KR200177834Y1 - An assembly structure of halogen heater - Google Patents

Abstract

The present invention extends outward from the assembly hole 111 of the center and then vertically bent in the downward direction to provide an assembly space therein, and a halogen heating element built in the assembly space of the case 110 Reflector 130 for intensively reflecting the heat energy generated from the 120 in the upward direction, and a heat transfer plate 140 is mounted on the reflector 130 to transfer the heat energy supplied from the halogen heating element 120 to the heating object. ) And a halogen heater assembly structure including a bottom plate 150 that is assembled to a lower portion of the case 110 while supporting the reflector 130, wherein the heat plate 140 is supported by the bottom plate 150. Assembling the case 110 while pressing and pressing the first heat sink 160 and the heat transfer plate 140 on the first heat sink 160 while supporting the first heat sink 160 to block high temperature heat passing through the reflector 130. Hole (111) And a fastening means 180 for assembling the second heat sink 170 tightly fixed to the inner circumference and the first heat sink 160 and the second heat sink 170 to the case 110. do. Accordingly, in order to prevent the high temperature heat of the halogen heating element 120 passing through the reflector 130 from adversely affecting the controller and other components embedded in the case 110, the first heat sink 160 and the second heat sink 160 are prevented. By assembling the spaced apart structure of the heat dissipator 170, there is an effect that can prevent deformation of the case 110 itself or malfunction of the controller due to high temperature.

Description

Halogen heater assembly structure {AN ASSEMBLY STRUCTURE OF HALOGEN HEATER}

The present invention relates to a halogen heater assembly structure, and more particularly, it is possible to efficiently concentrate the high temperature heat of the halogen heating element to the heating element and at the same time through the assembly structure of the first and second heat sinks. The present invention relates to a halogen heater assembly structure capable of preventing adverse effects due to high temperature heat on internal controllers and other components.

In general, halogen is a five-element element of fluorine (F), chlorine (Cl), bromine (Br), iodine (I), and statin (At) belonging to group 7B of the periodic table. It is well known that it has the property of making salts (ionic compounds) easily with strong metal elements.

The halogens are systematically varied from fluorine, which is a colorless gas, to chlorine, which is a yellowish green gas, bromine, which is a reddish brown liquid, and iodine, which is a black purple solid.

Since the atomic number (nuclear charge and number of electrons) is one less than that of the Group 0 element, electrons are easily accepted and become monovalent anions, so that positive metals and strong ionic compounds can be easily formed.

In addition, covalent compounds can be made with weak and positive metals and nonmetals, and the chemical bonds in them are generally polar and halogen atoms are negatively charged.

By using this property, it is the halogen heating element that converts the electrical energy supplied from the external power supply into thermal energy, and the halogen heater is capable of attaching the heating element by reflecting the high temperature generated from the halogen heating element. Becomes

The present invention provides a halogen heater assembly structure capable of efficiently heating the heated object by using the above-described halogen heating element as described above and commercializing it by simple assembly of the first and second radiators. It is for that purpose.

1 is a perspective view showing a halogen heater assembly structure according to the present invention.

2 is a cross-sectional view taken along the line AA ′ of FIG. 1.

Figure 3 is a bottom view showing a halogen heater assembly structure according to the present invention.

Explanation of symbols on the main parts of the drawings

100: halogen heater 110: case

111: assembly hole 120: halogen heating element

130: reflector 131: through hole

140: heat transfer plate 150: bottom plate

151 vent hole 152 satellite hole

160: first heat sink 161: support hole

162: heat dissipation unit 163: double heat dissipation unit

164: support portion 165: temperature control hole

170: second heat sink 171: pressing part

172: heat shield 180: fastening means

181: fastening rod 181a: bolt groove

182: coupling piece 182a: coupling hole

183: fixing piece 183a: fixing hole

184: Tap Bolt 190: Extrusion Spring

The present invention for achieving the above object, the case extending in the outward direction from the center of the assembly hole and vertically bent in the downward direction to provide an assembly space therein, and the inside of the assembly space of the case to generate heat from the halogen heating element A reflector for intensively reflecting thermal energy upwardly, a heat transfer plate mounted on the reflector to transfer heat energy supplied from the halogen heating element to a heated object, and a bottom plate assembled at the bottom of the case while supporting the reflector. In the halogen heater assembly structure comprising: a first heat dissipation supported by the bottom plate to block the high temperature heat passing through the reflector while supporting the heat transfer plate, and pressing the heat transfer plate on the first heat dissipation A second heat sink that is tightly fixed to the inner periphery of the assembly hole of the case Claim 1 is that the heat sink and the second heat sink comprises a fastening means for assembling the case to the base characterized in that on the technical configuration.

Hereinafter, a preferred embodiment of the halogen heater assembly according to the present invention with reference to Figures 1 to 3 as follows.

1 is a perspective view illustrating a halogen heater assembly according to the present invention, FIG. 2 is a cross-sectional view taken along line AA ′ of FIG. 1, and FIG. 3 is a bottom view illustrating a halogen heater assembly according to the present invention.

Halogen heater assembly structure according to the present invention is a case 110, a heat transfer plate 140, a halogen heating element 120, a reflector 130 and the bottom plate 150 is prepared as shown in FIG.

The case 110 is formed in a structure that can be extended in the outward direction from the assembly hole 111 of the center and vertically bent in the downward direction to provide an assembly space therein, a plurality of parts described below and a controller not shown And wire wires.

The halogen heating element 120 is preferably provided with about two to change the electrical energy supplied from the external power supply shown in the figure to the thermal energy, the halogen heating element 120 is horizontally above the reflector 130 It is fixed in parallel.

The reflector 130 is embedded in the assembly space of the case 110 to serve to intensively reflect the heat energy generated from the halogen heating element 120 upwards, and to roughly reflect the heat energy upwards. It is preferable to be molded in a shape, and the heat conduction plate 140 having a very good thermal conductivity on the reflector 130 so that the heat energy supplied from the halogen heating element 120 can be transferred as it is without being heated to the heating element (not shown). It is seated.

The bottom plate 150 is assembled to the lower portion of the case 110 to support the first heat sink 160 to be described later, and at the same time serves to protect a plurality of components. In the center of the bottom plate 150, a ventilation hole 151 communicating with the plurality of through holes 131 drilled in the lower portion of the reflector 130 is drilled to excessively increase the heat energy generated from the halogen heating element 120. Make it adjustable.

The first heat sink 160 includes a support hole 161 that supports the lower outer periphery of the reflector 130, from the inner circumference of the support hole 161 to the outer circumferential lower surface of the heat transfer plate 140. A heat dissipation unit 162 extending in a bowl shape to block high-temperature heat passing from the reflector 130 and resupply it to the heated object placed on the heat transfer plate 140, and a downward direction from a lower surface of the heat dissipation unit 162. Extends outward and extends outwardly from the outer periphery of the support part 164 and the support plate 164 spaced apart from the upper end of the heat dissipation part 162, and then is further rounded downward in the downward direction to reflect the reflector 130 It consists of a structure including a double heat dissipation unit 163 to block again the heat passing from the.

That is, the first heat dissipator 160 includes a support hole 161 that can support the lower portion of the reflector 130, and a bowl-shaped heat dissipation portion (sequentially spaced apart from the outer circumference of the reflector 130). 162 and the dual heat dissipation unit 163 may be deformed of the case 110 itself due to the high temperature heat passing through the reflector 130, or may adversely affect the controller and other components embedded in the case 110 It is configured to prevent.

In addition, the heat dissipation unit 162 of the first heat dissipator 160 may prevent a plurality of temperature control holes 165 from being drilled along the periphery thereof so that the heat supplied from the halogen heat generator 120 may be overheated. To be able.

Of course, the plurality of temperature adjusting holes 165 communicates with the plurality of satellite holes 152 drilled around the vent hole 151 of the bottom plate 150 to externally heat the high temperature heat generated around the heat dissipation unit 162. Alternately with to prevent excessive overheating of temperature.

In addition, the inner circumference of the support part 164 may have an extrusion spring 190 embedded therein so as to elastically support the first heat sink 160 from the bottom plate 150.

On the other hand, the second heat sink 170 is the pressing portion 171 for pressing and supporting the outer peripheral upper surface and the side of the heat transfer plate 140 placed on the upper end of the heat dissipation unit 162 of the first heat dissipation unit 160, and the pressing The heat-transmitting portion bent downward from the portion 171 and spaced apart from the double heat dissipation portion 163 of the first heat dissipation member 160 in the outward direction and in close contact with the inner circumference of the assembly hole 111 of the case 110. It consists of 172.

That is, the second heat sink 170 is spaced apart from the first heat sink 160 by a predetermined interval as shown in FIG. 2 while pressing the outer circumferential upper surface and the side surface of the heat transfer plate 140 of the case 110. Consists of the assembly hole 111 is configured to completely block the high temperature heat that can be conducted from the first heat sink 160 formed of the heat dissipation unit 162 and the double heat dissipation unit 163. will be.

Meanwhile, the first heat sink 160 and the second heat sink 170 are assembled to the case 110 by the fastening means 180, which are fastened radially from the assembly hole 111. A plurality of fastening rods 181 having protruding bolt grooves 181a formed on the bottom surface of the case 110 in a spaced apart position, and radial from the outer circumference of the double heat dissipating portion 163 of the first heat dissipating member 160. The plurality of coupling pieces 182 and the heat-dissipating portion of the second heat dissipation member 170 formed with a coupling hole 182a which horizontally extends and fits the fastening rod 181 protrudingly formed into the lower surface of the case 110. A plurality of fixing pieces are formed with a coupling hole 182a which horizontally extends from the lower end of the 172 to receive the fastening rod 181 at a position between the lower surface of the case 110 and the plurality of coupling pieces 182. 183 and the screw grooves 181a of the plurality of fastening rods 181 to screw the first heat sink 160 and the second heat sink 170 to the case 110. It consists of a tap bolt 184 to be integrated.

Referring to the assembly operation of the halogen heater 100 according to the present invention made of the above configuration.

First, a plurality of halogen heating elements 120 for converting electrical energy supplied from an external power supply unit into thermal energy are positioned horizontally on the reflector 130, and then the support holes 161 of the first radiator 160 are disposed. Insert it into the assembly.

At this time, the upper end of the reflector 130 and the upper end of the heat dissipation unit 162 of the first heat dissipator 160 maintain a horizontal state, and the upper end of the reflector 130 and the first heat dissipator ( On the upper end of the heat dissipation unit 162 of 160, a plate-shaped heat transfer plate 140 having good thermal conductivity is attached.

Then, the second heat dissipating member 170 is pressed upward from the bottom of the case 110 in the assembling hole 111 so that the fixing holes 183a of the plurality of fixing pieces 183 are fastened to the fastening rods of the case 110 ( 181).

When the fixing hole 183a of the fixing piece 183 is fitted to the fastening rod 181 of the case 110, the outer circumferential edge of the heat dissipating portion 172 of the second heat sink 170 is an assembly hole of the case 110. (111) In close contact with the inner circumference and the pressing portion 171 is present in the position exposed to the upper direction of the assembly hole (111).

Thereafter, the first radiator 160 including the reflector 130 is pressed from the bottom of the case 110 in the upper direction of the assembly hole 111 so that the coupling holes 182a of the plurality of coupling pieces 182 are formed. It can be fitted to the fastening rods 181 of the case 110.

At this time, the fastening rod 181 is assembled in a structure in which the fixing piece 183 of the second heat sink 170 and the coupling piece 182 of the first heat sink 160 are sequentially inserted, and the heat transfer plate ( 140 is assembled in a structure in which the upper portion of the heat dissipating portion 162 of the first heat dissipating member 160 and the bottom of the pressing part 171 of the second heat dissipating member 170 are sandwiched in close contact with each other.

Of course, the tab bolt 184 is screwed to the bolt groove 181a of the fastening rod 181 so that the case 110, the first heat sink 160, and the second heat sink 170 may be integrated. .

Finally, while placing the extrusion spring 190 on the inner circumference of the support 164 of the first heat sink 160, the bottom plate 150 is attached or screwed (not shown) to the bottom of the case 110, To complete the assembly.

Halogen heater assembly structure according to the present invention as described above has the following beneficial effects.

First, in order to prevent the high temperature heat of the halogen heating element 120 passing through the reflector 130 from adversely affecting the controller and other components embedded in the case 110, the first heat dissipator 160 and the second element may be used. By assembling the spaced structure of the heat dissipation member 170, there is an excellent effect of preventing the deformation of the case 110 itself or the malfunction of other parts, including the controller due to the high temperature.

Second, the structure of the first heat sink 160 is formed into a bowl-shaped heat sink 162 spaced apart from the reflector 130, and a double heat sink 163 spaced from the heat sink 162, and the second By assembling the heat dissipation member 170 in a structure spaced apart from the first heat dissipation member 160, the heat deflection of the case 110 and the controller due to the high temperature supplied from the halogen heating element 120 can be prevented and the reflector 130 can be prevented. Rather, it is possible to concentrate the heat passing through the heat transfer plate 140 on the heating element, which has a useful effect of maximizing thermal efficiency.

Third, the first heat dissipation unit 160 and the second heat dissipation unit 170 having the reflector 130 built into the assembly space of the case 110 can be easily assembled through the tab bolts 184, so the assembly work is very convenient. There is a practical effect.

Fourth, when an abnormality is found in other components, including the halogen heating element 120, it is easy to inspect the entire parts through a simple disassembly of the tab bolt 184, so that the repair and inspection are very easy.

Fifth, the heat transfer plate 140 supporting the to-be-heated body is assembled in a structure that is uniformly supported by the top of the reflector 130 and the top of the heat dissipation unit 162 of the first heat dissipator 160 and at the same time the second heat dissipation ( 170 is assembled in a structure that is closely supported by the pressing pressure, even if the weight of the heating element is heavy, the holding force has a very good effect.

Claims (4)

A case 110 extending in an outward direction from the center assembly hole 111 and vertically bent downward to provide an assembly space therein; and a halogen heating element 120 embedded in the assembly space of the case 110. A reflector 130 for intensively reflecting the heat energy generated from the upper direction, a heat transfer plate 140 mounted on the reflector 130 to transfer the heat energy supplied from the halogen heating element 120 to the object to be heated; In the halogen heater assembly structure including a base plate 150 that is assembled to the lower portion of the case 110 while supporting the reflector 130, A first heat sink 160 supported by the bottom plate 150 to block high temperature heat passing through the reflector 130 while supporting the heat transfer plate 140; A second heat sink 170 tightly fixed to an inner circumference of the assembly hole 111 of the case 110 while pressing and pressing the heat transfer plate 140 on the first heat sink 160; Halogen heater assembly structure characterized in that it comprises a fastening means 180 for assembling the first heat sink (160) and the second heat sink (170) to the case (110). The method of claim 1, The first heat sink 160, A support hole 161 for supporting a lower outer periphery of the reflector 130, It extends into a bowl shape from the inner circumference of the support hole 161 to the outer circumferential lower surface of the heat transfer plate 140 to block the high temperature heat passing from the reflector 130 and resupply it to the heated object. A heat dissipation unit 162, A support portion 164 extending downward from the lower surface of the heat dissipation portion 162 and supported upright on the bottom plate 150; After extending outward from the outer periphery of the position spaced apart from the upper end of the heat dissipation unit 162 is further rounded in the downward direction again double heat dissipation unit 163 for blocking the heat passing from the reflector 130 again Including; The second heat sink 170, A pressing part 171 for pressing and supporting an outer circumferential upper surface and a side surface of the heat transfer plate 140 placed on an upper end of the heat dissipation part 162 of the first heat dissipation part 160; It extends bent downward from the pressing portion 171 to be spaced outward from the double heat dissipation portion 163 of the first heat dissipation unit 160 and at the inner circumference of the assembly hole 111 of the case 110. Halogen heater assembly structure characterized in that it comprises a heat shield 172 in close contact. The method according to claim 1 or 2, The fastening means 180, A plurality of fastening rods 181 having bolt grooves 181a protrudingly formed on the bottom surface of the case 110 at a position radially spaced from the assembly hole 111; Coupling hole 182a extending horizontally from the outer circumference of the double heat dissipation unit 163 of the first heat dissipation member 160 to fit the fastening rod 181 protrudingly formed on the bottom surface of the case 110. This molded plurality of engaging pieces 182, Radially extending horizontally from the lower end of the heat-dissipating portion 172 of the second heat dissipation member 170 to receive the fastening rods 181 between the lower surface of the case 110 and the plurality of coupling pieces 182. A plurality of fixing pieces 183 formed with fixing holes 183a, Including a tab bolt 184 is screw-assembled in the bolt grooves (181a) of the plurality of fastening rods 181 to integrate the first heat sink 160 and the second heat sink 170 to the case 110. Halogen heater assembly structure, characterized in that made. The method of claim 2, Halogen heater assembly structure characterized in that it further comprises a plurality of temperature control holes 165 perforated along the periphery of the heat dissipating portion 162 of the first heat dissipation 160.