SU1642111A1 - Test stand for positive-displacement hydraulic pumps - Google Patents

Abstract

The invention makes it possible to simplify the design of the stand and reduce the costs for testing volumetric hydraulic pumps. Both hydrolines (CH) 3, 4 of the tested hydraulic pump 2 with drive 1 are connected to a three-position distributor 5 with hydraulic control from CH 3, 4. The make-up pump 6 is connected to CH 3, 4 via check valves 7, 8. The loading device 9 is set to load line 10 and is made in the form of adjustable throttle. The distributor 5 is made of spool, in the case of which a differential stepped spool 15 is installed with the formation of two working chambers in the annular bores of the case. The chambers are limited on the one hand by a common, larger diameter, on the other, a smaller diameter. Ch 3, 4 are connected to different cameras. The entrance window to the trunk 10 is located opposite a larger diameter, the windows of two parallel exits of the main 10 opposite the smaller diameter pipes. Chambers bounded by smaller diameters are hydraulically interconnected by channel 22, which provides a clearer response of the distribution device. 1 hp f-ly, 1 ill. (L with

Description

The invention relates to hydraulic machine building, in particular to devices for testing reversible hydraulic pumps and hydraulic motors, and can be used in test equipment of hydraulic machines.

The purpose of the invention is to simplify the design of the stand and reduce costs.

The drawing shows the scheme of the stand.

The test stand for volumetric hydraulic pumps contains a drive 1 of the tested hydraulic pump 2, both hydrolines 3 and 4 of which are connected to a three-way valve 5 with hydraulic control from the same hydraulic lines, feed pump 6, communicated with them through check valves 7 and 8,

load device 9 installed in the load line 10, and safety valves 11-13. The stand is also equipped with a flow meter 14, the load device 9 is made in the form of an adjustable throttle, and the valve 5 is made spool. In the distributor case 5, a differential stepped spool 15 is installed with two working chambers in the annular bores of the case, bounded on one side by a common larger diameter, and on the other side of a smaller diameter, and both hydraulic lines 3 and 4 of the tested hydraulic pump 2 are connected to different workers distributor cameras 5. Entry window

about

4 S

The load line 10 is located opposite along a skull of a larger diameter, and the windows of two parallel exits of the load line 10 are located opposite the length of a smaller diameter. In addition, the stand contains pressure gauges 16-18, tank 19. Step spool 15 is held in neutral position by springs 20 and 21, and chambers formed in annular bores of the body and bounded by smaller diameters are connected by line 22.

The stand works as follows.

After being installed on the test bench 2, the pump 6 is turned on, which feeds the test pump 2 and the entire stand system with working fluid through check valves 7 and 8 and pressure lines 3 and 4. After that, the drive 1 of the tested hydraulic pump 2 is turned on. When the working fluid is supplied to the line 3, the pressure is transferred to the working chamber A. Since the pressure on the larger diameter juice is greater, the spool 15 will move downward, compressing the spring 21. This will open the inlet window load line 10 and at the same time exit window of return line 23. Thus, the working fluid will pass through a closed circuit: hydraulic pump 2 - pressure line 3 - working chamber A - load line 10 - adjustable throttle - flow meter 14, lines 10 and 23 - working chamber B - line 4 - hydraulic pump 2.

When the working fluid is supplied to the line 4, the pressure is transferred to the working chamber B. In this case, the spool 15 moves upwards and compresses the spring 20. In this position, the line 4 is connected to the line

24, and motorway - with a return line

25. The working fluid will move in a closed circuit: hydraulic pump 2 - pressure line 4 - working chamber B - load line 24 - controlled throttle - flow meter 14 - highway 10 and 25 - working chamber A - line 3 - hydraulic pump 2.

The pressure required for the test is set by an adjustable throttle and monitored by a pressure gauge 17. The stand is protected against overloads by a high-pressure safety valve 13. The pressure in the return line is limited by the safety valve 12 and monitored by the pressure gauge 16. The safety valve 11 and the pressure gauge

18 serve respectively to limit and control the make-up pressure. The chambers formed in the axial bores of the body and bounded by the end surfaces of smaller diameter diameters are connected

between the highway 22, which provides a clearer operation of the switchgear.

The test bench for hydraulic machines allows complete testing of reversible hydraulic pumps and hydraulic motors.

Claims (2)

1. A test stand for testing volumetric hydraulic pumps, containing a drive of the tested hydraulic pump, both of which are connected to a three-way distributor with hydraulic control from the same hydraulic lines, feed pump, communicated with them through check valves, load device installed in the load line, and safety valves, characterized in that, in order to simplify the design and reduce costs, it is equipped with a flow meter, the load device is designed as an adjustable throttle, and the distributor It is filled with a spool valve, in the case of which a differential stepped spool is installed with formation in annular bores of the casing of two working chambers, bounded on the one hand by a common, larger diameter, and on the other, by a smaller diameter, both of the hydraulic lines of the tested hydraulic pump are connected to different working chambers of the distributor, the entrance window to the load line is located opposite along a larger diameter, and the windows of two parallel exits of the load line are located opposite the lengths of the smaller diameter. 2. A stand according to claim 1, characterized in that the chambers formed in the axial bores of the housing and limited by the end surfaces of the shorter diameter are hydraulically interconnected by means of a channel.