SU1160141A1 - Stand for testing hydraulic motors - Google Patents

Abstract

A TEST BENCH OF HYDROMOTORS, containing a pump and a load device, interconnected by pipelines, characterized in that. in order to expand its functionality, it is equipped with an additional adjustable pump with a safety valve, two batteries and two non-return valves, and the main pump has a safety valve, the main pump and one of the batteries connected to one working cavity of the motor, an additional pump, the second battery the torus and the load device are connected to another working cavity, the check valves are installed at the outlet of the main and auxiliary pumps, and the load device is made in the form of two position valve, in which the output is connected to an adjustable throttle. (La:

Description

The invention relates to a volumetric hydraulic drive and can be used, for example, in the life test of rotary hydromotors.

A test stand for testing hydraulic motors is known, comprising two pumps, of which at least one is adjustable, safety valves and a variable volume hydraulic motor. The motor under test is mechanically connected with the motor of the stand, safety valves are connected to its output, the setting of which synchronously can be changed, for example, by means of a cam mechanism (1.

The disadvantages of such a stand are its complexity and low mechanical efficiency.

Closest to the invention is a test bench for hydraulic motors, comprising a pump and a load device, interconnected by pipelines. The motor being tested is mechanically connected to the motor of the stand, and its discharge line is connected to the load element. The necessary loading law is given by an analog computer 2.

The disadvantage of the known stand is the impossibility of testing in reversible modes.

The purpose of the invention is to expand the functionality of the stand.

This goal is achieved by the fact that the test bench for hydromotors containing a pump and a load device, connected to each other by pipelines, is equipped with an additional adjustable pump with a safety valve, two MNBs and two non-return valves, and the main pump is a safety valve. the pump - and one of the accumulators are connected to one working cavity of the hydraulic motor, an additional pump, the second battery and the load device - to another working cavity, check valves are installed They are installed at the outlet of the main and auxiliary pumps, and the load device is made in the form of a two-position hydraulic distributor, to the outputs of which adjustable chokes are connected.

The drawing shows a schematic diagram of the proposed stand. ,

The stand for testing hydromotors contains a pump 1 and a load device 2 connected to each other by pipes 3 and 4. The stand is equipped with an additional adjustable pump 5 with a safety valve 6, two batteries 7 and 8 and two non-return valves 9 and 10, and the main pump I - a safety valve 11, with the main pump 1 and one of the batteries 7 connected to one of

the working cavities 12 of the hydraulic motor 13, the additional pump 5, the second battery 8 and the loading device 2 - to the second working cavity 14, check valves 9 and 10 are installed respectively at the outlets 15 and 16 of the main 1 and additional 5 pumps, and the loading device 2 is made in as a two-position valve 17, to the outputs 18 and 19 of which are connected adjustable throttles 20 and 21.

The stand works as follows.

When pumps 1 and 5 are turned on, the liquid from pump 1 through the check valve 9 enters the hydraulic motor 13 and battery top 7, while during acceleration of the hydraulic motor 13 there is an increase in pressure in the pipeline 3 and charging of the battery 7. Drain from the hydraulic motor 13 and also supply, pump 5, through the valve 17 and the throttle 20, having a conductivity greater than that of the throttles 21, enter the tank, forming in the cavity 14 of the hydraulic motor 13 the back pressure is much less than the pressure created by the pump 1. The valve 11 serves to limit the pressure of the pump 1 After the preset shutter speed, which corresponds to the required rotational speed of the hydraulic motor 13, switches the drain valve 17 through the throttle 21 with a lower conductivity. By pumping the pump 5 and draining the motor 13 in the pipe 4, the pressure starts to increase while the battery 8 is simultaneously charged. The hydraulic motor 13 slows down, and its kinetic energy is converted into battery charging energy 8. At the moment the hydraulic motor 13 stops, the pressure in the hydraulic motor cavity 14 13 is significantly higher than the pressure in the discharge line of pump 1, limited by valve 6. In this case, the pump 5 is protected from this pressure by a check valve Hoim 10, the liquid is drained into the tank through a safety valve 6, the setting of which determines the maximum The pressure pump 5.

A reverse occurs, the hydraulic motor 13 in the process of acceleration in the opposite direction displaces the liquid to the accumulator 7, and pump G is cut off by valve 9 and runs to drain through valve 11. In this case, the pressure in accumulator 7 rises, and accumulator 8 gradually discharges. The kinetic energy stored by the hydraulic motor 13 is transferred to the energy of the charge of the battery 7. By the time the motor 13 is decelerated and reversed, the battery 8 is almost exhausted. At this moment, the hydraulic distributor 17 is switched, the throttle 20 with higher conductivity is connected to the drain, the hydraulic motor 13 accelerates due to the energy stored by the accumulator 7, and the cycle repeats.

311601414

The parameters of the stand are selected so that, Thus, the proposed change

at the moment of complete deceleration of the hydraulic circuit of the stand, its fencer 13 expands one of two batteries 7 and 8 rational possibilities by ensuring that it is charged, and the second because of the possibility of testing reversible

Rented. Hydromotors.

Claims (1)

TEST STAND FOR HYDRAULIC MOTORS, containing a pump and a loading device, interconnected by pipelines, characterized in that, in order to expand its functionality, it is equipped with an additional adjustable pump with a safety valve, two batteries and two non-return valves, and the main pump with a safety valve, moreover, the main pump and one of the batteries are connected to one working cavity of the hydraulic motor, an additional pump, a second battery and a loading device to another working cavities, check valves are installed at the output of the main and additional pumps, and the loading device is made in the form of a two-position valve, to the outputs of which adjustable chokes are connected.