SU1139899A1 - Two-chamber pneumatic displacement pump - Google Patents

Abstract

1. TWO-CHAMBER PNEUMATIC REPLACEMENT PUMP, containing working chambers with hollow floats, suction and discharge pipes, alternately communicated with a pressure source by means of a spool-type air distributor, characterized in that, in order to increase reliability by providing an independent alternating switching source for each compartment, each compartment has a pressure distributor for each unit The air distributor is installed with the possibility of rotation around the axis of the shaft, each float is equipped with a differential valve connected to the pipe a wire with a rotary valve of the distributor, and the last two-way valve, with a two-way valve and a rotary valve. placed on the same shaft. 2. The pump according to Claim 1, which is designed so that, with the whole range of operation of the pump, the bottom of the chambers is provided with stops, and each float has a tank, in the bottom part of which a valve is installed in contact with the camera stops.

Description

I The invention relates to mechanical engineering, namely to volumetric pumps operating from compressed air; A pneumatic replacement pump with a spool air distributor, kinematically associated with a float, is known. The disadvantage of this pump is the intermittent water supply and the complexity of the spool air distributor. Closest to the invention. the technical solution is a two-chamber pneumatic replacement pump containing working chambers with hollow floats, suction and discharge nozzles, alternately connected to a pressure source using a spool air distributor. 2 and minimum levels in the working chamber. The purpose of the invention is to increase reliability by providing an autonomous alternating switching of the pressure source to each chamber, as well as expanding the range of the pump operation mode. This goal is achieved by the fact that in a two-chamber pneumatic substitution tank containing workers, chambers with hollow floats, suction and discharge nozzles alternately communicated with a pressure source by means of a spool valve, the latter is installed with the possibility of rotation around the shaft axis, each float is equipped a differential valve connected by a pipeline with a rotary valve of the air distributor and the latter with a twin valve, with E7 a two-way valve and turned gold The ICs are placed. On one shaft. The bottom of the chambers are provided with stops, and each float has a tank, in the bottom part of which a clak-pan is installed, which contacts with the stops of the ca-. measures. Figure 1 shows a schematic of the pump, a general plan view; in Figure 2, the rotary valve of the air distributor in FIG. 3 is a two-way valve, a longitudinal section in FIG. 4 is the same, a transverse section, in FIG. 5 9, 2 a working chamber two-chamber pneumatic replacement pump. The two-chamber pneumatic replacement kasos contains working chambers 1 with hollow floats 2, suction 3 and discharge i nozzles, alternately communicating with a pressure source via a spool air vent. a connected pipeline with a rotary valve of the distributor 5, and the latter - a two-way valve 8, while the two-way valve and the rotary valve are placed on the same shaft 6, with the days the chambers are equipped with stops 9, and the float 2 has a capacity of 10, the valve 11 is in the bottom part, it is in contact with the stops of 9 chambers, the air distributor 5 is equipped with a plate piston 12. The two-chamber pneumatic replacement pump works as follows. When liquid flows from the supply tank through the pipeline into the working chamber 1, the air in the chamber leaves through the suction inlet 3 and the narrow slit of the rotary slide valve in the atmosphere. When the water level reaches reservoir 10, it will fill up through valve 11 and will not float. When the water reaches the level of the float 2, it floats up, closes the opening of the nozzle 3 and at the same time pulls up the tank 10 with the help of a pull. At this the suction stroke is over. At the same time, in the second working chamber 1, the process of liquid displacement proceeds in the following sequence. A compressed air enters the working chamber 1 from the compressed air source through the two-way valve 8 and the discharge pipe 4 and the water begins to be forced out. As soon as the liquid level in chamber 1 reaches the bottom of tank 10, the float 2 will lower and the differential valve will open and the exhausted compressed air will rush through the nozzle 3 to the spool air distributor 5 and, affecting the piston plate 12 (figure 2), compress it will turn it to a narrow gap and will enter the atmosphere.

3

When the container 10 is lowered, the valve stem 11 stops at the stop 9 and the valve opens, and the fluid in the container 10 is released into the working chamber. The rotation of the axis of the shaft 6 to the HeKoTo angle causes the moving part of the two-way crane to turn to the same angle and the compressed air is directed to another working chamber 1 through the nozzle 4 and the process is repeated in the described sequence, and

1398994

suction process time is shorter than displacement process time.

The use of a two-chamber pneumatic replacement pump operating in automatic mode will save considerable resources when replacing pumping stations with a drive for internal combustion engines and those powered by electric motors.

Fig2

Fig.Z

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Claims (2)

1. TWO-CHAMBER PNEUMATIC SUBSTITUTION PUMP containing working chambers with hollow floats, suction and discharge nozzles, alternately communicating with a pressure source using a spool air distributor, characterized in that, in order to increase reliability by providing an autonomous alternating switching of the pressure source to each chamber, the spool the air distributor is mounted to rotate around the axis of the shaft, each float is equipped with a differential valve connected by piping th rotary valve with the diffuser, and the last two-way kranm, with two-way cock and a rotary valve. placed on one shaft. 2. The pump according to claim 1, characterized in that, in order to expand the range of the operating mode of the pump, the bottoms of the chambers are equipped with stops, and each float is equipped with a tank, in the bottom of which there is a valve in contact with the stops of the chambers. 1139899.