SU1645620A1 - Axial-plunger pump test stand - Google Patents

Abstract

The invention makes it possible to simplify the design of the test bench for axial-piston pumps by eliminating the system of automatic control of the tank in the transition from one mode to another. Suction and pressure lines 2.3 of the test pump 4 are connected to tank 1. A loading device is installed in line 3. Receiving and discharge piping 6. 7 of pump 5 are connected to tank 1, heating-cooling system 8 is installed in them. Pipeline 9 with shut-off valve 10 communicates line 2 with pipeline 6. The loading device is made in the form of hydraulic lines 11, 12 different flow sections with a switch 13 installed between them. The flow area of the pipeline 9 corresponds to the difference of the cross sections of the hydraulic lines 11, 12. 1 Il.

Description

The invention relates to mechanical engineering hydraulics and can be used in the design of stands for testing axial piston pumps.

The purpose of the invention is to simplify the design by eliminating the system of automatic temperature control in the tank during the transition from one operating mode to another.

The drawing shows a diagram of a standard for testing axial piston pumps.

The test bench for axial piston pumps contains a tank 1, a suction and pressure lines 2, 3 of the pump under test 4 connected to it, a load device installed in the pressure line 3, an additional pump 5 with intake and discharge pipelines 6 and 7 connected to the tank 1 , and the system of heating-cooling of the working fluid installed in them, 8, and it is equipped with an additional pipe 9 with a shut-off valve 10, which communicates the suction line 2 with the receiving pipe 6, and the load device is made in in the form of two hydraulic lines 11, 12 of various flow sections with a switch 13 installed between them.

The tank 1 is equipped with a compensation tank 14 to reduce dissolved gas in the working fluid. In two hydraulic lines 11, 12 of the load device, flow meters 15 are installed. And at the inlet to the pump 4 under test, a temperature meter 16. In the receiving pipe 6, a valve 17 is installed.

The stand works as follows.

The additional pump 5 is turned on with the open valve 17 and the closed valve 10. Using the heating-cooling system 8, the required temperature of the working fluid is set. After that, the test pump 4 is turned on and the switch 13 directs the working fluid, for example, to the hydraulic line 11, while the flow rate of the flow meter 15 and the temperature of the working fluid by temperature meter 16 are controlled.

The test pump 4 is in a thermostated state, i.e. the influx of thermal energy from the working fluid is equivalent to heat loss to the environment due to the perfect insulation.

Switching the test pump 4 to a different operating mode (hydraulic line 12) is carried out by valve 13, which leads to a sharp decrease in the flow rate of the working fluid, the heat influx decreases, and the thermal insulation remains the same. As a result, the thermal equilibrium of the system is disturbed. To avoid this, so that the temperature at the inlet to pump 4 does not drop and the thermal regime of the system of the tested pump 4 is maintained, the flow rate of the working fluid at the inlet is maintained, for this, valve 10 opens simultaneously with the switch 13 being switched. In this case, the passage section of the additional pipeline 9 corresponds to the difference of the passage sections of two hydraulic lines 11 and 12 of the load device.

At steady state temperature, the flow meter is measured by the flow meter 15 on the hydraulic line 12.

Claims (1)

Claim A stand for testing axial piston pumps, containing a tank, a suction and pressure lines of the pump under test connected to it, a load device installed in the pressure lines, an additional pump with receiving and discharge pipelines connected to the tank, and a working heating-cooling system installed in them liquid, characterized in that, in order to simplify the design by eliminating the system of automatic temperature control in the tank during the transition from one operating mode to another, it is equipped with ene additional pipe with a check valve to reporting the suction pipe with a receiving conduit, and a load device is in the form of two hydraulic lines of different flow areas with the switch set therebetween.