SU607200A1 - Arrangement for control of thermoelectric battery temperature - Google Patents

Description

(54) DEVICE FOR REGULATORS OF AN AND I TEMPERATURE OF THERMOELECTRIC BATTERIES

simplify the control circuit, introduce a clearer synchronization of the control pulses with the supply voltage, reduce the power consumed by the control circuit, since the current through the optocoupler photoresistor flows only at the beginning of the supply voltage half-period, then the power thyristor recovers the photoresistor of the photoresistor.

The use of optocouplers for switching thermoelectric batteries made it possible to obtain a simple and reliable switching mechanism for thermoelectric batteries from heating to cooling and back.

The drawing shows the proposed device.

It contains an AC measuring bridge 1 with a temperature sensor 2 in one of the shoulders, a power transformer with primary 3 and secondary 4 and 5 windings, a measured signal sign detector made by optocoupler 6, a diode bridge 7 and a resistor 8, a thyristor switch 9, OR elements performed on optocouplers 10, П and 12, keys made on optocouplers 13, 14, 15 and 16, thermopile 17.

The device works as follows.

In the initial state, the adjustable temperature is set as desired. In this case on. A potential difference arises at the output of the measuring bridge I, which is transformed by a sign detector controlled by an optocoupler b. The constant component of this signal is isolated and applied to the LEDs of the optocouplers of the keys and elements OR 10-12. Moreover, the polarity of the control voltage, which is determined by the phasing of the secondary windings of the power transformer and the ratio of the resistances of the sensor and the setpoint temperature, will be such that the optocouplers 14 and 15 turn on the thermoelectric battery in cooling mode.

In this case, a reverse polarity voltage is applied to the LEDs of the optocouplers 13, 16, therefore, they are locked.

The Yu-12 optocouplers, built according to the type of circuits that implement the logical operation OR, are open if the unbalance of any sign is present in the measuring part of the circuit, since one of the LEDs illuminates the photoresistor of the optocouplers in question.

The conductive state of the photoresistors allows the control electrodes of the thyristor switch 9 to be synchronized in phase with the network voltage to a control voltage.

By introducing a phase shifter into the thyristor control circuit, it is possible to adjust the output current of the rectifier using the pulse-pulse method using optocouplers 10-12. . Cooling of the object continues until the target temperature in the object is reached. In this case, the resistances of the measuring bridge are equalized, and the voltage on the output of the sign detector is zero, i.e. the voltage on the LEDs of the optocouplers is zero, and the thyristor switch turns off when the power supply passes through zero.

With a further decrease in temperature

in the object, at the output of the measuring bridge, a potential difference of a polar-positive polarity arises in relation to the considered case and the regulation is carried out similarly to that described, but in the reverse index. The use of a sign detector controlled by an optocoupler in a thermoelectric detector's temperature-controlling device improves the accuracy of the controlled temperature, and the use of optocouplers to realize automatic switching of the thermopile from cooling to heating and control of the rectifier provides a simple and reliable non-contact device.

The introduction of this device to control the temperature of thermoelectric batteries will improve the accuracy of temperature maintenance, the reliability of the installation by 25% and reduce operating costs by 15%.

Claims (2)

1. A device for regulating the temperature of thermoelectric batteries containing an ac current measuring bridge, an input diagonal which is connected to the secondary winding of the power transformer, and an output to the detector of the sign of the measured signal, and a thyristor key, characterized in that it contains the OR elements and additional keys containing optocouplers, the photoresistors of the optocouplers of the OR elements are connected to the control inputs of the thyristor keys, and the LEDs to the output of the sign detector, to which the LEDs of the included anti-parallel optocouplers of the keys are connected in series with the photoresistors of the thermal battery connected in series with the thyristor the keys to the power source. 2. The device according to claim 1, 5, wherein the detector of the sign of the measured signal is made by an optocoupler, the LED of which is connected to the input of the detector of the sign, and the photoresistor is connected to one diagonal of the diode bridge, the secondary diagonal of which is connected in the second diagonal 0 transformer winding and resistor connected in parallel to the output of the sign detector. Sources of information taken into account in the examination: I. Patent of Germany No. 1Ы0967. cl. 17a, 20, 1970. 2. US patent No. 313154.5, cl. 62-3. 1973. 4JLA