SU691700A2 - Apparatus for measuring temperature and rate of its change - Google Patents

Description

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The invention relates to devices for measuring temperature and its rate of change, and can be widely used in automatic control systems for thermal mechanical processes, in particular, it can be used to control temperature and rate of change in temperature of metal of turbines and energy-generating boilers. stations (TPP).

According to the main auth. 5,35472 a device is known for measuring temperature and its rate of change.

However, this device has the inevitable significant measurement error when registering small temperature increments (1-2 ° C) in the temperature ranges 0-400 Cu 0-600 C.

The purpose of the invention is to improve the accuracy of change and record the rate of change of temperature.

This is achieved by introducing a signal conversion unit between the time signal block and the time relay into the proposed device.

time, connected by its input to the output of a block of time signals, by its first control of the cadto output - to the control of the reference input of the comparison unit, and its second control input to the time line. In addition, a scale of the signals was entered between the time sensor in the device

- thermal sensor connected by its

the measuring input to the sensor, its control input to the signal contact device of the auxiliary secondary recorder, and its measuring 5 output to the switching contacts of the time relay in the measuring circuit.

The drawing shows a functional diagram of a device for measuring temperature and its rate of change.

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The device contains a thermal sensor 1, a primary 2 and an auxiliary 3 secondary recording instruments containing temperature measurement units 1 1 4.5 s with electric motors 6 and 7

5 comparison unit B, time relay 9, time setting knob Yu, blocks c and 12 braking of electric motors, thermal scaling dials block 13, time sensor converting unit ri, signal contact device 15 of an auxiliary recording device 3. Time setter 10, having several positions, corresponding to the required time interval, is connected via the time signal conversion unit 14 to a time relay and sends control pulses to this relay. The time relay 9 ko Phytipryt thermal sensor 1 to the secondary recording devices 2,3 through the block 13 scaling signals of the thermal sensor, which is switched on by the interdimeter sensor 1 and the switching contacts of the time relay Y, the disconnecting contacts of which are connected to the input of the Measuring unit 4 of the main secondary recording device 2, and their closing contacts are connected to the input of the measuring unit 5. with the help of a secondary recording instrument 3. The outputs of the measuring units of the registering devices are 2.3 pODIL1K) Chany to the corresponding Bjio will give the display unit (compare the SRI) 8. Electrical power units 11.1 electric power 6.7 measuring blocks of the registering devices 2.3 and 2.3 to the timing relay contact 9, circuit: aydium contact. kbt6pro1 6 pkdklyucheny to the electric motor of the 6th emery of the el block of the main secondary perHCtpriiii tMieib device. and it is common to the artalogical electric motor 7 of the secondary secondary motor): the second device 3, the second output of the unit 14, which converts the rigion of the key 14 to the control input of the display unit 8. WYRODEHT 2, ADDITIONAL DEVICE 3 is found in the test condition of the previous result (the Total Measurement (after connecting the sensor). When measuring the temperature, the main instrument shows 2, the Difference between the readings of the two devices 2 and 3 leads to the appearance of a mismatch on the input of the display unit 8. The Hour network signal from block 10 is fed to the input of the time signal conversion block 14. The first command signal of the conversion block 14 starts the display block 8 to the measurement mode and results in two indications The second command signal of the block 14 turns on the time relay 9, which by its contacts disconnects the sensor 1 from the main device for 2-3 seconds and connects the electric braking unit 11 to the additional device 3 connects sensor 1, but is cut off unit 12 elektrotormozheni. The additional device 3. with the connected sensor 1 is aligned with the readings with the device 2, and after 2-3 seconds the time relay 9 again sets both devices to their original state. The clock network signals, for example, each time, allow the device to measure the difference in the readings of the two instruments, memorize the result in digital form, then equalize their indications and monitor the temperature changes of the main instrument 2 for a minute. allows the main recording device 2 to record on the chart tape the usual temperature change curve, and the additional device 3 to record the type of steps as steps, which determine the rate of temperature change. In order to increase the recording information ID and simplify the processing of a chart tape with an additional ryogdrirukitse device, the selected temperature range is measured in b-200 C, 200-400С and 4Оо-ёОос. Here, for measuring and recording the temperature; I can set up instruments with 0–0 0schalry, which record the measurement results in ranges 6-4Or-OrO S. Et. It is provided by forbid that the CHipHan field sensor 1 is connected to the recording devices of the sensor signal scaling unit 13, controlled by the sigalling contact device 15 3.i When the temperature is reached, the contact device is shifted to the range1 of the sensor scaling unit 13 for a range of 200-400 ° C, and when it reaches 1blc, the 13th of 1Tb is switched to third The temperature range is 40r-600 ° С. The proposed device for measuring and recording the temperature and its rate of change differs in that the process of measuring and leveling the readings of the recording devices is divided in time, which ensures a measurement accuracy in digital form. In this device, a command is first passed to measure the increments (i.e., the rate of change) of the temperature and the result is stored in digital form in the display unit: and then the time relay delivers