SU954611A1 - Pump testing stand - Google Patents

Description

(54) STAND FOR TESTING PUMPS

The invention relates to a pump manufacturing industry, namely to test benches for pumps. A stand for testing pumps is known, containing a test pump with an electric motor, a control throttle, a heat exchanger, load and safety valves, an energy converter .1. A disadvantage of the known stand is the low efficiency of the mechanical energy converter. The closest technical solution to the present invention is a pump test bench containing a load device in the form of an auxiliary pump connected hydraulically to the test pump, a power source connected to the electric motor of both pumps, and an energy converter 2. The disadvantage of the test bench is low efficiency . The purpose of the invention is to increase the efficiency of the stand. The goal is achieved due to the fact that the input of the energy converter is connected via switching elements to the pump motors, and the output to the power source, the latter being connected to electric motors through additional switching elements. The drawing schematically shows the proposed stand. The pump test bench contains a load device in the form of an auxiliary pump 1 connected hydraulically to the test pump 2, a power source 3 connected to the electric motors 4 and 5 of both pumps, and a power converter 6. The input of the energy converter 6 is connected via the switching elements 7 and 8 to the electric motors 4 and 5 of the pumps, and the output of the energy converter 6 is connected to the power supply 3, the latter being connected to the electric motors 4 and 5 by means of additional switching elements 9 and 10. Stand also contains a heat exchanger 11. The stand works as follows. In the first test bench test mode, the pump 2 is pumped. The flow target signal is fed to the second input of the energy converter 6, the first input of which is connected to the electric motor 4 via the switching element 7. In accordance with the flow target signal, the electric motor 4 starts operating in the generator mode and creates a braking torque on the shaft of the auxiliary pump 1. The greater the braking torque, the slower the speed of rotation of the shaft of the pump 1 and, therefore, it is a greater hydraulic resistance, resulting in Wie what happens loss of flow in hydraulic lines.

Thus, when the pump 2 is tested at a constant speed of its drive motor 5, the flow control in the hydroline and the return of energy to the network is monitored by an auxiliary pump 1 operating in the turbogenerator mode.

In the specified mode, the electric motor 5 is connected to the network, bypass energy converter 6, through the switching element 10.

In the second operating mode of the stand, when the subject is the auxiliary pump 1, its electric motor 4 is connected to the network, the energy converter 6 is mined through the switching element 9. The first input of the energy converter 6 through the switching element 8 is connected to the electric motor 5, which mode, creates a braking torque on the pump 2 shaft and, therefore, the specified pump 2 in this mode acts as an organ for controlling the flow rate of the working fluid in the hydraulic line.

When testing pumps in the proposed stand, more than half of the electricity consumed by the pump under test is returned to the network, rather than being converted into heat by the regulating choke. Due to this, the energy consumption for the circulation of the coolant in the cooling system of the working environment of the stand is more than halved. In this case, the heat exchanger 11 of the stand removes the heat released from the friction of the working medium in the test pump, the pipelines of the stand and the pump acting as a flow regulator.

Claims (2)

1. USSR author's certificate number 646089, cl. F 04 B 51/00, 1977. 2. USSR Author's Certificate No. 455205, cl. F 04 B 51/00, 1972. .Yu / R L-