SU972162A2 - Fire pump - Google Patents

Description

(54) FIRE PUMP

one

The invention relates to mechanical engineering, in particular to fire pumps.

According to the main author. St. No. 694661 is a fire pump that contains centrifugal stages with a low-pressure branch and a suction nozzle and a vortex stage with a high-pressure branch and a low-pressure branch located on the same shaft. Moreover, the high-pressure tap is connected with the low-pressure tap and the suction port of the centrifugal stage, respectively, through a switch and a bypass valve 1.

The disadvantage of this design is the danger of failure due to overheating of the fluid in the vortex stage with temporary supply cuts and pump operation in modes in which the pressure at the outlet from the vortex stage is lower than the overflow valve setting pressure.

The purpose of the invention is to increase the reliability of the pump by eliminating the possibility of liquid overheating in the vortex stage.

The goal is achieved by the fact that the fire pump has a spring-loaded spool installed in a high-pressure branch with interconnected through axial and radial holes, the latter being 5 communicated with the suction nozzle of the centrifugal stage. In addition, the axial hole in the spool is stepped.

FIG. 1 shows a pump, a general view; Q in FIG. 2 is a section A-A in FIG. one; in fig. 3 is a section BB in FIG. 2

The pump contains a centrifugal stage 1

and vortex stage 2 which are attached

to common drive 3 fitted with clutch 4

turning on the vortex stage and flange 5

15 for the driveshaft.

The discharge manifold 6 of the centrifugal stage is connected by pipeline 7 (conventionally shown) with the inlet 8 of the vortex stage 2.

A spool 12 is installed between the discharge port 9 and the valve 10 of the vortex stage 2, which is clamped to the seat 14 by the spring 13.

rests on the seat 14, then through the radial hole 19 and the groove 20 in the spool, the hole 21 in the body, the pipe 22 - with the inlet 23 in the centrifugal stage. A pressure valve 24 is connected to the manifold 6. A groove 25 is provided in the seat 14 to ensure complete drainage of water from the valve cavities.

The pump works as follows.

At normal pressure, the clutch 4 is disconnected, the vortex stage 2 is fixed, the valve 10 is closed, the valve 24 is open. At high pressure, coupling 4 is on, valve 10 is open, valve 24 is closed. With high and normal pressure at the same time coupling 4 is on, valves 10 and 24 are open.

When the vortex stage is turned on, the fluid flows through the channel 15 to the spool 12. If the valve 10 or the spray barrel at the end of the high-pressure hose line is closed, then the spool is pressed to the seat 14 and the liquid through the holes 16 and 19 , the groove 20, the hole 21 and the pipe 22 flows to the entrance of the centrifugal stage. As a result, the fluid is circulated through the vortex stage, which prevents its overheating.

When opening the valve 10 and the spray barrel on the spool 12, a pressure differential is formed, under the action of which it rises, and the liquid begins to move, after which the valve is held in the open position by its velocity head. In doing so, the openings 19 and 21 are separated, with the result that the flow of fluid from the vortex stage 2 to the centrifugal stage 1 stops.

The proposed fire pump design increases the reliability of its operation.

Claims (2)

1. Fire pump on the bus. St. No. 694661, characterized in that, in order to increase the reliability of its operation, it has a spring-loaded spool installed in a high-pressure branch with interconnected through axial and radial holes, the latter being in communication with the suction nozzle of the centrifugal stage. 2. Pump according to Claim 1, characterized in that, in order to reduce the response time of the spool, the axial bore in it is stepped. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 694661, cl. F 04 D 1/10, 1978.