KR20220104346A - Thermoelectric device unit - Google Patents

Abstract

The present invention is to provide a thermoelectric device unit. The thermoelectric device unit comprises: a hot block (110); an insulation member (120) settled on the upper surface of the hot block (110) and provided with an accommodation groove (121) for accommodating a thermoelectric device (130) at the center; a thermoelectric device (130) inserted into the inside of the accommodation groove (121); a cool block (140) settled on the upper surface of the thermoelectric device (130) and formed to fix a target to be cooled on the upper surface; a sealing member (150) settled on the upper surface of the cool block (140) and formed to perform a sealing function; and a case (160) located at the upper part of the sealing member (150), formed to be coupled with the hot block (110), and provided with a through hole (161) at the center to expose the cool block (140) upwards. The present invention has an effect of improving a heat radiation function by improving adhesion and airtightness among the cool block, the thermoelectric device, the hot block, and the case. The present invention, especially, has an effect of improving durability, use efficiency, and a utilization range of the thermoelectric device due to a simple structure and easy maintenance.

Description

Thermoelectric device unit

The present invention relates to a thermoelectric unit, and more particularly, to a thermoelectric unit capable of improving assembly and sealing function, securing easiness of maintenance, and improving durability of the thermoelectric element.

In general, a thermoelectric element has a structure using a thermoelectric phenomenon, and has a structure in which a P-type thermoelectric material and an N-type thermoelectric material are bonded between metal electrodes to form a PN junction pair.

In particular, thermoelectric devices can be divided into devices using a temperature change in electrical resistance, devices using the Seebeck effect, which is a phenomenon in which electromotive force is generated by a temperature difference, and devices using the Peltier effect, which is a phenomenon in which heat absorption or heat is generated by current.

This thermoelectric element is located between the hot block and the case and uses a spring to install the cool block in contact with the thermoelectric element. got a problem

On the other hand, it is necessary to assemble and install a plurality of springs, and there is a problem of lowering the working efficiency due to the increase of the working time for the epoxy mold.

In addition, assembly and disassembly are cumbersome and inconvenient in the maintenance process of the thermoelectric element.

In addition, the sealing function between the hot block and the case is weak, and there is a problem of shortening the durability and service life.

Korean Patent Publication No. 10-2010-0123320 (2010.11.24.) Korean Patent Publication No. 10-2013-0092291 (2013.08.20.) Korean Patent Publication No. 10-2020-0131794 (2020.11.24.)

Therefore, the present invention has been devised to solve the conventional problems as described above,

An object of the present invention is to provide a thermoelectric unit capable of improving sealing properties.

In particular, another object of the present invention is to provide a thermoelectric unit capable of ensuring ease of assembly and maintenance.

The present invention thermoelectric unit 100 for achieving the above object,

hot block 110; a heat insulating member 120 seated on the upper surface of the hot block 110 and having a receiving groove 121 to accommodate the thermoelectric element 130 in the center; a thermoelectric element 130 inserted into the receiving groove 121; a cool block 140 seated on the upper surface of the thermoelectric element 130 and formed so as to fix a cooling target on the upper surface; a sealing member 150 that is seated on the upper surface of the cool block 140 to perform a sealing function; A case 160 positioned above the sealing member 150 and formed to be coupled with the hot block 110, but having a through hole 161 in the center to expose the cool block 140 upward. It is characterized in that it contains;

Here, a plurality of fixing holes 111 formed so that a fixing member 162 formed in the lower portion of the case 160 can be fitted and fixed to the surface of the hot block 110; characterized in that it includes.

In addition, it is characterized in that it includes a; it is characterized in that it includes a;

In particular, it is characterized in that it includes a; in the center of the lower portion of the cool block 140, the contact portion 142 is formed so as to be in close contact with the upper surface of the thermoelectric element (130).

At this time, the fixing protrusions 142a formed on both sides of the lower side of the contact part 142 to be in contact with both sides of the thermoelectric element 130 to be fixed.

and a plurality of close contact protrusions 151 radially formed on the outside of the sealing member 150 .

The present invention has the effect of improving the heat dissipation function by improving the adhesion and sealing properties between the cool block, the thermoelectric element, the hot block, and the case.

In particular, the present invention has the effect of having a simple structure, easy maintenance, and improved durability, use efficiency and range of use of the thermoelectric element.

1 is an exploded perspective view illustrating the configuration of a thermoelectric element of the present invention;
Figure 2 is a combined perspective view showing the configuration of the thermoelectric element of the present invention.
Figure 3 is a perspective view for showing the configuration of the sealing member in the present invention.

As described above, the configuration of the present invention will be described in detail with reference to the accompanying drawings.

Figure 1 is an exploded perspective view for showing the configuration of the thermoelectric element of the present invention, Figure 2 is a combined perspective view for showing the configuration of the present invention thermoelectric element, Figure 3 is a perspective view for showing the configuration of the sealing member in the present invention it will be shown

The present invention is a hot block 110; a heat insulating member 120 seated on the upper surface of the hot block 110 and having a receiving groove 121 to accommodate the thermoelectric element 130 in the center; a thermoelectric element 130 inserted into the receiving groove 121; a cool block 140 seated on the upper surface of the thermoelectric element 130 and formed so as to fix a cooling target on the upper surface; a sealing member 150 that is seated on the upper surface of the cool block 140 to perform a sealing function; A case 160 positioned above the sealing member 150 and formed to be coupled with the hot block 110, but having a through hole 161 in the center to expose the cool block 140 upward. includes ;

In particular, the hot block 110 transmits or radiates high heat generated in the thermoelectric element 130 to the outside while in contact with the lower surface of the thermoelectric element 130 .

Here, the hot block 110 uses an aluminum alloy that is light and has excellent thermal conductivity.

At this time, a plurality of fixing holes 111 formed so that the fixing member 162 formed in the lower portion of the case 160 can be fitted and fixed to the surface of the hot block 110; may include.

In addition, the hot block 110 and the case 160 may be coupled or separated from each other by using a fastener 112 such as a screw or bolt.

In addition, the heat insulating member 120 performs a heat insulating function with respect to a temperature difference occurring between the hot block 110 and the thermoelectric element 130 .

In particular, the heat insulating member 120 can prevent dew condensation by insulating between the hot block 110 and the thermoelectric element 130 in a state in which the thermoelectric element 130 is accommodated inside the receiving groove 121 . have.

In the present invention, the thermoelectric element 130 is an element capable of simple and reliable exchange of heat and electricity that can simultaneously achieve cooling, heating, and power generation by only supplying DC power using a thermoelectric material.

Since the internal configuration and operating principle of the thermoelectric element 130 is a technique widely used in the art, a detailed description thereof will be omitted.

And the cool block 140 is a means for cooling by transferring the low heat generated from the thermoelectric element 130 to the object to be cooled in a state in contact with the upper surface of the thermoelectric element 130, and an aluminum alloy having excellent thermal conductivity is used. do.

At this time, the hot block 110 and the case 160 are connected to each other, including a locking part 141 protruding outside the cool block 140 so that the sealing member 150 can be seated on the upper surface. When combined, the sealing member 150 is in close contact with the upper surface of the locking part 141 to secure the supporting force so that it can move in the lower direction.

In addition, in close contact with the upper surface of the thermoelectric element 130, including; a contact portion 142 formed in the lower center of the cool block 140 so as to be in close contact with the upper surface of the thermoelectric element 130. Thus, the thermal conductivity can be improved.

Here, on both lower sides of the contact part 142, fixing protrusions 142a formed so as to be in contact with both sides of the thermoelectric element 130 and fixed thereto; to prevent movement and separation of the thermoelectric element 130 including; can

At this time, the fixing protrusions 142a are formed on both lower sides of the contact part 142 in the width direction.

In the present invention, the sealing member 150 secures elastic force for compression in the vertical direction between the case 160 and the cool block 140, and moves the cool block 140 in the lower direction to move the hot block. 110 and the thermoelectric element 130 may be in close contact with each other.

Here, the sealing member 150 has a predetermined diameter when viewed from a cross-sectional state, and is formed in a form in which the center is empty around the outside of the case 160 and the cool block 140, but a synthetic resin having elasticity such as silicone or urethane. It can be formed of a material or the like.

In addition, as shown in FIG. 3 , the sealing member 150 includes a plurality of close contact protrusions 151 radially formed on the outside; the hot block 110 and the cool block 140 and the case 160 . Sealability can be improved while compressing in the process of fixing and adhering to each other.

In addition, the case 160 is combined with the hot block 110 to sequentially combine the heat insulating member 120 , the thermoelectric element 130 , the cool block 140 , and the sealing member 150 located inside. can

As described above, the embodiment of the present invention has been described in detail, but the scope of the present invention is not limited thereto, and the scope of the present invention is included to the extent that it is substantially equivalent to the embodiment of the present invention. Of course.

100: the present invention thermoelectric element unit
110: hot block 111: fixing hole
120: insulation member 121: receiving groove
130: thermoelectric element 140: cool block
141: engaging portion 142: contact portion
142a: fixing protrusion 150: sealing member
151: contact protrusion 160: case
161: through hole 162: fixture

Claims (6)

hot block 110; a heat insulating member 120 seated on the upper surface of the hot block 110 and having a receiving groove 121 to accommodate the thermoelectric element 130 in the center; a thermoelectric element 130 inserted into the receiving groove 121; a cool block 140 seated on the upper surface of the thermoelectric element 130 and formed so as to fix a cooling target on the upper surface; a sealing member 150 that is seated on the upper surface of the cool block 140 to perform a sealing function; A case 160 positioned above the sealing member 150 and formed to be coupled with the hot block 110, but having a through hole 161 in the center to expose the cool block 140 upward. ; Thermoelectric unit comprising a. The method according to claim 1, wherein a plurality of fixing holes (111) formed so that the fixing tool (162) formed in the lower portion of the case (160) is fitted to the surface of the hot block (110) to be fixed; characterized in that it comprises a thermoelectric unit. The thermoelectric unit as set forth in claim 1, further comprising: a locking part (141) protruding to the outside of the cool block (140) so that the sealing member (150) can be seated on the upper surface. The thermoelectric element unit according to claim 1, further comprising a contact portion 142 formed in a lower center of the cool block 140 so as to be in close contact with the upper surface of the thermoelectric element 130. The thermoelectric element unit according to claim 4, further comprising a fixing protrusion (142a) formed on both lower sides of the contact part (142) to be in contact with both sides of the thermoelectric element (130) to be fixed. The thermoelectric unit according to claim 1, further comprising a plurality of close contact protrusions (151) radially formed on the outside of the sealing member (150).

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