SU953629A1 - Device for automatic temperature regulation - Google Patents

Description

(5) DEVICE FOR AUTOMATIC TEMPERATURE

Claims (2)

The invention relates to temperature control devices according to a program and can be used to control the temperature regime of various objects of electrical heating. A device for controlling the temperature of an electric furnace is known, which provides a higher accuracy in temperature control. The device contains two temperature sensors, one of which is installed on the heater and the other on the sample, a comparator unit, an adder, a temperature setter, an amplifier and a control unit. The circuit elements are interconnected in such a way that the sensor signals are compared with the master signal independently of one another and are transmitted to the accumulator. In this case, there is an ambiguity in the determination of the voltage entering the control unit, which is the cause of insufficiently high accuracy and temperature control 1. The closest to the invention in its technical nature is a device for programmatically controlling the temperature of an electric resistance furnace, which contains two temperature sensors, one of which is installed: on the heater, and the other on the sample, comparison units, temperature setter, amplifier and control unit. The circuit elements are interconnected in such a way that during the operation the signals of both temperature sensors are compared and, in addition, the signal of the sensor installed on the heater is compared with the temperature setter signal, while the voltage controlling the heater is proportional to the difference between the last two signals and corrected by the difference with; the signals of the two sensors f2. 3 A disadvantage of the known device is n (the accuracy of temperature control is redundant, because during the operation ycTpofitrBa is not directly compared to the signals of the sensor installed on the sample with the temperature setting signal. The purpose of the invention is to improve the accuracy of temperature control. The goal is achieved by A device for controlling temperature, containing successively connected sensor of sample temperature, first comparison unit, arithmetic unit and control unit laziness, and a series connected temperature setting unit and a second comparison unit, the output of which is connected to the second input of the arithmetic unit, as well as a heater temperature sensor, the heater temperature sensor is connected to the second input of the first comparison unit, the second input of the second comparison unit is connected to the sensor sample temperature, and the arithmetic unit is designed as a differential amplifier. Such an embodiment of the device provides a comparison of the sensor signal installed on the heater during its operation, with the signal for temperature sensor through the sample temperature. And in addition, direct comparison of the signal of the sensor installed on the sample with the signal of the temperature setter. This leads to the fact that the device at work tends to nullify both differences of signals simultaneously, which ensures the elimination of ambiguity in adjusting the temperature of the sample and thereby increasing the accuracy of regulation. The drawing shows a diagram of the proposed device. The device for autoregulation of temperature contains a sensor 1 of the sample temperature, which is mounted on the sample and is associated with the first 2 and second 3 comparison units. The heater temperature sensor is connected to the second input of the comparator unit 2. Unit 2 of comparison 5 whose output is provided with a voltage divider, and unit 3 of comparison is connected to differential amplifier 5, which is in turn connected to control unit 6. Temperature control unit 7 is connected to 9. unit 3 of comparison. The device works as follows. The signals from sensors 1 and temperatures are received in comparison unit 2, where they are compared and divided with division factor k, after which the received signal arrives at the input of differential amplifier 5. At the same time, signals from sensor 1 and temperature setpoint 7 are received in comparison unit 3. Comparison signal from the comparison unit 3, it is fed to the second input of the differential amplifier 5. At the same time, the output voltage U of the differential amplifier 5 is received; The control unit 6 is proportional to the following signal difference: Unx (U, - and „) - k- (L), where and is the signal of the setpoint temperature; , UQ is the sample signal; . and the heater signal; k is the voltage division factor. The optimal values of the coefficient k lie within 0,, 01. At, 1, the time for setting the desired temperature significantly increases. At 01, the effect of the signal from comparator 3 becomes insufficient for the stable operation of the device. 8, the proposed device considers both signals from the sample and from the heater. In this case, there is no ambiguity in the signal entering the control unit, since the signal of the sensor mounted on the heater is compared with the signal of the setter through the signal of the sensor mounted on the sample. Thus, the invention provides higher temperature control accuracy. The invention The device for automatic temperature control, comprising a series-connected temperature sensor, a sample, a first comparison unit, an arithmetic control unit and subsequently connected temperature unit and a second comparison unit, the output of which is connected to the second input of the arithmetic unit, as well as a temperature sensor of the heater, differing from In order to increase the accuracy, the temperature sensor of the heater is connected to the second input of the first comparison unit, the second input of the second comparison unit It is connected with the sample temperature sensor, and the arithmetic unit is performed 96 in the form of differential amplifiers. Sources of information taken into account during the examination 1. USSR author's certificate N- $ 51221, cl. G 05 D 23/22, 197. 2. Instruments and control systems, 1973, No. 3, p. 23-24 (prototype). about/,