SU1190082A1 - Piston pump for cryogen liquid - Google Patents

Abstract

1. Piston pump for cryogenic fluid containing a cylinder with a leak collection chamber and a branch pipe connected to it and a piston located in the cylinder cavity with sealing elements, characterized in that, in order to improve performance by reducing leaks, the pump is equipped with a device for dispersing leaks, made in the form of an annular chamber located on the inner surface of the cylinder, having a perforated wall on the side of its cavity and provided with a branch pipe with a regulating valve for Water dispersion medium. 2. Pump according to Claim 1, characterized in that the sealing elements are spaced apart from each other in excess of the sum of the lengths of the annular chamber and the stroke of the piston. with SS cl with SH) to

Description

The invention relates to pump engineering, in particular to the design of piston pumps for pumping cryogenic liquids.

The purpose of the invention is to increase pump performance by reducing leaks.

The drawing shows a pump for cryogenic liquid with a vapor-liquid pulsation damper connected to it.

The pump contains a cylinder 1 with a leak collection chamber 2 and a branch pipe 3 communicated with it and a piston 4 located in the cavity of cylinder 1 with sealing elements 5. The pump is also equipped with a device for dispersing leaks in the form of an annular chamber 6 located on the inner surface of cylinder 1 having a perforated wall 7 on the side of its cavity and provided with a nozzle 8 with a regulating valve 9 for supplying a dispersing medium. In this case, the sealing elements 5 are spaced apart from each other, greater than the sum of the lengths of the annular chamber 6 and the stroke of the piston 4. At the pump outlet, for example, a vapor-liquid damper 10 pulsations with a steam part connected to the control valve 9 can be installed, allowing as a dispersing medium superheated vapor of the pumped liquid.

The pump works as follows.

During the return stroke of the piston 4, the pumped cryogenic

liquids into the cavity of the cylinder 1. In the course of the direct stroke of the piston 4, the cryogenic liquid is displaced from the cavity of the cylinder 1 into the discharge line, on which, for example, a vapor-liquid absorber 10 pulsations can be installed, and then to the consumer. Simultaneously with the process of supplying cryogenic liquid to the consumer, leakage is diverted through the sealing elements 5 from the leakage collection chamber 2. Simultaneously with the implementation of the cycles of suction - injection and diversion of leakage through the elements 5, the leakage stream of cryogenic liquid is dispersed by injecting a dispersing medium through the valve 9, the nozzle 8, the annular chamber 6 and the perforated wall 7. As a dispersing medium when using a vapor-liquid absorber 10 pulsations are used superheated cryogenic vapor from the vapor portion of the quencher 10. Dispersion takes place between the sealing elements 5, which is determined by the relationship of the distance between this elements with the length of the chamber 6 and porschn course, the degree of dispersion is achieved by resistance change of valve 9, i.e. flow rate dispersing medium.

Dispersing the leakage flow of cryogenic liquid through the sealing elements 5 leads to a decrease in the magnitude of the leakage and, consequently, to an increase in pump performance.

Claims (2)

1. PISTON PUMP FOR CRYOGENIC LIQUID, containing a cylinder with a chamber for collecting leaks and communicated 5 piston outlet pipe and a piston located in the cavity of the cylinder with sealing elements, characterized in that, in order to increase productivity by reducing leaks, the pump is equipped with a device for dispersing leaks, made in the form of an annular chamber located on the inner surface of the cylinder having from the side of its cavity, a perforated wall and equipped with a nozzle with a control valve for supplying a dispersing medium. 2. The pump according to claim 1, characterized in that the sealing elements are located from each other at a distance greater than the sum of the lengths of the annular chamber and the stroke of the piston.