KR101720908B1 - Electric heat-generating device - Google Patents

Abstract

According to the present invention, provided is an electric heating device including: a plurality of heating cables including a conductive carbon heating element and a heating element-insulating sheath for covering the same; a pair of electric wires including a conductor and a heating element-insulating sheath for covering the conductor, having different polarities, and connected in parallel to both ends of the heating cables arrayed in a row at a regular interval, respectively, to input power; a staple which encloses the conductor and penetrates the carbon heating element and then is bent and tightened to the lower side of the carbon heating element while the upper surface of the carbon heating element is exposed by removing a part of the insulating sheath and the lower surface of the conductor partially exposed by removing a part of the insulating sheath is faced to the upper surface of the carbon heating element, so that the carbon heating elements and the conductors are electrically connected to each other through each connecting part fastened by the staple; and an insulation cover provided at each connecting part between the carbon heating elements and the conductors conductively coupled to each other by the staple to insulate and cover the connecting part.

Description

[0001] Electric heat-generating device [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an electric heating device, and more particularly, to an electric heating device capable of improving a structure of a connection portion between an electric wire and a heating cable, and improving quality performance and manufacturing efficiency.

Generally, an electric heating device is a device for converting electrical energy into thermal energy, and is installed on the floor of an indoor floor of a building, on a floor of a road, a parking lot, a runway or the like, and is used mainly for indoor heating and road surface prevention and freezing.

Here, the electric heating device has an electrical connection part for electric connection with the electric wire when the heating cable is used for heating and heating. The electric connection part has a main purpose of electric connection, but additionally, The function of waterproofing must also be realized, and the electric heating device is disclosed in Japanese Patent No. 10-1453500.

The electric heating device includes a plurality of heating cables, each having a conductive heating element and a heating-element insulating sheath surrounding the conductive heating element, arranged in parallel at regular intervals and connected in parallel to each other, A metal screw is fastened to each connecting portion of the electric wire and the heating cable so that the electric conductor of the electric wire and the carbon heating element of the heating cable are electrically connected to each other and a T-shaped connecting portion insulating cover is provided at the connection portion where the metal screw is fastened.

However, in the conventional electric heating apparatus, the metal screws are passed through the connecting portions of the electric wires and the heating cables so that the electric connecting portions are mutually connected.

That is, a metal screw, which is positioned at an angle perpendicular to the insulating sheath of the electric wire, with one end of the heating cable facing the outer circumferential surface of the insulating sheath covering the conductor of the electric wire, And has a structure that vertically penetrates the carbon heating element of the cable.

Therefore, in the conventional electric heating apparatus, in order that the connecting portions of the electric wire and the heating cable are formed to be electrically connected to each other by using the metal screw, the state in which the end portion of the heating cable faces the outer peripheral surface of the electric wire is maintained The contact state can be maintained only if the metal screw is penetrated through the center of the conductor of the wire and the center of the carbon heating element of the heating cable exactly.

In this case, when the metal screw passes through the center of the conductor and the carbon heating element in a skewed state, the spike of the metal screw can not pass through at least one of the conductor and the carbon heating element, There is a problem that the heating function of the cable is deteriorated.

In addition, since the metal screw must penetrate the conductor and the carbon heating element, the diameter of the spike must have a predetermined thickness for durability, and the cross-section of the carbon heating element is made elliptical or rectangular, However, in the case of a single wire having a predetermined thickness, the metal screw can not pass through at least one of the conductor and the carbon heating element, and thus the selection of the wire type is limited.

In addition, in order to precisely penetrate the metal screw, the end face of the heating cable must be continuously held on the outer circumferential surface of the electric wire. In view of the characteristics of the electric wire having a flexible characteristic, .

In addition, when the conductor using the metal screw penetration and the carbon heating element have a contact state with each other, the carbon heating element is rotated about the metal screw with respect to the conductor, and the carbon heating element has an elliptical or rectangular cross section There is a problem that the worker has to return the carbon heating element to the original position at the time of constructing the insulation cover of the connection part, thereby reducing the manufacturing efficiency.

Accordingly, it is an object of the present invention to provide a method of manufacturing a carbon heating element in which a portion of an insulating sheath is removed to expose a corresponding portion of the carbon heating element, and a portion of the insulating sheath is removed from the upper surface of the exposed portion of the carbon heating element, The present invention is to provide an electric heating device which improves the structure of a current-connecting portion between a wire and a heating cable so that a staple covers the conductor while passing through a carbon heating element and improves quality performance and manufacturing efficiency.

Meanwhile, the object of the present invention is not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

According to the present invention, a plurality of heating cables, each of which comprises a conductive carbon heating element and a heating-element insulation sheath surrounding the conductive carbon heating element, A pair of electric wires having different polarities and connected in parallel for inputting power to both ends of the heat generating cables, which are composed of the conductive conductor and the heat generating body insulating sheath surrounding the conductive conductor and arranged at regular intervals; After removing the insulating shell part, the upper side of the carbon heating element is exposed, and then the insulating sheath part is removed from the upper side of the carbon heating element. Then, the lower surface of the exposed conductor is faced with the carbon heating element A staple which passes through the stator and then is fastened to the lower side of the carbon heating element so as to be tightened so that the connecting portions between the stator and the heating elements are connected to each other; And an insulating cover which is formed at each connecting portion between the carbon heat generating elements fastened to each other so as to be mutually energized by the staple and the conductor and which covers the connecting portion.

Here, the staple includes: a support having a predetermined area; And a pair of claws bent perpendicularly to both ends of the support portion.

It is also preferable that the heating cable is such that an insulating sheath that protects the outside of the carbon heating element is removed so that only a part of the upper surface of the carbon heating element is exposed and the remaining portion is not removed.

Further, it is preferable that the conductor has a structure of any one of a twisted wire and a single wire.

The insulating cover is made of a synthetic resin material and includes a cover portion covering the connection portion and a cover portion covering the one end of the heat generating cable and the branch covering both side portions of the electric wire, And the like.

Therefore, according to the present invention, after a portion of the insulating sheath is removed to expose a corresponding portion of the carbon heating element, a portion of the insulating sheath is removed from the upper surface of the exposed portion of the carbon heating element, The staple can wrap around the conductor and bend it after penetrating the carbon heating element, thereby improving the structure of the connection portion between the wire and the heating cable, and improving the quality performance and manufacturing efficiency.

On the other hand, the effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the description of the claims.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a configuration diagram of an electric heating apparatus according to an embodiment of the present invention; FIG.
2 is a view showing a main part of the electric heating element of FIG. 1; And
3 is an exploded view showing a main part of the electric heating element of FIG.

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

FIG. 1 is a structural view showing an electric heating apparatus according to an embodiment of the present invention, FIG. 2 is a view showing a main part of the electric heating element of FIG. 1, and FIG. 3 is an exploded view showing a main part of the electric heating element of FIG.

1 to 3, an electric heating device according to an embodiment of the present invention includes a plurality of heating cables 110 including a conductive carbon heating body 111 and a heating body insulation shell 112 surrounding the conductive carbon heating body 111, A pair of wires 120 having different polarities and connected in parallel for inputting power to both ends of the heat generating cables 110 arranged in parallel at regular intervals, A portion of the insulating sheath 112 is removed to expose the upper surface portion of the carbon heating element 111 and then a portion of the insulating sheath 122 is removed on the upper surface of the carbon heating element 111, The carbon heating elements 111 and the conductor 121 are surrounded by the lower surface of the carbon heating element 111 while being surrounded by the carbon heating element 111 while being surrounded by the lower surface of the carbon heating element 111, To fasten each connecting part between A staple 130 that staples the staples 130 and staples 130 so as to be mutually energized, and an insulating cover (not shown) formed at each connecting portion between the carbon heating elements 111 and the conductor 121, 140).

The heating cable 110 functions to convert electric energy into thermal energy when power is supplied to the both ends of the heating cable 110 at different polarities, thereby heating the conductive carbon heating body 111 and the outside And an insulative sheath 112 for protecting the insulator 112.

Here, the carbon heating element 111 may have a shape of a circle, an ellipse or a rectangle in cross section.

The electric wire 120 is formed by inserting a power source of different polarity into both ends of the carbon heating element 111 so as to generate heat of the carbon heating element 111. The electric wire 120 includes the conductive conductor 121 and an insulating sheath 122 protecting the outside, .

Here, the conductor 121 may have a structure of either a twisted wire or a single wire.

The staple 130 is formed in a state where the upper surface exposed portion of the carbon heating element 111 from which a part of the insulating shell 112 is removed and the lower surface exposed portion of the conductor 121 from which a portion of the insulating shell 122 is removed The conductor 121 is wrapped around the carbon heating element 111 and then the carbon heating element 111 is fastened to the lower side of the carbon heating element 111 so that the connection parts between the carbon heating elements 111 and the conductor 121 are fastened A supporting portion 131 having a predetermined area and a pair of brackets 132 bent perpendicularly to both side ends of the supporting portion 131. [

Here, the pair of brackets 132 include a pair of brackets (not shown), respectively. Through the pair of brackets 132, the carbon heating body 111 can be easily passed therethrough, .

When the staple 130 having the above-described structure is pressed by the pressing means such as a stapler in a state where the lower side exposed portion of the conductor 121 faces the upper side exposed portion of the carbon heating element 111, the staple 132 The supporting portion 131 covers the upper surface of the conductor 121 and then the bracket 132 covers the upper surface of the lower surface of the carbon heating element 111, The support portion 131 is closely contacted with the upper surface of the conductor 121 so that the connection portions of the carbon heating element 111 and the conductor 121 are electrically connected to each other.

It is preferable that the heat generating cable 110 is such that the insulating shell 112 protecting the outside of the carbon heating element 111 is removed so that only a part of the top surface of the carbon heating element 111 is exposed and the remaining portion is not removed. It is possible to prevent the carbon heating element 111 from being broken or broken when the bracket 132 of the staple 130 penetrates through the carbon heating element 111 and then is bent and tightened, have.

The staple 130 is pressed against the upper surface of the conductor 121 in a state where the exposed surface of the lower surface of the conductor 121 faces the upper surface exposed portion of the carbon heating element 111, So that the center of the conductor of the wire and the center of the carbon heating element of the heating cable can be precisely positioned in the state in which the end portion of the heating cable faces the outer circumferential surface of the wire, The problem of the contact failure state which occurs when the lead wire can not penetrate can be prevented and the quality performance is improved.

Further, even when the cross section of the carbon heating element 111 has an elliptical shape or a rectangular shape, the carbon heating element 111 penetrates the carbon heating element 111 in a direction perpendicular to the long diameter direction of the carbon heating element 111, The problem of difficulty of penetration work and the problem of contact failure which occurs when the cross-sectional area of the cross-section of the carbon heating element is shorter is prevented.

Further, since the conductor 121 is not penetrated through the conductor as in the prior art by covering the upper portion of the conductor 121 and passing through the carbon heating element 111, the conductor 121 may have a single wire configuration instead of a twisted wire. Problems caused when the screw can not penetrate the conductor are prevented and the manufacturing efficiency is improved.

The carbon heating body 111 and the conductor 121 are pressed through the upper side of the conductor 121 in a state in which the lower side exposed portion of the conductor 121 faces the upper side exposed portion of the carbon heating element 111, When the conductor and the carbon heating element are in contact with each other using a metal screw, the carbon heating element is prevented from rotating about the metal screw with respect to the conductor, The worker does not need to bring the carbon heating body 111 in place at the time, and the manufacturing efficiency is improved.

The insulating cover 140 is formed at each connecting portion between the carbon heating elements 111 and the conductor 121 that are connected to each other by the staple 130 so as to be electrically energized, And a cover part 141 covering the connection part 141. The cover part 141 is divided into three parts at the center of the cover part 141 and connected to both ends of the heat generating cable 110 and both sides of the electric wire 120 And a branching portion 142 covering the portion.

Here, the insulating cover 140 is cut from a portion corresponding to one end of the heat generating cable 110 in the branched portion 142 to a portion corresponding to both side portions of the electric wire 120 around the connecting portion The connection portion between the carbon heating element 111 and the conductor 121 connected by the staple 130 is positioned in the inner space of the cover portion 141 and the heat generated in the inner space of each branch portion 142 The connecting portion is joined by a method such as high-frequency, ultrasonic, adhesive, and fusion in a state where one end of the cable 110 and both sides of the wire 120 are positioned in a T-shape, Is insulated.

The insulating cover 140 according to the present invention has an annular wrinkle corrugation having a constant pitch on its surface in order to induce heat dissipation and increase the surface area of the cover portion 141 and the branch portion 142, . In addition, the insulating cover 140 may further comprise a concave-convex structure with a coupling groove and a coupling protrusion in the wrinkle cores to further enhance the binding effect with concrete or mortar.

The insulating cover 140 further includes a waterproof ring made of fluorine rubber or silicone rubber for interrupting moisture on the inner circumferential surface of the branched portion 142 that is inscribed on the insulating shell of the heat generating cable 110 and the electric wire 120 . Here, the waterproof ring is configured to be closely fitted to the heat generating cable 110 and the electric wire 120, and then to be joined together while the insulating cover 140 is accommodated therein.

Meanwhile, the insulating cover 140 of the present invention forms the corrugated trough along the spiral, in which a taper is formed in the branch portion 142 and a tightening ring is screwed to the tapered spiral trough portion, The inner surface of the branched portion 142 of the insulating cover 140 is further pressed so that the adhesion between the branched portion 142 and the heating cable 110 and between the branched portion 142 and the wire 120 So that the moisture barrier ability can be improved.

Hereinafter, a method of manufacturing an electric heating apparatus according to an embodiment of the present invention will be described.

A portion of the insulating shell 112 at both ends of the heating cable 110 is partially removed so that the carbon heating element 111 has a predetermined length and is exposed to the outside and the insulating shell 122 of the electric wire 120 is exposed at a predetermined interval And the conductor 121 is exposed to the outside with a predetermined length.

In this state, the heating cables 110 are continuously arranged in parallel with the electric wires 120 at regular intervals. At this time, the carbon heating element 111 of the heating cable 110 is connected to the lower side of the conductor 121 of the electric wire 120 It is preferable to have a state in which the upper and lower surfaces face each other.

The staple 130 is pressed by a pressing means such as a stapler to penetrate the upper surface side exposed portion of the carbon heating element 111 at the bracket 132. At this time, The supporting portion 131 is closely contacted with the upper surface of the conductor 121 so that the carbon heating element 111 is covered with the supporting portion 131, And the conductor 121 are electrically connected to each other.

The connecting portion between the carbon heating element 111 and the conductor 121 connected by the staple 130 is positioned in the inner space of the cover portion 141 of the insulating cover 140 and the one end of the heating cable 110 and the wire The cut portions of the insulating cover 140 are bonded to each other by a method such as high frequency, ultrasonic bonding, adhesion and fusion in a state in which both side portions of the insulating cover 120 are positioned in the inner space of the branched portion 142 of the insulating cover 140, So that the connection portion is insulated and sealed in a watertight state.

The insulating cover 140 of the present invention is formed by the staple 130 so that the connection portions between the carbon heating elements 111 and the conductor 121 can be electrically connected to each other by the staple 130, The insulating cover 122 of the electric wire 120 and the insulating cover 140 may be sealed and watertight at a portion facing the insulating cover 140. In this case, The effect can be improved and the insulation effect can be maximized.

A portion of the insulating enclosure 112 is removed to expose a corresponding portion of the carbon heating element 111 and then a portion of the insulating enclosure 122 is removed from the upper surface of the exposed portion of the carbon heating element 111, The staple 130 covers the conductor 121 and passes through the carbon heating element 111 and then is bent and tightened so that the heating cable 110 and the wire 120 are bent, Thereby improving the quality performance and the manufacturing efficiency.

Although the present invention has been described with reference to the specific embodiments, various modifications may be made without departing from the scope of the present invention. Accordingly, the scope of the invention is not to be determined by the embodiments described, but should be determined by equivalents of the claims and the claims.

Claims (5)

A plurality of heating cables 110 formed of a conductive carbon heating body 111 and a heating body insulation shell 112 surrounding the conductive carbon heating body 111;
A pair of wires 120 (120) having different polarities and connected in parallel for inputting power to both ends of the heat generating cables (110), which are made up of the conductive conductor (121) );
A portion of the insulating sheath 112 is removed to expose the upper surface portion of the carbon heating element 111 and then a portion of the insulating sheath 122 is removed on the upper surface of the carbon heating element 111, The carbon heating elements 111 and the conductor 121 are surrounded by the lower surface of the carbon heating element 111 while being surrounded by the carbon heating element 111 while being surrounded by the lower surface of the carbon heating element 111, A staple 130 for fastening the connection portions between the staples 130 and 130 to allow mutual energization; And
And an insulating cover (140) formed at each connection portion between the carbon heating elements (111) and the conductor (121) fastened to each other by the staple (130)
The staple 130,
A supporting portion 131 having a predetermined area;
And a pair of brackets (132) bent perpendicularly to both ends of the support part (131). delete The heat generating cable according to claim 1, wherein the heat generating cable (110)
So that the insulating envelope (112) protecting the outside of the carbon heating element (111) is removed so that only a part of the top surface of the carbon heating element (111) is exposed and the remaining portion is not removed. 4. The connector according to claim 3, wherein the conductor (121)
Characterized in that it has a structure of either a twisted wire or a single wire. 5. The connector according to claim 4, wherein the insulating cover (140)
With a synthetic resin material,
A cover portion 141 covering the connection portion,
And a branched portion 142 branched from the center of the cover portion 141 and covering the one end of the heat generating cable 110 and the opposite side portions of the wire 120 about the connecting portion. Electric heating device.

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