KR19980082496A - Thermal coating using solar or battery - Google Patents

Abstract

[Name] Thermal coating using solar or battery

[PROBLEMS] To provide a winter coat which generates heat using solar heat or a battery.

[Resolution]

Metals with excellent conductivity, elongation and wear resistance are used as conductive yarns coated in the form of thin films on the surface of ordinary fibers, and on the surface of the collar or near the pockets, ordinary solar collectors and their associated electric generators and charging devices or It is solved by the coating made by attaching a small battery, and it is possible to use the self-conducting yarn which finely powdered metal with excellent conductivity, elongation and abrasion resistance and spun it by mixing an appropriate amount with synthetic fiber raw material.

Description

Thermal coating using solar or battery

The present invention relates to a heat-generating coating using solar or battery, which has the effect of keeping body temperature warm in winter.

In other words, the coating of the present invention has a useful effect of maintaining the body temperature sufficiently without having a special cold protection equipment or winter protective clothing in winter when the solar heat is supplied or only a small battery is prepared to generate heat from the coating itself.

Hereinafter, embodiments of the present invention will be described.

Example 1

It uses a conductive yarn coated with thin film on the surface of ordinary fiber with metal having excellent conductivity, elongation and abrasion resistance, and manufactures and attaches a small solar charging plate and charging device for electric generator connected with it on the surface of collar or near pocket. When the fever coating of the present invention is completed.

Since the surface of the conductive yarn is coated with a metal having excellent conductivity, it is a natural reason to naturally generate heat when a current flows, and the present invention uses this principle.

The thickness of the metal coated on the surface of the conductive yarn can be formed in microns unit can be sufficiently carried out using the current plating technology.

In addition, since the conductive yarn is coated with a metal having excellent elongation and abrasion resistance, there is no problem in knitting, sewing or washing it, and it does not cause a problem in exerting its unique function as a coating.

In addition, when the dye is coated on the coated metal surface or the metal is applied to itself, the color of the coating can be freely expressed.

Therefore, it is possible to produce a variety of types of coating using the conductive yarns, as well as blankets, gloves, socks, shawls, etc. can also be produced.

And even if a small battery is used without using a solar collector and its associated electric generator or charging device, the action and effect are the same.So, the solar collector and its associated generator, charger or battery can be detached from the sheath. It is desirable to.

Where the electric generator and the charging device are attached, a small battery can be directly attached or a wire connected to a portable battery can be connected. The solar collector plate or its associated electric generator, charging device or battery is a collar or a pocket. It does not matter where it is attached to the sheath other than the part.

Example 2

Example 1 described above uses a conductive yarn coated with a thin film on the surface of the fiber having excellent conductivity, elongation and wear resistance, but in Example 2, finely powdered metal having excellent conductivity, elongation and wear resistance when producing synthetic fibers The coating is completed by using spun fibers, ie, self-conductive yarns, which are spun into a synthetic fiber raw material and spun in an appropriate amount.

This is also the same in terms of operation and effect compared to Example 1, but the color of the coating is easier than the case of Example 1 has a feature that is somewhat better washability.

In conclusion, the present invention is characterized in that it generates heat itself, it is possible to obtain an excellent thermal insulation effect than the usual cold protection means even with a simple and simple coating configuration.

The electric generator and the battery of the above embodiment are provided with an operating switch and a current amount control switch to adjust the heating temperature.

As described above, the present invention is low in production cost compared to a plurality of coatings or cold protection coatings, and is excellent in thermal insulation, and is useful for providing new electricity in the field of winter clothing. There is a characteristic.

Claims (2)

Conductive yarns coated with thin films on the surface of conventional fibers with excellent conductivity, elongation and wear resistance are used. On the surface of the collar or near the pockets, ordinary solar collector plates and their associated electrical generators and charging devices or Thermal coating using solar or battery with small battery attached. It uses self-conducting yarn which finely powders metal with excellent conductivity, elongation and abrasion resistance and spun it into synthetic fiber material. Thermal coating using solar or battery with device or small battery attached.