RU2647553C2 - Hydroelectromechanical unit test bench - Google Patents

Abstract

FIELD: test equipment.

SUBSTANCE: invention relates to test benches and can be used for design and manufacture of test benches for testing hydroelectromechanical units of aircraft. Stand comprises a pump station, a hydroelectromechanical unit with a hydraulic distributor and control unit, traction, pressure gauges, safety valves, a loading device. Loading device is made in the form of a hydraulic system with a hydraulic cylinder, a proportional reduction valve, a check valve, a hydraulic accumulator and an automatic control system, which enables generation of the required linear load for a given program on the hydroelectromechanical unit under test by regulating the flow rate of the liquid through the proportional reduction valve.

EFFECT: technical result is generating the required linear load when testing hydroelectromechanical units of aircraft, high loading accuracy.

1 cl, 1 dwg

Description

The invention relates to the field of testing equipment and can be used to create stands for testing hydroelectromechanical units of aircraft.

Known stands for testing units.

A test bench for hydraulic units containing a source of working fluid pressure connected to the test unit, distribution equipment, an automatic working fluid pressure relief unit made in the form of a spring-loaded spool and distribution spool (copyright certificate No. 821775, F15B 19/00, 1981).

The disadvantage of this stand is that it has a limited list of the processes under study and is intended only to ensure operational safety by depressurizing the working fluid when changing the test object.

A bench for hydraulic testing of products containing a supply tank, pumps, valves for connecting the studied objects, instrumentation (patent No. 2194965, G01M 19/00, 2002).

The disadvantage of this stand is that it lacks a system for creating various loads on the tested products.

Test bench for hydroelectromechanical units KAU-115.

“Combined hydraulic drive KAU-115. Overhaul manual KAU-115 of the Republic of Kazakhstan, Pavlovsky Machine-Building Plant Voskhod OJSC, 1991 (Appendix 1)

The disadvantage of this stand is that a mechanical spring is installed in the mechanical loading device (Appendix 1, page 4). Therefore, when changing the loading mode of the hydro-electro-mechanical unit, installation of a spring with a different stiffness is required.

Closest to the claimed technical solution is the "Stand for testing hydroelectromechanical units" (patent No. 2563053, G01M 19/00, 2014).

The disadvantage of this stand is that the loading system is made in the form of a pneumatic cylinder, in which the required force for each test mode of the hydroelectromechanical unit is ensured by the creation of the corresponding air pressure. However, for a number of units, for example steering gears of SU-27 and Su30 aircraft, the test program provides for loading modes with forces of up to 3000 kN. The use of a pneumatic system for such loads leads to an increase in the diameter of the pneumatic cylinder and a significant increase in pressure in the pneumatic system, which complicates the operating conditions of the bench.

The objective of the invention is to create a stand that provides a loading force of the order of 3000 kN, quite compact and easy to use.

The solution to this problem is achieved by the fact that the loading device of the test bench for hydroelectromechanical units is made in the form of a hydraulic system with a hydraulic cylinder, a proportional pressure reducing valve, a check valve, a hydraulic accumulator and an automatic control system that provides linear load according to a given program on the tested hydroelectromechanical unit, by adjusting flow rate through a proportional pressure reducing valve.

The drawing shows a schematic diagram of the stand.

The stand contains a pumping station 1, the tested hydroelectromechanical unit 2 with a distributor 3 and a control unit 4, a rod 5, a hydraulic loading system 6, which includes a hydraulic cylinder 7, pressure proportional valves 8 (1) and 8 (2), hydraulic accumulators 9 ( 1) and 9 (2), safety valves 10 (1) and 10 (2), non-return valves 11 (1) and 11 (2), automatic control system 12, strain gauge 13, pressure gauges 14 (1) and 14 (2) .

The stand works as follows: the pumping station 1 supplies the working fluid with the given parameters through the distributor 3 to the tested hydroelectromechanical unit 2. The distributor 3 is controlled by the control unit 4. The load on the unit 2 through the rod 5 is made by the hydraulic loading system 6. Before the start of the tests, the hydraulic cylinder 7 is located in the neutral position and its cavities are filled with liquid. When moving the hydraulic cylinder rod of the tested hydro-electro-mechanical unit 2, for example to the left (arrow A), liquid from the left cavity of the hydraulic cylinder 7 begins to flow through the proportional valve 8 (1) to the hydraulic accumulator 9 (1). At the same time, fluid from the accumulator 9 (2) begins to flow into the right cavity of the hydraulic cylinder through the open proportional valve 8 (2) and the check valve 11 (2). At the initial moment, the proportional valve is fully open and the load on the test unit 2 is practically zero. As the proportional valve 8 (1) closes, the pressure in the left cavity of the hydraulic cylinder 7 increases and, consequently, the load transmitted to the unit under test 2 increases. The change in the load (pressure) is set by the test program, which is embedded in the automatic control system 12 of the stand. Feedback on the load is carried out using the load cell 13. When the hydraulic cylinder moves to the right (arrow B), the operation of the hydraulic loading system is similar to the above. The pressure in the cavities of the hydraulic cylinder 7 is controlled by gauges 14 (1) and 14 (2). Safety valves are set to the maximum pressure allowed during testing.

After debugging the system, the program unit 4 of the hydro-electromechanical unit and the automatic control system 12 are turned on and the hydro-electro-mechanical unit 2 is tested. The unit is tested at various loads, which are set by the hydraulic loading system of the test bench 6.

Claims (1)

A test bench for hydroelectromechanical units comprising a pumping station, a hydroelectromechanical unit with a control valve and a control unit, a draft, pressure gauges, safety valves, a loading device, characterized in that the loading device is made in the form of a hydraulic system with a hydraulic cylinder, a proportional pressure reducing valve, a check valve, a hydraulic accumulator and an automatic control system that provides the creation of a linear load according to a given program on the test hydroelectromechanical unit by regulating the flow of fluid through a pressure proportional valve.

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