SU1270417A1 - Gear-type pump - Google Patents

Abstract

A GEAR PUMP, comprising a housing with an end cap, in cylindrical bores of which external gears are located with trunnions mounted in slide bearings, a mechanism for controlling the flow rate of the working fluid associated with a pressure source and supply and drain channels, with bores made in the body of gears with interdental depressions, and axial bores in the trunnions, characterized in that, in order to simplify the design and increase the reliability of operation, the adjustment mechanism is made in the form elastic tubes placed in the axial bores of the trunnions and axially movable rod of the extrusion installed in the internal floor of each tube, the internal cavities of the tubes are connected by channels with a pressure source. w (lu about 4 g

Description

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

The purpose of the invention is to simplify the design and increase the reliability.

In FIG. 1 shows a gear pump, a longitudinal section; in FIG. 2 — section A — A in FIG. 1.

The gear pump contains a housing 1 with an end cap 2, in cylindrical bores 3 of which are placed external gears 4 with pins 5 mounted in sliding bearings 6, a mechanism for controlling the flow of working fluid associated with a pressure source (not shown) and supply channels 7 and 'outlet 8, and in the body of gears 4 there are made bores 9 connected to the interdental cavities 10, and in the trunnions 5 there are made axial bores 11, and the regulation mechanism is made in the form of elastic ₂ 0 tubes 12 located in the axial bores! 1 trunnion 5 and an axially displacing rod-displacer 13 mounted in the inner cavity 14 of each tube 12, which is connected by a channel 15 to a pressure source. 25

Gear pump operates as follows.

A - A

When the gears 4 rotate, the working fluid is captured by the teeth of the gears 4 and in the interdental cavities 10 is transferred from the suction cavity to the discharge cavity, and then it enters the outlet channel 8. At the same time, the working fluid enters the bores 9 and compresses the elastic tube 12, since the pressure in the inner cavity 14 is always less than the pressure of the working fluid in the outlet channel 8. With further rotation of the gears 4, the working fluid under pressure in the inner cavity 14 of the elastic tube 12 is forced into the suction cavity. The maximum pump performance is provided in the case when the displacing rods 13 are in the extreme left position. In this case, the elastic tube 12 is not deformed. To reduce the pump capacity, the displacer rods 13 are moved to the right, while the minimum pump capacity is provided at their extreme right position, when the volume of the inner cavity 14 has a maximum value. Thus, the regulation of pump performance is ensured by regulating the volume of the working fluid carried in the bore 9 from the injection cavity to the suction cavity.

Claims (1)

A GEAR PUMP containing a housing with an end cap, in cylindrical bores of which external gears are mounted with trunnions mounted in sliding bearings, a mechanism for controlling the flow of working fluid associated with a pressure source and supply and exhaust channels, and bores connected with interdental cavities, and in the trunnions axial bores are made, characterized in that, in order to simplify the design and increase the reliability of operation, the control mechanism is made in the form of elastic tubes placed in the axial bores of the pins and axially movable displacer rod installed in the inner cavity of each tube, and the inner cavity of the tubes are connected by channels to a pressure source. FIG. 1 and, „, 1270417 [270417