KR200321237Y1 - Heat accumulation type heating panel using Heat pipe - Google Patents

Abstract

Disclosed is a heat storage heating panel using a heat pipe that combines a heat pipe to a pipe into which a heating unit filled with a heat storage material is inserted, thereby enabling rapid heat conductivity of the heat pipe and delivering continuous heating by the heat storage material to the heat pipe. It is about.

Conventional heating panel has the advantage that can be raised to the desired heating temperature within a quick time in the form of the heater is provided in the cast iron panel, but the heat storage effect is reduced compared to the large amount of power consumption, heavy and difficult to handle bar, the present invention In consideration of this point, the heat storage action of the heat storage material is placed in contact with the heat storage material so as to continuously conduct heat to the heat pipe, and the heat consumption through the heat storage material is continuously shown to the heat pipe. Power can be raised to a desired heating temperature in a short time and has the advantage of being suitable as a heating panel that can perform a long time heating.

Description

Heat accumulation type heating panel using heat pipes

The present invention relates to a heat storage heating panel using a heat pipe, and more specifically, as shown in FIG. 4, the heat pipe is placed in the inner horizontal direction in a pipe in which the heat heater is positioned in the center of the heat storage material so as to conduct heat to the heat storage material. By maintaining the heat storage temperature of the heat accumulator rapidly through the heat pipe, the heating effect is evenly obtained at the same time.

As is well known, the heating panel using electricity that appeared in consideration of the convenience of construction and the saving of fuel mainly means a panel of galvanium steel plate with a built-in heater wire, and when the heater generates heat by applying power to the heater wire, The heat is conducted to the panel of the galvanium steel sheet to perform heating, which has the advantage of increasing the heating temperature in a short time, but the power consumption is increased because power is frequently applied as the heating temperature decreases quickly. have.

Therefore, in recent years, refractory bricks with heat storage performance have been heated by using electricity in the late-night hours, which have a low electricity rate, and are being used for heating during the daytime, but it takes a long time to heat the refractory bricks and consumes a lot of electricity. The problem still exists, and the refractory bricks are also heavy and difficult to handle, and use the advantages of low-cost electricity at midnight electricity. However, when the regulation of the use of late-night electricity becomes difficult, a significant problem arises.

The present invention has been proposed in view of such a point, and as shown in FIG. 4, by continuously joining the heat pipe to the heating pipe filled with the heat storage material in the horizontal direction, the continuous heating effect by the heat storage material can be obtained quickly and evenly at the heat pipe. To provide a heat storage heating panel using a heat pipe that is light in weight and easy to handle and can greatly reduce power consumption.

1 is an exploded perspective view of a heat storage heating panel using a heat pipe according to the present invention.

Figure 2 is a cross-sectional view of the heat storage heating panel using a heat pipe according to the present invention.

3 is an embodiment of a heating unit main body applied to the present invention,

(a) is cylindrical, and the electric heater is located inside.

(b) becomes cylindrical and the electric heater is wound outside.

(c) is a quadrilateral enclosure and the electric heater is located inside.

Figure 4 is a detailed view of the heat pipe coupled to the heat storage material pipe according to the present invention.

***** Explanation of symbols for main parts of drawing *****

100: heat pipe panel 101: top plate

102: lower plate 200: heating unit

201: heating unit body 202: heat storage material

203: heat pipe 204: electric heater

205: lead wire 300: foamed urethane foam

Hereinafter, the present invention will be embodied according to the present embodiment. Heat pipe is divided into evaporator, heat insulator, and condenser in cylindrical or rectangular pipes made of copper aluminum.The components include container, wick, and working fluid, and working fluid operates when heat is applied to the evaporator. It is vaporized, heat is transferred to the condenser through heat insulation, and working fluid is liquefied and returned to the evaporator through wick. It has a thermal conductivity of 1,000 to 10,000 times higher than the fixed thermal conductivity of copper itself. It has been used in many fields such as air conditioning, heating, air conditioning systems, and the electronics industry.

The present invention is to utilize as a heating panel by using this point of the heat pipe, as shown in Figures 1 and 2 by inserting the heating unit 200 between the upper and lower plates 101/102 Although the heating unit 200 is configured to fill the heat storage material 202 in the main body 201 having a storage space, the heat transfer material 202 to the heat transfer heater 204 to conduct heat to the heat storage material 202. The heat pipes 203 are bonded to each other in the horizontal direction inside the pipe positioned to be in contact with each other.

At this time, the main body 201 of the heating unit 200, as shown in Figure 3 can be applied to any shape having a storage space inside, such as cylindrical or quadrilateral, heat transfer heater 204 is also a heat storage material ( Anything may be applied as long as it is positioned inside the 202 or in a form capable of conducting heat to the heat storage material 202 filled in the heating unit 200.

In addition, the heat storage material 202 applied to the present invention is Na ₂ So ₄ · 10H ₂ O, CaCl ₂ · 6H ₂ O, CH ₃ COONa · 3H ₂ O, KF · 4H ₂ O, Na ₂ S ₂ O ₃ · Any heat storage material having a known heat storage performance such as inorganic hydrochloride such as 5H ₂ O, a paraffinic compound represented by C _n H _{2n + 2} (n is a natural number), and high density polyethylene (HDPE) can be applied.

In addition, when using a heat storage heating panel using a heat pipe according to the present invention can be used by coating a far-infrared radiation material such as ceramics, ocher, etc. on the top plate 101 so as to activate body functions by naturally radiating far infrared rays and anions In the context, the upper plate 101 of the heat pipe panel 100 may be composed of natural stones such as elvan, jade, and the like, while preventing heat leakage from the lower portion of the heating unit 200 opposite to the heating surface of the heat pipe panel 100. The insulation 300 is interposed so as not to deteriorate the lower structure.

Reference numeral 205 in the drawing denotes a lead wire for applying power to the electric heater.

The heat storage heating panel using the heat pipe according to the present invention configured as described above acts as follows.

First, when power is applied through the lead wire 205 in a state in which a heat storage heating panel using a heat pipe according to the present invention is installed in a place where heating is required, the heat storage material 202 is positioned while being in contact with the heat transfer heater 204. Heat is transferred to the heat pipe 203 as heat is accumulated in the heat storage material 202 and heat is released to the outside of the heat pipe panel 100 to perform heating. Even if the power applied to the heater 204 is cut off after a certain period of time, the heat accumulated in the heat storage material 202 is gradually released evenly with the heat pipe, thereby obtaining a continuous heating effect. It is apparent that only the heat transfer heater 204 is operated and the heat pipe is heated with heat conduction, thereby achieving sufficient heating effect while greatly reducing power consumption.

In addition, in the case of the heat storage heating panel using the heat pipe 203, the heat conductivity of the heat pipe 203 and the pipe space are empty in a vacuum state, so it is light and easy to handle and evenly transfers heat, so it is suitable to be applied to the heating panel. Do.

At this time, by adjusting the resistance value of the resistance employed in the electric heater 204, the electric heater 204 may be designed so as not to rise above a certain temperature, or by connecting and installing a separate controller to set its operating time, temperature range, etc. In addition, by installing a temperature sensor in the heat storage material 202 and measuring the temperature value from time to time to come to the desired temperature may take a structure that automatically cuts off the power applied to the heat transfer heater 204.

As described above, the present invention is capable of performing long-term heating with a low power consumption by integrating a heat storage material into an electric heater, and by applying a heat pipe to a panel constituting the body of the heating unit, rapid thermal conductivity and latent heat It is not only suitable as a heating panel because it can greatly reduce power consumption, but also because the material itself is made of empty vacuum with a space made of copper, it is light in weight, easy to handle, and can transfer heat evenly. This is what it is.

Claims (2)

The heating unit 200 is inserted into the heat pipe panel 100 in the horizontal direction between the upper and lower plates 101 and 102, and the heating unit 200 is configured as a heat storage material in a main body 201 having a storage space. The heat pipe 204 is placed in contact with the heat storage material 202 so as to fill the 202 and conduct heat to the heat storage material 202 evenly by jointly arranging the heat pipes 203 in the pipe transverse direction. Regenerative heating panel using a heat pipe 203, characterized in that it is possible to conduct heat. The method of claim 1, A heat storage heating panel using a heat pipe, characterized in that the lower portion of the heating unit 200 on the opposite side of the heating surface of the heat pipe panel 100 through a heat insulating material (300).