JP2011113848A - Flat type electric wire, method of manufacturing flat type electric wire, flat type insulated wire, and method of manufacturing flat type insulated wire - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a flat type insulated wire in which a plurality of collective strands are not unwound even if an insulating cover at the end is removed. <P>SOLUTION: The flat type insulated wire (1) includes: seven collective strands (1a) aligned in parallel and in close contact in a line; a braided conductor (1b) applied in the outer periphery of the seven collective strands (1a); and the insulating cover (1d) installed at its outer periphery. Even if the insulating cover (1d) at the end is peeled off, since there is the braided conductor (1b), the plurality of collective strands (1c) are not unwound, and a connector can be connected easily. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a flat wire, a method for manufacturing a flat wire, a flat insulated wire, and a method for manufacturing a flat insulated wire, and more particularly, a flat wire that can easily form an insulation coating, and a method for manufacturing the flat wire. The present invention relates to a flat insulated wire in which a plurality of aggregate strands are not scattered even if the terminal insulating coating is removed, and a method for producing the flat insulated wire.

  2. Description of the Related Art Conventionally, a flat insulated wire comprising a plurality of collective strands arranged in parallel and closely in a row and an insulating coating applied to the outer periphery of the plurality of collective strands is known. (For example, refer to Patent Document 1).

Japanese Patent Laid-Open No. 05-166415

In the above-described conventional flat insulated wire, first, for example, if the terminal insulation coating is peeled off to connect the connector, a plurality of terminal strands are scattered, and it takes time to connect the connector. There is a problem. Secondly, when forming an insulating coating by resin extrusion coating, it is necessary to arrange a plurality of aggregate strands in parallel and closely in a row and provide them to a coating machine, which makes it difficult to form an insulating coating. is there.
Accordingly, an object of the present invention is to provide a flat electric wire that is easy to form an insulating coating, a method for manufacturing the flat electric wire, a flat insulated electric wire that does not disperse a plurality of aggregate strands even if the terminal insulating coating is removed, and It is providing the manufacturing method of a flat type insulated wire.

In the first aspect, the present invention provides a plurality of collective strands (1a) arranged in parallel and closely in a line, and a braided conductor provided on the outer periphery of the plurality of collective strands (1a). (1b) is provided, and a flat electric wire (1c) is provided.
In the flat electric wire (1c) according to the first aspect, since the braided conductor (1b) is provided on the outer periphery of the plurality of assembled strands (1a), if the wire is supplied to the coating machine as one electric wire. Good. Therefore, it is easy to form an insulating coating.

In a second aspect, the present invention is characterized in that a plurality of aggregate strands (1a) are arranged in parallel and closely in a line, and a braided conductor (1b) is applied to the outer periphery while maintaining the shape. A method for producing a flat wire is provided.
A manufacturing method in which a plurality of aggregate strands are inserted into a cylindrical braided wire and then compressed flatly is conceivable, but the insertion process and the compression process become complicated.
In the method for producing a flat electric wire according to the second aspect, a plurality of aggregate strands (1a) are arranged in parallel and closely in a line, and a braided conductor (1b) is formed on the outer periphery thereof. For example, a long flat electric wire having a length of about 800 m can be manufactured.

In a third aspect, the present invention provides the flat electric wire manufacturing method according to the second aspect, wherein the outer diameter of the collective stranded wire (1a) is short and the outer diameter of the collective stranded wire (1a) × The plurality of collective strands (1a) are arranged in parallel and closely in a line through a flat guide die (A) having an oblong passage cross section with the number of the collective strands (1a) as a major axis. The manufacturing method of the flat type electric wire characterized by these is provided.
In the method for producing a flat wire according to the third aspect, a plurality of collective strands (1a) are arranged in parallel and closely in a line by passing the flat guide die (A). I can do it.

In a fourth aspect, the present invention provides a flat insulated wire (1) characterized in that an insulating coating (1d) is provided on the outer periphery of the flat wire (1c) according to the first aspect.
In the flat insulated wire (1) according to the fourth aspect, since the braided conductor (1b) is applied to the outer periphery of the plurality of assembled strands (1a), Multiple strands are not separated. Therefore, for example, a connector can be easily connected.

In a fifth aspect, the present invention relates to the flat wire (1c) according to the first aspect, wherein the short diameter of the flat wire (1c) is the short diameter and the long diameter of the flat wire (1c) is the long diameter. The wire is fed to the coating machine (E) through a flat molding die (D) having a cross section of the elliptical passage and having a braid pitch of the braided conductor (1b) x 2 or more. Provided is a method for manufacturing a flat electric wire.
In the flat electric wire manufacturing method according to the fifth aspect, the flat electric wire (1c) is corrected to be bent by the stress of the braided conductor (1b) by passing the flat molding guide die (D). The wire can be supplied to the coating machine (E) while maintaining the mold shape.

According to the flat type electric wire (1c) of the present invention, it is only necessary to supply the electric wire to the coating machine as one electric wire, so that it is easy to form an insulating coating.
According to the method for producing a flat electric wire of the present invention, a long flat electric wire having a length of, for example, about 800 m can be produced.
According to the flat insulated wire (1) of the present invention, even if the insulating coating at the end is peeled off, the plurality of end assembled strands are not separated, so that, for example, a connector can be easily connected.
According to the method for producing a flat insulated wire of the present invention, the flat wire (1c) can be supplied to the coating machine (D) without bending.

1 is a cross-sectional view showing a flat electric wire according to Example 1. FIG. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a configuration explanatory diagram illustrating a flat wire manufacturing apparatus according to a first embodiment. 6 is a cross-sectional view showing a flat insulated wire according to Example 2. FIG. FIG. 6 is a configuration explanatory view showing a flat insulated wire manufacturing apparatus according to Example 2.

  Hereinafter, the present invention will be described in more detail with reference to embodiments shown in the drawings. Note that the present invention is not limited thereby.

Example 1
FIG. 1 is a cross-sectional view illustrating a flat wire 1c according to the first embodiment.
The flat electric wire 1c includes seven collective strands 1a arranged in parallel and closely in a row, and a braided conductor 1b applied to the outer periphery of the seven collective strands 1a.

  The collective stranded wire 1a is made by twisting 75 annealed copper strands having an outer diameter of 0.2 mm, and has a finished outer diameter of about 2 mm. In addition to the annealed copper wire, a copper wire, an aluminum wire, a plated wire, an enameled copper wire, or the like may be used.

  The braided conductor 1b is made of 24 annealed copper wires having a wire diameter of 0.2 mm, and has a pitch of 50 mm and a thickness of 0.4 mm. In addition to the annealed copper wire, a copper wire, an aluminum wire, a plated wire, an enameled copper wire, or the like may be used.

FIG. 2 is a configuration explanatory view showing the flat wire manufacturing apparatus 100.
The flat wire manufacturing apparatus 100 includes a flat guide die A, a braiding machine B, and a winder C.

In the flat guide die A, the outer diameter (for example, 2 mm) of the collective stranded wire 1a is a short diameter (for example, 2 mm), and the outer diameter (for example, 2 mm) of the collective stranded wire 1a × the number of the collective stranded wires 1a (for example, seven) Has an oblong passage section with a long diameter (for example, 14 mm). The material of the flat guide die A may be metal or plastic.
By passing the flat guide die A, a plurality of aggregate strands 1a are arranged in parallel and closely in a line.

  The braiding machine B has a rotating disk on which a plurality of (for example, 24) wire bobbins wound with a plurality of (for example, 9) strands are mounted, and are arranged in a row in parallel and closely. When the collective stranded wire 1a of the book passes through the center hole of the turntable, the braided conductor 1b is applied to the outer periphery thereof.

  The winder C winds the flat wire 1c so as to maintain the flat shape.

  According to the flat type electric wire 1c of Example 1, since the braided conductor 1b is given to the outer periphery of the multiple strands 1a, it is used as a single electric wire for a coating machine (E described in Example 2). Since the insulation coating (1d described in Example 2) can be formed by wiring, the insulation coating is easy to perform.

  Further, according to the flat wire manufacturing apparatus 100 of the first embodiment, the braided conductor 1b is applied to the outer periphery of the shape in which a plurality of collective strands 1a are arranged in parallel and closely in a line. It becomes possible to manufacture a flat electric wire with a scale.

-Example 2-
FIG. 3 is a cross-sectional view illustrating the flat insulated wire 1 according to the second embodiment.
The flat insulated wire 1 includes seven collective stranded wires 1a arranged in parallel and closely in a line, a braided conductor 1b provided on the outer periphery of the seven collective stranded wires 1a, and an outer periphery thereof. Insulating coating 1d.

  The insulating coating 1d is PVC and has a thickness of 1 mm.

FIG. 4 is a configuration explanatory view showing the flat insulated wire manufacturing apparatus 200.
The flat insulated wire manufacturing apparatus 200 includes a flat molding die D, a coating machine E, and a winder F.

The flat molding die D has an oblong passage cross section in which the short diameter (eg, 2.8 mm) of the flat electric wire 1c is the short diameter and the long diameter (eg, 14.8 mm) of the flat electric wire 1c is the long diameter, The braided conductor 1b has a braid pitch x 2 or longer (for example, 100 mm). The material of the flat mold die D may be metal or plastic.
By passing the flat molding die D, the flat electrical wire 1c is not curved and maintains a flat shape.

  The coating machine E extrudes resin from the crosshead die and covers the flat wire 1c to form an insulating coating 1d.

  The winder F winds the flat insulated wire 1 so as to maintain the flat shape.

  According to the flat insulated wire 1 of the second embodiment, even if the insulation coating 1d at the end is peeled off, since the braided conductor 1c is present, the plurality of end assembled strands 1c are not separated, and for example, a connector is easily connected I can do it.

  Moreover, according to the flat insulated wire manufacturing apparatus 200 of Example 2, it was corrected with the flat molding guide die D that the flat electrical wire 1c was about to be bent by the stress of the braided conductor 1b, and the flat shape was maintained. The wire can be supplied to the coating machine E in a state.

-Reference example-
Consider a case where a flat electric wire having the same line area ratio as that of the flat electric wire 1c of the first embodiment is made only of the braided conductor 1b.
It is only necessary to increase the wire diameter so as to compensate for the cross-sectional integral of the omitted assembly strand 1a. However, if the wire diameter is increased, the wire bobbin of the braiding machine is small, so that the wire wound around the wire bobbin Will be shortened. As a result, the flat electric wire cannot be made long.

As a numerical example, the cross-sectional area of the seven aggregate strands 1a in Example 1 is 16.5 mm ² (= {(0.2 mm × 0.2 mm × π) / 4} × 75 × 7). It is. The cross-sectional area of the wire conductor 1b is 6.8 mm ² (= {(0.2 mm × 0.2 mm × π) / 4} × 9 wires × 24 strokes). Therefore, the total conductor cross-sectional area of the flat wire 1c will ^{23.3mm 2 (= 16.5mm 2 + 6.8mm} 2).
If this is covered only by the braided conductor 1b, the cross-sectional area of the wire may be increased by 3.4 times (= 23.3 mm ² /6.8 mm ² ). However, when the cross-sectional area of the strand is increased by 3.4 times, the length of the strand wound around the strand bobbin becomes 1 / 3.4 times. As a result, the length of the flat electric wire made only of the braided conductor 1b also becomes 1 / 3.4 times. For example, if the length of the flat electric wire 1c of Example 1 is 800 m, the length of the flat electric wire made of only the braided conductor 1b will be about 230 m (= 800 m / 3.4).

  In other words, according to the present invention, it is possible to manufacture a long flat electric wire 1c having a length of about 800 m.

  The flat wire and the flat insulated wire of the present invention can be used as a flexible high power line.

DESCRIPTION OF SYMBOLS 1 Flat type insulated wire 1a Aggregate strand 1b Braided conductor 1c Flat type wire 1d Insulation coating A Flat guide die B Braiding machine C Winding machine D Flat molding die E Coating machine F Winding machine

Claims (5)

A plurality of collective strands (1a) arranged in parallel and closely in a line, and a braided conductor (1b) applied to the outer periphery of the plurality of collective strands (1a) A flat wire (1c) characterized by A method for producing a flat electric wire, comprising: arranging a plurality of aggregate strands (1a) in parallel and closely in a line, and applying a braided conductor (1b) to the outer periphery while maintaining the shape thereof. In the manufacturing method of the flat type electric wire according to claim 2, the outside diameter of the collective strand wire (1a) is made into a short diameter, and the outside diameter of the collective strand wire (1a) x the number of the collective strand wire (1a) A method for producing a flat electric wire, wherein the plurality of aggregate strands (1a) are arranged in parallel and closely in a line through a flat guide die (A) having an oblong passage section having a long diameter. . A flat insulated wire (1) characterized in that an insulating coating (1d) is provided on the outer periphery of the flat wire (1c) according to claim 1. The flat electric wire (1c) according to claim 1, wherein the flat electric wire (1c) has an oblong passage section in which the short diameter of the flat electric wire (1c) is a short diameter and the long diameter of the flat electric wire (1c) is a long diameter. A method for producing a flat electric wire, characterized in that the wire is fed to a coating machine (E) through a flat molding die (D) having a braid pitch of the braided conductor (1b) x 2 or more.

Images