JPH0785901A - Crimp terminal, and method of connecting crimp terminal with cable - Google Patents

Abstract

PURPOSE:To connect a crimp terminal to a cable conductor excellently in electric property. CONSTITUTION:A crimp terminal A2 is constituted by providing conductor cramping parts 3b and 3b for cramping the conductor 5 of a cable W by fastening it on both sides of a base 1, and erecting an abutting wall 10 consisting of conductive material member capable of energy beam welding by such as by a laser or the like on the base 1. According to this method of connecting the crimp terminal A2 to the cable W, the abutting wall 10 and the tip of the conductor 5 are welded by an energy beam such as laser or the like.

Description

Detailed Description of the Invention

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a crimp terminal for connecting a conductor portion of an electric wire in a stable state with excellent electric characteristics, and a connecting method thereof.

[0001]

2. Description of the Related Art A perspective view of FIG. 6 is a perspective view showing an example of a crimp terminal A, in which an annular electric connection portion 2 is provided on one side of a board portion 1 (on the left side in FIG. 6). An electric wire connecting portion 3 is provided on the other side of the portion 1. The electric wire connecting portions 3 are covered and crimped portions 3a, 3a standing up from both sides of the substrate portion 1, respectively.
And the conductor crimping portions 3b and 3b, and the tip of the electric wire W connected to the crimping terminal A has the conductor portion 5 exposed by removing the coating 4.

To connect the electric wire W to the crimp terminal A,
The electric wire W is placed on the substrate portion 1, the conductor crimping portion 3b is bent inward by the upper jig 6a and the lower jig 6b and caulked, and the conductor portion 5 is crimped. Then, the covering and crimping portions 3a, 3a are caulked and crimped to the covering 4. Thus, the conductor crimp portion 3b is electrically connected to the conductor portion 5 of the electric wire W, and the covering crimp portion 3a holds the electric wire W.

When the clamping pressure of the conductor crimping portion 3b is insufficient, a gap is created between the conductor crimping portion 3b and the conductor portion 5, or a gap is formed between the electric wires forming the conductor portion 5, resulting in an electrical resistance. However, there is a problem that the electrical resistance further increases due to the generation of an oxide film and the adhesion of dust. In order to solve such a problem, the conductor crimping portion 3b, the conductor portion 5, and
A crimp terminal for welding electric wires in the conductor portion 5 to each other has been proposed (see JP-A-2-103876).

In the crimp terminal described in the above publication, as shown in the perspective view of FIG. 7, a slit-shaped through hole 7 is provided in the conductor crimp portion 3b of the brass crimp terminal A ₁ to form the conductor crimp portion 3b.
After crimping the conductor portion 5 to the conductor portion 5, the conductor portion 5 and the through hole 7 exposed from the through hole 7 are irradiated with an energy beam by an energy beam generator 8 such as a laser, and heat welding is performed, thereby electrically connecting the wire connecting portion. It aims to stabilize the resistance to a small value. Further, as shown by the dotted line in FIG. 7, when the end portion of the conductor crimping portion 3b and the conductor portion 5 are heat-welded, the welding area increases.

[0005]

At present, a brass material which is relatively excellent in conductivity and mechanical strength is used as a terminal material, but when it is heated by an energy beam, it is an additive element. Since the molten metal is scattered by vigorous evaporation of zinc, it is difficult to obtain good welding. In order to obtain good welding with the energy beam, it is necessary to make it with pure copper called electrolytic copper or a practical copper alloy such as phosphor bronze, but pure copper lacks the mechanical properties required for the terminal material and The first problem is that most practical copper alloys are more expensive than brass and have inferior formability, so that an increase in cost is inevitable in terms of both material cost and manufacturing cost.

Further, the size of the crimp terminal A ₁ is standardized, and if the through-hole 7 is provided in the conductor crimping portion 3b, the crimping force is reduced accordingly, and the original crimping performance cannot be ensured. Therefore, even if the caulking process is insufficient, there is a second problem that a sufficient welding area must be secured so that all the required characteristics can be satisfied only by the welded portion.
For that purpose, it is necessary to improve the present condition that the region to be directly welded by receiving the energy beam is only the upper layer part, and to weld other parts than the upper layer part. The present invention aims to solve such a problem, and provides a crimp terminal capable of welding the crimp terminal and the entire end surface of the conductor portion with almost no increase in cost, and a method for manufacturing the crimp terminal.

[0007]

In order to achieve the above-mentioned object, the crimp terminal of the present invention has conductor crimping portions for squeezing an electric wire conductor portion erected on both sides of the substrate by caulking, and is provided on the substrate. A contact wall made of a metal material having conductivity and capable of welding an energy beam such as a laser is provided upright.

This method of connecting a crimp terminal and an electric wire is such that an electric wire conductor is provided on a board of a crimp terminal having a conductor crimping portion which stands up from both sides of the board and a contact wall of a conductive material which is erected on the board. The portion is placed, the end face of the conductor portion is brought into contact with the contact wall, and then the conductor crimp portion is caulked to the conductor portion,
Next, the contact wall and the tip of the conductor portion are welded by an energy beam such as a laser.

[0009]

The crimp terminal constructed as described above has a simple structure in which the contact wall is erected on the base plate portion of the conventional crimp terminal.
The cost of manufacturing crimp terminals is almost the same as that of conventional products. When the tip end surface of the electric wire conductor is brought into contact with this contact wall, the position of the electric wire conductor is correctly positioned. Next, after crimping the conductor crimping portion and the coating crimping portion, when the contact wall and the tip of the conductor portion are irradiated with an energy beam such as a laser, the upper portion of the conductor portion is welded and melted. Since the contact wall melts into the tip of the conductor, the entire surface of the tip of the conductor and the contact wall are integrally welded.

[0010]

Referring to the drawings for the embodiment of EXAMPLES The invention Figure 1 is crimp terminal perspective view of the removal of the electrical connections from A ₂ of the present invention, partially broken perspective in Figure 2 Figure 1 It is a figure. FIG. 1 shows only the wire connecting portion 3 side of the crimp terminal A ₂ , and the wire connecting portion 3 is composed of covered crimp portions 3 a, 3 a and conductor crimp portions 3 b, 3 b rising from both sides of the board portion 1. Electrical connection on the left side of part 1 (not shown)
However, in the crimp terminal A ₂ of the present invention, the contact wall 10 is provided upright on the substrate portion 1.

As the material of the contact wall 10, a metal material having conductivity and capable of energy beam welding such as laser is used, and electrolytic copper whose material cost is equal to or lower than that of brass material is used. desirable. From the lower end of the contact wall 10 to the fixed portion 1
0a is bent and extended at a substantially right angle, and the fixing portion 10a is fixed to the substrate portion 1 by means such as spot welding (see FIG. 2).

As shown in FIG. 3, the contact wall 10 is on the left side of the conductor crimping portion 3b, and the range of the length B from the right end of the fixing portion 10a is at a position overlapping the conductor crimping portion 3b. Therefore, with a simple operation of bringing the conductor portion 5 into contact with the contact wall 10,
When the conductor portion 5 is positioned with respect to the conductor crimp portion 3b and the conductor crimp portion 3b is caulked, the conductor portion 5 placed in the range of the length B of the fixed portion 10a is clamped by the conductor crimp portion 3b. It

The method of connecting the crimp terminal A ₂ and the electric wire W configured as described above will be described. The electric wire W is placed on the substrate 1 with the end face of the conductor portion 5 abutting against the contact wall 10. Then, the conductor portion 5 is positioned. Next, the conductor crimp portion 3b and the cover crimp portion 3a are caulked. By this caulking process, the conductor portion 5 is clamped between the fixed portion 10a and the conductor crimping portion 3b, and the coating 4 of the electric wire W is held by the coating crimping portion 3a (see FIG. 4).

Next, when an energy beam is applied to the contact wall 10 and the tip of the conductor portion 5 by a device similar to the energy beam generator 8 shown in FIG. 7, the upper layer portion of the conductor portion 5 is heated and welded. At the same time, the contact wall 10 melts and melts into the gap between the conductor portion 5 and the fixed portion 10a and the gap between the electric wires in the conductor portion 5, and the tip portion of the conductor portion 5 and the contact wall 10 are integrally welded. It Thus, the connection between the electric wire W and the crimp terminal A ₂ has a very low electric resistance and is maintained in a stable connection state that does not deteriorate due to aging.

FIG. 5 shows another embodiment of the present invention. After the end face of the conductor 5 is brought into contact with the contact wall 10, the tip 10b of the contact wall 10 is placed on the conductor 5. It is bent and overlapped, and the bent tip portion 10b is irradiated with an energy beam such as a laser to be melted, and the contact surfaces of the contact wall 10 and the conductor portion 5 are irradiated and integrated as in the above-described embodiment. Weld together. In this case, there is an effect that the bent tip portion 10b is melted down and the gap between the electric wires in the conductor portion 5 is filled.

[0016]

Since the present invention is constructed as described above, it has the following effects. (1) In the crimp terminal of the present invention, the contact wall is simply provided upright on the standard crimp terminal which has been used conventionally, and the cost hardly increases compared with the conventional crimp terminal. (2) Since the crimp terminal of the present invention can add the performance improvement by welding while making the most of the electrical and mechanical joining characteristics by crimping, extremely high reliability can be obtained. (3) Since the abutment wall functions as a wire positioning member when setting the wire, the work of setting the wire is facilitated and the position of the wire is set accurately. Further, the contact wall is melted by an energy beam such as a laser and is integrated with the electric wire conductor portion, so that the contact wall has a function of maintaining stable joining characteristics. (4) Since the conductor crimping part can have the current shape, data on design and characteristics in the past can be used, and development design cost can be kept low. The material of the contact wall can be selected optimally from materials other than brass.

[Brief description of drawings]

FIG. 1 is a perspective view of a crimp terminal of the present invention with an electrical connection portion removed.

FIG. 2 is a partially cutaway perspective view of FIG.

FIG. 3 is a vertical cross-sectional view of FIG.

FIG. 4 is a perspective view of a crimp terminal in which a conductor portion is crimped.

FIG. 5 is a vertical sectional view of a crimp terminal showing another embodiment of the present invention.

FIG. 6 is a perspective view illustrating caulking processing of a conventional crimp terminal.

FIG. 7 is a perspective view illustrating energy beam welding of a conventional crimp terminal.

[Explanation of symbols]

A, A _1, A ₂ Crimping terminal W Electric wire 1 Board part 3 Electric wire connecting part 3a Cover crimping part 3b Conductor crimping part 4 Coating 5 Conductor part 8 Energy beam generator 10 Contact wall 10a Fixed part

Claims (2)

[Claims] 1. A conductor crimping portion for sandwiching an electric wire conductor portion is erected on both sides of a substrate by crimping, and is made of a metal material having conductivity and capable of energy beam welding such as a laser on the substrate. A crimp terminal characterized in that a contact wall is provided upright. 2. A conductor crimping portion rising from both sides of the substrate,
On a substrate of a crimp terminal having a contact wall of a conductive material that is erected on the substrate, a wire conductor portion is placed, and the tip end surface of the conductor portion is brought into contact with the contact wall, and then, A method of connecting a crimp terminal and an electric wire, characterized by crimping the conductor crimp portion to the conductor portion, and then welding the contact wall and the tip of the conductor portion by an energy beam such as a laser. [0001]