KR102000112B1 - Shield type multi-layer Composite Thermic rays - Google Patents

Abstract

The present invention relates to a shield type multi-layered composite heating wire, and more specifically, relates to the shield type multi-layered composite heating wire comprising: a center core wire part (10) extending in the center; an outer circumference core wire part (20) provided with a plurality of core wire groups (C) extending in a spiral structure so as to surround an outer circumference of the center core wire part (10); and an insulation sheath (30) surrounding an outer circumference of the outer circumference core wire part (20) such that the center core wire part (10) and the outer circumference core wire part (20) are insulated from the outside. Thus, the degree of integration of the shield type multi-layered composite heating wire can be increased, the damage due to external force can be minimized, and the shield type multi-layered composite heating wire can have constant resistance by the uniform density, and improved durability.

Description

Shield type multi-layer Composite Thermic rays}

The present invention relates to a shield-type multilayered composite heating wire, and more particularly, by forming a shield core group consisting of an outer core wire circumscribed in a spiral structure on the outer periphery of the inner core wire, thereby increasing the degree of integration and minimizing external damage caused by external force. The present invention relates to a shield type multilayer composite heating wire having improved durability and tensile strength.

In general, the heating wire is mainly used for high-temperature heating using electricity in the wiring of home appliances, electrical appliances (eg, rice cookers, rice bowls, boilers, electricity, electronics, etc.), lighting equipment, and automobile seats.

Here, the heating wire cable embedded in the seat of the vehicle has a structure in which a plurality of conductor core wires individually coated with a bundle of heating wire strands coated with an insulating material and then wrapped in a covering material, and made of a flameproof nonwoven fabric or the like. It is arranged in a zigzag on the surface to form a surface heating element

In addition, the hot wire cable should be excellent in mechanical properties such as tensile strength, flex resistance, and the like to prevent damage from mechanical, chemical, and thermal stress caused by the load of the passenger and the body vibration.

As a related art, Korean Patent Publication No. 10-1394415 (2014.05.07.) Discloses a hot wire cable having excellent bending resistance.

In the prior art, as shown in Figure 1, by twisting a plurality of heating wires formed by twisting a plurality of conductive wires made of alloy with each other to wrap around the reference to the center line to increase the tensile force to cover the outside with an insulating material As the hot wire cable to be constructed, the individual cored wires 10 plated with the same plated member 14 on the conductor core 12 plated with the plated member 14 are twisted with 6 strands around the core line 12. The six strands of the individual plated heating wire 10 and the conductor core 12 constitute the first hot wire assembly member 20 constituting the bundle of stranded bundles, and the six strands of the first hot wire assembly member 20 further increase the bending resistance. A gap between strands of the first hot wire assembly member 20 constituting the second hot wire composite part 30 by constituting the second hot wire composite part 30 twisted about the second central axis 34. The hot wire cable by covering the second hot wire composite portion 30 with the fluorine resin sheath 40 so as to be filled in the It shall be composed,

The first hot wire assembly member 20 is twisted so as to distribute the load by increasing the number of sets in a state where the diameter of the individual plating hot wire 10 is formed to a thin thickness of 0.06 mm or less, and the first hot wire assembly member 20 ) Strands are reinforced so that the load is distributed in a double manner so that the strands are not twisted and wrapped around the second central axis 34 of the second heat ray composite part 30 in a rope manner. The first hot wire assembly member 20 is twisted such that at least one of the strands of the individual plated hot wire 10 is disposed at the center of the first central axis C of the first hot wire assembly member 20 to increase the bending resistance. Losing; The conductor core wire 12 of the individual plating hot wire 10 is formed of a copper alloy having a tensile strength range of 600 to 1,400 N / mm 2 and an electric conductivity range of 15 to 90% to have tensile strength and bending resistance; The plating member 14 of the individual plating hot wire 10 is made of any one of high heat-resistant tin or silver of 150 ℃ or more; The second central axis 34 of the second heat ray composite portion 30 is made of aramid fiber which is a tensile reinforcing yarn; The fluororesin 40 is characterized in that it is formed of FEP or PFA.

However, in the above-described conventional technology, the shape of the inclusions forming the second central axis 34 of the second heat ray composite part 30 is changed by bending or the load of the user, and the resistance value that was initially maintained is structurally deformed. There was a problem that causes disconnection and fire due to the generation of the generated hot spots (HOT SPOT).

The present invention was created to solve the problems of the prior art as described above is an object of the present invention is provided with an outer peripheral core wire portion is uniformly wound around the outer peripheral edge of the central core portion made of a shield core group, between the core wire portion Filled with a plastic flame retardant or SUS, to provide a shield-type multilayer composite heating wire with improved durability, flame retardancy and flex resistance.

Shield type multilayer composite heating wire according to the present invention for achieving the above object is a composite heating wire formed by the core group consisting of a plurality of heating conductors adjacent to each other, the central core extending in the center and the outer peripheral edge of the central core It consists of an outer periphery core part having a plurality of core groups extending in a spiral structure to wrap, and an insulation sheath surrounding the outer periphery of the outer core core part so that the central core part and the outer core core part is insulated from the outside,

The core group is composed of a plurality of outer core wires extending in a spiral structure surrounding the axial core wire extending in a straight line and the outer periphery of the shaft core wire,

The axial line is composed of a center conductor made of an alloy of silver, copper, nickel, iron and the like, and a varnish surrounding the outer circumference of the center conductor, wherein the varnish is made of any one material of urethane, teflon and nylon. It is done.

The central core portion is characterized in that it is made of any one of the core group or the central reinforcing material of the SUS material.

The insulation sheath is made of any one of nylon, Teflon, and peak polymer to increase the flame retardancy and tensile strength, the outer core is made of a central conductor extending in the center, and a varnish surrounding the outer periphery of the central conductor, the varnish The urethane, Teflon, nylon, characterized in that made of any one material.

The outer periphery of the outer peripheral core portion is provided with the outermost core portion extending so that the core group has a double layer around the central core portion, characterized in that the core wire reinforcement of SUS material is provided between the shaft core and the outer core line. .

The space between the central core portion and the outer peripheral core portion is characterized in that it is filled with a secondary filler made of a porous plastic flame retardant to reduce the impact and enhance the flame retardancy.

The outer core is characterized in that the reinforcement 46 of the Kevlar material is provided so that the tensile strength is reinforced.

Such a shield type multilayer composite heating wire according to the present invention has the following effects.

First, the core group consists of an outer core that wraps the outer periphery of the axial core in a spiral structure, and a plurality of core groups extend in a spiral structure based on the central core to form a composite heating wire, thereby increasing the tensile strength of the composite heating wire. Durability is improved,

Second, the axial core wire is made of a varnish surrounding the outer conductor of the hot conductor and the hot conductor, the varnish is made of any one material of urethane, Teflon, nylon, thereby preventing damage or disconnection due to external impact , Thermal conductivity is improved,

Third, at least one pair of outer cores surrounding the outer periphery of the axial core is made of a kevlar material so that the tensile strength of the hot conductor is reinforced, thereby enhancing the tensile strength and the flexural strength of the composite hot wire,

Fourth, by filling the auxiliary filler made of plastic flame retardant using purified water sludge in the space between the central core part and the outer core core part, the plastic flame retardant is produced by the hydroxyl group (-OH) in the event of a fire to prevent the occurrence of fire of the composite heating wire This is enhanced and has a beneficial effect on health.

1 is a cross-sectional view of a hot wire cable having excellent bending resistance according to the prior art,
2 is a perspective view of a shield type multilayer composite heating wire according to the present invention,
3 is a plan view of a shield type multilayer composite heating wire according to the present invention,
4 is a plan view of a shield type multilayer composite heating wire according to another embodiment of the present invention.

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

Shielded multilayer composite heating wire according to the present invention, as shown in Figures 2 to 4, a core wire group (C) consisting of a plurality of heat conductors adjacent to each other formed as a composite heating wire, the central core wire portion ( 10) and the outer periphery core line 20 having a plurality of core wire groups C extending in a spiral structure to surround the outer periphery of the central core line 10, the central core line 10 and the outer periphery core It is made of an insulating sheath 30 surrounding the outer periphery of the outer peripheral core wire portion 20 so that the line portion 20 is insulated from the outside,

The core group (C) is composed of a plurality of outer core wires 45 extending in a spiral structure surrounding the outer circumference of the axial core wire 40 and the axial core wire 40 extending in a straight line, the axial core wire 40 ) Is composed of a central conductor 41 made of an alloy of silver, copper, nickel, iron, etc., and a varnish 42 surrounding the outer circumference of the central conductor 41, wherein the varnish 42 is made of urethane, Teflon, It is made of any one material of nylon.

That is, the core group (C) is wrapped around the outer periphery of the axis core line 40 in a spiral structure, the plurality of core group (C) is a spiral structure around the central core line 10 again By being provided with, the density of the heat conductor is improved and thus the tensile strength is further enhanced.

On the other hand, the central core portion 10 is made of any one of the core group (C) or the central reinforcement (A) of the SUS material. Here, the SUS material constituting the central reinforcing material (A) is made of a microfiber bundle so that chromium is contained in iron to enhance corrosion resistance and reinforce tensile strength.

The insulation sheath 30 is made of any one of nylon, teflon, and peak polymer to increase flame retardancy and tensile strength, and the outer core wire 45 has a central conductor 41 'extending in the center and the central conductor. It is made of a varnish 42 'surrounding the outer periphery of the 41', the varnish 42 'is made of any one material of urethane, Teflon, nylon.

That is, varnishes 42 and 42 'made of any one of urethane, teflon, and nylon are provided on the outer circumference of the core core 40 and the outer core 45 constituting the core group C. .

On the other hand, the outer periphery of the outer core core portion 20 is provided with the outermost core portion 25 extending so that the core group (C) to form a double layer around the central core portion 10, the axis core ( Between the core 40 and the outer core 45 is provided with a core wire reinforcement 47 made of SUS material, thereby improving the flex resistance and tensile strength to improve durability.

The space between the central core portion 10 and the outer core core portion 20 is filled with a secondary filler (15) made of a porous plastic flame retardant to mitigate impact and enhance flame retardancy. Here, the plastic flame retardant is produced by mixing the jade powder and the hydroxide flame retardant with the porous mineral material dehydrated after calcining the purified water sludge containing aluminum oxide and the alkali solution by flame reaction. Here, the alkaline solution reacts with aluminum oxide (Al ₂ O ₃ ) contained in the purified sludge to produce aluminum hydroxide (Al (OH) ₃ ) in the range of PH9 to PH11, wherein the aluminum hydroxide is a hydroxyl group during combustion ( OH ^- discharge) to thereby prevent the fire from spreading.

The outer core 45 is provided with a reinforcement 46 of the Kevlar material so that the tensile strength is reinforced. The Kevlar, which is a material of the reinforcing member 46, is a para-aromatic polyamide fiber developed by DuPont in the US, and prevents breakage due to frequent bending due to the weight of the user, and prevents breakage of the composite heating wire.

Looking at the action of the shield-type multilayer composite heating wire according to the present invention made of the above configuration as follows.

In the shielded multilayered composite heating wire of the present invention, as shown in FIGS. 2 to 4, the core group (C), which is a group of the heat conductors, surrounds the outer periphery of the axial core line 40 in a spiral structure and extends a plurality of external lines. Consisting of the core 45, the core group (C) is provided wrapped around the outer periphery of the central core line 10 in a spiral structure. At this time, the central core portion 10 is made of the core group (C) or the central reinforcing material (A) of the SUS material, the central reinforcing material (A) is made of SUS material is reinforced corrosion resistance and tensile strength.

On the other hand, the composite heating wire of the present invention consists of a central core portion 10 and the outer core portion 20 and the insulating sheath 30 surrounding the central core portion 10, the outer core portion 20 is the center The core group C extends in a spiral structure around the core portion 10 and is provided with an outermost core portion 25 extending to form a double layer, thereby improving density and physical durability.

And, between the core core 40 and the external core 45 constituting the core group (C) is provided with a core wire reinforcing material 47 made of SUS material, only the shaft core 40 and the external core 45 It will reinforce the tensile strength than if made.

Meanwhile, varnishes 42 and 42 'made of urethane, Teflon, and nylon are provided at the outer circumferences of the shaft core 40 and the outer core 45 to increase heat generation time and durability.

In addition, at least one pair of the outer core wire 45 is made of a reinforcement 46 of Kevlar material so that the tensile strength is reinforced, the reinforcement 46 is provided to be symmetrical with respect to the center conductor 41 ' The damage caused by external impact is prevented, and the tensile strength is enhanced.

On the other hand, in another embodiment, when filled with the auxiliary filler material 15 made of a porous plastic flame retardant in the space between the central core portion 10 and the outer core core portion 20 of the present invention, to prevent the occurrence of fire due to overheating You can do it. That is, the aluminum hydroxide contained in the plastic flame retardant is to perform the flame retardant and smoke suppression function.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

<Description of the symbols for the main parts of the drawings>
10: central core 15: auxiliary filler
20: outboard core line 25: outermost core line
30: insulation sheath
40: center line 41, 41 ': center conductor
42, 42 ': varnish 45: outer core
46: reinforcement 47: core reinforcement
A: Central reinforcement C: Shim Sungun

Claims (6)

In the composite heating wire formed by adjoining the core group (C) consisting of a plurality of heating conductors,
Central core line portion 10 extending in the center, the outer peripheral core line portion 20 is provided with a plurality of core group (C) extending in a spiral structure to surround the outer periphery of the central core line portion 10, and the center It is made of an insulating sheath 30 surrounding the outer periphery of the outer peripheral core wire portion 20 so that the core wire portion 10 and the outer peripheral core wire portion 20 are insulated from the outside,
The core group (C) is composed of a plurality of outer core wires 45 extending in a spiral structure surrounding the outer circumference of the axial core wire 40 and a straight line extending in a straight line,
The axial line 40 is composed of a center conductor 41 made of an alloy of silver, copper, nickel and iron, and a varnish 42 surrounding the outer periphery of the center conductor 41,
The varnish 42 is made of any one material of urethane, teflon, nylon,
The insulation sheath 30 is made of any one of nylon, Teflon, and peak polymer to increase the flame retardancy and tensile strength,
The outer core wire 45 is composed of a central conductor 41 'extending in the center and a varnish 42' surrounding the outer circumference of the central conductor 41 ', and the varnish 42' is made of urethane and teflon. Shielded multilayer composite heating wire, characterized in that made of any one material of nylon. The method of claim 1,
The central core part 10 is shield type multilayer composite heating wire, characterized in that made of any one of the core group (C) or the central reinforcement (A) of the SUS material. delete The method of claim 1,
The outer periphery of the outer core core portion 20 is provided with the outermost core portion 25 extending so that the core group (C) to form a double layer around the central core portion 10,
Shield type multilayer composite heating wire, characterized in that the core wire reinforcing material 47 is provided between the shaft core wire 40 and the outer core wire 45. The method of claim 1,
Shield type multilayer sheet heating wire, characterized in that the space between the central core wire portion 10 and the outer peripheral core wire portion 20 is filled with a secondary filler (15) made of a porous plastic flame retardant to mitigate impact and enhance flame retardancy. The method of claim 1,
The outer core wire 45 is shield type multilayer composite heating wire, characterized in that the reinforcing material 46 of the Kevlar material is provided so that the tensile strength is reinforced.

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