SU1403024A1 - Temperature control device - Google Patents

Abstract

The invention relates to the automatic regulation of non-electric quantities, in particular temperature, using electrical means and can be used in thermostatic systems with a short time to set the operating temperature.

Description

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Ratura. The circuit of the invention is to simplify the device and increase its reliability when regulating the temperature of two objects. For this device, the first temperature sensor 1, the second temperature sensor 2, the first temperature setpoint 3 and the second temperature sensor 4, the comparator 5, a constant voltage source b, containing four rectifying diodes 7.8.9 and 10 and a stabilizer 11, a yellow thyristor actuator 12, a second thyristor actuator 13, a first pump. The invention relates to the automatic regulation of non-electrical quantities, in particular temperature, using electrical It can also be used in thermostatic systems with a short time for setting the operating temperature.

The purpose of the invention is to simplify the device and increase its reliability when using it to regulate the temperature and temperature of two objects.

; The drawing shows a schematic diagram of the proposed device

The device for temperature control contains the first 1 and second 2 temperature sensors, the first 3 and second 4 temperature controllers, the Comparate top 5, the constant voltage source 6, Genie, containing four rectifying diodes 7-10 and a stabilizer And, First 12 and 13 thyristor actuators, the first 14 and second 15 heaters, the alternating voltage source 16 and the diode switch 17 made on four commutation diodes 18-21.

Stabilizer II is made on resistor 22 (stabilizer input I) connected in series with the cathode of Zener diode 23, the anode of which (output of stabilizer 11) is connected to the cathode of Zener diode 24 and through capacitor 25 with the anode of Zener diode 24 (output of stabilizer 11).

the circuit breaker 14, the second heater 15 and the alternating voltage source 16, as well as the diode switch 17 on four switching diodes 18, 19, 20, 21, the device for adjusting the temperature allows the controller to independently monitor the temperature of the two control objects by introducing an additional diode switch consisting of four diodes. At the same time, the sampling frequency is the maximum possible for temperature control devices with thyristor actuators. 1 il.

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The comparator 5 is made on the operational amplifier 26, the inverting input of which (the first input of the comparator 5) through the resistor 27, and non-inverting (the second input of the comparator 5) through the resistor 28 are connected to the output of the station 11. The output of the operational amplifier 26 is connected to the cathode of the diode 29, the anode which through resistor

30 is connected to the base of the transistor 31 and one end of the resistor 32, the other end of which, the emitter of the transistor

31 and the cathode of the diode 33 are connected to the output of the stabilizer 1 1. The anode of the diode 33 and the collector of the transistor 31 are connected to the resistor 34 (the output of the comparator 5).

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The device for temperature control works as follows

At the beginning of the positive half-wave of the mains voltage, the first stabilizing diode 9 and the third rectifying diode 9 flow through the stabilizer diodes 23 and 24 through the first heater 14, through the resistor 27 and the third distribution diode 20 the current of the first temperature sensor 1 flows. Through the resistor 28 and the third distribution diode 20 flows the current of the first unit 3 temperature. Thus, at the beginning of the positive half-voltage of the mains voltage, a small current flows through the first heater 14, which causes almost no heating (heating of the first thermostating object, and the supply voltage of the comparator 5 is formed, in which the voltage of the first sensor 1 of the voltage and voltage the first setpoint temperature controller 3, which determines the desired temperature, monitors the temperature-controlled object.

At the beginning of the negative half-wave, the network voltage through the second heater 15, the second rectifying diode 8 and the fourth rectifying diode 10 flows the stabilization current 23 and 24o. Through the resistor 27 and the fourth switching diode 21 the current of the second temperature sensor 2 flows. Through the resistor 28 and the fourth switching diode 21 flows the current of the second unit 4 temperature. Thus, at the beginning of the negative half-voltage of the mains voltage, the supply voltage of the comparator 5 is formed, in which the voltage of the second temperature sensor 2 and the voltage of the second temperature setting device 4 are compared, determining the required temperature for monitoring the second temperature control object.

When the device is turned on at the beginning of a positive half-voltage network, the operational amplifier 26 generates a voltage that opens the transistor 31. Through the first rectifying diode 7, the zener diode 23, the emitter of the transistor 31 and the first switching diode 18 flows through the first thyristor actuator 12. As soon as the thyristor 12 opens and connects the first load, checker to the network, the potential of the anode of the thyristor 12 will become almost equal to the potential of the cathode of the third rectifying diode 9 and the source will be disconnected 6 and a DC voltage of the first sensor and the setpoint temperature and the comparator 5.

At the beginning of the negative half-voltage of the mains voltage, the operational amplifier 26 forms a voltage that opens the transistor 31. A second rectifying diode 8, -stableitron 23, an emitter of the transistor 31 and the second commutator diode 19 is flowing through the second rectifier diode

element 13. Once the thyristor 13 is opened and the second heater 15 is connected to the network, the potential of the anode of the thyristor 13 will become almost equal

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the potential of the cathode of the fourth rectifying diode O and disconnecting the constant voltage source, the second sensor and the temperature setting device and the comparator 5. Thus, the first is heated and. the second thermostatting objects to the required temperature tracking, while the elements of the constant voltage source, sensors, temperature setting devices and the comparator are under load only during the transients in the circuit at the beginning of the positive and negative half-voltage of the network.

As soon as the temperature at the location of the first temperature sensor 1 reaches the desired temperature of the first thermostating object, the operational amplifier 26 will generate a signal at which the transistor 31 closes during the positive half-wave of the mains voltage.

5 The first heater 14 will be turned off until the temperature at the location of the first temperature sensor 1 becomes lower than the required one. As soon as the temperature at the location of the second temperature sensor 2 reaches the desired temperature of the second thermostating object, the operating unit 26 will generate a signal that turns off the second heater I5 during the negative half-voltage of the network. The second heater 15 will be disconnected until the temperature at the location of the second temperature sensor 2 becomes lower than that required for the second temperature-sensing object.

Thus, the temperature control device allows independent monitoring.

5, the temperature of the two control objects is due to the introduction of an additional diode switch consisting of four diodes. At the same time, the sampling frequency is the maximum possible for temperature control devices with thyristor actuators.

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Claims (1)

Invention Formula Device for regulating the temperature-temperature, containing the first and second resistive temperature sensors and the first and second resistive setting devices temperatures, thyristor actuators, the anodes of which are connected to the first terminals of the respective heaters, a constant voltage source containing four rectifying diodes and a stabilizer, the outputs of which are connected to cocharator power supplies, and a source of alternating voltage, characterized in that simplifying the device and increasing its reliability when using it to control the temperature of two objects, it additionally contains a diode switch made on four commutation switches odes, the anodes of the first and second switching diodes connected to the output of the comparator, the cathodes of the first and second switching diodes are respectively connected with the control inputs of said first and; the second thyristor actuators, the anodes of which are connected respectively to the anodes of the first and second rectifying diodes, cathodes ten 20 30246 The ports of which are connected to the input of the voltage regulator, the output of which is connected to the anodes of the third and injecting rectifying diodes, the anode of the third switching diode through the first temperature sensor and the first temperature controller are connected respectively to the first and second inputs of the comparator, which respectively through the second temperature sensor and the second temperature setter is connected to the anode of the fourth switching diode, while the cathodes of the third switching diode, the third rectifying diode, the first thyristor the second control element and the second output of the second heater are connected to the first view of the alternating voltage source, and the cathodes of the fourth switching diode, the fourth rectifying diode, the second thyristor control element and the second step of the first heater are connected to the second output of the alternating voltage source 15 25