KR100196433B1 - Cool water machine using thermocouple - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electronic cooling chiller using a thermoelectric element (TEC module), comprising a cold water container 10 surrounded by a heat insulating material 14, and a shaft 18 having a predetermined height in the center of the cold water container 10. B) 16 supported by a) and cold water 19 extending from one side of the lower portion of the cold water container 10, and installed so that the heat absorbing surface 22 contacts the lower end of the cold water container 10. A thermoelectric element 20 adapted to absorb heat from the cold water tank 10; and a cooling fan 30 installed adjacent to the heat sink 26 of the thermoelectric element 20 to dissipate heat from the heat sink 26 to the outside. ) And; The thermoelectric element controller 42 for controlling the operation of the thermoelectric element 20 by detecting the temperature of the water to maintain the temperature in the cold water tank 10 at a predetermined temperature, and the heat sink 26 of the thermoelectric element 20. The cooling fan control unit 44 which controls the operation of the cooling fan 30 by detecting and comparing a temperature with an external air temperature, and receives the AC power, and supplies the DC power to the thermoelectric element control unit 42 and the cooling fan control unit 44. It is composed of a control circuit device 40 is provided with a power supply unit 46 to supply, it is easy to miniaturize and increase the energy efficiency while not causing environmental pollution and noise and vibration.

Description

Cold water machine using thermoelectric element

1 is a cross-sectional view showing one embodiment of the present invention.

2 is a circuit diagram showing a thermoelectric controller of the present invention.

3 is a circuit diagram showing a cooling fan control unit of the present invention.

4 is a circuit diagram showing a power supply of the present invention.

* Explanation of symbols for main parts of the drawings

10: cold water container 12: circular hook

14: heat insulating material 16: baffle

18: shaft 19: cold water outlet

20: TEC module 22: heat absorbing surface

24: heat sink 26: heat sink

30 cooling fan 42 thermoelectric controller

44: cooling fan control unit 46: power supply unit

50: bottled water 100: the present invention

TR1, TR2, TR3: Thermistor

VR1: Variable resistor

R1, R2, R3, R4, R5, R6, R7, R8, R9, R10: resistor

OP1, OP2, OP3: Operational Amplifiers Q1, Q2, Q3: Transistor

D1, D2: Diode ZD1: Zener Diode

C1, C2, C3: condenser SCR1, SCR2: silicon controlled rectifier

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cold water cooler that freely sets a temperature in the previous temperature range and keeps the set temperature constant. In particular, the present invention relates to a small water cooler of an electronic cooling method using a thermoelectric element (TEC module).

Conventional chillers generally use a compression cooling method by forcibly circulating a refrigerant such as freon gas or ammonia by a compressor, but such refrigerants are representative materials that destroy the earth's ozone layer or pollute the global environment. This can cause serious environmental problems when disposed of, and the user is more and more regulated internationally, so there is no choice but to use new substitute materials. However, the alternative refrigerants developed so far are not only technically difficult to use, but also costly. It is still uneconomical.

In addition, considering that the use temperature of a small chiller is generally 3-10 ° C. and its capacity is small, a conventional chiller requiring a circulating pipe system and a compressor for a phase change operation of the refrigerant and its size is required. Is not only relatively large, but also has an inefficient problem in terms of energy consumption, and also causes unnecessary noise and vibration by the method of forced circulation of the refrigerant by the compressor.

Thus, in the Japanese Patent Application No. 4-115641 Cooling Device of May 8, 1992, a place using a thermoelectric element has been posted to improve the problems of the conventional cooling method using the above-mentioned compressor. There is a problem in that the medium is located at the connection portion of the first storage unit for storing the uncooled medium and the second storage unit located below the first storage unit to store the cooled medium, so that the medium cannot be cooled effectively.

Accordingly, the present invention can solve the problems described above, by using a thermoelectric element that absorbs and releases heat by using the polarity of the current, without causing environmental pollution, the size can be miniaturized and there is little noise and vibration In addition, the aim is to provide a chiller that can efficiently cool the medium.

Cold water container of the present invention for achieving this object, the cold water container is formed in the cold water outlet is formed on the lower side so that the water can be discharged to the outside while the water is surrounded by a heat insulating material; A disc-shaped baffle supported by an axial rod of a predetermined height vertically installed from a center of a bottom surface of the cold water container and separated up and down while maintaining a predetermined distance from the cold circumferential surface of the cold water container; The thermoelectric element is installed in the cold water tank to absorb heat from the stored water inside and to be released to the outside, wherein the thermoelectric element is installed in the lower portion of the shaft through a truncated cone-shaped conductor to the water temperature of the cold water tank While the operation is controlled by a thermoelectric element controlling unit for comparing the temperature detected from the set value to the set value, a cooling fan is installed adjacent to the heat sink of the thermoelectric element to detect and compare the temperature of the heat sink and the external atmospheric temperature. It characterized in that the operation is configured to be controlled by.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

In FIG. 1, a circular hanger 12 is formed on an upper portion of the cold water container 10 formed in the main body 100, and thus, when the bottled water bottle 50 is placed, the air flow to the outside can be blocked. The outer circumferential surface of the) is surrounded by a heat insulating material 14 to block heat flow with the outside as much as possible, and a disc-shaped baffle 16 having a predetermined height is provided at the center of the cold water tank 10. It is installed to be supported by the () is to hinder the flow of water in the upper and lower portions in the cold water tank 10, while the cold water outlet 19 is provided on the lower side of the cold water tank 10 is provided with opening and closing means. .

In addition, the thermoelectric element 20 includes a heat absorbing surface 22 for absorbing heat and a heat dissipating surface 24 for dissipating heat, and a plurality of heat sinks 26 extending in the longitudinal direction from the heat dissipating surface 24 are provided. The heat absorbing surface 22 is installed in the lower portion of the cold water container 10 to be in contact with a predetermined conductor 23 through the provided structure, and when the required power is supplied, the heat absorbing surface 22 absorbs heat from the cold water container 10. It is transmitted to the heat sink 26 through 24 to dissipate heat.

At this time, the conductor 23 is formed in a truncated cone shape, the upper surface having a relatively narrow surface is installed on the outer circumferential surface of the cold water tank 10 of the lower shaft rod 18 is installed, the lower surface of a relatively large area The heat absorbing surface 22 of the thermoelectric element is attached.

In addition, the cooling fan 30 is installed adjacent to the heat sink 26 of the thermoelectric element 20 in order to promote heat dissipation of the heat sink 24, thereby dissipating heat generated from the heat sink 24 to the outside at a high speed. Prevents reverse conduction of heat.

As shown in FIG. 3, the operation controller 42 of the thermoelectric element 20 includes a thermistor (RT1) and a variable resistor for setting temperature (the resistance value changes with temperature change of water in the cold water tank 10). A voltage divider composed of VR1) is connected to the non-inverting input terminal of the operational amplifier OP1 to input a variable potential proportional to the temperature difference, while a low voltage divider composed of resistors R1 and R2 provides an inverting input of the operational amplifier OP1. The output terminal of the operational amplifier OP is connected to a terminal, and the output terminal of the operational amplifier OP is connected to the base terminal of the transistor Q1 of the transistors Q1 and Q2 connected through the voltage divider circuit of the resistors R3 and R4. It is configured to be connected to control the drive current of the thermoelectric element 10.

In addition, as shown in FIG. 4, the cooling fan control unit 44 has a resistance value that changes in response to a temperature change of thermistor (RT2) and an external atmosphere in which the resistance value changes with a temperature change of the heat sink 26. A voltage divider consisting of a thermistor (RT3) is connected to the non-inverting input terminal of the operational amplifier (OP2) to input a variable potential according to the temperature difference between the heat sink and the air, and a voltage divider consisting of resistors (R5, R6) is calculated. The reference potential is input to the inverting input terminal of the amplifier OP2, while the output terminal of the operational amplifier OP2 is connected to the base terminal of the transistor Q3 through the resistors R7 and R8 to control the operation of the cooling fan 30. It is supposed to be.

In addition, FIG. 5 shows the power supply unit 46, which is designed as a switching power supply in consideration of the heat generation amount and efficiency of the thermoelectric element 20, and is configured to minimize the heat loss generated by using a transformer in the related art. . The AC input is converted to a DC power source by varying the operating angle of the SCR. An important element of the SCR's trigger is a programmable single junction transistor that provides variable operating time and accurate control. It is used to achieve a high degree of isolation between no loads.

Hereinafter will be described in detail the operation of the present invention configured as described above.

When the bottled water bottle is placed on the top of the water cooler 100, the bottled water is immediately moved to the cold water bottle, and the bottled water is filled in the cold water bottle to a predetermined height, and a predetermined temperature (typically between 0 and 10) is operated by operating a temperature setting switch. When it is set to and the power switch is turned on, the AC line voltage is converted into DC power by changing the operation angle of the SCR, and is supplied to the thermoelectric element controller 42 and the cooling fan controller 44.

At this time, the thermistor (TR1) of the thermoelectric element control unit 42 is attached to the most suitable place to detect the temperature of the water in the cold water tank (10) detects the temperature of the water to be cooled, the resistance value is variable, the temperature of the water to be cooled Is higher than the set temperature, that is, when the resistance value of the thermistor TR1 becomes lower than the resistance value of the variable resistor VR1, the voltage of the inverting input terminal of the operational amplifier OP1 becomes lower than the reference voltage of the non-inverting input terminal. The thermoelectric element 20 is driven by conducting the transistor Q1, and the heat absorbing surface 22 of the thermoelectric element 20 is set by absorbing heat from the cold water tank 10 to release heat from the heat sink 26 to the outside. To maintain the temperature.

On the other hand, a variety of methods for controlling the cooling fan 30 to promote heat dissipation of the heat sink 26 can be used, but first, the method of always operating the cooling fan 30, noise is always generated and unnecessary There is a problem that power consumption occurs, and secondly, the method of operating only when operating the thermoelectric element 20 stops the operation of the thermoelectric element 20 and at the same time the cooling fan 30 also stops on the heat sink 26. Since the remaining heat is reversed back to the cold water tank, the cooling efficiency is lowered. In the present invention, the thermistor TR2 of the cooling fan controller 44 detects the temperature of the heat sink 26, and the thermistor TR3 is external. By detecting the air temperature, when the temperature of the heat sink 26 is higher than the external air temperature, the cooling fan 30 operates to promote heat dissipation of the heat sink 26.

As described above, the water cooler of the present invention uses an electronic cooling method using a thermoelectric element, and has a simpler structure than the conventional compression cooling water cooler, so that less trouble occurs, it is easier to miniaturize, and there is no noise and vibration. It is a useful invention that does not use environmentally harmful substances.

Claims (1)

A cold water container 10 formed with a cold water outlet 19 on one side of the lower surface so as to be surrounded by the heat insulating material 14 to discharge water to the outside as needed; A disc-shaped baffle 16 which is supported by a shaft bar 18 of a predetermined height vertically installed from the center of the bottom surface of the cold water container 10 and separated up and down while maintaining a predetermined distance from the inner circumferential surface of the cold water container 10. ) And; In the cold water machine composed of a thermoelectric element 20 installed in the cold water tank 10 to absorb heat from the water stored therein and release it to the outside, the thermoelectric element 20 is mediated through the truncated cone-shaped conductor (23) The thermoelectric element controller 42 is installed at a lower portion of the shaft rod 18 so that the operation is controlled by the thermoelectric element controller 42 comparing the temperature detected from the water temperature of the cold water tank 10 with a set value. Cooling fan (30) is provided adjacent to the heat sink (26) characterized in that the operation is controlled by the cooling fan control unit 44 for detecting and comparing the temperature of the heat sink (26) and the external atmospheric temperature.