SU1125415A1 - Pneumatic substitution pump - Google Patents

Abstract

A PNEUMATIC REPLACEMENT PUMP containing a working chamber, inside which a float with a stem is installed, having a supply and discharge of fluid, equipped with non-return valves, a pressure source connected by pipeline with a working chamber, and an ejector whose active nozzle is connected to a pressure source, and the passive nozzle is connected to The working chamber through the valve, placed on the rod, characterized in that, in order to increase productivity by combining the filling and injection cycles, is provided with an additional chamber with ohms and discharge of liquid having a check valve and connected to the supply and discharge of the working chamber and the float rod provided with additional valves for communicating with the upper part of the additional chamber with the conduit and the sleeve. 2. A pump according to claim 1, characterized in that, in order to increase efficiency when using the steam generator as a pressure source, the additional chamber is equipped with a fusible melt and both floats have no heat (L are insulated.

Description

The invention relates to energy, mainly to boiler plants.

Known pneumatic replacement pump, including a steam generator, steam line, reduction installation, working chambers with inlet and outlet valves, heat-insulating floats installed in the working chambers [1].

The disadvantages of this device are the complexity of the circuit and the significant cost of electricity to drive the pumps, in addition, low efficiency due to significant losses of heat of steam.

The closest in technical essence to the proposed one is a pneumatic displacement pump containing a working chamber, inside of which a float with a rod is installed, having a liquid inlet and outlet equipped with check valves, a pressure source connected by a pipeline to the working chamber, and an ejector whose active nozzle is connected to a pressure source, and the passive nozzle is connected to the working chamber through a valve located on the stem [2].

A disadvantage of the known pump is that in this scheme the heat of the steam going to displace the liquid is practically not used, as a result of which the installation has a low KG1D.

The aim of the invention is to increase productivity by combining the cycles of filling and discharge.

This goal is achieved in that a pneumatic displacement pump containing a working chamber, inside which a float with a rod is installed, having a fluid inlet and outlet, equipped with check valves, a pressure source connected by a pipeline to the working chamber, and an ejector, the active nozzle of which is connected to the pressure source and the passive nozzle is connected to the working chamber through a valve located on the stem, is equipped with an additional chamber with fluid inlet and outlet, having check valves and connected to and from water of the working chamber, and the float is equipped with an additional stem with valves for communicating the upper part of the additional chamber with the pipeline and pipe.

Moreover, in order to increase the efficiency when using a steam generator as a pressure source, the additional chamber is equipped with a float and both floats are heat insulated.

The drawing shows a diagram of a pneumatic displacement pump.

The pneumatic replacement pump contains a working chamber 1, inside of which _s a float 2 with a rod 3 is installed, having a supply and 4 and a fluid outlet 5, equipped with check valves 6 and 7, a pressure source 8 connected by a pipe 9 with a working chamber 1, and an ejector 10, whose active nozzle is connected to a pressure source ¹⁰ 8, and the passive nozzle is connected to the working chamber 1 through a valve 11 located on the rod. The pump is equipped with an additional chamber 12 with an inlet 13 and a fluid outlet 14 having check valves 15 and 16 and connected to the inlet 4 and the outlet 5 of the working chamber, and the float 2 is equipped with an additional stem 17 with valves 18 and 19 for communicating the upper part of the additional chamber with the pipeline 9 and pipe 20, while the additional chamber 12 is equipped with a float 21 and both floats are heat insulated, and valves 22-24 are installed on the stem 3. The pipe 20 is equipped with a valve 25.

The device operates as follows.

In the initial position, chambers 1 and 12 are filled with water. The steam supplied from the pressure source 8 through the valve 22 is fed into the working chamber 1, displacing water from it, which, through the check valve 7, is supplied via branch 5 to the network. When lowering the float 2, it lowers the rods 3 and 17, blocking the valves 23, 19 and, accordingly, opening the valves 24 and 11. Through the valve 24, steam enters the second working chamber 12, forcing water out through the valve 16 into the 35 net. When the float 2 drops down, the exhaust valve 11 opens. Due to the rarefaction created in the ejector 10, the steam is sucked out of the working chamber 1, under the action of the rarefaction, the inverse valve 4Q pan 6 opens and the working chamber 1 is filled with water. When the float 2 rises, valve 19 opens (with valve 25 open) and the steam is sucked out of chamber 12 by ejector 10 through valve 19. Under vacuum, in check chamber 12 12, the check valve 15 opens and water enters the working chamber 12. Then the cycle repeats .

Thus, the proposed device is simple in design, provides ₅₀ continuous operation, the heat of the steam that has completed the work of supplying the liquid is used by the consumer.

Claims (2)

PNEUMATIC SUBSTITUTION PUMP, containing a working chamber, inside which a float with a rod is installed, having a liquid inlet and outlet, equipped with non-return valves, a pressure source connected by a pipeline to the working chamber, and an ejector, the active nozzle of which is connected to the pressure source, and the passive nozzle is connected to the working chamber through a valve located on the rod, characterized in that, in order to increase productivity by combining the filling and discharge cycles, it is equipped with an additional chamber with an inlet and a fluid inlet having non-return valves and connected to the inlet and outlet of the working chamber, and the float is equipped with an additional stem with valves for communicating the upper part of the additional chamber with the pipeline and pipe. 2. The pump according to π. 1, characterized in that, in order to increase efficiency when using a steam generator as a pressure source, the additional chamber is equipped with a float and both floats are made insulated.