SU1479708A1 - Pulsed pump - Google Patents

Abstract

The invention makes it possible to increase the production of a pulsed pump by allowing the pumping of fluid during the suction nozzle / P / 2 cycle. P 2 PLACED IN A PUMPED LIQUID AND CONNECTED TO WORKING CAMERA 1. Pipeline 3 for supplying compressed gas is connected to the top of P 2. By of the pipeline 5, the receiving container 4 communicates with the lower part of the P 2. The air valve 6 is installed in the upper part of the chamber, to-ra placed above the container 4. The axis of the pipeline 3 is located tangentially to the axis of the P 2. 2 Cp. 3 il.

Description

(21) 4198499 / 25-29

(22) 24.02.87

(46) 05/15/89. Bul Р 18 (75) С.К.Ерохин

(53) 621.695 (088.8)

(56) USSR Author's Certificate No. 881377, cl. F 04 F 1/02, 1980.

(54) IMPULSE PUMP

(57) The invention allows to increase the performance of a pulse pump by providing pumping fluid during the emptying cycle of the suction pipe (P) 2. P 2 is placed in the pumped liquid and connected to the working chamber 1. The pipeline 3 for supplying compressed gas is connected to the upper part of P 2 Through pipeline 5, the receiving container 4 communicates with the lower part of P 2. The air valve 6 is installed in the upper part of chamber 1, which is located above container 4. The axis of pipeline 3 is located tangentially to the axis of P 2. 2 Cp. f-ly, 3 ill.

(L

s

with i

EO

rig.1

The invention relates to pump construction, impulse pumps and can be used for pumping various liquids.

The purpose of the invention is to increase productivity by providing fluid pumping during the emptying cycle of the suction inlet.

On league. 1 shows a diagram of the pump, the initial position} on Lig. 2 - the same, the emptying phase of the suction inlet; on league. 3 - the same, Laza filling the chamber with liquid.

The pulse pump contains a working chamber 1 with a suction pipe 2 connected to it, placed in the pumped liquid, and a pipeline 3 for supplying compressed gas connected to the upper part of the suction pipe 2. The pump is also equipped with a receiving tank 4, a pipe 5 through which the latter - Schenna with the lower part of the suction inlet 2 and the air valve 6 installed in the upper part of the chamber 1, which is located above the container 4. The axis of the pipeline 3 supplying compressed gas is located tangentially to the axis of the suction p atrubka 2.

The pump works as follows. In the initial position (Fig. 1), the chamber 1 and the container 4 are not filled, the suction inlet 2 and the pipeline 5 are filled with the pumped liquid to its initial level. When gas is supplied to pipeline 3 (Lig.2) pipe 2

it is emptied, and the liquid from the pipeline 5 is poured into the receiving tank 4. In the process of further supplying gas to the pipeline 3, at a certain level, valve 6 (Lig.Z) opens, the pressure in chamber 1 drops sharply to atmospheric, and the fluid through pipe 2 under the action of hydrostatic pressure and inertial forces enters the chamber 1 and the tank 4. From the tank 4, the liquid enters the consumer. The cycle of operation is repeated.

Claims (2)

1. An impulse pump containing a working chamber with a suction pipe connected to it, placed in the pumped liquid, and a compressed pelvis supply pipe connected to the upper part of the suction pipe, characterized in that in order to increase productivity by providing pumping fluid during the suction nozzle emptying cycle, the pump is equipped with a receiving tank, a pipeline through which it is connected to the lower part of the suction nozzle, and an air valve installed in the upper part of the chamber, which is located above the tank. 2. Pump pop. 1, characterized in that the axis of the compressed gas supply line is located tangentially to the axis of the suction nozzle. - FI.2 Fi.Z