RU65987U1 - PNEUMATIC DISPLACEMENT PUMP - Google Patents

Abstract

Object of utility model: pneumatic displacement pump. Scope: mechanical engineering, namely substitution pumps, can be used for pumping fluid from wells, technological pits in the coal, metallurgical, mining and chemical industries. The essence of the utility model: the pump contains a working chamber, an inlet valve, a discharge pipe with a non-return valve, an air distributor connected to the air duct and atmosphere, and a float regulator of liquid levels. Moreover, the latter is made in the form of floats, which are simultaneously control valves of the valve of the air distributor, and the seats of the control valves are open or closed air nozzles (depending on the state of the liquid - pollution, density), connected by a pipeline to the control mechanism of the valve of the air distributor and the air duct. Effect: simplifying the design of the pump, the ability to install an air distributor not only on the pump casing, but also in any other convenient place. 1 ill.

Description

The utility model relates to mechanical engineering, namely to replacement pumps, and can be used for pumping fluid from wells, technological pits in the coal, metallurgical, mining and chemical industries.

The closest analogue of the claimed device, selected as a prototype, is a pneumatic replacement pump, which contains a working chamber with a cover, an inlet valve and a discharge pipe with a check valve, a three-channel air distributor connected to the air duct and atmosphere, and a float regulator of the lower level. The pump is also equipped with a pneumatic relay, which contains a rotor with a rotary lever, a winding spring and bypass holes, as well as a high-level float regulator mounted on the relay lever and a flexible rod that connects the lever to the lower level float regulator. In this case, the relay holes are arranged with the possibility of alternating connection with the air distributor channels when the rotor is turned, and the winding spring is installed with the possibility of force interaction with the lever (AS USSR No. 1753056, IPC ⁵ F04F 1/00, 1/06, op. 07.08. 92). Common essential features of the known device and the claimed device are a working chamber, an inlet valve, a discharge pipe with a check valve, an air distributor connected to the air duct and atmosphere, and a float regulator of liquid levels.

The disadvantages of the known design is the complexity of the mechanical connections of the float controllers of the liquid levels to control the operation of the air distributor in the modes of filling the working chamber with liquid and forcing it out to the consumer in automatic mode.

The utility model is based on the task of improving the design of the pump, namely, the control mechanism of the valve of the air distributor by replacing the mechanical connection between the valve of the air distributor and the float regulator of liquid levels with a pneumatic one, which greatly simplifies the design of the pump and makes it possible to install the air distributor not only on the pump casing, but also in any other convenient place.

The problem is solved in that in a pneumatic replacement pump, which contains a working chamber, an inlet valve, a discharge pipe with a check valve, an air distributor connected to the air duct and atmosphere, and a float regulator of liquid levels, in accordance with a utility model, a float regulator of liquid levels is made in in the form of floats, which are simultaneously control valves of the valve of the air distributor, and the seats of the control valves are open or closed air nozzles (Depending on the state of the liquid - contamination, density) connected to the conduit control spool mechanism and the diffuser duct.

Thus, the mechanical connection between the valve spool and the fluid level regulator in the working

the chamber is replaced by a pneumatic one, which simplifies the design of the pump and makes it possible to install an air distributor outside the pump casing in any convenient place.

The essence of the proposed utility model is illustrated by the figure, which shows a pneumatic replacement pump, which contains a working chamber 1, an inlet valve 2, a pipe 3 connected to an air distributor 4, air nozzles 5 and 6, which are connected to the control valve chambers (A and B) 4 The pump also contains valves 7 and 8 located on the floats 9 and 10, and a discharge pipe 11 with a check valve.

The pump operates as follows.

The pump is immersed in a liquid. Under the influence of hydrostatic pressure, valve 2 opens and liquid begins to flow into the working chamber 1. Air from the working chamber 1 through pipe 3 through the air distributor 4 is released into the atmosphere, due to the fact that in the initial position the valve of the air distributor 4 is shifted to the left. This is because the float 10 with valve 8, under its own weight, closes (or opens) the air outlet from the nozzle 6. The air pressure in chamber B is greater than the air pressure in chamber A. Therefore, the spool of the air distributor 4 is shifted to the left and maintains this position. When filling the working chamber 1 with liquid, a float 10 pops up, however, due to the equality of pressure in chambers A i B (the height of the liquid column above the nozzle 6 can be neglected), the spool remains in the left position. When reaching the upper position of the liquid level, the upper float 9 pops up, which closes (or opens) under the action of the buoyancy force of the liquid by the valve 7

nozzle 5. The pressure in chamber A rises, the spool of the air diffuser 4 is shifted to the right and connects the main air supply with pipe 3 to the working chamber 1. Overpressure closes valve 2 and pushes the liquid out of the working chamber 1 with the discharge pipe 11 with a non-return valve to the consumer. The liquid level in the working chamber 1 will fall until the float 10 with valve 8, under the influence of its own weight, closes (or opens) the air outlet from the nozzle 6. The spool of the air diffuser 4 moves to the left, blocks the supply of main air to the working chamber 1 and connects it with the atmosphere, valve 2 opens and the cycle repeats.

By replacing the mechanical connection between the valve spool and the float regulator with a pneumatic one, the pump design is greatly simplified while retaining all the advantages of a pneumatic replacement pump.

Claims (1)

Pneumatic replacement pump, which contains a working chamber, an inlet valve, a discharge pipe with a non-return valve, an air distributor connected to the air duct and atmosphere, and a float liquid level regulator, characterized in that the float liquid level regulator is made in the form of floats, which are also valves the control valve of the air distributor, and the seats of the control valves are air nozzles, which, depending on the contamination and density of the liquid, are rytymi or closed conduit coupled to the control spool mechanism and the diffuser duct.