TWI373989B - Connection structure for a coaxial cable, coaxial cable harness used for the same, and portable terminal - Google Patents

Description

1373989 I Amendment

[Technical Field] The present invention relates to a coaxial cable harness and a portable terminal having such a structure that the cables are electrically connected in a straight direction and relatively connected to each other. [Prior Art] A coaxial coaxial cable connection structure is used in which a plurality of substrates are overlapped and overlapped with each other, and are used for the above-described coaxial cable connection structure, for example, in the case of a mobile phone, so as to be slidable with each other. The two overlapping frames constitute a mobile phone, and the two frames are slid according to the use condition of the mobile phone, and the length of the mobile phone can be extended or shortened.

The above two frames are provided with substrates on which various circuits and elements for realizing respective functions are arranged, and wiring members for electrically connecting the substrates are provided. In the respective substrates of the two housings, in order to connect the wiring members of the substrates to each other in accordance with the operation of the respective frames, a flexible substrate (FPC) that can be bent and bent is generally used. As an example of the flexible substrate, as shown in FIG. 19, the connector 1〇1 of the substrate 100 provided on the side of the flexible printed circuit board 104 (FPC) is connected to the circuit module 丨〇2 provided on the upper side.丨〇 3. In order to ensure a low-resistance grounding conductor and EMI countermeasures, it is known that the surface of one side of the FPC is fully integrated as a grounding conductor layer. However, such a fully grounded FPC cannot ensure the occurrence of cracks in the bent portion due to the bending property of the substrate sliding, and the wire is broken. In order to solve the problem of the bendability of the FPC which is fully grounded as described above, as disclosed in Patent Document 1, the ground portion is partially removed in the bent portion, and the correction is made on the back side of the bent portion, and is not grounded to the signal line. The structure of the line. [Patent Document 1] 曰 公开 公开 配置 配置 配置 配置 配置 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 In this case, there is a problem that the bendability of the j ^ 眭 aspect can be fully grounded, in any case, there is a wide range of electrical and the other is to eliminate the problem of deterioration. *, Sex (impedance matching and EMI characteristics), such as the profit-seeking literature 1, 1, Gantu curved part of the $ t ^ signal line and the grounding line is not right, the gas is configured with the grounding wire, the quantity due to the high-speed transmission of data and high = In the method, the signal ridge will expand. $ causes the space for the use of the FPC to become larger when the number of == increases. This 盥$a〗 must ensure that the FPC;|Too,...曰 Miniaturization is contrary. It is mechanically reliable in terms of providing a relative movement in the vertical direction of the electrical connection in the stacking direction and a ten-bend in the connection structure with i: one, for sliding the occupied space F [impedance matching machine, Coaxial electrical connection structure with excellent characteristics 1 Temple: Fang Erdian _ Cable harness and portable terminal.匕 ^ 之 辆 辆 ( ( ( ( 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 同轴 同轴 同轴 同轴 同轴 同轴 同轴 同轴 同轴 同轴 同轴 同轴 同轴 同轴 同轴 同轴Configuration and:: The two cars that are configured to slide in the same direction. The $1373989 is used to correct the coaxial cable connection structure between the boards. ^ ^ _ Eight features. The aforementioned coaxial cable harness is used to slide the substrate with the moon IJ too> The moon-shaped direction of the parent substrate is curved in the width direction of the substrate and is connected in a U-shape as a whole. The coaxial cable harness of the present invention may not be a coaxial cable, and may include an insulated wire having no external conductor. The invention has good electrical characteristics in terms of impedance matching and relay characteristics due to the use of the coaxial cable, so that the insulated wires without the outer conductor can be used for the feeder and the grounding wire. When the bundles are bundled, the coaxial cable is not required. When the two substrates are slid, the coaxial cable harness is bent into a U-shaped portion 2 and the moving @ follows the substrate. At this time, the coaxial electric wire harness is required for sliding = need (sliding space), the height of which is a coaxial electric iron wire harness: 'the width thereof is the width of the U-shape. When the coaxial electric wire bundle is formed into a flat shape of its elliptical ellipse, the thickness thereof can be made thin. The gap of the upper y substrate. In addition, the width of the υ word can be greatly reduced compared with the width of the substrate. Therefore, the gap between the substrates can be made, and the coaxial coaxial wire bundle has sufficient sliding space. The coaxial electrical connection structure of the present invention is The terminal of at least a part of the front-end coaxial cable is installed with a common connector. In the coaxial cable connection structure thus constructed, since the connector is mounted at the end of the coaxial cable harness, the substrate can be easily fabricated. In addition, at least part of the terminal of the coaxial cable harness is a terminal of a plurality of coaxial electrical interfaces (such as 20 out of 4) coaxial cable included in the daily coaxial electric wire harness. The other connecting knife is mounted on the remaining terminals. ° The coaxial cable connecting structure of the present invention is preferably such that the connector has a plurality of rows. 1373989 In the cable connection structure, even if the number of the strips is increased, since the number of connectors is increased without being connected to one connector, the width of the connector does not enlarge the design freedom of the portion of the substrate to which the connector is connected, and the coaxial cable of the present invention is improved. In the connection structure, the coaxial end portion is preferably directly mounted on the substrate. In the coaxial cable connection structure configured as described above, the connection to the east is not limited to the connector, but can be directly connected to the base; the coaxial cable connection structure of the present invention The coaxial end portions are preferably connected to the two substrate width directions, for example, one end of the coaxial cable harness is connected to the upper base, and the other end is preferably connected to the left side of the lower substrate. In the coaxial cable connection structure thus constructed, even The small thickness dimension can still ensure a large bending half of the coaxial cable. • The gap between the two substrates can be reduced. The coaxial cable connection structure of the present invention is the same as that of the AWG42. Since the coaxial cable connection structure configured as described above is coaxial, it is excellent in flexibility, and the slidability of the two substrates can be made thinner when the coaxial cable harness is bundled, and the coaxial manufacturing can be made thinner. The coaxial cable connection structure of the present invention preferably has a housing portion for housing the coaxial cable harness. The accommodating portion can be placed in or housed in the frame of each substrate. For example, a rectangular recess may be provided at least. Or, the number of coaxial cables in at least one coaxial cable can also be used. Therefore, on the coaxial cable of the 线 cable harness fe. The opposite side of the cable harness. The right side of the board is the substrate. Therefore, the taste cable should be thinner than the cable. In addition, the predetermined width of the cable connection structure is set on the substrate of the substrate-side substrate 1373989. The axis of the correction is wide and the axis of the space is less than the front of the front side. The front side is borrowed to form a rectangular protrusion, and the wall is formed. Surrounded by the accommodating department. Alternatively, a portion that is cut into the groove of the frame or that is erected on the wall of the frame may be used as the accommodating portion. The bending diameter of the bundled coaxial cable harness can be added to the width of the coaxial cable bundle as the width of the housing portion. By cutting the trench or erecting the wall in such a manner as to form this, the sliding space of the coaxial cable harness pole can be defined. The sliding space cannot be configured with space for other parts, etc. By reducing this sliding space, the entire machine can be reduced. Or, in the smaller part of the sliding #, configure another part to form a high functionality. In the coaxial cable connecting structure of the present invention, the coaxial cable harness is configured by bundling a plurality of bundles in which a plurality of coaxial cables are bundled. In the coaxial cable connection structure configured as described above, when a plurality of identical cables are bundled, the bundles of the plurality of coaxial cables are bundled to reduce the thickness of each of the bundles, and the coaxial cable connection structure can be reduced in thickness. The connection structure is such that at least one end side of the coaxial cable 1 is such that the longitudinal direction of the connector and the direction along the straight portion of the u-shape are not orthogonal to each other, and the relative direction of the connector and the straight portion is maintained. Adjust the length of each coaxial cable from the location of the bundle to the connector. The angle formed by the longitudinal direction of the connector and the direction along the straight portion of the u-shape is adjusted by the direction in which the connector is disposed on the substrate. For example, the length direction of the connector and the direction along the straight portion of the aforementioned u-shape can be formed. In the coaxial cable connection structure of the present invention, a grounding rod is attached to an end portion of the coaxial cable harness directly attached to the base, and the front 1373989 is corrected in the longitudinal direction of the rod and the straight line along the straight line of the ridge. If the opposite direction of the grounding rod and the straight portion is maintained, the coaxial power of the grounding rod to the grounding rod should be adjusted separately, and the length direction of the grounding rod and the end of the coaxial cable harness are respectively adjusted. The lines of the wires are arranged in parallel. In the coaxial cable connecting structure configured as above, the angle "the length direction of the ground bar and the direction along the straight portion of the u-shape" is adjusted by arranging the directions of the coaxial :: on the substrate. For example, the length direction of the ground rod may be parallel to the direction along the straight portion of the U-shape. In the coaxial cable connection structure of the present invention, it is preferable that the coaxial cable harness is in a range of 3 mrn in the longitudinal direction with respect to the bending starting point of the U-shape in a state where the both ends of the coaxial cable f are closest to each other. Coaxial electric winding. Further, in the coaxial cable connection structure of the present invention, it is preferable that the coaxial cable harness is within a range of 3 mm on both sides in the longitudinal direction with respect to the bending starting point of the U-shaped sub-frame in a state where the both ends of the coaxial cable harness are farthest. The bundle of the aforementioned coaxial cable is not bundled. In the state where the both ends of the coaxial cable harness are farthest away, it can be said that the coaxial cable harness is J-shaped. In the present invention, the coaxial cable harness is formed in a U-shape as a whole, and also includes a j-shape. When the coaxial cable harness is bent into a U shape, the force of bending toward both sides of the starting point of the U-curve is concentrated. By not concentrating at this portion, the load that is bent by the movement of the coaxial cable is released, and the damage of the conductor such as the disconnection of the conductor of the coaxial cable can be prevented. When the coaxial cable connection structure is used, since most of the ends are in the closest state or the farthest state, the coaxial power is not bundled by forming the U-shaped bending starting point in these states - 10- ΙόΊ5^ * . Slow construction, most of the 袢.σ π s condition can relieve the force applied to the bending of each coaxial cable. By the U-shaped pier, it is also like the machine. The starting point of the song is not bundled in the range of 3mm on both sides. The two substrates are back and forth repeatedly. When the code is also spit _ 〇 / month, the number of times of sliding back and forth before the coaxial cable is broken is large. Increased, the use of the door cylinder ♦ coaxial - electric, Ge bending is greatly improved. The durability of the bending of the coaxial cable is further improved by the fact that the starting point of the U-shaped bending 刼 is not bundled in the range of 5 mm on both sides. , x coaxial % cable connection configuration, the aforementioned coaxial cable should be bundled intermittently at a plurality. In the coaxial cable connection structure, since the plurality of portions are intermittently set and the bundle portion is not disposed, the negative of the bow applied to the coaxial electron microscope can be easily removed regardless of the bending position of the coaxial electric harness. It can prevent the loss of coaxial electric/electric length. Each coaxial cable must be bundled intermittently without distracting it. The J 1^ coaxial cable can be formed by intermittently bundling at intervals of 6 mm or more, and the load of the singularly pulverized pulsation is released, and when it is intermittently bundled at intervals of 10 mm or more, it is contending for 4_曰, fortunately The structure that relieves the bending load. In the coaxial weighting of the present invention, it is preferable that the coaxial cable is bundled by means of a wire or tape </ br> in a spiral makeup shape. In the connection structure thus constructed, the same as the structure in which the bundles are intermittently at the complex point ... the load applied to the bending of the coaxial cable can be easily released. u @ $ The coaxial reel of the present invention is in the form of a curtain, and the connection structure is suitable for the aforementioned coaxial electric power. A spiral tape that has been concealed into j. , ^ ^, bundled across the gap. In the glazed cable connection structure thus constructed, the same as the structure in which the bundles are intermittently bundled at the number of turns can easily release the load applied to the coaxial belt 1373989 to correct the bending of the cable. In addition, since the shape has been memorized in a cylindrical shape, it is easy to maintain the state of the east. In addition, although the tape can be joined to the coaxial cable by bonding, and the non-joining person can be used, the coaxial cable is slid to the tape during bending, and the load is easily released in the longitudinal direction. tape. In the coaxial cable connection structure of the present invention, the coaxial cable is preferably covered by a tubular braided sleeve and bundled. In the coaxial cable connection structure thus constructed, if the bonding tape does not engage the coaxial cable, the coaxial cable can be bundled in a state where it is easy to move in the longitudinal direction. Further, the sleeve itself can be flattened, the position of the bundle can be flattened, and the thickness of the bundle can be reduced, and the coaxial cable connection structure can be made thinner. The coaxial cable harness of the present invention is used in the above-described coaxial cable connecting structure of the present invention. The coaxial cable harness thus constructed is a coaxial cable harness for connecting relatively moving substrates, and is excellent in electrical reliability in terms of flexibility, space required for reduction in equipment, impedance matching, and EMI characteristics. The portable terminal of the present invention is provided with the above-described coaxial cable connection structure of the present invention. The portable terminal device configured as described above is suitable for a small-sized and high-density information processor by attaching the coaxial cable connection structure to a substrate that is mounted on a portable terminal and relatively slid. Further, the coaxial cable harness and the coaxial cable connecting structure of the present invention can be combined with the above preferred embodiments. -12- 1373989 MODIFICATION (Effect of the Invention) The coaxial cable connection structure of the present invention can be obtained: when the upper and lower sides are broken, the coaxial cable harness connecting the two substrates is excellent in the bending property = the substrate !#! The tool that slides on the upper and lower substrates and slides is small (5), and has excellent electrical characteristics of impedance matching and ΕΜΙ characteristics. It is better to reduce the gap between the two substrates by using the FPC to connect the upper and lower overlaps and slide the two basics. [Embodiment] _ Hereinafter, as shown in Figs. 1 and 2, an embodiment of the present invention will be described in detail with reference to the drawings. The coaxial cable structure 10 of the present embodiment includes a plurality of blocks (2〇~ The door/cable harness 20 of the coaxial electromagnet 2 of 60) is connected between the two substrates i丨 and 丨2 which are arranged to overlap each other in the front-rear direction (the front view and the left-right direction of FIG. 2). Then, in addition to the both end portions 2 1 a and 2 1 b, the coaxial electric-wire harness 20 is bundled with a plurality of coaxial electric cables 2424, and is connected to both substrates in a U-shape as a whole. Thereby, the coaxial electron beam wire harness 20 is formed in a U-shaped shape in the direction in which the substrates 11 and 12 are viewed in the plane, and is wired between the two substrates 丨丨 and 丨2. The other form of Fig. 1 and Fig. 2 may also be such that the coaxial environment 24 is intermittently bundled in the longitudinal direction. Further, Fig. 1 shows a state in which both end portions 21a and 2b of the coaxial cable harness 2 are farthest apart, and Fig. 2 shows a state in which both end portions 2 1 a and 2 1 b are closest to each other. The bone travel of the substrates 11, 12 is, for example, about 3 mm to 60 mm. The coaxial electric relay 24 has a central conductor, an inner insulator, an outer conductor, and a covered structure from the center to the outer side in a radial direction orthogonal to the central axis. The respective end portions 2 1 a and 2 1 b are implemented. The terminal treatment, the outer conductor, the inner insulator and the central guiding system are each modified in a specific length of -13 - 1373989. In addition, the coaxial cable harness 20 may include no external conductor in addition to the plurality of coaxial cables. Insulated cable. In addition, in the drawings, the number of coaxial cables 24 is reduced to be displayed for simplicity. The sheet coaxial cable harness 20 is bent in a plan view and in the direction of the two arrows W in the width direction (KA) of the substrate. Since the substrate width is several cm, the bending diameter in this direction can be sufficiently ensured. As shown in Fig. 1, when one end portion 21a of the coaxial cable harness 20 is connected to the right side (the upper side in the figure) of the substrate 11 in the sliding direction, the other end portions 21b, ! Connected to the left side of the lower substrate 丨2 (the lower side in FIG. 1), the coaxial electric wire harness 20 is bent into a U-shape &amp;;, however, the space for accommodating the coaxial electric wire harness 20 is reduced (refer to the accommodating portion of Fig. 5).丨 3 ), should be as small as possible; the width of the word (the interval between the straight lines). By bending the coaxial cable harness 2 〇 substantially along the plane of the substrates η, 12, a sufficient bending radius can be secured in the coaxial cable harness 20. When the FPC is used, since the FPC is bent between the two substrates U and 12, it is necessary to enlarge the gap between the two substrates η and 12 in order to secure the bending diameter. However, the present invention does not need to expand the two substrates in order to use the FPC. The gap between η and 1 2 can reduce the thickness of the machine. As shown in the 3rd (A) and 3rd (Β) diagrams, the 'coaxial cable harness 2' is formed by bundling a plurality of coaxial cables 24 with the stripping tape 23, as shown in Figure 3(C). It is preferable to form a shape in which the thickness dimension η of the elliptical cross section is as small as possible. The binding tape 23 is formed by winding a fluororesin tape, a pET tape or a rubber material or the like on a plurality of coaxial cables 24 in a spiral shape to form a coaxial cable harness 20. The banding tape 23 may be wound as a whole except for the both end portions 21a and 2lb. However, it may be intermittently bundled as shown in Fig. 9. -14- 1373989 • The correction is to be bundled with tape or the like at the point of contact with the wall surfaces of the substrates 11 and 12 and the accommodating portion 13 (see Fig. 5), thereby improving the durability of the coaxial cable harness 20 against friction. Sex. At the point of slidability with the wall surface of the frame body, the entire length of the coaxial cable can be covered, and the tying tape (such as fluororesin tape of PTFE, PFA, FEP, ETFE, etc.) having a low coefficient of friction is spirally wound, and is soft. The point of sex can be bundled intermittently. Further, instead of spirally winding the binding tape 23, the hose ' may be covered as shown in Fig. 17. • Coaxial cable 24 is preferably used, for example, than Awg (American wire gauge;

American Wire Gage) is a finer, ultra-fine coaxial cable of the AWG42. Thereby, the coaxial cable harness 2 is easily bent, and the resistance when the two substrates 1 1 and 12 are slid can be reduced. Further, when the plurality of coaxial cables 24 are bundled to form the coaxial cable harness 20, the thickness h 1 of the coaxial cable harness 2 (see FIG. 3(C)) can be made thin, and the coaxial cable connection structure can be realized. 1 薄 thinning. For example, since the outer diameter of the ultra-fine coaxial cable of AWG42 is about '〇.3mm, even if it is 6 layers in the height direction, the thickness of the coaxial cable harness is still within 2mm. In addition, as shown in Fig. 5 of the patent document i (attached to Fig. 19 of the present specification), the FPC is bent by folding the FPC between the upper and lower substrates, so that the height of the substrate gap must be 3 claws or more. . In other words, the coaxial cable connection structure of the coaxial cable harness of the present embodiment is used. When the FPC is used for the connection between the two substrates 11 and 12 which are slid over the upper and lower sides, the gap between the two substrates 1 and 2 can be reduced. The coaxial cable harness 20 is a coaxial cable 24 comprising 20 to 6 turns. The coaxial cable 24 is the fineness of the AWG 42, and the coaxial cable harness 2 includes a coaxial cable of 2 turns, and the cross section is a wire harness close to a circular shape, and when the coaxial cable harness 20 is formed, the outer diameter (thickness) is about 17mm, when the coaxial cable harness 20 of the -15-1373989 revision is arranged in a U shape, the width of the u word can be limited to 5 mm. Although the width of the U word increases as the number of cores (the number of coaxial electro-optical 24s) increases, 'even if the coaxial cable 24 of the bundle AWG42 is bundled, the width of the u-word can be made 1 〇mm. Within. In addition, among the many machines to be transmitted, the coaxial cable harness 20 including the coaxial cable 24 of four or more is used. Further, as shown in Fig. 4, the coaxial cable harness 2 can be formed by bundling a plurality of bundles (here, two) of the bundled plurality of coaxial cables 24 in two bundles 2a and 20b, and winding the binder tape 23 in advance. As a result, as shown in Fig. 4(c), the thickness h2 (&lt;hl) of the coaxial cable harness 2 can be further reduced, and the coaxial cable connecting structure 10 can be made thinner. This form is particularly effective even if the number of the coaxial cables 24 is increased and the thickness of the wire harness is not thickened. As shown in Figs. 1 to 3, it is preferable to mount the connector 25 at one or both ends of the coaxial cable harness 2 to facilitate connection of the substrates 丨 and 丨2. When the coaxial cable harness 20 is formed into a plurality of harnesses, when the connector of the coaxial cable is attached to the connector, as shown in FIG. 4, it can be divided into two, and the connectors 25a, 25b shared by the respective bundles 20a, 20b are mounted. . In Fig. 4, the lengths of the two bundles 20a, 20b are different, but they may be formed to have substantially the same length. As shown in Fig. οο, the two bundles 2〇a, 2〇b can also be connected to a common connector 25. It is also possible not to further bundle the bundles 20a, 2b, but to connect the two to one connector. As shown in Fig. 5, it is preferable that the substrate portion 丨 and the cymbal 2 are provided with the accommodating portion 13 for accommodating the coaxial cable harness 20 with a specific width. As shown in Fig. 5(A), the housing portion 13 can be provided with a rectangular recessed portion a3a. Thereby, the U-shaped deformation of the coaxial cable harness 20 with the relative sliding of the two substrates u and 12 can be performed in the -16- 丄 373989 correction of the accommodating portion. Therefore, the coaxial electric gauge wire can be prevented from being mounted on the substrate coaxially (10). &quot;, 12 electrical zero = 11, 12 near the electrical 衅 in the substrate command 4. Further, the two substrates 11, 12 can smoothly slide. Alternatively, as shown in the fifth &lt;^) Gangdi 5(B) diagram, the bases 11 and 12 may be formed with a rectangular shape such as a protrusion 〖g* 卜 straight up 13b, and a wall surrounded by the accommodating portion 13. Brother 6 (A) shows the oblique state of the sliding type of the telephone that makes the example of the 押 攸嫂 丁 丁 檇 圄 圄 圄 圄 圄; J needle is shown. The 6th (B) diagram shows an oblique view of the state in which the sliding type is activated. The mobile phone 3 in the figure is not the same as the coaxial cable connection structure 10 described above. This action is the same as the above-mentioned substrates u and 1 2, which are mounted on the upper frame 3 i 々啕 C bodies 31 and 32, respectively. The cable harness is connected and connected. In the smashing telephone 3 thus constructed, the mechanical reliability and electrical characteristics of the coaxial cable connection structure can be considered. In addition, the gap between the two substrates can be reduced to thin the mobile phone. ϋ Da n Shi electric. When Gu Chuan grasps the present invention, the sliding stroke of the sliding type mobile phone is 3 f) 5 6 Λ ^ Hummer _3U to 60 mm, the sub-mode is 40 mm, and the distance between the upper and lower substrates is 2 mm *ττ «· «, - αβ is less than m, and the accommodating portion of the wiring required for electrical connection between the substrates is required to be worn; ^ i ΟΛ , , f is not more than 20 mm, and further may be 1 mm or less. Further, the coaxial cable connecting structure 1 of the present invention and the coaxial electric gauge harness 20 used in the present invention are not limited to the above-described embodiments, and can be appropriately modified and improved. It is noted that the same reference numerals will be given to the same parts as the above-mentioned parts, and the overlapping description will be omitted. For example, in the above-described embodiment, the case where the upper and lower substrates u and 12 are connected by the string coaxial cable harness 20 is exemplified. However, as shown in the figure 7-17- 1373989, a plurality of coaxial cables may be used. The wire harness 2 is connected to the two substrates n, 12. The seventh (4) diagram shows a plan view in which the overlap of the two substrates u and 12 is the maximum state (off state), and the seventh (B) diagram shows a plan view in which the overlap of the two substrates 丨丨 and 12 is the minimum state (open state). The connectors 25a and 251) are connected to the portions of the substrates 11 and 12 so long as the coaxial cable harness 2 can be formed into a U-shape, which can be any portion on the substrates 11 and 12. Further, in the above-described embodiment, the case where the connector 25 (25^25b) is attached to the end portions 21a and 21b of the coaxial cable harness is described. However, as shown in Fig. 8, the coaxial cable harness 2 can also be used. The coaxial cable 24 is directly mounted on the substrates n, 12. The coaxial cable 24 is directly mounted on the substrate, and the terminal of the coaxial electric field 24 is connected to the connection terminals of the substrates 11 and 12 to be connected. It can also be mounted directly on the surface of the substrate 1, 12 (Fig. 8 (4)), and can be directly mounted on the substrate &quot;, the end of η!' can also be directly mounted on both sides (the first noisy). The substrate connected to the upper side is attached to the substrate 11 and 12 when it is attached to the base (4) below, and is attached to the base δ, which is not limited to the yoke connection, and is connected to the substrate by connectors or the like. It is also possible to connect to both sides of the substrates 11, 12. In addition, in the coaxial cable harness of the invention I, an insulated wire having no β-conductor can be appropriately mixed. Instead, use insulated wires as grounding or π to use insulated wires as feeders. In the actual target form described in (1), the coaxial cable harness 20 is connected to the substrate and 12 (the direction in which the fiber 24 is connected, the coaxial line of the direct consumption of the two wires, and/or the coaxial cable harness 20) The direction of the straight portion of the U-shape is the same, in particular, the direction of the straight portion of the U-shaped wire of the "electrical harness 24 of the coaxial cable 24 of the connection portion is different. -18- 1373989 Amendment as in the 1st 1 As shown in the figure, the longitudinal direction of the connector 25 attached to the end portions 2a1, 2b of the coaxial electric harness 2A and the straight portion along the U line of the coaxial cable harness 20 may not be used (the second figure) The left and right directions are not orthogonal, but are the same. Further, as shown in Fig. 12, the end turns 21a and 21b of the coaxial cable harness 2 can be directly mounted on the substrates u and 12 so as to be attached to the respective end portions 2, respectively. The longitudinal direction of the ground rod 26 of 1a and 21b is not orthogonal to the direction of the straight line along the U-shape of the coaxial cable harness 20 (the left-right direction of Fig. 12), and is identical. The ground rods 26 are connected in common. The outer conductor exposed by each of the coaxial cables 24 through the terminal processing, and further, Connected to the ground terminals of the substrates 11, 12. In the case of Fig. 9 or Fig. 12, the direction of the sleeve cable 24 of the connection portion is orthogonal to the direction of the straight portion of the u-line of the coaxial cable harness 2〇. However, this is an example of this, and the angle of each of the coaxial cables 24 is bent at the end portion 213. However, at the ends ..., m, in order to connect the electric power 24 with the direction to the direction (the straight line of the U-line) Directional connection: 』Bending in the above manner, and in order to maintain the relative direction of the straight portion of the connector 25 or the ground bar 26; and adjust the position from the 隼 2 portion to the connector 25 or the ground rod 26 respectively Each of the coaxial electric cables (10) is long: the length of each of the coaxial electric cables 24 on the end portions 21a, 21b is two:: the same length on the outer side of the spine. The connection of the coaxial electric I wire harness of the present invention = In this way, the lengths of the respective electric currents can be adjusted differently to form a connection: = the direction of the ground rod 26 to the substrates n, 12, that is, the end of the coaxial cable, the 〇 is oriented in the desired direction... The angle and direction of the coaxial cable harness 20 are also improved in design freedom. Substrate η 12 - 19- 1373989 Correction of the coaxial cable harness 20 of the present embodiment, preparing the coaxial cable 24 of a required length calculated by bending the angle of the coaxial cable 24 at the end, and mounting the connector 25 or the grounding rod 26 to each coaxial In the case of the cable 24, the coaxial cables 24 are arranged in accordance with the determined length. The coaxial cables 24 at the mutual positions are determined by the assembly of the connector 25 or the ground rod 26 by bundling of the tape, etc. As shown in Fig. 4, in a coaxial When the connector 25 is mounted at one end of the electric wire harness 2, the length direction of each connector 25 or each ground bar 26 is not properly intersected with the straight line portion along the U-shape of the coaxial cable harness 20, in order to maintain the connection. The length of the coaxial cable 24 from the portion where the cable 24 is bundled to the connector can be adjusted by the direction 25 of the grounding bar 26 or the ground bar 26 and the straight portion. At one end of a coaxial cable harness 20, when the coaxial cable 24 is divided into a plurality of groups of groups of connectors 25 or ground bars 26, or the coaxial cable is further bundled into a bundle of a plurality of coaxial cables 24, and The same applies to each harness when the connector 25 or the ground rod 26 is mounted. In the above-described embodiment, the portion other than the end portion 2 1 a ' 2 1 b of the coaxial cable harness 20 is exemplified by the bundle of the binding tape 23, but the form of the bundled coaxial cable 24 is not limited thereto. . Each of the coaxial structures 24 may be bundled without covering the entire body, and it is only necessary to partially bundle the substrate 1 1 '1 2 when the shape of the harness can be maintained. When the substrates π and 12 are slid, the coaxial cable 24 is preferably wound with a tape or the like on the portions of the substrates n and 12 and the wall surfaces of the substrates 1 1 and 12 to improve the durability against friction. Further, the binding tape 23 may be bonded to the coaxial cable 24 with splicability, or may be non-joining. However, when the coaxial cable 24 slides on the binding tape during bending, the user moves in the longitudinal direction to release the bending load. Therefore, it should be non-joining. -20- 1373989 In the present invention, the coaxial cable harness 20 is connected to the upper and lower substrates 11 and 12, and the overlap between the two substrates 11 and 12 at the maximum position (the state of Fig. 2) to the overlap of the two substrates 1 1 and 1 2 is At the minimum position (state of Fig. 1), the two substrates 1 1 and 1 2 are repeatedly slid back and forth to investigate the relationship between the number of times of sliding back (hereinafter referred to as the number of slides) and the disconnection of the center conductor of the coaxial cable 24. As a result, when the coaxial cable 24 is not bundled in the vicinity of the bending starting point of the coaxial cable 24 (the boundary point between the U-shaped straight portion and the curved portion), the number of times of sliding before the disconnection is greatly improved. It is known from the experiment that the starting point of the bending is sandwiched between the two sides of the 3mm range, and the bundles of different shaft cables 24 are more suitable, and the bundles of different shaft cables 24 are more suitable in the range of 5 mm on both sides. The reason is considered as follows: When the coaxial cable harness 20 is bent, the difference in growth between the inside and the outside of the bent portion is obtained. At this time, if the coaxial cables 24 are freely movable, the coaxial cable 24 on the inner side relaxes and absorbs the difference in length. However, when the coaxial cable 24 is bundled by wrapping a tape or the like, the coaxial cables 24 are restrained from moving or moving, and the difference in length cannot be absorbed, and bending stress is applied to the coaxial cable 24 at both ends of the bent portion. That is, the bending load is easily concentrated on the bending starting point of the coaxial cable 24 (the boundary point between the U-shaped straight portion and the curved portion), so that the substrates 1 1 and 1 2 are continuously slid, and the load due to the bending stress is concentrated. However, it is considered that the center conductor of the coaxial cable 24 is broken. Therefore, the portion where the bending stress is likely to occur, that is, the vicinity of the bending starting point, the coaxial cable 24 is not suitable for bundling without being restrained. Since the mobile phone usually has one of the closed state (shortened state) or the open state (extended state), the -21 - 0/3989: the substrate used by the mobile phone 30, etc. 12, usually in the state where the both ends 213, 21b of the coaxial cable harness 20 are in the closest state or the farthest. This state is as shown in Fig. 13 'the two ends of the coaxial cable harness 2', "21b is the closest state" or the both end portions 21a, 21b of the coaxial electric wire harness 20 as shown in Fig. 14. It is the bean that is farthest from the state: ^ Therefore, as shown in Fig. U or Fig. 14, in the vicinity of the bending starting point A of the crucible, if the coaxial cable 24 is not bundled, it is hardly subject to the stress of bending. The number of times of sliding of the mechanical characteristic line corresponding to the bending of the coaxial electron beam harness 20 can be greatly improved. When the coaxial electric wire harness 20 is formed using the coaxial electric slow 24 of the AWG 42 to 46, the entire length is bundled by the binding tape 23^ In the case where the sliding of the substrates η and 丨2 is performed 50,000 times, the center conductor of the coaxial cable 24 is broken. The range in which the coaxial cable 24 is not bundled is set to be the bending starting point of the U-shape, Β On the other hand, in the case of the range of 3 (7) claws on both sides in the longitudinal direction, even if the sliding of the substrates U and 12 is performed, the center conductor of the coaxial cable 24 is not broken, and the range of the non-bundling is set to be relative to the bending starting points A and B. In the range of 5mm on both sides in the length direction Then, even if the sliding of the substrates η, 12 is performed 150,000 times, the center conductor of the coaxial cable 24 is not broken. In addition, in order to maintain the shape of the harness of the coaxial electric (four) beam 2, the state shown in Figs. 13 and 14 Next, a part of the curved portion of the u-shape is preferably bundled by the binding tape 23, etc. The form in which the vicinity of the starting point of the f-curve is not bundled also includes the case where the connector is attached to the end portion of the coaxial electric gauge harness 20 and is directly mounted on the substrate. The case is also included in the coaxial cable at the end of the coaxial cable harness 2 “ "- -22 - Amendment: several groups" and each group installed connectors or installed ground rods. Further, the case where the bundle of the plurality of coaxial cables 24 is further bundled and becomes the coaxial cable harness 20 is also included. Further, as shown in Fig. 9, when the coaxial cable 24 is bundled intermittently at a plurality of places, the bending load applied to the coaxial cable 24 can be easily released as a whole because the portions which are not bundled are intermittently disposed at a plurality of points. The bending position of the coaxial cable 24 is not disturbed, and the loss of the coaxial cable is prevented. Further, by intermittently bundling the coaxial cable 24, the two end portions 21a, 21b of the coaxial cable harness 20 are in the closest state and farthest. Both of the states are easy to achieve a form near the starting point of the bundle bending. In order to maintain the shape of the harness, each of the coaxial cables 24 only needs to be bundled intermittently without distracting. As described above, it is only necessary to bundle in a range of 3 mm with a bending start point. Therefore, the interval at the time of intermittent bundling is 6 mm or more. Further, it is more preferable to intermittently bundle at intervals of 1 mm or more. Fig. 9 shows a form in which bundles 23 are bundled, but 'can be bundled in a line' or bundled with a bonding agent and integrated. Further, as shown in Figs. 15 and 16 , the coaxial cable 24 may be wound by a gap between the binding tape 23 (see Fig. 15) or the line 27 (see Fig. 6). Wrap around. The coaxial cable of the fifth and sixth figures, the wire harness 2 0 ', can be easily released from the bending load applied to the coaxial cable 24 as a whole in the same manner as the intermittently integrated structure shown in Fig. 9. Further, at both ends where the binding tape 23 or the wire 27 is spirally wound, the binding tape 23 may be bundled in advance so as not to cause entanglement. -23- ^/i989 Correction this ~ In addition, as shown in Fig. 17, the cylindrical spiral tape 28 is misaligned by the tape 28 which has been memorized in a spiral shape. East coaxial cable 24. The shape has been memorized, or in the tube; the phase purple tape 23 is used to be cylindrical and slashed. For example, a coaxial electric wire harness 20 in which a rubber is formed into a spiral shape can be used, which is spiraled to the ninth drawing. Fig. 17: In the same manner, the tufting load can be bundled easily at the complex point as a whole. In addition, due to the spiral glue: added to the coaxial electric cymbal 24: cylindrical, it is easy to maintain the set ==== recall is also the shape of the memory of the * * sorrow. Bundle 24, compared with # &amp; t n # ^ &gt; can or hose wrapped on the coaxial cable In addition:: the floor around the tape or the line is efficient. Covered bundle coaxial electric slow 24 . Braided sleeve of braided sleeve: 29 or chemical fiber braided into a tube. No.: The metal berthing line is not like the bonding tape: the shaft wire harness 2〇, in the length direction, the capacity of the pure coaxial cable 24 can be bundled in a state of easy movement. In addition, when the Jiang state is too flat, the e-element is easy to flatten, and the second can be reduced so that the bundle can be bundled into a diameter of "section circle:::wrapped:::axial cable under 24 episodes , Xibud scales account for A" _ shape on the winding strap 23 of the situation is I. 丄 width =, when it is added ... flat, become the high diameter called the door _. In addition, the coaxial electricity 24 bundle In the lower part, the "manufacturer" is covered by the braided sleeve 29 to become 2. mm, which is pressed to make it a U coffee with a width of 2.8 mm. t becomes the ninth circle of the degree of 问, the circle of 苐15 to the direction of the 与 and the coaxial arm 24 "the length direction of the cable 24 of the length direction of the connector 25 (-24- 1373989 along the straight line of the U-shaped part) When the direction is corrected to be parallel, that is, the case where the power consumption of each end is 24 bends and 9 degrees. = The situation is as described above, and the lengths of the coaxial cables (4) are different from the bundles to the aforementioned connections. Each of the coaxial powers of the device 25". Further, the direction of the connector 25 is not limited to the above. The length direction of the connector 25 may also be orthogonal to the longitudinal direction of the coaxial cable 24. end. P is not connected to the ground 5, and the grounding rod is mounted, and is directly mounted on the substrate 2 coaxial cable harness 20, which is also the same as when the coaxial cable is attached to the end of the bundle. Further, the above-mentioned embodiments can be combined as appropriate. For example, the connector 25 may be attached to one of the end portions 2ia of the coaxial cable harness 20 to be connected to the substrate 11, and the other end portion 11b may be directly attached to the substrate 12, as shown in FIGS. 1 1 and 1 2 . As shown in the figure, the direction of the coaxial cable 24 at the connection portion may be different from the direction of the straight portion of the u-shaped line of the coaxial cable harness 2, and the various bundles shown in FIG. 9 and FIG. 13 to FIG. 18 may be employed. Shape. '[Industrial Applicability] φ As described above, the present invention can be used as a coaxial cable connection structure in which two substrates which are slidably coupled and which are electrically connected by using a coaxial cable, and the like. Can be used for mobile phones and the like. The present invention has been described in detail with reference to the specific embodiments of the present invention. It is understood that various changes and modifications can be made without departing from the spirit and scope of the invention. The present application is based on Japanese Patent Application No. Hei. No. 2006-143382, the entire disclosure of which is hereby incorporated by reference. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1(A) is a plan view showing the first embodiment of the coaxial cable connecting structure of the present invention. The third (B) diagram is a side view. Fig. 2(4) is a side view showing a flat 2(B) diagram in which the state of the upper and lower substrates is superimposed. θ 乐 3(A) is a side view of a plan view 13 (Β) showing a state in which the end of the coaxial electric wire harness is secured. Figure 3(C) is a cross-sectional view. Fig. 4(4) is a plan view showing a state in which the splicer is mounted (9) at the end portion of the coaxial cable harness. Figure 4(B) is a side view. Sectional view. v ; solid and 5 (B) shows a perspective view of an example of the housing portion. The figure shows a perspective view of an extended state of the mobile phone to which the coaxial cable of the present invention is applied. Figure 6(B) shows an oblique view of the state of the telephone. Ding Zhong Feng Deng Fig. 7(A) is a plan view showing a state in which the two substrates of the system in which the coaxial circuit of the present invention is applied are overlapped. A plan view showing a state in which the two substrates are slid. (10) Display Fig. 8(A) is a cross-sectional view showing a state in which a coaxial cable harness is directly mounted on one surface of a substrate. The eighth (Β) diagram shows a cross-sectional view of a state in which both sides are mounted on the substrate. (10) The horizontal beam diagram of the spring beam shows the coaxial electric gauge and the wire harness of the intermittently bundled coaxial electric winding. Fig. 10 shows a plan view showing the state in which the coaxial cable harness is divided into two connectors. Connected - Figure 1 shows the connection to the end of the coaxial cable harness. . The second direction of the case where the direction of the degree is orthogonal to the direction of the straight line portion of the (four) word is shown in Fig. 12, which shows the end of the wire harness of the cable.

The length direction is orthogonal to the direction along the straight line portion of U Fengzhiji A. ★ Figure 13 shows a plan view showing the starting point of the bending at the end of the coaxial cable harness at the end L with respect to the U-shape. Fig. 14 is a plan view showing that the ends of the coaxial cable harness are farthest, and the bending start points of the U-shape are not combined with each other in the longitudinal direction. Figure 15 shows a plan view of a bundle of coaxial cables bundled into a helical shaft cable harness. Figure 16 shows a plan view of a bundle of coaxial cables bundled into a helical cable harness. Figure 17 shows a plan view of a bundle of coaxial cables with a spiral ribbon. Figure 18 shows a plan view of the same _ harness as a braided sleeve bundled coaxial cable. Fig. 19 shows the side of the wiring structure using the flexible substrate. [Description of main components] Grounding bar Example of the case of the beam. Example of the beam. Example of the coaxial coaxial coaxial cable. 10 Coaxial cable connection structure 11 Upper substrate 12 Lower substrate 13 accommodating portion 13a Recessed portion (accommodating portion) 13b Projection (accommodating portion) 20 Coaxial cable harness -27- 1373989 Revision 20a Bundle 20b Bundle 21a End portion 21b End portion 22 Length 23 strapping tape (tape) 2 4 coaxial cable 25 connector

25a connector 25b connector 26 grounding rod 27 wire 28 spiral tape 29 braided sleeve 30 mobile phone (portable terminal) 3 1 upper frame

32 Lower frame 100 Base plate 101 Connector 102 Circuit module 103 Connector 10 4 Flexible printed circuit board hi Thickness h2 Thickness A Starting point of bending B Starting point of bending -28-

Claims (1)

1373989 Amendment to the same ) ) ) ) ) ) 集 集 集 集 集 集 集 集 集 集 集 集 集 集 集 集 集 集 集 集 U 96 96 96 96 96 96 96 96 96 96 96 96 96 96 96 96 96 96 96 96 96 96 96 96 96 "Wire harness and portable terminal" patent application (December 23, 2011, patent application scope: 1. A coaxial cable connection structure, which is a coaxial cable harness comprising at least one plurality of coaxial cables, connected to the stack The two substrates that are arranged to slide in a straight line are characterized in that the coaxial cable harness is bent in a width direction of the substrate orthogonal to the sliding of the substrate, and is integrally connected thereto. In the coaxial cable connection structure of the first aspect, at least a part of the end of the coaxial cable harness is connected with a connector. 3. The coaxial cable connection structure of claim 2, wherein the connector is formed with a plurality of rows. The coaxial cable connection structure of the first item, wherein the end of the coaxial cable harness is directly mounted on the base 5. A coaxial cable connection structure according to claim 1, wherein both ends of the coaxial cable harness are respectively connected to the opposite sides of the two in the width direction. 6. The coaxial cable of claim 1 In the connection structure, each of the coaxial cables is thinner than the AWG 42. 7. The coaxial cable connection structure according to claim 1, wherein the coaxial cable accommodating portion accommodates the coaxial cable harness at a predetermined width.帛i item is the same as '+' π i. ^ % 'Double-connected structure* The above-mentioned coaxial electric wire harness is formed by multiplying (four): ": two bundles are bundled. 9. The coaxial coaxial electric double-spring bundle structure according to claim 2, wherein the hand side = end side 'in order to make the length direction of the connector intersect with the aforementioned U, and Maintaining the direction of the 芎f minutes before the connection is not correct. The relative direction of the straight line is the length of the shaft. The same one of the connectors: the coaxial winding of the fourth item connection Manufactured in which the end of the "coaxial (four) beam of the Μ ί substrate is mounted so that the length direction of the ground rod is not orthogonal to the direction along the straight portion of the u I shape, and the ground rod is maintained The relative direction of the straight line portion of $4, A, and &amp; is adjusted from the portion of the bundle to the length of each coaxial cable just before the grounding rod. 1 1 Μ ^Properties for the coaxial cable of S 1 It is a connection structure in which the two ends of the I* cable harness are closest to each other, and the coaxial cable harness is in the range of 3 mm in the longitudinal direction with respect to the U-shaped bending starting point, the coaxial cable Not bundled. 12. The coaxial cable connection structure according to claim 1, wherein the coaxial cable harness is at a length relative to the U-shaped bending starting point in a state where the end portions of the month J t coaxial % ^ harness are farthest away The aforementioned coaxial cable is not bundled in the range of 3 mm on both sides of the direction. 13_ The coaxial cable connection structure of claim 1, wherein the aforementioned coaxial cable is intermittently bundled at a plurality of points. 1373989 Amendment 14. The coaxial cable connection structure of claim 13, wherein the coaxial electro-optical system is intermittently bundled at intervals of 6 mm or more. 15. The coaxial cable connection structure according to claim 1, wherein the coaxial cable is bundled by a wire or a tape in a spiral shape with a gap interposed therebetween. 16. The coaxial cable connection structure of claim 1, wherein the coaxial cable is bundled by a gap by a spiral tape having a shape that has been memorized in a cylindrical shape. Stomach 17. The coaxial cable connection structure of claim 1, wherein the aforementioned coaxial cable is covered by a tubular braided sleeve and bundled. 1-8. A coaxial cable harness, which is used in a coaxial cable connection structure according to any one of claims 1 to 17. 1 A portable terminal device having a coaxial cable connection structure according to any one of claims 1 to 17. 1373989 Amendment VII. Designated representative map: (1) The representative representative of the case is: (1). (2) Brief description of the symbol of the representative figure: 10 Coaxial cable connection structure 11 Upper substrate 12 Lower substrate 20 Coaxial cable harness 2 1 a End 21b End 22 Extra length 23 Bundling tape (tape) 2 4 Coaxial cable 25 connection 8. If there is a chemical formula in this case, please reveal the chemical formula that best shows the characteristics of the invention: