KR200371260Y1 - The cool and warm device which utilizes the wings made of the thermoelectric element - Google Patents

Abstract

The present invention relates to a cold and hot air fan using a thermoelectric element is configured,

By using the characteristics of the thermoelectric element, which is cooled and heated on both sides by electricity respectively, it is applied to the fan blades, and composed of a material having high conductivity on both sides of the fan blade part which is grounded. One side of the heating elements composed on both sides of the fan blade becomes hot by changing the heat of both sides generated by the thermoelectric element and applying the contact part. It relates to a cold and hot air fan using a wing composed of a thermoelectric element capable of generating wind.

Description

The cool and warm device which utilizes the wings made of the thermoelectric element}

The present invention relates to a cold and hot air fan composed of the thermoelectric element on the blade of the fan, and more particularly, to configure the wing of the cold and hot fan similar to the wing of the fan, and separate the thermoelectric element and the heating element separately from the front and rear sides, respectively, It relates to a cold and hot air fan that can selectively use cold or hot air.

In general, cold air and hot air are produced as individual products. That is, a cold fan using a fan and a separate cooling device generates cool wind, and a hot fan uses the same principle as a conventional hair dryer, or a method of increasing ambient heat by using reflected heat generated by heating a heating element. Is being used. Therefore, users are actually purchasing and using the above products separately.

In addition, referring to the cold air fan using the thermoelectric element as in the present invention, there is a 'cooling fan using the thermoelectric element' No. 20-2003-0035883, the same principle as the conventional cold air using the cooling method, only cooling role A thermoelectric element is used as a main component, and a cooling unit composed of a cooling element, a thermoelectric element, a heat pipe, and a heat absorbing plate is formed at the rear of the fan to discharge air cooled through the cooling unit from the rear of the fan using the fan. .

As described above, not only the conventional hot and cold winders can be collectively used at a time, but also a need for the invention of a technology that can easily generate cold and hot air according to the user's selection while minimizing the weight and complexity of the configuration is urgently required.

Therefore, the present invention was created to solve the above problems,

A thermoelectric element is attached to a fan of a fan-like structure, and a heat conduction plate is formed on the opposite side of the wind discharge surface, so that one side of both sides is cooled and the other side is heated, and at the same time, It converts into DC power through converter for supply and selectively supplies power so that the heat conduction plate and grounded thermoelectric element on the discharge surface can be cooled or heated when selected as hot air and cold air. It was designed as the technical task of making it happen.

1 is an exploded cross-sectional view showing a preferred embodiment of the present invention

2 is a front, rear view of the wing of the present invention

3 is a cross-sectional view of the wing of the present invention

Figure 4 is a cross-sectional view showing a preferred embodiment of the present invention

5 is a perspective view showing a preferred embodiment of the present invention

6 is an explanatory diagram showing the hot and cold air conversion principle of the present invention

* Description of the major symbols used in the main parts of the drawings *

DESCRIPTION OF SYMBOLS 1: Wing 3: Thermoelectric element 5: Front thermal conductor

7: rear thermal conductor 9: protrusion 30: regulator

50: AC / DC converter

The present invention relates to a cold and hot air fan configured to selectively generate hot and cold air.

1 is an exploded cross-sectional view showing a preferred embodiment of the present invention, Figure 2 is a front, rear view of the wing of the present invention, Figure 3 is a cross-sectional view of the wing of the present invention, Figure 4 is Figure 5 is a cross-sectional view showing a preferred embodiment, Figure 5 is a perspective view showing a preferred embodiment of the present invention, Figure 6 is an explanatory view showing the cold and hot air conversion principle of the present invention with reference to the drawings in more detail,

In the structure of the fan composed of the wing portion 100, the shaft portion 200 of the fan, the support base 300, the pedestal 400,

As shown in FIG. 2, the wing part 100 of the present invention forms a thermoelectric element 3 by penetrating the center or one side of the insulator wing 1, and a heat conduction plate separately contacting both sides of the thermoelectric element 3. (5,7) is configured so that there is no ground to each other on the front and back of the wing portion 100, the front of the hot and cold air is discharged during the rotation of the blade (1) to the outside of the heat conduction plate 7 of the back In order to prevent the air on the back side from entering, the protrusion 9 is formed on the outside of the heat conduction plate 7 on the back side. When rotating, the air contacting the back side by the centrifugal force is discharged at right angles to the axis of the fan, 5 and 7), respectively, to prevent cooling and mixing of heated air from occurring.

Thermoelectric element is a generic term for elements using various effects represented by the interaction between heat and electricity.Thermistor, which is a device that uses temperature change of electric resistance, and electromotive force generated by temperature difference, Peltier element which is an element using the Peltier effect which is a phenomenon which heat absorption (or generation | occurrence | production) generate | occur | produces. Thermistors are a kind of semiconductor device whose electrical resistance changes greatly with temperature.Thermal temperature coefficient thermistor (NTC) whose electrical resistance decreases with the increase of temperature, and the constant temperature coefficient thermistor (PTC) whose resistance increases with the temperature rise. positive temperature coefficient thermistor). Thermistors are made by sintering oxides such as molybdenum, nickel, cobalt, and iron in plural components and used for stabilizing circuits, detecting heat, power, and light. The Seebeck effect is a phenomenon in which electromotive force is generated when two ends of two kinds of metals are connected, and the temperature of both ends is different, and it is applied to temperature measurement using a thermoelectric pair. The Peltier effect is connected to two types of metal ends. When current flows, one terminal absorbs heat and the other terminal generates heat depending on the current direction. By using semiconductors such as bismuth (Bi) and tellurium (Te), which have different electrical conduction methods, instead of the two kinds of metals, a Peltier device having an efficient endothermic and heat generating effect can be obtained. It is possible to switch between endotherm and heat generation in accordance with the current direction, and the amount of endotherm and heat generation is adjusted in accordance with the amount of current, and thus it is applied to the manufacture of a refrigerator having a small capacity or a precise thermostat near normal temperature. In this paper, the Peltier effect is used, and the thermoelectric element 3 composed of Peltier elements is applied.

As shown in FIG. 3, the thermoelectric element 3 having the above effect is formed through one side of the blade 1, and cold or heat generated from the thermoelectric element 3 is transferred to the front and rear surfaces of the blade 1. The heat conduction plates 5 and 7 composed of a conductor capable of effectively discharging are respectively grounded on both sides of the wing 1 while contacting the surface of the cooling heat dissipation of the thermoelectric element 3. At this time, the outside of the heat conduction plate 5 of the rear side as described above to form a protrusion 9 to prevent the mixing of the air of the front and back when rotating. In order to supply a current to the thermoelectric element 3 in the configuration of the wing unit 100, a direct current power source should be directly introduced into the thermoelectric element 3, and a current converted by direct current through the converter 50 will be described later. It configures the +,-conductive lines (a, b) that can be delivered to the thermoelectric element (3) to allow the current to flow. In the present invention, as illustrated in FIG. 3, the conductive lines a and b are formed on the inner surface of the wing 1.

When the cathodes and the anodes introduced into the conductive lines (a, b) are switched, the thermal conductors 5 formed at the front of which air is discharged may selectively control the cooling or heat generation of the thermoelectric elements 3, and thus the thermal conductors ( 5) is cold or hot to selectively generate cold and warm air during the rotation of the fan.

The heat conduction plates 5 and 7 are formed in a plate shape by using a material such as metal having high thermal conductivity, and the wing 1 is separated into the front and the rear of the wing in the center so that heat generation and endotherm of the thermoelectric element 3 can be reduced. In order to avoid interference as much as possible. To this end, the blade 1 is made of an insulating material having a low thermal conductivity.

The shaft portion 200 of the fan is a portion that is penetrated with the motor shaft in the same manner as in a conventional fan structure. However, in the present invention, in the power supply, two currents of a cathode and an anode are separately introduced. b) should be rotated in the state that is configured, the bearing connection method, motor brush, slip ring which is a well-known technique that allows the power of the direct current to be transmitted to the thermoelectric element 3 while rotating the portion that is bound to the motor shaft. By using a power transmission means such as to allow the DC power to be transmitted to the thermoelectric element 3 as it is even when the motor rotates. In this case, a separate power supply device may be used as the motor power means of the shaft portion 200 of the fan, or the motor may be selectively configured by acting as a DC motor using direct current introduced by using an electrical connection.

AC / DC converter 50 is a device for converting the alternating current to direct current, and serves to exchange the alternating current electricity that is usually used in electrical appliances with a direct current power source to be supplied to the thermoelectric element (3) in the present invention. That is, the current rectified by the DC through the converter 50 is transmitted to the motor and the thermoelectric element 3 through the conductive lines, respectively, the motor rotates, and the conductive line connected to the thermoelectric element 3 (a). Through b), DC power is supplied.

The pedestal 500 can be used more efficiently by controlling the temperature of the blade rotation and the discharge wind through the supply of power, such as is applied in the general electric fan and hot air fan.

In the present invention, which is configured as described above, the operation state as a whole,

AC current flows through the outlet and changes to DC power through the AC / DC converter 50. When the current controlled by the controller 30 is introduced into the thermoelectric element 3,

The heat conductors 5 and 7, which are grounded with the thermoelectric element 3 and are coupled to the front and rear surfaces of the wing 1, are conducted with heat that has been cooled or generated from the thermoelectric element 3, respectively, and the air in the vicinity is cold or warm. You lose.

When the front of the blade is adjusted to be cooled, when the rotary motor is operated by the controller 30, cold air is blown from the discharge portion of the front of the blade.

When the cathodes and the anodes supplied to the conductive wires a and b are exchanged with the thermoelectric elements 3 to use the warm air, the heat conductors 5 on the discharge surface and the parts of the grounded thermoelectric yarns 3 grounded generate heat. The portion of the rear surface of the thermal conductor 7 and the grounded thermal element 3 is cooled, and the thermal conductors 5 and 7 are respectively cooled and heated. Therefore, the use of cold air at the time of rotation becomes possible.

At this time, the edge portion of the heat conductor 7 of the rear side constitutes a protrusion 9 so that the air of the rear side does not flow into the front air discharge portion during rotation and is drawn in a direction perpendicular to the axis of the fan by the centrifugal force of the fan. do.

As described above, it is possible to completely enjoy the two effects as a single product by eliminating the inconvenience of conventionally using a cold and hot air fan separately, and applying a scientific principle to easily generate hot and hot air without large additional parts. Therefore, the invention is a devised design that can help both the producer and the user who can give the user a satisfactory functional selection than the existing one, without having a large cost burden in the production of the producer.

Claims (2)

In the structure of the fan which is comprised by a normal wing part, a shaft part of a fan, a support stand, a stand, The thermoelectric element 3 is formed by penetrating one side of the wing 1 of the insulator, and the heat conduction plates 5 and 7 contacting both sides of the thermoelectric element 3 are respectively provided at the front and the rear of the wing part 100. 1) wing parts 100 and each configured so that there is no place to be grounded with each other, Bound with the central portion of the wing 100, the DC power is transferred to the thermoelectric element 3 as it is even when the motor rotates in a state in which the conductive lines (a, b) in which the two currents of the cathode and the anode are introduced separately, respectively. Shaft portion 200 of the fan is configured to be, An AC / DC converter 50 for converting alternating current into direct current, which serves to exchange current introduced through the outlet with a direct current power source to be supplied to the thermoelectric element 3; A controller 30 for controlling the rotation speed, cooling, and heating temperature of the cold / hot air fan by adjusting the rectified current through the converter 50, Cold and hot air blower using a blade composed of a thermoelectric element comprising a conductive wire (a, b) for supplying current. The method of claim 1 When the blade 1 is rotated, the projections 9 are configured on the outside of the rear heat conduction plate 7 so that the cooling and the mixing of the heated air are not caused by the heat conduction plates 5 and 7 on both sides, respectively. Hot and cold air blower using wings composed of thermoelectric elements