SU761742A1 - Hydraulically-driven positive-displacement pump - Google Patents

Description

The invention relates to a pump engineering, hydraulic actuated volumetric pumps and can be used in various sectors of the national economy for pumping various liquids.

Known hydraulic volumetric pump containing at least one displacer placed in the working chamber and connected with one end of the flexible thrust, the other end of which is wound on a pulley mounted on a shaft kinematically connected with a distribution device connected to the drive cavity [1] .

The disadvantage of the known pump is that in one direction the rotation of the pulley is provided by the displacer through the flexible rod, and in the other by the spring element. This constructively complicates the pump, and, in addition, the deformation of the spring element consumes part of the power supplied to the pump during the displacement process of the displacer, which reduces the efficiency of the pump.

The aim of the invention is to simplify the design and increase efficiency.

For this purpose, the pump is additionally equipped with at least one more working chamber with a displacer and a flexible rod connected at one end with this displacer,

2

and the other — a pulley wound on an additional shaft mounted on the shaft in the direction opposite to the winding direction of the first thrust.

⁵ In FIG. 1 shows a pump diagram; in fig. 2 - view of the pump along the shaft axis.

In working chambers 1 and 2 of each pair of pumping units displacers 3 and 4 are placed, each of which is connected to one of ¹⁰ of the ends of the flexible thrust 5 or 6. The second end of each of the flexible strings 5 and 6 is wound on one of the pulleys 7 or 8, mounted on a shaft 9, kinematically using gear 10 and a rail 11 connected to a distributor ^{15 with a} separating device 12. The latter is connected to each hydraulic drive cavity 13 and 14 formed in adjacent chambers 1 and 2 by displacers 3 and 4. On the other side of the displacers 3 and 4 ²⁰ wives located pumping cavities 15 and 16, equipped with suction 17 and 18 pressure valves. Switchgear 12 is also communicated to sources 19 (feed pump) and drain 20 of the actuator 25. Flexible rods 5 and 6 are wound on pulleys 7 and 8 in opposite directions.

Driving medium comes from source 19 through the right according to the drawing distribution device 12 to one of the driving

761742

cavities 13 or 14, for example, into the cavity 14 of the chamber 1 left according to the drawing. The displacer 4 of this chamber moves downward, displacing the pumped liquid from the pumping cavity 16 through the discharge valve 18 to the consumer. The flexible rod 6 drives the first pulley 8 together with the shaft 9 and the pulley 7, unwinding from the pulley 8, and the flexible rod 5, conversely, winding onto the left pulley 7, pulling the displacer <3 which is the first in the drawing. Driving medium from the left drive cavity 13 is displaced through the right distribution device 42 to the drain 20. At this time, the left distribution device 12 blocks with its belts the passages into the drive cavities 13 and 14 of the cameras 1 and 2 right in the drawing and their displacers 3 and 4 are in the extreme positions and fixed. At the end of the working stroke of the left displacers 1 and 2, the left switchgear 42 communicates the drive cavity 13 right according to the drawing of camera 1 with a source of driving medium 19, and the cavity 14 of the right chamber 2 - with a drain 20. The right displacers 3 and 4 move in opposite directions, and the left - fixed, since the belts of the right switchgear 12 block the passage of the driving medium in the drive cavity 13 and 14 of the left chambers 1 and 2.

At the end of the stroke of the displacers 3 and 4 of the right chambers 1 and 2, the right switchgear connects to the source 19 the left drive cavity 13 and the left displacers 3 and 4 start to move. The cycle is repeated in the opposite direction.

When using instead of the rack and pinion gear 10 and 11 of the intermittent motion mechanism, pump operation can also occur with one pair of chambers 1 and 2 and one switchgear 12.

Due to the fact that the reversing of the shaft 9 is carried out by the displacers, 3 and 4 without the use of spring return devices, simplifies the design and increases the efficiency of the pump.

Claims (1)

Claim Hydraulic actuated volumetric pump containing at least one displacer placed in the working chamber and connected to one end of the flexible rod, the other end of which is wound on a pulley mounted on a shaft kinematically connected to a distribution device connected to the drive cavity, characterized in that, in order to simplify the design and increase the efficiency, the pump is additionally equipped with at least one more working chamber with a displacer and a flexible bridging, connected at one end to this displacer, and wound at another end relatively mounted on the shaft pulley in directions opposite to the direction of winding the first thrust.