KR100870676B1 - Radiating device having electrical heater and the method inserting oil into the device - Google Patents

Abstract

An electric heater radiator is provided to prevent local heat transfer and improve heat transfer efficiency and improve service life. An electric heater radiator comprises a pipe(302) in which one side is sealed up with the cross-section ash(322), formed with the pipe shape; an embedded pipe(303) in which one side is sealed up with the end surface member(313); at least one heat radiation fin(309), installed at the outer diameter portion of the pipe; a side member(332) forming the first space part(302a) for the pipe and ingression pipe a fixing member(340) in which the pipe is inserted to the second inside diameter; an electric heater(304) forming the second space part(303a) between the embedded pipe; a thermal medium(350) filled in some part of the first space part; and oil(360) filled in the second space part.

Description

Radiating Device having Electrical Heater and the Method Inserting Oil into the Device}

1 is a perspective view showing an electric heater radiator according to the prior art.

FIG. 2 is a longitudinal cross-sectional view of the heat dissipation device shown in FIG. 1.

3 is a cross-sectional view of the heat dissipation device illustrated in FIG. 1.

4 is a perspective view showing a heat dissipation device according to another conventional technology.

5 is a longitudinal cross-sectional view of the heat dissipation device shown in FIG. 4.

6 is a schematic perspective view of an electric heater radiator according to a preferred embodiment of the present invention.

FIG. 7 is a longitudinal cross-sectional view of the heat radiator shown in FIG. 6.

8 is a cross-sectional view showing a fixing member provided in the heat radiation device according to the present invention.

9 is a cross-sectional view for explaining a heat sink assembly process according to the present invention.

Explanation of symbols on the main parts of the drawings

300: electric heater radiator 302: tube

303: internal tube 304: electric heater

309: heat radiation fin 323: first fixing means

325: second fixing means 340: fixing member

350: heat medium 360: oil

The present invention relates to an electric heater heat dissipation device mainly used in a small plastic house for agriculture, and more particularly, it is possible to improve the heat transfer efficiency, to prevent the shortening of the life of the electric heater due to local overheating, It relates to an electric heater heat dissipation device that can prevent shaking.

As a heating device used in a large heating space such as a large agricultural house or various industries, there is a blower type that heats air directly from a boiler and supplies it to a heating place, and a radiator type that transfers and radiates hot water heated by the boiler to a pipe. I use it. Both the blower type and the radiator type require a lot of installation costs and are used for many years at a place once installed. Therefore, it was not possible to use in a small house, a small house or a small heating space.

1 is a perspective view showing an electric heater heat dissipation device used in a small house, etc. according to the prior art, Figure 2 is a cross-sectional view along the longitudinal direction of the electric heater heat dissipation device shown in Figure 1, Figure 3 is 4 is a lateral cross-sectional view of the electric heater radiator shown in the drawings, and FIG. 4 is a perspective view showing the electric heater radiator according to another conventional technology, and FIG. 5 is a cross-sectional view along the length direction of the electric heater radiator shown in FIG. 4.

1 to 3, the heat dissipation device 100 shown in FIG. 2 is installed horizontally as shown in FIG. 2, and the heat dissipation device 200 shown in FIGS. 4 and 5 has a heater 204 portion. It is installed low.

1 to 3, the electric heater heat dissipation apparatus 100 according to the prior art welds the inner tube 103 to which the electric heater 104 is coupled to the inner lower end of the tube body 102 to weld the inner tube ( 103) The heating chamber 102a is formed on both sides, and both ends of the pipe 2 are welded to the cover member 105, and pipes of the injection pipe 107 having the intermittent valve 107a are provided at both ends of the pipe body. The inside of the tube body 102 is configured in a vacuum, and an appropriate amount of heat medium 106 is injected into the tube body 102 in a vacuum state so that circulation is made in the tube body 102 by heating of the electric heater 104. , The lower side of the tubular 102 was formed separately or integrally formed a pillar pillar 108 with a pointed end to stand on the ground. As shown in FIG. 2, the electric heater 104 has a structure in which a screw is fastened to the inner tube 103. In FIG. 1 and FIG. 2, reference numeral 109 illustrates a heat dissipation fin for increasing heat transfer efficiency.

4 and 5, the electric heater heat dissipation device 200 according to another prior art shown in FIG. 4 forms a heater inlet pipe 203 on one side of the tube body 202, and the other side is sealed by a stopper 205 to close the space. And heat medium is added to the space. The electric heater 204 is inserted into the opening 210 formed inside the inner tube 203, sealed with an external stopper 205, and then drawn out of the electric wire 204a. In FIG. 4 and FIG. 5, reference numeral 209 shows a heat dissipation fin for increasing heat transfer efficiency.

The heat medium provided in the electric heater radiators 100 and 200 shown in FIGS. 1 to 5 repeats vaporization and liquefaction in the tubular bodies 102 and 202 and the latent heat heater 104 through the tubular bodies 102 and 202. 204) to release heat transferred from the outside to the outside, and ammonia, Freon 11, ethanol, etc. are used depending on the operating temperature.

However, the electric heater heat dissipation apparatus 100 and 200 illustrated in FIGS. 1 to 5 may have insufficient space between the electric heaters 104 and 204 and the inner tubes 103 and 203. There is a problem that one side is in contact with the intake tube (103, 203) localized heat transfer through the contact portion and the heat transfer efficiency is lowered, and the heat transfer efficiency is lowered by the wide space portion if sufficient space to prevent contact There was a problem that, overheating occurs in the electric heaters (104, 204) due to the decrease in the heat transfer efficiency, there was a problem that the life is shortened, the use of the electric heaters (104, 204) shaking or the electric heater (104, 204) was separated.

The present invention has been proposed to solve the problems of the conventional electric heater radiator as described above, it is possible to minimize the space between the electric heater and the intake pipe, it is possible to prevent the occurrence of local heat transfer, It is an object of the present invention to provide an electric heater heat dissipation device having a high heat transfer efficiency and a lifespan of the electric heater improved by three times or more as compared to the electric heater heat dissipation device of the prior art.

The electric heater heat dissipation device of the present invention for achieving the above object is formed in a pipe shape and one side is sealed with a cross-section member; An inner tube inserted into the tube through the opening of the tube and sealed at one side by an end member; At least one heat dissipation fin installed at an outer diameter of the tubular body; A side member provided between an inner diameter surface of the tube and an outer diameter surface of the inner tube to form a first space between the tube and the inner tube; A fixing member in which a first inner diameter portion and a second inner diameter portion are formed and a tube is inserted into the second inner diameter portion; An electric heater inserted into an opening of the inner tube through a first inner diameter portion of the fixing member to form a second space portion between the fixing member and the inner tube; A heat medium filled in a part of the first space part; Characterized in that it comprises an oil filled in the second space portion,

In the above, the fixing member is made of an elastic body such as rubber, the tube body is fixed to the fixing member by the second fixing means, the electric heater is characterized in that the fixing member by the first fixing means.

In the above, the boiling point of the oil is characterized in that higher than 300 ℃ at atmospheric pressure.

On the other hand, the oil filling method according to the invention is formed in a pipe shape and one side is sealed with a cross-section member; An inner tube inserted into the tube through the opening of the tube and sealed at one side by an end member; At least one heat dissipation fin installed at an outer diameter of the tubular body; A side member provided between an inner diameter surface of the tube and an outer diameter surface of the inner tube to form a first space between the tube and the inner tube; A fixing member in which a first inner diameter portion and a second inner diameter portion are formed and a tube is inserted into the second inner diameter portion; An electric heater inserted into an opening of the inner tube through a first inner diameter portion of the fixing member to form a second space portion between the fixing member and the inner tube; A heat medium filled in a part of the first space part; Oil filled in the second space; Second fixing means for fixing the tube to the fixing member; In the method for filling oil in the second space portion of the electric heater radiator comprising a first fixing means for fixing the electric heater to the fixing member,

Inserting a tube into one side of the fixing member; Fixing the tubular body to the fixing member by the second fixing means; Putting the opening of the inlet tube facing upward and injecting oil in the opening; Inserting the heating part of the electric heater into the opening of the inner tube by passing the fixing member; And fixing the electric heater inserted into the fixing member with the first fixing means.

Hereinafter, the electric heater radiator and the oil filling method according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. In the detailed description, the same name is used for the configuration having the same function as the prior art, and description of the technical content overlapping with the prior art is omitted.

6 is a partially omitted perspective view showing an electric heater heat dissipation device according to the present invention, Figure 7 is a cross-sectional view along the longitudinal direction of the electric heater heat dissipation device shown in Figure 6, Figure 8 is provided in the electric heater heat dissipation device of the present invention Figure 9 is a cross-sectional view showing the fixing member, Figure 9 is a partial cross-sectional view for explaining the oil filling process.

As shown in FIGS. 6 to 9, the electric heater radiator 300 according to the present invention includes a tubular body 302, an inner tube 303 provided inside the tubular body 302, and the tubular body 302. It is configured to include a fixing member 340 is inserted and fixed, and the electric heater 304 is inserted into the fixing member 340 and fixed to the fixing member 340 to the other side into which the tube 302 is inserted. The outer diameter portion of the tubular body 302 includes a heat dissipation fin 309 for increasing heat transfer to the atmosphere. The heat dissipation fin 309 is formed of aluminum and the like having excellent thermal conductivity in order to maximize the heat dissipation effect.

The tubular body 302 is sealed at one side with a cross-sectional member 322, the other side is inserted into the inlet tube 303, one side is sealed with the end surface member 313. As shown in FIG. 7, the inner diameter of the tubular body 302 is larger than the outer diameter of the inner tube 303 so that a space is formed between the inner diameter of the tube body 302 and the outer diameter of the inner tube 303. The side member 332 is installed toward the opening of the tube body 302 and the outer diameter of the inner tube 303. The end face member 322, the end face member 313 and the side member 332 are installed by welding. Therefore, the first space portion 302a is formed inside the tubular body 302, the inner tube 303, the end surface member 322, the end surface member 313, and the side member 332.

An appropriate amount of heat medium 350 is introduced into the first space part 302a. In FIG. 6, 307, 317, 307a, and 317a show the piping and the valve for making the said 1st space part 302a into a vacuum, and injecting the heat medium 350, respectively.

Electric heater radiator 300 according to the present invention is provided with a fixing member 340 for fixing the tubular body 302 and the electric heater 304 on both sides as shown in Figs. The fixing member 340 is preferably formed of an elastic material such as an elastomer in order to prevent leakage between the components to be fixedly installed. The fixing member 340 has a tube inserting portion 342 into which the tube body 302 is inserted and a heater inserting portion 341 into which the heater 304 is inserted, and the tube body inside the tube inserting portion 342. A second inner diameter portion 343 into which the 302 is inserted is formed, and a first inner diameter portion 345 into which the electric heater 304 is inserted is formed inside the heater insertion portion 341. A cross section 347 is formed between the first inner diameter part 345 and the second inner diameter part 343 to contact the side member 332.

The tubular body 302 is inserted into the second inner diameter part 343 so that the side member 332 is in contact with the end face 347, and the tubular body inserting part 342 is pressed by the second fixing means 325. 302 is fixed to the fixing member 340. Then, the electric heater 304 is inserted into the first inner diameter part 345 of the other side, and the heat generating part 324 is inserted into the opening formed in the inner tube 303. The inlet 314 of the electric heater 304 is positioned at the first inner diameter 345. In the above state, the heater inserting portion 314 is pressed by the first fixing means 323 to fix the electric heater 304 to the fixing member 340. A heat generating coil (not shown) is installed in the heat generating part 324, and an insulating material (not shown) such as magnesium oxide is filled in the space between the heat generating coils. The lead portion 341 is provided with a conductive wire (not shown) such as a copper wire that electrically connects the heating coil and the electrode 304a.

The outer diameter Do of the heat generating part 324 is preferably set in a loose fit relationship with the inner diameter Di of the opening of the inner tube 303, and the heating part 324 and the inner tube 303 The oil 360 is filled in the second space portion 303a formed between the openings. The oil 360 is preferably a liquid substance having a boiling point of 350 ° C. to 400 ° C. at atmospheric pressure. The nichrome wire used as the heating coil has a high possibility of damage when the outside temperature of the heating unit 324 rises above 350 ° C, and the electric heater 304 used in the prior art and the present invention has a temperature of 350 ° C to 400 ° C. Set to maintain at ℃. Therefore, when the oil 360 vaporizes when the temperature of the electric heater 304 rises from 350 ° C. to 400 ° C., there is a fear that overheating of the electric heater 304 occurs.

As described above, since the oil 360 is filled in the second space part 303a formed between the heat generating part 324 and the inlet pipe 303, heat is uniformly transferred in all directions through the oil 360. There is no concern about local heat transfer or overheating of the electric heater 304 even when the heat generating unit 324 and the intake tube 303 are in contact with each other. Therefore, the second space part 303a does not need to be largely formed, and the heat transfer efficiency is Will increase. In addition, the inventors of the present invention measured the life using the electric heater 304 of the same type in order to compare the effect of the case where the oil 360 is not filled with the case where the oil 360 is filled, the oil 360 ) Lifespan is tripled.

FIG. 9 illustrates a method of filling the oil 360 in the second space portion 303a formed between the heat generating portion 324 and the inlet tube 303 opening of the electric heater radiator 300 according to the present invention. As shown in FIG. 9, the tubular body 302 is inserted into the second inner diameter portion 343 of the fixing member 340 so that the side member 332 contacts the end surface portion 347. Then, the outer diameter portion of the tube inserting portion 342 is pressed by the second fixing means 325 to fix the tube 302 to the fixing member 340. The oil 360 is introduced into the opening after the opening of the inner tube 303 faces upward. The oil 360 is added not to exceed half of the height of the opening. As described above, the electric heater 304 is inserted through the first inner diameter portion 345 of the fixing member 340 in the state where the oil is introduced, so that the heat generating portion 324 enters the opening. When the heat generating part 324 enters as described above, the oil 360 rises along the gap formed between the heat generating part 324 and the opening and is filled in the second space part 303a.

When the inlet part 314 of the electric heater 304 is seated on the first inner diameter part 345, the electric heater 304 is fixed by pressing the outer diameter part of the heater insertion part 341 by the second fixing means 323. Fixing to the member 340 is completed. By fixing the electric heater 304 and the tubular body 302 via the fixing member 340 formed as described above, the second by pressing the outer diameter portion with the first fixing means 323 and the second fixing means 325. Since the space 303a is closed at high pressure, the oil 360 can be filled.

Although the embodiments of the present invention have been described above with reference to the drawings, the protection scope of the present invention is not limited thereto, and it should be recognized as the protection scope of the present invention from an embodiment of the present invention to a range easily implemented by those skilled in the art. something to do.

As described above, according to the electric heater heat dissipation device 300 according to the present invention can minimize the second space (303a) formed between the heat generating portion 324 and the inner tube 303 can prevent heat transfer loss. By injecting oil into the second space 303a, local heat transfer can be prevented and heat can be transmitted evenly throughout, and local overheating of the electric heater 304 can be prevented, and a fixing member 340 is provided. By doing so, it is possible to reliably prevent the heated oil from leaking to the outside. Therefore, as the temperature of the second space 303a increases, the relative oil density increases to increase the heat transfer efficiency, and the fixing member 340 is connected to the tubular body 302. By assembling closely to the outer diameter surface and the end surface 321 of the), the electric heater 304 can also be assembled to face the center of the inlet tube 303, and can prevent shaking of the electric heater 304 during use after assembly. It works, In fact, as a result of the life test with the heat radiation device according to the prior art, the life of the electric heater 304 is more than three times increased.

Claims (4)

A tubular body 302 formed in a pipe shape and sealed at one side by a cross-sectional member 322; An inner tube 303 inserted into the tube body 302 as an opening part of the tube body 302 and sealed at one side by an end surface member 313; One or more heat dissipation fins 309 installed on an outer diameter portion of the tubular body 302; A side member 332 provided between the inner diameter surface of the tube body 302 and the outer diameter surface of the inner tube 303 to form a first space portion 302a between the tube body 302 and the inner tube 303; A fixing member 340 having a first inner diameter portion 345 and a second inner diameter portion 343 formed therein and having a tubular body 302 inserted into the second inner diameter portion 343; The electric heater is inserted into the opening of the inner tube 303 through the first inner diameter portion 345 to the other side of the fixing member 340 to form a second space portion 303a between the fixing member 340 and the inner tube 303. 304; A heat medium 350 filled in a part of the first space part 302a; Electric heater radiator 300, characterized in that it comprises an oil 360 is filled in the second space portion (303a). The fixing member 340 of claim 1, wherein the fixing member 340 is made of an elastic body such as rubber, and the tubular body 302 inserted into the second inner diameter portion 343 is fixed to the fixing member 340 by the second fixing means 325. And the electric heater 304 inserted into the first inner diameter part 345 is pressurized and fixed to the fixing member 340 by the first fixing means 323. 300). 3. The electric heater (300) according to claim 1 or 2, wherein the boiling point of the oil is higher than 300 ° C at atmospheric pressure. A tubular body 302 formed in a pipe shape and sealed at one side by a cross-sectional member 322; An inner tube 303 inserted into the tube body 302 as an opening part of the tube body 302 and sealed at one side by an end surface member 313; One or more heat dissipation fins 309 installed on an outer diameter portion of the tubular body 302; A side member 332 provided between the inner diameter surface of the tube body 302 and the outer diameter surface of the inner tube 303 to form a first space portion 302a between the tube body 302 and the inner tube 303; A fixing member 340 having a first inner diameter portion 345 and a second inner diameter portion 343 formed therein and having a tubular body 302 inserted into the second inner diameter portion 343; The electric heater is inserted into the opening of the inner tube 303 through the first inner diameter portion 345 to the other side of the fixing member 340 to form a second space portion 303a between the fixing member 340 and the inner tube 303. 304; A heat medium 350 filled in a part of the first space part 302a; An oil 360 filled in the second space 303a; Second fixing means (325) for fixing the fixing member (340) to the tube (302); In the method for filling the oil 360 in the second space portion 303a of the electric heater heat dissipation device comprising a first fixing means 323 for fixing the fixing member 340 to the electric heater 304 in the , Inserting the tube body 302 into one side of the fixing member 340; Fixing the tubular body (302) to the fixing member (340) by the second fixing means (325); Directing the opening of the inlet tube (303) to face upward and introducing oil from the opening; Inserting the heat generating portion 324 of the electric heater 304 into the opening of the inner tube 303 by passing the fixing member 340; A method of filling oil in the heat dissipator, comprising: fixing the electric heater (304) inserted into the fixing member (340) with the first fixing means (323).

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