SU1527416A1 - Pumping unit with pneumatic drive - Google Patents

Abstract

The invention makes it possible to increase the efficiency of a pump unit with a pneumatic actuator. The control unit with the throttle is connected to a source of compressed gas and pneumatic lines of communication with even and odd units of the extrusion of fluid and their valves. The control unit is equipped with a pneumo-tumbler, three normally open pneumatic distributors (PR), one normally closed PR, three pneumatic valves, and pneumatic capacity. The extrusion assemblies and their valves are made in the form of housings, along the longitudinal axis of which there are holes for the passage of the pumped medium and elastic tubes are installed. The outer surfaces of the tubes and the inner surfaces of the shells are formed by closed chambers associated with the pneumatic lines. The gas supply is carried out by switching the PR. 1 hp f-ly, 1 ill.

Description

The invention relates to pumping and can be used to pump fluid from wells.

The purpose of the invention is to increase efficiency.

The drawing shows a pump unit with a pneumatic actuator.

Pump unit with pneumatic actuator contains unit 1 of control with throttle 2, connected with source 3 of compressed gas and pneumatic lines 4-6 of communication with even 7 and odd 8 nodes, squeezing out the fluid and their valves 9 and 10, while controlling the pneumatic actuator It is equipped with a pneumo-tumbler 11, three normally open pneumatic distributors 12-14, one normally closed pneumatic distributor 15, three tnevmuspananami 16-18 and pneumatic capacitance 19. The inlet 20 of the pneumotumbler 11 is connected to a source of 3 compressed gas, and output 21 with the first inlets 22-24 ne rvoy 12, second 13 and third

14 normally open pneumatic distributors, second inlet 25 of normally closed pneumatic distributor

15 and the first inlets 26-28 of the pneumatic valves 16-18, the second inlets 29-31 of the first 12, the second 13 and the third

14 normally open pnevmoraspre-. dividers and the first input is 32 normal SL

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but closed valve} G 15 communicated with the atmosphere. The output 33 of the first normally open pneumatic distributor 12 communicates with the third input 34 of the normally closed pneumatic distributor 15, the output 35 of which is connected by a pneumatic line 6 to the valves 10 of odd extrusion nodes 8 and the second input 36 of the first pneumatic valve 16, the output 37 of the last communicated with the third input 38 of the second normally open pneumatic distributor 13, the output 39 of which is in communication with the even-numbered assemblies 7 and their valves 9 and with the second inlet 40 of the second pneumatic valve 17, the inlet 41 of the latter is communicated with the third inlet 42 tert There is a normally open pneumatic distributor 14, the output 43 of which communicates with the odd assemblies 8 and with the entrance of the throttles 2, the output of the latter is connected with the pneumatic washing 19 and with the second input 44 of the third pneumatic valve 18, the output

45 which communicates with the third entrance

46 of the first normally open pneumatic distributor 12. The extrusion assemblies 7 and 8 and their valves 9 and 10 are installed in the form of housings 47, along the longitudinal axes of which there are holes 48 for passing the pumped medium and elastic tubes 49 are installed. enclosures 47 are formed by closed chambers associated with pneumatic communication lines 4-6.

The installation works as follows.

When the pneumo-tumbler 11 is turned on, the compressed gas from the source 3 through the inlet 22 of the normally open pneumatic distributor 12 and the outlet 33 passes to the inlet 34 of the normally closed pneumatic distributor 15 and switches it to supply (; compressed gas to the odd valves 10 of the plant). required for closing the odd valve 10, the pneumatic valve 16 is switched, opening access of the compressed gas to the inlet 38 of the pneumatic distributor 13, which switches, connecting the extrusion units 7 and their valves 9 through line 4, outlet 39 and inlet 30 of the pneumatic distributor 13

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with the atmosphere. In this case, as the pressure decreases, the elastic tubes 49 of the even extrusion assemblies 7 and their valves 9 return to their original non-deformed state. At the same time, the pneumatic valve 17 is switched, its output 41 is connected to the input 42 of a normally open

The pneumatic distributor 14 is in communication with the atmosphere, which causes the pneumatic distributor 14 to switch. Compressed gas from source 3 through inlet 24 and outlet 43 of the normally open pneumatic distributor 14 through communication line 5 goes to the odd node 8, which, as the pressure rises, the elastic tubes 49 contract, squeezing the pumped liquid into the even extrusion units 7 and their valves 9.

At full compression of the tubes 49 in the odd-nodal assembly 8, the pneumatic valve 18 switches, which connects the gas source 3 to the inlet 46 of the pneumatic distributor 12. The latter switches, and the input 34 of the normally closed pneumatic distributor 15 through the outlets 33 and 29 of the normally open pneumatic distributor 12 is connected to the atmosphere, the compressed gas is discharged from the odd-numbered valves 10 and the pneumatic valve 16 is switched to

5, pressure relief at the inlet 38 of the pneumatic distributor 13, which switches to supplying compressed gas from the source 3 to the evenpumps 7 and the pressure valves and their valves 9. The valve 9 closes, as the pressure in the even numbered assembly 7 increases, the pneumatic valve 17 switches over in turn, normally open pneumatic distributor 14 for discharge of compressed gas from odd nodes 8 of pressing and discharge of gas from pneumatic container 19, which leads to switching of pneumatic valve 18 and pneumatic distributor 12 to its original position. Switching the normally open pneumatic distributor 12 to the initial position leads to connecting the input 34 of the normally closed pneumatic distributor 15 to the source 3 of compressed gas, switching the pneumatic distributor 15 to supply gas to the odd pumping valves 10

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installs and closes them. Further, the cycle repeats.

The timing of the pneumatic valve 18 is controlled by the choke 2.

Claims (2)

1. Pump unit with pneumatic actuators containing a control unit with a throttle connected to a source of compressed gas and pneumatic lines of communication with even and odd units of the extrusion of liquid and their valves, characterized in that the control unit is equipped with a pneumottagler, three normally open pneumatic distributors, one normally closed pneumatic distributor and three pneumatic valves are connected to a source of compressed gas, and the output to the first inputs of the first, second and a third normally open pnevmoras- predeliteley, the second input of the normally closed valves and the first inputs of air valves, the second inputs of the first, second and third normally open pnevmoras- predeliteley and a first input of a normally closed valves communicated with the atmosphere, wherein the output of the first normally open pneumonia 5 0 five 0 five The distributor communicates with the third input of the normally closed pneumatic distributor, the output of which is connected by a pneumatic line of communication with the valves of the odd extrusion units and the second input of the first pneumatic valve, the output of the latter is communicated with the third input of the second normally open pneumatic distributor whose output communicates with the extrusion units and their valves and with the second input of the second pneumatic valve, the output of the latter is communicated with the third input of the third normally open pneumatic valve, the output of which is communicated with odd In addition, the output nodes are connected to the pneumatic capacitance and to the second input of the third pneumatic valve, the output of which is connected to the third input of the first normally open pneumatic valve. 2. Installation according to claim 1, characterized in that the injection units and their valves are made in the form of cases, along the longitudinal axes of which there are holes for the passage of the pumped medium and elastic tubes are installed, the outer surfaces of which have internal surfaces closed chambers associated with pneumatically; lines of communication. ten