RU2037655C1 - Device for the accelerated tests of hydraulic machines - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: device regulating the gas supply is mounted in the channel for supplying the ejected agent of the ejector. The device is switched on to the gas-content transducer by feedback circuit. The ejector is placed in the supply main. A member moistening with water and a heating element are mounted in the channel. The temperature-sensitive element is mounted in the drain main and is switched on to the heating element made regulated. The gas-content transducer is placed in the supply main in the ejector output. EFFECT: enhanced quality. 2 cl, 1 tbl, 1 dwg

Description

 The invention relates to hydraulic engineering and can be used for accelerated resource and running tests.

 A device for accelerated testing of hydraulic machines is known, comprising a supply and a discharge line for connecting a test hydraulic machine, as well as an ejector with a working nozzle and an ejected medium supply channel, in which a gas flow control device is installed, which is connected by a feedback circuit to the gas content sensor.

 A disadvantage of the known device is the low intensity of the wear process of precision pairs of hydraulic machines.

 An object of the invention is to reduce the test time.

 The essence of the invention lies in the fact that in the device for accelerated testing of hydraulic machines, containing the inlet and outlet lines for connecting the test hydraulic machine, as well as an ejector with a working nozzle and a channel for supplying an ejected medium, in which a gas flow control device is installed, connected by a feedback circuit to the sensor gas content, the ejector is located in the supply line, the channel for supplying the ejected medium, a water moisturizing element and a heating element are installed, while the device is equipped with a temperature sensor installed in the outlet line and connected to the heating element, and the gas sensor is located in the inlet line at the outlet of the ejector.

 The drawing shows a diagram of a device for accelerated testing of hydraulic machines.

 The device comprises a supply line 1 and a discharge line 2 for connecting the tested hydraulic machine 3, as well as an ejector 4 with a working nozzle and an ejected medium supply channel, in which a gas supply control device 5 is connected, connected by a gas content feedback circuit 6 to a gas content sensor 7, located in line 1 at the outlet of the ejector 4, in the channel for supplying the ejected medium which has a water moistening element 8 and a heating element 9. A temperature sensor 10 is installed in the line 2, connected to the mu adjustable feedback element 11 on the chain 9 temperature. Line 1 is connected to pump 12.

 The device operates as follows.

 The pump 12 delivers the liquid under pressure to the tested hydraulic machine 3. The liquid passes through the ejector 4, which provides a metered flow of gas (air) into it, which is regulated by the circuit 6 by the sensor 7. In this case, the gas is heated using the heating element 9 and moistened by the element 8. On the output of the tested hydraulic machine 3 from the temperature sensor 10, the signal through the feedback circuit 11 is supplied to the heating element 9.

Thus, the temperature of the liquid during testing is maintained within the range of 80-90 ^about C.

 Comparative test results using a known device and a device made according to the invention are shown in the table.

 The chosen durations of the stages of the break-in regimes made it possible to obtain the effect not only by the running-in time, but also by the relative values of wear measured using the Caliber profiler profilograph model 201 and the PMT-3 device with a load on the indenter of 0.2 N.

 The effectiveness of the device is determined not only by the intensification of the process of wear of precision pairs of hydraulic machines, but also by the reduction of the test time due to the absence of the need to remove and deactivate the gas medium. At the end and during the test, the gas partially dissolves in the liquid, and partially is released in the form of bubbles in the reservoir (tank) of the hydraulic system or through the drain plugs (valves).

Claims (3)

 1. DEVICE FOR ACCELERATED TESTS OF HYDRAULIC MACHINES, containing the inlet and outlet lines for connecting the test hydraulic machine, as well as an ejector with a working nozzle and a channel for supplying an ejected medium, in which a gas flow control device is installed, connected by a feedback circuit to the gas content sensor, characterized in that the ejector is placed in the supply line, and a water-moisturizing element and a heating element are installed in the supply channel of the ejected medium.  2. The device according to claim 1, characterized in that it is compressed by a temperature sensor installed in the discharge line and connected to an adjustable heating element.  3. The device according to claim 1, characterized in that the gas content sensor is located in the supply line at the outlet of the ejector.

Images