SU1728529A1 - Gear pump - Google Patents

Abstract

The invention relates to mechanical engineering, in particular to gear pumps, and can be used in pumping units when transferring materials containing various fillers, including abrasive ones, as well as in installations for applying bitumen mastics in the production of roofing work in construction. The purpose of the invention is to increase the efficiency by unloading the clamped volume and reducing the pressure before compaction. The gear pump comprises a housing 1 in which cylindrical bores are mounted on shafts 5 and 6 with the formation of a suction and injection cavity for gear 4. On the end surfaces of gears 4, radial projections are made symmetrically to the profile of each tooth, the width of which does not exceed the thickness of the tooth at the apex, This protrusions are integral with the body of the tooth in the area between the outer diameter of the gears 4 and the diameter of the shaft 5, and the height of the protrusion is 2-4 mm. 2 Il.

Description

The invention relates to mechanical engineering, in particular to gear pumps.

The purpose of the invention is to increase the efficiency by unloading the clamped volume and reducing the pressure before compaction.

FIG. 1 shows a gear pump, a longitudinal section; in fig. 2 - radial protrusion on the end surface of the gears.

The gear pump comprises a housing 1 in which cylinders 2 are housed in cylindrical bores. Synchronization gears 3 Serve for transmitting torque to external gears 4, which have a guaranteed side clearance along the tooth profile and are designed to transfer working material from the suction zone to the discharge zone . Synchronization gears 3 and work gears 4 are installed on the drive 5 and driven 6 shafts, which in turn are mounted on bearings 7. Sealing assemblies 8 are designed to seal the bearings 7. On the end surfaces of the working gears 4 are symmetrical about the profile of each tooth The radial protrusions 9 are integral with the tooth body in the zone between the outer diameter of the gears and the shaft diameter. The width of the protrusions 8 is equal to the thickness of the tooth at the apex, and the height is 2-4 mm. The radial protrusions 9 form between the discharge (bypass) cavity 10.

Gear pump works as follows.

When the drive shaft 5 is rotated, the torque through the synchronizing gears 3 is transmitted by the working gear of the external gearing 4. The latter, when the teeth come out of the gearing, transfer working material from the intake zone to the pressure zone, where, when the teeth enter the gearing, they are his. At the time of simultaneous engagement of two pairs of teeth of the working gears 4 in the

At the same time, the working material is locked with its tooth (compression).

Compressing the material in the pits of the gear teeth is removed by removing the locked material using the relief cavities 10 formed by the radial protrusions 9 on the ends of the working gears 4. These protrusions, by engaging the working material in rotation, cast it with centrifugal force to the internal bore of the body 1. gear 4 creates a vacuum that reduces the pressure in front of the pump seals 8. Unloading cavities 10 formed by adjacent radial protrusions 9 are a flow conduit constantly flushed with centrifugal force arising from the rotation of the protrusions, which eliminates the possibility of their clogging and increases the durability of the pump.

As for the height of the protrusions 9 equal to 2-4 mm, performing it less than 2 mm is not sufficient to draw the working material into the rotation required for dilution in the compaction zone. Making the heights of protrusions greater than 4 mm is unjustified, since the dimensions and material intensity of the pump are significantly increased.

Claims (1)

Invention Formula A gear pump, comprising a housing, in cylindrical bores of which are mounted on shafts with the formation of an intake cavity and pumping external gears, with radial projections symmetrically to the profile of each tooth on the end surfaces of the gears, about t characterized in that, in order to increase efficiency by unloading the clamped volume and reducing the pressure before compaction, the protrusions are made integral with the tooth body in the zone between the outer diameter m gears and shaft diameter, with the height of the protrusion is 2-4 mm, FIG. 2