JP2998451B2 - Termination method of flat cable - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a flat cable terminal processing method for exposing a predetermined area of signal lines near a terminal of a flat cable in which a plurality of signal lines are insulated and coated in parallel. The present invention relates to a flat cable terminal processing method for securing parallelism of signal lines and facilitating connection to a connector and improving productivity.

For example, when a flat cable for connecting electronic devices is connected to a connector at the terminal, a signal wire of a predetermined length near the terminal is exposed to the external connection terminal area of the connector terminal by pressing or the like. The technique of connecting by means is often used.

[0003] In this case, since the adhesion between the signal line and the insulating coating material is generally strong, the parallelism of the signal line in the exposed area may be lost in the operation of exposing the signal line of a predetermined length. There is a need for a uniform man-hour for adjusting the signal line when connecting to the connector.

[0004]

2. Description of the Related Art FIG. 3 is a diagram for explaining a technical background, FIG. 4 is a diagram for explaining an example of a conventional terminal processing method in steps, and FIG. 5 is a diagram for explaining a problem.

FIG. 3 schematically illustrates a technique for connecting a flat cable (hereinafter simply referred to as a cable) to a connector at its terminal, where (3-1) is an abbreviation of a method for connecting the cable and the connector. (3-2) shows a terminal processing state of a cable suitable for such connection.

FIG. 1 shows an example in which the connector to be connected is the plug side. Connector 1 at (3-1) in the figure
One end is a plug contact 11a having a straight shape, and after passing through an intermediate portion 11b which is a fixing portion to the insulator 12, the other end is formed into a plurality of pressure contact terminals 11c branched into two branches.
Are arranged in the insulator 12 in two rows in a staggered manner in each of the above-mentioned intermediate regions.

The reason why the plug terminals 11 are implanted in two rows in a staggered manner is to cope with a pitch p between adjacent terminals which is reduced in accordance with a demand for miniaturization of a connector. On the other hand, the cable 2 connected to the connector 1 has a signal line 21 positioned in parallel at a pitch p equal to the pitch between the terminals of the connector 1 and an insulating coating layer such as a fluorine resin.
It is formed by coating with 22.

In order to connect the connector 1 to the cable 2, for example, the connection area of the cable 2 with the connector 1 is limited to only the signal lines without the coating layer, and then the signal lines exposed in parallel are collectively connected. Contact terminals 11c of the connector 1
And press-fit it to connect them.

In this case, when the covering layer 22 is removed by using the end of the cable 2 as a connection region to the connector 1, the exposed signal lines form free ends, and therefore the respective directions are not constant. At the time of the press-contact operation to No. 1, it is necessary to perform a step of laying out each signal line in accordance with the corresponding press-contact terminal 11c.

Therefore, as shown in (3-2), the cable 2 in a state where the signal line in the predetermined area A near the terminal is exposed, in other words, in a state where both ends are held in parallel by the coating layer 22. Each signal line 21 located in the area A is press-fitted into the press-contact terminal 11c of the connector 1 to be connected thereto.

FIG. 4 for explaining an example of a conventional terminal processing method for forming such an area A, wherein (4-1) shows a state before the processing and (4-2) shows a state after the processing. . (4-
In (1), two cutters 3a and 3b are arranged facing each other at positions corresponding to the upper and lower portions near the end of the cable 2 described in FIG.

Therefore, as shown by arrows a ₁ and a ₂ , the cutters 3 a and 3
b is cut into the coating layer 22 until the distance between the blades is close to the diameter d of the signal line 21, for example, and then the cutters 3a, 3b
Are moved toward the end of the cable 2 by a distance A sufficient to form the region A described in FIG.
By moving the coating layer 22 'located on the end side from the end side to the end side and further separating the cutters 3a and 3b in the vertical direction, the signal line exposure area A described in FIG. ) Can be formed.

In the cable 2 having the signal line exposure area A, both ends of the exposed signal line portion are held by the covering layers 22 and 22 'so that they are kept in a parallel state. There is an advantage that the press-contact operation to the connector can be performed without performing the operation.

[0014]

However, since such a flat cable is generally formed by integrating a signal line and an insulating coating layer, the adhesion between the signal line and the insulating coating layer is strong.

FIG. 5 is a plan view showing an example of the state of the signal line exposed area A formed by the method described with reference to FIG. 4, and the signal line exposed area A of the cable 2 is indicated by a dashed line near the end of the cable 2. cutter 3a described in FIG. 3 to the position shown by B _1, Figure 4 3b
After forming the same cut, cutter 3a, dashed line a 3b B ₂
It is formed by moving to the position indicated by.

[0016] In this case a strong adhesion between the signal line 21 exposed to the area A and the insulating cover layer 22, the coating layer to move to the position indicated by the cut once the one-dot chain line B ₂ by the cuts
The peeling / moving between the signal line 22 'and the signal line 21 is not performed smoothly, and as a result, a part of the coating layer 22' is pulled back to the cable main body side as shown in FIG. Will be.

If the return to the cable main body side in this case becomes large near the center in the width direction of the cable 2 as shown in the figure, for example, the signal line 21 in the region where the return amount is large, that is, the center in the width direction. Will bend.

This is because the pull-back region of the cable 2 due to the adhesion between the signal line 21 and the insulating coating layer 22 is not limited to only the vicinity of the center in the width direction particularly illustrated.
This shows that the above-described bending of the signal line 21 can occur everywhere.

Therefore, since the signal lines 21 cannot be kept parallel in the signal line exposure area A, the signal lines 21 cannot be brought into contact with the press contact terminal 11c at a time. When connecting the signal line 21 to the corresponding insulation displacement terminal 11c
It is necessary to arrange the work to match

Therefore, in the conventional cable terminal processing method,
At the time of press-connecting to the connector, there is a case where it is necessary to perform a wire-laying work for matching the signal line with the corresponding press-connecting terminal, and there is a problem that improvement in productivity cannot be expected.

[0021]

Means for Solving the Problems The above object is achieved by a flat cable.
A terminal processing method for a flat cable that exposes a signal line to a predetermined region near a terminal of a cable, wherein the entire area from the terminal of the flat cable to the predetermined region has a thickness corresponding to substantially the diameter of the signal line. from by pressing from both sides to remain
A step of releasing the pressing, the pressing of the flat cable
Forming a cut from both sides by the upper boundary line between the area and the non-press area substantially equal to the depth and the pressing amount, the pressing territory
A step of moving the insulating coating layer of the band on the terminal side in a range that does not exceed the length of the pressing pressure zone is achieved by the terminal processing method of the flat cable that including.

[0022]

When the signal line is forcibly peeled off from the insulating coating layer, the signal line in the signal line exposed area can be made parallel by, for example, performing a conventional cable terminal processing method.

Therefore, in the present invention, the entire area from the terminal of the cable to the required position near the terminal is pressed from both sides until the thickness becomes substantially equivalent to the diameter of the signal line, and then the pressing is released, thereby covering the area. The layer is plastically deformed to forcibly separate the signal line from the coating layer.

This means that the signal lines in the signal line exposed area
This indicates that the parallel state can be ensured because the body 21 is held by the body-side covering layer 22 of the cable 2 and the terminal-side covering layer 22 'that can move smoothly with respect to the signal line 21.

Accordingly, each signal line can be matched with the corresponding pressure contact terminal of the connector without performing the signal line laying operation, and the press contact operation to the connector with high productivity can be realized.

[0026]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 is a process diagram for explaining a cable terminal processing method according to the present invention, wherein (1-1) illustrates a pressing operation, and (1-2) illustrates a cable state at the time of pressing. FIG. 3 (1-3) is a diagram illustrating a method of forming a signal line exposed area together with a peeling state between a signal line and a coating layer.

FIG. 2 is a process chart for explaining another terminal processing method. Note that, in the drawings, the case of the cable described in FIGS. 3 and 4 is illustrated, and therefore, the same target members and parts as those in FIGS. 3 and 4 are denoted by the same symbols.

In (1-1) of the figure, the cable 2 described with reference to FIG. Therefore, the cable 2
Predetermined position from the terminal of the terminal near the pressing the entire region up to the (position to the dashed line B ₁ in FIG. 5) at block 32 to a position leaving the diameter d of the signal lines 21 of the cable 2, (1-2) State.

In this case, the covering layer 22 located on the diameter of each signal line 21 in the thickness direction of the cable 2 is compressed to almost zero thickness by the base 31, the signal line 21, and the block 32 and is plastically deformed. Therefore, when the block 32 is raised (1-3), a space area B can be formed in the vertical direction of the signal line 21 as shown in the enlarged extraction diagram (1).

This indicates that the adhesion between the signal line 21 and the coating layer 22 has been broken at least in the vertical direction. Therefore, the cutter 3a, 3b described in FIG.
It is possible to form the signal lines exposed region A indicated by moving in Figure 4 the same a _1, a ₂ direction after forming a 22a in (4-2) of FIG.

In this cable terminal processing method, since the adhesion of the coating layer 22 'moving to the terminal side to the signal line 21 is weakened, the coating layer 22' described in FIG. Each signal line in the signal line exposure area A
21 can be maintained in a parallel state, and productivity can be improved by increasing the efficiency of the press-contact operation to the connector.

In FIG. 2 for explaining another terminal processing method, (2-
1) and (2-2) show the same state as in FIG. 1. In the state (2-3) in which the block 32 similar to FIG. 1 is raised, as shown in the enlarged extraction diagram (2), A space area B is formed above and below the signal line 21.

[0033] Therefore, when irradiated while moving from the cable 2 terminal laser light L emitted on the line at a predetermined position of the terminal near (line indicated by a one-dot chain line B ₁ in FIG. 5) from Rezagan 41 in the width direction, the laser Since the coating layer 22 irradiated with the light L is melted, a cut 22b can be formed. However, the cut 22b can be formed by appropriately setting the intensity of the laser light L in advance.
You can change the depth of b.

Therefore, for example, by making the depth of the notch 22b deep to the extent of the extraction diagram (2) beyond the signal line 21, the adhesion between the coating layer 22 and the signal line 21 can be almost eliminated. A coating layer 2 located on the terminal side from the cut 22b.
By holding 2 'with a holding jig (not shown) and moving it to the terminal side, the signal line exposure area A shown in (4-2) of FIG. 4 can be formed as in the case of FIG. .

[0035]

As described above, according to the present invention, there is provided a flat cable terminal processing method in which the parallelism of signal lines in the signal line exposed area is ensured to improve the productivity by facilitating the press-contact operation to the connector. be able to.

[Brief description of the drawings]

FIG. 1 is a process diagram illustrating a cable terminal processing method according to the present invention.

FIG. 2 is a process diagram illustrating another terminal processing method.

FIG. 3 is a diagram illustrating a technical background.

FIG. 4 is a view for explaining a conventional terminal processing method in steps.

FIG. 5 illustrates a problem.

[Description of Signs] 2 Flat cable 3a, 3b cutter 21 signal line 22, 22 'insulating coating layer 22a, 22b cut 31 base 32 block

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-4-183211 (JP, A) JP-A-61-112516 (JP, A) JP-B-50-23148 (JP, B1) (58) Field (Int.Cl. ⁷ , DB name) H02G 1/14 H01R 9/07 H02G 1/12

Claims (3)

(57) [Claims] 1. A predetermined area near a terminal of a flat cable
To a terminal processing method of the flat cable to expose the signal line, the entire region from the flat cable terminal to the predetermined area
The pressing and the step of releasing the pressing after pressing from both sides to a thickness corresponding to nearly the diameter remains, the upper boundary <br/> line between the pressing region and the non-press area of the flat cable of the signal lines forming a cut from both sides in depth approximately equal to the amount, and the step of moving the terminal side in a range that does not exceed the length of the pressing pressure region the insulating coating layer of the press area, and wherein Rukoto including Of flat cable termination. 2. A notch formed in the flat cable according to claim 1, wherein the notch formed on the both sides of the flat cable is a boundary line pair.
A flat cable terminal processing method , comprising: forming two cutters disposed opposite to each other on a service line so as to approach an interval substantially corresponding to a diameter of the signal line. 3. The flat cable according to claim 1, wherein the cut formed in the flat cable is formed by a laser beam emitted from a laser light source installed on one side of the flat cable .
For flat cable termination .