SU1629592A1 - Radial piston pump - Google Patents

Abstract

The invention relates to pumping equipment, in particular, to radial-piston eccentric adjustable pumps. The aim of the invention is to enhance the functionality by providing adjustment of the volumetric flow of the pump by the misalignment of distribution phases with the phases of motion of the pistons. The volumetric flow of the pump is controlled by moving the support knob 8 1 Sch 11 3 d 16 .UU / i- / 7 Г 15 governing 3 in the form of a rectangular plate, carried out by the lever 18 of the reciprocating mechanism, including also the screw gear 19 in the cover 2 and a disk 20 located in the cavity 15 of the housing 1 mounted on a bearing 21 and associated with all the support guides 3. This causes a misalignment of the distribution phases with the phases of movement of the pistons 8 in the working chambers 12, in which part (intermediate value of hydrochloric feed) or over a (zero volumetric feed rate) the pumping stroke of all pumpability medium from the working chamber 12 through the operation window 11 in sub-clause pendulum 9 and an inlet port in the support guide 3 is returned to cavity 15 of housing 1. 1 h. n. f-ly, 5 ill. 23 20 Fig1

Description

The invention relates to pumping equipment, in particular, to radial-piston eccentric adjustable pumps.

 The purpose of the invention is to expand the functionality by providing adjustment of the volumetric flow of the pump by the misalignment of distribution phases with the phases of motion of the pistons.

FIG. 1 shows a radial piston pump, longitudinal section; in fig. 2 - the same, cross section; in fig. 3 is a diagram of the distribution of the working fluid at the maximum volumetric flow of the pump; in fig. A - the same, with the regulation; in fig. 5 - the same, at zero giving of the pump.

The radial piston pump comprises a housing 1 with a lid 2 and flat support rails 3 in the form of rectangular plates mounted in the housing 1 with the ability to move along the axis of the drive shaft 4 with eccentrics 5 and bearings 6 to install a cylinder block 7 with pistons 8 and by the cam followers 9, which are interoperable with the flat support guides 3 of the housing 1 during the scanning movement of the cylinder block 7. FIG. 1 shows a pump in a four-sided version, in which the two extreme eccentrics 5 are rotated relative to the pair by 180 ° C averages, which makes it possible to relieve the support bearings 10 of the drive shaft 4.

The pump has a distribution device, made in the interaction zone of the subframe 9 - supporting guide 3 and including a working window 11 on the supporting surface of the subframe 9, channels in the supporting plate 9 and a piston 8 communicated with the working chamber 12, the inlet 13 in the flat guide 3 in the form of a hollow groove located at an angle to the axis of movement of the plate 3 and the outlet window 14 in the form of a through hole in the flat guide 3, the windows 13 and 14 are made in the area of the trajectory of the bolster 9 and communicated respectively with the suction cavity 15, formed in the housing 1, and through the discharge valve 16 - with the discharge manifold 17.

The movement of the support guides 3 in the slots of the housing 1 is performed by a reciprocating mechanism in the form of a lever 18 located outside the housing 1 by means of a screw gear 19 in the cover 2 and a disk 20 located in the cavity 15 of the housing 1 mounted on a bearing 21 and connected with all support guides 3 for synchronous movement. The pumped medium is introduced into the cavity 15 of the housing through the opening 22 of the cover 2 and is discharged from the discharge manifold 17 through the opening 23 in the housing 1.

5 The pump operates as follows.

When the drive shaft 4 is rotated, the cylinder block 7 is driven into a scanning motion, as a result of which the pistons 8 with the sub-guns 9 when interacting with

10, the support guide 3 reciprocates relative to the cylinders of the block and the support guide 3 in a plane perpendicular to the longitudinal axis of the drive shaft 4,

15, the volume of the working chambers 12 periodically increases — the intake stroke, and decreases — the discharge stroke. When performing the suction stroke, the pumped medium from the cavity 15 of the housing, through the inlet

20, the window 13 of the support guide 3 and the working window 11 of the subunit 9 enters the working chamber 12. When performing the pumping cycle, the pumped medium from the working chamber 12 through the working window 11 of the subtitle and

25 then through the outlet port 14 of the support rail 3 and the discharge valve 16 is displaced into the discharge manifold 17, from where it passes through the opening 23 to the consumer, which corresponds to the distribution scheme shown in FIG. Behind.

If it is necessary to reduce the volumetric feed, rotate the lever 18, which leads to simultaneous movement along the axis of the drive shaft 4 of the support section 3, misalignment of the distribution phases with the phases of movement of the pistons 8 in the working chambers 12, and decrease the volumetric flow, because pumped medium through

40, the inlet port 13 returns to the cavity 15 of the housing 1, which corresponds to the distribution scheme shown in FIG. 36

With a maximum displacement of the support guides 3 the pumped medium is

45 during the entire pumping stroke through the inlet port 13 returns to the housing cavity 15 and the pump volumetric flow in this case is zero, which corresponds to the distribution scheme shown in FIG. Sound

Claims (2)

1. Radial-piston pump, comprising a housing with a lid and flat bearing guides, an eccentric drive shaft with bearings for mounting a cylinder block with pistons and subframes installed with the possibility of interaction with flat bearing guides of the cylinder block during scanning movement of the cylinder block, and switchgear, made in the interaction zone of the supporter - supporting guide and including the working window on the pressure surface of the supporter, communicating with the working channel in the supporting reservoir and piston whose chamber, inlet and outlet openings in a flat guide, made in the area of the trajectory of the subframe and communicated respectively with the suction cavity and through the discharge valve with a discharge manifold, characterized in that, in order to enhance the functionality by providing the volume flow control of the pump by the mismatch phases of distribution with phases of movement of the pistons, each flat bearing direction five The conductor is made in the form of a rectangular plate mounted in the housing with the possibility of movement along the axis of the drive shaft by means of a reciprocating mechanism, wherein the inlet window is made in the form of a hollow groove at an angle to the axis of movement of the plate, 2. A pump according to claim 1, characterized in that the reciprocating mechanism of the support guide is made in the form of a lever located outside the housing by means of a helical gear in the cover and a disk in the cavity of the housing connected to all the plates for their synchronous movement. 72 2. d 11 74 Q W 77 7Ґ 9 FigM a, 90 ° J FIG. five