KR20080002280A - A heater of near infrared ray having a heat dissipating structure of the surface contact - Google Patents

Abstract

A near infrared ray heater is provided to extend a lifetime of the heater by delivering the heat from the heater to the outside by directly dissipating the heat from a reflective plate through a heat dissipating plate. A near infrared ray heater includes a heat dissipating plate(17), a safety net(14), and a main body(11). A heater(15) is arranged on a reflective plate(16). The heat dissipating plate is connected to the reflective plate. The safety net is arranged in front of the heater. Heat dissipating plates are connected to both sides of the reflective plate, on which the heater is arranged. A surface contact unit(19) is formed on the reflective plate, so that the reflective plate is surface-contacted with the heat dissipating plate. The surface contact unit is formed in a straight line at the center of the reflective plate.

Description

A heater of near infrared ray having a heat dissipating structure of the surface contact}

1 is a cross-sectional view of a conventional general near infrared heater.

2 is a front view of a near infrared heater showing a preferred embodiment of the present invention

Figure 3 is a cross-sectional view of the installation state of the near line heater of the present invention

4 is an exploded perspective view of the main part of the invention;

5 is an assembled perspective view of the main part of the present invention;

6 is a cross-sectional view of the assembled state of the main part of the present invention;

[Description of Symbols for Main Parts of Drawing]

10: near infrared heater 11: body

12: guide base 13: control unit

14: safety net 15: heater

16: reflector 17: heat sink

18: holder 19: surface contact

The present invention relates to an electric near-infrared heater having a heat dissipation structure of a surface contact, and more particularly, a surface contact in which the reflector is in surface contact at a portion where the reflector and the heat sink are in contact, so that heat generated from the reflector is quickly discharged through the heat sink. An electric near infrared heater having a heat dissipation structure of.

When the light emitted from the sunlight or the heating element is dispersed in the spectrum, the infrared ray is located outside the end of the red spectrum, and the shortest wavelength is near infrared. Near-infrared rays generally have a stronger thermal effect than visible or ultraviolet rays, and thus are widely used for industrial or medical purposes.

It is used for disinfection, sterilization and joint and muscle treatment. Tungsten filament bulbs are made of 3.5 µm near infrared.

Unlike other infrared treatments, near-infrared rays generate heat because they penetrate and enter the skin.

This heat has many effects on disinfection and sterilization, and facilitates blood circulation, thereby promoting metabolism such as waste transport and oxygen supply, thereby activating cellular tissues.

The effects of the activated blood and cells have many effects on the analgesic effect as well as muscle and joint treatment.By blood circulation, high blood pressure decreases blood pressure and fatigue recovery as well as neuralgia, rheumatism, myalgia, and various chronic diseases. It also works for inflammation.

The heater using the near-infrared rays having the above effects has advantages such as high energy efficiency and no need for ventilation compared to the conventional heating method.

Accordingly, the near-infrared heater can be installed in a lobby with a high ceiling, a factory, a warehouse, or an indoor space that requires frequent ventilation, and has an advantage of effectively heating at low energy cost.

However, since the near-infrared heater is installed in a lobby, a factory, a distribution warehouse, or the like, as described above, it is not easily accessible to the user, and it is difficult for the user to visually identify it even when the temperature of the heater is excessively increased. In addition, there was a problem that the lifetime of the heating element and other components due to overheating is reduced.

As shown in FIG. 1, the near-infrared heater of the related art has a safety net 14 installed on the outside of the body 11 and a heater 15 installed at an inner center thereof, and a reflector plate to surround a portion of the heater 15. 16 is provided in a semicircular shape, and the heat sink 17 is in line contact with the reflection plate 16.

The surface temperature is heated to 1,000 ~ 1,100 ℃ by the power supply from the heater, so that some of them are supplied to the room through the reflecting plate, but the temperature of the reflecting plate rises, so that the temperature of the reflecting plate can be kept constant through the heat sink, but the reflecting plate and the heat sink Because of this line contact, the temperature of the reflector could not be properly transmitted to the heat sink, resulting in a shortening of the life of the heater and a disadvantage of imparting the reflector.

The present invention has been devised to solve the above-mentioned drawbacks, forming a portion where the reflecting plate and the heat sink meet in a straight line to make a surface contact between the reflecting plate and the heat sink so that the heat generated from the reflecting plate is effectively discharged to the heat sink to the heat sink The purpose is to extend the life of the heater without going.

The present invention made for this purpose in the near-infrared heater consisting of a body and the heat sink is connected to the heat sink is installed in the front and the safety net is installed,

The heat sink is connected to both sides of the reflector on which the heater is installed, and the surface contact portion is formed on the reflector so that the reflector and the heat sink are in surface contact.

Preferred embodiments of the present invention made for this purpose will be described in detail with reference to the accompanying drawings.

Guide bars 12 are coupled to both sides of the body 11 formed by sheet metal, and the reflecting plate 16 is integrally coupled to the front of the body 11.

One side of the guide 12 is provided with a control unit 13 to control the heater (15).

Holes are drilled in both sides of the judge plate 16 so that the heater 15 is supported by the holder 21 on both sides.

The heat dissipation plate 17 is provided in the lower fixing stand 18 from both ends of the center part of the reflecting plate 16 inward.

The central portion of the reflector plate 16 forms a surface contact portion 19 such that the position where the heat sink 17 is in contact with each other is straight, thereby forming the near-infrared heater 10 such that the reflector plate 16 and the heat sink 17 are in surface contact. do.

The present invention made up of such a configuration can be used to be mounted at a predetermined position from the ground using a cradle (not shown), and if necessary, can be installed on the wall to be freely rotated at a desired angle.

The near-infrared heater 10 is used by supplying power. When the power is supplied to the heater 15 through the control unit 13, the heater 15 generates heat and the surface temperature provides 1,000 to 1,100 ° C., so that the heat generation temperature is It is supplied to the outside through the reflecting plate 16 formed to the outside to be heated.

Since the near-infrared rays generated by the heater 15 extend to about 12 meters in front, the near-infrared rays may penetrate into the skin to generate heat because they are located within a distance supplied by the near-infrared rays, thereby maximizing a heating effect.

Heat generated while the heater 15 generates heat is supplied forward through the reflecting plate 16, but since the temperature of the reflecting plate 16 continues to rise, the reflecting plate 16 and the heat sink 17 at the surface contacting portion 19 face off. Since the contact is made, the heat generated by the reflector 16 is discharged to the outside through the heat sink 17.

Heat generated from the reflector 16 is discharged through the heat sink 17 so that the temperature of the reflector 16 is kept constant, and the reflector 16 and the heat sink 17 are provided on the wide side through the surface contact 19. Since the contact is provided, heat generated in the reflector 16 is easily discharged through the heat sink 17.

Since the heat is discharged from the wide surface by the surface contacting portion 19, the heat transfer is performed properly, so that the reflection plate 16 is not excessively loaded and the life of the heater 15 can be extended.

The present invention provides a near-infrared heater in which the reflector reflects and heats the heat generated by the heater by making contact between the contact portion of the portion where the reflector and the heat sink meet.

According to the present invention, since the surface of the reflector and the heat sink are contacted in a large area by the surface contact part, the heat generated from the reflector is properly radiated through the heat sink so that the reflector does not become excessive, and at the same time, it effectively transfers heat generated from the heater. It is to extend the life of the heater.

Claims (2)

In the near-infrared heater (10) consisting of a body (11), a heat sink (17) is connected to the reflector (16) on which the heater (15) is installed, and a safety net (14) is installed forward, The heat sink 17 is connected to both sides of the reflector 16 on which the heater 15 is installed, and the contact plate 19 is formed on the reflector 16 such that the reflector 16 and the heat sink 17 are in surface contact with each other. A near-infrared heater having a heat dissipation structure with surface contact. The near-infrared heater according to claim 1, wherein the surface contacting portion (19) is formed in a straight shape at the center of the reflecting plate (16) to be in contact with the heat sink (17) for heat transfer.

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