KR101608309B1 - Order type Seat Thermic rays - Google Patents

Abstract

The present invention relates to an order type seat hot wire. More particularly, the order type seat hot wire comprises a center core part (10); an outer core part (20) which is circumscribed with the outer surface of the center core part (10) and surrounds it; and an insulating sheathing (30). The integration level of the seat hot wire is increased. Damage to appearance due to an external force is minimized. Durability and reliability is improved.

Description

Order type Seat Thermic rays

More specifically, the structure of the inner conductor constituting the sheet heating line is circumferentially arranged in a circumscribed relation with respect to the center core line, and is arranged in parallel so that the degree of integration is increased, and the outer shape damage caused by the external force is minimized And which has constant densities and a constant resistance, thereby improving durability and reliability.

Generally, a heat wire refers to a resistance wire for heating at a high temperature using electricity. There are general heat wire of PVC coating used for electric plates, electric furnace, jade mat and silicone heat wire with silicone as outer cover. There are various kinds of wiring such as household appliance, electric appliance wiring (eg rice cooker, rice cooker, , Electricity, and electronics), lighting fixtures, and automotive electrical products.

Here, the hot-wire cable embedded in a seat of an automobile is arranged in a staggered manner on the mounting surface to form a nonwoven fabric as a whole, thereby providing a substantial surface heating element.

A conventional hot-wire cable has a structure in which a plurality of hot wires formed by a conductor core wire and an insulating sheath surrounding the conductor core wire are piled up in a bundle shape.

However, there is a weak point that a hot wire cable having a structure in which hot wires are merely gathered in a bundle shape is often broken due to separation of some hot wire strands from a bundle at a bending point in a cable arrangement operation. There is a risk that the hot wire cable may overheat and cause a fire when a disconnection occurs.

On the other hand, the hot-wire cable should be given high tensile strength because it is bent and arranged so that the zig-zag pattern is repeatedly used. In order to prevent the cable from being damaged due to mechanical, chemical and thermal stress applied to the cable, And tackiness are required.

Korean Patent No. 10-1335599 (registered on November 26, 2013) discloses a composite structure sheet hot wire.

The above-described conventional technique includes a plurality of core wire groups each including a plurality of insulated conductors and arranged on a closed curve so as to form a space portion on the inside thereof; And a sheath surrounding the arranged plurality of core wire groups; Each of the plurality of core wires being individually coated with an insulating varnish,

Wherein the space portion is filled with inclusions composed of convoluted or twisted fibers of Vectran fibers so that the array structure of the plurality of core wire groups is fixed,

Wherein the plurality of core wire groups are closely arranged so that two adjacent core wire groups are in contact with each other so that the inclusions filled in the space portion and the sheath covering the plurality of core wire groups are isolated from each other,

The plurality of core wire groups may be three to twelve and may be twisted at a constant number of turns to form a group helix, and a silicon coating layer may be further formed on the surface of the inclusion.

However, in the above-described conventional technology, a phenomenon occurs such that a current flows through a kind of tube, and even if signal transmission is advantageous due to the skin effect, there is a problem that heat can not be generated due to the resistance inside the wire.

In addition, in the above-mentioned prior art, inclusions filled in the space portion are bent due to bending or load of the user, and the resistance value that is held first is structurally deformed, so that a certain efficiency can not be maintained with a predetermined power .

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems of the prior art, and it is an object of the present invention to provide a semiconductor device having a laminated structure in which a structure of an inner conductor is circumscribed by a circle, A stiffener is staggered in an inner conductor constituting a hot-wire for improving physical durability and reliability, so that the structure of the core wire minimizes the damage due to external force.

In order to accomplish the above object, according to the present invention, there is provided a straight line type sheet hot line comprising: An outer core wire portion formed by a plurality of core wires circumscribing and circumferentially surrounding the outer periphery of the center core wire portion; And an insulation sheath surrounding and enclosing an outer periphery of the outer core wire portion,

And the outer core wire portion is provided with a reinforcement material of Kevlar to reinforce the tensile strength.

The outermost core wire portion is further provided with an outer reinforcing material in a direction crossing the reinforcing material so as to reinforce the tensile strength. The outer core wire portion is provided with an outermost core wire portion having a plurality of outer core wires, do.

The core wire is composed of a central conductor made of an alloy such as silver, copper, nickel, iron or the like so that the resistance heated according to the current flow can be controlled, and an insulator provided on the outer circumference to increase the heating time and durability of the center conductor ,

The insulator is made of any one of urethane varnish, Teflon, and nylon.

The insulating sheath is made of any one of nylon and Teflon so that the flame retardancy and the tensile strength are high.

And an auxiliary filler material is provided in the space between the center core wire and the outer core wire to mitigate the impact.

The sheet heating line according to the present invention has the following effects.

First, since the outer core wire portion arranged regularly on the outer periphery of the center core wire portion is provided, the durability is increased,

Secondly, since the insulator can be configured to be thinner than the sheet heating wire of the conventional gathering method, the material cost is reduced, and the heat generation time is sustained outside,

Third, there is an advantage in terms of economical efficiency by improving the flame retardancy and tensile strength of the insulation sheath made of nylon or Teflon and the reinforcing material reinforcing the tensile strength at the outer core portion, and improving the safety and durability of the sheet heat.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a sectional view of a composite structure sheet hot wire according to the prior art,
FIG. 2 is a perspective view showing the outline of a square-shaped heat ray sheet according to the present invention,
3 is a cross-sectional view of a square heat-sealed sheet according to the present invention,
4 is a cross-sectional view of a square heat-line sheet according to another embodiment of the present invention.

The present invention thus constructed will be described in detail with reference to the accompanying drawings.

The straight line type sheet heating wire according to the present invention comprises a center core wire portion 10 extended to be an extension reference at the center as shown in FIG. 2; An outer core wire 20 having a plurality of core wires 21 circumscribing the outer circumference of the center core wire 10 and extending in parallel to the circumference of the center core wire 10; And an insulation sheath (30) for surrounding and insulating the outer periphery of the outer core wire (20)

The outer core wire (20) is provided with a reinforcing material (22) of Kevlar material so as to reinforce the tensile strength.

That is, the regular heating sheet heat line of the present invention is provided as a concentric strand with a laminated structure having a concentric circle. The number of concentric strands of the laminated structure is increased according to the stacking ratio.

The outer core wire portion 20 is provided with an outermost core wire portion 25 having a plurality of outer core wire portions 21 'stacked and wrapped around the outer circumferential periphery thereof. The outermost core wire portion 25 is reinforced with a tensile strength An outer reinforcing member 26 is further provided in a direction intersecting with the reinforcing member 22.

The stiffener 22 and the outer stiffener 26 are provided in the direction in which they are offset from each other, thereby preventing the outer shape of the sheet heating line from being deformed even if an external force is applied in any direction.

Such a configuration prevents frequent bending of the sheet due to external force to prevent damage to the sheet heating wire, and prevents generation of a hot spot (broken line due to bending). The structure of the reinforcement 22, the outer reinforcement 26, and the core wire 21 can increase the mechanical durability by allowing more wires to be stacked on the same cross section than in the conventional assembling method. Further, the cross section of the sheet heating wire of the present invention is provided in a circular shape.

The core wire 21 has a center conductor 21a made of an alloy of silver, copper, nickel, iron or the like so that the resistance heated according to the current flow can be controlled, and a center conductor 21b made of a metal such that the heating time and durability of the center conductor 21a are increased And an insulator 21b provided on the outer periphery,

The insulator 21b is made of any one of urethane varnish, Teflon, and nylon so as to satisfy durability and flame retardancy.

The insulator 21b prevents the fire due to the overcurrent when the stranded strand is broken in the case of the stranded strand, increases the tensile strength and durability, and insulates the center conductor 21a.

The insulating sheath 30 is made of either nylon or Teflon so that flame retardancy and tensile strength are increased. That is, the insulation sheath 30 is disposed at the outermost portion of the heating line of the sheet, so that electricity is prevented from leaking to the outside, and the inner core wire 21 is prevented from being damaged by an external force.

In addition, an auxiliary filler 15 is provided in the space between the center core portion 10 and the outer core portion 20 to mitigate the impact.

Here, the auxiliary filler 15 may be made of a flame retardant material other than the insulating sheath 30.

Hereinafter, the operation of the straight line type sheet heating wire according to the present invention will be described.

The sheet heat line of the present invention includes an outer core wire portion 20 having a center core wire portion 10 extending from the center and surrounding an outer circumference of the center core wire portion 10, And an insulation sheath 30 that surrounds and protects the outer circumference of the conductor. The cross section of the insulation sheath 30 may include a core wire 21 laminated in a circular shape as a whole ).

Due to such a configuration, the strict heating of the sheet heating wire of the regular type increases the resistance and becomes constant, facilitates the installation of the sheet heating wire, and improves the mechanical durability.

The center core wire 10 is constructed in the same manner as the core wire 21 of the outer core wire 20,

The core wire 21 is composed of a center conductor 21a at the center and an insulator 21b provided at the outer circumference of the center conductor 21a to increase the heating time and durability.

The outer core wire portion 20 provided at the outer circumference of the center core wire portion 10 is enclosed by a plurality of the core wires 21 extending in parallel to the center core wire portion 10.

The core wire 21 and the Kevlar reinforcing material 22 are provided on the outer core wire 20 and the diameter of the reinforcing material 22 is the same as that of the core wire 21, A certain number of fibers are formed and the tensile strength is increased.

The outer core wire portion 20 is further provided with an outermost core wire portion 25 disposed to be overlapped with the outer core wire portion 20 so as to determine the diameter of the sheet heating wire. An outer reinforcing member 26 made of Kevlar is provided.

On the other hand, the reinforcing member 22 and the outer reinforcing member 26 are symmetrically provided to protect the sheet heating line as a whole.

In addition, the insulating sheath 30 of the regular heating type sheet heater is made of nylon or Teflon, so that flame retardancy and tensile strength are increased.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

Description of the Related Art
10: center core portion 15: auxiliary filler
20: outer core wire 21: core wire
21 ': outer core wire 21a: center conductor
21b: Insulator 22: Stiffener
25: Outermost core wire portion 26: Outer stiffener
30: Insulated sheath

Claims (5)

A central core portion 10 extended to be an extension reference from the center;
An outer core wire 20 having a plurality of core wires 21 circumscribing the outer circumference of the center core wire 10 and extending in parallel to the circumference of the center core wire 10;
And an insulation sheath (30) for surrounding and insulating the outer periphery of the outer core wire (20)
Wherein the outer core wire (20) is provided with a reinforcing material (22) of Kevlar material so as to reinforce the tensile strength. The method according to claim 1,
The outer core wire portion 20 is provided with an outermost core wire portion 25 having a plurality of outer core wires 21 '
Wherein the outermost core wire portion (25) is further provided with an outer reinforcing material (26) in a direction crossing the reinforcing material (22) so as to reinforce tensile strength. The method according to claim 1,
The core wire (21)
A center conductor 21a made of an alloy of silver, copper, nickel, iron or the like so as to control the resistance heated according to the current flow,
And an insulator 21b provided on an outer circumference of the center conductor 21a so as to increase the heat generation time and durability of the center conductor 21a,
Wherein the insulator (21b) is made of one of urethane varnish, Teflon, and nylon. The method according to claim 1,
Wherein the insulating sheath (30) is made of any one of nylon and Teflon so that flame retardancy and tensile strength are high. The method according to claim 1,
Wherein an auxiliary filler (15) for relieving an impact is further provided in the space between the center core wire (10) and the outer core wire (20).

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