SU1642110A2 - Method for determining effective cross-sectional area of fluid restrictors - Google Patents

Abstract

The invention makes it possible to increase the accuracy of determining the effective passage area of the pneumohydraulic resistances. A stand for carrying out the method includes a tank 1, valves 2 and 3, a pressure gauge 4, temperature sensors 5 and pressure 6, connected to recording devices 7 and 8, a stopwatch 9 with a sensor 10 for switching it on and an electrical switch 11, valves 12-15 in the supply lines and removal of the working fluid, test pneumohydrogen resistance 16, power supply source 17, connected to valves 2 and 3, thermostat 18 and solid body 19 of a known volume immersed in container 1. Line 20 from tank 1 to test pneumohydraulic resistance 16 together with valve 2 is insulated with polyurethane foam. In this case, the constancy of the polytropic index is ensured during the isothermal process of emptying the capacity, which provides an increase in the measurement accuracy. 1 sludge.

Description

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The invention relates to engineering pneumatic hydraulics and is an improvement of the invention according to the author. St. No. 1206507.

The aim of the invention is to increase the accuracy of determining the effective passage area of the pneumohydraulic resistances.

The drawing shows a schematic diagram of the stand that implements the proposed method.

The stand contains a tank 1, a normally closed valve 2 and a normally open valve 3 in the supply and removal lines of the working fluid, a pressure gauge 4, temperature sensors 5 and pressure 6 connected to recording devices 7 and 8, a stopwatch 9 with a sensor 10 for turning it on and electrocirculation by a reader 11 in the power line connecting valves 2 and 3, valves 12-15 in the supply and discharge lines of the working fluid, pneumo-resistance to be tested 16, power supply 17, electrically connected to valves 2 and 3, thermostat 18 and immersed in tank 1 solid body 19 known wow volume. Line 20 from tank 1 to test pneumohydraulic resistance 16 together with valve 2 is insulated with polyurethane foam.

The method for determining the effective passage area of the pneumo-resistance is implemented as follows.

When the valve 12 is open, the tank 1 is filled with the working fluid, for example gas, up to the initial pressure RH, which is controlled by the pressure gauge 4. Through the open valve 14, cold or hot additional medium (liquid or gaseous) is supplied to the thermostat 18, which provides in the tank 1 constant temperature

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working body. When the electrical switch 11 is turned on, the valve 3 closes, the valve 2 opens and the stopwatch 9 is activated through the sensor 10, the tank 1 starts to empty, the gas temperature in the tank 1 is monitored by the sensor 5 and the device 7, and the pressure change is detected by the sensor 6 and the device 8.

When the final pressure Pc is reached, the valve 2 closes, the stopwatch 9 turns off and the time ri is emptying the container 1. Close the valve 12 and, opening the valve 13, release the working body from the container 1, then a solid body 19 of known volume is placed into the container 1 ema The valve 13 is closed, the valve 12 is opened and the container 1 is filled with the working fluid up to the same initial pressure PH, while maintaining a constant gas temperature by means of a thermostat 18 as in the first emptying of the container 1.

The tank 1 is re-emptied to the final pressure Pk and the empty time tg is recorded. After testing, the valve 13 is opened, and the working fluid is vented from the tank 1, and the valve 15 is opened and the additional medium is removed from the thermostat.

In this way, an unambiguous constancy of the polytropic index is ensured during the isothermal process of emptying the container. which provides improved measurement accuracy.

Claims (1)

Claims of Invention A method for determining the effective passage area of pneumohydro-resistances by ed. St. No. 1206507, characterized in that, in order to increase the accuracy of determining the effective passage area of the pneumohydraulic resistances, the initial temperature of the working fluid is kept constant.