SU1624213A1 - Stand for testing hydraulic apparatus - Google Patents

Abstract

The invention relates to hydraulic tests and m. used in hydraulic engineering in modulating tests. The purpose of the invention is to improve the measurement accuracy of the flow parameters of the tested hydraulic model by automatically maintaining a constant working fluid level in both tanks (E). The lower parts of the consumable 1 and the receiving 2 E are connected by hydrolines 3 and 4 of the communication to the input 5 and output 6 of the tested hydraulic device 7. The upper parts are connected by a line 8 of communication between each other. Units 9 and 10 of the E 1 and 2 height position and the locking and distributing bodies 11-13 are installed in lines 8 and 3. The means for creating a pressure differential between E 1 and 2 is made in the form of a vacuum pump 14. Each device 9 (10) made in the form of a compensating suspension 15 (16). The pump 14 is connected to line 8 between the upper parts of E 1 and 2 and connected with outlet 17 to the atmosphere, and input 18 through organs 11 and 12 is connected to each of E 1 and 2. Lines 3, 4 and 8 are made in the form of flexible pipelines. Suspension 15 and 16 are spring. 2 hp f-ly, 2 ill. Ј Os Yu -N Yu SA

Description

The invention relates to hydraulic tests, in particular, to the design of a test bench for the study of the hydraulic characteristics of hydraulic circuit elements, and can be used in hydraulic engineering in simulating tests.

The purpose of the invention is to improve the measurement accuracy of the flow parameters of the tested hydraulic model by automatically maintaining a constant working fluid level in both tanks.

Figure 1 presents the scheme of the stand with the use of spring suspension tanks; figure 2 - diagram of the stand with the option of hydraulic suspension tanks.

The test set for testing hydro devices, mainly hydro modeling, contains feed and receiving tanks 1 and 2, the lower parts (not labeled) of which are connected by coupling hydrolines 3,4 to the corresponding input 5 and output 6 of the hydro device under test 7, and the upper parts (not labeled) communicated by line 8 among themselves, devices 9, 10 of changing the position of the tanks 2 and 1 in height and the locking and distributing bodies 11, 12 and 13. installed in lines 8 and 3 of the connection of tanks 1 and 2 and the hydraulic unit 1 accordingly, the stand is equipped with by creating a pressure differential between the containers 1 and 2 as a vacuum pump 14, and each device 9, 10 changing the position of the containers 1.2 in height is designed as a compensating suspension 15.16, the vacuum pump 14 being connected to the link 8 between the upper parts of the containers 1 and 2 and is connected with its outlet 17 to the atmosphere, and its input 18 through the distribution bodies 11 and 12 to each tank 1 and 2. In this case, each compensating suspension 15, 16 is made spring, the stiffness Z of which is assigned according to the expression:

Z Fj

where F is the cross-sectional area of the supply and reception tanks;

j is the specific gravity of the working fluid.

In addition, lines 3, 4 and 8 of the connection of the tanks 1 2 by the hydraulic device 7 and the vacuum pump 14 are respectively made in the form of flexible pipelines (not indicated).

Alternatively, compensating suspensions 16, 15 can be made hydraulic, for which purpose the supply and reception tanks 1, 2 are installed in baths 19, 20, respectively, equipped with filling taps 21 and 22 and drain holes 23 and 24.

The stand works as follows.

When the vacuum pump 14 is turned on, when opening the valve 11, the upper part of the supply tank 1 is communicated via line 8 to the inlet 18 and outlet 17 of the vacuum pump 14, then through the valve 3 the lines 3 and 4 communicate the flow tank 1 with inlet 5 and outlet 6 of the tested hydraulic unit 7 and receiving tank 2. When the tank is empty

1e, the weight is reduced and the capacitance 1 due to the force in the device 9 of varying the position in height, made in the form of a compensating suspension 15, for example, of a spring type, moves upwards. However, due to the chosen stiffness of the suspension 15 of the spring type, the liquid level does not change its position. The receiving container 2 is gradually filled with liquid, its weight increases and it moves downward due to the device 10 in the form of a compensating suspension 16, while maintaining the initial level of the liquid. During the test, the liquid level difference in the supply and reception capacitance 1 and

2 does not change and, accordingly, the velocity and flow rate of the fluid through the tested hydraulic device 7 do not change. After the end of the test, the cycle is repeated in the opposite direction.

When using compensating suspensions 15 and 16 of a hydraulic type, the stand operates in the same way, while in the process of testing the supply tank 1 rises, the empty volume of the bath 19 is filled with liquid through the filling valve 21, and the supply tank 2 is filled into the bath 20 the excess fluid volume is removed through the drain holes 24. The mobility of the tanks 1 and 2 is ensured by the execution of the hydrolines 3 and 4 of the communication, as well as the lines 8 of the communication or their separate sections in the form of flexible pipelines.

Claims (3)

Claim 1. Testing bench for hydraulic devices, mainly hydro-modeling, containing feed and receiving tanks, the lower parts of which are connected to the corresponding input and output of the tested hydraulic device, and the upper parts are connected to each other by means of a communication line, devices for changing the position of tanks in height and valves located in the communication lines of the tanks and the hydraulic unit under test, characterized in that, in order to improve the measurement accuracy of the flow parameters, hydraulic model by automatically saving the working fluid level in both tanks, the stand is equipped with a means to create a pressure differential between the tanks in the form of a vacuum pump, and each device for changing the position of the tanks in height is designed as a compensating suspension, while the vacuum pump is connected to the communication line between the tops of the tanks and the exit from the atmosphere, and its entrance through the distribution bodies to each tank. 2 A stand according to claim 1, of which they are, and with the fact that the compensating suspension is made in the form of a spring suspension, the weight of which Z is assigned according to the conditions: Z FJ, where F is the cross-sectional area of the supply and reception tanks; j is the specific gravity of the working fluid. 3. The stand according to claim 1, characterized in that the communication lines of the tanks with the hydraulic device and the vacuum pump are made in the form of flexible pipelines. 15 - // 7/777777 / Fi & .g 11 8