RU2379553C1 - Peripheral gear-type pump - Google Patents

Abstract

FIELD: engines and pumps.

SUBSTANCE: proposed pump comprises housing made up of two halves 1 and 2, inlet and outlet branch pipes with bulkhead arranged there between, vortex working wheel with vanes arranged inside the housing in vortex chamber 3 and gear in mesh with said vanes. Aforesaid vanes represent bevel gear wheel 5 with double-sided teeth 8. Bevel gears 9 and 10 are fitted on axles on opposite sides of the wheel, in conical recesses arranged in housing upper part, teeth of said gears being in mesh with teeth of aforesaid vortex wheel 5 to inhibit fluid overflow from pressure chamber into suction chamber and feed fluid from section chamber into pressure chamber.

EFFECT: higher efficiency and reliability, longer life.

2 cl, 4 dwg

Description

The invention relates to mechanical engineering, namely to pump engineering, and is intended for pumping liquids.

A vortex-gear pump is known, comprising a housing consisting of two halves, an inlet and an outlet nozzle with a jumper between them, mounted inside the housing in a vortex concentric chamber on a drive shaft, a vortex impeller with impellers, gear engaged with them (see FR 824459 A, 02/09/1938, F04C 3/04).

The disadvantage of the vortex pump is its low efficiency due to the supply of fluid between the blades from the injection cavity to the suction.

The objective of the invention is to increase the efficiency, reliability and durability of the pump.

This is achieved by the fact that in a vortex-gear pump containing a housing consisting of two halves, an inlet and an outlet nozzle with a jumper between them, a vortex impeller with impellers engaged with them in the vortex concentric chamber on the drive shaft is engaged with them gear, according to the invention, the rotor blades of the vortex impeller are made in the form of a bevel gear wheel with two-sided teeth, and in the upper part of the body in conical recesses - wells - on the axes with two Bevel gears are installed on the opposite sides of the wheel, the teeth of which are meshed with the teeth of the bevel vortex wheel, preventing the fluid from flowing in the interscapular space from the injection cavity into the suction one and supplying liquid from the suction cavity to the injection cavity.

In addition, the axis of the bevel gears are installed in the cover, which serves as a jumper between the suction and discharge cavities.

Figure 1 shows a General view of the pump in longitudinal section, figure 2 is a view of the pump in cross section along aa, figure 3 is a section of gears in section bB, figure 4 is a view of the cover-divider arrow C with figure 2.

The vortex-gear pump has a housing consisting of two halves 1 and 2, which form a concentric vortex chamber 3, a vortex bevel wheel 5 is mounted on the drive shaft 4. The shaft is mounted on sliding bearings 6 made of fluoroplastic. In the upper part, the body has conical recesses - wells 7, and a vortex conical wheel - bilateral teeth 8, which serve as swirl blades. In the wells 7, bevel gears 9 and 10 are installed, rotating on the axles 11 and 12 with fluoroplastic bushings 13 and 14 and meshing with the teeth of the bevel wheel. On top of the case is closed by a cover 15 with inlet 16 and outlet 17 openings. The shaft seal is achieved by the ring 18 and the cover 19. The gears meshing is controlled by changing the thickness of the gaskets between the cover 15 and the housing.

Vortex-gear pump operates as follows.

When the working vortex conical wheel rotates, the fluid is absorbed into the concentric vortex chamber 3 and the pressure increases towards the outlet. In the upper part of the jumper in the form of a cover 15 and two installed gears 9 and 10, which are meshed with a bevel wheel 5 with two-sided teeth 8, completely blocks the communication of the injection cavity with the suction cavity. At the same time, bevel gears 9 and 10 directly pump part of the liquid from the suction cavity to the discharge.

Thus, the fluid does not leak from the injection cavity into the suction one and the pump efficiency, its reliability and durability are significantly increased.

Claims (2)

1. Vortex-gear pump, comprising a housing consisting of two halves, an inlet and an outlet nozzle with a jumper between them, mounted inside the housing in a vortex concentric chamber on a drive shaft, a vortex impeller with impellers, the gear being engaged with them, characterized in that that the working blades of the vortex impeller are made in the form of a conical gear wheel with two-sided teeth, and in the upper part of the body in conical recesses - wells on the axes from two opposite sides the wheels are installed bevel gears, the teeth of which are meshed with the teeth of the bevel vortex wheel, preventing the flow of fluid in the interscapular space from the injection cavity into the suction and supplying liquid from the suction cavity to the injection. 2. The pump according to claim 1, characterized in that the axis of the bevel gears are installed in the cover serving as a jumper between the suction and discharge cavities.

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