CN113285321B - Wire correction method and wire correction device - Google Patents

Abstract

An electric wire correction method for correcting an attitude of a terminal (21) in an electric wire (11) in which a plurality of core wires (13) to which the terminal (21) is respectively attached are bundled by a sheath (19), the electric wire correction method comprising: the spacer (50) is disposed between terminals (21) attached to the core wire (13), and the spacer (50) is rotated alternately in one direction and the other direction about the axis of the wire (11) with respect to the wire (11).

Description

Wire correction method and wire correction device

Technical Field

The present invention relates to an electric wire correction method and an electric wire correction device.

Background

Patent document JP-a-H06-314585 describes an insertion device in which a pair of terminal holding claws hold a terminal, the posture of the terminal is adjusted, and the terminal is inserted into a terminal accommodating chamber of a housing. According to the device, even when the terminal is inclined with respect to the central axis of the electric wire, the terminal can be held and easily inserted into the terminal accommodation chamber of the housing.

Disclosure of Invention

For example, an electric wire such as a shielded electric wire used in ethernet (registered trademark) includes a plurality of core wires. In such an electric wire having a plurality of core wires, it is necessary to insert terminals attached to the end portions of the core wires into the housing at the same time. However, the above-described device has difficulty in clamping and inserting a plurality of terminals into the terminal accommodating chambers of the housing at the same time. Therefore, it is desirable to correct and align the attitudes of the plurality of terminals attached to the plurality of core wires of the electric wire in advance, and insert the corrected and aligned terminals into the terminal accommodating chambers of the housing at the same time.

The electric wire correction method and the electric wire correction device according to the embodiments of the present invention can easily correct the posture of the terminal attached to the plurality of core wires.

An electric wire correction method for correcting an attitude of a terminal in an electric wire in which a plurality of core wires to which the terminal is respectively attached are bundled by a sheath, the electric wire correction method comprising:

disposing a spacer between terminals attached to the core wire; and

the separator is alternately rotated in one direction and the other direction about the axis of the wire with respect to the wire.

Drawings

Fig. 1 is a perspective view of an electric wire having a plurality of core wires to which terminals are attached, respectively.

Fig. 2 is a perspective view of the electric wire correction device according to the embodiment of the present invention.

Fig. 3 (a) and 3 (B) are views showing the rotation of the correction portion constituting the electric wire correction device, and are front views of the electric wire correction device.

Fig. 4 is a perspective view showing the structure of a correction portion constituting the electric wire correction device.

Fig. 5 (a) to 5 (D) are views showing a correction process of correcting the posture of the terminal attached to the core wire by using the wire correction device, and fig. 5 (a) to 5 (D) each show a schematic side view and a schematic front view of the end portion of the wire.

Detailed Description

Specific embodiments of the present invention will be described below with reference to the accompanying drawings.

First, an electric wire in which the position of the terminal is corrected by the electric wire correction device according to the embodiment of the present invention will be described. Fig. 1 is a perspective view of an electric wire having a plurality of core wires each of which is attached with a terminal.

As shown in fig. 1, the electric wire 11 has four core wires 13, and is used for, for example, in-vehicle ethernet (registered trademark). These core wires 13 are each constituted by a conductor 15 and a sheath 17. The conductor 15 is formed by twisting a wire made of a conductive metal material such as copper, copper alloy, aluminum, or aluminum alloy, for example. The sheath 17 is made of an insulating resin material and covers the outer circumference of the conductor 15. These core wires 13 are bundled and covered with a sheath 19 made of an insulating resin material to form one electric wire 11.

At the end of the electric wire 11, the core wire 13 is exposed from the sheath 19. The conductors 15 are exposed at the ends of these core wires 13, and the terminals 21 are attached to the ends of the core wires 13 where the conductors 15 are exposed. The terminals 21 attached to the plurality of core wires 13 of the electric wire 11 are inserted and accommodated in the terminal accommodating chamber of the housing (not shown).

The terminal 21 is formed of a conductive metal material such as copper or copper alloy. In this example, the terminal 21 is a female terminal and is conductively connected to a male terminal. The terminal 21 has an electrical connection portion 23 and an electrical wire connection portion 25. The electrical connection portion 23 is formed in a square cylindrical shape, and is electrically connected to the male terminal by inserting a pin-shaped tab portion of the male terminal into the electrical connection portion 23. The terminal 21 is pressure-bonded and fixed by pressure-bonding the wire connection portion 25 to each core wire 13 where the conductor 15 is exposed.

Next, a wire correction device for correcting the posture of the terminal 21 of the wire 11 will be described.

Fig. 2 is a perspective view of the electric wire correction device according to the embodiment of the present invention. Fig. 3 (a) and 3 (B) are views showing the rotation of the correction portion constituting the electric wire correction device, and are front views of the electric wire correction device. Fig. 4 is a perspective view showing the structure of a correction portion constituting the electric wire correction device.

As shown in fig. 2, the wire correction device 100 includes a clamping mechanism 30 and a correction mechanism 40.

The clamping mechanism 30 has a wire housing portion 31 and a clamping portion 32. The wire housing portion 31 is formed in a groove shape capable of housing the wire 11. The electric wire 11 is fitted into the electric wire accommodation portion 31 from above so as to be accommodated in the electric wire accommodation portion 31. The clamp portion 32 has clamp claw portions 33, the clamp claw portions 33 are provided so as to be movable in directions approaching and separating from each other, and the end portions of the electric wires 11 accommodated in the electric wire accommodating portion 31 are interposed between the clamp claw portions 33. The clamping portion 32 clamps the end of the electric wire 11 with the clamping claw portion 33 by moving the clamping claw portion 33 in the direction approaching each other. Further, the clamping portion 32 releases the clamping of the electric wire 11 by moving the clamping claw portion 33 in the direction of separating from each other. In the clamping portion 32, the clamped electric wire 11 reciprocates along the axial direction thereof.

The correction mechanism 40 has a support portion 41 and a correction portion 42. The correction portion 42 is supported by the support portion 41. The correction portion 42 is rotatably supported about a horizontal axis with respect to the support portion 41. The rotation axis of the support portion 41 is coaxial with the axis of the electric wire 11 held by the holding portion 32 constituting the holding mechanism 30. That is, the correction portion 42 is rotatable about the axis of the electric wire 11 held by the holding portion 32.

As shown in fig. 3 (a) and 3 (B), the correction portion 42 rotatably supported by the support portion 41 is rotated left and right within a range of about 90 degrees by a rotation driving unit (not shown). Specifically, the correction portion 42 rotates about the axis of the electric wire 11 in one direction (direction indicated by arrow "a" in fig. 3 (a)) as shown in fig. 3 (a) and in the other direction (direction indicated by arrow "B" in fig. 3 (B)) as shown in fig. 3 (B).

As shown in fig. 4, the correction portion 42 has a partition 50 and a guide member 60. The partition 50 has a horizontal partition 51 extending in the horizontal direction and a vertical partition 52 extending in the vertical direction, and the vertical partition 52 is arranged orthogonal to the horizontal partition 51 to form a cross shape. The horizontal partition 51 and the vertical partition 52 have tapered portions 51a, 52a, respectively, and the tapered portions 51a, 52a are formed in a tapered shape in which the thickness gradually decreases toward the tip thereof.

The guide member 60 has a pair of horizontal guide members 61 and a pair of vertical guide members 62. The pair of horizontal guide members 61 are capable of sliding in directions approaching and separating from each other. Further, the pair of vertical guide members 62 can slide in directions approaching and separating from each other. In the vertical guide member 62, escape recesses 63 having openings facing each other are formed. The horizontal partition 51 and the vertical partition 52 constituting the partition 50 can be accommodated in the escape recess 63 of the vertical guide member 62. Further, the horizontal guide member 61 can be inserted into the escape recess 63 of the vertical guide member 62 and can be removed from the escape recess 63 of the vertical guide member 62.

The portion surrounded by the horizontal guide member 61 and the vertical guide member 62 in the correction portion 42 is divided into four terminal accommodation portions 71 by the horizontal partition 51 and the vertical partition 52 of the partition 50. The correction mechanism 40 is provided such that the terminals 21 of the respective core wires 13 attached to the electric wire 11 are inserted into the respective terminal accommodating portions 71 by the clamping portions 32 of the clamping mechanism 30 clamping and moving the electric wire 11 to the correction mechanism 40. The correction portion 42 has an abutment plate 73 on the deep side of the terminal accommodation portion 71. The tip of the terminal 21 inserted into the terminal accommodating portion 71 abuts against the abutment plate 73. The terminal 21 is positioned in the axial direction by abutting the tip end of the terminal 21 against the abutment plate 73.

Next, a method of correcting the electric wire 11 using the electric wire correction device 100 will be described.

Fig. 5 (a) to 5 (D) are views showing a correction process of correcting the posture of the terminal attached to the core wire by using the wire correction device, and fig. 5 (a) to 5 (D) each show a schematic side view and a schematic front view of the end portion of the wire.

As shown in fig. 5 (a), in the electric wire 11 having the plurality of core wires 13 to which the terminals 21 are attached at the ends, respectively, for example, the core wires 13 may extend to be separated from the axis of the electric wire 11, and the posture of the terminals 21 may be inclined and different.

In this way, the electric wires 11 of which the attitudes of the terminals 21 are different are accommodated in the electric wire accommodation portion 31 of the clamping mechanism 30 of the electric wire correction device 100. Then, in the clamp mechanism 30, the clamp portion 32 is driven to move the clamp claw portions 33 in directions approaching each other, and the vicinity of the end portion of the electric wire 11 is clamped and clamped by the clamp claw portions 33.

The clamping mechanism 30 moves toward the correction mechanism 40. Accordingly, as shown in fig. 5 (B), the terminals 21 attached to the respective core wires 13 of the electric wire 11 are inserted into the terminal accommodating portions 71 of the correction portion 42. Accordingly, the terminals 21 attached to the core wires 13 of the electric wires 11 are vertically and horizontally distributed by the horizontal partitions 51 and the vertical partitions 52 of the partitions 50 of the correction portion 42. At this time, the terminal 21 is positioned in the axial direction by abutting the tip end of the terminal 21 against the abutment plate 73.

As shown in fig. 5 (C), the pair of horizontal guide members 61 of the correction portion 42 move in the direction approaching each other, and the pair of vertical guide members 62 move in the direction approaching each other. Accordingly, the terminal 21 is pressed against the vertical partition 52 by the horizontal guide member 61, and both side surfaces of the terminal 21 are sandwiched between the vertical partition 52 and the horizontal guide member 61. Further, the terminal 21 is pressed against the horizontal partition 51 by the vertical guide member 62, and the upper and lower surfaces of the terminal 21 are sandwiched between the horizontal partition 51 and the vertical guide member 62. Accordingly, the terminal 21 is held in a state of being aligned in a posture along the axis of the electric wire 11.

Next, the correction portion 42 is rotated with respect to the support portion 41 in one direction (a direction in fig. 5 (C)) and the other direction (B direction in fig. 5 (C)). Accordingly, the terminal 21 held by the correction portion 42 rotates about the axis of the electric wire 11, and the core wire 13 drawn out from the electric wire 11 is twisted and aligned. The rotation of the correction portion 42 is preferably repeated a plurality of times.

Thereafter, the pair of horizontal guide members 61 of the correction portion 42 move in the direction of separating from each other, the pair of vertical guide members 62 move in the direction of separating from each other, and further, the clamp mechanism 30 moves in the direction of separating from the correction mechanism 40. Accordingly, each terminal 21 of the electric wire 11 whose posture is corrected is pulled out from the terminal accommodating portion 71 of the correcting portion 42. Further, the clamping claw portions 33 of the clamping portion 32 are moved in directions separating from each other, and the electric wire 11 can be taken out from the clamping mechanism 30.

In the electric wire 11, as shown in fig. 5 (D), the terminals 21 attached to the core wires 13 are aligned in a posture along the axis of the electric wire 11. Therefore, according to this electric wire 11, the plurality of terminals 21 can be inserted into the terminal accommodation chamber of the housing at the same time and easily attached.

As described above, according to the electric wire correction method and the electric wire correction device 100 of the present embodiment, the separator 50 is provided between the terminals 21 to which the core wires 13 led out from the end portions of the sheath 19 are attached, and the separator 50 is alternately rotated in one direction and the other direction about the axis of the electric wire 11 with respect to the electric wire 11. Therefore, the core wire 13 drawn out from the electric wire 11 can be twisted and aligned, and the posture of the terminal 21 attached to the core wire 13 can be simultaneously corrected and easily aligned.

Accordingly, the operation of inserting the terminal 21 into the terminal accommodation chamber of the housing can be smoothly performed, and for example, the operation of attaching the terminal 21 to the housing can be easily automated.

For example, in the case where the electric wire 11 has four core wires 13, a cross-shaped spacer 50 having a horizontal spacer 51 and a vertical spacer 52 is provided between the terminals 21 attached to the four core wires 13, and the cross-shaped spacer 50 is alternately rotated in one direction and the other direction about the axis of the electric wire 11 with respect to the electric wire 11. Therefore, the attitudes of the terminals 21 attached to the four core wires 13 can be corrected simultaneously and easily aligned.

Further, in a state where the terminal 21 is pressed against and held on the spacer 50 by the guide member 60, the spacer 50 rotates alternately with the guide member 60 in one direction and the other direction about the axis of the electric wire 11 with respect to the electric wire 11, so that the posture of the terminal 21 can be corrected to be aligned in the same direction.

In the above embodiment, the case where the terminals 21 of the electric wire 11 having the four core wires 13 to which the terminals 21 are respectively attached are aligned has been exemplified, but the number of the core wires 13 is not limited to four, and may be, for example, two or three. In the case where the electric wire 11 has two core wires 13, the horizontal partition 51 and the vertical guide member 62 may be removed, and the respective terminals 21 may be aligned and sandwiched between the vertical partition 52 and the horizontal guide member 61. Even when the number of core wires 13 is two, the cross-shaped partition 50 can be used as in the case of four core wires.

In the electric wire correction device 100, when the terminal 21 attached to each core wire 13 is a male terminal having a tab, the abutment plate 73 of the correction portion 42 is modified to an abutment plate for a male terminal having an escape portion into which the tab of the terminal 21 is inserted.

The present invention is not limited to the above-described embodiments, and modifications, improvements, and the like can be appropriately made. Further, the materials, shapes, sizes, numbers, arrangement positions, and the like of the constituent elements in the above-described embodiments are optional, and are not limited as long as the present invention can be implemented.

According to the above embodiment of the present invention, an electric wire correction method for correcting an attitude of a terminal (21) in an electric wire (11), in which electric wire (11) a plurality of core wires (13) to which the terminal (21) is respectively attached are bundled by a sheath (19), the electric wire correction method comprising:

disposing a spacer (50) between terminals (21) attached to the core wire (13); and

the separator (50) is rotated alternately in one direction and the other direction about the axis of the electric wire (11) with respect to the electric wire (11).

According to the electric wire correction method configured as above, the spacer is provided between the terminals to which the core wires led out from the end portions of the sheath are attached, the spacer is alternately rotated in one direction and the other direction with respect to the electric wire around the axis of the electric wire, and thus the core wires led out from the electric wire are twisted and straightened. Therefore, the posture of the terminal attached to the core wire can be corrected and easily aligned. Therefore, the work of inserting the terminal into the terminal accommodation chamber of the housing can be smoothly performed, and, for example, the work of attaching the terminal to the housing can be easily automated.

In the wire correction method, a cross-shaped spacer (50) may be inserted and disposed between terminals (21) to which two to four core wires (13) led out from the end of a sheath (19) are attached, and

the cross-shaped partition (50) is rotatable alternately in one direction and the other direction about the axis of the electric wire (11) with respect to the electric wire (11).

According to the electric wire correction method of the above configuration, the attitudes of the terminals to which the four core wires led out from the sheath are attached can be corrected simultaneously and easily.

In the wire correction method, the terminal (21) can be pressed against the separator (50) by the guide member (60), and

the partition (50) is rotatable with the guide member (60) alternately in one direction and the other direction about the axis of the electric wire (11) with respect to the electric wire (11).

According to the electric wire correction method of the above configuration, in a state where the terminal is pressed against and held on the spacer by the guide member, the spacer is rotated alternately in one direction and the other direction with respect to the electric wire around the axis of the electric wire together with the guide member, so that the posture of the terminal can be corrected to be aligned in the same direction. Therefore, the insertion of the terminals into the terminal accommodation chambers of the connector can be performed more smoothly.

An electric wire correction device (100) that corrects an attitude of a terminal (21) in an electric wire (11), in which electric wire (11) a plurality of core wires (13) to which the terminal (21) is respectively attached are bundled by a sheath (19), the electric wire correction device (100) comprising:

a clamping portion (32) that clamps the electric wire (11);

a correction portion (42) including a spacer (50) provided between the terminals (21), the terminals (21) being attached to the core wire (13) drawn out from an end of the electric wire (11) held by the holding portion (32); and

a support portion (41) that rotates alternately in one direction and the other direction with respect to the support portion (41) about an axis of the electric wire (11) held by the holding portion (32).

According to the electric wire correction device configured as above, the spacer of the correction portion is provided between the terminals attached to the core wire led out from the end portion of the sheath, the correction portion is alternately rotated in one direction and the other direction about the axis of the electric wire with respect to the electric wire held by the holding portion, and thus the core wire led out from the electric wire is twisted and straightened. Therefore, the posture of the terminal attached to the core wire can be corrected and easily aligned. Therefore, the work of inserting the terminal into the terminal accommodation chamber of the housing can be smoothly performed, and, for example, the work of attaching the terminal to the housing can be easily automated.

According to the embodiments of the present invention, it is possible to provide the electric wire correction method and the electric wire correction device capable of easily correcting the posture of the terminal attached to the plurality of core wires.

Claims (2)

1. An electric wire correction method for correcting an attitude of a terminal in an electric wire in which a plurality of core wires to which the terminal is respectively attached are bundled by a sheath, the electric wire correction method comprising:

disposing a spacer between the terminals attached to the plurality of core wires; and

the separator is rotated alternately in one direction and the other direction about the axis of the wire with respect to the wire,

wherein the cross-shaped partition is inserted and disposed between the terminals attached to the two to four core wires led out from the end portions of the sheath,

the terminals are pressed against the cross-shaped partition by the guide member, and

the cross-shaped partition rotates alternately in one direction and the other direction about the axis of the electric wire with respect to the electric wire together with the guide member.

2. An electric wire correction device that corrects an attitude of a terminal in an electric wire in which a plurality of core wires to which the terminal is respectively attached are bundled by a sheath, the electric wire correction device comprising:

a clamping portion that clamps the electric wire;

a correction portion including a spacer provided between the terminals attached to the plurality of core wires, the core wires being led out from an end portion of the electric wire held by the holding portion; and

a supporting portion with respect to which the correction portion is alternately rotated in one direction and the other direction about an axis of the electric wire held by the holding portion,

wherein the cross-shaped partition is inserted and disposed between the terminals attached to the two to four core wires led out from the end portions of the sheath,

the terminals are pressed against the cross-shaped partition by the guide member, and

the cross-shaped partition rotates alternately in one direction and the other direction about the axis of the electric wire with respect to the electric wire together with the guide member.