SU1139887A1 - Stand for testing pumps - Google Patents

Abstract

.one. A test bench for pumps that contains a supply tank to which the suction and pressure lines of the test pump are connected, an additional pump with suction and discharge pipes connected respectively to the suction line and capacity, and an adjustable load device, the input of which is connected to the pressure line of the test pump, different the fact that, in order to increase the accuracy and expand the range of tests, the stand is equipped with a compensating tank and a ring collector, nym inlet pump into the test, the output of the load device communicates with the receiving conduit through an additional pump and compensating tank - with an annular collector and vhbd load device is further connected to additional pump delivery line. 2. A stand according to claim 1, characterized in that the loading device is made in the form of a lattice of flat blades with variable installation angles and fluid flow. 3. A stand according to claim 1, characterized in that the load device is made W at the same time as the compensation tank. со; о СХ) 00

Description

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

A test bench for pumps is known, containing a supply tank to which the suction and pressure lines of the test pump and the adjustable load device 1 are connected.

The drawbacks of such a stand are idle energy consumption and inconsistency of the test conditions with the working conditions.

Closest to the invention to the technical essence and the achieved result is a test bench for pumps, containing a supply tank, to which the suction and pressure lines of the test pump are connected, an additional pump with suction and discharge pipes connected respectively to the suction line and the tank, and an adjustable load a device whose input is connected to the pressure line of the test pump 2.

However, this test bench does not provide sufficient test accuracy, and tests can be carried out only in a relatively narrow range. This is due to the fact that it is not possible to simulate the presence of suction leaks with a higher temperature than the incoming flow on the stand, as well as to test individual elements of the flow part, pump seal assemblies.

The purpose of the invention is to improve the accuracy and the widening of the test range.

The goal is achieved by the fact that a pump test bench containing a supply tank to which the suction and pressure lines of the test pump are connected, an additional pump with suction and discharge pipes connected respectively to the suction line and the tank, and an adjustable load device, the input of which is connected to pressure pipe of the test pump, equipped with a compensating tank and a ring collector installed at the entrance to the test pump, the output load The device is connected to the receiving pipeline of the additional pump and through the compensating tank to the ring manifold, and the input of the loading device is additionally connected to the discharge pipe of the additional pump.

In addition, the loading device can be made in the form of a lattice of flat blades with variable installation angles and leakage of the working medium.

The load device may be integral with a compensating capacity.

FIG. 1 is a diagram of a pump test bench; in fig. 2 - the same, option.

The pump test bench contains the supply tank 1, to which the suction and pressure lines are connected, respectively, 2 and 3 of the test pump 4, an additional pump 5 with a receiving pipe 6 and a discharge pipe 7 connected respectively to the suction pipe 2 and to the supply tank 1, adjustable load 5 a device 8, the inlet 9 of which is connected to the pressure line 3 of the test pump 4.

The stand is equipped with a compensating capacitance 10 and an annular collector 11 installed at the entrance to the test pump 4, the output 12 of the loading device 8 communicates with the receiving pipe 6 of the auxiliary pump 5 and through the compensating capacity 10 to the ring collector II, and the input 9 of the loading device 8 is additionally connected with the discharge pipe 7 of the additional pump 5.

The loading device 8 is made in the form of a lattice of 13 flat blades with measurable angles 1 of the installation and flow of the working medium (see Fig. 2).

The load device 8 is made integral with a compensating tank 10 (see FIG. 2).

In the hydraulic system of the stand, 5 porno-regulating bodies 14-17 are installed, and the connecting lines 2 and 3 of the test pump 4 with pipes 6 and 7 of the additional pump are made by means of hydraulic lines 18 and 19. The output 12 of the loading device 8 is connected to the ring collector 11 by means of hydroline 20. In the compensating tank 10, the flaps 21 can be installed. The test pump 4 is connected to an adjustable drive 22.

The stand works as follows.

When the test 4 and the additional 5 pumps are turned on, the working fluid from the supply tank 1 enters the suction line 2, the test pump 4, the pressure line 3 and returns

0 into the supply tank 1. A portion of the liquid then flows from the suction line 2 through the hydroline 18 to the receiving pipe 6, is supplied by an additional pump 5 to the adjustable load device 8, from which the regulator 17 then returns to the receiving pipe 6 through the shut-off 5. the work of the stand of the locking and regulating bodies 15 and 16 is blocked and carried out

removal of the cavitation characteristics of the test pump 4 and pouring of pump elements serving as an adjustable load device 8, for example, the grids of 13 flat blades.

The change in the flow pattern of the cavitating fluid in the test pump 4 is carried out using the valve 14 and the actuator 22, and in the load device 8 using the valves 21 and the valve 17

The fluid circulating through the auxiliary pump 5 is heated to a predetermined temperature, after which the locking regulator 16 opens and the required amount of heated fluid through the hydroline 20, the compensating tank 10 and the annular collector 11 enters the entrance to the test pump 4. Thus, the influence of hot Leaks on pump suction capacity 4.

The temperature and pressure fluctuations of the heated fluid are extinguished in the compensating tank 10, which can be made integral with the adjustable load device 8 (Fig. 2).

With the open organ 15, a portion of the working fluid from the pressure line 3 is fed to the adjustable load device 8. Thus, the effect of leakage on fluid flow in the interscapular channels of full-scale pumps with different design of their flow parts can be simulated, which is achieved by different installation angles and leakage of the working medium .

The test bench allows hot leaks with known parameters to be introduced into the suction zone of the test pump 4, while measuring the wire, which makes it possible to establish its suction capacity.

In addition, a portion of the working fluid with known parameters can be injected at the inlet into the grid of 13 blades, which allows to establish studies (including visualization) of the flow with leaks in the interscapular channels of the pumps, as well as create pump designs with minimal negative impact of leaks on the anti-cavitation pump stability.

Claims (3)

.1. A PUMP TEST STAND, comprising a supply tank to which a suction and pressure lines of a test pump are connected, an additional pump with a suction and discharge pipelines connected respectively to a suction line and a tank, and an adjustable load device, the input of which is connected to a pressure line of the test pump, characterized the fact that, in order to improve accuracy and expand the test range, the stand is equipped with a compensating capacity and an annular collector installed on entering into a test pump output load device communicates with the receiving conduit through an additional pump and compensating tank - an annular collector, and the input load "device is further connected to additional pump delivery line. 2. Stand by π. 1, characterized in that the loading device is made in the form of a lattice of flat blades with variable installation angles and leakage of the working medium. 3. Stand by π. 1, characterized in that the load device is made integral with the compensating capacity. 139887