201021327 六、發明說明: 【發明所屬之技術領域】 本申明案主張2008年11月5曰Jeffrey Paynter與A1 Cox 申請之共有美國實用專利申請案第12/264 932號、當前申請中 之發明名稱為 “Insertion c〇upling c〇axial c〇nnect〇r (插入耦 δ式同軸聯接器)與2009年11月2曰Jeffrey Paynter與Ai 申請之共有美國實用專利申請案第12/61丨,〇95號、當前申 "月中之發明名稱為 “jnserti〇n C〇Upiing Coaxial Connector·(插 入耦合式同軸聯接器)”之權利。 本發明係關於電瘦聯接器。更特定言之,本發明係關於一 種藉由使該電纜端部插入至一聯接器本體内腔内而耦合至一 同軸電纜之實心外導體同軸電纜聯接器。 【先前技術】 同轴電縵聯接器 舉例而言--用於精度與可靠性水 準要求高之通訊系統中。 s為使該電纜與該聯接器間之機械聯接牢固且電聯接效果 最佳’吾人期望該同轴電纜外導體之前緣與該聯接器本體間之 圓周觸點通常均勻一致 該外導體之擴口端部經由一聯接螺母 可靠著該聯接器本體之環形楔形表面夾緊。此技術之代表係於 1998年8月a曰頒予Harwath之共有美國專利第5 7 號。 美國專利第5,795,188號之該金屬本體與該聯接螺母間之 螺紋耦合表面與同樣組態之先前同軸聯接器使製造成本 〔、女裝_所需時間顯著增加。另一缺點係拆卸聯接器時,需要在 $電現端部上方滑動該背部本體’且然後實施精確之電纜端部 $ 口操作’該操縱係用於在切螺紋期間保持該電纜在該聯接器 ^严内。此外’在該最後之切螺紋製程中需格外小心,且/或 |添加額外之聯接器元件,以避免當該外導體之該擴口端部夾 ^在該本體與該聯接螺母間時被破壞,以便在該外導體與該同 轴電境間形成牢固之電連接。 201021327 利用縣縣巾料吾讀熟知,即 向壓縮至其周^,用以㈣:^^聯接11本雜向折邊與/或轴 ==電外201021327 VI. Description of the Invention: [Technical Fields of the Invention] This application claims the United States Utility Patent Application No. 12/264 932, filed on November 5, 2008 by Jeffrey Paynter and A1 Cox. The name of the invention in the current application is "Insertion c〇upling c〇axial c〇nnect〇r (insertion coupling δ type coaxial coupling) and November 2009 2 曰 Jeffrey Paynter and Ai application for US Utility Patent Application No. 12/61, 〇95 The present invention is entitled "jnserti〇n C〇Upiing Coaxial Connector". The present invention relates to an electric thin coupler. More specifically, the present invention is A solid outer conductor coaxial cable coupler coupled to a coaxial cable by inserting the cable end into a body cavity of a coupler. [Prior Art] Coaxial power connector as an example - for In the communication system with high precision and reliability requirements. s is to make the mechanical connection between the cable and the connector firm and the electrical connection effect is best. 'We expect the outer conductor of the coaxial cable before The circumferential contact with the coupler body is generally uniform. The flared end of the outer conductor is clamped to the annular wedge surface of the coupler body via a coupling nut. This technique is represented in August 1998. U.S. Patent No. 5,7, to Harwath. The threaded coupling surface between the metal body and the coupling nut of U.S. Patent No. 5,795,188 and the previously configured coaxial coupling of the same configuration results in manufacturing costs. Significantly increased. Another disadvantage is that when the coupling is removed, the back body needs to be slid over the current end and then the exact cable end is operated. The maneuver is used to keep the cable during thread cutting. The coupling is also tight. In addition, 'in this final thread cutting process, extra care must be taken and/or | additional coupling elements are added to avoid the flared end of the outer conductor being clamped to the body and The coupling nut is broken between time to form a firm electrical connection between the outer conductor and the coaxial electric field. 201021327 It is well known to use the county and county towel materials, that is, compressed to the circumference thereof, : ^^ coupling flange 11 and the heteroaryl == / or the outer shaft power
工工 該同轴電_接器市場中之競爭主要集中於 处 =ίΐ降=小程度,總成本包括材料成本、;裝人ί ^丨練4、齡相安裝工具與職絲步驟與/或操作^ 【發明内容】 之_3母本發明之—目提供—種能克服先雜藝中缺陷 【實施方式】 本發明者已分析可用之實心外導體同軸聯接器,並已 螺紋内體聯接、手工擴口安裝步驟與折邊/壓縮同軸聯接器 計存在之缺陷。 ° 如圖1-3中一第一示例性具體實施例中所示,根據本發明 之一同轴聯接器1具有一聯接器本體3,該聯接器本體3具有 一聯接器本體内腔5。固定於該聯接器本體内腔5内之一絕緣 體7支撐一與該聯接器本體内腔5同軸之内觸點9。該同轴聯 接器1以機械方式保持一同軸電蜆13之該外導體η,經由— 位於該夾緊擋圈19内徑上之一夾緊表面π,該同軸電規13 之該外導體11被插入至該聯接器本體内腔5之該電規端部μ 内。固定於該聯接器本體内腔5内之彈簧觸點21與該外°導體 5 201021327 接觸’越過該聯接H本體3额合該外導體u至該聯 接器端部25處之一聯接器介面23。 ,聯接器介面23可為任何期望之標準或專有介面。 端部之人士應瞭解,該魏端部15與該聯接器 欠係榣述符,在此處被用作闡明該同轴聯接器1之該等 J種,件間之縱向位置與相互關係。除與沿該同轴聯接器】縱 ίίΪ鄰7°件侧之鱗確定位置外,每-單獨之树亦且有 部15侧面與一聯接器端部25側面,即,面對該同軸 聯接器1之該各個電纜端部15與該聯接器端部25之各個 之侧面。 為進一步相對於該同轴電纜13之該外徑穩定該聯接器本 ,3 ’可在該聯接器本體3之該電_部15鄰近施加 ΐίΓ蔽f例而言’如圖24中所*。該失套爽具71可具有 t + i特性當其綱魏端部15承受拉力時卿合並夾 二ίίΓ之該外徑表面,而#其朝該連接11端部25移動時 允許該外導體11滑祕賴絲夾具7卜該夹套夾且71表 面17可形成為為複數個環形或螺旋形槽或倒鉤。八 =錢猶雜或綱時,該絲纽71可螺紋聯結 57上’當該爽套爽具71螺紋聯結至該爽套57上時, 强在該彈簧觸點21下逐漸移動該外導體11並經職 =簧觸點21。該螺紋聯接同樣有助於聯接器i保持同袖魏 ▲=緊擋圈i9可保持在該聯接器本體内腔5内,舉例而 疋於—夾諸_槽27内。域财緊翻19 (若存 歧下面所黯之〇元件)之钱與/或增強夾 外導體η之夾緊性能,可加工形成該夾緊擒圈凹 ^聯端做f觀_27侧物魏部係麵合 本體3之緊固螺母31之表面,舉例而言,如圖4 該失持環Μ (若存在)可藉由保持特徵29輕合至該聯接 201021327 該侧壁内之部15之該聯接器本體内腔5之 上提供之對應鉚頭倒釣^ 33與該夹持環31之外徑 中所示。 門之聯鎖,舉例而言,最佳如圖5 紋37^可%1%1=51==嫩狀失持環螺 聯接器!提供便於安裝方案而提供。為使該同軸 槽33與鉚頭倒釣35組“^寺環^紋37可與該鉚頭凹 成可帶有已附著於該聯接器本連’用以提供一總成,該總 所示。在該保持特i f91 且人=言,如圖6-9與19辦 33及鉚頭倒夠35處,該夹寺環,紋37與該鉚頭凹槽 接器本體3沿該夾、·坐由螺紋聯接相對於該聯 -内之寬度限Ϊ夾=:=槽之 35可在該寬度上移動。槽%侧壁抵觸别,該鉚頭倒鉤 最佳如圖20所示’該保持特徵29 月η將该聯接器本體3與該夾持環31响合。— ⑽,該_合起抵制該夹持環 内之=二 形之_最大,而在魏端部15侧面處該錐=^錐 該夾緊擔圈i9之外徑接觸該楔形表面39,且從轉 形表面39朝該電縵端部15之通道徑向向内驅動。〇^六 該夾緊擋圈19之該外徑與該楔形表面39間 =9之拐角接觸,該夾緊擋圈19之該拐角可形“$ 使其上之移動平滑,或採用另-方式’即藉由使該^緊擂= 19之該外控輪廓成一角度而平行於該楔形表面39之該^ 從而使該夾緊擋圈19在該夾緊擋圈19與該楔形表面間 7 201021327 形成一擴展之接觸面積。 該彈簧觸點21可為任何具有彈簧特 -螺旋形線圈’舉例而言,如圖1〇盥 導體:構,諸如 聯接器本體内腔5側壁之一單獨彈簧凹槽固定於該 方式’即其固定於該夾緊擋圈凹槽27 用另一 上。該彈簧觸點21在該夾緊析圈祕,端# 25側面 21與該央緊細19與/或外“封塾3内㈠,該彈簧觸點 =該塾片43可直接靠著 =可=;整片 方式够即組態成用以靠著該楔形表面3U2— 該彈簧觸點21可為具有複數個彈*央二】彈 ί:二=中所示,其藉由該夹持㈣與該聯ίThe competition in the coaxial _ connector market is mainly concentrated in the = ΐ ΐ = a small degree, the total cost includes the material cost, the loading ί ^ 丨 4, the age phase installation tool and the wire step and / or Operation ^ [Summary of the Invention] _3 The present invention provides the ability to overcome the defects in the prior art. [Inventors] The inventors have analyzed the available solid outer conductor coaxial couplings, and have threaded inner body coupling, Manual flaring installation steps and hem/compression coaxial couplings have drawbacks. As shown in a first exemplary embodiment of Figures 1-3, a coaxial coupling 1 according to the present invention has a coupler body 3 having a coupler body cavity 5. An insulator 7 fixed in the body cavity 5 of the coupler supports an inner contact 9 coaxial with the body cavity 5 of the coupler body. The coaxial connector 1 mechanically holds the outer conductor η of a coaxial motor 13 via a clamping surface π located on the inner diameter of the clamping collar 19, the outer conductor 11 of the coaxial electrical gauge 13 It is inserted into the end portion μ of the electrical body of the coupler body 5. A spring contact 21 fixed in the body cavity 5 of the coupler is in contact with the outer conductor 5 201021327 'over the coupling H body 3 to the outer conductor u to one of the coupler interfaces 23 at the coupler end 25 . The coupler interface 23 can be any desired standard or proprietary interface. It should be understood by those skilled in the art that the end portion 15 and the coupler are in a descriptive manner and are used herein to clarify the J positions of the coaxial coupler 1 and the longitudinal position and relationship between the members. In addition to being positioned along the scale of the coaxial connector, each of the individual trees also has a side 15 and a side of a coupler end 25, ie, facing the coaxial coupler 1 of each of the cable ends 15 and the sides of the coupler ends 25. In order to further stabilize the coupler with respect to the outer diameter of the coaxial cable 13, 3' can be applied adjacent to the electric portion 15 of the coupler body 3 as shown in Fig. 24. The shackle 71 can have a t + i characteristic that allows the outer conductor surface to be clamped when its end portion 15 is subjected to tension, while the outer conductor 11 is allowed to move toward the end portion 25 of the connection 11. The slide fastener 7 and the jacket surface 71 can be formed as a plurality of annular or spiral grooves or barbs. If the money is still miscellaneous or the outline, the wire 71 can be threadedly coupled to the upper portion of the sleeve 57. When the sleeve 71 is threaded onto the sleeve 57, the outer conductor 11 is gradually moved under the spring contact 21. And the job = spring contact 21. This threaded coupling also helps the coupler i to remain in the same sleeve. ▲ = The retaining ring i9 can be held in the body cavity 5 of the coupler, for example, in the pinch slot 27. If the money of the domain is close to 19 (if any of the components of the device below) and/or the clamping performance of the outer conductor η of the clamp is increased, the clamping loop can be formed to form the side of the clamp. The surface of the fastening nut 31 of the body portion 3, for example, as shown in Fig. 4, the lost loop Μ (if present) can be lightly coupled to the portion of the side wall of the joint 201021327 by the retaining feature 29 The connector is provided on the body cavity 5 and the corresponding rivet head fishing 33 is shown in the outer diameter of the clamping ring 31. The interlock of the door, for example, the best as shown in Figure 5, the pattern 37^ can be %1%1=51== tender loss of the ring screw connector! Provides an easy to install solution. In order to provide the assembly, the coaxial groove 33 and the rivet head fishing 35 sets of "^ temple ring pattern 37 can be recessed with the rivet head to be attached to the connector" to provide an assembly, the general indication In the maintenance of the i f91 and the person = words, as shown in Figures 6-9 and 19, 33 and the rivet head up to 35, the temple ring, the pattern 37 and the rivet groove connector body 3 along the clip, · Sitting by the threaded joint with respect to the width of the joint-in-the-limit clamp =:= the groove 35 can move over the width. The groove % sidewall is inferior to the touch, the riveted barb is preferably as shown in FIG. 20 The retaining feature 29 η engages the coupler body 3 with the retaining ring 31. (10), the yoke resists the _max of the dimple in the retaining ring, and at the side of the end portion 15 The outer diameter of the clamping collar i9 contacts the wedge surface 39 and is driven radially inward from the curved surface 39 toward the passage of the electrical end portion 15. The outer diameter is in contact with the corner of the wedge-shaped surface 39=9, and the corner of the clamping collar 19 can be shaped to “smoothly move the movement thereon, or adopt another mode” by making the clamp 擂= The outer control contour of 19 is at an angle parallel to the The wedge surface 39 thus causes the clamping collar 19 to form an expanded contact area between the clamping collar 19 and the wedge surface 7 201021327. The spring contact 21 can be any coil having a spring-spiral coil. For example, as shown in FIG. 1 , a conductor: such as a single spring groove of a side wall of the body cavity 5 of the coupler is fixed in the manner of It is fixed to the clamping collar groove 27 on the other. The spring contact 21 is in the clamping ring, the side #25 side 21 and the central tight 19 and/or the outer "sealing 3 (1), the spring contact = the cymbal 43 can be directly against = =; the entire piece is configured to be placed against the wedge surface 3U2 - the spring contact 21 can be a plurality of bullets; the second is shown in the second, which is shown by the clamp (4) Connect with this
秘‘?5封墊45提供之偏壓。該(該等)偏壓接頭69: ‘ 2^31内徑向内凸出’朝該電緵端部15傾斜 C =等广壓接頭69之尺寸為,其凸出進入 ’朝該電纜端部I5偏壓該夾緊擋圈 39且藉此沿徑向向内抵靠該外導體_ 有偏娜性,纽铜軸插^2 』壓$ 部L5於該夹緊擋圈19上恢復該穩定狀態之 必i使得該失緊擔圈19朝該聯接器端部25 導體在該外導體11之該外徑上,藉由該外 該爽緊擔圈19可使該(該等)偏壓接 人』ί於例而言—'經由噴射模塑法製造之聚 偏壓接頭69可成形為若干弧形段,藉 ί 3 ί 1得該偏壓接頭69朝向該聯接器端部25傾斜 而形成之懸垂邊之模具分離成為可能。 該夾緊擂圈19較佳由一種材料形成,諸如其硬度特性高 201021327 金’用以使得該爽緊 w之該夾緊表面ηΊΐΙ導體之該外徑。該央緊擋圈 時唾合盥夾緊#外J ?壓#在朝該電纔端部15承受拉力 ===:25移動時滑過:夹緊表 _ 15 斜 該傾斜面49自該_ m 器端部25上之部申與與/或倒鉤47之該聯接 對於該同軸聯接器i之:軸T一,直面面4:⑽面51相 朝該聯接器端部25傾斜面’與/或該止動面51可 2器本體内腔5脫出、朝該電規端部 勢時,插人並保持於該外導體u内丨。15之方向上具有位移趨 圍。夾緊播圈凹槽27内具有一縱向移動範 ^時卩25沿_雜面39移 入該聯接5|本導體11之該前緣自該電觋端部15插 f斜面49時,在該夹緊擋圈凹槽27,,該夹 縱許^^穿過’或亦將開始朝該聯接“部沿 ,向移動。由於該楔形表面39成錐形,因此者 用=藉夹緊擔圈19可沿徑向向外擴展, 19 ϋΐΐ 3 — 朝向該聯接器端部25通過該夹緊擒圈 梦他^能二/^4+旦擴展後,該夾緊擋圈19向内朝向其 ^ΐΐίίΪ 3緊表面17與該外導體11之該外徑表面 夾緊嚙〇。右在該聯接器本體3與該同 3 朝該€ΐ端部15拉動該外導體u,_夹緊擔圈 之、、if模形^面39驅動,逐漸降低該夾緊播圈凹槽27 ^木度,藉此沿徑向向内驅動該夾緊擋圈19,且當夾緊表面 被驅動進人該外導體U之該外徑表科進—步使該夹緊 9 201021327 寸而使15之央緊翻凹槽27側壁之尺 緊擋於該外導體11直徑,該夾 1卜但談輕使夹緊表面17能牢_合該外導體 體11沿i向二。/σ僅向向内之移動較小’以防止該外導 持特m酉夹持環31與包括該夾持環螺紋37之保 二?用以沿徑向向_該夾緊 體3 二卜^ U之夹緊唾合牢固,而在該聯接器本 圈凹^『7二上,之間無需施加張力。此外,在該夾緊擋 環該’觸點21之具體實施例中,該夾持 力至兮本體内腔5之螺紋聯結可組態成直接施加屢 片43施加麗力至該彈筹觸^ 在墊片43——經由该整 外道…、心2彈黃觸上,藉此該彈簧觸點21朝該 111内變形’從而使該彈菁觸點21與該外導體 間,該接觸壓力增加,藉此改良其間之電耦合。 題ΐΪΐ該外導體封墊45 ’則該外導體封墊45之彈性特性 Ξϋ響安裝及最後之密封特性。舉例而言,在該外導體封 ^供於該夾緊擋圈丨9之該聯接器端部25侧面上處舉 圖5中所不,當該外導體11經過,其朝該聯接器 偏壓該錄_19錢人料導體紐45時,職 卜壓縮。當該外導體u完全騎後,如此處上面關於 等)偏壓接頭69所述’該被壓縮之外導體封塾朝該電 ,端叩傾該爽緊擋圈丨9 ’使其進人該娜表面39,且因 ί沿控向向内與該外導體11鎖緊喊合。當該外導體封塾45提 供於該夾?擋圈19之該魏端部15側面上時,舉例而言,如 ^ 7中所不,當該外導體封墊45朝該電纜端部15移動時,其 韃由該夾緊擋圈19壓縮,因此使得該外導體u與該失緊擋^ 凹槽27間之密封得以改良。 ’、 201021327 在鄰近該同轴聯接器i之該電纔端冑15之 内可提供-夹套封# 53。做套雜53 二 内環31 ’則可提供另-安裝在夹緊環 凹槽61 β之夹緊環封塾59,用以在 本體3間提供密封。 明^ Μ興該聯接器 17二夾緊Ϊ圈19可成形為C型環’舉例而言,如圖盥 爽緊^7^*;具有/心橫截面之C型環。另-方式為,該 ❿ Ζϊ Ϊ有—水準V型與㉝U型橫截面,舉 幹圈L且有實,所不。在此具體實施例中,該爽緊 棚19具有彈簧特性,其偏壓該炎緊表面Π,使該类緊矣而 之料絲㈣合,耐麵19沿 ^向向内^移動——其係關於該夾緊擋圈19之該縱向位 置一y~相對於該楔形表面39間之直接機械聯接。 斬夕3緊^面17可提供有與—特殊實心外導體11之特徵匹 ㈣言’其尺核計絲—_敎狀實心外導 丄°,電纜13之波紋凹槽緊密配合之凹形彎曲輪廓,舉例而 如圖9中所示。相似地,該彎曲輪廓可為一凸面構型, 尺寸設計成用以環抱一波紋尖峰。 、 熟悉此項技藝之人士應瞭解本發明顯著之製造與安裝優 製造過程中’一隨時可用於安裝之完整同轴聯接器1總 所需配備之元件總量最少。若該_中包括_夹持環3卜 於至該夾緊擋圈凹槽27之通路得以改良,故該彈簧觸點 、墊片43、夾緊檔圈19與/或外導體封墊45之安裝得以簡 而在該等所需之子元件已安裝於該聯接器本體内腔$之該 等)開口端部與/或夾持環31内後,其然後藉由咬合/摔^ 寺環31就位而易於閉合。此外,每一該等各種環境封墊(外 封墊45、夾套封墊53與/或夾持環封墊59)可於該(該 各個凹槽上重疊注塑,用以提供一具有完整環境封墊之單 總成。自該夾持環31之該外徑至該内徑可形成孔(多個孔) 11 201021327 封,與夾持環封墊59作為一單 一内支撐 孔^可能,最佳如圖2G中所示。經由該(該等) 雜45謂加健力亦使得外 伸出具有—防塵伸出部分65成為可能。該防塵 紋形卜找翔地紐光滑之波 夾具63 = 13。可在該鱗環31之外徑上以夾持環 19中所進-步之重疊注塑’舉例而言,如圖18與 3 31進人該聯接器本體 參 同抽轴魏13上安裝該囉聯接器卜向後剝離該 以暴露該(該等)導體之期望長度,且該被剝 二7,則ίίΓί :若存在該夾持㈣,若其具有夾持環螺 本體3齡接11本體3旋進持環3卜且在該聯接器 =9 1之間施加-職張力•檢驗該夾緊 保圈19與該外導體11間之安全嚙合。 ◎ 該同之同軸聯接器1之具體實施例可自 體^:=姓卸搭載以檢查互連情況’與/或藉由自該聯接器本 移動,且二】環!1而重複使用’使得該夹緊擂® 19能朝外 ϊί與朝該魏端部15與該夾持環31位 規端碑聯:先/:需電二 闌述。&此等賴物在此叙本綱,㈣已單獨對其予以 明 意 ,,管^由本㈣找等具體實_之贿已說明本發 =盡可能詳細地描述了該等具體實施例 限制或以任何方式將_之申請 ^ 12 201021327 般發明内容之精神或細時,可偏離i等細ΐ偏離申請 ,解在不_暖之㈣料ϋ偏ϋ等上郎 此外 範圍時,可進行改進界定之本發明之精神或 【圖式簡單說明】The secret '? 5 gland 45 provides the bias. The biasing joint 69: 'inwardly radially inwardly' is inclined toward the end 15 of the electric pole C. The width of the wide-pressure joint 69 is such that it protrudes into the end of the cable. I5 biases the clamping collar 39 and thereby abuts the outer conductor _ in a radially inward direction, and the button is restored to the clamping collar 19 The state must be such that the unwinding collar 19 is directed toward the connector end 25 conductor on the outer diameter of the outer conductor 11 by which the biasing collar 19 can be biased. By way of example, the poly-biased joint 69 manufactured by injection molding can be formed into a plurality of curved segments which are formed by tilting the biasing joint 69 toward the end portion 25 of the coupling. The separation of the mold of the overhanging edge is possible. The clamping collar 19 is preferably formed of a material such as a high hardness characteristic of 201021327 which is used to make the clamping surface η ΊΐΙ the outer diameter of the conductor. When the central locking ring is pressed, the clamping force is clamped. #外J? Pressure# is slid over when the end of the electric terminal 15 is subjected to the pulling force ===: 25: clamping table _ 15 obliquely inclined surface 49 from the _ The coupling of the portion of the m end 25 and/or the barb 47 is for the coaxial coupling i: the axis T1, the straight face 4: the (10) face 51 faces the inclined end of the coupler end 25' / or the stopping surface 51 can be inserted into the outer conductor u when the body cavity 5 is disengaged and faces the end of the electric gauge. There is a displacement tendency in the direction of 15. The clamping sowing groove 27 has a longitudinal movement 卩 25 moved along the _ miscellaneous surface 39 into the coupling 5 | the leading edge of the conductor 11 is inserted into the f-slope 49 from the electric terminal 15 at the clip The retaining ring groove 27, the clip longitudinally passes through or will also begin to move toward the coupling "portion." Since the wedge surface 39 is tapered, the clamp is used to clamp the collar 19 Extending radially outward, 19 ϋΐΐ 3 — towards the coupler end 25 through the clamping loop, the clamping collar 19 is oriented inwardly towards it ^ ΐΐ ίίΪ 3 a tight surface 17 is clamped to the outer diameter surface of the outer conductor 11. The right outer arm u, the clamping outer ring, is pulled at the end of the connector body 3 and the same , if the mold surface 39 drive, gradually reduce the clamping ring groove 27 ^ wood, thereby driving the clamping ring 19 radially inward, and when the clamping surface is driven into the outer conductor The outer diameter of the U is further stepped so that the clamping is 9201021327 inch and the central portion of the central portion of the recessed groove 27 is tightened to the diameter of the outer conductor 11, and the clamping surface is lightly applied to the clamping surface. 17 can be strong The body 11 is oriented along the i-direction. /σ is only slightly moved inwardly to prevent the outer guide from holding the ring 31 and the retaining ring thread 37 to be used in the radial direction. _ The clamping body 3 is clamped and firmly clamped, and no tension is required between the couplings on the inner ring of the coupling. Further, in the clamping ring, the 'contact 21 In a specific embodiment, the threading force of the clamping force to the body cavity 5 can be configured to directly apply the force piece 43 to apply the force to the spring of the blade 43 through the entire outer path... 2, the yellow touches, whereby the spring contact 21 is deformed toward the inside of the 111, so that the contact pressure is increased between the elastic contact 21 and the outer conductor, thereby improving the electrical coupling therebetween. The conductor gland 45' then has the elastic properties of the outer conductor gland 45 squeaking the mounting and final sealing characteristics. For example, the outer conductor seals the connector end 25 of the clamping collar 丨9. The side is raised in FIG. 5, when the outer conductor 11 passes, and the bias is biased toward the coupler, the job is compressed. When the outer guide After the body u is fully seated, as described herein above, the biasing joint 69 says that the outer conductor is sealed toward the electric, and the end of the tightening retaining ring 丨 9' is brought into the surface 39. And the inner conductor 11 is locked inwardly in the direction of the inner conductor 11. When the outer conductor seal 45 is provided on the side of the inner end portion 15 of the clip ring 19, for example, 7, when the outer conductor gland 45 moves toward the cable end portion 15, the pinch is compressed by the pinch retaining ring 19, thereby sealing the outer conductor u and the misalignment stop groove 27. Improved. ', 201021327 - Jacket # 53 is provided within the electrical port 15 adjacent to the coaxial connector i. A set of 53 and 2 inner rings 31' can be provided with a clamping ring seal 59 mounted on the clamping ring groove 61 to provide a seal between the bodies 3. Ming ^ Μ兴 The coupling 17 The second clamping collar 19 can be formed into a C-shaped ring ′ for example, as shown in Fig. 爽 爽 ^ ^ 7 ^ *; C-ring with / core cross section. The other way is that the ❿ Ϊ has a level V-shaped and a 33U-shaped cross section, and the dry loop L is solid and not. In this embodiment, the shower shed 19 has a spring characteristic that biases the squeezing surface Π so that the closely adjacent filaments (4) merge and the surface 19 moves inwardly. The direct mechanical connection between the longitudinal position of the clamping collar 19 and the wedge surface 39 is made. The 斩 3 3 ^ 面 17 can be provided with a feature of the special solid outer conductor 11 (four) 其 其 尺 其 其 其 其 , , , , , , , , , , , , , 电缆 电缆 电缆 电缆 电缆 电缆 电缆 电缆 电缆 电缆For example, as shown in FIG. Similarly, the curved profile can be a convex configuration sized to enclose a ripple peak. Those skilled in the art will appreciate that the total number of components required for a complete coaxial coupling 1 that is ready for installation during the significant manufacturing and installation of the present invention is minimal. If the passage of the _ clamping ring 3 to the clamping collar groove 27 is improved, the spring contact, the spacer 43, the clamping collar 19 and/or the outer conductor gasket 45 The mounting is simplified and then after the required sub-components have been installed in the open end of the coupler body cavity and/or the clamping ring 31, then by snapping/falling the temple ring 31 It is easy to close. In addition, each of the various environmental seals (outer seal 45, jacket seal 53 and/or clamp ring seal 59) may be overmolded on the respective grooves to provide a complete environment a single assembly of the gland. From the outer diameter of the clamping ring 31 to the inner diameter, a hole (a plurality of holes) can be formed. 11 201021327, and the clamping ring gland 59 serves as a single inner support hole. As shown in Fig. 2G, it is also possible to make the outer protrusion have a dust-proof protruding portion 65 via the (additional) 45. The dust-proof pattern is found to be a smooth wave fixture 63 = 13. The over-molding of the stepping ring 19 can be performed on the outer diameter of the scale ring 31. For example, as shown in Figs. 18 and 31, the coupling body is mounted on the same shaft. The 啰 coupler is peeled back to expose the desired length of the conductor, and the stripped strip is 7, then ίίΓί : if the clamp (4) is present, if it has a clamp ring screw body 3 is connected to the body 3 screwing into the ring 3 and applying a duty between the coupler = 9 1 • checking the secure engagement between the pinch retaining ring 19 and the outer conductor 11 ◎ The specific embodiment of the coaxial coupling 1 can be self-contained: = surname is unloaded to check the interconnection condition 'and/or by the coupling from the connector, and two] ring! 1 and reused 'making The clamping jaws 19 can be oriented outwardly and toward the Wei end portion 15 and the clamping ring 31. The first / / electric power is described. & (4) It has been separately stated, and the bribe has been described in this (4). The bribe has been described as being as detailed as possible. The specific embodiment restrictions are described in any way or in any way _ the application ^ 12 201021327 The spirit or fineness of the content of the invention may deviate from the application, and may be modified to define the spirit of the invention or a simple description of the invention when it is not in the range of 】
關狀本制且構穌制之—部分,相干$明 體在實ί== 述,而係隨同ί面 具體實_找詳細贿,之該等 性等距^Γ®—。囉聯接器之—第―賴性實施例之 連有圖該同轴聯接器之示意性賊面側視圖, 示意 其附 圖3係圖2中面積Α之局部放大視圖。 係-第-替代具體實關同㈣接器之示意 ’其附連有一段同軸電縵。 斯 圖4 面側視圖 圖5係圖4中面積B之局部放大視圖。 圖6係-第二替代具體實施例同軸聯接器之示意 面視圖’其附連有一段同軸電規。 取 圖7係圖6中面積C之局部放大視圖。 圖8係圖6中面積D之局部放大視圖。 圖9係圖6中該夾緊環之示意性等距視圖。 圖10係一第三替代具體實施例同軸聯接器之示意性 面視圖,其附連有一段同軸電、雙。 圖11係圖10中面積E之局部放大視圖。 圖12係一彈簧觸點之示意性等距視圖。 圖13係具有一實心橫戴面與環形倒鉤之夹緊擋圈之示意 13 201021327 性等距視圖。 圖14係具有一水準 視圖。 ¥形蝴面之絲軸之示意性等距 意性有一實心纖___敎«擋圈之示 圖16係圖15中該夾緊檔圈之 圖17係圖16沿直線B-B截^忍'聯接器端部側視圖。 圖。 之一局部放大之橫截面視 圖18係一同袖聯接器之一 等距視圖。 第四替代具體實施例之示意性The relationship between the system and the system is part of the structure, and the related $ is in the form of the actual ί==, and the system is accompanied by the specific _ to find a detailed bribe, which is equidistant ^Γ®.啰 啰 器 第 第 第 第 连 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 The system-the first-substitute is the same as the (four) connector. Figure 4 is a side view of the area B. Figure 5 is a partial enlarged view of the area B in Figure 4. Figure 6 is a schematic cross-sectional view of a second alternative embodiment of a coaxial coupler with a coaxial electrical gauge attached thereto. Figure 7 is a partial enlarged view of the area C in Figure 6. Figure 8 is a partial enlarged view of the area D in Figure 6. Figure 9 is a schematic isometric view of the clamping ring of Figure 6. Figure 10 is a schematic plan view of a third alternative embodiment of a coaxial coupler with a section of coaxial power, dual. Figure 11 is a partial enlarged view of the area E in Figure 10. Figure 12 is a schematic isometric view of a spring contact. Figure 13 is a schematic view of a clamping circlip with a solid cross-face and a ring-shaped barb. 13 201021327 isometric isometric view. Figure 14 has a level view. The schematic equidistance of the silk shaft of the shape of a butterfly has a solid fiber ___敎«The diagram of the retaining ring is shown in Fig. 15 in Fig. 15. Fig. 17 is a line of Fig. 16 along the line BB. Side view of the connector end. Figure. A partially enlarged cross-sectional view of Fig. 18 is an isometric view of one of the sleeve couplings. Illustrative of a fourth alternative embodiment
圖19係圖18之-示意性横戴面 圖20係圖19中面積F之局部放大視圖。 橫截面視圖。 圖22係圖21中面積Β之局部放大視圖。 圖23係該第五替代具懸實施例之該夹緊環之示 聯接器端部視圖。 圖21係,軸雜ϋ之1五替代具體實施例之示意性 意性等距Figure 19 is a schematic cross-sectional view of Figure 18. Figure 20 is a partial enlarged view of the area F of Figure 19. Cross-sectional view. Figure 22 is a partial enlarged view of the area Β in Figure 21. Figure 23 is an end view of the coupler of the clamp ring of the fifth alternative suspension embodiment. Figure 21 is a schematic isometric isometric representation of a specific embodiment of a shaft miscellaneous
圖24係一同袖聯接器之 橫載面視圖。 【主要元件符號說明】 1同軸聯接器 3聯接器本體 5聯接器本體内腔 7絕緣體 苐替代具體實施例之示意性 9内接觸 11外導體 13同軸電纜 15電纜端部 17夾緊表面 19夾緊擋圈 14 201021327Figure 24 is a cross-sectional view of the same sleeve coupler. [Main component symbol description] 1 coaxial connector 3 connector body 5 connector body cavity 7 insulator 苐 instead of the specific embodiment of the schematic 9 inner contact 11 outer conductor 13 coaxial cable 15 cable end 17 clamping surface 19 clamping Retaining ring 14 201021327
21彈簧觸點 22彈簧夾 23聯接器介面 25聯接器端部 27夾緊擋圈凹槽 29保持特徵 31夾持環 33鉚頭凹槽 35鉚頭倒鉤 37夾緊環螺紋 39楔形表面 41彈簧凹槽 43墊片 45外導體封墊 47倒鉤 49傾斜面 51止動面 53夾套封墊 55夾套凹槽 57夾套 59夾緊環封墊 61夾緊環凹槽 62孔 63夾緊環夾具 65防塵伸出部分 67過盈配合 69偏壓接頭 71夾套夾具21 spring contact 22 spring clip 23 coupler interface 25 coupler end 27 clamping collar groove 29 retaining feature 31 clamping ring 33 rivet groove 35 rivet barb 37 clamping ring thread 39 wedge surface 41 spring Groove 43 gasket 45 outer conductor gland 47 barb 49 inclined surface 51 stop surface 53 jacketed gasket 55 jacket groove 57 jacket 59 clamping ring gland 61 clamping ring groove 62 hole 63 clamping Ring clamp 65 dustproof extension portion 67 interference fit 69 bias joint 71 jacket clamp