SU1193393A1 - Thermoelectric refrigerator - Google Patents

Abstract

THERMOELECTRIC REFRIGERATOR, containing a thermoelectric battery with a power supply unit, a temperature controller and a control unit with a hydraulic relay, characterized in that, in order to reduce dynamic temperature fluctuations and increase the efficiency, the control unit is designed as a controlled voltage regulator with element 2I-HE installed between the power supply and. a thermoelectric battery equipped with a number-pulse modulator connected to the first input, element 2И-НЕ, and the temperature controller is designed as a contact thermometer with an inverter connected to the second input of element 2И-НЕ. with so with so with so

Description

The invention relates to refrigeration engineering, namely to the field of the design of thermoelectric refrigerators.

The purpose of the invention is to reduce dynamic temperature fluctuations and increase efficiency.

The drawing shows a circuit diagram of the proposed thermoelectric refrigerator.

The electric circuit of the thermoelectric cooler contains a power supply unit 1, a controlled voltage regulator 2, a thermopile 3 with a thermostatted object 4, a contact thermometer 5 with an inverter, a pulse-pulse modulator .6 with a setting of the average power (cooling capacity) of the thermopile, element 7 of type 2I NOT, hydraulic relay 8. Stabilizer 2 voltage in turn / contains register 9 divider-voltage and microcircuit 10.

Thermoelectric refrigerator works as follows.

When the voltage is applied to the power supply unit 1, and the water flow cooling the hot junctions of the thermopile 3 has a normal pressure, a voltage appears at the output of the stabilizer 2 that is inversely proportional to the transfer ratio of the voltage divider on the feedback feedback resistors of the stabilizer 2 wives The voltage from the output of the stabilizer 2 is fed to the thermopile 3. The required temperature of the object 4 is determined by the movement of the contact in the contact thermometer 5, the value of the optimal average power for a given temperature value is set by the setting code of the pulse-modulator module 6. 6. When using a six-digit modulator 6 The average power is adjusted from 0 to the maximum value with a discreteness of 1.5%.

When the control object 4 has an insufficiently low temperature.

The contact of the thermometer 5 is closed, and the input of the element 7 of type 2I-NOT is supplied from the output of the inverter with a voltage of logical unit, from the input of the modulator 6 to the second input of the element 7 receives positive pulses with a frequency determined by the set code. At the same time, during each pulse, the element 7 by the output circuits closes the resistor 9 of the voltage divider j, thereby reducing the transfer coefficient of the feedback voltage divider of the stabilizer 2, which leads to an increase in the output voltage of the latter. In this case, the current through the thermal battery 3 increases. i.e. its cooling capacity. When a logical voltage appears at the inputs of element 7. zero either from the contact thermometer 5 through the inverter (the temperature of the object 4 has decreased to a predetermined value), or from the voltage of the modulator 6 (in accordance with the set code), the bypass from the resistor is removed

9, and at the output of the stabilizer 2, the voltage decreases. As a result, a series of adjustable current pulses is obtained against the background of a constant feeding of the thermopile 3, which allows sufficiently smoothly dispensing its holding capacity.

Permanent recharge prevents the heat exchange between the adjustable volume 4 (cold thermopile junction) and the external environment (hot, thermopile junction). The magnitude of the make-up current is selected by the ratio of the divider resistors, the outcome. from the condition of thermal insulation of the object 4 regulation.

In the absence of water flow, the contact of the hydraulic relay 8 closes, the control input of the microcircuit 10 connects to the common wire, while the output voltage of the microcircuit is

10, and therefore, the output voltage of the stabilizer 2 drops to zero, thereby removing power from the thermopile 3.

Claims (1)

(57 Thermoelectric refrigerator containing a thermoelectric battery with a power supply, a temperature controller and a control unit with a hydraulic relay, characterized in that, in order to reduce dynamic temperature fluctuations and increase efficiency, the control unit is made in the form of a controlled voltage stabilizer with a 2I-NOT element installed between the power supply and the thermoelectric battery and equipped with a number-pulse modulator connected to the first input of the 2I-NOT element, and the temperature controller · is made in · ide contact thermometer with an inverter connected to the second input of the NOR element 2I. _with <e