KR20130025418A - Radiator of mesh heater - Google Patents

Abstract

PURPOSE: A radiator of a hot wire mesh is provided to prevent the overheat of a hot wire. CONSTITUTION: A carrier(4) combines a warp thread(1) with a weft thread(2). A catch thread(6) surrounds the weft thread and ejects the carrier by using a latch needle(5). A frame supports the four sides of a hot wire mesh. A safety network protects the hot wire mesh.

Description

Radiator of mesh heater

The present invention relates to a hot wire radiator, and more particularly, a process of weaving the carbon wire and the functional filler by mixing the electric resistance metal wire coated with the electric resistance metal wire and the coated electric resistance metal wire as a weft yarn. And a heating wire net manufactured by impregnating the woven fabric with an electrical insulating material, a frame supporting four sides of the manufactured heating wire net, and a safety net protecting the hot wire net.

Various types of electric heaters with a built-in heating wire are used to heat an existing room. However, since the heating temperature of the heating wire of these electric heaters is high, there is a problem that there is a fear of overheating and power consumption is large.

Therefore, an object of the present invention is to planarize the structure of the electric heater to solve the problem of overheating of the heating wire.

The heat wire radiator according to the present invention for achieving the above object is a weaving machine using an electric resistance metal wire coated with an electric resistance metal wire with a glass thread or a polyester thread that is a coating thread, and the coated electric resistance metal wire as a weft yarn. The latch needle 5 which opens the warp yarn 1 in an up-and-down group by the opening motion of a heald, and the carrier 4 inserts the weft 2 by the north needle motion in the opened warp thread, and operates on the weft exit side. The carrier 4 is discharged by enclosing the weft 2 with a catch chamber 6 provided from the weft outlet side opposite to the insertion side, and pushing the weft with the body enclosed in the opening to the upright end. A fabric woven in a continuous repetition of body needle movement, a hot wire network fabricated by impregnation with an electrically insulating material on the woven fabric, and the weft of the fabric is a continuous line, the hot wire And the four sides of the supporting frame, characterized by consisting of a safety net for protecting the open purse.

The hot wire radiator according to the present invention is a planar heating element fabricated in series in a series of electrical resistance wires, so that the heat generation amount is the same even if the heat generation temperature is low as the planar heat generation area is large, so that overheating does not occur.

1 is a state diagram of a hot wire network woven with a metal wire for electrical resistance coated in accordance with the present invention.
2 is a cross-sectional view of a coated electrical resistance metal wire according to the present invention.
3 is a perspective view of a heat wire radiator according to the present invention.

Hereinafter will be described in detail the heat wire radiator proposed in the present invention.

First, it can be demonstrated based on the covering yarn process which is a normal decorative thread as coat | covering an electrical resistance metal wire. The coating surrounds the metal wire for electrical resistance, and the coating seal is not particularly limited, and may be a material having high far-infrared emissivity and high heat resistance. As an example, a glass chamber, a polyester chamber, a silk thread, etc. are preferable.

The metal wire for electrical resistance is a nickel-chromium alloy, an iron-chromium alloy, a copper-nickel alloy, a copper-manganese alloy, copper, or the like, and is preferably in the form of a line or a strip.

The electrical resistance metal wire is surrounded by a coating seal, and is coated with a binder resin.

Although the said binder resin does not specifically limit, Silicone resin, polyimide resin, etc. which are excellent in heat resistance are preferable. In addition, it is characterized by coating by adding a functional filler having a high far-infrared emissivity. As an example, carbon black, which is carbon-based, is preferable.

Next is the weaving of the fabric, with the needle loom opening the warp into the upper and lower groups by the opening motion of the loom heald, the latching needle operated by the carrier by inserting the weft by the drum motion into the opened warp, Fabric weaving by successive repetition of body needle movement, using the catch yarn provided from the weft exit side opposite to the inlet side to surround the weft and discharging the carrier and pushing the weft yarn in the opening to the upright end. Process and impregnation process with an electrically insulating material on the woven fabric, wherein the weft of the fabric is one in which the starting point and the end point of the weft are electrically continuous and the fabric is epoxy, polyurethane, silicone, polyester Insulation with one or more than one of bitumen, bituminous, oleoresin, phenol, alkyd and PVC resin Characterized in that the processing. In addition, it is characterized by coating by adding a functional filler having a high far-infrared emissivity. As an example, carbon black, which is carbon-based, is preferable.

Needle Loom is a weaving thread weaving the needle hole through the needle insertion method.

However, because weft penetrates the needle hole, weft yarns with large elastic and friction coefficients, such as metal wires for electrical resistance, are limited to weaving. It is characterized in that the heating wire is woven into the supply.

Characterized in that the warp yarns of the fabric are formed into a rippled structure.

As for the textile structure of this invention, a blade structure (lenojig) is preferable. The wing tissues are not parallel to each other, and the two warp yarns are twisted together to form an eight-shaped weft. Thus, a mesh-like crop is formed.

Alternatively, the latch needle is characterized by surrounding the weft yarn with a catch yarn provided also on the insertion side using a latch needle which operates also on the insertion side.

That is, the weft yarns inserted at both ends of the weaving loop with the catch yarn of the latch needles arranged on both sides of the weaving machine.

By looping the edges of both ends of the fabric with a catch thread, the heating wire having the fabric structure can be strengthened.

The weft yarn is characterized in that the starting point (2a) and the end point (2b) of the weft is woven into a single electrically continuous yarn.

Therefore, the present invention is characterized by manufacturing a hot wire network which is a planar heating element by an electric series load method.

1 and 2 are cross-sectional views of the state of the hot wire mesh 30 woven with a plurality of coated metal wires for electrical resistance according to the present invention and the coated metal wires for electrical resistance, in which the warp yarns 1 are opened in upper and lower groups, and The catch thread provided from the weft outlet side on the opposite side of the insertion side by the carrier 4 inserting the weft 2 by the drum motion into the warp thread and using the latch needle 5 operated on the weft outlet side ( 6) is a fabric that is woven in a continuous repetition of the body needle movement to surround the weft (2) to discharge the carrier 4, the body pushes the weft in the opening up to the straight end, the weft of the fabric The starting point (2a) and the end point (2b) of the one is an electrically continuous one, the weft is a cross-sectional view of the covering yarn 22 surrounded the electrical resistance metal wire 21.

FIG. 3 is a perspective view of a hot wire radiator according to the present invention, wherein four sides of the hot wire net 30 are supported by a frame 31 by a support member 33, and the safety net 32 protects the hot wire net. It is characterized in that the configuration.

In addition, when the power source is applied to the start point (2a) and the end point (2b) of the electrically continuous weft is characterized in that the heating wire generates heat in a uniform temperature distribution.

Although the material of the said frame is not limited, For example, aluminum, stainless steel, plastic, wood, etc. are preferable.

Although the material of the safety net is not limited, for example, a fiber net, a plastic net, a metal net, and the like are preferable, and the net is characterized by coating a paint having a high far-infrared emissivity.

As described above, the heat wire radiator according to the present invention is a planar heating element fabricated with a series of electrical resistance wires in series, and the heat generation is the same even if the heat generation temperature is low due to the large planar heat generation area, so the heat generation is the same. An article can be provided. In addition, it is characterized in that there is no problem of contact resistance like the conventional planar heating element as an electrical series method.

1: warp
2: weft, which is a coated electrical resistance metal wire
4: Carrier
5: Latch needle
6: catch room
2a: Starting point of weft
2b: the end of the weft
21: metal wire for electrical resistance
22: coating thread
30: hot wire
31: frame
32: safety net
33: support member
40: hot wire radiator

Claims (1)

In a heat ray radiator, a warp yarn is formed by an opening motion of a weaving machine heald using an electric resistance metal wire coated with an electric resistance metal wire with a glass or polyester thread, which is a covering thread, and the coated electric resistance metal wire as a weft yarn. 1) is opened in the upper and lower groups, the carrier 4 inserts the weft 2 by the north needle movement through the opened warp, and on the opposite side of the insertion side using the latch needle 5 operated on the weft exit side. Weaving is carried out in a continuous repetition of the body needle movement to surround the weft 2 with a catch chamber 6 provided from the weft outlet side which is present to discharge the carrier 4, and to push the weft threaded in the opening to the straight end Fabric, and a hot wire fabric manufactured by coating an electrically insulating material on the woven fabric, and the weft of the fabric is an electrically continuous wire and supports four sides of the hot wire network. Im and Heat envy radiator being configured as a safety net for protecting the open purse.

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