SU981685A1 - Stand for testing pumps - Google Patents

Description

() STAND FOR PUMP TESTS

one

The invention relates to hydro-linear engineering, more specifically to the design of test benches for pumps.

A test stand for testing pumps is known, containing a supply tank connected to the test pump by means of a suction line 1.

However, the known test bench does not allow dynamic testing of pumps, for example, when the flow rate and pressure at the pump inlet are pulsating.

Closest to the invention of the technical nature and the achieved result is a test bench for pumps, containing a supply tank, associated with the test pump, and a pulsator mounted on its suction line 2J.

However, when determining the pump input impedance on this stand, i.e. the ratio of the complex amplitude of the pressure fluctuations at the inlet to

the pump dPvh to the complex amplitude of the flow fluctuations cTGgj, does not provide sufficient accuracy with a significant difference in the frequencies of natural and forced oscillations.

The well-known stand does not allow also to investigate the operation of the pump in the mode of cavitation self-oscillations in a wide, input pressure and flow range.

The aim of the invention is to expand the range of tests and increase their accuracy.

The goal is achieved by the fact that the stand is equipped with a flow-through gas receiver connected via a flexible pipe to an expansion tank and equipped with a movable base with a reversible drive, and the suction pipe is made of variable length and connected to the receiver.

In addition, the stand can be equipped with a filled working fluid.

bathroom, and the suction pipe and receiver are placed in the latter.

FIG. 1 shows schematically a test bench for testing pumps of FIG. 2 — an embodiment of a suction pipe with a variable length o

The stand contains a consumable tank 1, connected with the test pump 2, and a pulsator 3 mounted on its suction pipe line 4. The stand is equipped with a flow-through gas receiver 5 connected via a flexible pipe 6 to the consumable tank 1 and equipped with a movable base 7 with a reversible drive 8 and the suction pipe is made of variable length and is connected to the receiver 5. The stand can be supplied filled with NOA working fluid from the bath 9, and the suction pipe k and the receiver 5 are still in the latter. The receiver 5 and the supply tank 1 are equipped with valves for blowing 10 and 11 and drainage 12 and 13 with which the pressure in the gas cushions of these containers can be controlled. The bench is equipped with the following measuring instruments: sensor 1 instantaneous flow rates, flow meter 15, manometer 16 and 17, and pressure sensors 18 and 19, as well as sensor 20, registering the position of the pulsator piston 3. Flow of fluid through the pump is controlled by a controlled throttle 21, located in pressure pipe 22. The suction pipe k of variable length can be made telescopic, for example, from several sections 23, 2 and 25, having different diameters. Sealing the movable joints may include a housing 26 S which contains sealing rings 27, gland washers 28 and 29 and a cap nut 30. Placing the pipe k in the bath 9 filled with working fluid prevents air from being sucked through the seals. The stand works as follows. characteristics cause the shaft of the test pump 2 to rotate at a given frequency of rotation and the throttle 21, set the required flow rate through the pump, and the valves 11 and drainage

13 on the supply tank 1 - the required pressure at the inlet to the pump. Move the receiver 5 with a movable base 7 in the direction of the pump 2, reducing

the length of the suction pipe 4 to the limit, and include the pulsator 3, setting the maximum frequency of harmonic disturbances of the oscillations. Register the form of flow fluctuations

 and the pressure at the pump inlet, respectively, by sensors W and 18, which depends on the dynamic properties of the pump 2 and the main to ripi pipeline;

fluctuations from monochrome change the length of the suction: pipeline k by moving the receiver 5 with the movable base 7 along the bottom of the tub 9 until the flow and pressure fluctuations at the entrance to the borehole 2 approach the shape of the disturbing oscillations set by the pulsator. This indicates that the natural frequency of the system coincides with the frequency of forced oscillations. In this mode, read all the instruments. Then, the frequency of disturbing oscillations of the pulsator 3 is changed, and the tests are repeated, changing the length of the suction pipe 4. The presence of a gas receiver 5 eliminates the influence of the active and inertial resistances of the flexible pipe 6 on the dynamic properties of the pipeline. The cavitation tests of the pump 2 are carried out with the pulsator 3 turned off by reducing the inlet pressure from the predetermined initial pressure to the cavitation breakdown pressure, at various values of the flow rate of fluid through the pump. The length of the suction piping during such tests is set equal to the actual length. In order to obtain additional information about pump performance, for example, elasticity and volume of cavitation cavities, it is necessary to change the length of pipeline A and fix the limits of the existence of cavitation self-oscillations. The proposed bench allows to expand the range of pump testing and the volume of information received, as well as to improve the accuracy of the tests. claim 1, a pump test bench containing a supply tank associated with the pump under test and a pulsator mounted on its suction pipe, characterized in that, in order to extend the test range and increase their accuracy, the bench is equipped with a gas receiver connected by flexible pipe to the supply tank and equipped with a movable base with reversible drive, and the suction pipe 38 5 is made of variable length and is connected to the receiver. 2. Stand according to claim 1, of which it is equipped with a bath filled with working fluid, and the suction pipe and the heater are placed in the latter. Sources of information taken into account in the examination. 1. Yaremenko O, V. Test the pumps. M., Mechanical Engineering, 1976, p. S, FIG. 2k, 2. USSR author's certificate. № 802610, cl. F 01 B 51/00, 1977.

Sc

Claims (2)

Claim 1. A test bench for pumps, comprising a supply tank connected to the pump under test and a pulsator 5 mounted on its suction pipe, characterized in that, in order to expand the test range and increase their accuracy, the stand is equipped with a gas receiver connected via a flexible pipe to the supply tank and equipped with a movable base with a reversible drive, and the suction pipe is made of variable length and connected to the receiver., 2. Stand pop. 1, characterized in that it is provided with a bath filled with a working fluid, and a suction pipe and a receiver are located in the latter.