KR101386943B1 - Manufacturing method of heating cable - Google Patents

Abstract

The present invention relates to a heating wire manufacturing method that is thinner and more flexible than a spun yarn, and can prevent an electric accident. The heating wire manufacturing method according to the present invention uses a shielding device and a winding device, and the core of the core wire is formed outside the heating wire (core wire). Winding the step, using the coating liquid tank, coating the hot wire wound around the core and using a drying furnace, characterized in that it comprises the step of drying the hot wire.

Description

Manufacturing method of heating wire {Manufacturing method of heating cable}

The present invention relates to a heating element using a heating wire and a heating wire, and more particularly, provides a heating wire manufacturing method that is thinner and more flexible than a yarn, and prevents an electrical safety accident. It's about technology.

In general, a core wire used in a heating element such as an electric blanket, an electric yoke, or a mat for heating is formed of a core wire made of polyester yarn or glass wool and a heater coil spirally wound on the core wire, and insulation is provided around the heater coil. And an inner insulator exposed for the purpose of protection, a shield wired and grounded on the outer circumferential surface of the inner insulator, and an outer insulator coated on the shield.

Both ends of the heating wire configuration includes a power input terminal electrically connected.

Conventionally, electric fields and induction magnetic fields are generated as the heating wires are energized, and these electromagnetic waves adversely affect the human body. For example, when used in bedding materials in which the heating element and the human body come into contact with each other, there is a problem.

In addition, the heating element using a conventional heating wire has a number of configurations, such as the inner insulator and the outer insulator, it is difficult to sew into thin fibers according to the thickness, that is, the size of the diameter, even if fixed to the fiber, the position of the heating wire is clearly known. It protruded to the extent that inconvenience of use occurred.

In addition, there is a problem that the insulation is low, there is a problem that the heat resistance temperature is lowered as the insulator is formed to ensure the insulation, the power consumption is increased accordingly.

The electromagnetic wave blocking heating wire (described in Patent Document 1) described in Republic of Korea Patent Publication No. 10-0553814 (February 14, 2006) that is the background of the present invention, Patent Document 1 is a thin film for electromagnetic wave blocking Forming a layer, a coating layer, etc. causes a problem in that the manufacturing cost is high and the manufacturing method is also complicated.

Accordingly, the present invention provides a method of manufacturing a heating wire that is thinner and more flexible than a spun yarn and can prevent an electric accident, and proposes a method of forming various heating elements by using the heating wire.

Republic of Korea Patent Publication No. 10-0553814B1, 2006. 02. 14, page 7, lines 27 to 29.

The present invention has been proposed to solve the above conventional problems,

An object of the method for manufacturing a heating wire according to the present invention is to provide a method for manufacturing a heating wire, the overall diameter is small and flexible, easy to sew in textile fabric, the generation of electromagnetic waves is minimized.

Another object is to wind the insulation chamber around a core having a thin thickness and formed of at least one strand to prevent loosening during processing and to increase the breakdown voltage.

Another purpose is to secure the flexibility of the hot wire, and to coat.

Another object is to adjust the drying temperature according to the material of the hot wire coating.

Still another object is to mix the far-infrared radiation substance or anion generating substance with the coating solution to improve the function of the heating radiation.

Method for manufacturing a heating wire according to the present invention using a winding device, winding the insulation chamber on the outside of the heating wire (core wire), using the coating liquid tank, coating the heating wire wound the insulation chamber and drying furnace By using, characterized in that it comprises the step of drying the hot wire.

Another method of manufacturing a heating wire according to the present invention using the coating liquid tank, coating the heating wire (core wire), using a winding device, winding the insulation chamber on the outside of the heating wire (core wire) and using a drying furnace To, characterized in that it comprises the step of drying the hot wire.

In addition, in the heating wire manufacturing method according to the present invention, the heating wire (core wire) is formed of 3 to 20 strands of the core, the insulating chamber is Kevlar (aramid-aramide), PVA-Polyvinyl alcohol, ethylene vinyl Acetate (EVA-Ethlene Vinyl Acetate) is characterized in that it is composed of any one of the backtrans yarn, cotton yarn, poly nylon yarn.

In addition, in the heating wire manufacturing method according to the present invention, the coating of the heating wire using a coating liquid of any one of vinylon (pva), silicon, pore bond, enamel, epoxy, teflon, ethylene vinyl acetate (eva), It is characterized in that the coating is performed repeatedly one to seven times.

In addition, in the heating wire manufacturing method according to the invention, the step of drying the heating wire is characterized in that it is carried out in the drying range 200 ℃ ~ 600 ℃.

In addition, in the heating wire manufacturing method according to the invention, the step of coating the heating wire (core wire) is characterized in that it further comprises the step of mixing any one or more anion emitting material of the far-infrared material, charcoal, ceramic in the coating solution.

As described above, the heating wire manufacturing method according to the present invention is small in size and flexible as a whole, by providing a method for producing a heating wire easy to sew on textile fabric, can be applied to produce a variety of heating elements, By minimizing the occurrence, there is an effect that can improve the stability by using the heating element.

In addition, by winding the core formed in at least one strand with a thin thickness to the hot wire, it is possible to improve the heat generation of the hot wire, to prevent the loosening phenomenon during processing, to prevent the occurrence of leakage current and there is a waterproof effect.

In addition, by securing the flexibility of the heating wire, by coating in multiple, it is possible to improve the breakdown voltage and insulation, and to form a small diameter of the heating wire, to eliminate the inconvenience caused by the protrusion when contacting the human body, and to cover the protrusion It does not block heat by covering the heating wire with cotton or the like, thereby increasing heat generation efficiency and lowering power consumption. Conventional products have a low efficiency and short lifespan because the thermal insulation of the protruding cover layer is not used to know the heat well, so it is always used at the highest temperature and the mat surface temperature is low and only the hot plate temperature is high.

In addition, by controlling the drying temperature by changing the material according to the use of the heating wire, it is possible to produce a high-efficiency heating wire of various uses, it is possible to form a stable withstand voltage and insulating layer on the heating wire.

In addition, by mixing the far-infrared radiating material or anion generating material in the coating solution, there is an effect that can exhibit the function of anion and far-infrared generation during the production of a heating element using a heating line.

BRIEF DESCRIPTION OF THE DRAWINGS The figure which shows the structure of the manufacturing apparatus for implementing the heating line manufacturing method which concerns on this invention.
Figure 2 is a whole flow chart of the heating element production method using the first heating wire manufacturing method according to the present invention.
Figure 3 is a view showing the detailed flow of the step S12 of the heating wire manufacturing method according to the present invention.
Figure 4 is a whole flow chart of the heating element production method using a second heating wire manufacturing method according to the present invention.

Hereinafter, specific details for carrying out the heating wire manufacturing method according to the present invention will be described.

1 is a view showing the configuration of a heating element manufacturing apparatus 100 for implementing a heating wire manufacturing method according to the present invention, the winding device and the shield device 10, the coating liquid tank 20, the drying furnace 30, And a terminal work device 40 and a sewing device 50.

Referring to the first heating wire manufacturing method according to the present invention using the heating element manufacturing apparatus 100 as follows.

As shown in FIG. 2, the step S11 of selecting a heating wire (core wire) is performed. In the present invention, the step S11 may include three to twenty stranded strands rather than a thick single core. Preferably, the diameter of 0.1 ~ 1mm or less when used as a heating wire, there is an effect that is easy to ensure flexibility.

In addition, the hot wire according to the present invention is preferably selected or alloyed with a suitable resistance according to the use of the heating element to be produced.

Next, the step of winding the insulation chamber using the winding device and the shield device 10 is performed (S12).

In the step S12 according to the present invention, the insulation chamber has a heat resistance temperature of about 500 ℃ Kevlar (aramid-aramide), a heat resistance temperature of about 300 ℃ vinylon (PVA-Polyvinyl alcohol), heat resistance temperature of about 1000 ℃ It is preferable to use any one of a backtrans yarn, a cotton thread, nylon, and a poly yarn.

As illustrated in FIG. 3, the step S12 includes winding the heating wire in a forward direction (S121) and winding in the reverse direction (S123). In an embodiment of the present invention, an insulation chamber is formed on a core wire of 1 m. 2 to 2.7 m were wound in the forward direction, and then 3.2 m of the insulation chamber was wound up.

By performing the S12 step, it is possible to prevent the thread from loosening even when the hot wire is processed, to prevent the occurrence of leakage current, and to facilitate the sewing operation.

Next, using the coating liquid tank 20, performing a step of coating a hot wire. (S13)

In the step S13 according to the present invention, the liquid for coating the hot wire is insulating coating using any one of vinylon yarn (pva), silicon, pore bond, enamel, epoxy, teflon, ethylene vinyl acetate (eva). desirable.

In addition, the step S13 according to the present invention preferably further comprises the step of mixing any one or more anion emitting material of the far-infrared material or charcoal, ceramic in the coating solution.

That is, after winding of the insulation chamber, the coating solution and the far infrared ray, anion radiation material (charcoal, ceramics), etc. are mixed and impregnated in the heating wire or coated on the heating wire, which has the effect of producing a heating wire in which anion is generated or far-infrared radiation is emitted. will be.

In addition, in the step S13, the coating may be repeatedly performed once to seven times to improve insulation of the heating wire and to secure flexibility of the heating wire.

In addition, when the two or more insulation coating through the step S13, the waterproofing is improved, there is an effect that can be utilized for outdoor use.

Next, using the drying furnace 30, the step of drying the hot wire is performed. (S14)

The step S14 is preferably adjusted according to the material of the hot wire within the range of 200 ℃ ~ 600 ℃ in the drying furnace (30).

Through the step S14, a heating wire is manufactured, and the manufactured heating wire performs the following steps, thereby finally forming a heating element.

After the step S14, by using the terminal work device 40, performing a step (S15) of processing the terminal of the hot wire, and then, using the sewing device 50, step of sewing the hot wire (S16) ) And finally forming the heating element (S17).

The heating wire according to the present invention preferably supplies a DC power source, which is intended to minimize the generation of electromagnetic waves of the heating wire as there is no frequency in the DC power supply and there is no alternating magnetic field.

Therefore, the heating element product produced by sewing the heating wire according to the present invention is preferably equipped with a battery of a portable battery or a portable terminal, and when the portable DC power supply is mounted, the power can be easily supplied, There is an effect that can improve the convenience.

When the heating wire according to the present invention prepared in this way to sew a fiber, the heating wire prevents the phenomenon of being pushed or bent, and the outer pvc coating is cured by heat and shorted to the inner heating wire like the conventional heating wire for mat and electric sheet. It is possible to prevent the heat, and can form a heating wire having a diameter of about 0.2mm, when embedded in a thin pad or bed cover, it does not protrude, so that the user can use comfortably, good insulation, heat resistance temperature is also a conventional heating wire There is an advantage that can be formed to be significantly higher.

In addition, the heating wire according to the present invention can be used as a heating pad by sewing or knitting on the fibers, such as running, T-shirts, leggings, shawl through the step S16 as it has excellent flexibility, shoes, heating panties, ankle toe, climbing Gloves can be used in various ways.

In addition, it can be used for single seat cushion, USB seat cushion, car cushion, etc.

The low temperature heating element using the heating wire according to the present invention has the effect that heat can be quickly transmitted to the body because the heat can be generated in close proximity to the human skin, it is also effective to lower the power consumption.

4 is a flow chart showing a second heating wire manufacturing method according to the present invention, first, performing a step (S21) of selecting a heating wire according to the use of the heating wire, and then, using the coating liquid tank 20 To perform the step of coating the hot wire selected in the step S21. (S22)

In the step S22 according to the present invention, a melting furnace which melts the selected insulating material on a heating wire at an appropriate temperature, passes the heating wire into the coating liquid, and performs insulation coating at least one time, thereby improving insulation and heating the wire. It can be soft and flexible.

In addition, the step S22 according to the present invention preferably further comprises the step of mixing any one or more anion emitting material of the far-infrared material or charcoal, ceramic in the coating solution.

That is, the coating solution and the far infrared ray, anion radiation material (charcoal, ceramics), etc. before the winding of the insulation chamber is impregnated or coated on the heating wire, which is effective to produce a heating wire that generates anion or emits far infrared rays will be.

Next, using the winding device and the shield device 10, the step of winding the insulation chamber is performed (S23).

The step S23 is the same as step S12, the heat resistance temperature of about 500 ℃ Kevlar (Aramid-aramide), the heat resistance temperature of about 300 ℃ vinylon (PVA-Polyvinyl alcohol), the heat resistance temperature of about 1000 ℃ Using any one of a backtrans yarn and a cotton thread, it is preferable to include winding the heating wire in the forward direction (S121) and winding in the reverse direction (S123).

In addition, steps S24 to S27 are the same as steps S14 to S17 described in the first method for manufacturing a heating wire.

As described above, when the heating wire manufacturing method according to the present invention is applied, the overall diameter is small and flexible, it is possible to manufacture a heating wire easy to sew on the fabric fabric, the heating wire produced in this way to a variety of heating elements There is an effect that can be applied to production.

Furthermore, since the heating wire produced by the heating wire manufacturing method according to the present invention can minimize the generation of electromagnetic waves, it is possible to enjoy the effect of improving the stability according to the use of the heating element.

Although the embodiments of the present invention have been described above, the technical idea of the present invention is not limited to the above embodiments, and various heating wire manufacturing methods may be implemented in a range that does not depart from the technical idea of the present invention.

10: winding device, shield device
20: coating liquid tank
30: drying furnace
40: terminal working device
50: sewing device
100: heating element manufacturing apparatus

Claims (6)

delete (a) selecting a hot wire (core wire), wherein the hot wire (core wire) consists of a collection of 3 to 20 stranded strands, and has a diameter of 0.1 mm to 1 mm; (b) coating the heating wire (core wire) using a coating liquid tank; A method of manufacturing a heating wire, comprising: (c) winding an insulation chamber outside of a heating wire (core wire) using a shielding device and a winding device, and (d) drying the heating wire using a drying furnace:
The insulating chamber, Kevlar (Aramid-aramide), vinylon (PVA-Polyvinyl alcohol), Baektran yarn, cotton yarn, poly, nylon yarn manufacturing method characterized in that composed of any one. delete 3. The method of claim 2,
Coating the hot wire,
It is characterized in that the coating operation is repeatedly performed one to seven times using any one of a coating liquid of vinylon yarn (pva), silicone, pore bond, enamel, epoxy, teflon, ethylene vinyl acetate (eva). Heating wire manufacturing method. 3. The method of claim 2,
Drying the hot wire
Method of producing a heating wire, characterized in that carried out in a drying furnace in the range 200 ℃ ~ 600 ℃. 3. The method of claim 2,
Coating the heating wire (core wire),
Method of producing a heating wire, characterized in that it further comprises the step of mixing any one or more anion emitting material of the far-infrared material or charcoal, ceramic in the coating solution.

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