SU953269A1 - Gear pump - Google Patents

Description

(54) GEAR PUMP

The invention relates to a pump engineering industry, and more specifically to pumps of the neck,:, of the type.

A gear pump is known, containing a caged housing with a lid, inlet and outlet channels, gears that are in the I gearing with each other and located inside the housing, and the drive mechanism 1.

A disadvantage of the known pump is the presence of sealing elements and bearing assemblies, which reduces the efficiency of the pump.

The aim of the invention is to increase the efficiency of the pump.

This goal is achieved by the fact that the drive mechanism is made in the form of piezoelectric converters with axial polarization, equipped with electrodes and installed in the axial hole of each gear, the lid and housing are equipped with electrodes, located coaxially with the piezoelectric converters and connected to the generator of high-frequency electric oscillations, and the casing is provided with permanent magnets, facing opposite poles to the radial surfaces of the gears and located in the plane passing through cutting centers of gears, with one of the side sections of the working surface of each tooth is provided with a notch.

With this design, the gear pump does not have shafts with rolling or sliding bearings and sealing elements, which significantly reduces mechanical friction losses and improves the efficiency of reducing the size.

Figure 1 shows a gear pump, a cross-section; 2, the same longitudinal section; in FIG. 3, node G in FIG. 1.

15

The gear pump comprises a housing 1 with a cover 2, an inlet 3 and an outlet channels of the gear 5, which engage one another, located inside the housing 1, with teeth

20 6, on one of the side working surface 7 of which a notch 8 is made, piezoelectric transducers 9 with axial polarization, equipped with electrodes 10 and mounted

25 in the axial bore 11 of each gear 5, the electrodes 12 placed in the housing 1 and the cover 2 coaxially with the piezoelectric transducers 9 and connected to a generator of high 5 electrical oscillations

13, the permanent magnets 14 in the housing 1, facing the same name 1 and the poles 15 and 16 to the radial surfaces of the 17 gears 5.

Electrical pulses from the generator of high-frequency electrical oscillations through the electrodes 12 in the housing 1 and the cover 2, the electrodes 10 are connected to the piezoelectric transducers 9 with axial polarization placed in the axial holes of the 11 gears 5, causing the latter to oscillate in the plane perpendicular to them was m

Due to the asymmetry of the teeth b, caused by the presence of the notches 8, each of them makes the associated normal 8 "and tangential S-f oscillations when interacting with the body.

This causes oblique collisions of the gears 5 of the housing 1, which create a torque that drives the gears 5 into rotation.

The permanent magnets 14 clamp the gears 5 to the housing 1 and balance the normal vibrations during the rotation of the gears.

Due to this design of the device, harmful frictional energy losses are significantly reduced, which increases efficiency while reducing the size of the pump.

Claims (1)

Invention Formula A gear pump comprising a housing with a flap, intake and exhaust ports, gears that engage with one another and located inside the housing, and a driving mechanism, characterized in that, in order to increase efficiency, the drive mechanism is in the form of piezoelectric transducers with axial polarization, equipped with eJectrodes and installed in the axial bore of each gear, the lid and housing are equipped with electrodes located coaxially with the piezoelectric transducers and connected to the high-frequency generator electrical oscillations, and the casing is provided with permanent magnets, facing opposite poles to the radial surfaces of the gears and located in a plane passing through the centers of the gears, and one of the side sections of the working surface of each tooth is provided with notch. Sources of information taken into account in the examination 1. US patent number 2557879, cl.417-353 published, 1951. FIG.