1. Field of the Invention
The present invention relates to an electric wire press fitting method in which an aluminum core wire of each of two aluminum wires is stranded to each other and inserted into a sleeve, and the aluminum core wire of each of two aluminum wires are compressed and swaged along with the sleeve.
2. Field of the Invention
When aluminum wires are press fitted and swaged under the same conditions as copper wires, there are concerns that the strength of a terminal press fitting part is degraded, and stable conduction cannot be maintained between the aluminum wire and the terminal. Therefore, in Patent Document 1 described as follows, a terminal press fitting structure of press fitting a terminal into an aluminum wire formed by sheathing a number of stranded wires is proposed. In the terminal press fitting structure, a wire barrel of a closed barrel type terminal is press fitted into a conductor portion of the aluminum wire such that the upper portion of the wire barrel is crushed into a substantially W shape in an end face view.
Patent Document 1: JP-A-2005-327690
In the terminal press fitting structure, since press fitting was performed to crush the upper portion of the closed barrel to show the substantially W shape in the end face view, the press fitting operation was complex.
In order to solve the above-mentioned problem, an object of the invention is to provide an electric wire press fitting method.
This invention provides with an electric wire press fitting method, in which an aluminum core wire of each of the two aluminum wires are stranded to each other and inserted into a sleeve, and the aluminum core wire of each of the two aluminum wires are compressed and swaged along with the sleeve, wherein the sleeve includes a main body made of copper or a copper alloy; and the compression is performed on the aluminum core wire of each of two aluminum wires at a compression ratio of 50 to 85% by the main body.
According to the invention, a plurality of the aluminum core wires are compressed by the main body of the sleeve into which the aluminum cores are inserted, the main body being made of copper or a copper alloy, at a compression ratio of 50 to 85%, so that the press fitting operation can be performed in the same manner as copper wires, and it is possible to enhance the operability of the press fitting operation of the aluminum wires.
Hereinafter, an embodiment of the invention will be described with reference to the accompanying drawings.
The sleeve 1 illustrated in
A press fitting method of the aluminum wires 2 using the sleeve 1 will be described with reference to
A press fitting structure of the aluminum core wires 22 configured as described above will be described with reference to
A relationship between the peeling strength between the aluminum core wires 22 press fitted using the sleeve 1 and the compression ratio of the aluminum core wires 22 will be described.
The graph of
For example, when the compression ratio becomes close to 50%, a difference of about 30N between the peeling strengths of the “average value-3σ” which is smallest and the “maximum value” which is largest is recognized. In addition, in the case where the compression ratio reaches 85 to 90%, in addition, a difference of about 30N between the peeling strengths of the “average value-3σ” which is smallest and the “maximum value” which is largest is recognized. With regard to this, when the compression ratio is close to 68%, the difference between the peeling strength of the “average value-3σ” which is smallest and the “maximum value” which is largest is reduced to about 20N.
Next, a relationship between the strength of a press fitted portion of a sleeve swaging product repaired using the sleeve 1 and the compression ratio of the aluminum core wires 22 will be described.
The graph of
For example, it is recognized that when the compression ratio is above 85% and approaches 90%, the maximum value (MAX) of the resistance after 240 cycles is above 30 (mΩ), however, when the compression ratio is below 85%, the maximum value (MAX) of the resistance after 240 cycles of the aluminum wire is below 5 (mΩ). As described above, the center portion 11 is compressed to achieve a compression ratio of 50 to 85%, so that the contact resistance of the aluminum wire 2 after swaging can be equal to or less than 5 mΩ in which is in a stable area. The compression ratio is selected from values of 50 to 85% so that the contact resistance of the aluminum wire 2 is in a more stable area of the contact resistance of 5 mΩ or less.
As described above, according to this embodiment, the center portion 11 is compressed to allow the compression ratio of the aluminum core wire 22 to be in the range of 50 to 85%, so that the contact resistance of the swaging product of the aluminum wire 2 can be allowed to have a small value, and sufficient fixing force of the aluminum core wire 22 can be obtained. Therefore, by performing the press fitting operation of the aluminum wire 2 in the same manner as the copper wire, it is possible to enhance the press fitting operability.
In addition, a terminal (the main body 13 in the sleeve 1) made of copper or copper metal (for example, galvanization) generally used for a connection with a plurality of copper wires is swaged to allow the compression ratio of the aluminum core 22 to be in the range of 50 to 85% so as to suppress the deterioration of electrical characteristics. Accordingly, for example, for the maintenance by a repairman or the like, instead of the aluminum terminal, a terminal made of copper or a copper alloy that has been spread in advance may be used.
In addition, in this embodiment, the case where the sleeve 1 includes the insulator 10 made of resin and the main body 13 made of copper or a copper alloy has been described. However, the material of the insulator 10 of the sleeve 1 is arbitrary, and other materials may also be employed. In addition, the method of fixing the main body 13 to the inner surface of the insulator 10 is also arbitrary.
Number | Date | Country | Kind |
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2008-323773 | Dec 2008 | JP | national |