KR20090107824A - Radiation heat radiation device using far infrared radiation material - Google Patents

Abstract

The present invention relates to a panel having a heating function that can be used as a prefabricated partition or building interior and exterior materials, and more specifically, vertically arranged heat pipe 15 and the heat pipe 15 are fastened to a constant temperature heater 20, After enclosing the heat pipe 15 and the constant temperature heater 20 with the far-infrared radiation material 14, a plurality of heat dissipation devices 10 finished with a metal case 13 and a front surface of the heat dissipation device 10. Attached to the heat sink 50, the back of the heat sink 50 is characterized in that the support plate 30 is coupled, the purpose of providing a far infrared heat dissipation panel with a heat pipe having a far infrared heating function.

Panel, Heat Sink, Far Infrared, Heat Pipe, Radiator

Description

Heat radiating panel use far-infra rays}

In the winter heating device, the heating device that uses a large amount of electricity to heat a high temperature heating element has a risk of fire or burn, and the air becomes cloudy because it heats convection, causing the user to have symptoms such as asthma and rhinitis.

The present invention relates to a radiant heating device that provides a comfortable heat to the human body as a way to compensate for the disadvantages of heating, and heats the heater using less power than conventional heating devices, and heat storage using heat generated from the heater. The present invention relates to a device capable of heating by heating ash and conducting heat to a heat diffusion plate in which heat heated by the heat storage material widens the heating surface.

Radiant heating heats the people in the room with the radiant heat of the surroundings without raising the room temperature too much, so it is moderately warm and pleasant. From the standpoint of increasing comfort, it is better to lower the temperature of the radiant heating surface and widen the area.

Although the conventional radiant heating device is complicated and expensive to install, the present invention relates to a device capable of easily radiant heating with less power than a conventional heating device with only a minimal structure.

 The present invention relates to a panel that can be used as an auxiliary heating device by fixing a used far infrared heat dissipation device to a prefabricated partition or wall built in a body.

When described in detail the far-infrared radiation heating used as the core technology in the present invention.

The types of heat transfer can be classified into heat conduction, heat convection, and heat radiation. Thermal conduction is a phenomenon in which the temperature of a high object moves to a low temperature object by the contact of two objects, and the heat convection phenomenon is relatively light, rising upward and low temperature air as the gas expands and loses density when heated. Is denser and comes down. Heat is circulated along by the flow of air molecules, and heat radiation is a phenomenon in which heat particles move directly from a hot object to a cold one without passing through an intermediate medium. The temperature is lowered by emitting light, and the low-temperature object absorbs the electromagnetic wave, and the temperature is increased.

In general, in an indoor space, radiant heating uses hot water or steam in a pipe embedded in a wall, a floor, or a ceiling, sends warm air into a buried duct, or embeds a heating wire. Radiant heating is called heating by raising the surface temperature and radiating heat. Ondol and pechka are another type of radiant heating that has been used for a long time. Radiant heating heats the people in the room with the radiant heat of the surroundings without raising the room temperature too much, so it is moderately warm and pleasant. When the indoor air temperature is tr ℃ and the average wall temperature is tm ℃ (average radiation temperature), for example, tm + 1.2 tr = 42 or tm + tr = 40. can do. In view of increasing the comfort, it is better to lower the temperature of the radiant heating surface and to widen the area. Increasing the temperature of the heating surface is not good because it impairs the structure of floors and ceilings.

Conventional radiant heating uses a pipe, which is generally 3/4 to 1 inch, and the space between the pipe and the pipe is about 30 cm. Radiative heating that has been used in homes since ancient times includes kamin used in Germany, Pecca used in Russia and Northern Europe, Caen used in China, and Ondol used in Korea. These are the methods of making flue on the walls or floor with stones, bricks, clays, etc., and heating the walls, floors, etc. through the combustion gases in them, and mainly heating them with radiant heat. Coal and wood are used as fuel. Carmine and Pecca make a year in the wall, while Caen and Ondol make a year under the floor. The former was developed in Europe, where rituals were predominant, and the latter was developed in Orient, where rituals were predominant.

On the other hand, far infrared radiation, which is attracting much attention in the health field, radiates far infrared rays when heat is applied, and is a material having a function of converting into thermal energy and light energy. When heat is applied to the far-infrared radiation, light energy is radiated. Radiant wavelengths are generated by heating charcoal, ocher, etc., which is widely known as a material that emits far-infrared rays. This has the effect of promoting metabolism.

The present invention is to develop a prefabricated heating panel using a simple structure because the conventional radiant heating device is difficult to install, the panel can be used as a partition, while using a lower power than conventional heating devices It is intended to provide comfortable auxiliary heating means by economical, convenient and far-infrared heat radiation method by making panel with heat dissipation means using material and fastening technology that can effectively dissipate heat required for heating.

The conventional heating method heats the air, so that the concentration of dust is increased, the amount of carbon dioxide in the space is increased, and headaches and air pollution are caused. In addition, heating devices that use heating wires do not heat the entire space, but only the local parts are heated.In use, the heating part produces excessive heat and the non-heating part feels cold. have. In addition, since these heating devices are based on convection heating, a large amount of heat is required in a large space.

 In general, the interior or exterior wall panels or partitions do not include a heating device. Therefore, when auxiliary heating is required, separate auxiliary heating devices or supplies occupy space. Therefore, when used as a partition in a building or as a panel used in construction, comfortable heating without the risk of fire or burn is possible without taking up space.

Therefore, in order to solve the above problems, the present invention is easy to install for interior and exterior walls of the building, can be used as a partition, less air pollution during heating, good heat dissipation characteristics, built-in device capable of heating with less power The purpose is to provide a panel member.

The panel capable of heating according to the present invention lowers the temperature of the radiant heating surface (50 to 80 ° C.) and widens the area, lowers power consumption and gives comfort to the person. Eliminates discomfort caused by asthma, rhinitis, dry eye, and has the effect of reducing heating costs by more than 20% compared to conventional heating devices.

Heating a large area to a low temperature reduces the amount of power consumed, which is effective for reducing heating costs. Therefore, when the panel of the present invention is installed on the wall of the building that requires radiant heating, it does not occupy a separate space according to the mounting compared to the conventional mobile heating device, and thus the space utilization is high, and the heat storage effect is excellent and warm but harmless to human body. Since there is no emission, it can be used as a comfortable wall heating means. In addition, the use of panels has the advantage that can be utilized as a prefabricated partition.

The present invention for achieving the above object will be described in detail with reference to the drawings. 1 is a cross-sectional view showing the structure of the heat sink is a core element of the present invention, Figure 2 is a cross-sectional view showing the structure of the radiant heat radiator showing the principle of making a radiant heating by arranging a plurality of heat sinks are the core of the present invention, 3 is an exploded perspective view showing the configuration of the present invention shown in FIG.

1 is a cross-sectional view showing the structure of a heat sink that is a key element of the present invention.

As shown in FIG. 1, the heat sink 10, which is a core element, includes a heat heater 11 that is heated when a power source is connected to a metal case 18 having a predetermined shape, and the heat heater 11. When the temperature rises between the pores and the metal case 18, the far-infrared radiation material 13 such as carbon, charcoal, loess, gravel, elvan, salt, which generate a large amount of far infrared rays is filled. At this time, the heating heater is a heating element using electricity, using a heating wire with a built-in sensing wire, or using a constant temperature heater in which the temperature does not increase any more when a certain temperature rises, or attaching a heating element to a heat pipe to maintain only a predetermined temperature. Alternatively, it is preferable to prevent a temperature rise by connecting a bimetal to the lead wire 12 of the heating heater 11. At this time, both ends of the metal case 18 should be sealed with a partition 15 so that the far-infrared radiation material 13 does not spill, and the lead wire of the heating heater 11 protrudes out of the partition 15. When heat is transferred to the far infrared radiation material 13 filled in the metal case 18 by the heating heater 11 to be heated when the heat is accumulated, the far infrared radiation material 13 heats the metal case 18 again. do. In this case, the far-infrared radiation material 13 is supplied with heat by the heating heater 11 to have heat storage property, and has a radiant heating effect at a temperature of 30 ° C. or higher.

Heating is more comfortable for people with low temperatures over large areas than high temperatures in one place. Accordingly, as shown in FIG. 3, both sides of the heat dissipation portion of the metal case 18 are thin and protruded to make the heat diffusion plate 14. The surface of the metal case 18 and the heat diffusion plate 14 is attached with a far-infrared coating material or coated to spread the heat. In addition, in order to radiate far infrared rays to the outside, the surface of the metal case 18 is preferably coated with a material that emits far infrared rays such as ceramic or a sheet impregnated with carbon, and the heat of the surface of the metal case 18 The far-infrared coating film 16 increases the far-infrared radiation effect, thereby enabling more comfortable radiant heating. In addition, the thermal diffusion plate 14 is formed with a surface on which the metal case 18 can be fixed to the frame 30.

As shown in FIG. 2, a plurality of heat sinks 10 used as basic structures of the present invention are continuously arranged in series, and each lead wire 12 is connected to the controller 20 in parallel, and the controller 20 When power is supplied to the power line 21 connected to the heat sink 10, the temperature of the heat sink 10 can be radiated and heated. At this time, the heat is heated to a temperature set by the temperature sensor 22 connected to the controller 20 and then the power is controlled. The user can heat by appropriate temperature control by the temperature controller 20.

When the plurality of radiators 10 arranged in the plurality are fixed to the inside of the frame 30 using the fixing device 17, the frame 30 becomes a heating device. Although not shown in the figure, a wide plate is attached to the front of the frame 30 to form a partition or panel wall. In this case, the frame 30 may be used as a partition used in an office or as a wall according to size or height. In addition, by attaching a variety of decorative elements to the front of the frame (30) becomes a decoration.

A method of manufacturing or installing a heat dissipation partition or a heat dissipation panel using a structure or heating technique as described above may be said to fall within the scope of the present patent even if not described in the present invention.

1 is a cross-sectional view showing the structure of a heat sink that is a key element of the present invention.

Figure 2 is a cross-sectional view showing the structure of the radiation radiator showing the principle of making the radiant heating by arranging a plurality of radiators which are the core of the present invention.

Figure 3 is a three-dimensional exploded perspective view showing the configuration of the present invention shown in FIG.

* Description of the major symbols in the drawings.

10: radiator 11: heat generator

12: lead wire 13: far infrared radiation material

14: thermal diffusion plate 15: partition

16: Far infrared coating 17: Fixing device

18: metal case

20: controller 21: power cable

22: temperature sensor 30: frame

Claims (2)

In the heating device to control the power by a controller connected to the lead wires of a plurality of radiators arranged in series in a frame, The heating heater 11 is built in the metal case 18 having a predetermined shape. The gap between the heating heater 11 and the metal case 18 is filled with the far infrared ray radiation material 13, and both ends of the metal case 18 are sealed by the partition 15, and the heating heater 11 is provided. The lead wire 12 of the protruding out of the partition 15, The surface of the metal case 18 is treated with a far infrared ray coating 16, The lead wire 12 is a radiation radiating device using a far infrared radiation material, characterized in that connected to the temperature control controller 20 in parallel. The method of claim 1, Both sides of the metal case 18 protrudes widely, and the radiant heat radiating device using the far infrared radiation material, characterized in that the protruding surface is treated with a far infrared ray coating (16).

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