SU1441133A1 - Pump forcing line - Google Patents

Abstract

The invention makes it possible to increase the reliability of the pump during start and stop with a simultaneous decrease in flow resistance. The delivery pipe 2 is directed downwards. A horizontal pressure pipe 3 with a check valve 4 is connected to the nozzle 2. The nozzle 2 in the zone of the connection to it of the pipeline 3 is equipped with a coaxial outlet 7. Recirculation link 5 is connected to the outlet 7. The inlet 6 of line 5 is located along the longitudinal axis 8 of the nozzle 2 and outlet 7. A non-return valve 4 is located in the chamber 9. A shut-off element is installed on line 5 10. Liquid pulsation is quenched in the outlet 7. Such an implementation reduces the hydraulic resistance and wear when the flow is turned. 1 il. i y (L

Description

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The invention relates to hydraulic engineering and can be used in the construction of pumping installations.

The purpose of the invention is to increase reliability when starting and stopping while simultaneously decreasing the hydraulic resistance.

The drawing shows a diagram of a pump unit with the proposed pump discharge line

The discharge line of pump 1 contains a discharge nozzle 2, directed downward from pump 1, connected to a horizontal pressure line 3 with connection pipe nozzle 2. valve 4 and recycle line 5 c. entrance area 6

The discharge nozzle 2 in the zone of connection of the pressure pipe 3 to it is provided with a branch 7 coaxial to the specified branch pipe, the recirculation line 5 is connected to the latter, and the inlet section 6 of this line is located along the prodbal axis 8 of the discharge pipe 2 and 7

The backflow valve 4 is located in the chamber 9o. On the recycling line 5, a shut-off element 10 is installed. In the drawing -. the same dotted line shows the closed position of the valve and 4 "

The pump discharge line operates as follows

When the pump 1 is started up, the fluid through the vertical injection nozzle 2 enters via a recirculation line 5 to a deaerator (not shown). The locking body 10 is open, while the check valve 4 is closed.

Fluid withdrawal to recirculation line 5 is carried out along the flow without turbulence, in addition, reliability is increased due to the absence of pipe bends and additional welds. At the same time, local flow resistance at the sampling point during pump 1 operation on the main direction is excluded.

When the pump I is turned on to the boiler (not shown), the shut-off member 10 closes, the valve 4 opens and the fluid flows from the discharge nozzle 2 to the horizontal pressure pipe 3, and the pulsations of the liquid are partially extinguished in the outlet 7. This design also reduces hydraulic resistance and wear when turning flow from nozzle 2 to pipeline 3 "

When the pump 1 is stopped, the fluid flows through the pipeline 3 and the discharge pipe 2 in the opposite direction, which causes the check valve 4 to close. In this case, a relatively small mass of liquid located in the chamber 9, the branch pipe and the outlet 7 is cut off, which allows reducing the force of the water hammer in the pump.

Claims (1)

Invention Formula The pump discharge line, containing a discharge nozzle directed downward from the pump, is connected to the nozzle by a horizontal pressure pipe with a check valve and a recirculation line with an inlet section, characterized in that, in order to increase reliability during start-up and stopping while reducing hydraulic resistance, the discharge nozzle in the zone of connection of the pressure pipe to it is provided with a coaxial outlet nozzle, the recirculation line is connected to the latter, and the input section of this line is dix along the longitudinal axis of the discharge pipe and discharge.