pressure in the left chamber of the actuator 17 drops, and in the right, communicated by the channel 15 with the pressure cavity 16, remains unchanged, p? 1B, to the supply pressure of the driving medium. Piston element 14 is moved to the left position and switches the valve 13. In this case, pressure chamber 3 communicates with pressure chamber 16, and drive cavity 2 communicates at this time with relief port 18 of distributor 10. Plunger 4 moves down (drawing) to its lowest position in which it interacts with the lower valve 7. At the same time, the drive chamber 17 is in communication through the opening valve 7 and the cavity 2 with the relief valve channel 18 and the distributor 10, the pressure in this drive chamber 17 drops and the piston element 14 is transferred to the Right Proposition. Then the cycle repeats.

During the reciprocating movement of the piston 4, the piston 5 is connected with it. A transduction takes place, iodically changing the volume of the pump chamber 6, sucking the pumped medium through the valve 19 and pumping it to the consumer through the valve 20.

Due to the fact that the valves 7 are normally closed and open only at the moment of switching on the distributor 10, the non-productive losses due to the discharge of the drive medium are eliminated and, thus, the efficiency of the pump is increased. In addition, there is no need for special lines to reset the drive medium, which simplifies the design of the pump.

Claims (1)

1. US patent 4029440, CL.M17 - 403, 1978.