201236030 六、發明說明: 【發明所屬之技術領域】 本發明係關於一種將細徑之同軸纜線捆束複數條形成 之細徑同軸纜線線束及其製造方法。 【先前技術】 行動終端或小型視訊攝影機等精密小型機器係藉由配 線材連接連結成可彼此滑動或旋動之筐體内之電路基板。 作為精密小型機器之配線構造之一例,已知具備2個筐體、 連結2個筐體之鉸鏈構造、排列於鉸鏈構造之内部之防水 管、連通於防水管並從防水管之端部延伸且從一筐體内部 排列至另一筐體内部之電氣訊號用纜線、捲繞於電氣訊號 用纜線且安裝於防水管之端部之密封材、及捲繞於密封材 之彈性材者(例如,參照專利文獻丨)。 作為配線構造之另一例,已知安裝於對筐體之導入部 之防水。卩由岔封罩及安裝於密封罩之外周之〇型環構 成’防水部之間被防水管覆蓋,密封罩藉由接著材接著於 筐體且防水管與防水部安裝成水密者(例如,參照專利文獻 2)。 專利文獻1.日本專利公開:日本特開2〇〇8_ MUM 號公報 專利文獻2.日本專利公開:日本特開 號公報 【發明内容】 配線在筐體間之境線雖通過具有可挽性及折曲性之防 201236030 水管而防水,但近年來,隨著機器之 化,為了使配線空間進一步縮小,要长&小型化、薄型 性並同時薄型化之纟覽線線束。在中間部圓二Γ:: 同軸缆線線束,會有不易將該捆 梱束成-束之 狹窄之收容空間之情形。 B。較薄地配線於 又’在中間部圓形捆束成-束之同轴I線線束,線束 之防水权剖面形狀變大,例如若防水部 化 則其直徑變大。因I亦不易使二為圓形’ m *裝在盧體之防水部之厚 本發明之目的在於提供一種可. ^ j雒保良好之防水性並同 時薄型化之細徑同軸纜線線束及其製造方法。 能解決上述課題之本發明之細徑同轴境線線束,具備 複數條細徑同軸纜線、複數個防水管、及具有複數個插通 孔之防水罩; 複數條該細徑同軸纜線,終端部.分以外之至少一部分 係分成複數群,各該群分別插通於該防水管且捆束成各該 細徑同軸纜線彼此之位置關係可變化之程度,分別插通於 該插通孔; 該防水罩水密地整批連接於複數個該防水管之端部。 本發明之細徑同軸纜線線束中,較佳為,該防水罩係 由彈性材料構成’該防水管係被該防水罩與該金屬管夾住 並壓縮於厚度方向。 本發明之細徑同軸纜線線束中,較佳為,該防水罩係 由彈性材料構成’在該防水罩之外周形成有在與該插通孔 201236030 中’較佳為’該防水管之 壓入至該防水罩之該插通 力時之該防水管之扁平率 之軸方向正交之方向突出之突條 本發明之細徑同軸纜線線束 外徑為1.3mm以下,將該防水管 孔以對該防水罩賦予3〇〇kPa之壓 為30%以下。 再者,較佳為, 至度之間之值; 以下。 。亥防水罩之硬度為在蕭氏A硬度度 «玄防水管之厚度為〇 lmm以上〇 2mm 本發明之細徑同軸纜線線束中,敕 * ^ τ 权佳為,至少一條該 防水管與其他該防水管為非等長。 /發明之細徑同減線線束中,較佳為,具有各該防 水管之中間部彼此一體化之一體部。 又’本發明之細徑同軸纜線線束之製造方法,該細徑 同軸纜線線束,具備複數條細徑同軸纜線、複數個防水管、 及具有複數個插通孔之防水罩,其特徵在於: 將複數條該細徑同軸纜線之終端部分以外之至少一部 分分成複數群; 將各該群分別插通於該防水管且捆束成各該細徑同轴 纜線彼此之位置關係可變化之程度,插通於該插通孔; 將該防水|水㈣整批連接於複數個該防水管之端 部。 本發明之細徑同軸纜線線束之製造方法中,較佳為, 該防水罩係由彈性材料構成; 將金屬管壓入至該防水管之内側’藉由該防水罩與該 201236030 金屬管將該防水管於厚卢 手度方向夾住並壓縮。 本發明之細徑同細潑始* 軸規線線束之製造方法中,較佳為, 該防水管之外徑為1 3 .mm μ下,將該防水管壓入至該防水 罩之該插通孔以對該防匕g 尺罩賦予300kPa之壓力時之該防水 管之扁平率為30%以下。 卜$平率係藉自「扁平率(% )=(加壓後之直徑/加 壓則之直徑)xl〇〇」來計算。 ▲本發明之細徑同轴I線線束之製造方法中,較佳為, 该防水罩之硬度為在蕭氏A硬度5〇度至7〇度之間之值; 該防水皆之厚度為Q lmm以上Q 2_以下。 本發明之細徑同軸纜線線束之製造方法令,較佳為, 使至少-條該防水管之長度與其他該防水管之長度不同。 本發明之細徑同軸纜線線束之製造方法中,較佳為, 使各該防水管之中間部一體化。 根據本發明,由於複數條細徑同軸境線在終端部分以 外之部位分成複數群且各群插通於防水管,因此相較於將 複數條細徑同軸纜線捆束成一束並通過防水管之情形,可 較薄地配線。又’由於插通有細徑同轴鐵線之防水管插通 於防水罩之插通孔且防水罩水密地整批連接於防水管之端 部,因此亦能使防水罩之剖面外形變薄。藉此,可確保良 好之防水性並同時較薄地配線,在筐體之薄安裝部位亦可 安裝防水罩並配線。 又,由於在防水罩由彈性材料構成之情形不需要〇变 環,因此不會導致成本增加,可獲得良好之防水構造。〇塑 201236030 環必需選擇準備輿_ φ _加 L 、裝側之外徑對應之徑者,外形為圓形201236030 VI. Description of the Invention: [Technical Field] The present invention relates to a small-diameter coaxial cable harness formed by bundling a plurality of small-diameter coaxial cables and a method of manufacturing the same. [Prior Art] A compact small device such as a mobile terminal or a small video camera is connected to a circuit board that can be slid or rotated in a housing by a wire. As an example of a wiring structure of a precision small machine, it is known that two housings, a hinge structure that connects two housings, and a waterproof tube that is arranged inside the hinge structure are connected to the waterproof tube and extend from the end portion of the waterproof tube. An electric signal cable that is arranged from inside the one casing to the inside of the other casing, a sealing material that is wound around the electric signal cable and attached to the end of the waterproof pipe, and an elastic material that is wound around the sealing material ( For example, refer to the patent document 丨). As another example of the wiring structure, it is known to be waterproofed to the lead-in portion of the casing. The 岔-shaped cover and the 〇-shaped ring attached to the outer periphery of the sealing cover constitute a 'waterproof portion covered by the waterproof tube, and the sealing cover is attached to the housing by the adhesive material and the waterproof tube and the waterproof portion are installed as watertight (for example, Refer to Patent Document 2). [Patent Document 1] Japanese Patent Laid-Open Publication No. Hei. No. Hei. It is waterproof and waterproof, but in recent years, in order to further reduce the wiring space, it is necessary to be long and small, thin and thin at the same time. In the middle part of the circle:: Coaxial cable harness, there will be a situation where it is difficult to bundle the bundle into a narrow accommodating space. B. The coaxial I wire harness which is bundled in a thin bundle in the middle portion is thinly wired, and the waterproof weight cross-sectional shape of the wire harness is increased. For example, if the waterproof portion is formed, the diameter thereof becomes large. Because I is not easy to make the second round 'm* thick in the waterproof part of the Lu body. The purpose of the invention is to provide a small diameter coaxial cable harness capable of ensuring good waterproofness and thinning at the same time. Its manufacturing method. The narrow-diameter coaxial line harness of the present invention capable of solving the above problems, comprising a plurality of small-diameter coaxial cables, a plurality of waterproof tubes, and a waterproof cover having a plurality of insertion holes; a plurality of the narrow-diameter coaxial cables, the terminal At least a part of the part is divided into a plurality of groups, each of which is inserted into the waterproof tube and bundled into a degree that the positional relationship between the small-diameter coaxial cables can be changed, and the insertion holes are respectively inserted into the insertion holes. The waterproof cover is connected to the ends of the plurality of waterproof pipes in a watertight manner. In the narrow coaxial cable harness of the present invention, preferably, the waterproof cover is made of an elastic material. The waterproof pipe is sandwiched between the waterproof cover and the metal pipe and compressed in the thickness direction. In the narrow-diameter coaxial cable harness of the present invention, preferably, the waterproof cover is made of an elastic material. The outer periphery of the waterproof cover is formed with a pressure of the waterproof tube in the insertion hole 201236030. The protruding line protruding into the direction perpendicular to the axial direction of the flatness of the waterproof tube when the insertion force is applied to the waterproof cover is smaller than the outer diameter of the narrow coaxial cable harness of the present invention of 1.3 mm or less, and the waterproof tube hole is The pressure of 3 kPa was given to the waterproof cover to be 30% or less. Furthermore, it is preferably a value between degrees and degrees; . The hardness of the waterproof cover of the sea is such that the thickness of the Xiao's A hardness «Xuan waterproof pipe is 〇lmm or more 〇2mm. In the narrow-coaxial cable harness of the present invention, 敕*^ τ is preferably, at least one of the waterproof pipe and the other The waterproof tube is unequal length. In the narrow diameter and the reduced wire harness of the invention, it is preferable that one of the intermediate portions of the respective water pipes is integrated with each other. Further, the method of manufacturing the narrow-coaxial coaxial cable harness of the present invention, the narrow-coaxial coaxial cable harness, comprising a plurality of small-diameter coaxial cables, a plurality of waterproof tubes, and a waterproof cover having a plurality of insertion holes, wherein The method further comprises: dividing at least a part of the plurality of the narrow coaxial cable ends into a plurality of groups; inserting each of the groups into the waterproof tube and bundling the positional relationship between the small diameter coaxial cables; The degree of change is inserted into the insertion hole; the waterproof|water (4) is connected in whole batch to the ends of the plurality of waterproof tubes. In the method for manufacturing a thin-diameter coaxial cable harness of the present invention, preferably, the waterproof cover is made of an elastic material; and the metal pipe is pressed into the inner side of the waterproof pipe by the waterproof cover and the 201236030 metal pipe The waterproof tube is clamped and compressed in the direction of the thick hand. In the manufacturing method of the thin-diameter and fine-spraying *axle wire harness of the present invention, preferably, the outer diameter of the waterproof tube is 13 mm mm, and the waterproof tube is pressed into the waterproof cover. When the through hole is given a pressure of 300 kPa to the tamper-proof hood, the flatness ratio of the waterproof tube is 30% or less. The flat rate is calculated from the "flatness ratio (%) = (diameter after pressurization / diameter of pressurization) xl". ▲ In the manufacturing method of the thin-diameter coaxial I-wire harness of the present invention, preferably, the hardness of the waterproof cover is a value between 5 degrees and 7 degrees of Shore A hardness; the thickness of the waterproof cover is Q. Lmm or more Q 2_ or less. Preferably, the method of manufacturing the narrow-coaxial cable harness of the present invention is such that at least the length of the waterproof tube is different from the length of the other waterproof tube. In the method of manufacturing a small-diameter coaxial cable harness of the present invention, it is preferable that the intermediate portion of each of the waterproof tubes is integrated. According to the present invention, since a plurality of narrow-diameter coaxial lines are divided into a plurality of groups at a portion other than the terminal portion and the groups are inserted into the waterproof tube, the plurality of narrow-diameter coaxial cables are bundled into a bundle and passed through the waterproof tube. In this case, wiring can be thinner. In addition, since the waterproof tube inserted with the small-diameter coaxial wire is inserted into the insertion hole of the waterproof cover and the waterproof cover is watertightly connected to the end of the waterproof tube, the cross-sectional shape of the waterproof cover can also be thinned. . This ensures good waterproofness and thin wiring at the same time, and a waterproof cover can be attached to the thin mounting portion of the housing and wired. Further, since the damper ring is not required in the case where the waterproof cover is made of an elastic material, the cost is not increased, and a good waterproof structure can be obtained. 〇 2012 201236030 ring must choose to prepare 舆 _ φ _ plus L, the diameter of the outer side of the side of the corresponding diameter, the shape is a circle
之構件以外使用受到服H 制’但由於本發明中不需要〇型環, 因此無防水罩之形fj► Rp 4 , 、制,能與連接之筐體側對應使防 水罩成為薄㈣’能在薄且狹窄之部位配線並同時獲得良 好之防水構造。 【實施方式】 .、以下,參照圖式說明本發明之細徑同軸镜線線束及其 製造方法之實施形態之例。 本實施形態之細徑同軸纜線線束係連接於例如圖"斤 示之行動電話1等機器之相對滑動之筐體2, 3内之基板。 在此行動電話1’在-筐體2設有顯示器,在另一值體3設 有按鍵操作部。 如圖2所示,細徑同軸纜線線朿11具有複數條(40〜50 條)細徑同軸纜線12,設有將此等分成複數群捆束之複數個 (本實施形態為2個)束部丨〇。在細徑同軸纜線線束丨丨之兩 端之終端部分,細徑同軸纜線12係排列成平面狀,安裝有 用以連接至行動電話1之筐體2及筐體3内之配線基板之 連接器13而被成端處理。 細徑同軸規線12為在與中心軸正交之徑方向之剖面從 中心朝向外側具有中心導體、内部絕緣體、外部導體、外 被之構成,在如別之端部施加終端處理,外部導體、内部 絕緣體、中心導體階段性地露出既定長度,連接於連接器 13。又,在細徑同軸纜線線束11,除了複數條細徑同軸纜 線12之外,包含無外部導體之細徑絕緣纜線亦可。此外, 201236030 圖式中將細徑同軸纜線〗2之數量簡略地顯示較少。 本發明中所謂細徑同軸纜線12,為較AWG(AmedcanThe use of the member is not limited to the use of the device. However, since the 〇-shaped ring is not required in the present invention, the shape of the waterproof cover is not corresponding to the side of the connected casing, so that the waterproof cover becomes thin (four)' Wire the thin and narrow parts and obtain a good waterproof structure at the same time. [Embodiment] Hereinafter, an example of an embodiment of a small-diameter coaxial mirror wire harness of the present invention and a method of manufacturing the same will be described with reference to the drawings. The small-diameter coaxial cable harness of the present embodiment is connected to a substrate in the housings 2, 3 which are relatively slid by a machine such as the mobile phone 1 shown in the figure. In this mobile phone 1', a display is provided in the casing 2, and a button operating portion is provided in the other value body 3. As shown in FIG. 2, the small-diameter coaxial cable 朿11 has a plurality of (40 to 50) narrow-diameter coaxial cables 12, and is provided with a plurality of bundles divided into a plurality of groups (two in this embodiment). ) bundles. At the terminal portions of both ends of the narrow-diameter coaxial cable harness ,, the small-diameter coaxial cables 12 are arranged in a planar shape, and are connected to the wiring body 2 and the wiring substrate in the casing 3 for connection to the mobile phone 1 The processor 13 is processed in an end. The small-diameter coaxial wire 12 has a center conductor, an inner insulator, an outer conductor, and an outer layer from the center toward the outer side in a radial direction orthogonal to the central axis, and is subjected to terminal treatment at the other end, and the outer conductor, The inner insulator and the center conductor are periodically exposed to a predetermined length and are connected to the connector 13. Further, the small-diameter coaxial cable harness 11 may include a small-diameter insulated cable having no external conductor, in addition to the plurality of small-diameter coaxial cables 12. In addition, in 201236030, the number of small-diameter coaxial cables 〖2 is shown to be less. The so-called small-diameter coaxial cable 12 in the present invention is a relatively AWG (Amedcan)
Wire Gauge)規格之AWG4〇細之同軸纜線,其外徑為約 〇.2mm程度。較佳為使用較AWG44細之極細同軸纜線。藉 此’細徑同軸纜線線束n容易.彎曲,能使筐體2及筐體曰3 /月動時之阻力變小。又’捆束複數條細徑同軸纜線1 2形成 複數個束部Η)時,能使束部1G之厚度變薄,能進行在有 限配線空間之高密度配線。 在細徑同轴I線線束η之各束部10,複數條細徑同車由 I線12分別插通於防水管21,藉由防水管21捆束成各細 控同軸镜線12彼此之位置關係可變化之程度。此防水管21 具有優異之防水性、可撓性及折曲性,例如由氟樹脂、聚 稀、或%氧橡膠等之軟質樹脂或此等之多孔體形成。例 ^ 1水管21由四氟乙稀、六氟丙烯及偏氟乙烯之三元聚 一门刀子(THV)形成而具有高耐久性。構成此防水管2 1 之—疋聚合物高分子,較佳為,熔點為100。(:以上1401以 下’ MFR(炫融指數、265。口叫)為i 5§/分以上2分以 破螭轉位點為〇 c以上1 〇。(:以下,延伸率為600%以上 70〇%以下’彎曲彈性率為〇 〇5GPa以上〇以下。 圖2之各束部10分別包含2〇條程度之細徑同軸纜線 、、田亡同軸纜線12為aWG46之細度,將複數條細徑同 纜線12分成二個束部丨〇,一個束部丨〇之細徑同軸纜線 12為2〇條之情形,若使細徑同軸纜線12插通於防水管21 中而成束,則能將防水管2丨之外徑限制在】程度。 201236030 在各束部l 〇之兩端部,共通之防水罩丨4水密地整批 連接於各防水管21之端部。在防水罩14形成有與複數個 防水管21對應之複數個插通孔16(參照圖4)。在此等插通 孔16之内側安襞有防水罩14。又,插通於防水管21之各 束部10之細徑同軸纜線12亦插通於防水罩14之插通孔16。 圖2之細徑同軸纜線線束i i,在二個束部1〇之兩端分 别連接有一個防水罩丨4。在較防水罩丨4更端部側,從二個 束郤1 〇之防水官2 1延伸之複數條細徑同軸纜線丨2露出並 一起排列成平面狀,在一端各連接有一個連接器13。 作為另一例,圖3之細徑同軸纜線線束丨u,從二個束 4 1 〇之防水管2 1延伸之複數條細徑同軸纜線〗2在分成各 束卩10之群之狀態下分別排列成平面狀,各群連接於各自 之連接器l3ae又,就各束部10之群改變細徑同軸纜線 之長度亦可。 木圖2之形態或採取圖3之形態,可依照在筐體2 3 内山之配線要求來適當選擇。χ,使細徑同轴蜆線線束之一 鳊為圖2之形態,另一端為圖3之形態亦可。 安^^說明對防水管21之防水罩14之安裝構造及其Wire Gauge) AWG4 fine coaxial cable with an outer diameter of approximately 〇.2mm. It is preferred to use a finer coaxial cable that is thinner than AWG44. By this, the small-diameter coaxial cable harness n is easy to bend, and the resistance of the casing 2 and the casing 曰 3 / month can be made small. Further, when a plurality of bundles of small-diameter coaxial cables 12 are formed into a plurality of bundles, the thickness of the bundle portion 1G can be made thin, and high-density wiring in a limited wiring space can be performed. In each of the bundle portions 10 of the small-diameter coaxial I-line harness η, a plurality of small-diameter identical vehicles are respectively inserted into the waterproof tube 21 from the I-line 12, and bundled into the fine-controlled coaxial mirrors 12 by the waterproof tube 21 The degree to which the positional relationship can vary. This waterproof tube 21 has excellent water repellency, flexibility, and flexibility, and is formed, for example, of a soft resin such as fluororesin, polycrystalline or oxy-carbon rubber or a porous body thereof. Example ^ 1 The water pipe 21 is formed of a trigonal polyethylene (THV) of tetrafluoroethylene, hexafluoropropylene and vinylidene fluoride to have high durability. The ruthenium polymer polymer constituting the waterproof tube 2 1 preferably has a melting point of 100. (: above 1401 below 'MFR (Hyunrong index, 265. mouth call) is i 5§ / min or more 2 points to break the transfer point to 〇 c or more 1 〇. (: The following, the elongation rate is 600% or more 70 〇% or less 'bending elastic modulus is 〇〇5GPa or more 〇. The bundles 10 of Fig. 2 each include a small-diameter coaxial cable of 2 degrees, and the Tianyu coaxial cable 12 is the fineness of aWG46, which will be plural The strip diameter is the same as the cable 12 divided into two bundles, and the narrow coaxial cable 12 of one bundle is 2 turns. If the narrow coaxial cable 12 is inserted into the waterproof tube 21, In the bundle, the outer diameter of the waterproof tube 2 can be limited to a degree. 201236030 The common waterproof cover 丨4 is connected to the end portions of the waterproof tubes 21 in a watertight manner at both ends of each bundle portion 〇. A plurality of insertion holes 16 (see FIG. 4) corresponding to the plurality of waterproof tubes 21 are formed in the waterproof cover 14. A waterproof cover 14 is attached to the inside of the insertion holes 16. Further, the waterproof tube 21 is inserted. The narrow coaxial cable 12 of each bundle 10 is also inserted into the insertion hole 16 of the waterproof cover 14. The narrow coaxial cable harness ii of Fig. 2 is divided at the ends of the two bundles 1 Do not connect a waterproof cover 丨 4. On the more end side of the waterproof cover 丨 4, a plurality of small-diameter coaxial cables 丨 2 extending from the two bundles of the waterproof member 2 1 are exposed and arranged in a plane shape. A connector 13 is connected to one end at each end. As another example, the thin-diameter coaxial cable harness 图u of Fig. 3, a plurality of narrow-diameter coaxial cables extending from the two waterproof tubes 2 1 of the bundle 4 1 〗 2 In a state of being divided into groups of bundles 10, they are arranged in a planar shape, and each group is connected to each of the connectors l3ae, and the length of the small-diameter coaxial cable may be changed for each group of the bundles 10. The form or the form of Fig. 3 can be appropriately selected according to the wiring requirements of the inner casing of the casing 23. The one of the small-diameter coaxial twisted wire harness is shaped as shown in Fig. 2, and the other end is also in the form of Fig. 3. An ^^ illustrates the installation structure of the waterproof cover 14 of the waterproof tube 21 and
,刀別1之尸/Τ紙数王〜、洲证问私嫩A 许、s认★ 议丨』軸境線1 2之群 從:部=水管21之狀態下’使各細徑同轴境線12之群 則插通於金屬管丨7之内側。金屬管 一 # 4¾¾ A -dz itir 如圖5所不 兔女裝於防水管η之端部之内側。金屬f 為防水營〇 1 u 1之内徑以上即可。例如’防水管21為内種 201236030 1.5mm '外徑l.9mm之情形, ", _金屬管P為内徑1.5mm、外 徑l_7mm即可。藉由將此 但m 7萄官1 7插入至防水管2 1 ’ 防水官2 1被擠壓擴展至彳<τ<古a从也丨 工方向外側而彈性變形,密合於金 屬管17之外周面。防水管 粗度大約為此之情形,使 用金屬管17較佳。 pi’、 响市攻有突出至徑方向外側之突 =部心將金屬管17插人至防水管21内時,此突緣部18 於防水管21之端面’藉此定位相對於防水管21之金 屬管17之長度方向之位置。 防水罩Μ係'由石夕氧橡膠等彈性樹脂材料構成安裝於 时管21之端部之外周。防水罩Η之插通孔16為例如内 徑2.0mm,藉由安裝於插入有金屬f 17之防水管η之外 周’將防水管21 <主内徑側按壓。亦即,防水管21之端部 被金屬管1 7與防水罩i 4從内外按壓而被夾住並壓縮於厚 度方向1此’防水罩14水密地連接於防水管21。 防水罩14之剖面外形為長圓形狀,在防水罩μ 之外周中從插通孔16之軸方向觀察中央之部分,在周方向 連續形成有在與插通孔16之軸方向正交之方向突出之突條 15在筐體安裝有防水罩14之部位為包圍防水罩14之壁 面所圍繞之凹部。凹部之剖面較防水罩14之剖面稍微小, 在凹部壓入防水罩14以使細徑同軸纜線線束1 1水密地安 裝於Μ體。防水罩14之突條15被壓接於安裝有防水罩14 之筐體之凹部2a,3a(參照圖6)並被壓潰,藉此能使防水罩 14與筐體更確實地水密。突條丨5係一體成型於防水罩14, 10 201236030 因此1 目較於另外使用◦型環之情形,可抑制成本。 即使將:防水管21係由矽氧橡膠等之軟質樹脂構成,因此 :使:内徑及外徑製造成既定尺寸,亦容易產生尺寸誤 卢之Μ /度容純正確尺寸獲得,因此防水f 21之厚 ::差較少。藉由將金屬管17之外徑與防水罩14之插 水 之内徑之差設定成較防水管21之厚度小,能使防 於厚卢方Θ厚度之偏差少’因此能使防水管21確實地壓縮 於厚度方向’易於獲得水密性。 圖5:防水管21之防水罩14之較佳安裝步驟,首先,如 使插通有細徑同軸纜線12之群之防水管2 之插通孔16,將防水罩14配置在較防水㈣ 接者,使細徑同軸纜線12之群從 2二通於金屬管17之内側,將金屬* 17壓入至防水管 Μ之内側。在此狀態下’使防水罩Μ移動至防水管 端部。此時,由於防水f 2ι之端部之外徑較防水罩 並同主通孔16之内徑大’因此防水軍14之插通孔16擴展 並同時滑動移動至防水管21之端部。 :由上述步輝,容易將防水管21之端部壓縮於厚度方 向並水密地安裝防水罩 數個防水管21整批進行。匕防水罩Η之安裝可對複 此外’對細徑同軸瘦線12之連接器13之連接,在細 k问轴徵線12分別通過防水管 後進行即可。 防水罩14、金屬管17 為了將細徑同軸纜線線束u安裝於構成行動電話】或 201236030 攝影機之筐體2及t體3,首先,在將連接器13安褒於細 徑同軸纜線12之前,預先使複數條細徑同軸纜線12分別 通過防水管21、防水罩14、金屬管17並組裝。接著,如 圖6所示,使較防水管21更在端部側露出之細徑同軸纜線 12分別通過筐體2之插通孔2b與筐體3之插通孔3b,在 筐體2之凹部2a與筐體3之凹部3a分別嵌入束部1〇之端 部之防水罩14。凹部2a,33為俯視長圓形狀。設在防水罩 14之外周之突條1 5被凹部2a, 2b壓接而壓潰,藉此可謀求 防水罩14與筐體2, 3之水密。由於防水罩14與防水管以 係水密地連接,因此水不會沿著細徑同軸纜線線束丨丨浸入 筐體2或筐體3之内部(連接器丨3側)。 圖6係將筐體2及筐體3之一部分在厚度方向剖面觀 察者,雖僅顯示複數個束部1〇中之一個,但在此圖之深度 方向存在有其他束部丨〇。亦即,構成細徑同軸纜線線束工i 之細徑同轴繞線丨2之各群排列在筐體2及筐體3滑動之面 方向藉此’相較於將構成細徑同轴徵線線束之所有細徑 同抽規線拥束成一束並通過防水管之情形,能在筐體2及 Μ體3之間較薄地配線。又,由於防水罩14水密地整批連 接於防水管21之端部,因此能使防水罩14之剖面外形變 薄。藉此’能使筐體2及筐體3之凹部2a,2b之高度Η變 低。 如上述’根據本實施形態之細徑同軸纜線線束11,可 確保良好之防水性並同時較薄地配線,在筐體2,3之薄安 裝°卩位亦可安裝防水罩14並配線。此外,亦能使筐體2, 3 12 201236030 變薄。 又’若欲以〇型環得到防水’由於〇型環為高價之構 件因此成本會上升。本實施形態中,由於不須使用〇型環, 因此不會導致成本上升,可獲得良好之防水構造。在使用〇 型環之情形,雖必須在防水罩14形成〇型環之安裝槽,但 本貫施形態中亦不需如此。又,〇型環必須選擇準備與安裝 側之外徑對應之徑者,且外形為圓形構件以外則使用受到 限制,但本實施形態中不需要〇型環,因此防水罩14之形 狀無限制。是以,能與連接之筐體2, 3側對應使防水罩14 成為薄之外形,在薄且狹窄之部位亦可配線並同時獲得良 好之防水構造。 接著,說明本發明之另一實施形態。 此外’對與上述實施形態共通之部位賦予相同之符號 以省略重複之說明。 如圖7所示,細徑同軸纜線線束丨lb具有複數條(本實 施形態為40條)細徑同軸纜線12,設有將此等分成複數群 以每複數條(本實施形態為丨0條)捆束之複數個(本實施形態 為4個)束部1 〇。在細徑同軸纜線線束〖丨b之兩端之終端部 分,各束部1 0之細徑同軸纜線丨2係排列成平面狀,安裝 有用以連接至圖1所示之行動電話丨之筐體2,3内之配線 基板之連接器13而被成端處理。 在細徑同軸纜線線束1 1 b之各束部1 〇,各群之複數條 細徑同軸纜線12分別插通於防水管21,捆束成各群之各細 徑同軸纜線12彼此之位置關係可變化之程度。是以,在使 13 201236030 此細徑同軸纜線線束丨丨b A t 内細徑 同軸纜 瓦术Ub折曲時,由於在防水管2ι 同軸纜線12順暢地移動, 抄勒因此可極力抑制對各細徑 線12之拉伸力或側壓等之賦予。 在細徑同軸鐵線線束"b在撞體2, 3間折曲之情 形,其折曲之徑方向最外側之防水㈣變長。 向外側防水管2 1之县声诼如作e m 之長度逐漸變長。亦即,7之細徑 纜線線束1 ib具備彼此非等長之防水管21。 如圖7所示 為外徑1.3mm以 施形態之防水管 為 0.1 mm。 ,使用4條防水管21之情形,防水管21 下’厚度為0.1_以上〇.2_以下。本實 21,外徑為’内徑為1.1mm,厚度 如圖8及圖9戶斤示,尤欠a η 在各束邛10之兩端部,共通之一 對防水罩14b水密地整批連接於各防水管21之端部。在防 水罩14b形成有與複數個防水f 21對應之複數個插通孔 16 ’在此等插通孔16安裝有防水管2ι。又,插通於防水管 21之各束部10之細徑同軸i線12亦插通於防水罩…之 插通孔1 6。 防水罩14b係由石夕氧橡膠等之彈性樹脂材料構成,其 硬度(蕭氏A硬度)為50度以上7〇度以下。本實施形態中, 防水罩Mb之硬度為60度。設防水f 21之外徑為】3_ 之情形’防水罩14b之插通孔16之内徑以"Η 〇5議(防 水管之外徑相對於插通孔之内徑為12倍至14倍)為佳。例 如,藉由將較插通孔16之内徑10mm大之外徑i 3mm2 防水管2丨壓入,防水管21對防水罩14水密地連接。 201236030 此時’由於使用將防水管 孔16以對防水罩14b賦予300kPa之壓力時 %以下之防…,因此在使用外一以== 管2i之情%,將防水| l4b才主以僮體之壁圍繞之嵌合部壓 入時’即使金屬管等支承構件不進入防水管21之内部,防 水管21亦被壓潰而能使插通孔16與防水罩i4b之間不產 生間隙。因此’ P方水管21之外周面密合於防水罩⑷之插 通孔16之内周面’可確保良好之水密狀態。此外,在防水 罩14b之插通孔16與防水管21之間塗布接著材(紫外線硬 化型、濕氣硬化型等),將防水罩14b與防水管21接著亦可。 如此,能將防水罩14b與防水f 21更確實地水密連接。 細徑同軸I線線束llb’在四個束部1〇之兩端分別連 接有一個防水罩14b。在較防水罩14更端部側,從四個束 部10之防水管21延伸之複數條細徑同軸縵線12露出並_ 起排列成平面狀,在_端各連接有—個連接器13。 二防水罩14b之剖面外形為長圓形狀在 "b 二卜周中從插通孔16之轴方向觀察兩端之部分,在周方向 =5與插通孔16之轴方向正交之方向突出之-對 2將上述細徑同㈣嶋llb安褒於構成行動電 ^攝錢之筐體2,3,首先,在將連接器 :=:;::預先使複數條細徑同軸…= 將連d 之插通孔16並組裝。接著, 关态13女裝於細徑同軸纜線12。 15 201236030 接者,如圖1 〇所示,使較防水營 .,. e 21更在端部側露出 之細徑同軸纜線12及連接器13分 ^刀別通過筐體2之插通孔 2b與匡體3之插通孔3b,在筐體2 之嵌合部2a盘筐體3 之嵌合部3a分別嵌人束部1G之端部之防水罩14卜嵌人部 2…系為了使防水罩14b收納於值體2,3而以壁包圍;圍 之部分。防水罩14b相較於嵌合部2 稍大,防水罩14b 壓入並嵌入於嵌合部2a,3a。 在撞體2,3安裝有防水罩14b之部位為_水罩⑷ 之壁面所圍繞之俯視長圓形狀之嵌合部、& 3a之剖面較防水罩14b之剖面精微小,在嵌合部2a,3&壓 入防水罩14bw使細徑同軸I線線束11b安裝於僮體2 3。 此外,圖10係將懂體2,3之一部分在寬度方向(圖丨之箭頭 A方向)剖面觀察者’雖僅顯示複數個束部1〇中之一個但 在此圖之深度方向存在有其他束部1〇。 一 防夂罩14b之突條15’在安裝防水罩14b時被筐體2: ,嵌合部2a,3a壓接而壓潰。此壓潰部分往突條間之凹陷 ^位進入。突條15藉由作用力(彈力)而恆按壓密合於嵌合 邛2a,3a之壁。藉此,防水罩Mb與筐體2,3確實地水密 連接由於突條1 5與防水罩14b 一體成型,因此相較於另 外使用0型環之情形’可抑制成本。 此外,由於防水罩14b與防水管21係水密地連接,因 此藉由以上述方式將防水罩14b水密地安裝於筐體2, 3,水 不會化著細徑同軸纜線線束丨丨b浸入筐體2或筐體3之 部(連接器13側)。 201236030 」而,若使防水管2i之厚度變厚,則可抑制防水管2i 之變形:更容易確保防水性,但若使防水管21之厚度變厚, 則防水管21之外徑變大’無法謀求細徑同軸!t線線束1 lb 之,化亦即’作為防水管2卜’較佳為使用厚度薄且極 !仫不會壓潰變形者。因此,本實施形態中,使用外徑 3賴以下、厚度〇.lmm以上〇.2mm以下之防水管21以謀 求細徑同軸規線線束llb之薄型^若將防水管21作成此 尺寸且使用硬度在蕭氏A硬度為50度〜70度之間之防水罩 b則將防水管21壓入至防水罩14b之插通孔16以對防 水罩14b施加壓力時,防水管21之扁平率成為3〇%以下, 即使不使用金屬管防水;^ 21 '亦被壓潰,在與插通孔Μ之 間不會產生間隙。此處,「爲平率(%)=(加壓後之直徑/加 壓前之直徑)Xl〇〇」。 相較於將金屬管壓入至防水管2丨内以金屬管與防水罩 14b挾持防水管21並連接之構造,本實施形態中,能使防 水管21之外徑變小使整體變薄。藉此,能確保良好之防水 性並同時在狹窄之配線空間配線,能使筐體2, 3變薄。又, 由於不使用金屬管,因此可抑制成本上升且可抑制金屬管 造成之防水管2 1之損傷。 此外’若使防水管2 1之外徑變小,則對一條防水管2 J 之細徑同軸纜線12之可插入數量雖變少,但增加防水管2丄 之數量,將必要數量之細徑同軸纜線12分成複數群,分別 藉由防水管21防水。 此外,上述細徑同軸纜線線束丨lb,就各束部丨〇使防 17 201236030 水管21之長度為非等長 Λ Η, —右在排列細徑同軸纜線線束llb t t 等防水f 21之長度為等長亦可。如上 述,依據在筐體2, 3内之^ 士上 門之細徑同軸纜線線束丨lb 求適當調整細徑同軸纜線 配線要 之、,,;知處理之方法或各防水管 Z 1之長度。 接著,說明本發明之再-實施形態。 本實施形態之細徑同軸纜線線束係連接於例如圖 11(a)、(b)所不之行動電話61等機器之筐體% μ内之基 板。在此行動電話61之例,在-望體62設有顯示器,在 另-僮體63設有按鍵操作部。龍62,63係明結其等之 鉸鏈為軸旋轉開閉。亦有在重疊之筐體62, 63之縱方向滑 動開閉之構造之情形。 如圖11(c)所示,一筐體62具備筐體本體62α與相對 該筐體本體62Α在平面内旋動之旋動筐體62β,細徑同軸 規線線束之一端係連接於旋動筐體62Β内。 如圖12所示’細徑同軸纜線線束1 lc具有複數條(本實 施形態為40條)細徑同軸纜線12,設有將此等分成複數群 以每複數條(本實施形態為丨〇條)捆束之複數個(本實施形態 為4個)束部1〇。在細徑同軸纜線線束Uc之兩端之終端部 分,各束部10之細徑同軸纜線12係排列成平面狀,安裝 有用以連接至行動電話61之筐體62, 63内之配線基板之連 接器13而被成端處理。 細徑同軸纜線12之各群(束部)1〇之長度(各防水管21 之長度)係藉由線束之排列形狀決定。如圖1 3所示之細徑同 201236030 軸纜踝線束lld,使. 變長即可。有三個以/ 於最外側之群(防水管21) 長声比不n 上之群(防水管21)之情形,使各群之 長度白不同亦可。例如, f曲排列之情形之位於外側之防 水f 21,以產冰白甘 自其内側之防水管21起1_〜2_之曲 率+徑差為佳。因此, 較佳為’相鄰之防水管2 1之線長差 為3mm以上6mm以下。 入 ^同H線線束lle,lld具有使複數條防水管 1之中間部彼此一體化之一體部31。此一體部31係藉由 在複數條防水營2 1 > i、息+ 1 之長邊方向之長度20mm至40mm程度 之β刀捲繞樹脂帶32而設置。作為此樹脂帶u,可使用在 PET(聚對苯_ f酸乙二醋)帶塗布有接著劑者。此一體部3】 係配置在連接筐體62, 63之鉸鏈部分。 it 田仏同軸瘦線線束11 c,11 d之—體部3 1係藉 由將複數條防水管21捆束並捲繞樹脂帶32而能以整批加 工容易且低價地設置。 細徑同軸纜線線束llc,lld之防水軍14b與圖8及圖9 所示者相同,防水罩14b與防水管21.之連接構造或對筐體 之防水罩14b之安裝構造亦與圖8至圖1〇所示者相同。 在配線有細徑同軸纜線線束llc,llcl之行動電話61, 旋動筐體62B從圖14(4所示之狀態旋動,經過圖14(13)所 示之狀態進一步旋動,成為圖1 4(c)所示之狀態。藉此,旋 動筐體62B相對筐體本體62A旋轉90度。若在上述行動電 話61配線使分割成複數群之束之複數條細徑同轴瘦線12 之束部10通過複數條防水管21之細徑同轴纔線線束nc 19 201236030 1 Id,則在筐體62與筐體63之連結部位及筐體本體62A與 旋動筐體62B之連結部位扭曲。 本實施形態之細徑同軸纜線線束11 c,1 1 d,在筐體62 與筐體63之連結部位配置有將束部1 〇整個一體化之一體 部31 ’因此可抑制束部1〇彼此之扭曲。根據本實施形態之 細徑同轴纖線線束1 1 c,1 1 d ’將複數條細徑同轴缵線1 2分 割成複數群之束部1 0並分別插通於防水管2 i,因此可配線 在薄且狹窄之收容空間,能容易配線至薄型化之機器。又, 配線在複數個筐體62, 63彼此時,若以在複數條防水管2 j 之中間部彼此一體化之一體部3丨配置在彼此旋動或滑動之 筐體62, 63彼此之連結部位或彼此旋動之筐體本體62八與 方疋動筐體62B之連結部位之方式配置,則能抑制此等在連 結部位之扭曲,可防止防水管21或其内部之細徑同軸纜線 12之損傷。 在細徑同軸緵線線束1 lc,丨ld之構造,由於為使防水 管21為複數條之多束構造,因此束之扭曲不會直接傳遞, 各防水管2 1彼此扭曲成螺旋狀使負荷擴散。例如,即使進 行10萬次程度之筐體62, 63之旋動及旋動筐體62B相對於 筐體本體62A之旋動亦可防止防水管21或内部之細徑同軸 纜線12之損傷。相對於此,使粗防水管一條扭曲之情形, 6萬次未滿防水管即剖斷。 此外’在細徑同軸纜線線束丨lc,丨lcl,在長邊方向之一 個部位設置有一體部31,但設置配置在筐體彼此之各連結 位之複數個一體部31亦可。此情形,一個一體部3 1係 20 201236030 配置在通過鉸鏈之部分。 又’上述實施形態中,在細徑同轴雙線線束⑽山 d之端部,使從4個群之束部1Q之防水^延伸之複數 =徑帐€線排列成平面狀連接於—個連接器⑴作 如圖3所示分成複數個連接器13連接亦可。 又’細徑同軸麟線束u,lla,llb,Ue,ud,能藉由 兩端之連接器13輕易連接於望體2,3内之配線基板等。 又’細㈣軸鐵線12屏蔽性良好且雜訊特性優異,因此能 進行穩定之訊號傳送。 又’細徑同軸纜線線束U,lla,llb,Uc,iid,將其束 部10藉由例如將化學纖維編織成筒狀之編組套筒捆束或將 較防水管21平滑之束帶或線捲繞成螺旋狀來捆束亦可,如 此’可謀求對防水管21之插人作業之順暢化。 此外細徑同軸纜線線束11,1 1 a,1 1 b,1 1C,11 d,亦可 適用於不安裝連接器13而將細徑同H線12直接或透過 PC(可挽{·生印刷配線板:Μ咖d Circuits)等連接於 配線基板之情形。 將細役同轴纜線12直接連接於配線基板之情形,以膜 等將並列之細同軸纜線12之終端暫時固定於配線基板, 以焊接將細複同軸纜線12之終端之中心導體連接於配線基 板之連接端子即可。χ,在終端部分露出之外部導體係連 接於地棒。如此’可藉由地棒輕易地使細徑同軸纜線12之 各外部導體—起接地,獲得良好之屏蔽效果。λ,能良好 地固定各細經同軸纜線12之排列間距。 21 201236030 又,替代由彈性材料構成之防水罩14, 14b,使用由石! 質樹脂構成之樹脂塊亦可。此情形’作為使樹脂塊之插球 孔之内徑較防水管小並將防水管之端部壓入至樹脂塊之指 通孔之形·。、冑防水管與樹脂塊水密地連接。此外,在樹 脂塊之與防水管之連接側相反側之面設置防水接著帶使 樹月曰塊#。於筐體之凹部並同時將防水接$ m ^卩 之内側,以確保樹脂塊與筐體之水密性。 樹脂塊之材質’為例如ABS(丙稀腈-丁二稀-苯乙烯共 聚物)、聚碳酸醋或聚乙縮醛等硬質樹脂,防水接著帶為例 如以由《構成之料基材並使接著_層於此基材之表 背面者。作為積層於此基材之接著劑,較佳為例如丙稀酸 系或丁基橡膠系之接著劑。 實施例 (氣密性測試) 如圖1 5所不’準備一個而士 ν、ι A S3 干顶個面由擬似金屬膜41a構成之密 閉加壓囊4 1,在此加壓囊4】 念 主教之底面形成以壁部包圍之凹部 42以將防水罩14b壓入,估& 4 使、·,田從同軸纜線線束11 b之兩端 之防水罩14b分別嵌合於此:叫却μ 此寺凹部42。將防水管2 1之端部 壓入連接於防水罩14b之插通孔16。 在此狀態下,從加壓囊41夕办名僧 W之空軋導入口 41b注入空氣 後,將空氣導入口 41b密封,跬±办你a , 7藉由位移感測器43測定擬似 金屬膜41a之位移,調查有^a / 负热垠自加壓囊4 1之空氣之洩漏。 此外,在空氣注入加壓囊41你 j- , Λ 尖展後’在1〇秒間減少〇 5cc以上 之空氣之情形判定為有空氣洩漏。, knife knives 1 corpse / Τ paper number king ~, Zhou Zheng asked private tender A Xu, s recognize ★ 丨 』 axis axis line 1 2 group from: Department = water pipe 21 state 'to make each diameter coaxial line The group of 12 is inserted inside the metal tube 丨7. Metal tube A #45⁄43⁄4 A -dz itir As shown in Figure 5, the rabbit is on the inside of the end of the waterproof tube η. The metal f is more than the inner diameter of the 1 u 1 waterproof camp. For example, 'the waterproof tube 21 is the inner type 201236030 1.5mm' outer diameter l.9mm, ", _ metal tube P is 1.5mm inner diameter and outer diameter l_7mm. By inserting this but the damper 1 7 into the waterproof tube 2 1 'the waterproof officer 2 1 is squeezed and extended to 彳<τ<the ancient a is elastically deformed from the outer side of the completion direction, and is tightly fitted to the metal tube 17 Outside the perimeter. The thickness of the waterproof tube is about this, and it is preferable to use the metal tube 17. The pi', the spurt of the city has a protrusion to the outer side of the radial direction. When the metal tube 17 is inserted into the waterproof tube 21, the flange portion 18 is positioned at the end surface of the waterproof tube 21 with respect to the waterproof tube 21 The position of the metal tube 17 in the longitudinal direction. The waterproof cover is made of an elastic resin material such as Shixia rubber and is attached to the outer periphery of the end portion of the hour tube 21. The insertion hole 16 of the waterproof cover is, for example, an inner diameter of 2.0 mm, and is pressed by the waterproof tube 21 < the main inner diameter side by being attached to the outer side of the waterproof tube η into which the metal f 17 is inserted. That is, the end portion of the waterproof tube 21 is pressed by the metal tube 17 and the waterproof cover i 4 from the inside and the outside and is compressed and compressed in the thickness direction 1. The waterproof cover 14 is watertightly connected to the waterproof tube 21. The cross-sectional shape of the waterproof cover 14 is an oblong shape, and a central portion is viewed from the axial direction of the insertion hole 16 in the outer periphery of the waterproof cover μ, and a direction perpendicular to the axial direction of the insertion hole 16 is continuously formed in the circumferential direction. The portion of the ridge 15 in which the waterproof cover 14 is attached to the casing is a recess surrounded by the wall surface surrounding the waterproof cover 14. The cross section of the recess is slightly smaller than the cross section of the waterproof cover 14, and the waterproof cover 14 is press-fitted into the recess to allow the narrow coaxial cable harness 11 to be watertightly mounted to the body. The ridges 15 of the waterproof cover 14 are pressed against the recessed portions 2a, 3a (see Fig. 6) of the casing to which the waterproof cover 14 is attached, and are crushed, whereby the waterproof cover 14 and the casing can be more reliably watertight. The ridges 5 are integrally formed on the waterproof cover 14, 10 201236030. Therefore, the cost can be suppressed compared to the case where the ◦-type ring is additionally used. Even if the waterproof tube 21 is made of a soft resin such as silicone rubber, it is possible to manufacture the inner diameter and the outer diameter into a predetermined size, and it is easy to produce a dimensional error. Thickness of 21: Less difference. By setting the difference between the outer diameter of the metal pipe 17 and the inner diameter of the water-repellent cover 14 to be smaller than the thickness of the waterproof pipe 21, it is possible to prevent the thickness of the thick ridge from being less small. It is reliably compressed in the thickness direction 'easy to obtain water tightness. FIG. 5 is a preferred installation step of the waterproof cover 14 of the waterproof tube 21. First, if the insertion hole 16 of the waterproof tube 2 of the group of the small-diameter coaxial cables 12 is inserted, the waterproof cover 14 is disposed in a relatively waterproof (four) Then, the group of the small-diameter coaxial cables 12 is passed from the inside of the metal pipe 17 to the inside of the metal pipe 17, and the metal * 17 is pressed into the inner side of the waterproof pipe. In this state, the waterproof cover is moved to the end of the waterproof tube. At this time, since the outer diameter of the end portion of the waterproof member F 2 is larger than the outer diameter of the main through hole 16 by the waterproof cover, the insertion hole 16 of the waterproofing arm 14 expands and simultaneously slides to the end portion of the waterproof tube 21. From the above step, it is easy to compress the end portion of the waterproof tube 21 in the thickness direction and to install the waterproof cover in a watertight manner. Several waterproof tubes 21 are carried out in batches. The installation of the waterproof cover can be performed after the connection of the connector 13 of the small-diameter coaxial thin wire 12 is passed through the waterproof tube. Waterproof Cover 14 and Metal Tube 17 In order to mount the small-diameter coaxial cable harness u to the housing 2 and the t body 3 constituting the mobile phone or the 201236030 camera, first, the connector 13 is mounted on the small-diameter coaxial cable 12 Previously, a plurality of small-diameter coaxial cables 12 were previously assembled through the waterproof tube 21, the waterproof cover 14, and the metal tube 17, respectively. Next, as shown in FIG. 6, the narrow-diameter coaxial cable 12 which is exposed on the end side of the waterproof tube 21 passes through the insertion hole 2b of the casing 2 and the insertion hole 3b of the casing 3, respectively, in the casing 2. The recessed portion 2a and the recessed portion 3a of the casing 3 are respectively fitted into the waterproof cover 14 at the end of the bundle portion 1''. The recesses 2a, 33 have an oblong shape in plan view. The ridges 15 provided on the outer circumference of the waterproof cover 14 are pressed by the concave portions 2a, 2b and crushed, whereby the watertight cover 14 and the casings 2, 3 can be made watertight. Since the waterproof cover 14 and the waterproof pipe are connected in a watertight manner, water does not immerse into the inside of the casing 2 or the casing 3 along the narrow coaxial cable harness (on the side of the connector 丨 3). Fig. 6 is a view showing a portion of the casing 2 and the casing 3 in the thickness direction. Although only one of the plurality of bundles 1 is displayed, there are other bundles in the depth direction of the figure. That is, the groups of the small-diameter coaxial windings 2 constituting the small-diameter coaxial cable harness i are arranged in the direction in which the casing 2 and the casing 3 slide, thereby being compared with the coaxial All the narrow diameters of the wire harness are bundled with the drawing wire and passed through the waterproof tube, so that the wiring between the casing 2 and the body 3 can be thinned. Further, since the waterproof cover 14 is connected to the end portion of the waterproof tube 21 in a watertight manner, the cross-sectional shape of the waterproof cover 14 can be made thin. Thereby, the height Η of the recesses 2a, 2b of the casing 2 and the casing 3 can be made low. As described above, the small-diameter coaxial cable harness 11 according to the present embodiment can ensure good water repellency while being thinly wired, and the waterproof cover 14 can be attached and wired in the thin mounting of the casings 2, 3. In addition, the casing 2, 3 12 201236030 can also be thinned. Also, if you want to get waterproof with a 〇-ring, the cost will increase because the 〇-ring is a high-priced component. In the present embodiment, since the 〇-shaped ring is not required to be used, the cost is not increased, and a good waterproof structure can be obtained. In the case of using a 〇-shaped ring, it is necessary to form a mounting groove of the 〇-shaped ring in the waterproof cover 14, but this need not be the case in the present embodiment. Further, the 〇-shaped ring must be selected to have a diameter corresponding to the outer diameter of the mounting side, and the outer shape is limited to the use of the circular member. However, in the present embodiment, the 〇-shaped ring is not required, and thus the shape of the waterproof cover 14 is not limited. . Therefore, the waterproof cover 14 can be made thin and conform to the connected housings 2 and 3, and the thin and narrow portions can be wired and a good waterproof structure can be obtained at the same time. Next, another embodiment of the present invention will be described. The same components 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 cable harness 丨 lb has a plurality of (40 in this embodiment) narrow-diameter coaxial cable 12, and is provided with a plurality of groups for each of the plurality of blocks (this embodiment is 丨0) A plurality of bundles (four in the present embodiment) bundles 1 〇. In the terminal portion of the narrow coaxial cable harness 丨b, the narrow coaxial cable 丨2 of each bundle 10 is arranged in a plane shape, and is installed to be connected to the mobile phone shown in FIG. The connector 13 of the wiring board in the casings 2, 3 is end-processed. In each of the bundle portions 1 of the small-diameter coaxial cable harness 1 1 b, a plurality of small-diameter coaxial cables 12 of each group are respectively inserted into the waterproof tube 21, and bundled into groups of small-diameter coaxial cables 12 The degree to which the positional relationship can vary. Therefore, when the fine coaxial coaxial cable Ub is bent in the 13 201236030 thin coaxial cable harness 丨丨b A t , the smoothing of the coaxial cable 12 in the waterproof tube 2 can be suppressed as much as possible. The tensile force or side pressure of each of the small diameter wires 12 is imparted. In the case of the small-diameter coaxial wire harness "b in the collision body 2, 3, the outermost waterproofing (4) of the bending direction becomes longer. The length of the sonar of the county to the outer waterproof pipe 2 is gradually lengthened as e m. That is, the 7-diameter cable harness 1 ib has the waterproof tubes 21 which are not equal in length to each other. As shown in Fig. 7, the outer diameter of the outer diameter of 1.3 mm is 0.1 mm. In the case where four waterproof tubes 21 are used, the thickness of the waterproof tube 21 is 0.1_ or more 〇.2_ or less. The actual 21, the outer diameter is 'the inner diameter is 1.1mm, the thickness is shown in Figure 8 and Figure 9. It is especially owed to a η at the two ends of each bundle 10, one of the common pair of waterproof cover 14b watertightly batch It is connected to the end of each waterproof tube 21. A plurality of insertion holes 16' corresponding to the plurality of waterproof fins 21 are formed in the water shield 14b, and the waterproof tubes 2ι are attached to the insertion holes 16. Further, the small-diameter coaxial i-line 12 inserted into each of the bundle portions 10 of the waterproof tube 21 is also inserted into the insertion hole 16 of the waterproof cover. The waterproof cover 14b is made of an elastic resin material such as Shixia oxygen rubber, and has a hardness (Shore A hardness) of 50 degrees or more and 7 degrees or less. In the present embodiment, the waterproof cover Mb has a hardness of 60 degrees. The outer diameter of the waterproof f 21 is [3]. The inner diameter of the insertion hole 16 of the waterproof cover 14b is "Η 〇 5 (the outer diameter of the waterproof tube is 12 times to 14 with respect to the inner diameter of the insertion hole) Double) is better. For example, the waterproof tube 21 is watertightly connected to the waterproof cover 14 by pressing the outer diameter i 3 mm 2 waterproof tube 2 较 which is larger than the inner diameter of the insertion hole 16 by 10 mm. 201236030 At this time, due to the use of the waterproof tube hole 16 to give the waterproof cover 14b a pressure of 300 kPa or less, the use of the outer one == tube 2i%, the waterproof | l4b is the main body When the fitting portion is pressed around the wall, even if the supporting member such as the metal pipe does not enter the inside of the waterproof pipe 21, the waterproof pipe 21 is crushed so that no gap is formed between the insertion hole 16 and the waterproof cover i4b. Therefore, the outer peripheral surface of the 'P square water pipe 21 is adhered to the inner peripheral surface of the insertion hole 16 of the waterproof cover (4) to ensure a good watertight state. Further, a backing material (ultraviolet hardening type, moisture curing type, etc.) is applied between the insertion hole 16 of the waterproof cover 14b and the waterproof tube 21, and the waterproof cover 14b and the waterproof tube 21 may be attached. In this way, the waterproof cover 14b can be more reliably and watertightly connected to the waterproof surface f21. The small-diameter coaxial I-wire harness llb' is connected to a waterproof cover 14b at both ends of the four bundle portions 1''. On the more end side of the waterproof cover 14, a plurality of small-diameter coaxial turns 12 extending from the waterproof tubes 21 of the four bundle portions 10 are exposed and arranged in a planar shape, and a connector 13 is connected to each other at the _ end. . The cross-sectional shape of the second waterproof cover 14b is an oblong shape in which the both ends are viewed from the axial direction of the insertion hole 16 in the circumferential direction of the insertion hole 16 and protrude in the direction orthogonal to the axial direction of the insertion hole 16 in the circumferential direction=5. - For 2, the above-mentioned small diameter is the same as (4) 嶋llb in the housing 2, 3 which constitutes the action electric charge. First, in the connector: =:;:: pre-compose the plurality of small diameters coaxially == Insert the through holes 16 and assemble them. Next, the closed state 13 is worn on the narrow coaxial cable 12. 15 201236030 Receiver, as shown in Figure 1 ,, the thin-diameter coaxial cable 12 and the connector 13 which are exposed on the end side of the waterproof battalion, the e 21 are inserted through the through hole of the casing 2 2b and the insertion hole 3b of the body 3, the fitting portion 3a of the housing 2 of the housing 2 is fitted with the waterproof cover 14 at the end of the bundle portion 1G, respectively. The waterproof cover 14b is housed in the value bodies 2, 3 and surrounded by walls; The waterproof cover 14b is slightly larger than the fitting portion 2, and the waterproof cover 14b is press-fitted and fitted into the fitting portions 2a, 3a. The portion of the collision body 2, 3 to which the waterproof cover 14b is attached is a fitting portion having a long circular shape surrounded by the wall surface of the water cover (4), and the cross section of the & 3a is finer than the cross section of the waterproof cover 14b, and the cross section of the waterproof cover 14b is fine. The 3& press-fit waterproof cover 14bw mounts the small-diameter coaxial I-wire harness 11b to the child body 23. In addition, FIG. 10 is a section in which the body 2, 3 is viewed in the width direction (the arrow A direction of the figure). Although only one of the plurality of beam portions 1 is displayed, there are other in the depth direction of the figure. The bundle is 1 inch. The ridge 15' of the tamper-proof cover 14b is crushed by the casing 2:, the fitting portions 2a, 3a, and is crushed when the waterproof cover 14b is attached. This crushing portion enters the depression between the ridges. The ridge 15 is pressed against the wall of the fitting 邛 2a, 3a by the force (elastic force). Thereby, the waterproof cover Mb and the casings 2, 3 are reliably watertightly connected. Since the ridges 15 and the waterproof cover 14b are integrally formed, the cost can be suppressed as compared with the case where the 0-rings are additionally used. Further, since the waterproof cover 14b is connected to the waterproof tube 21 in a watertight manner, the waterproof cover 14b is watertightly attached to the housing 2, 3 in the above-described manner, so that the water does not immerse the narrow coaxial cable harness 丨丨b. The casing 2 or the portion of the casing 3 (on the side of the connector 13). In addition, when the thickness of the waterproof tube 2i is increased, the deformation of the waterproof tube 2i can be suppressed: the waterproofness can be more easily ensured, but if the thickness of the waterproof tube 21 is increased, the outer diameter of the waterproof tube 21 becomes larger. It is impossible to find a small-diameter coaxial! The t-wire harness is 1 lb, and it is preferable to use it as a waterproof tube 2, which is preferably thin and extremely versatile! Therefore, in the present embodiment, the waterproof tube 21 having an outer diameter of 3 or less and a thickness of l.lmm or more and 2 mm or less is used to achieve a thin shape of the small-diameter coaxial gauge harness llb. If the waterproof tube 21 is made of this size and the hardness is used In the waterproof cover b having a Shore A hardness of 50 to 70 degrees, the waterproof tube 21 is pressed into the insertion hole 16 of the waterproof cover 14b to apply pressure to the waterproof cover 14b, and the flatness ratio of the waterproof tube 21 becomes 3. 〇% or less, even if the metal tube is not used for waterproofing; ^ 21 ' is also crushed, and there is no gap between the insertion hole and the insertion hole. Here, "the flatness (%) = (diameter after pressurization / diameter before pressurization) Xl". In the present embodiment, the outer diameter of the water-proof pipe 21 can be made smaller and the overall thickness can be reduced as compared with a structure in which the metal pipe is pressed into the waterproof pipe 2 and the waterproof pipe 21 is held and connected by the metal pipe and the waterproof cover 14b. Thereby, it is possible to ensure good water repellency while wiring in a narrow wiring space, and the casings 2, 3 can be made thin. Further, since the metal pipe is not used, it is possible to suppress an increase in cost and to suppress damage of the waterproof pipe 21 caused by the metal pipe. In addition, if the outer diameter of the waterproof tube 2 1 is made smaller, the number of insertable pins of the small diameter coaxial cable 12 of one waterproof tube 2 J is small, but the number of the waterproof tubes 2 is increased, and the necessary number is fine. The coaxial cable 12 is divided into a plurality of groups, which are respectively waterproofed by the waterproof tube 21. In addition, the small-diameter coaxial cable harness 丨 lb, the length of the water pipe 21 is not equal to 各 就 Η 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 The length can be equal. As described above, according to the thin-diameter coaxial cable harness 丨 lb of the door in the housing 2, 3, it is necessary to appropriately adjust the wiring of the small-diameter coaxial cable, and the method of processing or the waterproof tube Z 1 length. Next, a re-embodiment of the present invention will be described. The small-diameter coaxial cable harness of the present embodiment is connected to a substrate such as %1 of the casing of the machine such as the mobile phone 61 shown in Figs. 11(a) and 11(b). In the case of the mobile phone 61, a display is provided on the - look-up body 62, and a button operation portion is provided in the other-child body 63. The dragon 62, 63 is clearly hinged and the hinge is rotated and closed. There is also a case where the structure of the overlapped casings 62, 63 is slidably opened and closed in the longitudinal direction. As shown in Fig. 11(c), a casing 62 includes a casing main body 62α and a rotating casing 62β which is pivoted in a plane with respect to the casing main body 62, and one end of the narrow coaxial wire harness is connected to the rotation. The casing is 62 inside. As shown in Fig. 12, the 'small-diameter coaxial cable harness 1 lc has a plurality of (40 in this embodiment) small-diameter coaxial cable 12, and is divided into a plurality of groups for each plural number (this embodiment is 丨A plurality of bundles (four in the present embodiment) are bundled. At the end portions of both ends of the small-diameter coaxial cable harness Uc, the narrow-diameter coaxial cables 12 of the respective bundle portions 10 are arranged in a planar shape, and the wiring substrate in the casing 62, 63 for connection to the mobile phone 61 is attached. The connector 13 is processed in an end. The length of each group (beam portion) of the small-diameter coaxial cable 12 (the length of each waterproof tube 21) is determined by the arrangement shape of the wire harness. The narrow diameter shown in Fig. 13 is the same as the 201236030 shaft cable harness lld, so that it can be lengthened. There are three groups in which the outermost group (waterproof tube 21) has a long sound ratio (waterproof tube 21), and the lengths of the groups are different. For example, in the case where the f curve is arranged, the water f 21 on the outer side is preferably a curvature ratio + diameter difference of 1_~2_ from the inner waterproof tube 21 for producing ice white sugar. Therefore, it is preferable that the line length difference between the adjacent waterproof tubes 2 1 is 3 mm or more and 6 mm or less. The same H-line harnesses lle, lld have a body portion 31 in which the intermediate portions of the plurality of waterproof tubes 1 are integrated with each other. The integral portion 31 is provided by winding the resin tape 32 with a β-knife having a length of 20 mm to 40 mm in the longitudinal direction of the plurality of waterproof camps 2 1 > i and + 1 . As the resin tape u, those coated with an adhesive on a PET (poly-p-phenylene b-acetate) tape can be used. The integral portion 3 is disposed at a hinge portion of the connection housings 62, 63. The 仏 仏 coaxial thin wire harness 11 c, 11 d - the body 3 1 can be easily and inexpensively set in a batch process by bundling a plurality of waterproof tubes 21 and winding the resin tape 32. The waterproof coaxial tube 14b of the small-diameter coaxial cable harnesses, lld is the same as that shown in Figs. 8 and 9, and the connection structure of the waterproof cover 14b and the waterproof tube 21. or the mounting structure of the waterproof cover 14b for the housing is also shown in Fig. 8. The same as shown in Figure 1〇. In the mobile phone 61 having the small-diameter coaxial cable harnesses l1, llcl, the rotating casing 62B is rotated from the state shown in Fig. 14 (4), and further rotated by the state shown in Fig. 14 (13) to become a figure. The state shown in Fig. 4 (c), whereby the rotating housing 62B is rotated by 90 degrees with respect to the housing main body 62A. If the mobile phone 61 is wired, the plurality of thin coaxial thin wires are divided into a plurality of bundles. The bundle portion 10 of the 12 passes through the narrow-diameter coaxial wire harness nc 19 201236030 1 Id of the plurality of waterproof tubes 21, and the connection portion between the casing 62 and the casing 63 and the connection between the casing main body 62A and the rotating casing 62B In the small-diameter coaxial cable harness 11 c, 1 1 d of the present embodiment, the bundle portion 1 is integrally integrated with one of the body portions 31' at the connection portion between the casing 62 and the casing 63. The small-diameter coaxial fiber bundles 1 1 c, 1 1 d ' according to the present embodiment divide the plurality of small-diameter coaxial turns 1 2 into bundles 10 of a plurality of groups and respectively insert them Because it is connected to the waterproof tube 2 i, it can be wired in a thin and narrow storage space, and can be easily wired to a thin machine. When the plurality of housings 62 and 63 are in contact with each other, the housings 62, 63, and the housings 62, 63 which are mutually rotated or slid in the intermediate portion of the plurality of waterproof tubes 2 j are coupled to each other or to each other. By disposing the moving body main body 62 and the connecting portion of the side smashing casing 62B, it is possible to suppress the twist at the joint portion, and it is possible to prevent damage to the waterproof pipe 21 or the small-diameter coaxial cable 12 therein. In the structure of the small-diameter coaxial twisted wire harness 1 lc, 丨ld, since the waterproof pipe 21 has a plurality of bundle structures, the twist of the bundle is not directly transmitted, and the waterproof pipes 2 1 are twisted into a spiral shape to load each other. For example, even if the rotation of the casing 62, 63 and the rotation of the rotating casing 62B with respect to the casing body 62A are performed 100,000 times, the waterproof pipe 21 or the internal narrow coaxial cable 12 can be prevented. In contrast, in the case where the thick waterproof pipe is twisted, the waterproof pipe is cut off 60,000 times. In addition, the wire harness 丨lc, 丨lcl in the small-diameter coaxial cable is provided in a portion in the longitudinal direction. One unit 31, but arranged in the housing The plurality of integral portions 31 may be located. In this case, the integral portion 3 1 is 20 201236030 is disposed at a portion passing through the hinge. In the above embodiment, at the end of the small-diameter coaxial double-wire harness (10) mountain d, The plurality of connectors*1 extending from the waterproofing of the bundles of the four groups are arranged in a plane shape and connected to the connector (1) as shown in FIG. 3, and the plurality of connectors 13 are connected as shown in FIG. The coaxial coaxial line bundles u, lla, llb, Ue, ud can be easily connected to the wiring board in the body 2, 3 by the connectors 13 at both ends. Further, the 'fine (four) axis iron wire 12 has good shielding properties and excellent noise characteristics, so that stable signal transmission can be performed. Further, the 'small-diameter coaxial cable harness U, lla, llb, Uc, iid, bundles the bundle portion 10 by, for example, a braided sleeve that braids chemical fibers into a cylinder or a belt that smoothes the waterproof tube 21 or It is also possible to bundle the wire in a spiral shape, and thus it is possible to smooth the insertion work of the waterproof pipe 21. In addition, the small-diameter coaxial cable harnesses 11, 11 1 , 1 1 b, 1 1C, 11 d can also be used to connect the small diameter to the H-line 12 directly or through the PC without installing the connector 13 (can be used) A printed wiring board: a circuit circuit or the like is connected to a wiring board. When the fine coaxial cable 12 is directly connected to the wiring substrate, the terminals of the parallel thin coaxial cables 12 are temporarily fixed to the wiring substrate by a film or the like, and the center conductors of the terminals of the thin coaxial cable 12 are soldered. It is sufficient for the connection terminal of the wiring board. χ, the external guiding system exposed at the terminal end is connected to the ground rod. Thus, the outer conductors of the small-diameter coaxial cable 12 can be easily grounded by the ground rod to obtain a good shielding effect. λ, the arrangement pitch of each fine coaxial cable 12 can be well fixed. 21 201236030 Further, instead of the waterproof covers 14 and 14b made of an elastic material, a resin block made of a stone resin may be used. In this case, the inner diameter of the insert hole of the resin block is smaller than that of the waterproof tube, and the end portion of the waterproof tube is pressed into the shape of the through hole of the resin block.胄The waterproof tube is connected to the resin block in a watertight manner. Further, a waterproofing tape is provided on the opposite side of the connecting side of the resin block to the waterproof pipe to make the tree block. The inner side of the casing is waterproofed to the inner side of the m m ^ 以 to ensure the watertightness of the resin block and the casing. The material of the resin block is, for example, a hard resin such as ABS (acrylonitrile-butadiene-styrene copolymer), polycarbonate or polyacetal, and the water-repellent tape is, for example, made of the material substrate Next, the layer is on the back side of the substrate. As the adhesive for laminating the substrate, an adhesive such as an acrylic acid or a butyl rubber is preferable. EXAMPLES (Airtightness Test) As shown in Fig. 15 , a sealed pressurized bladder 4 composed of a pseudo metal film 41a is prepared as shown in Fig. 5, and a pressure vessel 4 is formed. The bottom surface of the bishop is formed with a recess 42 surrounded by a wall portion to press the waterproof cover 14b, and the waterproof cover 14b of both ends of the coaxial cable harness 11b is fitted thereto: μ This temple recess 42. The end portion of the waterproof tube 2 1 is press-fitted into the insertion hole 16 connected to the waterproof cover 14b. In this state, after the air is injected from the air-rolling introduction port 41b of the pressurized capsule 41, the air introduction port 41b is sealed, and the pseudo-metal film 41a is measured by the displacement sensor 43. The displacement was investigated for a leak of air from the pressurized bladder 41 with a /a negative heat. Further, in the case where the air is injected into the pressurized bladder 41, and the air is reduced by more than 5 cc in 1 second, it is determined that there is air leakage.
22 201236030 將使用外徑l_3mm、内徑hlmm、厚度〇.lmm之防水 管21者作為實施例1 ’將使用外徑、内徑i4mm、 厚度0.1 mm之防水管2 1者作為比較例1。此外,在實施例 1,將4條防水管2 1壓入至具有4個插通孔16之防水罩14b 之各插通孔16,在比較例1,將2條防水管2丨壓入至具有 2個插通孔16之防水罩14b之各插通孔16。防水罩之 蕭氏A硬度皆為60度。 又,若使防水罩14b嵌合於加壓囊41之凹部42,則防 水罩14b被壓縮,對防水管21往徑方向賦予3〇〇kpa之壓 力。 其結果,在實施例1,無空氣之洩漏。相對於此,在比 較例1 ’有空氣之洩漏。 又,如圖16所示,使用具備相對固定桿5丨進退之可 動桿52之加壓裝置53測定防水管21之扁平率。具體而言, 以固定桿51與可動桿52挾持在插通孔16壓入有外徑約 1.3mm之防水管21之防水罩14b並往與插通孔16之排列 方向正交之方向即厚度方向加壓,測定防水管2 1之扁平率。 其測疋之結果,在實施例丨之防水罩與防水管之組人,22 201236030 A waterproof pipe 21 having an outer diameter of l_3 mm, an inner diameter hlmm, and a thickness of l.lmm was used as the first embodiment. A waterproof pipe 2 having an outer diameter, an inner diameter i4 mm, and a thickness of 0.1 mm was used as Comparative Example 1. Further, in the first embodiment, the four waterproof tubes 2 1 are pressed into the respective insertion holes 16 of the waterproof cover 14b having the four insertion holes 16, and in the comparative example 1, the two waterproof tubes 2 are pressed into Each of the insertion holes 16 of the waterproof cover 14b having two insertion holes 16 is provided. The Shore A hardness of the waterproof cover is 60 degrees. When the waterproof cover 14b is fitted into the concave portion 42 of the pressure bladder 41, the water shield 14b is compressed, and the pressure of the waterproof tube 21 in the radial direction is given 3 〇〇 kpa. As a result, in Example 1, there was no leakage of air. On the other hand, there was leakage of air in Comparative Example 1'. Further, as shown in Fig. 16, the flatness ratio of the waterproof tube 21 is measured using a pressurizing device 53 having a movable rod 52 that moves forward and backward with respect to the fixed rod 5. Specifically, the fixing rod 51 and the movable rod 52 are held in the insertion hole 16 to press the waterproof cover 14b of the waterproof tube 21 having an outer diameter of about 1.3 mm, and the thickness is orthogonal to the direction in which the insertion holes 16 are arranged. The direction was pressurized, and the flatness ratio of the waterproof tube 2 1 was measured. As a result of the measurement, in the embodiment of the waterproof cover and the waterproof tube group,
防水管之扁平率成為30%。在比較例1之防水罩與防水管 之組合,超過30%。 B 從上述評估結果及測定結果得知,對防水管2丨賦予 3〇〇kPa之壓力時,若扁平率為3〇%以下,則能確實地 血 P方 yk S 1 I % 1示 之氣密狀態’亦獲得確實之水密狀態。 亦即,作為防水管2 i,外徑較小者對壓力不易扁平, 23 201236030 因此,可知能確實地確保與防水罩14b之防水性。 (拉伸強度測試) 對連接於防水罩14b之防水管21賦予拉伸力,測定防 水管21從防水罩14開始脫離時之拉伸力。將實施形態之 構造之細徑同軸纟覽線線束1丨b作為竇祐仓丨, 丨P钓貫施例2。將其結果示於 表1。 [表1] 拉伸力(N) 測試No. 實施例2 1 1.22 2 1.30 3 1.64 4 1.17 考慮實際使用細徑同軸纜線線束時施加之力,能承受 1N之拉伸力即足夠。如表1所示,可知實施例2即使不使 用金屬管亦具有充分之耐拉伸性。 雖詳細或參照特定之實施形態說明本發明,但本發明 所屬技術領域中具有通常知識者明白在不脫離本發明之精 神及範圍之情況下可施加各種變更或修正。本申請係根據 2011年2月3曰申請之曰本專利申請(曰本特願2〇11 — 021872)與2011年7月26曰申請之曰本專利申請(日本特願 201 1 — 162969)者,將其内容參照援引於此。The flatness of the waterproof tube is 30%. The combination of the waterproof cover and the waterproof tube of Comparative Example 1 exceeded 30%. B. From the results of the above evaluation and the measurement results, when the pressure of 3 kPa is applied to the waterproof tube 2, if the flattening ratio is 3〇% or less, the blood P square yk S 1 I % 1 can be surely displayed. The dense state 'is also obtained a true watertight state. In other words, as the waterproof tube 2i, the smaller outer diameter is less likely to flatten the pressure, 23 201236030 Therefore, it is understood that the waterproofness with the waterproof cover 14b can be surely ensured. (Tensile Strength Test) A tensile force was applied to the waterproof tube 21 connected to the waterproof cover 14b, and the tensile force when the water-proof tube 21 was separated from the waterproof cover 14 was measured. The fine-diameter coaxial cable harness 1丨b of the structure of the embodiment is taken as Douyou Cangjie, and the P is subjected to the example 2. The results are shown in Table 1. [Table 1] Tensile force (N) Test No. Example 2 1 1.22 2 1.30 3 1.64 4 1.17 Considering the force applied when the small-diameter coaxial cable harness is actually used, it is sufficient to withstand a tensile force of 1 N. As shown in Table 1, it is understood that Example 2 has sufficient tensile resistance even without using a metal pipe. The present invention will be described in detail with reference to the specific embodiments of the invention. This application is based on this patent application filed on February 3, 2011 (曰本特2〇11 — 021872) and this patent application filed on July 26, 2011 (Japanese Patent Application 201 1 – 162969) Reference is made to its content.
24 201236030 【圖式簡單說明】 圖1係以本發明之細徑同軸纜線線束連接之行動電話 的立體圖’(a)係打開行動電話之筐體彼此之狀態,(b)係關 閉行動電話之筐體彼此之狀態。 圖2係顯示本發明之細徑同軸纜線線束之實施形態之 一例的俯視圖。 圖3係顯示本發明之細徑同軸纜線線束之實施形態之 另一例的俯視圖。 圖4係在防水管安裝金屬管與防水罩時的立體圖。 圖5係在防水管安裝金屬管與防水罩時的剖面圖。 圖6係顯示將圖2或圖3之細徑同軸纜線線束安裝於 筐體後之狀態的剖面圖。 圖7係顯示本發明之細徑同軸規線線束之實施形態之 另"一例的俯視圖。 圖8係連接有防水管之防水罩的立體圖。 圖9係連接有防水管之防水罩的剖面圖。 圖1 〇係顯示將圖7之細徑同軸纜線線束安裝於筐體後 之狀態的剖面圖。 圖11係以本發明之細徑同軸纜線線束連接之行動電話 的剛視圖,(a)係關閉行動電話之筐體彼此之狀態,(b)係打 開行動電話之筐體彼此之狀態,(£〇係使行動電話之旋動筐 體旋動之狀態。 圖12係顯示本發明之細徑同軸纜線線束之實施形態之 再-例的俯視圖。 25 201236030 圖 13係顯示本發明之細徑同軸纜線線束之實施形態之 與/例的俯視圖。 圖14係顯示將細徑同軸纜線線束配線在具備旋動筐體 之行動電話内之例的圖,(a)係旋動筐體之旋動前 面圖,⑻係旋動t體之旋動途中的概略背面圖、概略背 篋體之旋動後的概略背面圖。 c)係旋動 阐1 5係顯示氣窜譯^ ^ , 軋在烀估方法的概略剖面圖。 圖16係藉由加壓裝置加壓之 【主要元件符號說明】 欠罩的月"見圖。 1, 61 行動電話 2, 3, 62, 63 尬 筐體 2a, 3a 凹部 1〇 土 束部 llj 11a, lib, lie Iih λ 12 13 14, 14b 15 16 17 21 31 ,d細徑同輛纜線線束 細徑同軸纜線 連接器 防水罩 突條 插通孔 金屬管 防水管 —體部 2624 201236030 [Simplified illustration of the drawings] Fig. 1 is a perspective view of a mobile phone connected by a thin-diameter coaxial cable harness of the present invention. (a) is a state in which the casings of the mobile phone are opened, and (b) a mobile phone is turned off. The state of the baskets. Fig. 2 is a plan view showing an example of an embodiment of a small-diameter coaxial cable harness of the present invention. Fig. 3 is a plan view showing another example of the embodiment of the small-diameter coaxial cable harness of the present invention. Fig. 4 is a perspective view of the waterproof pipe when the metal pipe and the waterproof cover are attached. Fig. 5 is a cross-sectional view showing a state in which a metal pipe and a waterproof cover are attached to a waterproof pipe. Fig. 6 is a cross-sectional view showing a state in which the narrow-diameter coaxial cable harness of Fig. 2 or Fig. 3 is attached to a casing. Fig. 7 is a plan view showing an example of another embodiment of the small-diameter coaxial gauge harness of the present invention. Fig. 8 is a perspective view of a waterproof cover to which a waterproof tube is attached. Fig. 9 is a cross-sectional view showing a waterproof cover to which a waterproof tube is attached. Fig. 1 is a cross-sectional view showing a state in which the narrow-diameter coaxial cable harness of Fig. 7 is attached to a casing. Figure 11 is a front view of the mobile phone connected by the narrow-coaxial coaxial cable harness of the present invention, (a) is a state in which the casings of the mobile phone are closed, and (b) is a state in which the casings of the mobile phone are opened to each other, ( Fig. 12 is a plan view showing a re-example of the embodiment of the small-diameter coaxial cable harness of the present invention. 25 201236030 Fig. 13 shows the diameter of the present invention. Fig. 14 is a view showing an example of a configuration of a coaxial cable harness in a mobile phone having a rotating casing, and Fig. 14 is a view showing a case in which a small-diameter coaxial cable harness is wired in a mobile phone having a rotating casing; Rotate the front view, (8) is a schematic rear view of the middle of the rotation of the t-body, and a schematic rear view of the schematic back of the body. c) System rotation 1 5 shows the gas translation ^ ^, rolling A schematic cross-sectional view of the estimation method. Fig. 16 is pressurized by a pressurizing device. [Description of main component symbols] The month of the undercut is shown in the figure. 1, 61 mobile phones 2, 3, 62, 63 尬 housing 2a, 3a recess 1 〇 soil bundle llj 11a, lib, lie Iih λ 12 13 14, 14b 15 16 17 21 31 , d small diameter same cable Wiring harness small diameter coaxial cable connector waterproof cover protruding strip through hole metal tube waterproof tube - body 26