SU1186990A1 - Bed for turbine testing - Google Patents

Abstract

TURBINE TEST BENCH, containing controlled chokes at the turbine inlet and outlet, gas pressure sensors at the turbine inlet and outlet and the turbine rotation frequency and the gas pressure regulator at the turbine inlet, the inlet of which is connected to the gas pressure sensor at the turbine inlet, and the output is to the choke at the turbine inlet, characterized in that, in order to reduce the test time, the stand is equipped with a regulator of the ratio of gas pressures at the inlet and outlet of the turbine, the inputs of which are connected to pressure sensors, and the output to the choke at the turbine output connected in series by a reference frequency generator, a counter, a buffer register and the first digital-to-analog converter, the output of which is connected to the auxiliary input of a gas pressure regulator at the turbine inlet, connected in series by a decoder whose input is connected to the output of the counter, by an OR element whose output is connected to the auxiliary input buffer (L register, time delay element and the recorder, to the additional inputs of which are connected the outputs of all sensors, the shift register, the input of which is connected to the output of the decoder, and the second digital-to-analog converter, the output of which is connected to the auxiliary input of the regulator of the ratio of gas pressures at the inlet and outlet of the turbine., and the trigger button with the start button, the inputs of which are connected to the outputs of the turbine and register. shift, and the output - to the input of the counter and the auxiliary input of the shift register.

Description

The invention relates to the field of testing and can be used in automated test process control systems for turbines.

The aim of the invention is to reduce test times.

The drawing shows a block diagram of a turbine test bench.

The turbine test bench contains controllable inductors 1 and 2 at the inlet and outlet of turbine 3, gas inlet sensors 46, inlet pipe output and turbine speed and turbine pressure regulator 7 at the turbine inlet, the inlet of which is connected to gas pressure sensor 4 The turbine inlet, and the output to the choke 1 at the turbine inlet, the regulator 8 of the ratio of gas pressures at the inlet and outlet of the turbine, whose inputs are connected to sensors 4 and 5 of the gas pressure at the inlet and outlet of the turbine, and the output to the choke 2 at the turbine outlet, series-connected generator 9 pseudo-frequency, counter 10, buffer register 11 and digital-to-analog converter 12, the output of which is connected to the auxiliary input of the gas pressure regulator 7 at the turbine inlet, connected in series to the decoder 13, the input of which is connected to the output of the counter 10, element IL 14, the output of which is connected to additional input buffer register 11, the element 15 of the time delay and the recorder 16, the additional inputs of which are connected to the outputs of all sensors, serially connected shift register 17, the input of which is connected to the output d encoder 13, and a second digital-to-analog converter 18, the output of which is connected to the auxiliary input of the regulator 8 of the ratio of gas pressure at the turbine inlet and outlet, and trigger 19 with a start button, the inputs of which are connected to the decoder 13 codes and the shift register 17, and the output - to the input of the counter 10 and up. to the additional input of the register 17 shift.

The stand works as follows.

The gas through the controlled choke 1 (the throttle has an electric drive) is supplied to the turbine 3. From the turbine 3, the gas is ejected through the controlled choke 2 (it also contains an electric drive).

The gas pressure at the turbine inlet is measured by sensor 4 and is controlled by regulator 7 by issuing control actions on the throttle 1. The gas pressure at the turbine inlet is controlled in accordance with the settings generated by the reference frequency generator 9, counter 10, ( buffer register .11 and digital-to-analogue converter 12.

By means of the decoder 13 and the element OR 14, the digital code of the settings is overwritten into the buffer register 11. The decoder 13 is organized in such a way that the appearance of each of the n signals at its output corresponds to a counter 10 of a given code value of the settings.

The signal with n + 1 output of the decoder clocks the shift register 17 and the trigger 19. With each occurrence of this signal, the logic is filled. cic unit from first to kth

the next bit of register 17. When a signal appears at its kth output, connected to informational O-input of trigger 19 and a clock signal at the input of C-flip-flop 19, the latter changes the state and sets counter 10 and register 17 to its original state prior to the arrival of the signal from the trigger button (via the bus

Start).

A second digital-to-analog converter 18 is used to convert set codes to analog values.

for regulator 8, the ratio of the gas pressure at the inlet and outlet of the turbine. The regulator 8 controls the ratio of the gas pressure at the inlet and outlet of the turbine by means of

control effects on throttling,. sel 2.

The recorder 16, which is, for example, a multi-channel tape recorder, controlled through a time delay element 15, records information from the sensors 4, 5 and 6 of the gas pressure at the inlet, the turbine output and the frequency of rotation of the turbine 3. respectively.

Element 15 provides a delay in the start of registration of information after the arrival of the control signal from element 14 by the time until the end

Claims (1)

TURBINE TEST TEST, comprising controlled throttles at the inlet and outlet of the turbine, gas pressure sensors at the inlet and outlet of the turbine and turbine speed, and a gas pressure regulator at the turbine inlet, the input of which is connected to a gas pressure sensor at the turbine inlet, and the output to the throttle at the turbine inlet, characterized in that, in order to reduce the test time, the stand is equipped with a regulator for the ratio of gas pressures at the turbine inlet and outlet, the inputs of which are connected to pressure sensors, and the output to the throttle at the turbine outlet, after They are connected by a reference frequency generator, a counter, a buffer register, and a first digital-to-analog converter, the output of which is connected to an additional input of the gas pressure regulator at the turbine input, connected in series by a decoder, the input of which is connected to the counter output, by an OR element, the output of which is connected to an additional input of the buffer register , a time delay element and a recorder, to the additional inputs of which the outputs of all sensors are connected, in series connected to the register m shift input of which is connected to the output of the decoder and a second digital to analog converter whose output is connected to an additional input of the pressure ratio regulator gases at the inlet and outlet of the turbine., i.triggerom a start button, inputs "which are connected to the outputs of the decoder and register. shift, and the output is to the input of the counter and an additional input of the shift register. SU .... 1186990