KR101948041B1 - Cooling feeder of electric fan using thermoelectric element - Google Patents

Abstract

The present invention relates to a cool air feeder of an electric fan using a thermoelectric element, including: a body (10) formed therethrough with an opening part (B) to which a head (1) of the electric fan is fitted, provided at a center thereof with a holder part (11), having a rim part (13) surrounding an outer periphery such that a passage through which air moves from a rear to a front is opened, having a reception space (14) configured by concavely forming a partition wall (14a) and a bottom plate (14b) from the rim part (13) toward a central portion, and having an installation hole (15) formed in the bottom plate (14b); a thermoelectric element (20) fitted in the installation hole (15) to perform a cooling action on one side thereof and generate heat on an opposite side thereof by receiving a power; a cooling plate (30) making contact with a lower side of the thermoelectric element (20) to receive cooling heat, having a plurality of cooling fins (31) arranged at a predetermined interval, and disposed between the holder part (11) and the rim part (13); a heat sink (40) disposed in the reception space (14) to receive the heat from the thermoelectric element (20) to dissipate the heat; and a heat dissipation cover (50) for covering an open part of the reception space (14) and discharging the heat through an exhaust hole (51).

Description

Technical Field [0001] The present invention relates to a cooler feeder for an electric fan using a thermoelectric element,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a cold air supply device for an electric fan using a thermoelectric element, and more particularly to a cold air supply device for an electric fan that reduces the temperature of air supplied to a fan at a rear portion of a safety net, .

The fan is a necessity product of each household. It is a household appliance that is very familiar to us. It is a device that generates electricity by discharging the air to the front by driving the fan inside the head.

Typically, the single-phase induction motor type motor speed control system has three to four contact switches, including low, medium, high speed, and natural / Select the switch to rotate the motor at the desired speed.

In general, the fan blows the air in the rear part by the rotational force of the wing and discharges it to the front part again to generate wind.

Therefore, the temperature of the air to be discharged is substantially the same as the air temperature (room temperature) flowing from the rear of the fan.

In addition, although the amount and speed of the wind blown out by the control of the rotational speed of the fan can be controlled to a certain extent, the air supplied from the rear in the case of the hot summer is in a high temperature state. Therefore, even if the rotational speed of the fan is selected as the best, to be.

In addition, when the motor is overheated due to use for a long period of time, the conventional fan is not only ejected by adding heat but also burns dust or the like around the motor to cause fire.

On the other hand, there has been known a conventional air conditioner in which a cool air is produced by using a thermoelectric element and then sent out.

However, in the case of such a refrigerator, a cooling plate or a radiator for transmitting the cooling energy of the thermoelectric element and the thermoelectric element cooling section, water serving as a refrigerant in the radiator, a cooling plate cooled or a cooling fan formed around the radiator, A heat sink for dissipating the heat energy of the heat generating element, and a cooling fan for cooling the heat sink.

If a product is composed of many components such as a thermoelectric element and a cooling plate or a radiator, water, a blowing fan, a heat sink, a cooling fan, etc., the possibility of failure increases, manufacturing cost increases, There is a problem such as giving an economic burden.

Korean Patent Laid-Open Publication No. 10-1999-0040082 (published on June 05, 1999) Korea Patent Registration No. 10-1700912 No. 0 (Registered on January 23, 2017)

SUMMARY OF THE INVENTION It is an object of the present invention to improve the conventional disadvantages of the prior art, and it is an object of the present invention to provide a cold air supply device for an electric fan that reduces the temperature of air flowing in from the rear toward the fan, Which can be detachably installed in the rear of the fan unit, and which has a relatively simple structure as a whole.

It is still another object of the present invention to provide a cold air supply device for an electric fan that effectively cools a heat sink using a part of wind by an electric fan.

According to an aspect of the present invention, there is provided a cold air supply device for a fan using a thermoelectric element,

The opening portion B is inserted to fit into the head 1 of the fan and the holder portion 11 is provided at the center and the outer portion is wrapped by the rim portion 13 so that the air can be moved forward from the rear side. And the partition 14a and the bottom plate 14a are concavely formed from the rim portion 13 toward the central portion so as to have the accommodation space 14. The installation hole 15 is formed in the bottom plate 14a A piercing body (10);

A thermoelectric element (20) sandwiched between the mounting holes (15) and adapted to perform a cooling action on one side and a heat generation on the other side by power supply;

A plurality of cooling fins 31 are formed at a predetermined interval and are disposed between the holder part 11 and the rim part 13, A cooling plate (30);

A heat sink (40) located in the accommodation space (14) and receiving heat from the thermoelectric element (20) to dissipate heat;

And a heat dissipation unit cover 50 covering the opening of the accommodation space 14 and discharging the heat through the exhaust hole 51.

In the above-described cool air supply device, the air induction member 18 is expanded and formed on the front portion of the body 10 in both outward directions with a width larger than that of the heat radiating portion cover 50, The air introduced through the slit hole 19 pierced between the guide members 18 can be guided to the side surface through the exhaust hole 51 after being in contact with the heat sink 40. [

In the cold air supply device, a round portion 18a may be formed on both sides of the air induction member 18 to guide a part of wind by a fan of the fan toward the slit hole 19. [

In the above-described cool air supply device, a mesh cover 17 may be attached to the rear portion of the body 10 to protect the cooling plate 30 while allowing air to pass therethrough.

In the above-described cool air supply device, a power cover 60 may be provided on one side of the rim portion 13 to receive power supply components therein.

The thermoelectric device 20 includes an AC-DC converter 22 for converting an external AC power input through the plug 21 into a DC power source, And a power supply unit 23 that receives the power supplied from the power supply unit 23 and drives the thermoelectric element 20 while the power supply unit 23 is powered by a plug of an electric fan connected to a receptacle 24 provided in the power cover 60 It is sensed by the current sensor 25 so that power is supplied to the thermoelectric element 20. FIG.

In the above-described cool air supply device, the holder 11 or the rim portion 13 may be integrally provided with an elastic hook 70 so as to be fitted and secured to a protective net made of wire of a fan.

According to the present invention, it is possible to maximize the cold wind effect of the fan by lowering the temperature of the wind forwardly discharged in a simpler configuration.

Further, according to the present invention, it is not necessary to separately form a cooling fan or the like for cooling the heat sink.

Even if the cold supply device according to the present invention is purchased separately, it can be easily installed and used in most conventional fans, so that the product is easy to use and excellent in merchantability.

According to the present invention, it is possible to reduce the frequency of use of the air conditioner by lowering the production cost of the product, the power consumption is low and the energy efficiency is high, and the power consumption can be reduced There is an economic effect.

1 is a front view of the cold air supply device of the present invention viewed from the front (when viewed from the direction of the fan of the fan when mounted on a fan).
2 is a perspective view of the cool air supply device of the present invention as viewed from the back;
3 is a side view illustrating a state where the cold air supply device of the present invention is fitted to the fan head.
4 is a side view illustrating a state in which the cool air supply device of the present invention is fixedly installed with an elastic hook in an electric fan safety net.
FIG. 5 is a plan sectional view of the state shown in FIG.
6 is a partially exploded perspective view illustrating a state in which a heat sink and a cooling plate are respectively installed at upper and lower parts of a thermoelectric element in the cool air supply device of the present invention (a heat sink cover and a net cover are removed, .
7 is an apparatus view showing the configuration of a power supply circuit in the cold air supply device of the present invention.
FIG. 8 is a partially cutaway recessed perspective view showing a flow state of external air for dissipating heat in the guide path heat sink of the air induction member in the cold air supply device of the present invention (the heat dissipation cover and the edge portion are removed for the sake of understanding).

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

1 to 8 illustrate a structure of a cool air supply device for a fan using a thermoelectric element to which an embodiment according to the present invention is applied.

A cold air supply device for a fan using a thermoelectric device according to an embodiment of the present invention includes a body 10 forming a frame, a thermoelectric element 20 cooled in one direction by being supplied with electric current, A cooling plate (30) which is brought into contact with the air moved from the rear by the fan driving of the fan and lowers the temperature of the wind, a heat sink (40) which comes into contact with air and radiates heat by heat generation, And a heat radiation cover 50 assembled in the accommodation space 14 so as to protect the outside of the heat radiation cover.

The body 10 is provided with a holder 11 to be fitted to the head 1 of the fan and a frame 13 at the outer periphery thereof.

The lower portion of the holder portion 11, which is circularly penetrated through the center, is formed to be slightly widened so that the body 10 has an elastic force. When the fan 10 is mounted on the head 1 of the fan, .

The rim portion 13 and the holder portion 11 have a shape of a disjointed annular band and between the rim portion 13 and the holder portion 11, B and the like, and the rim portion 13, the holder portion 11, the connecting piece 12, and the like are integrally formed. In the body 10, most of the body 10 is opened except for the portion to which the heat-radiating portion cover 50 is coupled when viewed from the front immediately after the room so that air directed from the rear to the front can be sufficiently passed through the fan.

The rim portion 13 is formed in a concave shape with the partition plates 14a and the bottom plate 14b continuing toward the central portion to form a receiving space 14 so that a heat radiating plate 40 (See Fig. 6).

An installation hole 15 for inserting the thermoelectric element 20 is formed in the bottom plate 14b of the accommodation space 14. [

The thermoelectric element 20 is fitted to the mounting hole 15, and one side of the thermoelectric element 20 absorbs heat in accordance with the current direction by power connection, so that a cooling function is expressed and the other thermoelectric element 20 generates a Peltier effect.

Generally, since the temperature difference between the heat generating portion and the cooling portion of the thermoelectric element 20 is about 70 degrees, if the temperature of the heat generating portion is maintained at about 30 degrees, the temperature of the cooling portion is maintained at -40 degrees.

The cooling plate 30 is inserted between the lower surface of the bottom plate 14b of the accommodating space 14 and the holder 11, The thermoelectric element 20 and the cooling plate 30 are adhered in close contact with each other by inserting the cooling plate 30 of the unattached flat portion.

The heat sink 40 is disposed on the upper surface of the bottom plate 14b of the accommodation space 14 so as to receive the heat of the thermoelectric elements 20. [

Here, as a method for fixing the cooling plate 30 and the heat sink 40, it is also possible to fix them by fixing them using a thermally conductive adhesive, or screw them using screws (not shown). It is noted that two or more thermoelectric elements 20 may be provided depending on the size of the fan cooling plate 30.

The cooling plate 30 is made of a metal material having a high thermal conductivity and has a circular band portion that forms a circular band along the shape of the body 10 and a plurality of cooling fins 31 having a plurality of openings . The cooling plate 30 contacts the cooling portion of the thermoelectric element 20 between the holder portion 11 and the rim portion 13 and is cooled at a low temperature.

The heat radiating plate 40 is positioned and fixed in the receiving space 14 in a state of being in contact with the upper heat generating portion of the thermoelectric element 20 to receive heat.

The openings on the back and upper sides of the housing space 14 in which the heat sinks 40 are installed are covered by the heat radiator cover 50 so that the heat inside the heat sinks (1) in the lateral direction. The cold air supply device of the present invention constituted as described above is installed in a state in which the holder portion 11 is fitted in the fan head 1 on the rear side of a conventional fan.

At this time, the cold air supply device of the present invention may be fixed to the fan only by the fastening elastic force of the holder 11 formed of a synthetic resin material (see FIG. 3).

Alternatively, the elastic hooks 70 are integrally formed on the holder portion 11 or the rim portion 13 of the body 10 so that the elastic hooks 70 are caught in the protective net of the electric fan formed in a wire structure And may be fixed in position (see Figs. 4 and 5)

A mesh cover 17 is attached to the rear portion of the body 10 so that air can be passed therethrough while preventing insects and foreign matter from moving toward the fan and preventing the user's hands from contacting the cooling plate 30 .

A power cover 60 is provided at one side of the rim 13 of the body 10 to accommodate various power supply components including an inverter 22, a socket 24 and a current sensor 25 to be described later. .

The cold air supply device of the present invention connects and supplies power to the thermoelectric element 20 while being fixed to the rear side head 1 of the fan. When the rear air is discharged forward by driving the fan, The cooling fins 31 of the cooling plate 30 that keeps contacting with the air lower the temperature of the supplied wind.

Therefore, the temperature of the wind blown out in front is lowered, so that the coolness can be felt even in the hot summer season.

At this time, since the opening of the housing space 14 in which the heat sink 40 is housed is covered by the heat sink cover 50, the heat of the heat sink 40 is prevented from being supplied to the front of the fan, 40 is discharged to the side through the exhaust hole 51. [

In the meantime, external air is introduced into the housing space 14 having the heat sink 40, and then the heat sink 40 is sufficiently contacted with the heat sink 40 so as to cool the heat sink 40 and be discharged to the outside. The air induction member 18 is integrally formed on the body 10 so that a part of the air flow caused by the fan of the fan is guided into the accommodation space 14 in the front surface of the body 10 (See FIG. 8, and FIG. 8 is shown for the sake of convenience, omitting the rim and the radiator cover).

The air guide member 18 is extended in both outward directions with a width larger than that of the heat radiating portion cover 50 and a slit hole 19 is formed between the partition wall 14a and the air induction member 18 in the vertical direction .

On both sides of the air induction member 18, a round portion 18a is integrally bent so as to guide cool air toward the slit holes 19, respectively.

The air that is moved in the direction of the fan from outside both sides of the heat radiating portion cover 50 comes into contact with the cooling fins 31 of the cooling plate 30 and is cooled a little (this cooling is not essential) (Mainly the round portion 18a) and then introduced into the interior of the accommodation space 14 along the slit hole 19. [

The air introduced into the accommodation space 14 is moved along a space and a gap formed around the heat dissipation plate 40 and contacts the heat dissipation plate 40 to take the heat of the heat dissipation plate 40, And the temperature of the heat sink 40 is lowered.

On the other hand, the electric circuit of the cold supply device according to the present invention is configured as shown in FIG.

The AC-DC converter 22 converts the external AC power input through the plug 21 to DC power and the power supply unit 23 receives the DC power from the AC-DC converter 22, .

The power supply unit 23 is connected to the outlet 24 provided in the power cover 60 and when a plug for the fan is connected and power is supplied to the fan driving motor of the fan, The current is supplied to the thermoelectric element 20 so that the thermoelectric element 20 is driven.

The electric current is supplied to the thermoelectric element 20 from the cold air supply device of the present invention only when the electric fan is operated so that electricity is not supplied to the thermoelectric element 20 of the cold air supply device in a state in which the fan is not operated , So that it does not operate automatically when the fan is not in operation.

In addition, by providing a separate outlet 24 for the fan provided in the power cover 60 and plugging the fan into the outlet 24, both the cold air supply device and the fan can be operated, I can plan sex.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. It will be clear to those who have.

10 - body 11 - holder part
12 - Connected 13 - Border
14 - Capacity 15 - Mounting hole
16 - passage 18 - air induction member
19 - Slit hole 20 - Thermal element
30 - cooling plate 31 - cooling pin
40 - Heat sink 50 - Heat sink cover
51 - Exhaust hole 60 - Power cover

Claims (7)

The opening portion B is inserted to fit into the head 1 of the fan and the holder portion 11 is provided at the center and the outer portion is wrapped by the rim portion 13 so that the air can be moved forward from the rear side. And the partition 14a and the bottom plate 14b are concavely formed from the rim portion 13 toward the central portion so as to have the accommodation space 14. The installation hole 15 is formed in the bottom plate 14b A piercing body (10);
A thermoelectric element (20) sandwiched between the mounting holes (15) and adapted to perform a cooling action on one side and a heat generation on the other side by power supply;
A plurality of cooling fins 31 are formed at a predetermined interval and are disposed between the holder part 11 and the rim part 13, A cooling plate (30);
A heat sink (40) located in the accommodation space (14) and receiving heat from the thermoelectric element (20) to dissipate heat;
And a heat radiating part cover (50) covering the opening of the accommodating space (14) and discharging the heat through the exhaust hole (51).
The method according to claim 1,
The air induction member 18 is expanded and formed on the front surface of the body 10 in a larger width than both the heat radiation cover 50 and the air guide member 18, Wherein the air introduced through the slit hole (19) is brought into contact with the heat sink (40), and then is guided to the side to be exhausted through the exhaust hole (51).
The method of claim 2,
Wherein a round portion (18a) is formed on both sides of the air induction member (18) to guide a part of wind by the fan of the fan toward the slit hole (19).
The method according to claim 1,
Wherein a mesh cover (17) is attached to a rear portion of the body (10) to protect the cooling plate (30) while allowing air to pass therethrough.
The method according to claim 1,
And a power cover (60) is provided at one side of the rim (13) to receive power supply parts therein.
The method of claim 5,
The thermoelectric transducer 20 includes an AC-DC converter 22 for converting an external AC power input through the plug 21 to a DC power source, and an AC-DC converter 22 for receiving a direct current from the AC- The power supply unit 23 is connected to a plug of a fan connected to a receptacle 24 provided in the power cover 60 and supplies the power to the current sensor 25 when power is supplied thereto. So that power is supplied to the thermoelectric element (20).
The method according to claim 1,
Wherein the holder (11) or the rim (13) is integrally provided with an elastic hook (70) so as to be fitted and secured in a protective net made of wires of a fan.

Images