JP2000164052A - Flat conductor aligning jig - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an aligning jig capable of aligning a plurality of flat conductors precisely. SOLUTION: An aligning jig is composed of a first jig part 41 having a plurality of grooves 42 for guiding parallel a plurality of flat conductors 25 (25a, 25b,...) at a specified spacing and a second jig part 45 consisting of a pair of horizontally maintaining members 43 and 44 arranged so that the flat conductors 25 are maintained horizontally from above and below on that side of the first jig part 41 whereto flat conductors 25 (25a, 25b,...) intrude.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a jig for arranging a plurality of rectangular conductors parallel to each other in the same plane when manufacturing, for example, a flat cable used for electrical connection in electronic equipment and the like. About.

[0002]

2. Description of the Related Art Conventionally, flat cables have been used in electronic equipment such as VTRs, audio equipment, personal computers, and in-vehicle equipment. This flat cable is constituted by covering a conductor row in which a plurality of rectangular conductors are arranged in parallel in the same plane with a covering material from both sides, for example, an insulating tape such as PET (polyethylene terephthalate) having an adhesive layer on one side. You. Since this flat cable is flat and flexible, it is suitable for use as a connection line in a small electronic device, for example.

[0003] In a conventional flat cable, there are a PET-ADH type and a PET-PVC type as a structure of a covering material. As the PET-ADH type, a 45 μm thick adhesive layer (A) is formed on one side of an insulating film made of polyethylene terephthalate (PET) having a thickness of 25 μm.
(DH: ADHESIVE) is used. In the case of PET-PVC type, the thickness is 12 to
An insulating film made of polyethylene terephthalate (PET) having a thickness of 50 μm is coated with an adhesive layer made of polyvinyl chloride (PVC) on one side thereof at a thickness of 80 μm or more.

[0004] Usually, this flat cable is manufactured by a method as shown in FIG. 15, for example. That is, as shown in FIG. 15, a flexible first covering material in which square holes 1 for terminals are previously formed at a predetermined pitch corresponding to the length of the flat cable, that is, an insulating film having an adhesive layer on the inner surface. 2 (2A, 2B) material 3 (3A, 3B)
From the two webs 3A and 3B, the insulating films 2A and 2B, and the conductive wire array 4 in which a plurality of rectangular conductors 4a and 4b are arranged in parallel on the same plane and sent to both films 2A and 3B. The three conductors are laminated between the pair of laminating heating rolls 5A and 5B so that the conductive wire array 4 is sandwiched between 2B. After lamination, the laminated sheet is cut from the center position of the square hole 1, and unnecessary portions at both ends are cut as shown in FIG. 16 to produce a flat cable 6 in which the terminal portions 4 </ b> E of the conductive wire row 4 are exposed from both ends. Is done.

In the example shown in FIG. 16, the terminal portion 4E of the conductive wire row 4 has a structure in which the upper and lower surfaces are exposed. However, it is also possible to manufacture such that only one side is exposed, for example. In that case, the square hole 1 can be manufactured by forming only one of the insulating films 2A.

On the other hand, in the manufacturing process of such a flat cable, it is necessary to supply a plurality of rectangular conductors to the heating roll in a state of being aligned, and therefore, before entering the heating rolls 5A and 5B as shown in FIG. , An alignment jig 8 for aligning the rectangular conductors 4a, 4b # is arranged. 9A and 9B are drive rollers for transporting the laminated sheet. Usually, this alignment jig 8 is, for example, a roll with a concave groove formed on the circumference with a concave groove for guiding each of the rectangular conductors 4a, 4b #,
Alternatively, as shown in FIG. 14, it is considered that the groove 10 is formed by a grooved plate 11 formed on a plane.

A conventional flat cable such as PET-A
When a DH type flat cable is incorporated in an electronic device, it is difficult to assemble it inside a high-density, thin electronic device having high rigidity, and furthermore, its flexibility is poorer than that of a flexible printed wiring board. There is a limitation in using it for sliding parts such as printers, floppy disks, and hard disks.

In the case of a PET-PVC type flat cable, the thickness of the base film is 12 to 16 μm.
However, since the thickness of the adhesive layer is 80 μm or more, the thickness of the coating material becomes thicker than that of the PET-ADH type, resulting in the same problems as described above.

As a remedy for such a point, it is conceivable to construct a flat cable using a thinner base film and an adhesive layer. However, a conventional method cannot produce a thinner cable. Was.

That is, in the production of a flat cable,
As shown in FIG. 15, the insulating film 2 provided with a square hole 1 in advance at a position corresponding to the terminal portion is fed with a predetermined tension and supplied between the heating rolls 5A and 5B.
Is easily deformed. Therefore, it is necessary to lower the tension so that the square hole 1 is not deformed when supplying between the heating rolls 5A and 5B. However, when the tension is reduced, the insulating film having the square holes 1 easily moves in the width direction in the heating roll portion, and the rigidity of the film is reduced due to the opening of the square holes, and wrinkles occur in the flat cable during lamination. It will be easier. In particular, when a base material such as PET is used as the insulating film 2, wrinkling is more remarkable as the thickness of the base material or the thickness of the applied adhesive layer is smaller.

These wrinkles are extremely problematic in the dimensions and appearance of the flat cable and must be strictly defined. Therefore, a high-quality flat cable which is thin and lightweight, has high bending characteristics, and does not generate wrinkles, and a method for manufacturing the same are desired.

[0012]

In manufacturing such a high-quality flat cable, it is necessary to align a plurality of rectangular conductors with high precision. However, as a flat cable manufacturing apparatus, the heating roll 5 described above is used.
In the alignment jig 8 disposed immediately before A and 5B, for example, in the case of a roll with a concave groove, the contact surface of the heating rolls 5A and 5B cannot be so close to the flat jig 4
a, 4b} could not be accurately aligned in parallel within the tolerance of the product standard. In addition, it is difficult to insert a rectangular conductor into the groove on the circumference.

Further, as shown in FIG. 14, in the case of an alignment jig 8 using a so-called grooved plate 11 having grooves 10 which are parallel to a plane and formed precisely at predetermined intervals, each groove 10 When the rectangular conductors 4a, 4b # are guided, the rectangular conductors 4a, 4b # may be inclined and guided in the groove 10. In this state, since there is a space S between the side surface of the concave groove 10 and each side surface of the rectangular conductors 4a, 4b #, the rectangular conductors 4a, 4b # meander in the concave groove 10 and are difficult to align with high accuracy. There was a problem.

In view of the above, the present invention provides a flat conductor aligning jig capable of accurately aligning a plurality of flat conductors in parallel when manufacturing a flat cable, for example.

[0015]

According to the present invention, there is provided a flat conductor aligning jig comprising: a first jig portion having a plurality of concave grooves for guiding a plurality of flat conductors in parallel at predetermined intervals; The first jig portion includes a second jig portion formed of a pair of horizontal maintaining members arranged so as to maintain the flat rectangular wire horizontally from above and below on the side where the flat rectangular wire enters.

In the jig for arranging a rectangular conductor according to the present invention,
The combination of a first jig portion having a plurality of concave grooves for guiding the flat wire and a second jig portion composed of a pair of horizontal maintaining members for maintaining the flat wire horizontally, As a result of being fed horizontally by the second jig part and being guided at both sides by the concave grooves of the first jig part, the flat conductors are arranged at predetermined pitches so as to be horizontal and parallel to each other. Can be supplied.

[0017]

Embodiments of the present invention will be described below with reference to the drawings. This example is a case where the present invention is applied to manufacture of a flat cable.

FIG. 3 shows an example of a flat cable according to the present invention, which is thin and lightweight and has high bending characteristics. In the figure, reference numerals 21 and 22 denote an insulating film 23 and a strip-shaped covering material having an adhesive layer 24 on the inner surface thereof. Reference numeral 25 denotes a conductor row in which a plurality of rectangular conductors 25a, 25b,. Show.

The insulating film 23 has a thickness t ₁ of 15 μm.
Hereinafter, an insulating film of 15 μm to 3 μm, preferably 12 μm in the present embodiment is used. As the insulating film, a film of polyethylene terephthalate, polyethylene naphthalate, polyimide, polycarbonate, polyphenylene sulfide, vinyl chloride, paper or the like is used. The thickness t _{2 of the} adhesive layer 24 is 25.
μm or less, preferably 25 μm to 10 μm, and in this example, 2 μm
It is formed by applying a 5 μm adhesive layer. As the adhesive layer 23, for example, polyester, epoxy, nylon,
Adhesive layers such as acrylic, urethane, elastomer, and vinyl chloride can be used.

The rectangular conductors 25a, 25b,... May have a thickness of, for example, 35 μm and a width of 0.8 mm. This can be formed into a rectangular shape by rolling a copper round wire, and tin plating of 2 μm or more is applied to the surface. The rectangular conductors 25a, 25b,.
It is sufficient if it is 0 μm or less, for example, 18 μm is possible. The conductor width is determined by the pitch of the final shape. The width of 0.8 mm in this example is a case of a pitch of 1.25 mm. When the pitch is 1.0 mm, the width is 0.7 mm and the pitch is 0.8
In the case of mm, the width is about 0.4 mm. The surface treatment can be performed by solder plating in addition to tin plating.

Then, as shown in FIG. 3A, the first covering material 21, the second covering material 22, and the conductor row 25 of the rectangular conductors are arranged in three layers, and after being laminated and crimped, the first covering material corresponding to the terminal portion is formed. After the covering member 21 is removed to expose the terminal portion 25E of the rectangular conductor, a reinforcing member 26 is attached to the back surface corresponding to the terminal portion 25E so as to have a strength capable of being inserted into a connector or the like (FIG. 3B). reference).

As a reinforcing material 26, an adhesive layer 28 having a thickness of 40 μm is formed on one surface of an insulating film 27 having a thickness of 188 μm.
It is composed of a reinforcing tape having This insulating film 2
As the material of the adhesive 7 and the adhesive layer 28, the same material as the covering material 22 described above can be used. In this example, the total thickness D at the terminal portion is set to 0.3 mm in order to have strength for insertion into the connector.

According to the flat cable 30 of this embodiment, the thickness t ₁ of the insulating film 23 and the thickness t of the adhesive layer 24
₂ is reduced to about 従 来 of the conventional one, so that the flat cable 30 can be reduced in thickness and weight. In addition, it has high flexibility. Furthermore, since it is rich in flexibility, it has very good followability to the shape, which is advantageous for routing in an electronic device. Further, by reducing the amounts of the insulating film 23 and the adhesive layer 24 to １ ／, the use efficiency of the covering materials 21 and 22 during lamination can be improved, and the speed can be increased. Is improved, and costs are reduced.

Next, a method of manufacturing a flat cable which can be applied to the manufacture of the above-described thin and lightweight flat cable having high bending characteristics will be described with reference to FIGS.

First, as shown in FIG. 5, a first insulating film 23 having an adhesive layer 24 having a predetermined thickness on one surface of a strip-shaped insulating film 23 is formed.
And second coating materials 21 and 22 are prepared, and strip-like strippable thin materials 32 are attached to the adhesive layer 24 of the first coating material 21 at positions corresponding to the respective terminal portions described later. . This peelable thin material is subjected to a peeling treatment on the surface opposite to the side to be bonded to the adhesive layer 24, and in this example, one end of the strip-shaped peelable thin material 32 is closer to the edge of the coating material 21 than the edge of the coating material 21. It is stuck so as to protrude partially outside. The peelable thin material 32 can be formed of paper, a resin material, or the like.

A cut 33 is formed in the first covering material 21 along the outer shape of the peelable thin material 32. In this example, the cut 33 is formed at a predetermined length along both sides of the thin material 32 from the side where the peelable thin material 32 protrudes,
A cut 33 is formed along the edge of the thin material 32 on the side where the thin material 32 does not protrude, slightly longer than the width of the thin material 32.

More specifically, the first and second coating materials 21 and 22 have the same width and are wound in a predetermined roll shape.
In the course of the transfer to A and 5B, cuts 33 having a predetermined pitch are formed in the first covering material 21 and a peelable thin material 32 is adhered.

As shown in FIG. 6, a conductor array 25 in which a plurality of rectangular conductors 25a, 25b,... Are arranged in parallel on a same plane at a predetermined pitch, and first and second covering members 21 and 22 are provided. Are continuously supplied between the heating rolls 5A and 5B in synchronization with each other. The two coating materials 21 and 22 are transported with the adhesive layer 24 inside and the conductor line 25 interposed therebetween. Then, between the heating rolls 5A and 5B, the first and second coating materials 21 and 22 and the conductor row 25
Are laminated by thermocompression bonding, and the conductor row 25 is covered with the first and second covering materials 21 and 22. The laminating conditions were a temperature of 120 ° C. and a pressure of 10 to 20 kgf.
/ Cm and a transfer speed of 1 m / min.

Next, the laminate sheet is peeled off from the protruding portion of the peelable thin material 32 as shown in FIG. At this time, since the cut 33 is formed in the first coating material 21 along the peelable thin material 32, the thin material 3
2 at the same time, the first cut from the cut 33
A part of the covering material 21 is removed, so that the terminal portion 25E is exposed to the outside.

As shown in FIG. 7, the first covering material 21 around the peeled thin material 32 after being peeled off is not completely adhered as shown in FIG. 7, and a floating portion 34 may remain. .
Therefore, as shown in FIG. 8, a reinforcing material 26 is arranged on the back surface of each terminal portion 25E, that is, on the back surface side of the second coating material 22, and is press-bonded via a pressure heater 35 to form a sheet-like body shown in FIG. 1
Make 6.

Next, the sheet-like body 36 is cut from the position of the chain line 37 by means such as a cutter to complete the target flat cable 37 shown in FIG. In this example,
This is a case where a flat cable having six flat conductors 25a, 25b,. A flat cable 37 having the rectangular conductors 25a, 25b, ‥‥ is formed. That is, the first,
The width of the second covering members 21 and 22 is wide, and a wire array 25 in which 12 rectangular wires are arranged so as to form a set of six is supplied and laminated, and the terminal portion 25E is formed. After being exposed, the terminal portion 25E is arranged along the longitudinal direction of the flat cable at an intermediate position between the six sets.
Is cut into two to produce a target flat cable.

According to the method of manufacturing the flat cable 37, since the first and second covering members 21 and 22 are not provided with a rectangular hole in advance as in the prior art, a sufficient tension is applied between the heating rolls 5A and 5B. When supplying and laminating,
Laminating can be performed in a normal state without any wrinkling of the coating materials 21 and 22 and no shrinkage of the dimension between the rectangular conductors due to external force. Then, after laminating, the peelable thin material 32 is peeled off from the protruding portion, and at the same time, a portion of the first covering material 21 corresponding to the terminal portion is removed, thereby facilitating the exposure of the terminal portion 25E. be able to.

At the time of peeling of the strippable thin material 32, the notch 33 is formed in the first coating material 21 in advance along the outer shape of the thin material 32, so that the first coating material can be more simply and linearly formed. 21 can be partially removed. As a result, a flat cable having no wrinkles and good dimensions and appearance can be manufactured.

By using such a manufacturing method, it is possible to manufacture the above-described flat cable 30 having a thin and light weight and high bending characteristics as shown in FIG. The manufacturing conditions for manufacturing the flat cable 30 are as follows. Adhesion condition of peelable thin material 32: 100 ° C., 5 seconds, 3 kg /
cm ² lamination conditions: 120 ° C., 10 kgf / cm, 1 m /
Min. Adhering condition of reinforcing material 26: 150 ° C., 10 seconds, 5 kg / c
The cutting from the m ² chain line 37 is performed by a fixed cutter blade or a rotary blade, and the sheet 36 is pulled while applying a brake at a speed of 3 m / min, and the position of the chain line 37 along the longitudinal direction of the sheet 36 first. Disconnect. Next, the terminal portion 25E
Is cut at the position of the dashed line 37 that divides into two. The manufacturing method of this embodiment can be applied to the manufacture of a flat cable having a normal thickness, in addition to the manufacture of the flat cable 30 shown in FIG.

FIG. 4 shows a modification of the flat cable. FIG. 7A shows a case where both surfaces of the terminal portion 25E of the conductor row 25 are exposed. FIG. 6B shows a case where one terminal portion 25E is exposed on both surfaces, the other terminal portion 25E is exposed on one surface, and a reinforcing member 26 is attached to the back surface of the second covering member 22. FIG. 9C shows that the first coating material 21 is provided on one terminal portion 25E.
Of the second covering material 22 on the back surface of the second covering material 22.
Is adhered, and in the other terminal portion 25E, a part of the second covering material 22 is removed, and a reinforcing material 26 is adhered to the back surface of the first covering material 21. Opposite surfaces are exposed as the terminal portion 25E. This is the case in which it is configured to perform

The method of manufacturing such a modified flat cable can be manufactured by the above-described manufacturing method. That is, it becomes possible by selectively adhering the releasable thin material 32 to the first coating material 21 and / or the second coating material 22 on the surfaces of the terminal portions 25E to be exposed.

In FIG. 6 described above, the peelable thin material 32 to be adhered to the first coating material 21 has one end protruding outside the first coating material 21. As shown, it is also possible to attach the first coating material 21 so that both ends of the peelable thin material 32 protrude outside. In that case, cuts 33 may be provided along both sides corresponding to both ends of the thin material 32, or cuts 33 may be provided only on one side, and the first material 33 is peeled off at the same time as the peeling of the thin material 32 as shown in FIG. A part of the covering material 21 may be removed to expose the terminal portion 25E.

Next, referring to FIGS. 1 and 2, a plurality of rectangular conductors 25a, 25b,.
An embodiment of a flat conductor aligning jig according to the present invention when supplying to B is described. The alignment jig 47 of this example has a plurality of grooves having a predetermined thickness and a predetermined width for guiding the rectangular conductors 25a, 25b, 25c,. A grooved plate, ie, a first jig portion 41, on which an upper surface 41 of the first jig portion 41 is formed;
a and a second jig part 45 including a pair of horizontal maintaining members 43 and 44 arranged so as to be restricted on the lower surface 41b. The horizontal maintaining members 43 and 44 are arranged on the entry side of the flat conductors 25a, 25b and の of the grooved plate 41, and are for keeping the flat conductors 25a, 25b and 内 in the recess 42 horizontal. is there. The horizontal maintaining members 43, 44
Are arranged so as to sandwich the rectangular conductors 25a, 25b, ‥‥ from above and below with a slight gap.

For example, when aligning the rectangular conductors 25a, 25b,... Having a thickness of 0.1 mm and a width of 0.8 mm, the first
The width of each concave groove 42 of the jig 41 is adjusted by the rectangular conductors 25a, 25
b, ‥‥ to prevent scratches.
The width may be set to be larger by 0.02 to 0.05 mm than the width of b, ‥‥.

Further, for example, the size of the rectangular conductor is 0.1
mm and a width of 0.8 mm, a flat conductor may be supplied by applying a tension of about 0.2 kgf.

According to the alignment jig 47, the rectangular conductor 2
5a, 25b,... Are first inserted between the pair of horizontal holding members 43, 44 of the second jig portion 45 and are kept horizontally in the respective concave grooves 42 of the first jig portion 41. Supplied. The flat grooves 25a, 25b,... Are arranged parallel to each other with a predetermined pitch by the concave grooves 42, so that the rectangular conductive lines 25a, 25b,. Then, the flat conductor 2
A flat cable can be easily manufactured without an accident that 5a, 25b,.
As a result, it is possible to manufacture a highly reliable flat cable having flat conductors accurately aligned at predetermined intervals.

Then, the flat conductor 25
The workability is improved without any accidents such as a, 25b,. Further, there is a fear that the edge of the rectangular conductor is rubbed with the concave groove 42 and may be damaged. However, a required gap is provided between the rectangular conductor and the concave groove 42, or the rectangular conductor is gradually moved from just before the first jig portion. By adopting a method of aligning the rectangular conductors in the above-mentioned manner, scratches which are problematic in quality can be avoided.

In the case where the rectangular wire is braked by a brake mechanism and supplied with a predetermined tension, the alignment accuracy of the rectangular wire is further improved.

[0044]

According to the flat wire aligning jig according to the present invention, the flat wire can be supplied to the laminating step with a predetermined pitch while each flat wire is kept horizontal. Therefore, a highly reliable flat cable can be manufactured.

[Brief description of the drawings]

FIG. 1 is a perspective view showing an example of an alignment jig according to the present invention.

FIG. 2 is a front view showing an example of an alignment jig according to the present invention.

FIG. FIG. 4 is an exploded view of a flat cable that is thin and lightweight and has high bending characteristics. B. It is sectional drawing which shows an example of the completed flat cable.

FIGS. 4A to 4C are cross-sectional views showing modified examples of a flat cable which is thin and lightweight and has high bending characteristics.

FIG. 5 is a process chart (1) showing an example of a method for manufacturing a flat cable.

FIG. 6 is a process diagram (part 2) illustrating an example of a method for manufacturing a flat cable.

FIG. 7 is a process diagram (part 3) illustrating an example of a method for manufacturing a flat cable.

FIG. 8 is a process diagram (part 4) illustrating an example of a method for manufacturing a flat cable.

FIG. 9 is a process diagram (part 5) illustrating an example of a method for manufacturing a flat cable.

FIG. 10 is a process view (part 6) illustrating an example of a method for manufacturing a flat cable.

FIG. 11 is a process chart (1) showing another example of the method of manufacturing a flat cable.

FIG. 12 is a process diagram (part 2) illustrating another example of the method for manufacturing a flat cable.

FIG. 13 is a schematic configuration diagram of an apparatus for manufacturing a flat cable.

FIG. 14 is an explanatory view of a conventional alignment jig.

FIG. 15 is a process chart (1) showing a conventional flat cable manufacturing method.

FIG. 16 is a process diagram (part 2) illustrating a conventional method for manufacturing a flat cable.

[Explanation of symbols]

21, 22 ‥‥ covering material, 23 ‥‥ insulating film, 24 ‥
{Adhesive layer, 25a, 25b} rectangular conductor, 25 conductor row, 25E terminal, 30 flat cable,
32 ° peelable thin material, 33 ° cut, 41 ° first jig part, 42 ° concave groove, 43, 44 ° horizontal maintenance member, 4
5 ‥‥ second jig part, 47 ‥‥ alignment jig

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Tadayuki Kuriyama 18th Satsuki-cho, Kanuma-shi, Tochigi Sony Chemical Co., Ltd.Kanuma Plant Inside

Claims (1)

[Claims] A first jig portion having a plurality of concave grooves for guiding a plurality of rectangular conductors in parallel at predetermined intervals;
An alignment jig for a flat wire composed of a pair of horizontal holding members arranged so as to maintain the flat wire horizontally from above and below on the side of the first jig portion where the flat wire enters, and a second jig portion configured to align the flat wire. Utensils.