JP-7856992-B1 - Electric wires and electrical processing equipment

Abstract

[Problem] The problem to be addressed by the present invention is to provide an electric wire having a ceramic layer capable of processing electricity passing through a core material and ensuring insulation, and an electrical processing apparatus equipped with the same. [Solution] To solve the above problems, the present invention provides an electric wire comprising a core material made of a linear conductor, an alloy layer formed on the outer surface so as to cover a part of the core material, and a ceramic layer on the alloy layer, wherein the ceramic layer is made of a sintered body of a mixture containing plant extract and ceramic raw material. [Selection Diagram] Figure 2

Inventors

• 佐藤　政二

Assignees

• 有限会社生体エネルギー研究所

Dates

Publication Date

20260512

Application Date

20250905

Claims (2)

1. An electric wire comprising a core material consisting of a linear conductor, an alloy layer formed on the outer surface so as to cover a part of the core material, and a ceramic layer on the alloy layer, The ceramic layer is made of a sintered body of a mixture containing plant extract and ceramic raw material. The electric wire is characterized in that the plant extract comprises extracts of willow, Eleutherococcus senticosus, antler reishi mushroom, and wild ginseng, as well as wood vinegar .
2. An electrical processing apparatus comprising the electric wire described in claim 1 .

Description

This invention relates to an electric wire having a ceramic layer capable of handling electricity, and an electrical processing apparatus equipped therewith. Conventionally, methods for treating water and gas by bringing them into contact with ceramics are known. For example, Patent Document 1 describes a method for manufacturing a gypsum board that can improve the environment through bioenergy, which includes a step of spraying mineral-containing water, prepared by bringing a ceramic containing a predetermined natural ore into contact with water, onto a gypsum board. Furthermore, Patent Document 2 describes a control method in which a predetermined ceramic agent is brought into contact with an extraction solvent mainly composed of water, and the mineral components contained in the ceramic agent are dissolved into the extraction solvent, and the resulting eluted functional water is applied to single-celled organisms and/or viruses that are to be controlled. Patent Document 3 describes methods for removing unpleasant odors from water to be treated, removing scale adhering to piping routes, preventing the occurrence of red rust, and removing and/or preventing slime by bringing the water to be treated into contact with a predetermined magnetic ceramic, as well as methods for modifying a gas by passing the gas to be treated through the magnetic ceramic. Patent Document 4 describes a method for producing ceramic-treated water containing plant components, in which the treated water is brought into contact with a porous ceramic body containing plant components, and the treated water is used as a raw material for concrete, thereby improving the compressive strength of the concrete. On the other hand, electric wires with a ceramic layer have been known for a long time. For example, Patent Document 5 describes an insulated wire comprising a core material made of copper or a copper-based alloy, an iron or iron-based alloy layer provided on the outer surface of the core material, a nickel or nickel-based alloy layer provided on the outer surface of the iron or iron-based alloy layer, and an insulating ceramic layer formed on the outer surface of the nickel or nickel-based alloy layer by heat treatment of a ceramic precursor solution. Japanese Patent Publication No. 2022-178557International Publication No. 2017/038972Japanese Patent Publication No. 2007-131485Patent No. 7702703Japanese Patent Application Publication No. 04-301317 This is a side view showing an example of the electric wire of the present invention.This is a cross-sectional view showing an example of the electric wire of the present invention. The embodiments of the electric wire and electrical processing device according to the present invention will be described in detail below. The technical features described in the embodiments are merely illustrative examples for explaining the electric wire and electrical processing apparatus according to the present invention, and are not limited thereto. [Electric wire] Figure 1 shows an example of a side view of an electric wire according to the present invention. Figure 2 shows an example of a cross-sectional view of an electric wire according to the present invention. As shown in Figures 1 and 2, the electric wire 100 of the present invention comprises a core material 10, an alloy layer 20, and a ceramic layer 30. The core material 10 consists of a linear conductor. The core material 10 is not particularly limited as long as it is a metal or alloy with excellent conductivity, and examples include copper, copper alloys (brass, bronze, etc.), aluminum, aluminum alloys, silver, etc., which are commonly used as electric wires. As shown in Figures 1 and 2, the core material 10 may be composed of a single conductor or of multiple conductors. When the core material is composed of multiple conductors, it may be composed of multiple conductors bundled together or twisted together. As shown in Figure 2, the alloy layer 20 has holes for passing the core material 10 through. The outer surface of the core material 10 is positioned so as to be in close contact with the inner surface of the holes in the alloy layer 20, and the alloy layer 20 is formed on the outer surface so as to cover a portion of the core material 10. In this embodiment, solder is melted and flowed between the core material 10 and the alloy layer 20 to ensure close contact, but this method is not limited to this one. By using solder in this way, the conductivity between the core material 10 and the alloy layer 20 can be improved, and furthermore, the alloy layer 20 can be fixed to a specific part of the core material 10. The alloy layer 20 may be provided as a single layer on a part of the core material 10, or multiple layers may be provided. Furthermore, if multiple alloy layers 20 are provided, they may be set apart, or they may be arranged so that one end face of each alloy layer 20 is in close contact with one end face of another alloy layer 20. The al