KR100918103B1 - Heating pipe - Google Patents

Abstract

A heating pipe is provided to minimize air pollution and a maintenance cost by using electricity as an energy source. A heating pipe(100) includes a pipe(110), a heating wire(130), and a wire(120). Both end parts(111,113) of the pipe are closed. An inner part of the pipe is a vacuum condition. The heating wire is received inside the pipe. The wire penetrates the pipe, and is electrically connected to the heating wire. The wire includes a plus wire(123) and a minus wire(125). The plus wire is connected to a plus power source. The minus wire is connected to a minus power source. A first connection line connects one side of the heating wire to the plus wire. A second connection line connects the other side of the heating wire to the minus wire.

Description

Electric heating tube

The present invention relates to an electric heating tube, and more particularly, to an electric heating tube configured to allow efficient heat generation by embedding a heating wire that generates heat by electric conduction inside a pipe.

In general, in order to heat indoors, plastic houses, fish farms, etc. where people live, a pipe in which a heat medium flows is buried or exposed in a zigzag shape at the bottom, and a boiler is connected to the pipe, and the heat medium is connected to the pipe. The pump is configured to circulate.

Therefore, by heating the boiler by supplying fossil fuel such as coal, wood, or boiler oil, the heating medium is heated, and the heating medium is circulated by a pump, thereby enabling heating.

According to the conventional technology, there are the following problems.

First, in order to heat and circulate the heat medium, a boiler and a pump are required, which requires a lot of construction cost, is troublesome in construction, and requires a separate boiler room, thereby taking up a lot of space.

Second, when the size of the boiler is large, it is difficult to manage, and the need for know-how to control the boiler is required to employ a professional technician, there was a problem that takes a lot of operating maintenance costs.

Third, by using fossil fuel as the fuel of the boiler, incomplete combustion exhaust gas is discharged to contaminate the atmosphere.

Fourth, after a large amount of heat dissipation in the boiler itself, the remaining heat, there is a problem that the heat efficiency is low by using for heating, thereby consuming a lot of fuel costs.

The electric heating tube according to the present invention includes a pipe in which both end portions are closed, a heating wire received inside the pipe to generate heat by electric conduction, and a blockage is maintained from one end of the pipe to the other end. And a wire that penetrates and is connected to the heating wire so as to be electrically conductive.

The electric heating tube according to the present invention has the following effects.

First, since it does not require a boiler and a pump, the construction cost is less than conventional, and the construction is easy.

Secondly, it is only necessary to check whether the electricity is applied, and by using electricity as an energy source, it is easy to control automatically, and there is no need for a professional technician, thus reducing the operation and maintenance costs.

Third, air pollution does not occur by using electricity as an energy source.

Fourth, by not having to provide a separate heat source, such as a boiler, the amount of heat lost from the heat source does not occur, thereby high thermal efficiency, if the inside of the pipe to a vacuum state, it is possible to further increase the thermal efficiency.

Fifth, when the heating wire is used as the carbon heating wire, anion or far-infrared radiation is beneficial to the human body by heat dissipation.

Looking at the configuration and use example of the present invention for solving the above problems with reference to the accompanying drawings as follows.

1 is a cross-sectional view showing an electric heating tube to which the technique of the present invention is applied, FIG. 2 is a cross-sectional view showing a state in which the electric heating tube to which the technique of the present invention is applied is interconnected, and FIG. 3 is an electric heating tube to which the technique of the present invention is applied. A description will be given as a circuit diagram showing a state in which a power supply is connected.

In general, in order to heat indoors, plastic houses, fish farms, etc. where a person lives, it is possible by embedding or exposing the pipe 110 to zigzag on the floor.

In the present invention, the heating wire 130 and the wire 120 is embedded in the pipe 110, characterized in that the electric heating tube 100 is configured to radiate heat by conduction of electricity.

To this end, in the present invention, the both ends (111, 113) of the pipe 110 is closed (閉 塞) and the heating wire 130 accommodated in the inside of the pipe 110, and one end of the pipe 110 (111) The wire 120 is configured to penetrate through and to be drawn out to the other end terminal 113 in order to maintain the blockage, and the wire 120 is electrically connected to conduct electricity to the heating wire 130. .

In order to close both end portions 111 and 113 of the pipe 110, a filler 115 is inserted into both end portions 111 and 113 of the pipe 110 to communicate with each other, or a cap (not shown) is inserted. By inserting or fastening by helical coupling, watertightness can be configured to prevent leakage caused by leakage into the pipe 110.

The filler 115 may be silicone, urethane foam, foaming agent, rubber, synthetic resin, etc., the both ends of the pipe (110) (111, 113) can be configured to block the leakage to prevent the effects of the present invention You can reap. Alternatively, when forming the pipe 110 for the first time, both ends may be molded.

In order to prevent the phenomenon of leakage into the pipe 110, in the filler 115 or the cap (not shown), the portion through which the wire 120 is passed is finished by a foaming agent such as silicone or urethane foam Configure the blockage to be maintained.

The heating wire 130 is a wire that dissipates heat by electric conduction, and may be a carbon heating wire made of carbon fiber, a silicon heating wire or a nickel chromium alloy wire, and the heating wire 130 may be coated or exposed. And, it may be composed of several strands twisted, it can be used that of the knitted state, of course.

The wire 120 is composed of two strands including a positive wire 123 connected to a positive power source E and a negative wire 125 connected to a negative power source E. One side of the positive wire 123 and the heating wire 130 is connected by the connection line L so that electricity is conducted, and the other side of the negative wire 125 and the heating wire 130 is connected to the connection line L so that the electricity is conducted. Are configured in conjunction. The connection line (L) may be any one that is capable of conducting electricity, such as the same material as the wire 120 or the heating line 130.

The length extension may be any amount by allowing the drawn wire 120 to be connected, as shown in FIG. 2, and then allowing the pipe 110 to be thermally connected by the connector J. FIG. In addition, the plugged portion, that is, the filler 115 or the cap is formed to enter inwards from both end portions 111 and 113 of the pipe 110, so that the connection portion F of the wire 120 when the pipe 110 is connected. , G,) is preferably configured to be acceptable.

3 is a circuit diagram illustrating a state in which electricity is applied, and after the present invention is connected and arranged in various shapes such as zigzag, power is supplied to the wire 120 drawn to one end 111 or the other end 113. Just plug in (E).

In addition, in the present invention, it is preferable that both end portions 111 and 113 of the pipe 110 are closed to be vacuumed, and the reason is that the heat is emitted from the heating line 130 by preventing heat loss by removing air, which is a heat insulating material. In order to be able to discharge the heat through the pipe 110 as it is.

At this time, the filler 115 or the cap (not shown) to block the both ends (111, 113) of the pipe 110 to enable the vacuum, the filler 115 or the cap (closed in the pipe 110) ( The portion through which the wire 120 passes is configured to be closed by silicon or foaming agent so that air does not penetrate.

1 is a cross-sectional view showing an electric heating tube to which the technique of the present invention is applied.

Figure 2 is a cross-sectional view showing a state in which the electric heating tube to which the technique of the present invention is applied are interconnected.

3 is a circuit diagram showing a state in which a power source is connected to the electric heating tube to which the technique of the present invention is applied.

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

110: plumbing

120: wire

123: plus wire

125: negative wire

130: heating wire

Claims (4)

In configuring the electric heating tube 100, A pipe 110 in which both end portions 111 and 113 are closed; A heating line 130 accommodated in the pipe 110 to generate heat by electric conduction; It consists of a wire 120 that penetrates to maintain the blockage from the one end terminal 111 of the pipe 110 to the other end terminal 113 and is connected to the heating line 130 to be electrically conductive , The wire 120 is a plus wire 123 is connected to the plus power (E), Consists of a negative wire 125 that is connected to the negative power source (E), A connection line L connecting one side of the heating wire 130 and the plus wire 123, Electric heating tube, characterized in that consisting of a connecting line (L) for connecting the opposite side of the heating wire 130 and the negative wire (125) . The method of claim 1, The inside of the pipe 110 is an electric heating tube, characterized in that the vacuum state. The method according to claim 1 or 2, The heating wire 130 is an electric heating tube, characterized in that the cover is configured. The method according to claim 1 or 2, The heating wire 130 is an electric heating tube, characterized in that configured to be exposed.

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