SU1043355A1 - Gear-type pump - Google Patents

Abstract

1. A GEAR PUMP, comprising a housing with a cover, a drive shaft with drive gear, a driven gear, a drive shaft seal with a leak collection cavity, hydraulically connected with a drain channel cavity, characterized in that in order to reduce overall dimensions and increase reliability by reducing the working pressure fluids in the leak collection cavity; a channel connecting the leak collection cavity with the drainage cavity is made of sections hydraulically permanently interconnected, including one or more through holes, is made s in the pinion, and the hole in the pump cover. 2. Pump according to Claim 1, characterized in that the holes in the drive gear are made parallel to the axis of the drive shaft. 3. Pump according to Claim 1, characterized in that the holes in the drive gear are made at an angle to the axis of the drive shaft, the top of which lies on the side of the shaft seal. (L 00 with C71 01

Description

The invention relates to mechanical engineering, namely to gear pumps, mainly machine, used in the lubrication systems of engines, gearboxes, etc.

Known gear pumps containing a housing with a cover, a drive shaft with a drive gear, a driven gear, a drive shaft seal with a leakage collection cavity, hydraulically connected by a channel with a drainage cavity [1].

A disadvantage of the known pumps is that the leakage collection cavity has a relatively large axial length. This is due to the need to place radial openings of the leakage channel in it, which entails an increase in the dimensions and weight of the pump as a whole. In addition, the centrifugal forces arising during the operation of the pump and acting on the fluid discharged from the leak collection cavity prevent its free flow through the radial openings of the leak collection channel, which increases the pressure in the leak collection cavity, thereby reducing the reliability of the drive shaft seal.

The purpose of the invention is to reduce the size and increase the reliability of the pump by reducing the pressure of the working fluid in the leakage collection cavity.

This goal is achieved by the fact that in the gear pump, comprising a housing with a cover, a drive shaft with a drive gear, a driven gear, a drive shaft seal with a leakage collection cavity hydraulically connected by a drainage cavity, the channel connecting the leakage collection cavity to the drainage cavity is made from sections hydraulically permanently interconnected, including one or more through holes made in the pinion gear, and an opening in the pump cover.

In addition, the holes in the drive gear are parallel to the axis of the drive shaft.

In this case, the holes in the drive gear are made at an angle to the axis of the drive shaft, the apex of which lies on the side of the shaft seal.

The drawing shows the proposed pump, a longitudinal section.

The gear pump is made with internal gears and comprises a housing 1 with a cover 2, a drive shaft 3 with a drive gear 4, a driven gear 5, a seal 6 of the drive shaft 3 with a leak collection cavity 7.

The leakage collection cavity 7 is connected to the drainage cavity by a channel made of sections that are hydraulically permanently interconnected and include one or more through holes 8 made in the pinion gear 4 and an opening 9 made in the pump cover 2.

Through holes 8 made in the drive gear 4 can be made parallel or at an angle to the axis Βει 0 of the drive shaft 3, the apex of which lies on the side of the seal 6, while increasing the efficiency of leakage from the cavity 7 due to the action of centrifugal forces on the liquid, arising during the operation of the pump and acting in the direction of its movement. ¹⁵ The hole 9 in the cover 2 of the pump can be made axial, covering the drive shaft 3, as shown in the drawing, or in the form of one or more holes radially offset from the axis ve2Q of the drive shaft 3. In this case, to ensure the constant hydraulic communication of the channel parts (not shown) for leakage from the cavity 7 during rotation of the pinion gear 4 in the last or in the cover 2, it is advisable to make an end circular groove constantly communicating the holes 8 in the pinion gear 4 with the hole 9 in the cover 2. If the cavity 7 for collecting leaks is made in the form of a separate groove in the housing, then at the end of the pinion gear 4 facing the cavity 7, it is also advisable to make a circular groove constantly communicating the holes 8 in the pinion gear 4 with p Lost 7, as shown in FIG.

The gear pump operates as follows 35.

The rotation of the drive shaft 3 is transmitted to the drive gear 4, which drives the driven gear 5. The fluid from the pump is supplied to the high-pressure line. During operation ^{40 of the} pump, the pumped liquid inevitably flows from gears 4 and 5 through the existing gaps to the seal 6. drive shaft 3 and accumulates in the cavity 7 of the collection of leaks. From the cavity Ί, the fluid is removed into the drainage, flowing through the through holes 8 in the pinion gear 4 and the holes 9 in the pump cover 2.

Thus, the invention provides a reduction in the dimensions of the pump and an increase in its reliability by reducing the pressure of the working fluid in the leakage collection cavity.

Claims (3)

1. GEAR PUMP, comprising a housing with a cover, a drive shaft with a drive gear, a driven gear, a drive shaft seal with a leakage collection cavity, hydraulically connected by a channel with a drainage cavity, characterized in that, in order to reduce dimensions and increase reliability by reducing the working pressure liquid in the leakage collection cavity, the channel connecting the leakage collection cavity to the drainage cavity is made of sections that are hydraulically constantly connected to each other, including one or more through holes made in riding gear, and an opening in the pump cover. 2. The pump according to π. 1, characterized in that the holes in the pinion gear are made parallel to the axis of the drive shaft. 3. The pump according to π. 1, characterized in that the holes in the drive gear are made at an angle to the axis of the drive shaft, the apex of which lies on the side of the shaft seal.