KR100983202B1 - Carbon heater - Google Patents

Abstract

Carbon heater 90 according to the present invention is a box-shaped case 300, the through-holes (317, 325) is formed, the carbon heater rod 100 mounted inside the case 300, and the carbon heater rod (100) By configuring the carbon sheet 200 which is configured to hang on the case 300 to the side, it is related with the invention configured to radiate far infrared rays and anions which are excellent in thermal efficiency and beneficial to the human body.

Carbon company, heater

Description

Carbon heater

The present invention relates to a carbon heater, and more particularly, to a carbon heater in which anion and far infrared rays are radiated, which are excellent in thermal efficiency and beneficial to the human body by using a carbon heater rod and a carbon sheet as a heating element.

In general, a heater is used for heating in a sauna, a plastic house, and a building's interior, and a heater wire is arranged inside the case to generate heat by electric conduction.

The heater wire is made of silicon, copper, tungsten, or the like, and generates resistance heat due to electrical conduction, and radiant heat is radiated through the resistance heat to increase the temperature.

According to the conventional heater, a wire rod formed of silicon, copper, tungsten, or the like as a heat generating means has a problem in that a large amount of electricity is consumed, resulting in low thermal efficiency, and thus a large maintenance cost.

In addition, far infrared rays and negative ions that are beneficial to the human body are not radiated. Instead, harmful electromagnetic waves are radiated to the body, thereby damaging health.

In order to solve this problem, a carbon heater rod containing carbon yarn in a vacuum glass tube may be used as a heating source of the heater, but in this case, convective heat rises upward and high heat is concentrated. Since the heater rod is broken, the carbon heater rod is not used for the heater.

Accordingly, an object of the present invention is to provide a carbon heater for solving the above problems.

The carbon heater according to the present invention comprises a box-shaped case having a through hole, a carbon heater rod mounted inside the case, and a carbon sheet configured to be suspended from the case toward the carbon heater rod side.

According to the carbon heater according to the present invention, the heat efficiency can be maximized by using the carbon heater rod and the carbon sheet as the heat generating source. For example, a heat quantity of 825.6 kcal is generated at 1 kW.

In addition, by forming a reflector plate behind the carbon heater rod, by using a reflector plate that is bent to form a recess, radiant heat, far infrared rays, and negative ions are discharged by concentrating forward without scattering, so the heat is concentrated upward and the upper carbon heater It is possible to prevent the rod from being broken by high heat.

In addition, the negative ions and far-infrared rays which are beneficial to the human body are discharged to the front, which is beneficial to the health of the human body.

In addition, since the carbon sheet has a large contact area with air, the heat exchange rate of air is excellent.

Hereinafter, with reference to the accompanying drawings, a configuration, an embodiment, and an operation example of the present invention for achieving the above object are as follows.

1 is a front view showing a carbon heater to which the technique of the present invention is applied, FIG. 2 is a sectional view taken along line AA ′ of FIG. 1, and FIG. 3 is a carbon heater to which the technique of the present invention is applied; 4 is an exploded perspective view showing a state where one heat-resistant sheet is separated as a carbon sheet constituted in a carbon heater to which the technique of the present invention is applied.

In general, in order to heat the interior of a sauna room, a plastic house, an office or a residential space, a heater 90 using electricity as energy is used.

In the present invention, by using the carbon heater rod 100 and the carbon sheet 200 composed of the carbon yarn 230 as the heat generating source of the heater, it is characterized in that the far infrared rays, anion, which is excellent in thermal efficiency and beneficial to health.

To this end, the present invention is configured as follows.

Box-shaped case 300 having a through hole (317, 325) is formed, the carbon heater rod 100 is mounted inside the case 300, the carbon sheet 200 on the carbon heater rod 100 side Is hanging on the case 300 is configured.

The carbon heater rod 100 is that the carbon yarn is accommodated in the vacuum glass tube, when electricity is conducted to the carbon yarn, a large amount of negative ions and far infrared rays are radiated while radiant heat is generated.

The carbon sheet 200 is a carbon yarn 230 is arranged on the top surface 215 of one side heat-resistant sheet 210, the heat-resistant side sheet 220 is matched to the top surface 215 of the one heat-resistant sheet 210 Attached. The carbon yarn 230 may be made of a woven carbon cloth, or a plurality of carbon bundles 235 may be arranged spaced apart and electrically connected to each other. The carbon bundle 235 is preferably formed flat as shown in Figure 4 to increase the thermal efficiency by increasing the contact area with the air.

In order to prevent the short circuit by maintaining the separation distance of the carbon bundle 235, as shown in Figure 4, by attaching a heat-resistant tape 240 formed of glass wool or the like on the carbon bundle 235, the upper surface of one side heat-resistant sheet 210 215 may be attached, and a portion between the carbon bundle 235 may be attached to the heat resistant sheet 220 and the one side heat resistant sheet 210 to prevent a short circuit of the carbon bundle 235. As an example, it is possible to sew one side and the other side heat-resistant sheets 210 and 220 between the carbon bundles 235.

The one side and the other side heat-resistant sheet (210, 220) may be composed of glass wool or mica, it may be a woven paper or plate-like plate shape. By using the glass wool or mica as a material of the heat resistant sheet, it is excellent in heat resistance, electrical leakage is prevented as a nonconductor, and emits far infrared rays and anions together with the carbon yarn 230.

Looking at a specific embodiment of the case 300 as follows.

First, as a box shape, the upper and front sides are opened, and a body 310 having a through hole 317 for the circulation of air to the side is formed, and covers the open front of the body 310 and the through hole for the circulation of air ( The front cover 320 through which the 325 is passed is configured. The cap 330 is configured to cover the open upper side of the body 310 and to open the lower side and the front side so that the heat inside the body 310 rises and is discharged forward.

The open upper portion of the body 310 is configured so that the plurality of bars (340, bar) on which the carbon sheet 200 is suspended so as to cross the front and rear, the side plate 351 partitioning the inside of the body 310 to the left and right. 352) are spaced apart on both sides.

Interposed between the side plates 351 and 352 is attached to form a reflecting plate 360 having a mirror surface to reflect light, radiant heat, far infrared rays, and negative ions forward. The reflecting plate 360 is configured to form a cross section as shown in FIG. 2 by repeating the process of bending forward and then bending backward again and forward again.

The carbon heater rod 100 is configured to be penetrated and supported by both side plates 351 and 352, and positioned in the recess 365 recessed in the reflecting plate 360. Therefore, as shown in Figure 2, the concave portion 365 by collecting the light, radiant heat, far infrared rays, anions of the carbon heater rod 100 to radiate forward, so that the phenomenon of scattering is prevented.

A plurality of plate-shaped feathers 370 formed laterally in front of the reflector plate 360 are formed on the side plates 351 and 352 so as to be rotatable, so that light, radiant heat, The radiation direction of far infrared rays, anions or heat can be adjusted.

The heat insulating plate 380 is attached to the bottom 311 of the body 310, and the heat insulating plate 390 is inclinedly attached to the upper portion of the reflecting plate 360 so as to downwardly move forward. As an example, it is possible by attaching to the upper surface 367 at the concave portion 365 of the reflecting plate 360. For example, the heat insulating plates 380 and 390 are excellent in heat resistance and heat insulating efficiency, and are preferably formed of mica which is an insulator.

Hereinafter, the operation of the present invention will be described.

When electricity is conducted to the carbon heater rod 100 and the carbon sheet 200, the concave portion 365 of the reflector plate 360 collects radiant heat, negative ions, and far-infrared rays in the forward direction to concentrate the human body in front. Investigate.

In addition, since the radiant heat, anion, and far-infrared rays are scattered to prevent a phenomenon in which heat rises upward, high heat is concentrated upwards, thereby preventing the carbon heater rod 100 mounted on the upper part from being damaged.

In general, as the heat reflection effect can be expected by using an aluminum film on the surface of the heat insulator, the reflecting plate 360 is formed in a mirror surface to radiate radiant heat, anion, and far infrared rays to the front. It is the same principle that the rear side of the heating element of a general electric heater is composed of a mirror surface.

And there is an advantage that can steer the angle radiated by the rotation of the feather (370).

In addition, while the air is circulated through the through holes 317 and 325, heat is exchanged by the carbon sheet 200 and discharged to the outside through the front of the through holes 317 and 325 or the cap 330. That is, since the carbon sheet 200 is formed to be wide, the contact area with air is widened, and the heat exchange rate is excellent. Of course, the anion and far infrared rays are also radiated through the carbon sheet 200.

The present invention is to more effectively radiate light and radiant heat, anion, far-infrared rays forward through the carbon heater rod 100 and the reflecting plate 360, and a large contact area through the carbon sheet 200 Heat is exchanged through the air to increase the temperature of the indoor air.

The heat insulating plate 380 attached to the bottom 311 of the body 310 serves as a heat dissipation material having excellent heat resistance to block radiant heat, negative ions, and far infrared rays. Therefore, the heat is prevented from being conducted to the indoor floor through the bottom surface 311, and the heat insulating plate 390 attached to the reflecting plate 360 also rises despite the recess 365 formed in the reflecting plate 360. By blocking the radiant heat to be radiated only toward the human body in the front, it is possible to maximize the thermal efficiency.

The cap 330 is opened so that heat is discharged from the front, so that the temperature inside the body 310 is too high to prevent the carbon heater rod 100 from being damaged.

1 is a front view showing a carbon heater to which the technique of the present invention is applied.

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

3 is a perspective view illustrating a state in which the cap, the front cover, and the feather are separated as a carbon heater to which the technique of the present invention is applied.

Figure 4 is an exploded perspective view showing that one side of the heat-resistant sheet is separated as a carbon sheet constituted in the carbon heater to which the technique of the present invention is applied.

* Description of the symbols used in the main parts of the drawings *

100: carbon heater rod 230: carbon yarn

200: carbon sheet 210: one side heat-resistant sheet 220: the other side heat-resistant sheet 300: case

310: body 317, 325: through-hole

320: front cover 330: cap

340: bar 350: side plate

360: reflector 370: feather

380, 390: insulation board

Claims (3)

In constructing the carbon heater 90, Box-shaped case 300, the through hole (317, 325) is formed, Carbon heater rod 100 and the inside mounted in the case 300, The carbon sheet 200 is configured to hang on the case 300 to the carbon heater rod 100 side , The case 300 is a box-shaped body 310, the upper and the front is open and the through-hole 317 for the circulation of air to the side is perforated; A front cover 320 covering the open front of the body 310 and having a through hole 325 through which air is circulated; A cap 330 which covers an open upper side of the body 310 and is open downward and front; The bar 340 is configured to be placed in front and rear so that the carbon sheet 200 is suspended on the open upper portion of the body 310, Side plates 351 and 352 spaced apart from both sides to separate the inside of the body 310 to the left and right, and A reflecting plate interposed between the side plates 351 and 352 to form a mirror surface in the front, and having a cross section in a wave shape; The carbon heater rod 100 is supported to penetrate the side plates 351 and 352 and be positioned in the concave portion 365 recessed from the reflecting plate 360. A feather 370 which is formed in a long side in front of the reflecting plate 360 and is arranged up and down so as to be rotatable on the side plates 351 and 352; A heat insulation plate 380 attached to the bottom 311 of the body 310, It is composed of a heat insulating plate 390 is inclined attached to the upper portion of the reflecting plate 360 to forward downward, The carbon sheet 200 is one side of the heat-resistant sheet 210, Carbon yarn 230 and arranged on the upper surface 215 of the one side heat-resistant sheet 210, Carbon heater, characterized in that consisting of the mating heat-resistant sheet 220 corresponding to the upper surface (215) of the one side heat-resistant sheet 210. delete delete

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