SU1105693A1 - Pump - Google Patents

Abstract

A PUMP comprising a housing with an inlet nozzle and an auger mounted thereon, and the nozzle is provided with a ring ledge installed in front of the auger, which is such that, in order to improve anti-cavitation properties and efficiency, the annular step is axially displaceable a piston connected to the ledge and screwed on the screw side, and the piston cavity is hydraulically connected to the pump discharge zone.

Description

The invention relates to pump engineering and can be used in pumps with axial upstream valves. A pump with a screw inlet is known in which the peripheral part of the wheel is placed in a groove in the housing | 1. The disadvantage of the pump is the existence of counterflows along the periphery of the scaffold, which reduces the efficiency and anti-cavitation properties of the pump. The closest in technical essence and the achieved result k proposed is a pump containing a housing with an inlet nozzle and an auger mounted on the shaft in it, and the nozzle is provided with an annular ledge installed in front of the auger 2. A disadvantage of the known pump is that in the design modes and high flow conditions, the annular step reduces the anti-cavitation properties and efficiency. The purpose of the invention is to increase the flow resistance and efficiency of the pump. the housing is provided with a piston connected to the shoulder and spring-loaded on the auger side, and the piston cavity is hydraulically connected to the pump discharge zone. The drawing shows the pump, the general view (the position of the parts corresponds to the mode of low flow rates). The pump includes a housing 1 with an inlet pipe 2 and a screw 4 mounted on the shaft 3, and the pipe 2 is provided with an annular step 5 installed in front of the screw 4. The step 5 is axially displaceable, the case is equipped with a piston 6 connected to the step 5 and a spring-loaded spring 7 on the screw side, the piston cavity 8 is hydraulically connected to the discharge zone 9 of the pump by channel 10. The pump operates as follows. At low flow rates, the spring 7 is compressed by a hydraulic force acting on the piston 6, which in this case occupies the extreme right position. In this position, the step 5 is located near the screw 4, due to which reverse currents are suppressed. When switching to the design mode or the high flow mode, the hydraulic load acting on the piston 6 decreases, while the spring 7 moves the piston to the left, moving it away from the screw 4. In this position, the ledge 5 does not have a significant effect on the conditions for entering the axial stage, which Little different from the entry conditions with the nozzle without the step. Due to this, the efficiency and anti-cavitation properties of the pump are increased. The economic effect is achieved by reducing the cost of energy consumed and the costs associated with pump repair.

Claims (1)

A PUMP containing a housing with an inlet nozzle and a screw mounted on it on the shaft, and the nozzle is equipped with an annular ledge installed in front of the screw, which requires that, in order to increase anti-cavitation properties and efficiency, the annular ledge is made with the possibility of axial movement, the housing is equipped with a piston connected with a ledge and spring-loaded from the augers of the screw, and the piston cavity is hydraulically connected to the pump discharge zone. 1 1105693 2