SU1100430A1 - Pump inlet device - Google Patents

Abstract

INPUT PUMP DEVICE, containing a nutrient tank with suction pipe inserted into it, having a siphon nozzle, to the upper part of which is connected an air tube with a valve and drain pipe, characterized in that, in order to extend the operating mode ranges and increase reliability, it is equipped with a piston regulator torus, over the piston and the piston cavity of which are connected respectively with the drain pipe and air tube and which has a compression spring in the subshirt cavity. (L N 00

Description

The invention relates to a pump engineering industry, in particular, to the design of an input device of a hydraulic pump, and can be used in the design of hydrotransport units for a general purpose.

A hydraulic pump inlet device is known, which contains a suction pipe with a siphon nozzle having an opening in the upper part located below the minimum level of the working fluid 1.

However, this device does not allow the hydraulic pump to be restarted without refueling, and waiting for refueling leads to loss of working time.

The closest to the technical entity y is the pump inlet device, which contains a feed tank with suction pipe inserted into it, having a siphon nozzle, to the upper part of which an air tube with a valve and a drain pipe 2 is connected.

The disadvantages of the known device are a narrow range of operating modes and low reliability.

The purpose of the invention is to expand the range of operating modes and increase reliability.

The goal is achieved by the fact that the pump inlet device, containing a nutrient tank with suction pipe inserted into it, having a siphon nozzle, to the upper part of which an air tube with a valve and a drain pipe is connected, is provided with a piston regulator, which overhead piston and subscale cavity a drain pipe and an air tube and which has a compression spring in the subshrunt cavity.

The drawing schematically shows the input device of the pump, a longitudinal section.

The pump inlet device contains a feed tank 1.C with suction pipe 2 inserted into it, having a siphon nozzle 3, to the upper part of which is connected an air tube 4 with a valve 5 and a drain pipe 6, and the device is equipped with a piston regulator 7, a piston and a piston cavity 8 and 9 of which are communicated respectively with the drain pipe 6 and air

tube 4 and which has a spring 10 compression in the piston cavity 9.

The input device of the hydraulic pump works as follows.

When filled nutritional capacity 1

before starting the pump, the shut-off valve 5 is set to the closed position, with the suction pipe 2, the siphon nozzle 3 with the air tube 4

The Q are separated from the regulator 7, by means of which, in the absence of a flow of working fluid in the drain pipe 6, the inlet device communicates with the atmosphere. After starting the pump and removing air from the hydraulic system, steady flow

5, the working fluid in the drain pipe 6 moves and holds the spring-loaded plunger of the regulator 7 in a position in which its inlet channel, connected to the air tube 4, is disconnected from the atmosphere, and the valve 5 is moved to the open position. The hydraulic system is ready for operation in the automatic suction shutdown mode in case of an emergency outburst of any of the drain pipelines b or other depressurization.

5 When any of the drain pipes 6 or other depressurization occurs, the flow of working fluid in the controller 7 decreases sharply, dropping almost to zero, which causes the spring-loaded plunger of the regulator 7 to move to the position at which its air tube 4 communicates with the atmosphere. The siphon flow breaks and the suction of the working fluid from the supply tank 1 is disconnected. Thus, the supply of the working fluid to the pump stops simultaneously with the emergency rush of the drain pipe 6, regardless of its level in the supply tank 1.

After the cause of the accidental leakage of working fluid has been eliminated, the device is prepared for operation in the automatic suction shutdown mode in the same manner as before a break from any of the drain pipes or other depressurization. At the same time, refueling is only carried out in the case when the level of the working fluid at the time of depressurization was equal to or lower than the maximum permissible operating level in the supply tank 1.

Claims (1)

PUMP INPUT DEVICE containing a feed tank with a suction pipe inserted into it having a siphon nozzle, to the top of which an air tube with a valve and a drain pipe is connected, characterized in that, in order to expand the range of operating modes and increase reliability, it is equipped with a piston regulator the over-piston and under-piston cavities of which are respectively connected with the drain pipe and the air tube and which has a spring SU .. „1100430 I