JP5549318B2 - Thin coaxial cable harness - Google Patents

Description

  The present invention relates to a thin coaxial cable harness in which a plurality of thin coaxial cables are bundled and terminated.

In recent years, with the widespread use of portable terminals, small video cameras, digital cameras, and the like, there is a demand for downsizing and high image quality of these electronic devices. In order to cope with these, extremely thin coaxial cables are used for connection between the device main body and the liquid crystal display unit, wiring in the device, and the like. Because of their ease of wiring, they are used as a coaxial cable harness in which a plurality of coaxial cables are integrated.
Some coaxial cable harnesses are formed by arranging both terminal portions of a plurality of electric wires at a predetermined pitch to form a flat shape. Moreover, a connector is connected to the both terminal portions, and an intermediate portion is bundled together by a binding band and bent at at least one terminal portion (see, for example, Patent Document 1).

JP 2007-227047 A

In electronic devices such as portable terminals, small video cameras, and digital cameras, the devices are further reduced in size and thickness, and the accommodation space for the coaxial cable harness is further thinned and narrowed. For this reason, in the coaxial cable harness in which the intermediate portion is bundled in a round with a binding band, it may be difficult to wire the bundled intermediate portion in a thin and narrow accommodation space.
In addition, by bundling the middle part, the insertion workability when inserting and wiring into the accommodation space is good, but the shape may differ for each harness depending on the twisting of the wire, and the predetermined wiring in the accommodation space Sometimes it was difficult to position.

  An object of the present invention is to provide a small-diameter coaxial cable harness that can be positioned and smoothly wired even in a thin and narrow housing space while ensuring good wiring workability.

The thin coaxial cable harness of the present invention that can solve the above-mentioned problem is a thin coaxial cable harness in which a plurality of thin coaxial cables are arranged in a planar shape at a terminal portion and connected to a connection member,
The plurality of small-diameter coaxial cables are bundled in a round shape at at least one place in an intermediate portion in the length direction, and are arranged in parallel at least at one place and bundled in a planar shape.

  In the thin coaxial cable harness of this invention, it has the location bundled roundly in the intermediate part of the length direction. Thereby, it can be smoothly inserted into a narrow accommodation space. Moreover, in the intermediate part of a length direction, it has the location arranged in parallel and bundled planarly. As a result, the planar portion has a constant shape and can be positioned and accommodated at a predetermined wiring position. In other words, it is possible to perform favorable wiring and smooth wiring even in a thin and narrow housing space while ensuring good wiring workability.

It is a top view which shows the example of embodiment which concerns on the small diameter coaxial cable harness of this invention. It is AA sectional drawing in the small diameter coaxial cable harness of FIG. It is a perspective view which shows the example which wired the thin diameter coaxial cable harness of FIG. 1 in the mobile telephone in which a housing | casing rotates by a hinge. It is a top view which shows the example of other embodiment which concerns on the small diameter coaxial cable harness of this invention. It is a top view which shows the modification of the small diameter coaxial cable harness of FIG.

Hereinafter, an example of an embodiment of a thin coaxial cable harness according to the present invention will be described with reference to the drawings.
As shown in FIG. 1, the thin coaxial cable harness 10 includes, for example, a plurality of thin coaxial cables 12 (about 34 in the present embodiment) of about 20 to 50, and the length excluding the terminal portion 13. The middle part 14 of the direction is bundled.

  The small-diameter coaxial cable 12 is configured to have a center conductor, an inner insulator, an outer conductor, and a jacket from the center to the outer side in a radial section orthogonal to the center axis. As a result, the outer conductor, the inner insulator, and the center conductor are exposed stepwise by a predetermined length and connected to the connector 16.

  The thin coaxial cable harness 10 may include a thin insulated cable having no external conductor in addition to the plural thin coaxial cables 12. As the small-diameter coaxial cable 12, it is desirable to use, for example, a thin extra-fine coaxial cable such as AWG42, AWG44, and AWG46 according to the AWG (American Wire Gauge) standard or a coaxial cable whose outer diameter is smaller than 0.30 mm. Thereby, the thin coaxial cable harness 10 can be easily bent.

  The small-diameter coaxial cable harness 10 has round binding portions 21 and 22 and a flat binding portion 23 in the bundled intermediate portion 14.

The round binding portions 21 and 22 are portions in which the small-diameter coaxial cables 12 are bundled to have a circular or oval cross section. In order to bundle the small-diameter coaxial cable 12 in the round-shaped bundling portions 21 and 22, for example, a bundling member such as a tape formed of a fluorine-based resin such as polytetrafluoroethylene (PTFE) or a sleeve braided with fibers is used. It has been. For example, the thin coaxial cable 12 is bundled by winding a bundling member made of an adhesive tape around the thin coaxial cable 12 or by passing the thin coaxial cable 12 through a bundling member made of a sleeve. In the present embodiment, the round-shaped binding portions 21 and 22 are formed by bundling the thin coaxial cable 12 with the resin tape 24. In addition, it is preferable that the thin coaxial cables 12 bundled together are loosely bundled to such an extent that their movements are not restricted.
Although FIG. 1 shows an example in which all of the small-diameter coaxial cables 12 are bundled at the round binding portions 21 and 22, the small-diameter coaxial cables 12 may be divided into a plurality of groups and bundled. . For example, the round binding part 22 may be divided into two forks to form two round binding parts.

  As shown in FIG. 2, the planar binding portion 23 is a portion in which the thin coaxial cables 12 are arranged in parallel and bundled in a planar shape. In the present embodiment, array groups 23a and 23b in which 17 small-diameter coaxial cables 12 are arrayed in a planar shape are stacked. In some cases, it may be arranged in one row (one stage), and in some cases in three stages.

  In order to bundle the small-diameter coaxial cable 12 in the planar binding portion 23, for example, a bundling member such as a tape formed of a fluorine-based resin such as polytetrafluoroethylene (PTFE) is used. For example, the small-diameter coaxial cable 12 is bundled in a planar shape by attaching a bundling member made of an adhesive tape to the small-diameter coaxial cable 12 arranged in a plane. Moreover, you may form the flat binding part 23 by apply | coating and solidifying the adhesive agent which consists of an ultraviolet curing resin etc. to the thin coaxial cable 12 put in parallel in flat form, without using a tape.

In the present embodiment, the flat cable binding portion 23 is formed by bundling the thin coaxial cable 12 with the resin tape 24. Specifically, one resin tape 24 is affixed so as to cover at least one side with respect to the array group 23a of one stage and to be folded back to the other side. Furthermore, a single resin tape 24 is attached to the array group 23b on the other stage so as to cover the surface opposite to the one facing the array group 23a and to be folded back toward the one array group 23a. wear.
Although FIG. 2 shows an example in which the laminated small-diameter coaxial cables 12 are integrally bundled, the respective array groups may be bundled in a planar shape, and the bundled array groups may be stacked.

  In addition, if the number of the thin coaxial cables 12 in the thin coaxial cable harness 10 is about 20, all the thin coaxial cables 12 are arranged in a single plane, and the planar binding portion 23 composed of a single array group is formed. It may be formed. In the case of the one-stage planar binding portion 23, when the thin coaxial cable 12 having an outer diameter of 0.25 mm is used, the planar binding portion 23 has a width of about 5 mm.

  The thin coaxial cable harness 10 in which the round binding parts 21 and 22 and the flat binding part 23 are formed in the intermediate part 14 as described above is provided between the round binding parts 21 and 22 and the flat binding part 23. Bending portions 25 and 26 are formed so as to be along the wiring path. In these bent portions 25 and 26, the thin coaxial cables 12 are exposed without being bundled. One bent portion 25 is bent at about 90 °, and the other bent portion 26 is bent at about 130 °. It should be noted that the bent portion 25 is bent at about 90 ° so that the front and back of the arrangement surface of the planar binding portion 23 are folded back.

  The plurality of small-diameter coaxial cables 12 are bent at the terminal portion 13, arranged in a plane at a predetermined pitch, and connected to a connector (connection member) 16. Accordingly, the thin coaxial cable 12 is wired in a direction in which the intermediate portion 14 side is substantially parallel or slightly angled with respect to the arrangement direction of the thin coaxial cables 12 in the terminal portion 13 connected to the connector 16. It is L-shaped.

  In the thin coaxial cable harness 10 described above, the round portion 21 and 22, the flat portion 23 and the bent portions 25 and 26 are formed in the intermediate portion 14, and the terminal portion 13 is bent in an L shape, Each small-diameter coaxial cable 12 has an unequal length.

  In order to form such a small-diameter coaxial cable harness 10, first, a plurality of small-diameter coaxial cables 12 arranged between both end portions 13 are respectively formed in the form of the respective small-diameter coaxial cables shown in FIG. 12 cable lengths are indexed, and an alignment jig having a storage groove for the determined cable length is prepared. Then, the small-diameter coaxial cable 12 is aligned with this alignment jig, and both end portions 13 are taped and integrated. Next, the thin coaxial cable 12 is taken out from the alignment jig in an aligned state, the connector 16 is connected to the both end portions 13, and the round binding portion 21, the flat binding portion 22, and the bent portions 25 and 26 are formed in the intermediate portion 14. The terminal portion 13 may be bent in an L shape.

As shown in FIG. 3, the small-diameter coaxial cable harness 10 can be used by being incorporated in a device such as a mobile phone in which the ends of the housing are rotatably connected by hinges.
In the form shown in FIG. 3, the first casing 1 and the second casing 2 of the mobile phone terminal 3 including the first casing 1 and the second casing 2 are connected by the small-diameter coaxial cable harness 10. ing.

  In the mobile phone terminal 3, the end portions of the first housing 1 and the second housing 2 are rotatably connected by a hinge 4, and the positional relationship is changed by opening and closing. The first housing 1 and the second housing 2 have cable insertion holes 5 and 6 formed on end surfaces on the connection side thereof, and the small coaxial cable harness 10 is connected to the cable insertion holes 5 and 6. Both ends are introduced respectively. The hinge 4 is formed with a communication hole 4a, and the small-diameter coaxial cable harness 10 is inserted into the communication hole 4a.

  In order to route the thin coaxial cable harness 10 to the mobile phone terminal 3, it is necessary to pass the thin coaxial cable harness 10 through the extremely small cable insertion holes 5 and 6 and the communication hole 4 a of the hinge 4.

  When the small-diameter coaxial cable harness 10 is passed through the cable insertion holes 5 and 6 or the communication hole 4a, the terminal portion 13 is wound around the connector 16 to form a rod shape and inserted into the cable insertion holes 5 and 6 or the communication hole 4a. To do. At this time, the middle portion 14 of the small-diameter coaxial cable harness 10 is formed with the round binding portions 21 and 22 having a circular cross section on the end portion 13 side, so that the end portion 13 is connected to the cable insertion holes 5 and 6 or the communication. After the insertion into the hole 4a, the circular binding portion 21 or 22 is arranged inside the hinge (between the insertion holes 5 and 6), whereby the small-diameter coaxial cable harness 10 is connected to the first casing 1 and the second casing 2. It can be wired in between.

Then, the circular binding portions 21 and 22 of the small-diameter coaxial cable harness 10 are inserted into the cable insertion holes 5 and 6 or the communication holes 4a and wired, and the planar binding portion 23 of the intermediate portion 14 is connected to the first casing 1 or the first casing 1. 2 It arrange | positions in the thin and narrow accommodation space formed in the housing 2. As shown in FIG.
At this time, since the thin coaxial cables 12 are arranged in parallel and bundled in a plane and are maintained at the angles of the front and rear bent portions 25 and 26, the plane binding portion 23 is maintained in the first casing 1 or the first The housing is accommodated in a predetermined wiring position in the housing space in the housing 2.

  When the flat binding part 23 cannot be inserted into the cable insertion holes 5, 6 or the communication hole 4a, the flat binding part 23 is first arranged in the first casing 1 or the second casing 2, and then the round binding parts 21, 22 are arranged. May be inserted into the cable insertion holes 5, 6 or the communication hole 4a.

  As described above, according to the small-diameter coaxial cable harness 10 according to the present embodiment, it is possible to smoothly position and smoothly wire even in a thin and narrow housing space while ensuring good wiring workability.

Next, a thin coaxial cable harness according to another embodiment will be described.
In the small-diameter coaxial cable harness 10A shown in FIG. 4, the periphery of one round binding portion 21 and the flat binding portion 23 is covered with a shield sleeve 41 formed by braiding copper foil yarn. At both ends of the shield sleeve 41, a connector 42 is attached to a bundle 41a of copper foil threads drawn out from the shield sleeve 41. The connector 42 is connected to the ground of the mobile phone terminal 3 or the like.
In the small coaxial cable harness 10A, a resin tape 43 formed of a fluorine-based resin (PTFE or the like) is wound between both ends and the middle of the other round bundling portion 22, and the bundling of the round bundling portion 22 is performed. Power is increased.

  According to the thin coaxial cable harness 10A having the above configuration, the shield effect can be greatly improved by providing the shield sleeve 41. Therefore, it can be made suitable for use in equipment that requires high shielding properties.

  The shield sleeve 41 is a braided copper foil yarn. Therefore, for example, when the circular binding portion 21 is wired to the hinge 4 when wiring to the mobile phone terminal 3, the shield sleeve 41 is inside the hinge 4 when the first casing 1 and the second casing 2 are rotated. There is a risk of getting caught.

  In this case, in the case of the thin coaxial cable harness 10A provided with the shield sleeve 41, as shown in FIG. 5, the periphery of the circular binding portion 21 among the periphery of the shield sleeve 41 can be covered with the resin tape 51. preferable. When the resin tape 51 is a fluororesin tape, the sliding when sliding with respect to other members is good. That is, the thin coaxial cable harness 10A can be smoothly moved in the hinge 4 and the shielding effect can be enhanced.

In the above-described embodiment, the two round-shaped binding portions 21 and 22 that are bundled in a circle are provided in the intermediate portion 14 in the length direction. However, the round-shaped binding portions that are bundled in a circle are formed in the middle portion in the length direction. 14 may be provided in at least one place. Further, in the above embodiment, the single planar binding portion 23 arranged in parallel and bundled in a planar shape is provided in the intermediate portion 14 in the length direction, but the planar binding portion bundled in a planar shape is long. You may provide in the multiple places of the intermediate part 14 of the vertical direction.
In other words, the location and number of the round binding portion and the flat binding portion are set according to the shape of the accommodation space to be wired.

  Moreover, in the said embodiment, although the terminal part 13 of the small diameter coaxial cable harness 10 and 10A is connected to the connector 16, it replaces with the connector 16 and a flexible printed circuit board (FPC: Flexible Printed Circuits) or a rigid printed circuit board (PWB). : It is also possible to connect to a wiring board material (connection member) made of a printed wiring board.

10, 10A: Fine coaxial cable harness, 12: Fine coaxial cable, 13: Terminal portion, 14: Intermediate portion, 16: Connector (connection member), 21, 22: Round binding portion, 23: Planar binding portion

Claims (1)

A small-diameter coaxial cable harness in which a plurality of small-diameter coaxial cables are arranged in a planar shape at a terminal portion and connected to a connection member,
The plurality of small-diameter coaxial cables are bundled round at least at one place in an intermediate portion in the length direction, arranged in parallel at least at one place, and bundled in a planar shape with a resin tape or an adhesive. The thin coaxial cable harness is characterized in that the thin coaxial cable is exposed without being bound at both ends of the portion bundled together .

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