KR200494251Y1 - Plane heater for metal-coated heating steel - Google Patents

Abstract

The present invention perforates a hole in the upper insulating film before bonding the upper insulating film to the lower insulating film. After the upper insulating film and the lower insulating film are laminated, the copper foil electrode is exposed to the outside through the hole in the upper insulating film It relates to a planar heating element for an exothermic plated steel sheet.
The planar heating element for exothermic plated steel sheet according to the present invention is coated with a carbon layer 20 and a silver layer 30 on the upper surface of the lower insulating film 10, and two rows of copper foil electrodes on the upper surface of the lower insulating film 10 ( 40) is bonded, copper foil electrodes 40 are respectively disposed on both side ends of the lower insulating film 10, and a carbon layer 20 for heat generation is disposed between two rows of copper foil electrodes 40, and carbon The layer 20 and the copper foil electrode 40 are electrically connected by a silver layer 30, and the upper insulating film 50 is bonded to the lower insulating film 10, and the lower insulating film 10 and the upper insulating film ( 50) in the planar heating element in which the carbon layer 20, the silver layer 30, and the copper foil electrode 40 are disposed between , characterized in that the copper foil electrode 40 is exposed to the outside through the hole (52).

Description

Planar heating element for heat-coated steel sheet {PLANE HEATER FOR METAL-COATED HEATING STEEL}

The present invention perforates a hole in the upper insulating film before bonding the upper insulating film to the lower insulating film. After the upper insulating film and the lower insulating film are laminated, the copper foil electrode is exposed to the outside through the hole in the upper insulating film It relates to a planar heating element for heating plated steel sheet that can be connected to the exposed copper foil electrode by an automatic soldering method without manual processing.

Republic of Korea Patent No. 10-1589534 (January 22, 2016, registered) "The upper film of the planar heating element and its manufacturing method are introduced.

The upper film manufacturing method of the planar heating element is a 75MIC gravure printing process to obtain a gravure pattern layer by printing the pattern at 70-80 MIC using a copper plate roller engraved with a pattern on the surface of the upper film unrolled from the fabric winding roll; , A drying process in which the gravure pattern layer is dried by hot air while moving the upper film to a drying furnace, and the aging process and the gravure pattern in which the upper film is cured in an aging room in which thermal energy is supplied and air is circulated A primary corona treatment process of making the layer irradiated with corona discharge to roughen the surface, an AC primer treatment process of priming the gravure pattern layer, and a dry drying process of drying with hot air, and EVA adhesive on the gravure pattern layer The first 37 MIC application process to obtain a first EVA adhesive layer by applying 36-39 MIC, a cooling process to allow the primary EVA adhesive layer to cool naturally at room temperature, and 36- EVA adhesive to the primary EVA adhesive layer. The EVA secondary 38MIC application process to obtain a secondary EVA adhesive layer by applying 39MIC, a cooling process to allow the secondary EVA adhesive layer to cool naturally at room temperature, and corona discharge to the secondary EVA adhesive layer so that the surface is irradiated It includes a secondary corona treatment process of roughening.

However, in order to automatically connect the lead wire to the copper foil electrode in the method for manufacturing the upper film of the planar heating element, it is not described so that the copper foil electrode is exposed to the outside.

The present applicant's Republic of Korea Patent Application No. 10-2019-0079743 (filed on July 3, 2019) "heat-coated steel sheet and its manufacturing method" is introduced.

In the heat plated steel sheet, an image such as a picture or pattern is printed on the front side of the plated steel sheet, the PTC film is bonded to the back side of the plated steel sheet by a heat-resistant adhesive, and the heat insulating plate is placed in close contact with the PTC film, The finish plate is placed in close contact, and the perimeter of the plated steel plate and the finish plate is finished.

However, in order to automatically connect the lead wire to the copper foil electrode of the PTC film in the heat plated steel sheet, it is not described that the copper foil electrode is exposed to the outside, and the operator constructs the PTC film to expose the copper foil electrode to the outside Manual work was required to cut out the insulating film.

Therefore, an object of the present invention is to perforate a hole in the upper insulating film before bonding the upper insulating film to the lower insulating film, and after the upper insulating film and the lower insulating film are laminated, the copper foil electrode to the outside through the hole in the upper insulating film It is to provide a planar heating element for exothermic plated steel sheet that can be exposed to the outside and can be connected to the exposed copper foil electrode by an automatic soldering method, thereby automating the entire manufacturing process of the exothermic plated steel sheet.

In the planar heating element for exothermic plated steel sheet according to the present invention for achieving the above object, a carbon layer and a silver layer are applied to the upper surface of the lower insulating film, and two copper foil electrodes are bonded to the upper surface of the lower insulating film, the lower Copper foil electrodes are disposed on both ends of the insulating film, a carbon layer for heat generation is disposed between two rows of copper foil electrodes, the carbon layer and the copper foil electrode are electrically connected by a silver layer, and the upper insulation is provided on the lower insulating film The film is bonded, a carbon layer, a silver layer, and a copper foil electrode are disposed between the lower insulating film and the upper insulating film, and holes are drilled close to both side ends of the upper insulating film, respectively, and the copper foil electrode is exposed to the outside through the hole characterized by being

The hole is characterized in that the upper insulating film is perforated in the upper insulating film before being laminated with the lower insulating film.

The hole is characterized in that when the lower insulating film and the upper insulating film are laminated and then cut along the cutting line, they are disposed adjacent to each of the four corners.

The hole is characterized in that it is formed in any one of a circular shape, a polygonal shape, or a slit.

The hole is characterized in that it is formed by any one processing method of laser processing, hot wire processing, or press processing.

In addition, the present invention is that after the lower insulating film and the upper insulating film are laminated, the lead wire is bonded to the back side of the heat-generating plated steel sheet, and the lead wire is connected to the copper foil electrode exposed to the outside through the hole of the upper insulating film by an automatic soldering method. characterized.

As a result, the planar heating element for heating plated steel sheet according to the present invention has the upper insulating film and the lower insulating film laminated, and then the copper foil electrode is exposed to the outside through the hole of the upper insulating film, and the lead wire is connected to the exposed copper foil electrode can be connected by an automatic soldering method, which has the effect of automating the entire manufacturing process of exothermic plated steel sheet.

1 is an exploded perspective view showing a planar heating element for an exothermic plated steel sheet according to the present invention.
2 is a perspective view illustrating a state in which an upper insulating film and a lower insulating film are laminated, and a lead wire is soldered to a copper foil electrode.
3 is a process diagram of laminating an upper insulating film and a lower insulating film having a hole formed therein, and shows an example in which the hole is disposed when the upper insulating film and the lower insulating film are laminated.
3 is a working process diagram schematically illustrating a manufacturing process of a planar heating element for an exothermic plated steel sheet according to the present invention.

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

1 and 2, in the planar heating element for exothermic plated steel sheet according to the present invention, a carbon layer 20 and a silver layer 30 are coated on the upper surface of the lower insulating film 10, and the lower insulating film 10 Two rows of copper foil electrodes 40 are bonded to the upper surface, and copper foil electrodes 40 are respectively disposed at both ends of the lower insulating film 10 , and carbon for heat generation between the two rows of copper foil electrodes 40 . The layer 20 is disposed, the carbon layer 20 and the copper foil electrode 40 are electrically connected by the silver layer 30 , and the upper insulating film 50 is bonded to the lower insulating film 10 , and the lower insulation A carbon layer 20 , a silver layer 30 , and a copper foil electrode 40 are disposed between the film 10 and the upper insulating film 50 .

Here, in the planar heating element for heating plated steel sheet according to the present invention, holes 52 are respectively perforated close to both side ends of the upper insulating film 50, and the copper foil electrode 40 is exposed to the outside through the holes 52 do.

The hole 52 is perforated in the upper insulating film 50 before the upper insulating film 50 is laminated with the lower insulating film 10 .

Referring to FIG. 3 , in addition, when the hole 52 is cut along the cutting line 60 after the lower insulating film 10 and the upper insulating film 50 are laminated, each of the four corners is adjacent to each other. are placed

In addition, although the hole 52 is shown in a circular shape in FIGS. 1 and 2 , the present invention is not limited thereto, and may be formed in a polygonal shape such as a square or a slit shape.

In addition, the hole 52 is formed by any one of laser processing, hot wire processing, and press processing.

Referring to FIG. 4, the planar heating element for the exothermic plated steel sheet according to the present invention configured as described above is a lower insulating film 10 coated with a carbon layer 20, a silver layer 30 and a copper foil electrode 40. The first bobbin In a state in which the upper insulating film 50 is wound around the second bobbin 120 and wound around the second bobbin 120 , the upper insulating film 50 drawn out from the second bobbin 120 is drawn out from the first bobbin 110 . Before being laminated with the lower insulating film 10, it is perforated at a predetermined interval by the perforating means 130.

Thereafter, the lower insulating film 10 and the upper insulating film 50 are laminated in the process of passing through the heat compression roller 140 , and the laminated lower insulating film 10 and the upper insulating film 50 are wound on the winding roller 150 . ) is wound on

The planar heating element for the exothermic plated steel sheet according to the present invention manufactured as described above is bonded to the exothermic plated steel sheet (not shown), and then together with the exothermic plated steel sheet to a set length (50 cm, 80 cm, 100 cm, 150 cm, etc.) are cut Therefore, the puncture spacing of the holes 52 (refer to FIG. 2) perforated in the upper insulating film 50 by the perforating means 130 is determined according to the cut length of the heat-generating plated steel sheet.

By this, the present invention bonds the planar heating element to the heat-generating plated steel sheet (not shown), and cuts the heat-generating plated steel sheet to which the planar heating element is bonded to a predetermined length, and then cuts the hole 52 of the upper insulating film 50 The lead wire 60 (refer to FIG. 2 ) can be connected to the copper foil electrode 40 exposed to the outside through an automatic soldering method, which has the advantage of automating the manufacturing process of the exothermic plated steel sheet.

That is, in the conventional case, the planar heating element is bonded to the heating plated steel sheet, the heating plated steel sheet to which the planar heating element is bonded is cut to a predetermined length, and then a hole is drilled in the upper insulating film so that the copper foil electrode is exposed to the outside, A worker cut a hole in the upper insulating film, and a lot of defects occurred in the process of the worker cutting a hole in the upper insulating film, and the manufacturing process of the heat plated steel sheet could not be automated.

However, according to the present invention, by drilling a hole 52 in the upper insulating film 50 before bonding the upper insulating film 50 to the lower insulating film 10, the upper insulating film 50 and the lower insulating film 10 are After this is laminated, the copper foil electrode 40 is exposed to the outside through the hole 52 of the upper insulating film 50, and the lead wire 60 is connected to the exposed copper foil electrode 40 by an automatic soldering method. This has the advantage of being able to automate the entire manufacturing process of the exothermic plated steel sheet.

10: lower insulating film 20: carbon layer
30: silver layer 40: copper foil electrode
50: upper insulating film 52: hole

Claims (6)

A carbon layer 20 and a silver layer 30 are coated on the upper surface of the lower insulating film 10, and two rows of copper foil electrodes 40 are bonded to the upper surface of the lower insulating film 10, and the lower insulating film ( 10), copper foil electrodes 40 are respectively disposed on both side ends, a carbon layer 20 for heat generation is disposed between two rows of copper foil electrodes 40, and a carbon layer 20 and a copper foil electrode 40 are disposed. Electrically connected by the silver layer 30, the upper insulating film 50 is bonded to the lower insulating film 10, and a carbon layer 20 between the lower insulating film 10 and the upper insulating film 50, In the planar heating element in which the silver layer 30 and the copper foil electrode 40 are disposed,
Each hole 52 is perforated adjacent to both side ends of the upper insulating film 50, and the copper foil electrode 40 is exposed to the outside through the hole 52,
The hole 52 is perforated in the upper insulating film 50 before the upper insulating film 50 is laminated with the lower insulating film 10,
The hole 52 is disposed adjacent to each of the four corners when the lower insulating film 10 and the upper insulating film 50 are laminated and then cut along the cutting line 60,
After the lower insulating film 10 and the upper insulating film 50 are laminated, they are bonded to the back side of the heat-generating plated steel sheet, and are cut to a set length together with the exothermic plated steel sheet, and the hole 52 of the upper insulating film 50 is cut A planar heating element for heating plated steel sheet, characterized in that the lead wire 60 is connected to the copper foil electrode 40 exposed to the outside through an automatic soldering method.
delete delete The method of claim 1,
The hole 52 is a planar heating element for heat-generating plated steel sheet, characterized in that it is formed in any one of a circular shape, a polygonal shape, or a slit.
The method of claim 1,
The hole 52 is a planar heating element for exothermic plated steel sheet, characterized in that it is formed by any one processing method of laser processing, hot wire processing, or press processing.
delete

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