TW201131588A - Small diameter coaxial cable harness and manufacturing method thereof - Google Patents

Abstract

Provided is a small diameter coaxial cable harness and manufacturing method thereof, wherein the end sections of the cable harness are made to be thinner, and the cable harness can be wired favorably to electronic devices made to be smaller and thinner. The small diameter coaxial cable harness (10), which has a plurality of small diameter coaxial cables (12) arranged in planar state at the terminal sections (13) thereof, and connected to connectors (16), is provided with lamination sections wherein the plurality of small diameter coaxial cables (12) are lined up into a plurality of cable layers (21A, 21B), and the cable layers (21A, 21B) are superimposed. The small diameter coaxial cables (12) from the different cable layers (21A, 21B) are arranged into a planar row, at sections spanning from the lamination sections to connection sections (13a).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a narrow-diameter coaxial wire harness that bundles a plurality of coaxial wires of a small diameter and performs terminal processing, and a method of manufacturing the same. [Prior Art] In recent years, electronic devices such as mobile terminals, compact cameras, and digital cameras have been sought for miniaturization or high quality. In order to meet this demand, a very thin coaxial line is used in the connection of the device itself to the display unit or the wiring in the device. Considering the easiness of wiring, 'use it as a coaxial harness in which a plurality of coaxial lines are integrated. In the coaxial beam, the two terminal portions of the plurality of wires are arranged at a specific pitch to be planar. For example, the coaxial harness disclosed in the patent document is characterized in that a connector is connected to both end portions thereof, and the intermediate portion is bundled integrally by the binding band and bent at at least one of the terminal portions. PRIOR ART DOCUMENT PATENT DOCUMENT PATENT DOCUMENT PATENT DOCUMENT 1 曰 专利 专利 曰 曰 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 In the equipment, the miniaturization and thinning of the equipment are sought, and the space for the coaxial harness becomes thinner and narrower. Therefore, regarding the coaxial harness to be wired in the electronic device, it is particularly required to be thinned at the end portions of the connector to be 152530.doc 201131588. It is an object of the present invention to provide a small-diameter coaxial wire harness which can be favorably wired and reduced in thickness for an electronic device which is reduced in size and thickness, and a method of manufacturing the same. Means for Solving the Problems The narrow-diameter coaxial wire harness of the present invention which solves the above-mentioned problems is characterized in that: a plurality of narrow-diameter coaxial wires are arranged in a planar shape at a terminal portion and connected to a connecting member; a laminated portion having at least one end side in which the plurality of small-diameter coaxial lines are arranged in a plurality of layers and each of the layers is overlapped; and the connecting portion connected to the connecting member from the laminated portion is brought from a different layer The narrow coaxial lines are arranged side by side in a plane shape. In the narrow-diameter coaxial wire harness of the present invention, it is preferable that the plurality of small-diameter coaxial wires are bent in the same direction, and in the connecting portion, the narrow-diameter coaxial wires from different layers are regularly arranged side by side in abutting manner. Flat. Or, in the thin-diameter coaxial wire harness of the present invention, it is preferable that the small-diameter coaxial line of one of the laminated portions is a group, and the respective groups are adjacent to each other from the laminated portion to the connecting portion connected to the connecting member And side by side in a flat shape. In this case, it is preferable that the small-diameter coaxial line with respect to the arrangement direction of the small-diameter coaxial line in the connecting portion is inclined in the direction of the center side portion of the wire harness of the laminated portion. In this case, it is preferable that the angle of inclination of the narrow-diameter coaxial line in the direction of the central portion of the bundle of the laminated portion with respect to the narrow-coaxial line in the direction in which the connecting portion 152530.doc 201131588 is arranged is 3〇. Above and 6〇. the following. In the small-diameter coaxial wire harness of the present invention, it is preferable that the intermediate portion of the plurality of small-diameter coaxial wires in the longitudinal direction is bundled in a circular shape. Further, the method for manufacturing a small-diameter coaxial wire harness according to the present invention is characterized in that the small-diameter coaxial wire bundle is formed by arranging a plurality of small-diameter coaxial wires in a planar shape at a terminal end and connecting them to a connecting member; The plurality of small-diameter coaxial lines are divided into a plurality of groups and the plurality of thin-diameter coaxial lines are arranged side by side at a same pitch in a plane shape; the terminals of the respective narrow-diameter coaxial lines are arranged in a plane shape and connected to the connecting member; Each group is a unit, and each of the small-diameter coaxial lines is guided to the groove of the array member in which a plurality of grooves are arranged in a planar shape, and one layer is integrally formed by one group, and the layers are stacked to form a laminate. unit. In the method for manufacturing a thin-diameter coaxial wire harness of the present invention, it is preferable that the narrow-coaxial coaxial lines of different groups are regularly arranged in a planar manner at a terminal end of each of the small-diameter coaxial wires, and the fine diameters are coaxial. The terminal of the wire is connected to the connecting member, and each of the small-diameter coaxial wires is guided to the groove of the aligning member formed by arranging the plurality of grooves in a planar shape and bending them in the same direction. The small-diameter coaxial wires are integrated in a state of being bent in the same direction. Alternatively, in the method of manufacturing a small-diameter coaxial wire harness of the present invention, it is preferable that the terminal portions of the respective small-diameter coaxial wires are arranged in parallel in the same plane so as to be adjacent to each other, and are connected to the connecting member. 152 530 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 The small-diameter coaxial line of each group is guided by the alignment member. EFFECTS OF THE INVENTION The narrow-coaxial coaxial beam bundle of the present invention has a plurality of fine-diameter coaxial wires arranged in a plurality of layers at the terminal portion and overlapped. Therefore, the thickness of the terminal portion can be reduced, and the wiring can be satisfactorily performed in the narrow and accommodating space. Further, from the laminated portion to the connecting portion to which the connecting member is connected, the narrow coaxial lines from the different layers are arranged side by side in a planar shape. Therefore, the thickness of the terminal portion can be made extremely thin, and wiring can be satisfactorily performed in a thin and narrow accommodation space. Moreover, according to the method for manufacturing a small-diameter coaxial wire harness of the present invention, the small-diameter coaxial wires of the respective groups are guided into the grooves of the wiring member and integrated into a planar shape to form a single layer, and the layers are overlapped, whereby the layers can be easily separated. Moreover, the thickness of the terminal portion is smoothly reduced, and the narrow-diameter coaxial harness that can be satisfactorily wired in the thin and narrow accommodation space can be satisfactorily. [Embodiment] Hereinafter, an example of an embodiment of a thin-diameter coaxial harness of the present invention and a method of manufacturing the same will be described with reference to the drawings. (First Embodiment) As shown in Fig. 1, the small-diameter coaxial bundle 10 includes a plurality of (40 in the present embodiment) small-diameter coaxial wires 12' and bundles intermediate portions 14 other than the terminal portion i3 into a circle. shape. The small-diameter coaxial wire 12 is formed in a radial cross section orthogonal to the central axis, and has a center conductor, an inner insulator, an outer conductor, and a sheath from the center toward the outer side of 152530.doc -6 - 201131588, and terminal processing is performed on the terminal. The outer conductor, the inner insulator, and the center conductor are periodically exposed to a specific length. Further, the small-diameter coaxial wire harness 10 may include a small-diameter insulated wire having no external conductor in addition to the plurality of small-diameter coaxial wires 12. As the small-diameter coaxial line 12', for example, a fine ultra-fine coaxial wire such as AWG42, AWG44, AWG46 or the like having a diameter of less than 0.30 mm which is awg (American Wire Gauge) standard is used. Thereby, the small-diameter coaxial bundle 1 〇 can be easily bent. In order to bundle the small-diameter coaxial wire 12, for example, a tape or sleeve bundle member 15 formed of PTFE (Polytetrafluorethylene) such as POREFL® N (registered trademark) is used. For example, by bundling the bundle member 15 containing the tape on the small-diameter coaxial wire 12, or by the narrow-diameter coaxial line '2' in the bundle member 15 including the sleeve, the small-diameter coaxial line is bundled. The middle portion 14 of 2. Furthermore, in the case of using a shielded wire, it is also possible to use a ground connection member for a specific portion to obtain grounding. Further, the binding member 15 can be bundled to a specific length, or divided into a plurality of pieces in the longitudinal direction and bundled at a plurality of locations. Further, it is preferable to loosely bundle the small-diameter coaxial wires 12 bundled with each other so as to be unconstrained from each other. Since the small-diameter coaxial wires 12 are bundled in a circular shape by the binding member 15, the intermediate portion 14 is excellent in flexibility. The degree of freedom of wiring in the device is large. Further, the plurality of small-diameter coaxial wires 12 are bent at the terminal portion 13, are arranged in a planar shape at a specific interval, and are connected to a connector (connecting member) 16. Thereby, the 152530.doc 201131588 secluded coaxial line 12 is arranged in a direction parallel to the connecting portion 13a of the narrow coaxial line 于2 connected to the connector 丨6, and the intermediate portion 丨4 is substantially parallel or slightly Wired in the direction of the angle to form an L shape. As shown in FIG. 2, a small-diameter coaxial wire bundle 1 is attached to the terminal portion 13, and a plurality of thin-diameter coaxial wires 12 are arranged in a plurality of layers (two layers in this embodiment) to a wire layer (layer) 21 A; 21B' and the line layers 21A and 21B are vertically overlapped to each other to form the laminated portion 22. The line layer 21A' 21B constituting the laminated portion 22 is a thin-diameter coaxial line 1 2 which is closely arranged in a planar shape, and the tape 23 is attached to one side or both sides thereof, thereby being layered. Further, the tape 23 may be wound around the small diameter line 12 in a planar shape to be integrated into a layered shape. The number of thin lines from the coaxial line 12 in the line layers 21A, 21B is one half of the number of the small diameters of the coaxial line 12 which constitute the narrow coaxial line bundle. Further, in the line layers 2 1A and 21B, it is preferable that the small-diameter coaxial lines i 2 are closely arranged at a distance from each other to narrow the side-by-side width, but a small amount of line-to-line distance may be provided. As shown in Fig. 3, the small-diameter coaxial wire harness 10 is bent from the laminated portion 22 to the connecting portion 13a, and the plurality of narrow-diameter coaxial wires 12 are bent in the same direction. Here, the bending in the same direction means that the portion connected to the connector 16 is bent in such a manner that the directions of the respective sleeves 12 are the same. In the connecting portion 13a, the narrow coaxial wires 12 from the respective line layers 21A, 21B are regularly arranged side by side in a planar manner and are connected to the connector 16. That is, in the connecting portion 13a, with respect to the narrow-diameter coaxial line 12 from the line layer 21A, the narrow-diameter coaxial line .12 from the line layer 2 1B different from the line layer is adjacent, and, in contrast, from 152530.doc 201131588 The narrow coaxial line 12 of the line layer 21B is adjacent to the narrow coaxial line 12 from the line layer 21A different from the line layer 21B. Thereby, in the small-diameter coaxial wire harness 10, the narrow-diameter coaxial wires 12 from the laminated portions 22 to the connecting portions 13a' from the laminated layers 22A and 21B are arranged in a planar shape at the terminal portion 丨3 therebetween. As an example, in the thin coaxial bobbin 10 in which 40 thin coaxial wires 12 having an outer diameter of 〇 22 mm are used, the thickness (A_A portion), the intermediate portion 14 and the lamination of the intermediate portion 图 4 in Fig. 1 are used. Thickness (B_B portion) on the intermediate portion 14 side between the portions 22, thickness (c_c portion) on the laminated portion 22 side between the intermediate portion 14 and the laminated portion 22, thickness (DD portion) of the laminated portion 22, The thickness (E_E portion) in the vicinity of the connecting portion 13a is as follows. AA part: about 1.9 mm BB part: about 1, 7 mm CC part: about 0.9 mm DD part: about 0.6 mm EE part: 0·5 mm or less, as described above, between the intermediate part 14 and the lamination part 22 The thickness (BB portion) on the side of the portion 14 is slightly thinner than the thickness (AA portion) of the intermediate portion 14 because the bundle member 15 is not provided. Further, the thickness (cc portion) of the laminated portion "between the intermediate portion 14 and the laminated portion 22" is gradually thinned by the narrow coaxial line 12 to be equivalent to the thickness of the four finely-twisted coaxial lines 1 2 . The thickness (D_D portion) of the laminated portion 22 is further reduced by the thickness of the two small-diameter coaxial wires 12 and the four sheets of the tape 23. The thickness (E_E portion) in the vicinity of the connecting portion 13a is due to the line layer 21A from each other. , 21B fine coaxial cable} 2 into each other's fine coaxial cable] 2 152530.doc 201131588 between the step-by-step thinning. Moreover, the narrow coaxial cable 12 does not overlap each other 13a, which is equivalent to the thickness of one small-diameter coaxial wire 12. Further, as shown in Fig. 4, the small-diameter coaxial wire harness 10 may be assembled such that, for example, the end portions of the frame body are rotatably coupled to each other by a hinge. In the form shown in FIG. 4, each of the second frame body 2 and the second frame body 2 of the mobile phone terminal 3 including the second frame body 2 and the second frame body 2 is used. The small-diameter coaxial harness is connected to the mobile phone terminal 3, and the end portions of the first frame body and the second frame body 2 are mutually connected to each other. The positional relationship is changed by being rotatably connected by the hinge 4, and the positional relationship is changed. The first frame body 1 and the second frame body 2 are formed with wired insertion holes 5 and 6 on the end faces of the connection side, respectively. The wire insertion holes 5 and 6 are respectively introduced into the ends of the small-diameter coaxial wire bundle 1〇. Further, a communication hole is formed in the hinge 4, and a small-diameter coaxial wire bundle 1〇 is inserted into the communication hole 4a. In the mobile phone terminal 3, the small-diameter coaxial wire harness 1〇, the small-diameter coaxial wire harness 10 must pass through the small-sized wire insertion holes 5, 6 and the communication hole 4a of the hinge 4. The small-diameter coaxial wire harness 1 is inserted through the wire. In the case of the through holes 5, 6 or the communication holes, as shown in Figs. 5(a) and (b), the inner diameters of the terminal insertion portions 13 having the wire insertion holes 5, 6 and the communication holes 4a are smaller. In order to mount the sleeve 31, in the terminal portion 13 of the small-diameter coaxial wire harness 10, the connecting portion is wound with respect to the connector 16. The minute 13a becomes a rod shape, and the laminated portion 22 is formed. Folded and inserted into the sleeve 31. At this time, the connecting portion 13a is arranged in a plane 152530.doc •10·201131588 and the thickness is thinned to be equivalent The thickness of the coaxial line 12 is so thick that it can be easily and smoothly wound on the connector 16 to form a thin rod. As described above, if the sleeve 31 is attached to the terminal portion 13, the terminal portion 13 is a rod shape having an outer diameter substantially the same as that of the intermediate portion 14. By inserting the terminal portion 13 to which the sleeve 31 is attached, the wire insertion holes 5, 6 and the communication hole 4 & The mobile phone terminal 3 is wired so as not to damage the small-diameter coaxial harness 10, and the substrate included in the first housing 1 can be connected to the substrate included in the second housing 2. If the narrow coaxial cable harness 1 has been When the wire is wired to a specific position in the casing, the sleeve 31 is removed, and the terminal portion 13 is extended to return to its original state. As described above, according to the above-described small-diameter coaxial wire harness, the narrow-diameter coaxial wires 12 from the different wire layers 21A, 21B are arranged side by side in a plane shape. Therefore, the thickness of the terminal portion 13 can be made extremely thin, and wiring can be satisfactorily performed in a thin and narrow accommodation space. Further, since the plurality of small-diameter coaxial wires 12 are bent in the same direction in a plane which is regularly arranged adjacent to each other, the intermediate portion 14 other than the terminal portion 13 and the connector 16 are disposed in substantially the same direction or slightly The direction of the angle. Thereby, the terminal portion 13 having a reduced thickness is wound on the connector 16 to form a rod shape, and the communication hole of the wire insertion hole 5, 6 or the hinge 4 can be easily inserted into the mobile phone terminal 3 or the like. Wiring is performed by passing through a small wiring hole, and it is advantageous when passing through a movable portion of a hinge structure such as a mobile phone terminal, a small video camera, or a digital camera. /, - Person, the method of manufacturing the above-mentioned fine coaxial cable harness will be described. Here, a case will be exemplified in the case of manufacturing a small-diameter coaxial wire 12 of AWG 44 which is connected to a connector with a pitch of 0_25 mm. 152530.doc • 11 - 201131588. First, the narrow coaxial line 12 for the small-diameter coaxial bundle 10 is divided into a plurality of groups. In the present embodiment, 40 small-diameter coaxial turns 2 are divided into two groups of two roots. As shown in Fig. 6 (a), the two thin coaxial wires 12 of one group are arranged side by side at intervals of two pitches (0.50 mm), and the temporary bonding tape 35 is attached to maintain the alignment state. Next, as shown in Fig. 6(b), a small pitch (〇·25 mm) is shifted with respect to the aligned coaxial coaxial line 12, so that the other two groups of the narrow-diameter coaxial line i 2 are separated by two pitches. The (0.50 mm) intervals are arranged side by side in a planar shape, and the connecting portions 13a' of the respective groups are arranged such that the small-diameter coaxial wires 12 of different groups are regularly arranged in a planar manner in abutting manner. Further, the thin coaxial coils 2 of the other groups of the array may be attached to the temporary bonding tape 35 to maintain the aligned state. Further, the small-diameter coaxial line 12 of another group which is arranged in a plane at a predetermined pitch (0.50 mm) in advance may be shifted by a pitch (0.25 mm) with respect to the fine-axis coaxial line 丨2 of the group. The coincidence is performed to complete the line, and the connecting portions 13a of the respective groups are arranged such that the small-diameter coaxial lines 12 of different groups are regularly arranged in a planar manner in abutting manner. As shown in Fig. 6(c), as shown in Fig. 6(c), all the thin wires are subjected to terminal processing (exposure of the outer conductor or the center conductor) and are connected to the connector 16. Next, as shown in Fig. 6(d), the small-diameter coaxial line 12 of one of the groups is formed into a specific shape by the aligning member 36. The aligning member 36 is attached to one side 152530.doc 12 201131588. A plurality of forming grooves (grooves) 37 arranging the respective small-diameter coaxial wires 12 are formed, and the forming grooves 37 are formed to be curved in the same direction. In the forming groove 37, the lead-in side 37a on the side of the connecting portion 13a of the small-diameter coaxial line 12 is formed at two pitches (0.5 mm), and is bent while being spaced apart from each other to be gradually narrowed, so that the lead-out side 37b is formed. Become a pitch (0.25 mm). After the alignment member 36 forms a small-diameter coaxial line 1 2 of one group, the portion which is bent from the connection portion with the connector 16 at the position where the self-aligning member 36 is separated is attached to both sides. The tape 23 is attached and integrated into a planar shape to form the wire layer 21A. Further, when the portion of the tape layer 21A that is formed by the tape 23 is superposed on the arranging member 36, the tape 23 may be attached to the fine coaxial cable 排列2 arranged above the aligning member 36, and then self-aligned. The member 36 takes out the small-diameter coaxial wire 12 and attaches the tape 23 from the opposite side. The fine-coaxial coaxial wire 1 2 of the other group is peeled off from the temporary bonding tape 35, and after being formed by the aligning member 36 in the same manner as described above, the tape layer 23 is formed into a planar shape to form the wire layer 21B. In the terminal portion 13, after the above-described end-forming operation, the respective line layers 21a, 21B are superimposed to form the laminated portion 22, and the intermediate portion 捆 is bundled by the binding member 丨5 to complete the small-diameter coaxial bundle 1〇. As described above, according to the manufacturing method of the small-diameter coaxial wire harness 10, the thickness of the terminal portion 13 connected to the connector 16 can be easily and smoothly manufactured, and the thickness of the terminal portion 13 can be made thin. A fine-diameter coaxial harness 10 that is wired for grounding. (Second Embodiment) A second embodiment of a thin-diameter coaxial harness of ten moons and a method of manufacturing the same will be described. 152530.doc -13-201131588. Incidentally, the same portions as those in the above-described embodiments are denoted by the same reference numerals, and the description thereof will not be repeated.

As shown in Fig. 7, the small-diameter coaxial harness 10A of the second embodiment of the present invention bends a plurality of (four in the present embodiment) small-diameter coaxial wires 12 at the connecting portion 13a with the connection pins 16 The L-shaped forming harness is formed, and the small-diameter coaxial wires 12 are arranged in a planar shape at a specific pitch at the connecting portion 13a and are connected to the connector 16. The small-diameter coaxial line 12 is in the direction of arrangement of the connecting portion 13a with respect to the narrow-diameter coaxial line '2. The wiring direction of the wire harness (the direction of the narrow-diameter coaxial line 丨2 in the central side portion of the laminated portion 22 or thin) The diameter coaxial line 丨2 is inclined in the direction of the intermediate portion 丨4). The inclination angle θ of the wiring direction of the wire harness with respect to the arrangement direction of the small-diameter coaxial line 12 in the connecting portion 13a may be 3 。. Above and 6〇. the following. The width of the connector 16 varies depending on the number of the narrow coaxial wires 丨2 included in the wire harness. The right connector 16 has a width of 7.5 mm, so that Θ can be set to 30°, and if it is 12.5 mm, Θ can be set to 60. If the width of the connector 16 is the value between the equals, then it can be set to match. As shown in FIG. 8, the small-diameter coaxial wire harness 10A is connected to the terminal portion 13, and the plurality of small-diameter coaxial wires 12 are divided into a plurality of wire groups 21a in units of a plurality of (two in the present embodiment). 21b (two groups in the present embodiment). Further, in the terminal portion 13, line layers (layers) 21a and 21B including a plurality of layers (two layers in the present embodiment) of the line groups 21a and 21b are arranged, and the equal-line layers 21A and 21B are vertically overlapped with each other. It becomes the laminated part 22. Further, the contour layers 21A, 21B are further integrated by winding the tape 24. As shown in Fig. 9, in the 'small-diameter coaxial wire harness i〇A, from the laminated portion 22 to the connecting portion 152530.doc -14- 201131588, the plurality of thin-diameter coaxial wires 12 are bent in the same direction in the plane. In the connection portion m, the respective line layers 21A and the small-diameter coaxial lines (10) are line groups 21a and 21b, and the line groups 21a and m are arranged in parallel in the same plane and connected to the connector 16. The wire group 2U is connected to the connector 16 from the outer side of the lamination portion 22, and is bent at a sharp angle. However, the f-curve is maintained by attaching the tape 2^ (refer to FIG. 7) to the curved portion. shape. Further, the tape 25 can be omitted if the curved shape is not maintained even without the tape 25. As an example, in the thin coaxial wire harness 10A having an outer diameter of 〇 22 mm 24 细 small-diameter coaxial wire 12, the thickness (A_A portion) of the intermediate portion 14 in FIG. 7 and the intermediate portion 14 and the laminated portion 22 are used. The thickness (B_B portion) on the intermediate portion 14 side, the thickness (cc portion) on the laminated portion 22 side between the intermediate portion 14 and the laminated portion 22, the thickness (DD portion) of the laminated portion 22, and the connecting portion 13a The thickness (E_E portion) in the vicinity may be the same as the A_A portion, the BB portion, the CC portion, the D_D portion, and the E_E portion of the small-diameter coaxial beam bundle 1 of the first embodiment. In the small-diameter coaxial beam 10A, the thickness (E_E portion) in the vicinity of the connecting portion 13a is thinned by the narrow coaxial lines 12 from the line layers 2 1A and 21B of the respective lines arranged in the same plane. Similarly to the small-diameter coaxial harness 10 of the first embodiment, the small-diameter coaxial harness 10A can be incorporated into a device such as a mobile phone shown in FIG. 4 and used in a small-diameter coaxial harness 10 A as shown in FIG. In the case of the wire insertion holes 5, 6 or the communication holes 4a of the mobile phone terminal 3, as shown in Figs. 4(4) and (b), a sleeve is attached to the terminal portion 13 as in the first embodiment. 3 1. In order to mount the bushing for 152530.doc •15·201131588, the connecting portion (1) is bent with respect to the connector 16 to wind the terminal portion 13 of the small-diameter coaxial wire harness 10 into a rod shape, and will be laminated. [522 folds® and inserts into the sleeve. At this time, the connecting portion 13a can be easily and smoothly wound around the connector 16 in the same manner as in the i-th embodiment, and becomes a thin rod shape. In particular, since the wiring direction of the small-diameter coaxial line 捆2 bundled in the intermediate portion 14 with respect to the arrangement direction of the small-diameter coaxial line 12 in the connecting portion 13a is inclined, it can be smoothly and easily performed on the connector 16. The volume is attached. Further, similarly to the first embodiment, it is possible to easily perform wiring in the mobile phone terminal 3, and to connect the substrate included in the second frame frame to the substrate included in the second frame. As described above, in the same manner as in the first embodiment, the small-diameter coaxial line 12 of each of the different line layers 21A and 21B is a single group from the laminated portion 22 to the connecting portion 13a. Side by side in a flat shape. Further, in the connecting portion 13a, the groups are adjacent and arranged side by side in a planar shape. Therefore, the thickness of the terminal portion 13 can be made extremely thin, and wiring can be satisfactorily performed in a thin and narrow receiving space. Next, another example of the form of the small-diameter coaxial harness 1 〇 A will be described. The example shown in Fig. 11 is an L-shaped thin shape in which the wiring direction of the narrow-diameter coaxial line 12 bundled in the intermediate portion 14 is substantially the same direction with respect to the narrow-axis coaxial line 2 in the "arrangement direction" of the connecting portion 1. The coaxial coaxial harness 1 〇 B. The example shown in Fig. 12 is substantially orthogonal to the arrangement direction of the connecting portion 13 & with respect to the narrow coaxial line 12, so that the wiring direction of the narrow coaxial line 12 bundled in the intermediate portion 14 is substantially orthogonal The T-shaped small-diameter coaxial harness 10C in the direction of the same is shown in Fig. 13. The intermediate portion 14 is arranged in the direction of the connecting portion 152530.doc -16 - 201131588 13a with respect to the narrow coaxial line 12. The wiring direction of the bundled small-diameter coaxial line 12 is T-shaped in a substantially orthogonal direction, and the narrow-diameter coaxial line is overlapped with the line group 21b of the narrow-diameter coaxial line 12 extending linearly from the connector 16 The narrow-diameter coaxial harness 10D in which the 12-line group 21a is bent at the terminal portion 13a is also the same as the small-diameter coaxial harness 10A in the case of the s-heavy-coaxial coaxial harness 1 〇B, 1 〇C, and 10D. The narrow coaxial lines 12 of the different line layers 21A, 21B are arranged side by side in the same plane at the connecting portion 13a. Therefore, the thickness of the connecting portion 13a can be made extremely thin. The thin and narrow storage space can be satisfactorily wired. Next, a method of manufacturing the small-diameter coaxial wire harness according to the second embodiment will be described. In the arrangement direction of the connecting portion 13a with respect to the small-diameter coaxial line 12, the wiring direction of the narrow-diameter coaxial line 12 bundled in the intermediate portion 14 is inclined by the L-shaped formed narrow-coaxial line 丨〇a 'Illustrate the case of manufacturing a small-diameter coaxial wire 1 of AWG 44 at a pitch of 0.25 mm to the core of the connector. First, 'the narrow coaxial cable 12 for the small-diameter coaxial wire harness 1A is divided into plural numbers. In the present embodiment, 40 small-diameter coaxial lines 12 are divided into two line groups 2ia and 2ib of 20. As shown in Fig. 14(a), one line group 2 1 b The 20 small-diameter coaxial wires 12 are spaced apart by a pitch (0.25 mm), arranged side by side in a planar shape, and subjected to terminal processing, and connected to the connector 16. Further, the narrow coaxial line 12 Connected to the area on one side of one side of the connector 丨6. Next, as shown in Fig. 14(b), by arranging 4〇 The fine 152530.doc -17- 201131588 diameter coaxial line 12 of the wire group 21b is formed into a specific shape. The aligning member 4 is attached to one side and has a plurality of forming grooves in which the small diameter coaxial wires 12 can be arranged. (grooves) 41, and the forming grooves 41 are formed to be bent in one direction. The forming grooves 41 are formed at intervals which are spaced apart from the connection pitch of the small-diameter coaxial wires 12 with respect to the connector 16 by the same pitch. By the forming groove 41 of the aligning member 40, each of the small diameters is guided to the drawing line 12 so as to be aligned with respect to the arrangement direction of the connecting portion 13a with respect to the small-diameter coaxial line 12, and the wiring direction is inclined at a specific angle. After the alignment member 4 is formed, the narrow-diameter coaxial wire 12 of the wire group 2b is formed, and the portion bent from the connection portion with the connector 丨6 at a position away from the alignment member 40 is one-sided or two-sided. The tape 23 is attached and integrated into a planar shape to form the wire layer 21B. In the case where the portion of the line layer 21B is overlapped with the arranging member 40 by the tape 23, the self-aligning member 40 is attached after the tape 23 is attached to the aligned small-diameter coaxial line 上方2 from above the aligning member 40. The small-diameter coaxial wire 12 is taken out and the tape 23 is attached from the opposite side. Thereafter, as shown in FIG. 14(c), the narrow-diameter coaxial line 12 of the other line group 21a is spaced apart by a pitch (0.25 mm), arranged side by side in a planar shape, and subjected to terminal processing. 'And connected to the area on the other side of the connector 16. Next, as shown in Fig. 14 (d), the narrow coaxial line 12 of the wire group 21a is formed into a specific shape by the aligning member 38. The array member 38 is attached to one surface and has a plurality of forming grooves (grooves) 39 on which the respective small-diameter coaxial wires 12 are arranged, and the forming grooves 39 are bent in one direction and further curved in other directions. The forming grooves 39 are formed to be spaced apart from the narrow coaxial line 12 with respect to the 162530.doc -18·201131588 connection pitch of the connector 16 at the same pitch. Further, by the forming structure 39 of the arranging member 38, the respective small-diameter coaxial wires 12 are guided to be inclined at a specific angle with respect to the arrangement direction of the connecting portion 13a with respect to the small-diameter coaxial line 12. After the fine-axis coaxial line 12 of the wire group 21a is formed by the aligning member 38, the portion which is bent from the joint portion with the connector 16 at the position where the self-aligning member 38 is separated is attached from one side or both sides. The tape layer 23 is integrally formed into a flat shape to form the wire layer 21 A. Further, when the portion where the wire layer 21A is overlapped by the tape 23 and the alignment member 38 is overlapped, it is arranged as long as the self-aligning member 38 is aligned. After attaching the tape 23 to the small-diameter coaxial wire 丨 2, the small-diameter coaxial wire 丨 2 is taken out from the aligning member 38 and the tape 23 is attached from the opposite side. In the terminal portion 13, after the above-described end-forming operation, the respective line layers 2A and 21B are overlapped, and the laminated portion 22 is integrated by the tape 24, and the intermediate portion 14 is bundled by the binding member 15. Small diameter coaxial harness 1〇A. Further, at a position far from the lamination portion 22, the tape 25 is attached to the curved portion of the narrow coaxial line 12 from the wire layer 21 A connected to the connector 16 as needed to maintain the shape. Further, in the above-described procedure, the narrow-diameter coaxial line 12 is divided into the respective line groups 21a and 21b in advance, and the end-end operation is performed. However, all the narrow-diameter coaxial lines 12 may be connected to the connector 16, and then divided into the respective line groups 2a. , 21b, and the end of the work. As described above, according to the method for manufacturing a small-diameter coaxial wire harness, the thickness of the end portion 3 connected to the connector 16 can be easily and smoothly manufactured, and the thickness can be favorably performed in a thin and narrow housing space. The narrow-diameter coaxial harness 10 of the wiring 〇 152530.doc 201131588 In the above embodiment, the connecting portion 13a of the small-diameter coaxial harnesses l〇, i〇a, H)B, 1〇C, H)D is connected to the connection. Instead of the connector 16, the device 16 may be connected to a wiring board (connection member) including a flexible substrate (Fpc: FiexiMe Printed Circuits) or a hard printed substrate (pWB: printed Board). In the above-described embodiment, the structure of the laminated portion 22 in which the two layers of the layers 21A and 21B are laminated is described. However, the number of the laminated portions 22 is not limited to two, and may be three. Above the layer. When the number of laminations of the laminated portion 22 is increased, the thickness is increased, and the planar area of the laminated portion 22 is reduced. Therefore, in the case where the mounting area is small, it is preferable to increase the number of laminations of the laminated portion 22. In the first embodiment, since the laminated portion 22 has two layers, the narrow-diameter coaxial wires 12 from the upper and lower layers 21A and 21B are alternately arranged in a planar shape at the end portion connected to the connector 16, and In the case where the laminated portion is formed into three layers in the embodiment, the narrow-diameter coaxial lines from the respective layers (upper layer, intermediate layer, and lower layer) may be adjacent to each other in the order of, for example, the upper layer line, the middle layer line, and the lower layer line. Regularly arranged side by side. The present invention has been described in detail with reference to the specific embodiments thereof. It is understood that various changes or modifications may be made without departing from the spirit and scope of the invention. This application is based on a patent application filed on November 27, 2009 (Japanese Patent Application No. 2009_270547), and a Japanese patent application filed on February 26, 2010 (Japanese Patent Application No. 201 0-41611) The contents of these are incorporated herein by reference. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a plan view showing an example of a first embodiment of a small-diameter coaxial wire harness according to the present invention, 152530.doc 201131588. Figure 2 is a side elevational view of the end of the fine control coaxial harness of Figure 1. Fig. 3 is an enlarged schematic perspective view showing the end portion of the narrow-diameter coaxial wire harness of Fig. 1. Fig. 4 is a perspective view showing an example in which the small-diameter coaxial harness of Fig. 1 is wired in a movable electric field in which the frame is rotated by a hinge. Figure 5 is a diagram! Fig. 5(a) is a side view of the end portion, and Fig. 5(b) is a front view of the end portion of the method of finely controlling the wiring of the coaxial wire harness in the wiring hole. Fig. 6 is a view showing a method of manufacturing the narrow-diameter coaxial harness of Fig. 1, and Figs. 6(a) to (d) are plan views showing respective steps of the operation. Fig. 7 is a plan view showing an example of a second embodiment of the small-diameter coaxial wire harness of the present invention. Figure 8 is a side elevational view of the end of the thin-diameter coaxial harness of Figure 7. Fig. 9 is an enlarged schematic perspective view showing the end portion of the narrow-diameter coaxial wire harness of Fig. 7. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 10(a) is a side view of the end portion, and Fig. 1(b) is a front view of the end portion, showing a method of wiring the thin coaxial wire harness of Fig. 7 in the wiring hole. Fig. 11 is a plan view showing an end portion of a modification of the small-diameter coaxial wire harness. Fig. 12 is a plan view showing an end portion of a modification of the small-diameter coaxial wire harness. Fig. 13 is a plan view showing an end portion of a modified example of a small-diameter coaxial wire harness. Fig. 14 is a view showing a method of forming a thin-walled coaxial wire harness of Fig. 7 and a method for forming a ash, and Figs. 14(a) to (d) are views. A plan view of each work step. [Main component symbol description] 1 First frame 152530.doc -21 - 201131588 2 2nd frame 3 Mobile phone terminal 4 Compared with chain 4a Communication hole 5, 6 Wire insertion hole 10, 10A, 10B, thin coaxial cable harness 10C, 10D 12 small diameter coaxial line 13 end portion 13a connection portion 14 intermediate portion (middle portion) 15 bundle member 16 connector (connection member) 21a, 21b line group (group) 21A, 21B line layer (layer) 22 stack Layer 23, 24, 25 Tape 31 Sleeve 35 Temporary joint tape 36, 38' 40 Arrangement members 37, 39, 41 Forming grooves (grooves) 37a Leading side 37b Leading side 倾斜 Tilt angle • 22- 152530.doc

Claims (1)

201131588 VII. Patent application scope: ι_ A small-diameter coaxial wire harness, characterized in that: a plurality of narrow-diameter coaxial wires are arranged in a planar shape at a terminal portion and connected to a connecting member; at least one end side of the wire harness a laminated portion in which the plurality of small-diameter coaxial lines are arranged in a plurality of layers and the respective layers are overlapped; and the connecting portion connected to the connecting member from the laminated portion is formed to have a small diameter from a different layer The same axis is arranged side by side. 2. The narrow-coaxial coaxial harness of claim 1, wherein the plurality of fine-coaxial coaxial lines are bent in the same direction, and in the connecting portion, the narrow-diameter coaxial lines from different layers are regularly arranged side by side in abutting manner - Flat. The narrow coaxial cable of claim 1, wherein the thin coaxial line of one of the laminated portions is a group; and the plurality of groups are adjacent from the laminated portion to the connecting portion connected to the connecting member Side by side in a flat shape. 4. The narrow coaxial wire harness of claim 3, wherein the fine coaxial line is inclined in a direction of a center side portion of the wire harness of the laminated portion with respect to the arrangement direction of the narrow coaxial line in the connecting portion. 5. The narrow-diameter coaxial wire harness of claim 4, wherein a direction in which the narrow-diameter line is the center side portion of the wire harness of the laminated portion with respect to the thin (four) axis is inclined at an angle of 30 in the row of the connecting portion. Above and 6〇. the following. The narrow-coaxial coaxial wire harness according to any one of claims 2 to 5, wherein the intermediate portion of the plurality of small-diameter coaxial wires in the longitudinal direction is bundled in a circular shape. A method for manufacturing a narrow-coaxial coaxial wire harness, wherein the small-diameter coaxial wire bundle is formed by arranging a plurality of small-diameter coaxial wires in a planar shape at a terminal end and connecting the connecting members; Dividing the plurality of small-diameter coaxial lines into a plurality of groups and respectively arranging the plurality of small-diameter coaxial lines in a planar shape at the same pitch; arranging the ends of the narrow-diameter coaxial lines in a planar shape and connecting to the connecting member; Each of the small-diameter coaxial wires is guided to the grooves of the array member in which a plurality of grooves are arranged in a planar shape in a unit group, and is integrated by one group, and the layers are stacked. Laminated section. 8. The method of manufacturing the narrow-coaxial coaxial harness of claim 7, wherein the narrow-coaxial coaxial lines of different groups are regularly arranged in a planar manner at a terminal end of each of the small-diameter coaxial lines, and the small diameters are arranged The terminal of the coaxial line is connected to the connecting member; 乂 each group is a unit, and each of the small-diameter coaxial lines is guided to the above-mentioned groove of the arranging member formed by arranging a plurality of grooves in a planar shape and bending them in the same direction. The thin coaxial lines are formed in the same direction. 9. The method of manufacturing a thin-diameter coaxial wire harness of the present invention, wherein the terminal portions of the respective narrow-diameter coaxial wires are adjacent to each other in a group and connected to the connecting member. 152530.doc 201131588 j 如.If the method of requesting 瑁Q + $y of the narrow-coaxial coaxial harness is made, the direction of the coaxial line in the terminal portion is opposite to the above-mentioned terminal portion, and the narrow-coaxial coaxial line is formed on the above-mentioned stack In the manner in which the wiring direction of the Yinyang side portion of the wire harness of the layer portion is inclined, the narrow coaxial line of each group is guided by the above-described array member. 152530.doc