SU437937A1 - Device for measuring hydraulic machines - Google Patents

Description

one

The invention relates to the field of testing hydraulic machines, such as pumps, hydraulic turbines, in factories during their manufacture and operation under real industrial conditions, and is intended to measure mosh, or r. D. gidromashin.

A known device for drying; a thermometric method for measuring the moshtnosti of centrifugal pumps; , and a thermometer, one sensor of which is installed at the inlet to the pump, and the second - in the section of the bypass pipeline, where a pressure is formed that is close in magnitude to the pressure at the pump inlet, has insufficient accuracy ness measurement.

The proposed mosch measuring device of a hydraulic machine is equipped with a calibration mechanism for temperature sensors, made in the form of stabilized local resistance installed at the outlet of the hydraulic machine, with a differential pressure meter on it and an additional temperature sensor located at the output of local resistance electrically incorporated into the differential electric the bridge together with the temperature sensor at the outlet of the hydraulic machine.

FIG. 1 shows a device for measuring the power of hydraulic machines; in fig. 2 - enthalpy-temperature graph, according to the lower definition of the temperature difference at local resistance; in fig. 3 - enthalpy-temperature graph, which explains the definition of A. (At).

At the outlet of the hydraulic machine 1, a local resistance 2 is established with a stabilizer 3 stabilizing the flow through differential pressure. In order to increase the pressure drop at the local resistance to a value corresponding to the maximum flow rate, the "flow-head" characteristic set aperture set 4 in front of the restriction device.

Temperature sensors 5 and 6, included in the differential electric bridge of the thermometer 7, and pressure sensor 8 and 9 are located at the inlet and outlet of the hydraulic machine.

To measure the temperature behind the local resistance, a temperature sensor 10 is installed, which is connected to the differential electric bridge with the sensor 6 during calibration. Sensor 11 is provided for measuring the pressure drop across the local resistance. Pressure absorbers 12, 13, and 14 pressure oscillations are installed in front of all pressure gauges, and a throttle 15 is located at the local resistance behind the temperature sensor 10 to control the pressure differential. The differential electric bridge of the thermometer 7 includes temperature sensors 6 and 10. When the centrifugal pump is running, the pressure drop on the local resistance is varied within the limits of the pump head change when it is tested. at the outlet of the pump (Fig. 2) (DD - pressure drop at local resistance; PZ - pressure at the exit from the pump and at the entrance to local resistance; t- - temperature at the exit from local resistance ).

By calibrating the thermometer to measure the temperature difference on a stabilized local resistance under actual operating conditions or tests, it is possible to calculate the temperature difference on the local resistance using a formula using the empirical equation of increased accuracy obtained on the basis of the existing Anthropic tables.

The initial data for calculating the coefficient A is the pressure and temperature at the entrance to the local resistance. A mistake in determining these values has virtually no effect on the temperature difference estimate. Using the enthalpy tables (Figs. 2 and 3), the values are determined from the measured values.

temperature differences corresponding to recorded thermometer readings.

After obtaining the calibration characteristic under actual conditions of testing or operation, a temperature sensor 5 is connected to the differential electric bridge instead of the sensor 10.

From the measured temperature difference at the outlet and the pump inlet, using the enthalpy tables, the enthalpy difference is determined and the efficiency of the pump is calculated using the formula

I

f.-2. fu

427Dg 4 ig

where H is the pump head;

Ci- fluid velocity at the pump inlet; Cz is the fluid velocity at the pump outlet; g - free fall acceleration.

Subject invention

A device for measuring the power of hydraulic machines, comprising temperature sensors installed at the inlet and outlet of the hydraulic mask, included in the differential bridge of the thermometer and pressure meters at the inlet and outlet of the hydraulic machine, characterized in that it is equipped with a calibration mechanism to increase accuracy temperature sensors, made in the form of stabilized local resistance, installed at the outlet of the hydraulic machine, with a differential pressure meter on it and additionally A temperature sensor located at the outlet of the local resistance electrically connected to the differential bridge together with the temperature sensor at the outlet of the hydraulic machine.

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