SU402756A1 - SYSTEM OF AUTOMATIC DISCRETE CONTROL OF TEMPERATURE IN TECHNOLOGICAL AGGREGATES - Google Patents

Description

one

The invention may be used in the metallurgical, chemical and other industries of the industry.

Known systems of automatic discrete temperature control in technological units with aggressive or abrasively acting flows of gases or melts of substances, for example metals, containing a thermal receiver with a converter, a secondary recording device, to the input of which a thermal receiver is connected, a command input-output device of the thermal receiver in the measured medium, drive which controls the command device.

However, the known devices are distinguished by insufficient control accuracy due to the continuous movement of the chart of the recording instrument, and most importantly, the inability to carry out automatic temperature control.

To improve the measurement accuracy and automatic temperature control in the proposed system, a memory device is installed, the input of which is connected to one of the outputs of the command device, and the output - to the input of a recording device having an output converter connected with automatic control of the temperature to the input of the comparison unit control device, the second output of the command device is connected with the servo-mechanism of the input-output device, and the third is connected to the circuit Yeni - turns off the inverter to the storage device.

The drawing shows a block diagram of the described system.

The system contains a thermal receiver 1, a converter 2, an input / output device 3 of the thermal receiver into the measured medium, a command 4 and a memory 5, a recording device 6 with an output converter.

The system works as follows.

At a given program point in time, the input-output mechanism of the thermal receiver is inputted into the measured medium by a signal from the co-mandrel device 4. After a time equal to

1.85-1.9 time constant (Gt) of the thermal receiver, device 4 turns on the drive of the chart of the recording device, connects the output of the converter to the memory device for current (0.25-0.2) T

a recording device, calibrated in ° C, records the signal coming from device 5. After a time equal to (2.0-2.05) Gt, Device 4 disconnects the converter from device 5, and simultaneously breaks the circuit

powering the drive of the graph paper and gives the command to the input-output mechanism for outputting the thermal receiver from the measured medium. The magnitude of the signal received from the transducer in device 5 and recorded by the recording device is stored until the next measurement cycle.

To perform automatic temperature control, the secondary device has an output converter, the output of which is connected to the input of the control unit of the regulating device.

The measurement period, consisting of the time interval during which the thermal receiver is outside the measured medium, the length of time during which the thermal receiver is inserted and removed from the test object and is located in it, is determined by the averaged static and dynamic characteristics of the test object and the thermal receiver. also the nature of temperature change (disturbing influences) in frequency and amplitude, determined as a result of statistical processing of measurement results over a long time.

Subject and use of

An automatic discrete temperature control system in process units with aggressive or abrasively acting flows of gases or melts of substances, such as metals, containing a thermal receiver with a converter, a secondary recording device, a command device,

a device with a servo-mechanism for cyclical input-output of a thermal receiver into the measured medium, characterized in that, in order to improve the accuracy of measurement and the implementation of automatic control

a temperature device is installed in it, the input of which is connected to one of the outputs of the command device, and the output is connected to the input of a recording device having an output converter connected to the control unit input of the regulating device, which is used for automatic control of the temperature. The second output of the command device is associated with the servomechanism of the input / output device, and

the third one is included in the connection circuit of disconnecting the converter to the storage device.