SU1379496A2 - Positive-displacement pump - Google Patents

Abstract

The invention allows to stabilize the flow, improve the reliability and volumetric efficiency of the pump when pumping aerated fluids. In the working cylinder 2 from the side of the discharge path 8 is installed plate (P) 15 with a gap on the rod 4 and the housing 1. U is made of non-wetted material and installed with axial and radial gaps in the annular groove 17 of the housing. With such an arrangement, a reduced pressure zone is formed in the place of interface P with the rod, as well as beyond P in the cavity between the surfaces of the end wall 16 of the working cylinder and P, which causes a directed flow of the working fluid from the periphery to the center and further to the discharge path of the pump. airguns with you. I zp f-ly, 2 ill.

Description

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FIG. one

The invention relates to a hydraulic engineering industry, in particular to a device for volumetric pumps, and is an improvement of a volumetric pump according to the author. St. № 868П4.

The purpose of the invention is to stabilize the supply, increase the reliability and volumetric efficiency of the pump when pumping aerated liquids.

FIG. 1 shows a constructive diagram of the pump; in fig. 2 shows the location of the plate in the working cylinder.

The displacement pump contains a working cylinder 2 located in the housing 1. In the working cylinder 2 there is a piston 3 connected to the rod A. The piston 3 is provided with an annular groove 5 with a sealing element 6 freely located in it. The pressure valve-piston element 7 is in the form O-ring is installed in annular groove 9 of body 1 communicated with pressure line 8 with tension on stem 4 surface. Seal pressure line 8 is made by sealing element J0, and sub-cavity 1I and intake line 1 2 - seal The element 13. The ring groove 5 of the piston 3 is provided with exhaust channels 14. In the working cylinder 2 on the side of the pressure path 8, a plate 15 is installed with a clearance on the stem 4 and the housing I, the plate 15 being remotely fixed at the end wall 16 of the working cylinder 2. Plate 15 made of non-wetted material, such as fluoro, and installed with axial and radial gaps in the annular groove 17 of the housing 1.

The pump works as follows.

The pump is shown in the position (Fig. 1) corresponding to the end of the intake stroke. During the suction, the pressure valve-piston element 7 is pressed by its friction force in conjunction with the stem 4 and the pressure drop across it and the sidewall of the annular groove 9 located on the side of the working cylinder 2, thus separating the pressure path 8 from the working cylinder 2, and sealing element 6 is preloaded by friction against the surface of the bore of the housing 1 to the sidewall of the annular groove 5 equipped with outlet channels 14. The working fluid

through the outlet channels 14, the radial and axial clearances between the surfaces of the sealing element 6 and the annular groove 5 and the bore of the housing 1 enter from the piston cavity 11 partially into the working cylinder 2 and are partially displaced into the suction path 12 of the pump for flushing the inlet filter (not shown) .

During the subsequent return stroke of the piston, the axial gap between the piston 3 located in the annular groove 5 of the sealing element 6 and the side wall of the annular groove 5 first takes place, and since it contacts the side of the annular groove 5 located on the side of the piston cavity 11 - The barrel 2 is pressurized, under the influence of which the working fluid is displaced into the pressure path 8 of the pump through radial gaps between the mating surfaces of the rod 4, the plate 15 and the bores of the body Sa I, as well as the axial clearance between the surfaces of the side wall of the working cylinder 2 of the annular groove 9 and the pressure-mounted valve-piston element 7 located on the side of the working cylinder 2, formed by movement of the rod 4.

At the same time, at the interface of the plate 15 with the stem 4, as well as behind the plate in the cavity between the surfaces of the end wall 16 of the working cylinder 2 and the plate 15, a zone of reduced pressure caused by speed and vortex effects, which causes a directional flow of working fluid in the specified cavities from the periphery to the center and further to the pressure path of the pump, at the same time the entrainment of air inclusions in the pressure path that accumulated on the periphery of the working cylinder.

Further cycles are repeated.

invention formula 1. Volumetric pump according to aut. ev

No. 868114, characterized in that, in order to stabilize the supply, increase the reliability and volumetric efficiency when pumping aerated liquids,

in the working cylinder on the side of the discharge path, there is a plate with a gap in the stem and housing, remotely fixed at the end wall of the working cylinder.

31379D96

2. A pump according to claim 1, characterized in that the plate is made of a non-wettable material, such as a fluoroplastic, and is installed with an axial and radial clearance in the annular groove of the housing.

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Claims (2)

Claim 1. Volumetric pump according to ed. St. No. 868114, characterized in that, in order to stabilize the flow, increase reliability and volumetric efficiency when pumping aerated liquids, a plate with a clearance on the rod and the housing, remotely fixed at the end wall of the working cylinder, is installed in the working cylinder from the pressure path side. 2. The pump according to π. 1, I distinguish an example of a fluoroplastic, and it was installed with the fact that the plate is made with axial and radial clearances in a shaft of non-wettable material, in the innermost groove of the housing. FIG. 2