KR101223149B1 - Radiation heat wire for preventing generation of electric field and magnetic field for householde electric appliance - Google Patents

Abstract

The object of the present invention is not only simple structure, but also by extrusion molding of PVC to form a second insulating layer and then cooled by water to improve the productivity, it is possible to prevent the generation of electric and magnetic fields, Since the structure is simple, the present invention provides a heating wire that prevents generation of electric and magnetic fields for electric appliances that can reduce manufacturing costs.
The heating wire for preventing the generation of electric and magnetic fields for electric appliances of the present invention comprises: a polyester yarn bundle 40 made of a plurality of polyester yarns having a thickness of 1,000 to 3,000 deniers; It is wound in a spiral shape at a predetermined interval on the outer circumferential surface of the polyester yarn bundle 40 and generates heat as the current flows when the power is applied, and when the temperature reaches a specific temperature, the resistance value increases to block the flow of the current. Copper-coated steel wire (50); A first insulating layer 60 which covers an outer circumferential surface of the copper-clad steel wire 50 by extrusion molding any one selected from synthetic resin, teflon, nylon or polypropylene to block leakage of current; The first insulating layer 60 is electrically connected to the other end of the copper stripped wire 50 to absorb and shield a magnetic field generated in a direction perpendicular to the flow direction of the current flowing in the copper stripped steel wire 50 when power is applied. A copper wire (70) wound on the outer circumferential surface of the spiral spiral in a direction opposite to the winding direction of the copper-clad steel wire (50); An aluminum thin film (80) covering the outer circumferential surface of the copper wire (70) to be contacted by the polypropylene layer (86) and at the same time bypassing electromagnetic waves generated by grounding to ground; A ground wire 90 wound spirally on the outer circumferential surface of the aluminum thin film 80 and grounded together with the aluminum thin film 80; And a second insulating layer 100 formed on the outer circumferential surface of the ground wire 90 by extrusion molding to block leakage of current.

Description

Heated wire to prevent the generation of electric and magnetic fields for electric appliances {RADIATION HEAT WIRE FOR PREVENTING GENERATION OF ELECTRIC FIELD AND MAGNETIC FIELD FOR HOUSEHOLDE ELECTRIC APPLIANCE}

The present invention relates to a heating wire that prevents the generation of electric and magnetic fields for electric appliances, and in particular, can improve productivity, prevent the occurrence of electric and magnetic fields, and prevent the occurrence of fire due to overheating of electric appliances. The present invention relates to a heating wire that prevents the generation of electric and magnetic fields for electric appliances that can be prevented and can reduce manufacturing costs.

As a non-magnetic heating wire widely used in the prior art, it is disclosed in Korean Utility Model Registration No. 20-0168362 (Registration Date; November 09, 1999), which the applicant has applied for and registered.

The magnetic field heating wire disclosed in the Republic of Korea Utility Model Registration No. 20-0168362 is extruded by Teflon to have a plurality of strands of twisted copper wire 10 and a specific dielectric breakdown voltage, as shown in FIG. The first teflon layer 12 covering the copper wire 10 and the second teflon layer extruded with teflon on the outer circumferential surface of the first teflon layer 12 to increase the dielectric breakdown voltage of the first teflon layer 12. (14), and a heat generator (16) wound in a spiral shape on the second Teflon layer (14) to absorb heat and to release heat from the magnetic field emitted from the copper wire (10) when power is applied; While fixing the position of the heating element 16, and asbestos braided layer 18 braided asbestos on the heating element 16 to block a part of the heat generated from the heating element 16, and the asbestos braided layer ( 18) into an insulating layer 20 to be insulated by extrusion with silicon rubber Consists of.

In the above description, the copper wire 10 is a twisted wire twisted from 5 to 10 strands having a diameter of 0.2 mm to 0.5 mm and plated with tin on the outer circumferential surface thereof, and the asbestos braided layer 18 uses glass yarn (glass fiber). The insulating layer 20 is made of silicone rubber.

However, the conventional magnetic field-less heating wire configured as described above is extruded and made of teflon, so that the first and second teflon layers 12 and 14 are coated on the copper wire 10. 절연 An insulation breakdown voltage of 2000 V or more is generated, and the second Teflon layer 14 generates an insulation breakdown voltage of AC 10 kPa and 2000 V or more, and not only can withstand a total voltage of approximately AC 10 kPa and 4000 V or more, but also the second Teflon. The asbestos braided layer 18 is braided with glass yarn (glass fiber) on the heat generating element 16 wound in a spiral shape on the layer 14, and the heat generating element 16 made of nichrome wire by this asbestos braided layer 18 is formed. ) Is fixed.

Accordingly, when the silicone rubber is extruded onto the heating element 16 and coated with an insulator, the heating element 16 wound on the second Teflon layer 14 in a spiral shape by the extrusion force is pushed to one side. In order to prevent the occurrence of defective products during the manufacture of the magnetic field-free heating wire, the production yield can be improved, and the heat generated from the heating element 16 is transferred to the insulating layer 20 through the asbestos braided layer 18. Heat can be indirectly transferred to prevent the insulation layer 20 from being degraded by heat, thereby extending the life of the magnetic field-free wire and extending the lifespan of the non-magnetic heating wire in a spiral shape on the second Teflon layer 14. ) Is wound, so that even when power is applied between the copper wire 10 and the heating element 16, the magnetic field emitted from the copper wire 10 is absorbed by the heating element 16 so that the magnetic field does not leak to the outside. .

However, the conventional non-magnetic heating wire configured as described above has an expensive first and second teflon layers, and also includes an asbestos braided layer and an insulating layer, so that manufacturing costs cannot be reduced. When excessively heated, the dummyster connected in series to the heating wire is short-circuited to cut off the flow of current to the heating wire to prevent the occurrence of fire, and also to prevent the occurrence of fire in the event of the dummyster failure. It is possible to reduce the manufacturing cost of electric mat stone bed using heating wires by installing a plurality of temperature detecting elements in the heating device to detect the temperature of heat radiated from the heating wires and output them to a controller (not shown) to prevent current from flowing in the heating wires. There were various problems such as no.

The present invention is to solve the problems of the prior art as described above, an object of the present invention is to provide a heating wire to prevent the generation of electric and magnetic fields for electric appliances that can improve the productivity.

Still another object of the present invention is to provide a heating wire for preventing generation of an electric field and a magnetic field for an electric appliance that can prevent generation of an electric field and a magnetic field.

Still another object of the present invention is to provide a heating wire which prevents the generation of an electric field and a magnetic field for an electric appliance that can prevent the occurrence of a fire due to overheating of the electric appliance.

Still another object of the present invention is to provide a heating wire for preventing generation of electric and magnetic fields for electric appliances, which can reduce manufacturing costs.

The present invention has been made to achieve the above object, the heating wire for preventing the generation of the electric and magnetic field for the electric appliance of the present invention is a polyester yarn bundle consisting of a plurality of polyester yarns having a thickness of 1,000 to 3,000 denier ; The copper coils are wound in a spiral shape at regular intervals on the outer circumferential surface of the polyester yarn bundle and generate heat as current flows when the power is applied. ; A first insulating layer covering the outer circumferential surface of the copper-clad steel wire by extrusion molding any one selected from synthetic resin, teflon, nylon or polypropylene to block leakage of current; Winding of the copper-clad steel wire on the outer circumferential surface of the first insulating layer so as to be electrically connected to the other end of the copper-coated steel wire to absorb and shield a magnetic field generated in a direction perpendicular to the flow direction of the current flowing in the copper-coated steel wire when power is applied. A copper wire wound in a spiral shape opposite to the direction; An aluminum thin film covering the outer circumferential surface of the copper wire to be contacted by a polypropylene layer and at the same time bypassing electromagnetic waves generated by grounding to ground; A ground wire wound spirally on an outer circumferential surface of the aluminum thin film and grounded together with the aluminum thin film; And a second insulating layer formed on the outer circumferential surface of the ground wire by extrusion molding to block leakage of current.

According to the heating wire for preventing the generation of electric and magnetic fields for electric appliances of the present invention, it is possible to improve productivity, to prevent the generation of electric and magnetic fields, and to prevent the occurrence of fire due to overheating of the electric appliances. At the same time, there is an excellent effect of reducing the manufacturing cost.

1 is a perspective view schematically showing a conventional magnetic field-free heating wire.
2 is a perspective view schematically showing a heating line for preventing generation of an electric field and a magnetic field for an electric appliance according to an embodiment of the present invention.
3 is a longitudinal cross-sectional view of an aluminum thin film applied to a heating line for preventing generation of electric and magnetic fields for electric appliances according to an embodiment of the present invention.

With reference to the accompanying drawings, a heating wire for preventing the generation of electric and magnetic fields for electric appliances according to an embodiment of the present invention will be described in detail.

2 and 3, the heating wire for preventing generation of electric and magnetic fields for an electric appliance according to an embodiment of the present invention is a polyester made of a plurality of strands of polyester yarn having a thickness of 1,000 to 3,000 deniers. The yarn bundle 40 and the outer circumferential surface of the polyester yarn bundle 40 are wound in a spiral shape at a predetermined interval, and generate heat as a current flows when power is applied, and generates a specific temperature (for example, 60 ° C.). The 60 ° C may be variable by design), and the copper-clad steel wire 50 having a resistance value is increased to block the flow of current, and any one selected from synthetic resin, Teflon, nylon or polypropylene is extruded. The first insulating layer 60 covering the outer circumferential surface of the copper-clad steel wire 50 by molding to block leakage of current, and electrically contacting the other end (right end in FIG. 2) of the copper-coated steel wire 50. Winding the copper strip 50 on the outer circumferential surface of the first insulating layer 60 so as to absorb and shield the magnetic field generated in a direction perpendicular to the flow direction of the current flowing in the copper strip 50 when the power is applied. The copper wire 70 wound in a spiral shape opposite to the direction and the outer circumferential surface of the copper wire 70 are covered by the polypropylene layer 86 and at the same time, the electromagnetic wave generated by grounding one side is grounded. An aluminum thin film 80 passing through, a ground wire 90 wound in a spiral shape on the outer circumferential surface of the aluminum thin film 80 and grounded together with the aluminum thin film 80, and polyvinyl on the outer circumferential surface of the ground line 90 Chloride) is formed by extrusion molding and includes a second insulating layer 100 to block leakage of current.

  The copper-coated steel wire 50 is made of a wire having a PTC (Positive Temperature Coefficient) temperature coefficient, the resistance of which increases with increasing heating temperature upon application of power, so that the conductivity is high, the tensile strength is high, and the elongation is small. Copper (copper) is coated on the outer circumferential surface of the steel wire in a certain thickness.

The first insulating layer 60 may cover the outer circumferential surface of the copper-clad steel wire 50 by extrusion molding any one selected from synthetic resin, Teflon, nylon, or polypropylene, and the copper-coated steel wire 50 with an insulating tape. ) May be coated.

The aluminum thin film 80 is composed of a polypropylene layer 86, an adhesive layer 84 applied on the polypropylene layer 86, and an aluminum thin plate 82 adhered to the adhesive layer 84. It is.

Next, the operation of the heating wire for preventing the generation of the electric and magnetic fields for electric appliances according to the embodiment of the present invention configured as described above will be described.

First, when the right end of the copper-coated steel wire 50 and the right end of the copper-wire 70 are electrically connected (see FIG. 2), when power is applied to the copper-coated steel wire 50, the winding direction of the copper-coated steel wire 50 is applied. And since the winding direction of the copper wire 70 is wound in the opposite direction, as the current flows from the copper steel wire 50 toward the copper wire 70 to radiate heat in the copper steel wire (50).

Accordingly, the magnetic fields radiated in the vertical direction with respect to the current flowing through the copper wires 50 are absorbed (attenuated) by the magnetic fields radiated in the vertical direction with respect to the current direction flowing through the copper wire 70, thereby absorbing magnetic fields harmful to the human body. Or offset so that no magnetic field is generated.

In addition, since the outer circumferential surface of the copper wire 70 is insulated by the polypropylene layer 86 of the aluminum thin film 80, leakage of current is blocked when power is applied to the copper strip 50 and the copper wire 70. In addition, the aluminum thin plate 82 of the aluminum thin film 80 wound around the outer circumferential surface of the copper wire 70 is wound toward the outer side, and the ground wire 90 is formed on the outer circumferential surface of the aluminum thin plate 82 of the aluminum thin film 80. ) Is wound in a spiral shape, and the ground wire 90 is grounded together with the aluminum thin plate 82 of the aluminum thin film 80, so that an electric field harmful to a human body is caused by the aluminum thin plate 82 of the aluminum thin film 80. And the electric field harmful to the human body is bypassed to the ground through the ground wire 90 is not radiated to the outside of the heating wire to prevent the generation of the electric and magnetic field for the electric appliance of the present invention.

In addition, since the second insulating layer 100 formed by extruding polyvinyl chloride (PVC) is disposed on the outer circumferential surface of the ground wire 90, a current flows outside the heating wire to prevent generation of electric and magnetic fields for electric appliances of the present invention. To prevent leakage.

The copper-coated steel wire 50 wound in a spiral shape at regular intervals on the outer circumferential surface of the polyester yarn bundle 40 generates heat as current flows when power is applied, thereby increasing the resistance when the temperature reaches a specific temperature. Since it is a wire with a temperature coefficient, at a certain temperature (for example, 60 ° C., which temperature may vary due to the design change of the copper-clad steel 50), the resistance value increases to reduce the flow of current, or It is possible to prevent the occurrence of fire by blocking the outer circumferential surface of the copper-clad steel wire 50 is coated with any one selected from synthetic resin, Teflon, nylon or polypropylene by the first insulating layer 60 extruded as well as A ground wire 90 made of copper wire is coated on the outer surface of the aluminum thin film 82 of the aluminum thin film 80 in a spiral shape, and PVC is extruded on the outside of the ground wire 90. 2 because it is covered with the insulating layer 100, and may further prevent the leakage of current it can be prevented occurrence of a fire.

In addition, the heating wire for preventing the generation of electric and magnetic fields for electric appliances of the present invention uses the copper-clad steel wire 50 serving as a heating element, so that the conductivity is high, the tensile strength is large, and the elongation is very small.

The heating wire for preventing the generation of the electric field and magnetic field for electric appliances of the present invention can be used for electric plates, electric blankets, electric blankets, stone bed heating plate, electric card, electric mat or heating plate for indoor insulation.

Therefore, the heating wire for preventing the generation of the electric field and magnetic field for the electric appliance of the present invention is simple in structure, and the synthetic resin, while winding the copper-coated steel wire 50 at a constant pitch on the outer circumferential surface of the polyester yarn bundle 40, The outer circumferential surface of the copper-clad steel wire 50 is covered with a first insulating layer 60 extruded from any one selected from teflon, nylon, or polypropylene, and the copper wire 70 is formed on the outer circumferential surface of the first insulating layer 60. It is wound in a spiral shape at regular intervals from each other, and the outer circumferential surface of the copper wire 70 is coated so that the polypropylene layer 86 of the aluminum thin film 80 comes into contact with each other, and the aluminum thin plate 82 of the aluminum thin film 80 The ground wire 90 is spirally coated on the side surface, and is manufactured by coating the second insulating layer 100 extruded with PVC on the outside of the ground wire 90, thereby improving productivity, and improving electric and magnetic fields. Of As well as to prevent the production, at the same time and that can prevent the occurrence of fire due to overheating of electrical appliances, because it has a simple structure to reduce the production cost.

In the above description, the specific embodiments have been shown and described, but the present invention is not limited thereto, for example, by those skilled in the art without departing from the concept of the present invention. Not only can the design be changed in various ways, but also the design change is included in the concept of the present invention.

40: Polyester thread bundle 50: Copper wire
60: first insulating layer 70: copper wire
80: aluminum thin film 82: aluminum thin plate
84: adhesive layer 86: polypropylene layer
90: ground wire (copper wire) 100: second insulating layer

Claims (2)

A polyester yarn bundle 40 consisting of a plurality of polyester yarns having a thickness of 1,000 to 3,000 deniers; It is wound in a spiral shape at a predetermined interval on the outer circumferential surface of the polyester yarn bundle 40 and generates heat as the current flows when the power is applied, and when the temperature reaches a specific temperature, the resistance value increases to block the flow of the current. Copper-coated steel wire (50); A first insulating layer 60 which covers an outer circumferential surface of the copper-clad steel wire 50 by extrusion molding any one selected from synthetic resin, teflon, nylon or polypropylene to block leakage of current; The first insulating layer 60 is electrically connected to the other end of the copper stripped wire 50 to absorb and shield a magnetic field generated in a direction perpendicular to the flow direction of the current flowing in the copper stripped steel wire 50 when power is applied. A copper wire (70) wound on the outer circumferential surface of the spiral spiral in a direction opposite to the winding direction of the copper-clad steel wire (50); An aluminum thin film (80) covering the outer circumferential surface of the copper wire (70) to be contacted by the polypropylene layer (86) and at the same time bypassing electromagnetic waves generated by grounding to ground; A ground wire 90 wound spirally on the outer circumferential surface of the aluminum thin film 80 and grounded together with the aluminum thin film 80; And a second insulating layer 100 formed on the outer circumferential surface of the ground wire 90 by extrusion molding to block leakage of current.
The aluminum thin film 80 is composed of a polypropylene layer 86, an adhesive layer 84 applied on the polypropylene layer 86, and an aluminum thin plate 82 adhered to the adhesive layer 84. A heating wire for preventing generation of electric and magnetic fields for electric appliances. delete

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