JPS6039937Y2 - Insulated wire for welding - Google Patents

Description

[Detailed Description of the Invention] The present invention relates to an insulated wire for welding having a cross-sectional shape suitable for high-frequency heating welding of the insulated wire to an insulating sheet.

Among existing insulated wires of this type, there is one in which a part of the insulation coating of the insulated wire is extended to form a plate-like portion 2, as shown in the cross-sectional shape of FIG. 5, for example.

When welding this insulated wire to the insulating sheet 1, there is no problem when the insulated wire is arranged linearly in the longitudinal direction, but
When arranged in a meandering pattern, unreasonable stress may be applied to the plate portion 2)
However, there is a drawback that this part may be cut or the insulating sheet 1 may be wavy.

In addition, as shown in FIG. 6, there is also a cross-sectional structure in which the insulating part of the insulated wire is extended and used as a welded part, and the joint surface with the insulating sheet 1 is formed into a flat surface.

In this insulated wire, when performing high frequency heat welding, when high frequency electrodes 3 and 4 are placed with the insulating sheet 1 in between,
Since there is no insulation of the insulated wire between the two electrodes and the gap 5 is heated, there is a drawback that it is difficult to obtain a temperature sufficient for welding.

The present invention was developed to solve the above-mentioned drawbacks, and the structure will be explained below with reference to FIGS. 1 to 4.

FIG. 1 is a sectional view showing the insulated wire according to the present invention in a state immediately before being welded to an insulating sheet.

Reference numeral 6 indicates the insulated wire according to the present invention, in which a conductor 7 is covered with an insulating part 8, and a welded part 11 is extended to this insulating part 8.

The welded part 11 has a wider cross-sectional shape than the insulating part 8, and a hook-shaped step part 9 is formed at the boundary between the two.

1 is an insulating sheet with good thermal conductivity to which an insulated wire 6 is welded.

The bonding surface of the welded portion 11 to the insulating sheet is melted and becomes integral with the insulating sheet 1.
As shown in the figure, it is not a flat surface but an uneven surface.

3 and 4 are electrodes placed between the insulating sheet 1 for high frequency welding.

In particular, the electrode 3 on the insulated wire side is engaged with the hook-shaped step 9.

FIG. 2 is a cross-sectional view showing the state after high-frequency welding is performed by pressing the insulated wire 6 in the direction of the arrow using the hook-shaped step 9 by the high-frequency electrode 3, and shows the state after the insulated wire 6 is welded by high-frequency welding using the hook-shaped step 9. The insulated wire 6 is a wire whose melted portion 10 is melted and completely welded and integrated.

Welding part 10 which is the joining surface of welding part 11 to insulating sheet 1
Since it is not a flat surface but has an uneven surface, when it is heated from the hook-shaped step part 9 during high frequency welding, the temperature of the uneven surface rises quickly and reaches the welding temperature immediately, and the volume of the welded part is small and deformed. There are few

Note that this melting part 10 is not limited to an uneven surface, but may be any non-planar surface, and FIG.

Particularly, Figure C shows a suitable structure when a heat generating wire is used as the conductor 7, which is welded to the insulating sheet 1 as shown in Figure 4, and the insulated heat generating conductor 6 is immersed in a liquid 12 to heat the liquid. This is convenient.

Since the present invention is constructed as described above, a hook-shaped stepped portion 9 is formed at the boundary between the insulating portion 8 of the insulated wire 6 and the wide welded portion 11, and the high-frequency electrode 3 is engaged with this. and the welded part 1 which is the joint surface of the welded part 11 to the insulating sheet 1.
By forming 0 into a non-planar shape, there is an effect that the insulated wire 6 and the insulating sheet 1 can be completely welded and integrated by the interaction that the welded portion 11 can be melted and diffused into the insulating sheet 1.

Therefore, even if the insulated wires are arranged in a meandering manner and welded to the insulating sheet, accidents such as the plate-shaped portion 2 being cut may occur as in the conventional insulated wire structure shown in FIG. This also solved the problem of incomplete high-frequency welding.

As described above, according to the present invention, a highly reliable insulated wire that can be easily wired to an insulating sheet and can be reliably welded can be obtained.
This has great practical effects.

[Brief explanation of drawings]

1 and 2 are cross-sectional views showing the state before and after welding the insulated wire of the present invention to an insulating sheet, FIG. The figure is a sectional view showing an example of the use of the insulated wire of the present invention welded to an insulating sheet, and FIGS. 5 and 6 are sectional views showing the structure of a conventional insulated wire for welding. 1... Insulating sheet, 2... Plate-shaped part, 3
, 4... High frequency electrode, 5... Cavity part,
6...Insulated wire, 7...Conductor, 8...
...Insulating part, 9...Hook-shaped stepped part, 10...
... Melted part, 11... Welded part, 12...
···liquid.

Claims (1)

[Scope of utility model registration request] A welded part 11 that extends to the insulated part 8 of the insulated wire 6 and is wider than the insulated part 8. and a hook-shaped step 9 formed at the boundary between the insulating part 8 and the welded part 11 for engaging the high-frequency electrode 3, and which is the joining surface of the welded part 11 to the insulating sheet 1. An insulated wire for welding characterized in that a welding part 10 is formed into a non-planar shape.