SU1430611A1 - Pump-compressor - Google Patents

Abstract

The invention allows to increase the pump head when pumping liquid and gaseous media. The working unit is made in the form of helical spiral tubes 1 having inlet and outlet openings 2, 3. The cylindrical chamber (K) 9 is connected to the tubes 1 and communicated peripherally to their openings 3. The outlet nipple 10 communicates with the separator 8 and accommodates in K 9. The inlet 11 of the nozzle 10 is located in the lower part K at the level of the apertures 3. The suction and discharge piping (TP) 4 - 7 are interconnected by the bypass liquid and gas TP 12, 13 with valves 14, 15. in for the supply of fluid is made in the form of K 16, in a cut float mounted new r. regulator 17 and suction TP 4.5 are connected to the swarm. Separator B is a float K, to which a TP 6.7 is connected. Such a system enables the consumer to issue a liquid or gas, or both. 2 3.p with f-ly, 1 ill. "3 (L

Description

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The invention relates to the field of pump engineering and can be used for pumping liquid and gaseous media and mixtures thereof.

The aim of the invention is to increase the head to enhance the functionality by providing pumping gas or gas.

The drawing shows the pump-compressor ,, look a species.

The pump-compressor contains a rotating body around the horizontal axis of the working body in the form of helical spiral tubes 1 having inlet and outlet apertures 2 and 3, suction head and discharge piping 4-7 for shdkost and gas and separator S, Pump provided with a collector made in the form of a cylindrical chamber 9 connected to the tubes 1 and communicated peripherally with their outlet openings 35 and a fixed outlet nipple lOj communicated with the separator 8 and placed in the collector with the inlet 11 of the outlet nozzle 10 placed bottom of the chamber 9 at the outlets 3 tubes 1.

In addition, the suction and discharge piping 4-7 for the liquid and gas are connected to the bypassing line, respectively, the liquid and gas piping 12 and 13 with the valves 14 and 15, the pump is equipped with a device for supplying the liquid, made in

a camera 16 in which a float regulator 17 is installed and to which the suction pipes 4 and 5 for liquid and gas are connected. The discharge pipes 6 and 7 are equipped with valves 18 and 19.

The separator 8 is a float chamber 5 to which the discharge pipes 6 and 7 for liquid and gas are connected.

The device works as follows.

The suction pipes 4 and 5 pump the liquid and gas into the chamber 16j in which the level is maintained to ensure that the fluid enters the tubes 1 of the working body; was in the lower position and gas in the turns in the upper position. When the working body rotates, the fluid, under the action of gravity, remains in the lower position,

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moves along the spiral tubes 1 of the working body, pushing out the gas in front of it. During one complete rotation of the working organ, each point of the spiral describes a circular trajectory in a vertical plane. At the same time, each turn of the helix is successively in the middle, upper, Q middle, and lower positions. As a result, for each revolution, a portion of the gas and a portion of the liquid enter the coil of the tube 1. Lies; 1, the working body causes the fluid, 5 in its lower position, to move,

transferring simultaneously the portions of gas enclosed between portions of a liquid. The pumped portions of gas are compressed in accordance with the degree of movement along the tubes 1 j, and the liquid at the same time increasingly deviates from the equilibrium position. At the same time, in coils 3 located closer to the outlet orifices of m 3, the level is lowered, reaching the maximum position at which a reverse gas breakthrough from this coil into the coil can occur, and is located farther from chamber 9 of the collector.

As a result of the gas breakthrough, the liquid of the previous orbit in the process of its further movement occupies a similar position. Such an arrangement of levels is optimal, since it achieves the maximum increase in pressure in the turn due to the maximum difference in the heights of the liquid columns in the branches of the turn. Upon further rotation of the working member, the liquid and gas enter the collection chamber 9, from where, under the action of the generated pressure, the branch pipe 10 enters the separator 8, where they are separated into liquid and gaseous fractions.

Subsequently, when valves 18 and 15 are open and valves 19 and 14 are closed, pressurized fluid from separator 8 flows through the discharge line 6 to the consumer, and the gas returns to chamber 16 via gas bypass pipe 13.

If you need to pump not

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liquid, and rasj, then valves 18 and 15 are closed, and valves 19 and 14 are opened, and from the separator 8 gas is supplied to the consumer through the discharge line 7 to the consumer, and liquid 14306 is supplied to the liquid bypass line 12

rotates into the chamber 16. It is also possible to simultaneously simultaneously supply a liquid of a gas to the consumer, for which valves 18 and 19 open and valves 14 and 15 close, and portions of the liquid and gas of the worms suction pipes 4 and

5 enter the chamber 9 of the collection, from it through the pipe 10 into the separator 8,

where are separated and by pipelines jq

6 and 7 are provided to the consumer.

Claims (3)

1. A compressor pump containing a working opfaH rotating around a horizontal axis in the form of helical helical tubes having inlet and outlet openings, suction and drainage pipes for liquid and gas and a separator, in order to increase head, pump-compressor is equipped with a collection, made in the form of a cylindrical chamber connected to the tubes and communicated Q five five 0 eleven . along the periphery with their outlet openings, and a stationary outlet, pipe connected to the separator and placed in the collector, while the outlet of the outlet pipe is placed in the lower part of the chamber at the level of the outlet openings. 2, Compressor pump according to claim 1, which is characterized in that, in order to enhance the functionality by ensuring the transfer of either liquid or gas, the suction and discharge pipelines for liquid and gas are connected to each other by /, bypass, respectively, liquid and gas pipelines with valves. 3. Pump compressor according to paragraphs. 1 and 2, characterized in that it is provided with a device for supplying liquid and gas, made in the form of a chamber in which a float level regulator is installed and to which suction pipelines for liquid and gas are connected.