KR100618162B1 - Film boiler and manufacturing method - Google Patents

Abstract

The present invention is airtight by attaching the first and second waterproof adhesives, which are double-sided adhesive tapes at a high temperature of 140 °, through a waterproof vinyl between the bottom heating plate vinyl and the heat insulating material in order to solve a high frequency of leakage on the bottom surface of the carbon heating wire. It solves the risk of short circuit and maintains the economical effect such as saving material and man-hour of connection by forming three-phase copper wire consisting of three wires. Of course, the present invention relates to a film boiler and a method of manufacturing the same, which can be cut by construction at the construction site.

In the film boiler which is connected to the carbon heating wire disposed with the heat insulating material and the copper wire to which the wire is connected in silver liquid form and then covered with a laminating film,

Floor laminating film,

Silver foil is cut and laminated to a predetermined area to block the frequency of the external water wave on the floor laminating film, and

Insulation material is cut and laminated to a predetermined area to block the external discharge of moisture, cold air and heat source on the silver foil material;

A first waterproof adhesive, which is a double-sided adhesive tape attached over the outermost edge of the insulation;

Waterproof vinyl and laminated to be cut by a predetermined area to be waterproof and attached to the insulating material with the first waterproof adhesive therebetween;

A second waterproof adhesive which is a double-sided adhesive tape attached to an edge of the waterproof vinyl to be waterproof;

Hot plate bottom vinyl which is attached to the waterproof vinyl by a second waterproof adhesive and cut and formed in a predetermined area;

A three-phase copper wire formed by arranging copper plates of thin plates formed in a predetermined width at a predetermined interval in parallel on the hot plate bottom vinyl;

A carbon hot wire which is formed by stacking the three-phase copper wires in parallel in two groups,

A silver liquid coating layer coated with liquid silver in order to precisely adhere to the end portion of the carbon heating wire and the contact portion on the three-phase copper wire;

An upper laminator film laminated to protect the carbon hot wire attached to the three phase copper wire with liquid silver;

In order to block external moisture on the upper laminator film, a bottom laminator film, a silver foil, a heat insulating material, a first waterproof adhesive, a waterproof vinyl, a second waterproof adhesive, a bottom hot plate vinyl, and an upper laminating film are stacked in that order at high temperature. There is an excellent effect to provide a film boiler made of a configuration including a waterproof film laminated by.

Film boiler, carbon heating wire, waterproof film, insulation, three phase copper wire

Description

A film boiler and a method of producing the same}

1 is a perspective view showing a conventional carbon heating element

2 shows a film boiler according to the invention.

3 shows A-A of FIG. 2;

4a, b, c show an embodiment of a carbon heating wire according to the present invention;

Figure 5 is a block diagram showing a manufacturing method of a film boiler according to the present invention.

* Description of the symbols for the main parts of the drawings *

12: film boiler 14: floor laminating film

16: Silver foil 18: insulation

20: first waterproof adhesive 22: waterproof vinyl

24: 2nd waterproof adhesive 26: Hotplate bottom vinyl

28: 3-phase copper wire 30: Carbon hot wire

32: silver liquid coating layer 34: upper laminating film

36: waterproof film 38: optical fiber heating wire

The present invention relates to a film boiler and a method of manufacturing the same, and more particularly, in order to solve a short circuit occurring frequently on the bottom surface of a carbon heating wire, a double-sided adhesive tape is provided between the bottom hot plate vinyl and a heat insulating material through a waterproof vinyl. The water-resistant adhesive is fused at a high temperature of 140 ° to keep it airtight and eliminates the risk of short circuits. The existing copper wire was made of 4 lines using 2 lines and 2 lines. The present invention relates to a film boiler and a method of manufacturing the same, which can be economically saved, such as material savings and labor savings in wire connections, and can be cut and cut directly at the construction site.

In general, the carbon heating element is installed in a glass window of a vehicle and used for preventing sexual love, or is installed in a mattress for heating and is used in various fields.

As shown in FIG. 1, the carbon heating element 2 is sealed while forming a silver portion 8 to which the carbon heating wire 4 and the copper thin plate 6 are attached with liquid silver on the bottom laminator film. It consists of an upper laminator film (not shown).

The carbon heating element (2) is cut according to the area of the floor, and the copper thin plate (6) is formed in four rows at regular intervals, and is arranged by arranging the carbon heating wires (4) in a group of two lines.

The silver portion 8 is coated with a liquid silver on each of the copper thin plates 6 on which the carbon heating wires are disposed and dried to increase the connecting force.

Wires are connected to the copper foil 6 so that power is applied to cause the carbon heating wire 4 to generate heat.

As described above, the carbon heating element before applying the silver part 8 is mainly coated with liquid carbon, which is a high resistance material, on the upper surface of the film having excellent insulation at appropriate intervals, and after drying for a predetermined time, a copper thin plate is applied to both ends of the coated carbon. It is installed and manufactured by coating the laminator film.

Then, by connecting the wire and the temperature controller to the copper thin plate, so that the heat generation of the carbon heat generating portion resistance, and to control the overheating of the heat generating portion in a temperature controller such as a bimetal system.

However, the above-described conventional carbon heating element has two copper thin plates disposed at both ends of each group of carbon heating wires arranged thereon, and forms silver parts to be applied by bonding with liquid silver to form a silver portion. There is a problem.

And there is a problem in that it takes a lot of work to connect the electric wire to the copper foil inconvenient manufacturability, to maintain a number of appropriate working personnel.

According to the contact resistance between the carbon and the carbon, the magnitude of the energized current is changed, so that the heat generating portion is not heated as a whole, but is locally overheated, resulting in a problem that the carbon heating element is damaged.

In addition, since the cross-sectional area of the thin copper plate is kept constant, the amount of current cannot be adjusted or changed, and thus there is a disadvantage in that the shape and shape of the carbon to be applied and the length of the carbon heating element can not be freely adjusted.

Accordingly, the carbon heating element to which the improved silver part is applied, but the application industry is restricted due to the fear of damaging the thin insulating film, so there is a problem that the durability is weak for the heating construction of the room floor at the construction site.

Proposed to solve the problems of the prior art made as described above, an object of the present invention is to provide a double-sided adhesion between the bottom hot plate vinyl and the heat insulating material through the waterproof vinyl in order to solve the high frequency of leakage occurring at the bottom of the carbon heating wire The first and second waterproof adhesives, which are tapes, are fused and attached at a high temperature of 140 ° to maintain the airtightness, thereby eliminating the risk of short circuit, and the existing copper wires made of four lines using two lines and two lines. It is intended to provide a film boiler and its manufacturing method that can be cut and cut directly at the construction site to achieve economic effects such as saving material and reducing the man-hour of wiring.

The present invention for realizing this

In the film boiler which is connected to the carbon heating wire disposed with the heat insulating material and the copper wire to which the wire is connected in silver liquid form and then covered with a laminating film,

Floor laminating film,

The silver stuffing agent is formed to block the frequency of the external water wave,

Insulation to block external discharge of moisture, cold and heat sources,

A first waterproof adhesive adhered over the outermost edge of the insulation;

Waterproof vinyl and waterproof to be attached to the insulating material with the double-sided adhesive tape therebetween,

A second waterproof adhesive is interposed to the waterproof edge of the waterproof vinyl,

Hot plate bottom vinyl attached and laminated with the waterproof vinyl and the second waterproof adhesive;

A three-phase copper wire having three rows of thin copper sheets formed in a predetermined width at a predetermined interval in parallel on the hot plate bottom vinyl;

Carbon hot wire and the plurality of three-phase copper wires arranged in two groups to connect,

A silver liquid coating layer which is applied in a liquid phase on a three-phase copper wire on an end of the carbon heating wire to precisely adhere thereto;

An upper laminator film attached to the heat insulating material by a double-sided adhesive tape while being laminated to protect the carbon heating wire attached to the three-phase copper wire with liquid silver;

It is to provide a film boiler characterized in that the laminated on the upper laminator film to block the external moisture by consisting of a waterproof film which is laminated with the bottom laminator film and a high temperature.

Step to place the floor laminating film is cut to a certain area (S10),

Stacking the silver laminating material on the bottom laminating film to block harmful waves such as water vein waves (S20);

Blocking the divergence of the heat source to the outside by interposing a heat insulating material on the upper silver foil material (S30),

Attaching the first and second waterproof adhesives to both sides of the waterproof vinyl laminated on the insulating material to arrange three-phase copper wires having a predetermined distance in three rows between the insulating material and the hot plate bottom vinyl and the hot plate bottom vinyl attached in triplicate; (S40),

 Connecting a plurality of carbon heating wires to the two phases between the three-phase copper wires (S50),

Applying liquid silver for hermetic contact with the three-phase copper wire on the carbon heating wire (S60);

Attaching the upper laminator film, the heat insulating material, and the double-sided adhesive tape at a high temperature of 140 ° after applying the liquid silver (S70);

It is to provide a film boiler manufacturing method characterized in that the step of laminating the waterproof film so as to lay the jangpan on the laminator film automatically laminated (S80).

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the present invention will be described in more detail.

2 is a view showing a film boiler according to the present invention, Figure 3 is a view showing A-A of FIG.

And Figure 4 is a view showing an embodiment (a ~ d) of the carbon heating wire according to the present invention, Figure 5 is a block diagram showing a manufacturing method of a film boiler according to the present invention.

In the film boiler 12 is made of a copper film that is connected to the carbon heating wire disposed with the heat insulator and covered with a laminating film after applying the copper wire connected to the wire in silver liquid form,

Bottom laminating film (14), silver foil (16), heat insulating material (18), first waterproof adhesive (20), waterproof vinyl (22), second waterproof adhesive (24), hot plate bottom vinyl (26), and three-phase The copper wire 28, the carbon heating wire 30, the silver liquid coating layer 32, the upper laminating film 34, and the waterproof film 36 are comprised.

The bottom laminating film 14 is formed in a predetermined size, and the silver foil material 16 is cut and laminated to block harmful frequencies such as external water waves or electromagnetic waves thereon.

And the heat insulating material 18 interposed on the silver foil material 16 to block the external discharge of moisture, cold air and heat source, and the first waterproof adhesive 20 is attached over the outermost edge.

The waterproof vinyl 22 is attached to the heat insulator 18 by the first waterproof adhesive 20, and the second waterproof adhesive 24 is attached to the other side of the waterproof vinyl 22 so that the hot plate bottom vinyl 26 I'm attaching.

Accordingly, the waterproof vinyl 22 is interposed between the heat insulator 18 and the hot plate bottom vinyl 26 to achieve waterproofing and moisture proofing.

The hot plate bottom vinyl 26 forms a three-phase copper wire 28 arranged in three rows of thin copper plates formed in a predetermined width at a predetermined interval in parallel with the heat insulating material 18.

Since the three-phase copper wire 28 is formed by applying a wider center copper wire than the copper wires on both sides, the number of copper bows can be reduced, and the attachment of the carbon heating wire 30 is facilitated.

The three-phase copper wire 28 is connected to the electric wire to be applied to the power, and the work maneuver is reduced because it is only necessary to connect the electric wire to the three phase.

Accordingly, the three-phase copper wires 28 are arranged by connecting a plurality of carbon heating wires 30 to 1,2 groups on both sides of the center copper wire.

The silver liquid coating layer 32 is coated with liquid silver between the ends of the carbon heating wire 30 and the three-phase copper wire 28 to increase the adhesive strength.

The upper laminating film 34 is laminated to protect the carbon heating wire 30 attached to the three-phase copper wire 28 by the liquid silver with the heat insulating material 18 by the first and second waterproof adhesives 20 and 24. The hot plate bottom vinyl 26 is formed by attaching the waterproof vinyl 22 to a high temperature at 140 °.

The first and second waterproof adhesives 20 and 24 are attached while the adhesive is melted when a high temperature of 140 ° is applied between the upper laminating film 34 and the heat insulating material 18 to form a waterproof film.

The waterproof film 36 is laminated on the upper laminator film 34 to block external moisture and is automatically laminated with the bottom laminator film 14 at a high temperature to stack a floor covering and the like.

Referring to the manufacturing method of the present invention made as described above, the floor laminating film 14 is cut to a certain area to form a floor. (S10)

On the floor laminating film 14, the silver foil 16 is interposed to block harmful frequencies such as water waves or electromagnetic waves (S20).

Then, the insulating material 18 for blocking the release of the heat source to the outside on the silver foil 16, the interposition is interposed (S30).

The three-phase copper wire 28 to which electric wires are connected is arranged on the heat insulating material 18 on the hot plate bottom vinyl 26 stacked with the waterproof vinyl 22 therebetween (S40).

 Connecting the plurality of carbon heating wires 30 in two groups between the three-phase copper wires 28 (S50), and apply liquid silver to the carbon hot wires 30 for hermetic contact with the three-phase copper wires 28. (S60).

After the liquid silver is applied, the hot plate bottom vinyl 26, the waterproof vinyl 22, and the heat insulating material 16 attach the first and second waterproof adhesives 20 and 24 at a high temperature of 140 ° (S70).

And by laminating the waterproof film 36 to lay the jangpan on the upper laminator film 34 is produced by the step of automatically laminating using a high temperature (S80).

That is, the worker can directly cut to fit the size of the room or the size of the required place at the construction site, it is also possible to install a temperature controller (not shown) on the three-phase copper wire of the film boiler 12.

In addition, it is also possible to select the heat insulating material 16 as necessary to achieve heating and electromagnetic wave shielding, and to promote the health of the human body.

4 is a view showing the arrangement examples (a to d) of the carbon heating wire according to the present invention, (a) it is distinguished that the optical fiber heating wire 38 is arranged (a), (b), ( c) All of the carbon hot wires are changed in various ways, but the detailed description thereof will be omitted.

As described above, the film boiler can be simply cut to a certain size and completed quickly from the construction site to the construction of the floor plate, thereby reducing the construction period and reducing the cost.

As those skilled in the art to which the present invention pertains, various permutations, modifications, and changes can be made without departing from the spirit and scope of the present invention. no.

As described above, the present invention is a film boiler consisting of a bottom laminating film, a silver foil, a heat insulating material, a double-sided adhesive tape, a hot plate bottom vinyl, a three-phase copper wire, a carbon hot wire, a silver liquid coating layer, an upper laminating film, and a waterproof film. By cutting to the appropriate size at the construction site has the effect that can be quickly and simply construction.

By laminating the silver foil or the heat insulating material as a whole or by maintaining a long time of the heat source and blocking of harmful electromagnetic waves, it helps to maintain the health of the user.

Since the width of the copper wire is wider among the three-phase copper wires connected to the carbon heating wire, the existing copper wire is reduced to three lines, thereby reducing the cost.

In addition, since the work of connecting only three wires to the three-phase copper wire is made, it is a useful technology for the building materials industry because there is an economic effect such as a reduction in the labor manpower by connecting four wires.

Claims (3)

In the film boiler which is connected to the carbon heating wire disposed with the heat insulating material and the copper wire to which the wire is connected in silver liquid form and then covered with a laminating film, Floor laminating film, Silver foil is cut and laminated to a predetermined area to block the frequency of the external water wave on the floor laminating film, and Insulation material is cut and laminated to a predetermined area to block the external discharge of moisture, cold air and heat source on the silver foil material; A first waterproof adhesive, which is a double-sided adhesive tape attached over the outermost edge of the insulation; Waterproof vinyl and laminated to be cut by a predetermined area to be waterproof and attached to the insulating material with the first waterproof adhesive therebetween; A second waterproof adhesive which is a double-sided adhesive tape attached to an edge of the waterproof vinyl to be waterproof; Hot plate bottom vinyl which is attached to the waterproof vinyl by a second waterproof adhesive and cut and formed in a predetermined area; A three-phase copper wire formed by arranging copper plates of thin plates formed in a predetermined width at a predetermined interval in parallel on the hot plate bottom vinyl; A carbon hot wire which is formed by stacking the three-phase copper wires in parallel in two groups, A silver liquid coating layer coated with liquid silver in order to precisely adhere to the end portion of the carbon heating wire and the contact portion on the three-phase copper wire; An upper laminator film laminated to protect the carbon hot wire attached to the three phase copper wire with liquid silver; In order to block external moisture on the upper laminator film, a bottom laminator film, a silver foil, a heat insulating material, a first waterproof adhesive, a waterproof vinyl, a second waterproof adhesive, a bottom hot plate vinyl, and an upper laminating film are stacked in that order at high temperature. Film boiler, characterized in that consisting of a configuration including a waterproof film laminated by. The film of claim 1, wherein the three-phase copper wire is disposed at regular intervals with three rows of copper wires, among which the copper wires have a wider width than the other two copper wires to contact the two groups of carbon heating wire ends. Boiler. Step to place the floor laminating film is cut to a certain area (S10), Stacking the silver laminating material on the bottom laminating film to block harmful waves such as water vein waves (S20); Blocking the divergence of the heat source to the outside by interposing a heat insulating material on the upper silver foil material (S30), By attaching the first and second waterproof adhesives on both sides of the waterproof vinyl laminated on the heat insulating material, the three-phase copper wires connected by electric wires on the heat insulating material, the hot plate bottom vinyl and the hot plate bottom vinyl attached in triplicate are arranged in three rows at a predetermined interval. Step S40,  Connecting a plurality of carbon heating wires to the two phases between the three-phase copper wires (S50), Applying liquid silver for hermetic contact with the three-phase copper wire on the carbon heating wire (S60); Attaching the upper laminator film, the heat insulating material, and the double-sided adhesive tape at a high temperature of 140 ° after applying the liquid silver (S70); The film boiler manufacturing method characterized in that it is produced by the step of laminating the waterproof film so as to lay on the laminator film automatically laminated (S80).

Images