201036283 六、發明說明: 這是要求2004年11月24曰提交沾χτ 捉乂的 No. 1〇/997,218 的 優先權的繼續申請案。 【發明所屬之技術領域】 本發明涉及同軸電㈣連接器的領域。更特別地,本發 〇 ❹ 明提供了-種包括至少一個導電部件的同轴電缆連接器及 其使用方法。 【先前技術】 寬頻通信已經成為日錢行的電磁資訊交換的形式,且 同軸電瘦對於寬頻通信的傳輸來說是普通料線管。用於 同軸電纜的連接器通常連接到互補的介面槔上,以將同軸 電規電結合到各種電子裝置上。另外,通常使用連接器來 將同軸電境連接到各種通信修改設備上,例如信號分離 器、線纜擴充器和電纜網路模組。 為了防止電磁干擾的5丨人’同軸電境設有外部導電護 罩'。試圖進一步進行遮罩,以防止環境雜訊的進入,典型 的連接器大體構造成以便與附連的同軸電㈣導電護罩接 觸且電延伸该導電護罩。此外,當電磁雜訊通過介面蜂 和連接器之間的連接性接合部被引人時,電磁雜訊是成問 題的在埠和連接H之間的充分的電介面和/或物理介面沒 =提供電磁緩衝器肖,這種成問題的雜訊干擾中斷性的。 當金屬構件腐#,退化或在流電方面變得不相容從而導致 201036283 間歇性接觸和不良的電磁遮罩時,風化作用 問題。 干擾 因此,在同軸電纜連接器的領域中存在對一種改進的連 接器設計的需要。 【發明内容】 本發明提供了-種提供改進的可#性的、用於與同轴電 纜連接一起使用的裝置。 本發明#第一個一般的方面提供了—種用於聯接同轴 電規的端部的連接n,同軸電觋具有被電介f包圍的中心 導體,電介質被導電接地護罩㈣,導電接地護罩被保護 性外護套包圍,所述連接器包括連接器主體、帶螺紋螺母 和導電密封件’導電密封件電聯接連接器主體和帶螺紋螺 母。 本發明的第二個一般的方面提供了一種用於聯接同軸 電纜的端的連接器,同軸電纜具有被電介質包圍的十心導 體,電介質被導電接地講λ» , 貝俽守电按罩包圍,導電接地護罩被保護性 外護套包圍,所述連接器包括具有卜端和第二端的柱, 第-端構造成以便在電介質周圍以及在電介質的導電接地 護罩下面插人同軸電_端料。此外,連接器包括操作 性地附連到柱上的連接器主體,以及位於柱的第二端鄰近 的導電部件’其中,導電部件有利於同軸電纜的接地。 本發明的第三個一般的方面提供了一種用於聯接同軸 電规的端部的連接器,同轴電境具有被電介質㈣的中心 201036283 導體,電介質被導電接地護罩包圍,導電接地護罩被保護 性外護套包圍,所述連接器包括:具有第一端和第二端的 連接器主體,所述第一端構造成以便可變形地壓靠接收到 的同軸電纜且密封該接收到的同軸電纜;操作性地附連到 所述連接器主體上的柱;操作性地附連到所述柱上的帶螺 紋螺母;以及位於連接器主體的第二端附近的導電部件, 其中’導電部件完善了防止電磁雜訊進入連接器中的護罩。201036283 VI. INSTRUCTIONS: This is a continuation application for the priority of No. 1〇/997,218, which was submitted on November 24, 2004. TECHNICAL FIELD OF THE INVENTION The present invention relates to the field of coaxial electrical (tetra) connectors. More particularly, the present invention provides a coaxial cable connector including at least one electrically conductive component and methods of use thereof. [Prior Art] Broadband communication has become the form of electromagnetic information exchange of the Japanese money line, and the coaxial electric thin is a common material line pipe for the transmission of broadband communication. Connectors for coaxial cables are typically connected to complementary interface ports to electrically couple the coaxial electrical gauge to various electronic devices. In addition, connectors are commonly used to connect coaxial power to various communication modification devices, such as signal splitters, cable extenders, and cable network modules. In order to prevent electromagnetic interference, the 5" person's coaxial environment is provided with an external conductive shield. In an attempt to further mask to prevent the entry of environmental noise, a typical connector is generally configured to contact and electrically extend the electrically conductive shield with the attached coaxial electrical (four) conductive shield. In addition, when electromagnetic noise is introduced through the connection joint between the interface bee and the connector, electromagnetic noise is problematic. The sufficient electrical interface and/or physical interface between the connection and the connection H is not = Providing an electromagnetic buffer shawl, this problematic noise interferes with the disruption. Weathering problems when metal components are rotted, degraded or become incompatible in terms of galvanicity, resulting in intermittent contact and poor electromagnetic shielding in 201036283. Interference Thus, there is a need in the art of coaxial cable connectors for an improved connector design. SUMMARY OF THE INVENTION The present invention provides an apparatus for providing an improved usability for use with a coaxial cable connection. The first general aspect of the invention provides a connection n for coupling the ends of a coaxial electrical gauge having a central conductor surrounded by a dielectric f, the dielectric being shielded by a conductive ground shield (four), conductively grounded The shroud is surrounded by a protective outer sheath that includes a connector body, a threaded nut, and a conductive seal 'conductive seal electrically coupled to the connector body and the threaded nut. A second general aspect of the present invention provides a connector for coupling an end of a coaxial cable having a ten-core conductor surrounded by a dielectric, the dielectric being electrically grounded to speak λ», and the Bellows Guardian is surrounded by a cover, electrically conductive The ground shield is surrounded by a protective outer jacket, the connector including a post having a second end, the first end configured to interpose a coaxial electrical energy around the dielectric and under the conductive ground shield of the dielectric . In addition, the connector includes a connector body operatively attached to the post, and a conductive member adjacent the second end of the post. The conductive member facilitates grounding of the coaxial cable. A third general aspect of the invention provides a connector for coupling an end of a coaxial electrical gauge having a central 201036283 conductor surrounded by a dielectric (4), the dielectric being surrounded by a conductive ground shield, a conductive ground shield Surrounded by a protective outer jacket, the connector includes: a connector body having a first end and a second end, the first end configured to deformably press against the received coaxial cable and seal the received a coaxial cable; a post operatively attached to the connector body; a threaded nut operatively attached to the post; and a conductive member located adjacent the second end of the connector body, wherein 'conducting The parts are perfected to prevent electromagnetic noise from entering the shield in the connector.
本發明的第四個一般的方面提供了一種用於聯接同軸 電纜的端部的連接器,同轴電纜具有被電介質包圍的中心 導體,電介質被導電接地護罩包圍,導電接地護罩被保護 性外護套包圍,所述連接器包括連接器主體、帶螺紋螺母, 以及用於導電性地Φ封連接II主體和帶螺紋螺母且電聯接 連接器主體和帶螺紋螺母的機構。 本發明的第五個-般的方面提供了一種用於通過連接 器使同抽電㈣地的方法,同軸㈣具有被電㈣包圍的 中心導體’電介質被導電接地護罩包H電接地護罩被 保護性外護套句Jfl,+ 隻贫。圍所述方法包括:提供連接器,其中, 連接器包括連接器主體、具有第一端和第二端的柱,以及 2所杜的第二端附近的導電部件;將_魏不動地 ,到連接器上;以及將連接器推進到介面埠上,直到介 面埠的表面與導電部件匹配 行接地 -為止,從而有利通過連接器進 本發明的第 轴電缓和連接器 々個—般的方面提供了一種用於電聯接同 的方法,同軸電纜具有被電介質包圍的中 5 201036283 心導體,電介質被導電接地護罩包圍,導電接地護罩被保 護性外護套包圍’所述方法包括:提供連接器,其甲,連 接器包括連接器主體、帶螺紋螺母,以及電聯接連接器主 體和帶螺紋螺母且物理密封連接器主體和帶螺紋螺母的導 電部件;將同軸電纜不動地附連到連接器上;以及通過將 螺母旋到導電介面埠上來完善電磁護罩。 根據本發明的各實施例的更加具體的描述,本發明的前 述和其他特徵將是顯而易見的。 【實施方式】 雖然已經顯示和詳細描述了本發明的某些實施例,但是 應當理解’可在不偏離申請專利範圍的情況下作出各種改 變和修改。本發明的範圍無論如何不限於僅作為本發明的 實施例的實例公開的組成構件的數量、構件的材料、構件 的形狀、構件的有關德荖楚 關佈置等。在附圖中詳細地示出了本發 明的特徵和優點,其巾, 、 相同參考標號在圖中始終指示相 同元件。 作為詳細描述的前言, 音 直 ^ ® /王蒽’如在本說明書和申請 :利範圍中所使用,單數形式“-個,,'“一種,,和“該, 匕括複數所指物件,除 x 參照附圖,圖…了 地以別的方式規定。 例。連接器⑽可包括呈二續性連接器100的-個實施 罩u、内部電介fl6和、有保^性外護套12、導電接地護 過移除保護性外 中心導體18的同轴電規1〇。可通 套12且拉起導電接地護罩14以曝露内 201036283 Ο Ο 部電介質16的—部分來像圖1中體現的那樣準備同軸電繞 1〇°所體現的同軸㈣1G的進—步的準備可包括剝去電介 質6 Μ曝路中心導體18的一部分。保護性外護套m 圖保護同軸電冑1G的各種構件不受由於曝露於污垢❹ 氣以及由於腐餘而造成的損害。此外,保護性外護套Μ 某種程度上用來保護成包容式電纜設計的同軸電纜10 的各種構件’包容式電纜設計保護電纜10不受與電纜安裝 期間的運動有關的損害。導電接地護罩14可由適於提供電 接地連接的導電材料構成。可採用護罩14的各實施例來遮 罩不需要的雜訊。例如,謹當 例如濩罩w可包含環繞著電介質16 的金屬落,或者在電介質16周圍形成為連續的編織物的若 線可使用y自和/或編織線的組合,其中導電護罩14 可包含猪層’然後編織層’然後落層。本領域技術人員將 理解,可實現各種層組合,以便於導電接地護罩Μ實現電 磁緩衝,從而幫助防止可中斷寬頻通信的環境雜訊的進 入。電介質16可由適於電絕緣的材料構成。應當注意,同 軸電缓10的所有各種構件所包含的各種材料應當具有某 種程度的彈性,從而允許電纜10根據傳統的寬頻通信標 ; 裝方法和/或δχ備來進行伸縮或彎曲。應當進一步認 11同軸電欖1G、保護性外護# 12、導電接地護罩i 4、 内P電’丨質16和/或中心導體i 8的徑向厚度可基於對應於 寬頻通仏標準和/或設備的大體認可的參數而變化。 進步參照圖丨’連接器100還可包括同軸電規介面埠 20。同軸電纜介面璋20包括足以進行充分的電接觸的、用 201036283 於接收同轴電纜中心導體18的一部分的導電插座22。同 抽電缓介面彳20可進-步包括帶螺紋外表面24。但是, 各實施例可採用與帶螺紋外表面相反的平滑部分。另外, 同抽電、纜介面埠20可包括匹配邊緣26。應當認可,同軸 電瘦介面埠2G和/或導電插座22的徑向厚度和/或長度可基 於對應於寬頻通信標準和/或設備的大體認可的參數而變 化。此外,可形成於同軸電欖介面琿2G料螺紋外表面 24上的螺㈣斜度和高度也可基於對應於寬㈣信標準和 /或設備的大體認可的參數而變化。另外,應當注意 槔20可由單種導電材料、多種導電材料製成,或者可用對 應於埠2〇與連接器100進行的電交互的導電材料和非導電 材料兩者構造成。例如,帶螺紋外表面可由導電材料製成, 而構成匹配邊緣26的材料可為非導電的,或者反之亦然。 但是,導電插座22應當由導電材料製成。另外,本領域並 通技術人員將理解,介面埠2G可由諸如信號分離器, 擴充器、電㈣路模師/或類似物的通信修改裝 = 性介面構件體現。 '連接 仍然進-步參照圖卜連接器⑽的實施例 括帶螺紋螺母3〇、柱4〇、連接器主體5〇、緊固件心7 諸如Ο形環70的匹配邊緣導電部件和/或諸如 的連接器主體導電部件,以及用於導電性地 =80 體50和帶螺紋螺母3〇且電聯接連接器主、 器主 母3。的機構。用於導電性地密封連接器主體二帶:紋螺 螺母3〇且電聯接連接器主體5。和帶螺紋螺母二= 201036283 是,採用設置在一定位置上的連接器主體導電部件8〇,以 便在連接器主體50和帶螺紋螺母30之間進行物理密封和 實現電接觸。 另外參照附圖,圖2描繪了具有 V仰对的弟 〇 〇 二端34的帶螺紋螺母3〇的一個實施例的截面側視圖。帶 螺紋螺母30可包括内部唇緣36,該内部唇緣%位於第二 端34附近,且構造成以便阻礙柱4〇(在圖1中顯示)的軸向 運動。另外,帶螺紋螺母30可包括腔體38,該腔體“軸 向地延伸自第二端34的邊緣,且由内部唇緣%部分地限 定和限制。腔體38也可由外部内壁39部分地限定和限制1 帶螺紋螺母30可由導電材料製成,從而有利於通過螺母進 行接地。因此,螺母30可構造成以便在連接器1〇〇(在圖i 中顯示)推進到埠20上時,通過電接觸介面埠2〇的導電表 面來使電磁緩衝器延伸。另外,帶螺紋螺母3g可由非導電 材料製成’且僅起將連接器丨⑼物理地固定和推進到介面 ::上作用。此外,帶螺紋螺母3。可由導電材 導 兩者製成。例如,内部唇緣36可由聚合物製成,而 帶螺 的主體的甘可由金屬或聚5物或將有利於剛性地形成 造 ^他材料製成。帶螺紋螺母3Q㈣造可包括鱗 供構I :切割、車削、開孔、鑽削、注塑、口欠塑或可提 的阿效生產的其他製造方法。 個實施例的截面寸_圖3為繪了根據本發明的柱40的— 丨的截面側視圖。柱40可包括第—端42和相對的 9 201036283 第二端44。另外,柱4〇可包括法蘭46,該法蘭46操作性 地構造成以便接觸帶螺紋螺母3〇的内部唇緣36(在圖2中 顯示)’從而有利於防止柱的超過接觸的内部唇緣的軸 向運動。另外,柱40的實施例可包括表面特徵以,例如 淺的凹部、棘爪、切口、槽口或槽。另外,柱4〇可包括匹 配邊緣49。匹配邊緣49可構造成以便與介面埠2〇或匹配 邊緣部件或Ο形環70(在圖1中顯示)進行物理接觸和/或電 接觸。柱40應當形成為使得準備好的同軸電纜的包括 電介質16和中心導體18 (在圖1中顯示)的部分可軸向地 通入第一端42中,以及/或者穿過柱4〇的主體。此外,柱 40應當尺寸設置成使得柱4G可在電介質16的周圍以及在 保護性外護套12和導電接地護罩14的下面插入準備好的 同軸電境10的端部中。因此,在柱4〇的實施例可在拉起 的導電接地護罩14下面插入準備好的同軸電纜ι〇的端部 中時,可實現與護罩14的實質上的物理接觸和/或電接觸, 由此有利於通過柱40進行接地。柱4〇可由金屬或將有利 於剛性地形成的主體的其他導電材料製成。另外,柱仂也 可由諸如聚合物或有利於剛性地成形的主體的複合物的非 導電材料製成。另夕卜,柱可由導電材料和非導電材料兩者 的組合製成。例如,可將金屬塗層或金屬層施用到其他非 導電的材料的聚合物上。柱4〇的製造可包括鑄造、押出、 刀車削、鑽削、注塑、噴塗、吹塑或可提供構件的古 效生產的其他製造方法。 ^ 繼續參照附圖,圖4描繪了連接器主體50的截面側視 10 201036283 Ο Ο 圖。連接器主體50可包括第—端52和相對的第二端54 此外,連接器主體可包括構造成以便與柱4〇的表面特徵 48 (在圖3中顯示)匹配且實現與該表面特徵的抓緊的内部 環形唇緣55。另外,連接器主體5〇可包括位於第二端^ 附近的外部環形凹部56。此外,連接Μ时包括半剛性 且順從性的外表面57,其中,外表面57可包括環形棘爪 58。外表面57可構造成以便在第—端⑴皮緊固件部件⑼ (在圖1中顯示)可變形地壓靠在接收到的同軸電纜ι〇上 時,形成環形密封。另外’連接器主體5〇可包括内表面特 徵59,例如形成於連接器主體5〇的第一端^附近且構造 :以便增強插入的且接收到的同軸電規1〇的摩擦限制和 卡緊的環形鑛齒。連接器主體5〇可由諸如聚合物、柔性金 屬或有利於半剛性且順從性的外表面57的 料製成。另外,連接弩主栌π n * 河针的材 Μ們^ MU 料或非導電材料 :匕們的組合製成。連接器主體5〇的製造可包括鑄造、押 出、切割、車削、鑽削、注塑、噴塗、 的高效生產的其他製造方法。^供構件 進一步參照附圖,圖5描繪 了根據本發明的緊固件部件 υ的一個實施例的截面側葙 _ m , — 爲1』町甄面側視圖。緊固件部件60可1右笛 内:62和:對的第二端64。另外,緊固件部件6。可包括 崢環形突起63,該内部環形突& 的第-戚。 ㈣犬起63位於緊固件部件6〇 面1上=附近,且構造成以便與連接^體5㈣外表 環形棘爪二=58 (在圖4中顯示)匹配’且實現與該 棘爪58的抓緊。此外,緊固件部件6Q可包括限定在 11 201036283 第一端62和第二端64之間且軸向地貫穿緊固件部件⑼的 中心通路65〇 t心通路65可包括斜表面66,該斜表面66 可設置在具有第-直徑的第-開口或内膛1 67和具有第 二直徑的第二開口或内膛孔68之間,第一開口或内膛孔 67設置成緊鄰緊固件部件6〇的第—端62,第二開口或内 腔孔68設置成緊鄰緊固件部件6〇的第二端“。當緊固件 部件操作成以便固定同軸電纔1〇時(在圖i中顯示), 斜表面“可起可變形地壓擠連接器主體50的外表面57的 作用 '另外’緊固件部件6G可包括設置成緊鄰緊固件部件 60的第二端64的外表面特徵69。表面特徵69可有利於在 連接器(見圖D的操作期間卡緊緊固件部件60。雖缺 將表面特徵顯示為環形棘爪,但是表面特徵可具有各種形 狀和大小,例如凸紋 '凹口、突起、壓花或其他摩擦或卡 緊型佈置。必要領域的技術人員應當認可,緊固件部件Μ 可由諸如金屬、聚合物、複合物等剛性材料製成。此外, 可通過鑄造、押出、切割、車削、鑽削、注塑、喷塗 塑或可提供構件的高效生產的盆仙在】 部件60。 “生產的其他製造方法來製造緊固件 仍然進一步參照附圖,圖 枉連接器线90的-個實“^整艘式 ……"實施例的戴面側視圖。整體式柱連 接器9〇可具有第-端91和相對的第二端92。整體式柱連 接器主體90物理地且功 體式柱連A fourth general aspect of the invention provides a connector for coupling an end of a coaxial cable having a center conductor surrounded by a dielectric, the dielectric being surrounded by a conductive ground shield, the conductive ground shield being protected Surrounded by an outer jacket, the connector includes a connector body, a threaded nut, and a mechanism for electrically sealing the connection of the II body and the threaded nut and electrically coupling the connector body and the threaded nut. A fifth general aspect of the invention provides a method for simultaneously pumping (four) ground through a connector, coaxial (four) having a central conductor surrounded by electricity (four) 'dielectric is electrically conductive ground shield H electric ground shield The protective outer sheath sentence Jfl, + is only poor. The method includes: providing a connector, wherein the connector includes a connector body, a post having a first end and a second end, and a conductive member near the second end of the 2 Du; the connection to the connection And pushing the connector onto the interface , until the surface of the interface 与 is grounded to the conductive member, thereby facilitating the use of the connector into the first-axis electrical mitigation connector of the present invention. A method for electrical coupling, the coaxial cable having a central 5 201036283 core conductor surrounded by a dielectric, the dielectric being surrounded by a conductive ground shield, the conductive ground shield being surrounded by a protective outer sheath - the method comprising: providing a connector , a connector comprising a connector body, a threaded nut, and an electrically coupled connector body and a threaded nut and a physically sealed connector body and a conductive member with a threaded nut; the coaxial cable is fixedly attached to the connector And complete the electromagnetic shield by screwing the nut onto the conductive interface. The foregoing and other features of the present invention will be apparent from the [Embodiment] While certain embodiments of the invention have been shown and described, The scope of the present invention is in no way limited to the number of constituent members disclosed as an example of the embodiment of the present invention, the material of the member, the shape of the member, the related arrangement of the member, and the like. The features and advantages of the invention are set forth in the drawings in the claims and the claims As a preface to the detailed description, 音直^ ® / 王蒽' is used in the specification and application: the singular forms "-,", "", ", and ", refers to the plural refers to the object, In addition to x, the drawings are otherwise specified. For example, the connector (10) may include an implementation cover u, an internal dielectric fl6, and a protective outer sheath in the form of a two-way connector 100. 12. Conductive grounding protects the coaxial electrical gauge 1 from which the protective outer center conductor 18 is removed. The conductive ground shield 14 can be passed through the sleeve 12 and the conductive ground shield 14 can be pulled to expose the portion of the dielectric portion 16 of the 201036283 来 来. The preparation of the coaxial (four) 1G step embodied by the coaxial electric winding 1 〇 can include stripping off a portion of the dielectric 6 Μ exposure center conductor 18. The protective outer sheath m protects the coaxial electric 1G The various components are not subject to damage due to exposure to dirt and helium and due to corrosion. In addition, the protective outer sheath 某种 is used to some extent to protect the various components of the coaxial cable 10 of the inclusive cable design. Design protection cable 10 is not installed with cable Motion-related damage during the period. The conductive ground shield 14 may be constructed of a conductive material suitable for providing an electrical ground connection. Embodiments of the shield 14 may be employed to mask unwanted noise. For example, such as a cover w A metal drop surrounding the dielectric 16 may be included, or a line of continuous braid formed around the dielectric 16 may use a combination of y and/or braided wires, wherein the conductive shield 14 may comprise a pig layer 'then woven layer' The layers are then layered. Those skilled in the art will appreciate that various layer combinations can be implemented to facilitate electromagnetic buffering of the conductive ground shield to help prevent the entry of environmental noise that can interrupt broadband communications. The dielectric 16 can be adapted for electrical insulation. Material Composition. It should be noted that the various materials included in all of the various components of the coaxial electrical retarder 10 should have some degree of resilience to allow the cable 10 to be telescoped or bent according to conventional broadband communication standards and/or delta equipment. Should further recognize 11 coaxial electric 1G, protective outer protection # 12, conductive ground shield i 4, inner P electric '丨 16 and / or center conductor i 8 diameter The thickness may vary based on generally accepted parameters corresponding to the broadband overnight standard and/or device. The advancement of the connector 100 may also include a coaxial electrical interface interface 20. The coaxial cable interface 20 includes sufficient electrical power to be sufficient The contacted, electrically conductive receptacle 22 for receiving a portion of the coaxial cable center conductor 18 with the 201036283. The same extraction interface 20 can include a threaded outer surface 24. However, embodiments can be used with a threaded outer surface. In contrast, the same extraction, cable interface 20 may include a matching edge 26. It should be recognized that the radial thickness and/or length of the coaxial thin interface 埠2G and/or the conductive socket 22 may be based on corresponding broadband communication. The standard and/or the generally accepted parameters of the device vary. In addition, the pitch (s) and height of the screw (4) that may be formed on the outer surface 24 of the coaxial wire 2G thread may also vary based on generally accepted parameters corresponding to the wide (four) letter standard and/or equipment. In addition, it should be noted that the crucible 20 may be made of a single conductive material, a plurality of electrically conductive materials, or may be constructed of both a conductive material and a non-conductive material that correspond to the electrical interaction with the connector 100. For example, the threaded outer surface can be made of a conductive material, while the material that makes up the mating edge 26 can be non-conductive, or vice versa. However, the conductive socket 22 should be made of a conductive material. In addition, it will be understood by those skilled in the art that the interface 埠2G can be embodied by a communication modification interface such as a signal splitter, expander, electric (4) way simulator/or the like. The embodiment of the connection still refers to the threaded nut 3〇, the post 4〇, the connector body 5〇, the fastener core 7 such as the mating edge conductive member of the stirrup ring 70, and/or the like The connector body is a conductive member, and is used for electrically conductively = 80 body 50 and threaded nut 3〇 and electrically coupled to the connector main body and main body 3. Agency. It is used for electrically sealing the connector body two belts: a nut 3〇 and electrically connecting the connector body 5. And threaded nut two = 201036283 Yes, the connector body conductive member 8A is placed at a certain position to physically seal and make electrical contact between the connector body 50 and the threaded nut 30. Referring additionally to the drawings, Figure 2 depicts a cross-sectional side view of one embodiment of a threaded nut 3〇 having a V-paired pair of ends 34. The threaded nut 30 can include an inner lip 36 that is located adjacent the second end 34 and that is configured to obstruct axial movement of the post 4 (shown in Figure 1). Additionally, the threaded nut 30 can include a cavity 38 that "extends axially from the edge of the second end 34 and is partially defined and constrained by the inner lip %. The cavity 38 can also be partially partially covered by the outer inner wall 39. Limiting and Restricting 1 The threaded nut 30 can be made of a conductive material to facilitate grounding through a nut. Thus, the nut 30 can be configured to be advanced onto the 埠 20 when the connector 1 显示 (shown in Figure i) is advanced. The electromagnetic buffer is extended by electrically contacting the conductive surface of the interface 。2〇. In addition, the threaded nut 3g can be made of a non-conductive material and only acts to physically fix and advance the connector 丨 (9) to the interface::. Furthermore, the threaded nut 3 can be made of both electrically conductive materials. For example, the inner lip 36 can be made of a polymer, while the snailed body can be made of metal or poly5 or will facilitate the formation of a rigid Made of other materials. Threaded nuts 3Q (4) can be used to include I: cutting, turning, drilling, drilling, injection molding, or under-plastic or other manufacturing methods that can be produced. _ Figure 3 is drawn according to A cross-sectional side view of the column 40 of the present invention. The column 40 can include a first end 42 and an opposite 9 201036283 second end 44. Additionally, the post 4 can include a flange 46 that is operatively constructed The inner lip 36 (shown in Figure 2) of the threaded nut 3' is adapted to contact the axial movement of the inner lip of the post beyond the contact. Additionally, embodiments of the post 40 may include surface features to For example, a shallow recess, a pawl, a slit, a notch or a groove. In addition, the post 4 can include a mating edge 49. The mating edge 49 can be configured to mate with the interface or match the edge member or the 70 ring 70 (at The physical contact and/or electrical contact is made in Figure 1. The post 40 should be formed such that the portion of the prepared coaxial cable comprising the dielectric 16 and the center conductor 18 (shown in Figure 1) can be axially passed into the first In the end 42, and/or through the body of the post 4〇. Further, the post 40 should be sized such that the post 4G can be inserted around the dielectric 16 and underneath the protective outer sheath 12 and the conductive ground shield 14 Good coaxial power in the end of the 10 Embodiments of the post 4 can achieve substantial physical and/or electrical contact with the shroud 14 when inserted into the end of the prepared coaxial cable ι under the pulled conductive ground shield 14 This facilitates grounding through the post 40. The post 4 can be made of metal or other electrically conductive material that will facilitate the rigidly formed body. Alternatively, the post can be compounded by a body such as a polymer or a rigid shaped body. The non-conductive material of the material is made. In addition, the post may be made of a combination of both a conductive material and a non-conductive material. For example, a metal coating or a metal layer may be applied to the polymer of other non-conductive materials. Manufacturing can include casting, extrusion, knife turning, drilling, injection molding, spraying, blow molding, or other manufacturing methods that can provide an ancient production of components. With continued reference to the drawings, Figure 4 depicts a cross-sectional side view of the connector body 50 10 201036283 Ο 。. The connector body 50 can include a first end 52 and an opposite second end 54. Further, the connector body can include a surface feature 48 (shown in Figure 3) configured to match and effect the surface features of the post 4 The inner annular lip 55 is grasped. Additionally, the connector body 5A can include an outer annular recess 56 located adjacent the second end. In addition, the iliac crest includes a semi-rigid and compliant outer surface 57, wherein the outer surface 57 can include an annular detent 58. The outer surface 57 can be configured to form an annular seal when the first end (1) skin fastener component (9) (shown in Figure 1) is deformably pressed against the received coaxial cable. Further, the 'connector body 5' may include an inner surface feature 59, for example formed adjacent the first end ^ of the connector body 5'' and configured to enhance the frictional restriction and clamping of the inserted and received coaxial electrical gauge 1〇 Ring tooth. The connector body 5 can be made of a material such as a polymer, a flexible metal or an outer surface 57 that facilitates a semi-rigid and compliant nature. In addition, the materials that connect the main 栌π n * river needles are made of MU materials or non-conductive materials: our combination. The manufacture of the connector body 5 can include other manufacturing methods for efficient production of casting, extrusion, cutting, turning, drilling, injection molding, spraying. BRIEF DESCRIPTION OF THE DRAWINGS Referring further to the drawings, Figure 5 depicts a cross-sectional side _ _ m of an embodiment of a fastener component υ according to the present invention, which is a side view of the 』 甄. The fastener component 60 can be 1 right flute: 62 and: the second end 64 of the pair. In addition, the fastener component 6. It may include a meandering ring protrusion 63, the inner ring of the inner ring & (d) The dog 63 is located on the side of the fastener member 6 in the vicinity of the fastener member 6 and is configured so as to match the outer annular jaw 2 = 58 (shown in Fig. 4) of the connecting body 5 (four) and achieve grasping with the pawl 58 . Additionally, the fastener component 6Q can include a central passage 65 defined between the first end 62 and the second end 64 of 11 201036283 and axially extending through the fastener component (9). The core passage 65 can include a beveled surface 66 that includes a beveled surface 66 may be disposed between a first opening or inner bore 167 having a first diameter and a second opening or inner bore 68 having a second diameter, the first opening or inner bore 67 being disposed proximate to the fastener component 6〇 The first end 62, the second opening or the inner bore 68 is disposed in close proximity to the second end of the fastener component 6"". When the fastener component is operated to fix the coaxial electrical power (shown in Figure i), The beveled surface "can function to deformably compress the outer surface 57 of the connector body 50. The additional 'fastener component 6G can include an outer surface feature 69 disposed proximate the second end 64 of the fastener component 60. Surface features 69 may facilitate clamping of fastener component 60 during operation of the connector (see Figure D. Although surface features are shown as annular detents, surface features may have various shapes and sizes, such as embossed 'notches , protrusions, embossments or other friction or snap-on arrangements. Those skilled in the art will recognize that the fastener component Μ can be made of a rigid material such as metal, polymer, composite, etc. In addition, it can be cast, extruded, cut , turning, drilling, injection molding, spray coating or potting that provides efficient production of components.] Component 60. "Other manufacturing methods of manufacturing to make fasteners are still further described with reference to the drawings, Figure 枉 connector line 90 - A side view of an embodiment of the present invention. The integral post connector 9A can have a first end 91 and an opposite second end 92. The integral post connector body 90 is physically Power column
m U生地結合所體現的連接器UH (在圖1中顯不)的柱和連接器主 連接器主㈣包括柱部件93。= 構y,整體式枯 挺件93可對連接器提供 12 201036283 類似於柱40 (在圖3 φ駐 ,,. 顯不)的功能性的可操作性。例如, 整體式柱連接器主體9〇 介 ^牛可包括構造成以便與 介面埠20或匹配邊緣部 ^ 或形娘7〇 (在圖1中顯示)進 订物理接觸和/或電接觸 當來… 緣整個柱部件93應 虽开/成為使得包括雷介哲 …紅中心導體18 (在圖1令顯示) 的準備好的同軸電纜10的一 J °丨刀可軸向地通入第一端91 以及/或者穿過柱部件·93。if々k ^ 午%此外,柱部件93應當尺寸 Ο Ο 设置成使得柱部件93的一 1刀J在電介質16的周圍以及 在保護性外護套12和導電接 饮也"更皁14的下面插入準備好 的同轴電€10的端部中。另外,整體式柱連接器主體% 包括外部連接器主體表自94。外部連接器主體表面料可 對連接器100提供類似於連接器主體5〇(在圖4令顯示)的 功能性的可操作性。因此,外部連接H主體表面94應當是 半剛性且順從性的°外部連接器主體表面94可構造成以便 在被緊固件部件60 (在圖1中顯示)壓靠在同軸電纜1〇上 時,形成環形密封。另外,整體式柱連接器主體9〇可包括 内壁95。内壁95可構造為整體式柱連接器主體%的柱部 件93和外部連接器主體表面94之間的連續的表面,且内 壁95可為同軸電纜10的導電接地護罩14提供額外的接觸 點。另外’整體式柱連接器主體90可包括形成於第二端 92附近的外凹部。另外,整體式柱連接器主體9〇可包括 法蘭97 ’法蘭97位於第二端92附近,且操作性地構造成 以便接觸帶螺紋螺母30的内部唇緣36 (在圖2中顯示) 從而防止整體式柱連接器主體90相對於帶螺紋螺母3〇轴 13 201036283 向地運動。整體式柱連接器主體9〇可由諸如聚合物、柔性 金屬或有利於半剛性且順從性的外部連接器主體表面94 的複合材料的材料製成。另外,整體式柱連接器主體90可 由導電材料和非導電材料或它們的組合製成。整體式柱連 接器主體90的製造可包括缉造、押出、切割 '車削、鑽削、 注塑、噴塗、吹塑或可提供構件的高效生產的其他製造方 法0 繼續參照附圖’圖7描繪了根據本發明的實施例的、在 柱40的第二端44附近構造有匹配邊緣導電部件的連接 器1〇〇的-個實施例的截面側視圖。匹配邊緣導電部件7〇 應當由導電材料製成。這種材料可包括但不限於,導電聚 合物、塑膠、導電彈性體、彈性混合物、具有導電屬性的 複合材料、軟金屬、導電橡膠和/或類似物和/或它們的任何 可行的組合。匹配邊緣導電部件7〇可包括基本為旋渦狀環 面或環形結構,其適於裝配在帶螺纹螺# 3〇的内部帶螺紋 部分内’從而使得匹配邊緣導電部件7G可在操作性地附連 到連接器100的柱40上時,與柱40的匹配邊緣49接觸和 /或駐留在其附近。例如,匹配邊緣導電部件7〇的一個實 施例可為Ο形環。匹配邊緣導電部件7〇可有利於帶螺紋螺 母30和柱40之間的環形密封,從而對濕氣和/或環境污染 物的不需要的進入提供阻礙,此外,匹配邊緣導電部件 可通過使連續的電路在柱4〇和帶螺紋螺母3〇之間延伸來 有利於柱40和帶螺紋螺母3〇之間的電聯接。另外,匹配 邊緣導電部件70可通過使電連接在柱4〇和帶螺紋螺母3〇 14 201036283 之間延伸的來有利於連接器!⑽和附連的_ 中顯示)的接地。另外,沉 、’(在圖1 另外匹配邊緣導電部件70可啟動展 器,從而防止電磁雜訊在帶螺紋螺母3。和柱 動故衝 可將在柱40的第二端44附近的裝配好的 入 緣導電部件或〇形環7G提供給用戶,或相己邊 :配料導電0形^安裝到介面埠¥圖1中= ^使匹配邊緣導電◦形環7()插人就位。本領' θ 1將理解,可通過押出、塗覆、模塑、注射、切割、車削、 «成橡膠批量加玉、硫化 '混合 造 和/或它們的任何組合來卜… 铸…或類似物 供構料高效生產 ^配邊緣導電部件7G,以便提 進-步繼續參照附圖,圖8騎了根據本發明的、在連 80的遠V的第二端54附近構造有連接器主體導電部件 導雷立m α個實施例的截面側視圖。連接器主體The column UU (shown in Figure 1) and the connector main connector main (4) include the column member 93. = constitutive y, integral dry member 93 can be provided to the connector 12 201036283 Similar to the functional operability of the column 40 (shown in Figure 3 φ, ,.). For example, the unitary column connector body 9 can be configured to be in physical contact and/or electrical contact with the interface 埠 20 or the matching edge portion or the shape (shown in FIG. 1). The edge of the entire column member 93 should be opened/become such that a J° file of the prepared coaxial cable 10 including the Leisig... red center conductor 18 (shown in Figure 1) can be axially passed into the first end. 91 and / or through the column member · 93. In addition, the column member 93 should be dimensioned 使得 设置 such that a 1 J of the column member 93 is around the dielectric 16 and in the protective outer sheath 12 and the electrically conductive drinking also "more soap 14 Insert the end of the prepared coaxial power €10 below. In addition, the integral post connector body % includes an external connector body table 94. The external connector body surface material provides functional operability to the connector 100 similar to the connector body 5 (shown in Figure 4). Thus, the outer connection H body surface 94 should be semi-rigid and compliant. The outer connector body surface 94 can be configured such that when pressed against the coaxial cable 1 by the fastener component 60 (shown in Figure 1), Form an annular seal. Additionally, the unitary column connector body 9A can include an inner wall 95. The inner wall 95 can be configured as a continuous surface between the post member 93 of the integral post connector body % and the outer connector body surface 94, and the inner wall 95 can provide additional contact points for the conductive ground shield 14 of the coaxial cable 10. Additionally, the unitary post connector body 90 can include an outer recess formed adjacent the second end 92. Additionally, the unitary column connector body 9A can include a flange 97' flange 97 located adjacent the second end 92 and operatively configured to contact the inner lip 36 of the threaded nut 30 (shown in Figure 2) Thereby the integral post connector body 90 is prevented from moving relative to the threaded nut 3 〇 axis 13 201036283. The unitary post connector body 9 can be made of a material such as a polymer, a flexible metal, or a composite material that facilitates a semi-rigid and compliant outer connector body surface 94. Additionally, the unitary post connector body 90 can be made of a conductive material and a non-conductive material or a combination thereof. Fabrication of the monolithic column connector body 90 may include twisting, extruding, cutting 'turning, drilling, injection molding, spraying, blow molding, or other manufacturing methods that provide efficient production of components. 0 Continued with reference to Figure 7 A cross-sectional side view of an embodiment of a connector 1 匹配 that matches an edge conductive member is constructed adjacent the second end 44 of the post 40 in accordance with an embodiment of the present invention. The matching edge conductive member 7〇 should be made of a conductive material. Such materials may include, but are not limited to, conductive polymers, plastics, electrically conductive elastomers, elastomeric mixtures, composites having electrically conductive properties, soft metals, electrically conductive rubbers and/or the like and/or any feasible combination thereof. The mating edge conductive member 7A can comprise a substantially spiral toroidal or annular structure adapted to fit within the internally threaded portion of the threaded screw #3〇 such that the mating edge conductive member 7G can be operatively attached Upon engagement onto the post 40 of the connector 100, it contacts and/or resides adjacent the mating edge 49 of the post 40. For example, one embodiment of the matching edge conductive member 7A can be a Ο-shaped ring. Matching the edge conductive members 7〇 can facilitate an annular seal between the threaded nut 30 and the post 40, thereby providing an impediment to unwanted entry of moisture and/or environmental contaminants, and in addition, matching the edge conductive members can be made continuous The circuit extends between the post 4〇 and the threaded nut 3〇 to facilitate electrical coupling between the post 40 and the threaded nut 3〇. Alternatively, the mating edge conductive member 70 can facilitate the connector by extending the electrical connection between the post 4〇 and the threaded nut 3〇 14 201036283! Grounding of (10) and attached _ in ). In addition, sink, '(in Figure 1 additionally matching the edge conductive member 70 can activate the expander, thereby preventing electromagnetic noise in the threaded nut 3. And the column can be assembled near the second end 44 of the post 40 The incoming conductive member or the 〇-shaped ring 7G is provided to the user, or the side of the body: the conductive material of the ingredient is mounted to the interface 埠 ¥ Figure 1 ^ ^ The matching edge conductive ◦ ring 7 () is inserted into place. ' θ 1 will be understood by extrusion, coating, molding, injection, cutting, turning, «combination of rubber into jade, vulcanization' and/or any combination of them... casting... or the like Efficient production of the edge conductive member 7G for advancement with reference to the accompanying drawings, FIG. 8 rides a conductive member of the connector body constructed in the vicinity of the second end 54 of the distal V of the connector 80 in accordance with the present invention. A cross-sectional side view of the embodiment of the m. connector body
G 於,=件80應當由導電材料製成。這種材料可包括但不限 合材料、“屈 膠彈杜混合物、具有導電屬性的複 ," 、導電橡膠和/或類似物和/或它們的任何可 仃的組合。連接器主體導電部 面或環形妹谌七甘 了匕括基本為漩渦狀環 80 "σ υ環狀結構。例如連接器主體導電部件 的一個實施例可爲〇形# 器主體肩的f附近構造成以便與連接 楚_ 的環形凹部56和轴向地延伸自 限定和的邊緣且由▼螺紋螺母3〇的外部内壁39部分地 限制的腔體38協作,從而使得連接器主體導電 〇可在操作性地附連到連接器_的柱40上時,與連 15 201036283 接器主體50的環形凹部56和帶螺紋螺母3〇的外部内壁 39接觸以及/或駐留在其附近。連接器主體導電部件80可 有利於帶螺紋螺母3。和連接器主體5〇之間的環形密封, 從而對濕氣和/或環境污染物的不需要的進人提供阻礙。此 外,連接器主體導電部件8〇可通過使連續的電路在連接器 主體50和帶螺紋螺母% a 母30之間延伸來有利於連接器主體50 和帶螺紋螺母30之間的電聯接。另外,連接器主體導電部 牛可通過使電連接在連接器主體5〇和帶螺紋螺母⑼之 間延伸來有利於連接器_和附連的同軸電緵(在圖、中顯 不)的接地。另外,連接器主體導電部件⑽可啟動緩衝器, 從而防止電磁雜訊在帶螺紋螺母3〇和連接器主體之間 進入0相關領域的技#f人 抆術人員將涊可,連接器主體導電部件 8〇像匹配邊緣導電部件7卜樣可料押出、塗覆、模塑、 注射、切割、車削、合成橡膠批量加工、硫化、混合、衝 壓、鑄造和/或類似物和/或它們的任何組合來製成以便提 供構件的高效生產。 參照圖1和6-8 ’匹配邊緣導電部件或Ο形環70和連 接器主體導電部件或〇形環⑼中的任何_個或兩者都可與 整體式柱連接H主體9G結合起來使用。例如,匹配邊緣導 電部件70可插在帶螺紋螺母3〇内,從而使得匹配邊緣導 電部件70接觸整體式柱連接器主體9〇的匹配邊緣外,如 在連接器100的實施例中所實現的。作為另外的實例,連 :妾器主體導電部件8〇可設置成以便與連接器主體的凹 P 96和連接器1〇〇的實施例的可操作地附連的帶螺紋螺母 16 201036283 30的外部内壁39協作,並且與該凹部96和該外部内壁39 接觸本領域技術人員應當認可,連接器1 〇〇的實施例可 在單個連接器100中採用匹配邊緣導電部件7〇和連接器主 體導電部件8G兩者。因此,可獲得可歸因於匹配邊緣導電 部件70和連接器主體導電部件8()中的各個的各種優點。 ΟG, = member 80 should be made of a conductive material. Such materials may include, but are not limited to, materials, "binders, mixtures of conductive properties, ", conductive rubber and/or the like and/or any combination thereof. Connector body conductive portion The face or the ring-shaped sister-in-law includes a substantially swirling ring 80 "συ ring structure. For example, one embodiment of the connector body conductive member may be configured to be connected to the vicinity of the body of the body of the body The annular recess 56 of the central portion 56 and the cavity 38 extending axially from the defined edge and partially constrained by the outer inner wall 39 of the ▼ threaded nut 3〇, so that the connector body conductive cymbal can be operatively attached Upon attachment to the post 40 of the connector, the annular recess 56 of the connector body 50 and the outer inner wall 39 of the threaded nut 3A are in contact with and/or reside adjacent thereto. The connector body conductive member 80 can facilitate An annular seal between the threaded nut 3 and the connector body 5〇 provides an impediment to unwanted entry of moisture and/or environmental contaminants. Further, the connector body conductive member 8〇 can be made continuous The circuit extends between the connector body 50 and the threaded nut % a female 30 to facilitate electrical coupling between the connector body 50 and the threaded nut 30. Additionally, the connector body conductive portion can be electrically connected Extending between the body 5〇 and the threaded nut (9) to facilitate the grounding of the connector _ and the attached coaxial 緵 (not shown in the figure). In addition, the connector body conductive member (10) can activate the snubber Preventing electromagnetic noise from entering between the threaded nut 3〇 and the connector body 0. The skilled person will be able to use the connector body conductive member 8 to match the edge conductive member 7 , Coating, Molding, Injection, Cutting, Turning, Synthetic Rubber Batch Processing, Vulcanization, Mixing, Stamping, Casting, and/or the like and/or any combination thereof to provide efficient production of components. And any of the 6-8' matching edge conductive members or Ο-rings 70 and the connector body conductive members or the 〇-shaped rings (9) may be used in combination with the integral column-connecting H-body 9G. For example, The edge conductive member 70 can be inserted within the threaded nut 3〇 such that the mating edge conductive member 70 contacts the mating edge of the unitary post connector body 9〇, as implemented in the embodiment of the connector 100. As an additional For example, the outer body inner wall 39 of the threaded nut 16 201036283 30 that can be disposed to operatively attach to the recess P 96 of the connector body and the embodiment of the connector 1 连Cooperating, and in contact with the recess 96 and the outer inner wall 39, those skilled in the art will recognize that the embodiment of the connector 1 can employ a matching edge conductive member 7 and a connector body conductive member 8G in a single connector 100. By. Thus, various advantages attributable to matching each of the edge conductive member 70 and the connector body conductive member 8() can be obtained. Ο
G 現在參照圖1來描述-種用於通過連接器⑽使同轴電 纔1〇接地的方法,圖工描緣了連接器100的一個實施例的 截面側視圖。可準備同軸電缓1G來用於連接器⑽附連。 g軸電冑10的準備可包括移除保護性外護套12,以及拉 起導電接地護罩14,以曝露内部電介質16的一部分。所 體現的同轴電缓10的另外的準備可包括剝去電介質16, 以曝露令心導體i 8的一邱八π拍& Α刀可根據標準的帶寬通信技術 和°又備採用同轴電纔1〇沾夂搞廿 哭1ΛΛ % 1〇的各種其他準備性構造來與連接 器1 〇〇 —起使用。例如, X k樣的方式準備同轴電纜:G Referring now to Figure 1, a method for grounding coaxial power through a connector (10) is depicted in the cross-sectional side view of one embodiment of connector 100. A coaxial electric 1G can be prepared for connector (10) attachment. Preparation of the g-axis motor 10 can include removing the protective outer sheath 12 and pulling up the conductive ground shield 14 to expose a portion of the inner dielectric 16. An additional preparation of the coaxial electrical delay 10 can include stripping the dielectric 16 to expose a heart-shaped conductor of the core conductor i 8 and the boring tool can be coaxial according to standard bandwidth communication techniques. The electric 才 〇 〇 夂 夂 夂 ΛΛ ΛΛ ΛΛ 各种 各种 各种 各种 各种 各种 各种 各种 各种 各种 各种 各种 各种 各种 各种 各种 各种 各种 各种 各种 各种For example, the X k-like way to prepare a coaxial cable:
不拉起導電接地護罩14 I 一疋僅剝去導電接地護罩14的 —邛为,以曝露内部電介質16。 繼續參照圖1且另外春昭 # ^ 1ΠΛ …圖7,描述了 一種用於通過連 接器100使同軸電纜w 包括具^ * 的方法的另外的描繪。可提供 外,所—\ 第一端44的柱4〇的連接器1〇〇。此 外所^供的連接器可台括磕拉取 墙 連接器主體50和位於枝40的 第二端44附近的匹配邊緣導電 从、 邊緣導電部件70應當使得 。緊鄰地定位匹配 行物理接觸和電接觸 、電部件與柱40進 杜十η 觸。在一個實施例巾,匹酉己邊緣導電部 件或〇形環7G可插Λ帶螺 配邊緣導電』 节川中,直到其抵靠柱40 17 201036283 的匹配邊緣49為止。但是’連接器1〇〇的其他實施例可使 匹配邊緣導電部件70位於柱40的第二端料處或者非常接 近該第二4 44’而無需將匹配邊緣導電部件7〇插入帶螺 紋螺母30中。 可通過將同軸電纔10不動地附連到連接器1〇〇上來進 -步獲得接地。可以以這樣的方式實現附連:㈣轴電欖 !0插入連接器100中,從而使得在導電接地勒套或護罩Μ 下面以及在電介質16周圍插入柱4〇的第一端42。當柱4〇 由導電材料構成時’可在同軸電纔1〇的接收到的導電接地 護罩14和插人的柱4G之間實現接地連接。地線可從第一 端42(在此處與導電接地勒套14進行最初的物理接觸和電 接觸)延伸通過柱40到達位於柱4G的第二端料處的匹配 邊緣49。-旦接收到同軸電規1〇,就以以這樣的方式使同 軸電纜10可不動地固定就位:將連接器主體5〇的外表面 57徑向地壓靠在同軸電境1()上,從而使得電㈣定就位 且密封該連接。可通過緊固件部件6〇造成的物理變形來實 現連接器主體50的徑向壓擠,緊固件部件6()可壓擠連接 器主體50,且將連接器主體5〇鎖緊就位。此外,當連接 器主體50由具有彈性限制的材料製成時,可通過夾緊工具 或可用來使連接器主體5G纟同轴電纖周圍永久地變形到 不動地固定的位置上的其他類似的機構來實現壓擠。 作為額外的步驟,可通過將連接器1〇〇推進到介面埠 2〇上直到介面埠的表面與匹配邊緣導電部件7〇匹配來實 通過連接器100使同軸電纜1〇接地。因為匹配邊緣導電 18 201036283 料7G定位成使其與柱40進行物理接觸和電接觸,所以 地線可從柱4〇延伸通過匹配邊緣導電部件70,然後通過 匹配的介面琿2G。因此,介面蟫2()應當與匹配邊緣導電 4件70進行物理接觸和電接觸。匹配邊緣導電部件7〇在 物理塵靠在介面琿20上時可起導電密封件的作用。連接器 100在介面埠20上的推進可包括旋上連接器1〇〇的附連的 帶螺紋螺母30,直到介面埠2〇的表面抵靠匹配邊緣導電 ◎部件70’以及推進的連接器1〇〇的軸向行進受到該抵靠的 阻礙為止。但是’應當認可’連接器1〇〇的實施例可在沒 有旋動帶螺紋螺母30以及沒有包括帶螺紋螺母3〇的情況 下推進到”面埠20上。一旦推進到行進被匹配邊緣導電部 件7〇與介面埠20的導電密封觸頭停止,可對連接器ι〇〇 進行遮罩,以防止不需要的電磁干擾的進入。此外,可通 過連接器100的各實施例的物理推進來實現接地,其中, 匹配邊緣導電部件70有利於將連接器100和附連的同軸電 Ο 規10電連接到介面埠20上。 現在參照圖1來描述一種用於電聯接連接器1〇〇和同軸 電纜1〇的方法。可準備同轴電纜10,以便於緊固到連接 器100上。同軸電缆10的準備可包括移除保護性外護套 12,以及拉起導電接地護罩14,以曝露内部電介質16的 —部分。所體現的同軸電纜10的另外的準備可包括剝去電 介質’以曝露中心導體18的一部分。 繼續參照圖1且另外參照圖8,描述了一種用於電聯接 同轴電纜10和連接器1〇〇的方法的另外的描繪。可提供包 19 201036283 括連接器主體50和帶螺紋螺母30的連接器丨〇〇。此外, 所提供的連接器可包括連接器主體導電部件或密封件8〇。 連接器主體導電部件或密封件80應當構造成和定位成使 得連接器主體導電部件8〇電聯接連接器主體5〇和帶螺紋 螺母30,以及物理密封連接器主體5〇和帶螺紋螺母。 在一個實施例中,連接器主體導電部件或密封件8〇可位於 連接器主體50的第二端54附近。連接器主體導電部件8〇 可駐留在帶螺紋螺母3〇的腔體38 β,從而使得連接器主 體導電部件8G在附連好時位於連接器主體5()和帶螺紋螺 母3〇之間。另外’特別地體現的連接器主體導電部件8〇 可與帶螺紋螺母30的外部内壁39進行物理接觸,以及與 該外相壁39進行密封。此外,連接器主體導電部件 可物理接觸連接器主體50的表面,且密封抵靠該表面。因 此’當連接器主體50由導電材料構成且帶螺紋螺母30由 =:構造時,連接器主體導電部件8。可電聯接連接器 可冑紋螺# 3〇。連接器100的各種其他實施例 可、、σ連接器主體導雷邮杜s Λ 4 4 導電'^件80 ’以便電聯接同軸電纜10 和連接器100。例如,諾加n r s 此叮 諸如ο形環80的連接器主體導電邻 件可位於帶螺紋螺母 通导冤邛 接器主體導電0形"〇 面上的凹部中,從而使得連 面之間,從而有: 螺母和連接器主體50的内表 於物理後、封和電聯接。 可通過將同輛電纜10 -步實現電聯接。同轴電二附連到連接器1〇〇上來進 υ袖電規10可插入連接 從而使得導電接地護 運接益主體50中, 飞罩14與連接H主體5G進行物理接觸 20 201036283 和電接觸’且導電接地護罩14由連接器主體5〇接收。在 連接器100的一個實施例巾’拉起的導電接地護罩14可在 插入後被推靠在連接器主體50的内表面上。一旦接收到同 軸電纜10 ’或者將同軸電規10可操作地插入連接器100 中’就可通過這樣的方式使同軸電纜10安全地設置就位: 抵靠同軸電纜10壓緊連接器主體50的外表面57且使外表 面57變形,從而使電纜固定就位,且密封該連接。可通過 〇緊固件部件60造成的物理壓擠來實現連接器主體5〇的壓 緊和變形’其中’緊固件部件6G使連接器主體5()限制和 鎖緊就位。此外,當連接器主體5〇由具有彈性限制的材料 製成時,可通過夾緊工具或可用來使連接器主體5〇在同軸 電纜10周圍永久地變形到不動地固定的位置上的其他類 似的機構來實現壓緊和變形。 可通過完善電磁護罩(通過將帶螺紋螺母30旋到導電 介面埠20上)來實現電聯接同軸電纜1〇和連接器1〇〇的另 Ο 外的方法步驟。當連接器主體50和帶螺紋螺母3〇由導電 材料製成時,可在導電介面埠20接觸帶螺紋螺母3〇時形 成電路,因為連接器主體導電部件80使電路延伸’且有利 於帶螺紋螺母30和連接器主體50之間的電接觸。此外, 所實現的電路與連接器主體50和帶螺紋螺母3〇(當不動地 附連到連接器100上時,連接器主體5〇和帶螺紋螺母3〇 以阻礙物狀的方式設置在同軸電纜1〇周圍)執行的物理遮 罩結合起來起完善電磁遮罩的作用’而連接器主體導電部 件80也操作成以便物理遮罩電磁雜訊。因此,當旋到介面 21 201036283 埠20上時,完成的電聯接提供防止環境雜訊不合需要地進 入連接器1〇〇和同軸電纜10中的電磁保護或emi遮罩。 雖然已經結合以上概述的具體實施例對本發明進行了 描述多備選方案、修改和變化對本領域技:人 員將是顯而易見的。因以上闡述的本發明的優選實施 例意圖為說明性的而非限制性的。可在不偏離申請專利範 圍中限定的本發明的精神和範圍的情況下作出各種改變: 【圖式簡單說明】 將參?列附圖來對本發明的—些實施例進行詳細的 描述,其+,相同名稱指示相同部件,其中: 圖1描繪了根據本發明的递蛀哭# ^ ^ 側視圖; ^㈣連接㈣—個實施例的截面 個實施例的 圖2描繪了根據本發明的帶螺紋螺母的 截面铡視圖; 圖 圖3描繪了根據本發 明的柱的一個實施例的截面側視 個實施例的 描緣了根據本發明的連接器主體的 截面側視圖; 圖5描繪了根據本發 面側視圖; 明的緊固件部件的—個實施例截 體 圖6描緣了根據本發明的、具有整體 的-個實施例的截面側視圖;的連接器主 圖7描緣了根據本發明的 幻在柱的第一端附近構造有導 22 201036283 電部件的連接器的一個實施例的截面側視圖; 圖8描繪了根據本發明的、在連接器主體的第二端附近 構造有導電部件的連接器的一個實施例截面側視圖。 【主要元件符號說明】 10··同軸電繞;12·.保護性外護套;14護罩; b..電介質;18..中心 導體,20.·介面埠;22..導電插座; ^ 24..帶螺紋外表面;26、yi a Ο ) 衣W ’ 26、49、99..匹配邊緣; 30·.帶螺紋螺母;4〇杠 ..柱,50、90..連接器主體; 60.. 緊固件部件;7〇 8〇·. 〇形環;100..連接器; 2 、 42 、 52 、 62 、 91 笛 h .,第一端; 34 、 Μ 、 54 、 64 、 9 38.. 腔體;39..外部内:二端;Μ5..内部唇緣; 56.. 外部環形凹部;57 6、97.·法蘭;48..表面特徵; 59内| I *.外表面;58·.環形棘爪; ^表面特徵;63 〇 66..斜表面.£ 4環形突起;65..中心通路 V# 表面,67、68_j , 94 + 脸孔;69..表面特徵;93虹如 94·.主體表面;95_.内 m桎部件; 雙,96..凹部 23The conductive ground shield 14 I is not pulled up. Only the conductive ground shield 14 is stripped of the conductive ground shield 14 to expose the internal dielectric 16. With continued reference to Fig. 1 and in addition to Fig. 7, a further depiction of a method for including coaxial cable w with connector 100 by connector 100 is described. The connector 1〇〇 of the column 4〇 of the first end 44 can be provided. In addition, the connector may be provided with a mating wall connector body 50 and a mating edge conductive member located adjacent the second end 44 of the branch 40. The edge conductive member 70 should. Positioning in close proximity to the line physical contact and electrical contact, electrical components and column 40 into the touch. In one embodiment, the edge-conducting member or the beak 7G can be inserted into the edge-conducting section until it abuts the mating edge 49 of the post 40 17 201036283. However, other embodiments of the connector 1 can be such that the mating edge conductive member 70 is located at or very close to the second end of the post 40 without the need to insert the mating edge conductive member 7 into the threaded nut 30. in. Grounding can be obtained step by step by attaching the coaxial power to the connector 1〇〇. The attachment can be effected in such a way that (4) the shaft is inserted into the connector 100 such that the first end 42 of the post 4〇 is inserted under the conductive grounding sleeve or shroud 以及 and around the dielectric 16. When the post 4〇 is made of a conductive material, a ground connection can be achieved between the received conductive ground shield 14 and the inserted post 4G. The ground wire can extend from the first end 42 (here in initial physical and electrical contact with the conductive grounding jacket 14) through the post 40 to the mating edge 49 at the second end of the post 4G. Once the coaxial electrical gauge 1 is received, the coaxial cable 10 can be fixedly held in place in such a manner that the outer surface 57 of the connector body 5〇 is pressed radially against the coaxial environment 1() So that the electricity (4) is in place and the connection is sealed. Radial compression of the connector body 50 can be achieved by physical deformation caused by the fastener component 6(R), which can squeeze the connector body 50 and lock the connector body 5b in place. In addition, when the connector body 50 is made of a material having elastic confinement, it can be used by a clamping tool or other similar type that can be used to permanently deform the connector body 5G around the coaxial fiber to a fixedly fixed position. The agency to achieve crushing. As an additional step, the coaxial cable 1 can be grounded through the connector 100 by pushing the connector 1 to the interface 埠 2 直到 until the surface of the interface 与 matches the matching edge conductive member 7 。. Because the mating edge conductor 18 201036283 is positioned such that it is in physical and electrical contact with the post 40, the ground wire can extend from the post 4〇 through the mating edge conductive member 70 and then through the mating interface 珲 2G. Therefore, the interface 蟫2() should be in physical and electrical contact with the matching edge conductive member 70. The mating edge conductive member 7 can function as a conductive seal when the physical dust abuts against the interface bore 20. The advancement of the connector 100 on the interface cassette 20 can include screwing the attached threaded nut 30 of the connector 1 , until the surface of the interface 埠 2 抵 abuts the mating edge conductive ◎ member 70 ′ and the advancing connector 1 The axial travel of the weir is obstructed by this abutment. However, the embodiment of the 'should be approved' connector 1 can be advanced to the "face" 20 without the threaded nut 30 and without the threaded nut 3 。. Once advanced, the matched edge conductive member is advanced. The conductive sealing contacts of the interface and the interface 20 are stopped, and the connector ι can be shielded to prevent the entry of unwanted electromagnetic interference. Furthermore, the physical advancement of the embodiments of the connector 100 can be realized. Grounding, wherein the mating edge conductive member 70 facilitates electrical connection of the connector 100 and the attached coaxial electrical gauge 10 to the interface cassette 20. An electrical coupling connector 1 and coaxial will now be described with reference to FIG. A method of cable 1 . A coaxial cable 10 can be prepared to facilitate fastening to the connector 100. Preparation of the coaxial cable 10 can include removing the protective outer sheath 12 and pulling up the conductive ground shield 14 to Exposing the portion of the internal dielectric 16. The additional preparation of the illustrated coaxial cable 10 can include stripping the dielectric 'to expose a portion of the center conductor 18. As further described with reference to Figure 1 and with additional reference to Figure 8, A further depiction of a method for electrically coupling a coaxial cable 10 and a connector 1. A package 19 201036283 can be provided with a connector body 50 and a connector 带 with a threaded nut 30. In addition, the connection provided The connector may include a connector body conductive member or seal 8. The connector body conductive member or seal 80 should be configured and positioned such that the connector body conductive member 8 is electrically coupled to the connector body 5 and the threaded nut 30, And physically sealing the connector body 5 and the threaded nut. In one embodiment, the connector body conductive member or seal 8 can be located adjacent the second end 54 of the connector body 50. The connector body conductive member 8 Residing in the cavity 38β with the threaded nut 3〇, so that the connector body conductive part 8G is located between the connector body 5() and the threaded nut 3〇 when attached. In addition, the 'specially embodied connector The body conductive member 8 is in physical contact with the outer inner wall 39 of the threaded nut 30 and is sealed with the outer phase wall 39. Further, the connector body conductive member is in physical contact The surface of the connector body 50 is sealed against the surface. Thus, 'when the connector body 50 is constructed of a conductive material and the threaded nut 30 is constructed of =:, the connector body conductive member 8. The electrically connectable connector is 胄Various other embodiments of the connector 100 can be used to electrically connect the coaxial cable 10 and the connector 100 to the sigma connector body. For example, Noga Nrs The connector body conductive member such as the Ø-ring 80 can be located in the recess of the conductive nut-shaped splicer body conductive 0-shaped " 〇 ,, so that between the joints, thus: And the inner surface of the connector body 50 is physically, sealed, and electrically coupled. The electrical connection can be achieved by connecting the same cable 10-step. The coaxial electric 2 is attached to the connector 1 to be inserted into the connection so that the conductive cover escorts the main body 50, the fly hood 14 is in physical contact with the connection H main body 5G 20 201036283 and electrical contact 'And the conductive ground shield 14 is received by the connector body 5'. The electrically conductive ground shield 14 pulled up in one embodiment of the connector 100 can be pushed against the inner surface of the connector body 50 after insertion. Once the coaxial cable 10' is received or the coaxial electrical gauge 10 is operatively inserted into the connector 100, the coaxial cable 10 can be securely placed in position in such a manner that the connector body 50 is pressed against the coaxial cable 10. The outer surface 57 deforms the outer surface 57 to secure the cable in place and seal the connection. The crimping and deformation of the connector body 5〇 can be achieved by physical compression caused by the 〇 fastener component 60. The fastener component 6G limits and locks the connector body 5() in place. Further, when the connector body 5 is made of a material having elastic restriction, it can be used by a clamping tool or other similarity that can be used to permanently deform the connector body 5 around the coaxial cable 10 to a fixed position. The mechanism to achieve compression and deformation. The method steps of electrically connecting the coaxial cable 1 〇 and the connector 1 实现 can be accomplished by perfecting the electromagnetic shield (by screwing the threaded nut 30 onto the conductive interface 埠 20). When the connector body 50 and the threaded nut 3 are made of a conductive material, an electrical circuit can be formed when the conductive interface 20 contacts the threaded nut 3〇 because the connector body conductive member 80 extends the circuit and facilitates threading Electrical contact between the nut 30 and the connector body 50. In addition, the implemented circuit is connected to the connector body 50 and the threaded nut 3 (when the connector body 100 is fixedly attached to the connector 100, the connector body 5〇 and the threaded nut 3〇 are disposed coaxially in a manner to obstruct the object The physical masks performed around the cable 1 ) combine to function to complete the electromagnetic mask ' while the connector body conductive member 80 is also operative to physically mask electromagnetic noise. Thus, when screwed onto the interface 21 201036283 埠 20, the completed electrical connection provides an electromagnetic protection or emi shield that prevents environmental noise from entering the connector 1 and the coaxial cable 10 undesirably. While the present invention has been described in terms of the specific embodiments of the present invention, it will be apparent to those skilled in the art. The preferred embodiments of the invention set forth above are intended to be illustrative and not restrictive. Various changes can be made without departing from the spirit and scope of the invention as defined in the appended claims: The embodiments of the present invention are described in detail with reference to the accompanying drawings, wherein the same reference numerals refer to the same parts, in which: FIG. 1 depicts a cross-section of the # 蛀 ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ Figure 2 of a cross-sectional embodiment of an embodiment depicts a cross-sectional view of a threaded nut in accordance with the present invention; Figure 3 depicts a cross-sectional side view of an embodiment of a post in accordance with the present invention. Figure 5 depicts a side view of a connector body according to the present invention; Cross-sectional side view of an example; connector main Figure 7 depicts a cross-sectional side view of one embodiment of a connector constructed with an electrical component of the guide 22 201036283 near the first end of the magical column of the present invention; A cross-sectional side view of one embodiment of a connector constructed with a conductive member adjacent the second end of the connector body in accordance with the present invention. [Main component symbol description] 10··coaxial electric winding; 12·. protective outer sheath; 14 shield; b.. dielectric; 18. center conductor, 20. interface 埠; 22. conductive socket; 24. threaded outer surface; 26, yi a Ο) clothing W ' 26, 49, 99.. matching edge; 30. with threaded nut; 4 crowbar: column, 50, 90.. connector body; 60.. Fastener parts; 7〇8〇·. 〇-shaped ring; 100.. connector; 2, 42, 52, 62, 91 flute h., first end; 34, Μ, 54, 64, 9 38 .. cavity; 39.. inside: two ends; Μ5.. internal lip; 56.. outer annular recess; 57 6, 97. · flange; 48.. surface features; 59 inside | I *. Surface; 58·. annular pawl; ^ surface feature; 63 〇 66.. oblique surface. £ 4 annular protrusion; 65.. central passage V# surface, 67, 68_j, 94 + face; 69.. surface features; 93虹如94·. body surface; 95_. inner m桎 part; double, 96.. recess 23