KR200190752Y1 - Heating device using a electric carbon heating pipe - Google Patents

Abstract

The present invention relates to a heating device using a carbon electric heat heat pipe.

The present invention is to close the opening of the copper pipe 110 in which one side end is closed by a stopper into which the carbon 130 is inserted, the heating element is injected into the inside, while the heating element is to be in a vacuum state ( 100) are laid on the floor of a building in a plurality of side by side at regular intervals, and electrically connected, it can significantly reduce the manufacturing cost and operating cost after heating equipment, high quality of high thermal conductivity with low power The product can be provided to the consumer, and the construction work can be carried out conveniently and quickly, thereby reducing the construction cost.

Description

Heating apparatus using carbon electric heat heat pipes {HEATING DEVICE USING A ELECTRIC CARBON HEATING PIPE}

The present invention relates to a heating apparatus using a carbon electric heat heat pipe, and in particular, by cutting a copper pipe having excellent thermal conductivity to a certain length, one side end is closed with a stopper into which carbon is inserted, while the heating liquid is injected The present invention relates to a heating device using a carbon electric heat heat pipe that allows the heating element to be closed to become a vacuum state after the inside of the building to be used for heating in the building, so that maximum thermal efficiency can be obtained with minimum electricity.

In the conventional heating, pipes or copper pipes made of synthetic resin are mainly installed on the floor of a room, and hot water heated in a boiler is circulated. In this case, fuel supply is difficult and pollution is caused by waste. There was a problem that occurred. In addition, there is a risk of freezing in very cold regions, there was also a problem that a lot of maintenance costs should be spent, such as the need to operate the boiler at all times during the cold.

The present invention is made to improve the above problems, the purpose is to cut the copper pipe excellent in thermal conductivity to a certain length, one side end is closed with a stopper into which carbon is inserted, while the injection of the heating solution It is to provide a heating apparatus using a carbon electric heat heat pipe that allows the heating element to be closed in a vacuum state to be used for heating the interior of the building, so that maximum heat efficiency can be obtained with minimum electricity. In order to achieve the above object, the present invention is to close the opening of the copper pipe, one side end of which is closed by a stopper into which carbon is inserted, while a heating element is injected into the inside, and a heating element is made to be in a vacuum state. It is to provide a heating apparatus using a carbon electric heat heat pipe that is installed to be laid side by side at a predetermined interval on the floor of the building interior, and electrically connected.

1 is a perspective view of a heating element according to the present invention,

Figure 2a is a cross-sectional view of the heating element according to the present invention,

Figure 2b is a cross-sectional view of a heating element of another embodiment according to the present invention,

Figure 2c is a cross-sectional view of a heating element according to another embodiment of the present invention, Figure 3 is a state of use of the heating element according to the present invention, Figure 4 is another state of use of the heating element according to the present invention, Figure 5a is a heating element according to the present invention 5b is a cross-sectional view showing the internal structure of Figure 5a, Figure 6 is a state of use of the heating element of another embodiment according to the present invention, Figure 7a is a cross-sectional view showing the internal structure of Figure 6, Figure 7b is 7A is a cross-sectional view of another embodiment.

* Explanation of symbols on the main parts of the drawings *

100 ... heating element 110 ... copper pipe

111 ... closure 120,120-1,120-2 ... closure

121 ... cover plate 122 ... carbon receiving cylinder

123 ... flange 124 ... heating fluid

130 ... Carbon 131 ... Electrode Terminal

140 ... outer pipe 141 ... inner pipe

141a ... Heat passage 142 ... Passage

200 ... control unit 210 ... temperature sensing unit

220 ... case

Next, the present invention will be described in detail with reference to the drawings.

1 and 2a shows a carbon electric heat heat pipe according to the present invention. The heat generating element 100 of the carbon electric heat heat pipe includes a copper pipe 110, a stopper part 120, and a carbon 130. It is composed.

The copper pipe 110 has a certain length (preferably about 2m in consideration of the floor area of the house and apartment interior), is closed at one side end to form a closed portion 111, the opposite end It is formed in contact with the interior. An injection part (not shown) having a hole protrudes from the closing part 111, and is closed after injection of the heating solution 124. In addition, the interior is vacuumed when closed.

The stopper 120 is to close the opening of the copper pipe 110, and is formed of aluminum or copper, the cover plate 121 is formed, in the center toward the inside of the copper pipe 110 A protruding carbon accommodating cylinder 122 is formed, and a flange 123 is formed on the circumferential surface of the cover plate 121 to surround the outer surface of the opening.

The carbon receiving cylinder 122 and the flange 123 is formed while forming the same center as the cover plate 121. The carbon receiving cylinder 122 has a height of 70 m / m from the cover plate 121, the top surface is blocked, the bottom is open, the receiving groove is formed therein. On the other hand, the flange 123 has a height enough to surround the circumferential surface of the copper pipe 110 forming the opening.

The carbon (130) is tightly inserted into and coupled to the receiving groove of the carbon accommodating cylinder 122. The carbon electrode 130 is formed in a circular cylinder, and inserted into the receiving groove to form a bottom surface of the cover plate 121. It will be the same as the bottom. A pair of electrode terminals 131, which are iron cores, are pressed into the carbon 130 while maintaining a predetermined interval.

FIG. 2B illustrates another embodiment of the carbon electric heat heat pipe according to the present invention. The carbon electric heat heat pipe body 100 includes a copper pipe 110, a stopper 120-1, and carbon 130. It consists of.

The copper pipe 110 is formed of a cylindrical body opposite the closing portion 111 is closed, the carbon 130 is formed to surround the lower portion of the copper pipe 110, the outer surface of the plug portion ( 120-1) is formed to surround.

The carbon 130 has a circular hole formed in the center so that the copper pipe 110 can be inserted in the center, and the upper portion thereof is gradually narrowed in diameter, and the stopper 120-1 also includes the carbon 130. The upper part is narrow and the lower part is formed in a wide cylindrical body so as to surround. And the lower portion of the stopper portion 120-1 blocks the stopper portion 120-1, while a plate supporting the bottom surface of the carbon 130 is integrally coupled to the electrode terminal through the plate ( 131 is pressed into the carbon 130. Therefore, the copper pipe 110 and the stopper 120-1 may be separately formed so that the stopper 120-1 may be installed after injecting the heating solution 124 into the copper pipe 110. Figure 2c shows another embodiment of the carbon electric heat heat pipe according to the present invention, the carbon electric heat heat pipe body 100 is a copper pipe 110, the stopper 120-2 and carbon 130 It is composed of The copper pipe 110 is formed of a cylindrical body in which the opposite side of the closing portion 111 is closed, the carbon 130 is formed of a cylindrical or square cylinder to surround the lower portion of the copper pipe 110, the outside The plug portion 120-2 is formed to surround a surface. The carbon 130 has a circular groove formed at the center thereof so that the copper pipe 110 can be inserted therein, and the stopper portion 120-2 is formed of a cylindrical or rectangular parallelepiped, and the stopper portion 120- The electrode terminal 131 is press-fitted into the carbon 130 through the bottom surface of 2). Therefore, the copper pipe 110 and the stopper 120-2 may be separately formed to inject the heating solution 124 into the copper pipe 110, and then the stopper 120-2 may be installed. As shown in FIG. 3, the heating element 100 is installed on a plurality of installation surfaces 300 of a house and an apartment interior side by side, and each electrode terminal 131 and a control unit 200 installed on an indoor wall are electrically connected to each other. One side of any one heating element 100 is electrically connected to the control unit 200, the temperature sensing unit 210 for sensing the temperature of the room is installed. Each heating element 100 lying on the installation surface 300 is installed while the closing portion 111 has a height of about 15-20 m / m with respect to the installation surface 300. Accordingly, when power is applied to the electrode terminal 131, the carbon 130 generates heat, and the heat generating solution 124 generates heat by generating heat at a high temperature, thereby heating the room. Figure 4 shows another embodiment according to the present invention, while a plurality of heating elements 100 are installed side by side while maintaining a constant interval inside the case 220 is installed on the interior wall, each heating element 100 The electrode terminal 131 is electrically connected to the control unit 200 of the side wall, the temperature sensing unit 210 for sensing the temperature is installed. Accordingly, when power is applied to the electrode terminal 131, the carbon 130 generates heat and heat is generated by the heat to generate high temperature heat, thereby heating the room. Another embodiment according to the present invention is shown in Figures 5a and 3b, the heating element 100 is installed while forming the same center as the inner pipe 141 having a passage 142 in the outer pipe 140, The carbon 130 is filled between the outer pipes 140 and 141 and is wound and formed while forming a coil shape. And the starting part and the ending part are electrically connected to the control unit 200. Therefore, when the power is applied, the carbon 130 generates heat and generates heat at a high temperature, thereby causing the water circulating in the passage 142 to be heated. Figure 6 shows a heating mechanism of another embodiment according to the present invention, the heating mechanism is formed to form a heating element 100, the pipe is installed on the floor of the room without a joint or a joint in the case 220 It is installed without, and each end is electrically connected to the control unit 200, and electrically connected to the control unit 200, while installing a temperature sensing unit 210 to sense the temperature. In the above, the heating element 100 is installed by filling the carbon 130 inside the copper pipe 110 as shown in Figure 7a or the inner pipe 141 in the outer pipe 140 as shown in Figure 7b. Is installed, the carbon 130 is installed in the inner pipe 141, it may be provided that the heating liquid passage 141a is provided between the carbon 130 and the inner pipe 141. When the power is applied to the electrode terminal 131, the present invention configured as described above heats the carbon 130 and heats the heat generating liquid 124 by this heat to generate high temperature heat, thereby heating the room. The body 100 is heated to 130 ℃ based on 2m, each about 10W of power is consumed. Therefore, the heating costs of houses and apartments can be greatly reduced.

As described above, according to the present invention, the manufacturing cost and the operation cost after the heating facility can be greatly reduced, and the high-quality products with high thermal conductivity can be provided to the consumers with less power, and the construction work is conveniently and quickly performed. It will be possible to reduce the construction cost is to be effective.

Claims (3)

The opening of the copper pipe 110, one side end of which is closed, is closed by a stopper into which the carbon 130 is inserted, and the heating element is injected into the heating element 100 while building the heating element 100 in a vacuum state. Heating device using a carbon electric heat heat pipe, characterized in that the floor of the room is laid side by side at a predetermined interval, and electrically connected. The heating device using a carbon electric heat heat pipe according to claim 1, wherein the heating element (100) is installed at a predetermined interval inside the case (220) and electrically connected. According to claim 1, wherein the heating element 100 is installed outside the inner pipe 141 having a passage 142 concentric circles, while the inner pipe 141 and the outer pipe 140 The carbon 130 is electrically connected between the filling is filled, the heating device using a carbon electric heat heat pipe, characterized in that the water circulating the passage 142 is heated.