SU800423A1 - Stand for cavity testing of pumps - Google Patents

Description

one

The invention relates to devices for characterizing and testing pumps and can be used in designing test equipment.

A stand for testing pumps is known, made in a closed loop, containing a pump, a supply tank, a test pump, a closed- and switching armature C

The disadvantages of the known stand are excessive energy consumption and inconsistency of the test conditions of the working conditions. Closest to the proposed test bench for pumps with a hydraulic circulation system working fluid containing the test pump with a drive, suction and pressure lines connected to the flow capacity and turbine associated with a regulated energy consumer 2.

The disadvantage of such a bench lies in the narrow range of operation.

The purpose of the invention is to expand the range of work.

The goal is achieved by the fact that the regulated consumer

energy is made in the form of an additional pump, the inlet of which is connected to the suction master, and 1 & - by means of a regulator with a supply tank; in this case, a process pump mechanically connected with the latter can be installed between the supply tank and the turbine.

Nz the drawing shows the scheme of the stand.

The test bench contains a test pump 1 with a drive 2, a suction 3 and a pressure 4 lines connected to the supply tank 5 and a hydraulic turbine 6 connected to an adjustable energy consumer, made in the form of an additional pump 7, the input 8 of which is connected to the suction highway 3, and the output 9 by means of the controller 10 with the supply tank 5, and between the supply tank 5 and the turbine 6 a process pump 11 can be installed, mechanically connected with the hydro turbine 6.

The stand works as follows.

When the actuator rotates 2 of the test pump 1, start with the pump

the working fluid in a closed hydraulic system, which includes the supply tank 5, suction 3 and pressure 4 lines, as well as a hydraulic turbine 6. The pressure of the liquid created by the pump 1, works on the hydraulic turbine 6, driving it to rotate. the turbine 6 is transferred to the additional pump 7, the purpose of which is reduced to an additional and smoother decrease in pressure when entering the pump 1 when it is tested for cavitation due to suction of a portion of the working fluid at the inlet 8 connected to the suction side of the line 3. The sucked part of the working fluid returns to supply tank 5.

It is known that one of the methods for removing cavitation characteristics of a pump is to reduce the pressure at the entrance to the pump under test. When the minimum possible pressure in the supply tank is reached, determined by the capabilities of the vacuum system, the pressure at the pump inlet can be further reduced by suctioning part of the working fluid from the suction side of the line. The suction unit performs pump 7, with an increase in the flow rate of fluid through which, by opening the regulator 10, the pressure at the entrance to the test pump 1 decreases at a constant value of pressure in the flow rate 5. The smooth decrease in pressure at the entrance to the test pump 1 is determined by torus 10 suction flow. Obviously; That the flow regulation through the pump 7 can also be carried out from special devices, in particular, based on changing the flow area of the pump inlet or turning its blades. In addition, a process pump 11, which is mechanically connected to the turbine 6, can additionally be introduced into the pressure line 4 between the test pump 1 and the turbine 6.

It is known that one of the methods for determining the modes of cavitation locking of pumps by flow is a method based on reducing the resistance of the pressure line at constant values of the rotor speed and pressure when entering the pump. Moreover, the installation of the process pump 11 in the pressure line 4 after the test pump 1 expands the stand's capabilities to maximize the output resistance due to the suction effect created by the process pump 11. Obviously, when using the auxiliary pump 7 and the process pump 11 included in the stand system as shown in the drawing, the stand's capabilities are significantly expanded compared with the options for the separate use of an additional pump.

7 and process pump 11. This

It means, in particular, that with a given range of variation of the input pressure, it is possible to achieve a larger range of variation of the limiting flow values when locking on 5 coca during its cavitation test on the bench.

The proposed stand creates real opportunities not only to expand the range of research, but

0 and for more perfect removal of the cavitation characteristics of the pumps due to the possibilities of arbitrarily varying (fixed) changes in the pressure of the working fluid entering the pump. This makes it possible to more accurately record the characteristic points of inflection of the cavitation characteristics of the pump and more reliably judge the cavitation quality of the pump.

Claims (2)

1. Stand for cavitation tests. Pumps with a closed hydraulic system circulating the working fluid, containing a test pump with a drive, suction and pressure lines, combined with a storage tank and a hydro turbine, connected with an adjustable energy consumer, characterized by that, O7, in order to expand the range; the work zone, the adjustable energy consumer is made in the form of an additional pump, the input of the coil is connected to the suction of the main line, and the “stroke” is controlled by means of a regulator with a storage tank. 2. A stand according to Claims 1, 6, and 10 hours, which is between the expenditure the tank and the turbine are fitted with a process pump mechanically connected with the latter. Sources of information taken into account in the examination 1. USSR Author's Certificate No. 278175, cl. F 04 B 51/00, 1968. 2, USSR author's certificate according to application no. 2495055, cl, F 04 851 / 00.1977, L