KR20100005654U - Flexible heater using carbon fiber - Google Patents

Abstract

The present invention is a flexible heating port (2) using a carbon yarn, the pair of wires (5a) (5b) of the electric cord 4, the carbon yarns 22 and the reinforcing wires 24 to the covering material 20 The loop connection return point end of the heating cable (6) is inserted into a flexible heat dissipating tube (8) which is configured to be electrically loop connected to the inboard heat generating cable (6) and is loop-connected to the flexible heat dissipating tube (8). (28) is fixed to the flexible heat dissipation tube (8), so that the heat generating cable using carbon yarn having excellent heat generating efficiency has better tensile force than copper wire, and can be freely deformed into a desired line shape. To remain intact.

Flexible, Heat Sink, Carbon Yarn, Flexible Heat Sink

Description

Flexible heating device using carbon yarn {FLEXIBLE HEATER USING CARBON FIBER}

The present invention relates to a heating device, and more particularly to a flexible heating device that can be used to change the shape of the desired wire shape and strengthen the tensile strength and freely, while using a carbon yarn that is more heat-efficient than copper wire to maintain a modified arrangement .

The heating cable used for electric yoke or electric cushion is used as a heating wire, and a copper wire having a lower heating efficiency than carbon yarn is used. Because the plastic deformation is good, the wiring for electrical connection is much easier than that of carbon.

If carbon fiber is used but the tension of the copper wire can be made and the connection for the electrical connection can be easily realized as the copper wire, a heating cable having excellent heat generating effect will be provided.

Moreover, the heating cable using carbon yarn has better tensile strength than copper wire, and can be freely deformed into the desired line shape, and if the modified arrangement can be maintained as it is, high heat generation efficiency, versatile use, and loading place can be used. You will get a response from people.

Therefore, the object of the present invention is to make the heating cable using carbon yarn having excellent heat generating efficiency to have better tensile strength than copper wire, and to be freely deformed into the desired line shape and to maintain the modified arrangement form. To provide.

In accordance with the above object, the present invention, in the heating port using the carbon yarn, the carbon yarn 22 and the reinforcing wire 24 is a coating material 20 of the pair of wires (5a) (5b) of the electric cord (4) ) Is electrically connected to the heating cable (6) configured in-built, and the pair of heating cable (20) connected to the loop is inserted into the flexible heat dissipation tube (8) that can be deformed and shaped and connected to the loop of the heating cable (6). It is a flexible heating port characterized in that the return point end 28 is configured to be fixed to the flexible heat dissipation tube (8).

In the present invention, the openings at both ends of the flexible heat dissipation tube 8 are characterized by being sealed with the sealing member 12.

In addition, in the present invention, the flexible heat dissipation tube (8) is characterized in that one of the corrugated metal tube, aerofin tube, resin corrugated tube.

The present invention forms a flexible heating sphere using carbon yarn, so that the heat generation efficiency is much higher than that of the copper heating element using copper wire, and the tensile force is also good, and it can be freely deformed into a desired line shape and the deformed arrangement can be maintained as it is. It can be installed even in corners and corners, and it can be installed in places where heat is intensively needed.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a flexible heating device according to an embodiment of the present invention, Figure 2 is an exploded perspective view of the main portion of the flexible heating device of Figure 1, Figure 3 is a side cross-sectional view of FIG. 4 is a longitudinal cross-sectional view of FIG. 1.

The flexible heating device 2 according to the embodiment of the present invention implements a good tensile strength while using carbon yarn having superior thermal efficiency than copper wire, and can be freely deformed into a desired line shape. Since it can be maintained as it is, it is possible to install even curved parts or corners, and the feature is configured to be installed even if overlapping where heat is intensively needed.

The flexible heating port 2 of the present invention includes a heating cable 6 coated with carbon yarns 22 and a reinforcing wire 24, and a flexible heat dissipating tube 8 that can be deformed and shaped. .

The heating cable 6 is formed of carbon yarns 22 and reinforcing wires 24 embedded in the covering material 20. The carbon yarns 22 are connected to the conductive wires and are twisted together with heating wires that generate resistance heat when energizing. The reinforcing wires 24 listed together with the carbon yarns 22 have excellent tensile strength and heat resistance and are flexible. This material may be formed of, for example, Teflon or fishing line, the coating material 20 may be used, such as heat-resistant wire tube.

The heating cable 6 as described above has a pair of carbon yarns 22 and the reinforcing wire 24 exposed to the outside at the other end located on the opposite end to be folded in half as shown in FIG. 2. The conductors 14 in the pair of wires 5a and 5b of the electric cord 4 to be clamped through each of the clamping connecting pieces 16, and the corresponding conductive wires 14 are insulated from each other. To form.

In this way, a pair of carbon yarns 22 of the heating cable 6 is electrically loop-connected to a pair of wires 5a and 5b of the electric cord 4, and a point where the pair of heating cables 6 are folded Loop connection return point end 28.

In the present invention, the loop connection return point end 28 of the pair of folded heating cables 6 is inserted into one opening of the flexible heat dissipating tube 8 that can be deformed and shaped as shown in FIG. 2 so as to protrude to the other opening. The loop connection return point end 28 of the both ends of the openings is fixed by, for example, a fixing line 30 or fixed by silicon bonding, and both ends of the openings are preferably sealed by a sealing member 12. The sealing member 12 may be formed by sealing with silicon or may be configured by inserting a sealing plug.

When the openings of both ends of the flexible heat dissipating tube 8 are sealed with the sealing member 12, moisture or solid foreign matter cannot penetrate into the flexible heat dissipating tube 8. It can prevent the heat dissipated or the heat conduction caused by invasive foreign matter.

In addition, in the present invention, by fixing the loop connection return point end 28 of the pair of heat generating cables 6 to the flexible heat dissipating tube 8, even if the user pulls the end of the flexible heat dissipating tube 8, the flexible heat dissipating tube ( 8) to prevent it from being separated from the heating cable (6).

The flexible heat dissipation tube 8 into which the pair of heat generating cables 6 are fitted may be formed of a metallic corrugated tube, an aero fin tube (also called a 'wrinkle pin tube'), a resin corrugated tube, or the like. The length can be selected as desired by the user.

1 to 4 show an example in which the flexible heat dissipation tube 8 is formed of a metallic corrugated pipe, and FIG. 5 shows an example in which the flexible heat dissipation tube 8 is composed of an aerofin tube.

The flexible heating port 2 of the present invention as described above may be configured to be radiated by bending the flexible heat dissipating tube 8 in a zigzag as shown in FIG. 6, and wound helically as in FIG. This may be made, or may be configured to radiate heat straight.

In Fig. 1, reference numeral "10", which has not been described, is a thermostat.

In the above description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be determined by the described embodiments, but should be determined by the equivalent of utility model registration claims and utility model registration claims.

1 is a configuration of a flexible heating device according to an embodiment of the present invention,

2 is an exploded perspective view illustrating main parts of the flexible heating port of FIG. 1;

3 is a side cross-sectional view of FIG.

4 is a longitudinal cross-sectional view of FIG.

5 is another example of the flexible heat pipe;

6 and 7 is a diagram showing the use of the flexible heating sphere of the present invention.

<Explanation of symbols for the main parts of the drawings>

(2)-flexible heating outlet (4)-electric cord

(6)-heating cable (8) ---- flexible heat sink

(10)-Thermostat (12)-Seal

(20)-Cladding (22)-Carbon Yarn

(24)-Reinforcement line (28)-End of loop connection return point

30-- line

Claims (3)

In the heat outlet using carbon yarn, The pair of wires 5a and 5b of the electric cord 4 are configured such that the carbon yarns 22 and the reinforcing wires 24 are electrically looped together with the heating cable 6 formed in the sheath 20. The pair of connected heating cable 20 is inserted into the flexible heat dissipation tube 8 which can be deformed and shaped, and the loop connection return point end 28 of the heating cable 20 is fixed to the flexible heat dissipation tube 8. Flexible heating device characterized in that. The flexible heating device according to claim 1, wherein the openings at both ends of the flexible heat dissipation tube (8) are sealed with a sealing member (12). The flexible heating device according to claim 1 or 2, wherein the flexible heat dissipation pipe (8) is one of a metal corrugated pipe, an aerofin tube, and a resin corrugated pipe.

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