KR100664326B1 - A radiator used by Positive Temperature Coefficient heaters and heatpipes - Google Patents

Abstract

According to the present invention, in a heating device in which a heat pipe is embedded, the heat storage type heat radiating device (100), which is an important core material, has a constant temperature heater (102) attached to one end of the heat pipe (101), and the constant temperature heater (102). ) Is wrapped with a heat insulating material 103, the heat pipe 101 is inserted into a heat dissipation wrapped coil 107 having an inner diameter larger than the outer diameter of the heat pipe, and the heat pipe 101 and the heat dissipated wrapped coil One end of the heat dissipation-wound pipe 107 is sealed so as to seal both ends of the heat-dissipation-coiled pipe 107 after filling the air gap between the 107 and the power supply to the constant temperature heater. The part is a heating device using a constant temperature heater and a heat pipe, characterized in that the power line 201 attached to the constant temperature heater 102 has a very small power consumption has the effect of reducing the heating cost.

Heat Pipe, Constant Temperature Heater, Radiator, Electric Heating, Heating

Description

A radiator used by Positive Temperature Coefficient heaters and heatpipes}

Figure 1-Partial cutaway perspective view partially showing a basic heat storage heating device constituting a radiator in the present invention.

2-Front view showing a preferred embodiment of the present invention.

3-left side view of FIG.

4-3 are cross-sectional views showing the center incision.

5-a perspective view showing a preferred use of the invention.

Fig. 6-A perspective view showing another example of use of the present invention.

7-a perspective view showing another embodiment of the present invention.

Description of the main parts of the drawing

100: heat storage heat radiation device 101: heat pipe

102: constant temperature heater 103: heat insulating material

104: heat storage material 105: finishing cap

106: power supply line 107: heat dissipation coil

200: power supply unit 201: power line

202: plug 203: outlet

300: stand 301: stand

400: case 401: reflector

500: controller 501: temperature sensor

502: power line 503: power line

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a radiator, and more particularly, to a radiator capable of rapid heating, easy installation, and economical radiator using a heat pipe and heat storage material and a constant temperature heater, and a pedestal and a case constituting the same.

Until now, radiators circulated hot water and radiated heat energy generated by heat radiation wrapped around pipes. In addition, the method using electricity also consumed a lot of power. The problem with this method is that the hot water circulation requires a separate boiler facility and the heating effect decreases away from the boiler heat source. In particular, agricultural installations have the disadvantage that heating costs increase due to excessive heat loss.

Therefore, the present invention is to remove the heat generated from the heat storage material and the heat storage material that rises to a high temperature of 120 ℃ or more by using a heat pipe attached to the bottom of a constant temperature heater that generates a high temperature of more than 200 ℃ even with a small power out of the concept of a conventional radiator It is to provide a convection heating system that heats the air by transferring the heat radiation pipe to the wound pipe.

In addition, the present invention is very easy to assemble and install the power consumption is very low to provide a heating device which is very advantageous to reduce the heating cost.

In another aspect, the present invention is to provide a radiator with a radiator holder and a stand that is easy to install and stable when connecting a plurality of heating devices.

And, to provide for the configuration of a plurality of radiators in a case having a reflector for use in a general office.

Referring to the present invention in detail for achieving the above object is as follows.

First, the regenerative heat dissipation device 100, which is a core part of the present invention, has a thermal insulation material attached to the bottom surface of one end of the heat pipe 101 and the outside of the constant temperature heater 102 as a heat insulating material, as shown in FIG. 1. Wrap and insert the heat pipe 101 to which the constant temperature heater 102 is attached into a heat dissipation coil wound pipe 107 having an inner diameter larger than that of the heat pipe 101, and then seat the heat pipe 101. And a heat storage material such as ocher is filled between the heat pipe 101 to which the constant temperature heater 102 is attached, and protrudes the power line attached to the constant temperature heater 102 to the outside of the heat dissipation-cold pipe 107. Sealing both ends of the heat dissipation 휜 wound pipe 107. At this time, the constant temperature heater 102 is an important configuration of the present invention has a semiconductor characteristic and means that the automatic temperature control is possible. That is, since the constant temperature can be maintained by the Curie temperature set therein regardless of the input power, there is a significant difference in convenience compared to the conventional ceramic heater method. Therefore, the difference in rights should be distinguished in the configuration using a constant temperature heater and a general heater. At this time, the constant temperature heater can control the temperature without the need of a separate bimetal, so it can produce a high temperature with a small amount of power. Once the heat-generated heat radiating device 100 is used several times, the heating effect is excellent because the surface heat generating area is wide. At this time, the heat storage material is advantageous, such as ocher to emit far infrared rays or paraffin having good heat storage properties. In addition, the surface of the heat-radiating and wound pipe 107 in order to radiate far infrared rays to the outside by applying a ceramic powder to the coating treatment, the radiation effect of the far infrared rays is high, more comfortable heating is possible.

Since the longest length of the heat storage thermal radiation device 100 is about 1500mm, the surface heat generating area is very wide. In order to mount the heat storage thermal radiation device 100 to a predetermined height from the bottom, both ends of the heat storage thermal radiation device 100 are mounted on both ends of the pedestal 300 to the holder 301, as shown in Figs. In the bottom of the pedestal so that the legs are formed on the floor so as not to fall, Figure 5 shows an example of appropriate use.

In order to connect the heating device consisting of the heat storage heat radiation device 100 and the pedestal 300 in parallel is configured to be connected in parallel with the power line 106 protruding at one end of the heat storage heat radiation device (100). The power supply unit 200 is mounted, and the plug 202 formed at both ends of the pedestal 300 and the outlet 203 are continuously connected to heat the air.

In order to control the temperature generated by the heating device connected in parallel, the power line protruding from the heating device end is connected to the controller 500, and by the set temperature by the temperature sensor 501 connected to the controller 500. Supply power.

In addition, when used as a radiator used in homes or offices in general, a plurality of the heat storage type heat radiating device 100 is mounted on the case 400, the power line protruded on one end of the heat dissipation-wound pipe 107 Are connected in parallel to the controller 500, the power supply by the set temperature by the temperature sensor 501 connected to the controller 500.

At this time, the case is to form a reflecting plate 401 on the bottom of the inside so that the heat radiation to the open side.

The present invention is a heat storage heat radiation device using a constant temperature heater and a heat pipe of the semiconductor characteristics is very effective in reducing the heating cost because the power consumption is very small. In particular, the heating cost saving effect is very high even in the heating of a plastic house or a warehouse that is heated by heating oil, so that it is possible to reduce the worry of heating costs such as oil costs.

Claims (5)

In the heat generation device incorporating a heat pipe, the heat storage type heat radiation device 100, which is an important core material, is provided with a constant temperature heater 102 at one end of the heat pipe 101, and the constant temperature heater 102 is insulated. Wrapped with (103), the heat pipe (101) with the constant temperature heater (102) inserted therein into the heat-dissipating coiled pipe (107) having an inner diameter larger than the outer diameter of the heat pipe (101), and the heat pipe Fill the air gap between the 101 and the heat dissipation wrapped coil 107 with the heat storage material 104, and seal both ends of the heat dissipation wrapped coil 107, but supply power to the constant temperature heater 102. One end of the heat dissipation-coiled pipe 107 to be supplied is a heating device using a constant temperature heater and a heat pipe, characterized in that the power line 106 of the constant temperature heater 102 protrudes to the outside. The heating device using a constant temperature heater and a heat pipe, characterized in that the surface of the heat dissipation-coiled pipe 107 is coated with a far-infrared material. delete delete delete

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