SU724792A1 - Radial-piston pump - Google Patents

Description

a collector located on a smaller radius joncentrally to the main one and communicated with the latter by means of two diametrically opposite channels, made 5 coaxial to the inlet.

In FIG. I depicts a radial piston pump, a longitudinal section; in FIG. 2 shows section A — A in FIG. one.

The radial piston pump contains ¹⁰ housing 1, in which a drive shaft <3 with an eccentric 4 and a bearing 5 is mounted on the bearings 2. The main 6 and additional 7 ring intake manifolds, as well as the 15-discharge manifold 8 are made in the housing. has an inlet 9 for communication with the source of the pumped medium and communicates with an additional manifold 7 using two diametrically opposite channels 10 and 11, made coaxially with the inlet 9. The discharge manifold 8 has an output hole 12.

Valve-piston 25 blocks 13 are attached to the housing 1, each of which has a suction 14 and anatomic 15 valves, piston groups consisting of pistons 16 and support shoes 17 and forming working chambers 18 in combination with the block housings. Each valve pump engineering, in particular to radial piston pumps with valve distribution.

A radial piston pump with valve distribution is known, comprising an annular intake manifold located in the housing and having an inlet for communication with a source of pumped medium [1].

In the known pump, a jumper is installed in the intake manifold separating the inlet of the inlet channel from the outlet channel leading to the suction valve in the opposite direction to the rotation direction of the pump drive shaft. In this pump, the path of fluid movement from the inlet to each subsequent suction valve has an increasing length, which increases the hydraulic resistance of the suction path of the pump, which, in turn, negatively affects the efficiency.

The aim of the invention is to increase efficiency by reducing the hydraulic resistance of the suction path of the pump. '·

This goal is achieved by the fact that the pump is equipped with an additional suction 30 '' 3 piston unit 13 is in communication with the main suction 6 and pressure 8 collectors using channels 19 and 20, respectively.

The pump operates as follows.

When the drive shaft 3 rotates, the bearing 5 of the eccentric 4 interacts with the support shoes 17 of the pistons 16 and the last ones. make a reciprocating movement relative to the blocks 13, which leads to a periodic increase and decrease in the volume of the working chambers 18. With an increase in the volume of the working chamber 18, the pumped medium from the collectors 6 and 7 through the channel 19 arrives at the suction valve 14, opens the latter and fills the working chamber 18 - there is a suction stroke. With a decrease in the volume of the working chamber 18, the pumped medium from it through the discharge valve 15 and the channel 20 is displaced into the discharge manifold 8 and then through the outlet 12 enters the consumer.

Further cycles are repeated.

In the pump, the hydraulic resistance of the suction tract is significantly reduced, which is due to the fact that the pumped medium from the opening 9 enters the valve-piston blocks 13, the most distant from the opening 9, along a shorter path, using both suction manifolds 6 and 7 and channels 10 and 11.

In addition, an improvement in the operating conditions of the bearing 2 is expected, due to the fact that its outer ring is cooled by the pumped medium in the manifold 7.

Claims (1)

¹⁰ Formula of the invention · • Valve-distributed radial piston pump containing an annular intake manifold 15 located in the housing and having an inlet for communication with a source of pumped medium, characterized in that, in order to increase efficiency by reducing. the hydraulic resistance of the suction tract of the pump, the latter is equipped with an additional annular., suction manifold located at a smaller radius concentrically to the main one and communicated with the latter using two diametrically opposite channels made coaxially with the inlet.