KR20150003670U - air blower - Google Patents

Abstract

The present invention relates to a blower using a thermoelectric element, and more particularly, to a blower which effectively conveys the heat of the hearth downward by using a thermoelectric element for converting heat into electricity, .

Description

[0001] The present invention relates to a blower using a thermoelectric element,

The present invention relates to a blower using a thermoelectric element, and more particularly, to a blower which effectively conveys the heat of the hearth downward by using a thermoelectric element for converting heat into electricity, .

Generally, a blower uses an electric power supplied from the outside to rotate the motor and blow air through the wings installed on the motor shaft to send air.

Open Patent Application No. 2005-0012197 proposed as an integrated type air conditioner using a thermoelectric element that changes the electric power of the outside heat has a structure in which a cylindrical shape of a heat insulating material in an integrated type air conditioner and a plurality A cooling plate and a heat radiating plate are bonded to both surfaces of the thermoelectric element, and a ventilation open / close means for automatically opening and closing the ventilation means is formed on the inner circumferential surface of the ventilation guide, and between the suction port formed at the other side and the ejection opening And a driving operation means including a converter in the housing and a blowing means for indoor discharge by forming an air passage (49) in contact with the cooling plate on the outer circumferential surface of the ventilation guide.

This is a constitution in which electricity is supplied from the outside to rotate the blowing means, and the thermoelectric element is heated and cooled to perform cold wind warm air, which is complicated in construction and has a disadvantage of supplying electric energy and rotating the blowing means.

On the other hand, the stove generates heat by burning the fuel such as wood, oil, gas electricity, etc., and warms the air with the heat generated from the stove. It warms the air warmed by the stove and sends it to the upper part. The temperature of the lower part becomes relatively lower than the temperature of the upper part after being warmed from the upper part.

In other words, the air warmed by the heater rises up to cover the air from the upper part, so it takes a long time to warm the air somewhat away from the stove and the heating cost is a lot.

* In this way, blowing with external electricity causes energy loss, and it takes a long time to warm up the air, resulting in a high heat loss.

Korean Patent Publication No. 2005-0012197

In order to solve the above-mentioned problems, the present invention aims to effectively heat the upper portion of the furnace by blowing the air from the upper portion to the lower portion while blowing electricity without energy consumption.

In order to achieve the above object, the present invention provides a heat exchanger comprising: a metal member for transmitting external heat to a thermoelectric element; A thermoelectric element (20) for converting heat transferred from the metal member into electricity; A heat insulating material formed at the center to prevent the heat of the metal member from being transmitted to the housing by providing a thermoelectric element; A housing having an upper portion formed in an open cylindrical shape and having a coupling groove formed on a lower surface thereof, a safety net assembled on the upper portion thereof, a blowing means having a motor therein, and a thermoelectric element thermal insulating metal member laminated and screwed into the coupling groove; And fastening means including a nut spring bolt for assembling the blowing means, the heat insulating material, the thermoelectric element and the metal member to the housing.

 And a connector electrically connected to the thermoelectric element is provided at the center of the safety net.

The present invention utilizes the heat generated from the thermoelectric element by using the heat of the hearth without further energy consumption, while the upper air is refined downward to effectively heat the heat of the hearth downward.

1 is a perspective view of the present invention;
2 is an exploded perspective view of the present invention
Figure 3 is a cross-sectional view of the assembly of the present invention
4 is a perspective view of the present invention,

In order to fully understand the present invention, a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

It should be understood that the embodiments of the present invention may be modified in various ways and that the scope of the present invention should not be construed as being limited to the embodiments described in detail below, .

 Fig. 1 is a perspective view of the present invention, Fig. 2 is an exploded perspective view of the present invention, Fig. 3 is a cross-sectional view showing the assembly of the present invention, and Fig. 4 is a perspective view of the present invention.

A metal member 10 for transferring heat to the thermoelectric element 20 according to the present invention, a thermoelectric element 20 for converting heat into electricity, and a thermoelectric element 20 for shielding the heat of the metal member 10 from being transmitted to the housing 40 A heat insulating material 30; A housing 40 for assembling the safety net 41 on the upper part and assembling the blowing means 60 having a motor therein and screwing the metal member 10 of the thermoelectric element 20 insulation material 30 on the lower surface; A fastening means 50 having bolts 53 of a nut 51 and a spring 52 for assembling the thermoelectric element 20 and the metal member 10 to the insulating member 30 of the blowing means 60 to the housing 40; .

The housing 40 is formed into a cylindrical shape having an upper portion opened by a metal material so that a safety net 41 is assembled in the upper portion and a blowing means 60 having a pen therein is assembled. And the metal member 10 of the thermoelectric element 20 is adhered to the joining groove 45 and the metal member 10 is screwed to the joining groove 45 with the screw 51 as the joining means 50. [

The use of heavy metallic material in the housing 40 is intended to prevent the risk of safety accident by preventing the blower from falling or falling from the stove even when an impact is applied to the blower from the outside so that the blower has a certain weight.

The housing 40 has a cylindrical shape with an upper portion having a relatively larger diameter than the lower portion and a radial partition 48 at the lower portion to form an air passage 49 by the blowing means 60.

 The upper portion of the housing 40 is wide and the lower portion of the housing 40 is made narrower in order to allow the outside air to move without being resisted by the air blowing means 60 during the movement of the outside air from the upper portion to the lower portion, Thereby preventing the housing from being heated by the wind and guiding it to the air passage 49 forcedly blown by the pen.

The housing 40 can be assembled by separating the upper housing 40a and the lower housing 40c of the central housing 40b and the lower housing 40c.

In addition, the diaphragm (47) is made into a Taekwon pattern so that the wind is moved along the Taekwondo pattern. Therefore, the wind is moved downward by the whirlwind so that the heat of the stove can be efficiently discharged.

An assembly hole 44 is formed in the outer diameter of the upper portion of the housing 40 so that the bent portion 43 of the safety net 41 can be easily assembled and disassembled. So that the safety net 41 is stably assembled without being rotated.

 The safety net 41 is made of a wire and a connector 47 is electrically connected to the thermoelectric element at the center to transmit electricity. The diameter of the safety net 41 made of a circular arc is slightly smaller than the upper diameter of the housing 40 The bending portion 43 is bent at an acute angle alpha so that the bent portion 43 bent at an acute angle when the safety net 41 is assembled to the housing 40, And the end of the bent portion 43 is not separated from the assembly hole 44 because the end portion of the bent portion 43 is relatively smaller than the outer diameter of the housing 40. Therefore, (41) is not detached from the housing (40) but assembled firmly and stably.

When the safety net 41 is assembled to the housing 40, the bent portion 43 formed in a part of the safety net 41 is positioned in the assembly hole 44 of the housing 40 and the bending portion 43 formed on the other side of the safety net 41 And the safety net 41 is made of wire for assembling to the assembly hole 44 by forcibly holding the part 43. The bent part 44 is firmly assembled to the assembly hole 43 by the elasticity of the wire.

The connector 47 provided on the cover 49 provided at the center of the safety net 41 with the bolts 48 is electrically connected to the thermoelectric element 20 by using a known connector. Is lost.

The connector 47 is used to use electricity generated from the thermoelectric element 20, so that electricity can be used outdoors without electricity.

A handle 42 is formed on the upper central portion of the safety net 41 to hold the handle 42,

The handle 42 is wrapped with a material such as rubber to improve grip feeling and prevent heat from being transmitted to the handle.

The fan unit 60 is provided in the housing 40 with a motor having a pen for generating wind and is electrically connected to the thermoelectric element 20 for converting heat into electricity to rotate the motor to blow wind have.

In other words, the blower unit 60 has the same configuration as that of the blower unit formed of the known motor shaft fan, and a detailed description thereof will be omitted.

However, when the pen assembled to the motor shaft of the air blowing device 60 is assembled so that the wind is blown from the outside of the housing 40 to the inside of the housing, and the upper wind is blown to the lower side and the blower is placed on the hearth, The warm heat can not move to the upper part, and the hot wind can be forced to move downward to reach the farther away from the hearth, thereby warming the lower part and the upper part as a whole

The metal member 10 is used as a metal material of aluminum copper or an alloy having a high thermal conductivity for transmitting external heat to the thermoelectric element 20. When the metal member 10 is assembled to the housing 40, The metal member 10 exposed to the outside is brought into direct contact with the heated part of the hearth and the contact area is increased so that the heat of the hearth A large amount of heat is transferred to the thermoelectric elements 20 installed in the housing 40 to increase the heat transfer efficiency.

The metal member 10 is formed with a plurality of bolt holes 11. Bolt holes 11 are formed by using a plate head bolt and assembled with the housing 40 with bolts 53. When the blower is placed on a stove, And the contact area between the metal member 10 and the hearth is increased so that the heat of the hearth is transferred to the thermoelectric element.

The thermoelectric transducer 20 uses a known thermoelectric transducer 20 using a seebeck effect for converting heat into electricity, and a detailed description thereof will be omitted.

The thermoelectric element 20 is installed in contact with the metal member 10 so as to efficiently transmit external heat and connects electric wires to a part of the thermoelectric element 20 to electrically connect the motor built in the housing 40 Respectively.

The heat insulating material 30 is formed to prevent the heat of the metal member 10 from being transmitted to the housing 40. The heat insulating material 30 is made by forming a hole 31 into which a thermoelectric element 20 is inserted, So that the outer surface of the heat exchanger 20 is insulated.

The fastening means 50 is composed of a nut 51 and a spring 52 and a bolt 53. The metallic member 10 and the like of the blowing means 60 are fixed to the housing 40 by screws.

A spring 52 is stacked on the upper part of the flange formed at the lower part of the motor at the time of assembling the blowing means 60 assembled in the housing 40 and fastened with the nut 51.

The spring 52 is stacked on the flange of the blowing means 60 and fastened to prevent the flow generated by the rotation of the motor from being absorbed by the spring 52 and transmitted to the housing 40 due to the motor rotational force It will be possible to do.

When the bolt 53 of the fastening means 50 is assembled with bolts using a plate head bolt, the bolt head is not exposed to the outer surface of the metal member 10, so that the bolt 53 can be stably So that it can be used.

It should be understood that the embodiments according to the present invention described above are merely illustrative and that those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention . Therefore, it is to be understood that the present invention is not limited to the form described in the foregoing description.

Accordingly, the true scope of protection of the present invention should be determined by the technical idea of the appended claims. It is to be understood that the appended claims are intended to cover all such modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

10: metal member 11: bolt hole
20: thermoelectric element 30: insulation
40: housing 41: safety net
42: handle 43: bend
44: Assembly hole 45: Coupling groove
47: connector 50: fastening means
60: blowing means

Claims (4)

An air blower for blowing outside air, comprising: a metal member (10) for transmitting external heat to a thermoelectric element (20); A thermoelectric element (20) for converting the heat transferred from the metal member (10) into electricity; A heat insulating material 30 having a hole 31 at the center thereof to prevent the heat of the metal member 10 from being transmitted to the housing 40 by providing the thermoelectric element 20; The upper part is formed into an open cylindrical shape and the coupling grooves 45 are formed on the lower surface of the upper part and the safety net 41 is assembled on the upper part and the blowing means 60 having the motor is incorporated therein, 20) a heat insulating material (30); a housing (40) for stacking and assembling the metal member (10); And a fastening means (50) having a nut spring bolt for assembling the blowing means (60), the heat insulating material, the thermoelectric element and the metal member (10) to the housing (40). The blower according to claim 1, wherein the bent portion is bent at an acute angle. The method of claim 1, wherein
Wherein the safety net (41) is provided with a connector (47) electrically connected to the thermoelectric element. The method of claim 1, wherein
Wherein the housing (40) is assembled by being separated into a lower housing (40c) of a central housing (40b) of an upper housing (40a).

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