SU1042002A1 - Device for adjusting temperature - Google Patents

Abstract

DEVICE FOR REGULATING TEMPERATURE, containing a thermocouple, temperature-sensitive divider; voltage, power circuit switch of the heater, connected to a source of stabilized voltage, NII and connected in series an amplifier and a null organ, characterized in that, in order to improve accuracy, the device contains a phase detector, a coupling capacitor connected between the amplifier output and the zero-or-gan input, a pulse generator and the first key element connected in series to its output and the inverter connected in series and the second key element to the second input of which the thermocouple is connected, and output - the input of the amplifier and the output of the first key element connected by the input to the middle point of the temperature-sensitive divider, the first input of the phase detector is connected to the output of the pulse generator, the second input is connected to (L output of the zero-organ, and the output is connected to the power switch of the heater) .

Description

The invention relates to the field of automatic control and can be used to build automatic temperature controllers in various process plants and thermostats. A device for temperature control is known, which contains a thermocouple, an amplifier, a temperature setter and a power circuit switch of the heater fl. The disadvantage of the device is that it makes a direct comparison of the potential of the thermal pair with the potential of the temperature limiter, as a result of which the temperature regulation is less accurate due to the influence of the temperature change of the cold junction of the thermocouple. The closest in technical essence to the proposed invention is a temperature control device comprising a thermocouple, a temperature-dependent voltage divider connected to a source of stabilized voltage, an amplifier, a zero-organ and a heater power switch. In the device, the potential of the thermocouple is compared with the potential at the output of the voltage divider, the division factor of which depends on the temperature and is chosen such that its changes compensate for the changes in the EMF of the thermocouple due to the temperature instability of its cold junctions. However, the device is not sufficiently precise control, which is associated with the zero drift of the amplifier and the instability of its gain with temperature, the temperature control of the amplifier is undesirably significant, increasing the complexity and size of the device. . The purpose of the invention is to improve the accuracy of the device. . To achieve this goal, a temperature control device containing a thermocouple, a temperature-sensitive voltage divider, a switch for heating the power circuits connected to a source of stabilized voltage and connected in series to an amplifier and a zero-organ contains a separation capacitor connected between the amplifier output and the zero-organ input phase detector, pulse generator and the first key element connected to its output and the inverter and the second key element connected in series nt, to the second input of which a thermocouple is connected, and to the output the input of the amplifier and the output of the first key element connected to the middle point of the temperature-sensitive divider, the first input of the phase detector connected to the output of the pulse generator, the second input with the output H5 l-organ, and output with a power circuit switch of the heater. The drawing shows a block diagram of a device for temperature control. The device contains a thermocouple 1 connected through the first 2 key element to the input of the amplifier 3, a thermosensitive voltage divider 4 connected to the source .5 of the stabilized voltage. The output of the voltage divider 4 through the second key element is connected to the input of the amplifier 3, the output of which is connected via a coupling capacitor 7 to the input of the zero-body 8. The output of the zero-body 8 is connected to the second input of the phase detector 9, the first input of which is connected to the output generator 10, p. the first input of the second b key element, and through the inverter 11 with the first input of the first 2 key elements. The output of the phase detector 9 is connected to the switch 12 of the power circuits of the heater. The device operates as follows. The generator 10 is alternately open. Elements 2 and b, through which the output of thermocouple 1 and the output of voltage divider 4, the potential of which determines the desired value, are alternately connected to the input of amplifier 3. temperature reduction. As a result, an alternating voltage of a rectangular form is formed at the input of the amplifier 3, the upper level of which is equal to the threshold voltage, and the lower g is the EMF of the thermocouple 1. When the temperature of the cold junctions of the thermocouple 1 changes, the emf changes by the same amount The threshold voltage is also removed from voltage divider 4., so that the amplitude of the alternating voltage at the input of amplifier 3 remains constant. With increasing temperature, the thermocouple thermocouple 1 of its EMF increases, and the amplitude of the alternating voltage decreases until the emf of the thermocouple becomes equal to the threshold voltage, and then begins to increase, but its phase is reversed. The amplifier 3 amplifies the input signal, which through the coupling capacitor 7 enters the input of the zero-organ 8. The separating capacitor 7 separates the signal from the constant component, thereby eliminating the influence of the drift, the zero of the amplifier 3. The zero-organ8 converts the signal to the standard rectangular voltage and constant amplitude, the phase of which is reversed when the emf of thermocouple 1 exceeds the threshold voltage. The signal from the output of the null organ 8 is fed to the input of the phase detector 9, to the second input of which the generator signal 10 is applied. The phase detector 9 can be made in the form of an EXCLUSIVE OR circuit. at his entrances

 in phase and equal to the logical unit when the phase signals on

1 inputs, enters the switch 12 of the heater circuit 12, which, turning the heater on and off (not shown), supports

the set temperature at the thermocouple placement point 1. Switch 12 may be implemented as a relay, contactor, or semiconductor device. .

The presence in the device for temperature control of key elements controlled by a generator, an isolating capacitor and a phase detector makes it possible to increase the control accuracy, since the amplifier output eliminates the influence of the zero drift of the amplifier. Using the invention makes it possible by increasing the accuracy of the adjustment Vani reduce the power of the heater by 7 ... 9%,

Claims (1)

A TEMPERATURE CONTROL DEVICE containing a thermocouple, a thermosensitive voltage divider, a heater power circuit switch connected to a stabilized voltage source and connected ♦ sequentially ¹ amplifier and zero-organ; characterized in that, in order to improve accuracy, the device comprises a phase detector, an isolation capacitor connected between the output of the amplifier and the input null-OR * gan, a pulse generator and the first key element connected to its output and the inverter and the second Key connected in series ele- ment, to the second input of which a thermocouple is connected, and to the output is the input of the amplifier and the output of the first key _; element connected by input to The midpoint of the thermosensitive divider, with the first input of the phase q detector connected to the output of the pulse generator ®, the second input to the output of the zero-organ, and the output to the switch of the power circuits of the heater. N3 I