TW201232970A - Connector assembly for corrugated coaxial cable - Google Patents

Abstract

A compression connector for connecting to a coaxial cable is provided. The compression connector is provided in a first state for fitting onto an end of the cable, after which it may be compressed to a second state, thereby joining the connector to the cable to make a coaxial cable assembly. The connector is comprised of a tubular connector body and a compression cap structured to slidably engage the second end of the tubular body. The connector is further internally configured with means for collapsing the first exposed corrugation of the outer conductor of the coaxial cable in the axial direction when the compression cap is compressed onto the tubular connector body.

Description

201232970 、發明說明： 【發明所屬之技術領域】 本發明揭示關於同轴電纜連接器之領域，更具體而言 係一種配合具有一中央導體之同軸電纜使用的一接觸連接 器組合件。 【先前技術】 : 波狀同軸電纜為做為射頻信號之傳輸線的電氣電纜。 同轴電纟覽由一可撓性絕緣層環繞的一内部導體所構成，該 可撓性絕緣層依次由做為一導電遮蔽的一波狀外部導體環 繞。一外部保護性護套或夾套環繞該波狀外部導體。 在一操作狀態下的一波狀同軸電纜通常具有一連接器 固定在該電纜的任一末端上。該同轴電纜與該等個別連k 器之間·電氣連接的品質隶為重要。事實上’§亥電氣連接之 ·. · 品質能夠正面或負面地影響所得到的電氣信號以及該連接 器的效能。負面地影響該電纜與該連接器之間的電氣信號 之一個問題是該連接器之尺寸與該電纜尺寸的關係。目前 特定尺寸的連接器必須針對於它們將要連接的電纜之每種 尺寸進行選擇。尺寸不適當的連接器或者甚至針對特定尺 寸的電纜之選擇木適當的連接器將會負面地影響該電纜與 該連接器之間的電氣信號，而導致極低的效能。再者，即 使當對於該指定的電纜選擇了適當尺寸的連接器，在所製 造的電纜之實際尺寸中的變化會造成該連接器不適當地安 裝在該電纜上。不適當的安裝會造成該壓縮連接器與該電 201232970 纜之間不良的電氣與機械性之連接。 因此，在波狀同軸電纜的領域中係需要一種通用連接 器以處理該等前述問題。 【發明内容】 本發明揭示關於同軸電纜連接器之領域，更具體而— 系種配&具有+央導體之同轴電繞使用的一接觸連接 斋組合件。 該同軸電繞連接器的一種態樣包括一同軸電缓，其呈 有-内部導體、一暴露的外部波狀導體、安置在該内部導 體與該外部導體m㈣及設置在該波狀外部導體 之上的-保護護套；—連接器本體，其包含—第一端、一 第二端及定義在該本體之第—端與第二端之間的一内部 -壓縮帽蓋，其包含—第—端、—第二端及定義在該 巾目蓋之第與第二端之間的—内部孔，該壓縮帽蓋的第 Z之結構㈣合該連接器本體的第二端；___夾鉗環，其 第鳊、一第二端及定義在該夾鉗環之第一端與第 一端之間用於允許該同軸電纜軸向地穿過其中的一内部 孔°亥夾鉗銥的結構係功能性地嚙合該壓縮帽蓋的内部 孔，一=钳’其包含一第一端、一第二端及定義在該夾紐 之第端與第二端之間用於允許該同軸㈣軸向穿過其中 2内。p孔及在該内部孔上的一環狀凹部，該環狀凹部在 f構上嚙合該同軸電纜的外部波狀導體，該夾鉗環的第一 、、、°構係功此性地嚙合該夾钳的第；端；及一壓縮表 201232970 甜的第2在f連接器本體之内’其中該壓縮表面與該夾 近的妝π之結構為在該夾钳軸向地前進到該壓縮表面附 近的狀况之下在其間摺皺該同軸電縵之外部導體的波形。 該同軸電境連接器的另一種態樣包括該 至該連接器本體，並自料接哭太心⑽錄面[口 目忒連接裔本體的内部孔徑向地向内 :出牛=縮表面進-步包含-傾斜表面，且其中該夹钳 /ι3 -傾斜表面，該夾鉗的傾斜表面配知 该壓縮表面的傾斜表面；其中在該夾_向該壓 進的狀況之下’該夾钳的傾斜表面與縮表面的 傾斜表面在其__魏之外料體的波形。 該同轴電繞連接器的另一種態樣包括一凹槽，#向 地安置在該傾斜表面的外側，且其t該夾鉗的第—端進一 步包含-突出部，其徑向地安置在該爽鉗的傾斜表面之外 側，並自該夾钳的第一端軸向地延伸，其中該凹槽與該突 出部在結構上配置成在該㈣的騎表面與該壓縮表面的 傾斜表面在其間指鈹該外部導體的波形之狀況下，功能性 地在其間嚙合該外部導體的波形之一部分。 該同轴電規連接器的另一種態樣包括一壓縮環，其具 有一第一端、一第二端及定義在該壓縮環之第一端與第二 端之間的-内部孔，其中▲壓縮環在結構上功能性地喃合 該連接器本體的内部孔，且其中該壓縮環的第二端做為該 壓縮表面。 … 該同軸電纜連接器的另一種態樣包括具有一環狀壓痕 的壓縮壤之第二端’其中在該失鉗朝向該壓縮表面轴向地 201232970 前進的狀況之下，該環狀壓痕口齒合該電繞的外部導體之波 形的-前緣，且其中該波形的一部分在該環狀壓痕之内變 形’=該波形的其餘部分皺縮在·縣面與該夾钳之間。 ☆ «亥同軸電鐵連接器的另一種態樣包括該壓縮環的第二 :二其包括i斜表面與—㈣傾斜表面，其結構上 成在該壓縮環的第二端中报占 V別r 的笛形成一V型壓痕，且其中該夾鉗 =广包3一外部傾斜緣與-内部傾斜緣，該外部傾斜 緣與該内部傾斜緣配置成在該夹鉗的第-端中形成一 v :可配接在該壓縮表面的v型壓痕之内，使得在該夹 钳朝向該屋縮表面軸向地前進的狀況之下，該電_一外 部導體之波形皺縮在該壓縮表面的V型壓痕與該夾钳之第 一端上的V型之間。 制軸魏連接器的另—種態樣包括由複數個徑向位 ，：二ί的夹鉗，每一扇區的結構係在該同軸電纜穿過 錢鉗的狀況之下獨域徑向位移；及—彈性構件，盆安 =該夾钳的-外部表面上，該彈性構件配置成於該等個 別：區的徑向位移期間相對於彼此而維持該 相對位置。 j 該】==接器組合件的另一種態樣包括一可變形 望/…有第—I—第二端及絲在該第-端輿該， :::之間的：内部孔，該可變形墊片安置在該夾鉗的第 二連接盗本體的第二端之間’且其結構上可滑 嚙合該壓縮帽蓋的内部孔。 該同轴電繞連接器的另—種態樣包括該可變形墊片， 201232970 其結構上在一第一力量之下對抗該夾鉗的轴向前進，及在 大於該第一力量的一第二力量之下變形，以允許該来鉗軸 向地前進穿過該變形的墊片。 該同軸電纜連接器的另一種態樣包括一絕緣體，其具 有一第一端、一第二端及定義在該絕緣體的第一端與第兰 端之間的一内部孔，該絕緣體安置在該連接器本體的内部 孔之内，且結構上可滑動地嚙合該連接器本 及-導電鎖，其具有-第—端…第二端及在該==中 央區域中自該銷徑向地向外延伸的一凸緣，其菩 在該絕緣體的内部孔，並可滑動地4合該絕緣 孔1该凸緣在結構上嚙合該絕緣體的第二端，且該銷的第 一端在結構上功能性地嚙合該同轴電纜的一中央導體。 ▲該同軸電繞連接器的另—種態樣包括該壓縮帽蓋，“ 功，性地响合該夾鉗環R軸向地前進該失崎，該夹甜環 功能性地喷合該夾钳以朝向該壓縮表面軸向地前進該夾 义 2該夾钳功能性地替該同軸魏以朝向該導電銷轴向 則進該同軸電纜，該連接器本體功能性地嚙合該絕緣體 =由向地前進該絕緣體，該絕緣體功能性地哺合該導電銷 料η由電繞軸向地前進該導電銷，其中該壓縮帽蓋 部導μ =朝向彼此的軸向前進造成簡軸電纔之外 錯n 在該夾鉗與該壓縮表面之間，且該導電 端功能性地喷合該同軸電制十央導體。 其且魏連接器的另—種態樣包括—第—絕緣體， 端、一第二端、自該第二端軸向延伸的一管 201232970 苐一絕緣體，其具有_第 内該第—絕緣體之第—端與第二端之間的-^孔，該第一絕緣體安置在該連接器本體的内部孔之 ，且結構上可滑動㈣合該連接器本體的内部孔，且复 /亥^-絕緣體之第二端功能性㈣合難縮環的第二 端 第一端及定義在 該第二絕緣體之第-端與第二端之間的—㈣孔，該第二 絕緣體安置在魏接n本體的㈣狀内，且結構上可^ 動^合該連接ϋ本體的内部孔；及具有—第—端與一第 -端=-導電銷，該第二端在其Μ義—軸向管座，其令 =安置在該第二絕緣體的内部孔之内，並可滑動地喷 該第二絕緣體的内部孔，且其中該銷的第二端之結構上功 -性地嚙合該第—導體之第一端，且該軸向管座之結構上 功能性地嚙合該同軸電纜的一中央導體。 該同軸電變連接器的另一種態樣包括該第一絕緣體的 第=端’其包括自該第二端軸向延伸的―管狀心軸，其中 該皆狀心轴在結構上可滑動地喷合該壓縮環的通孔 Ζ縮置在該第—絕緣體的管狀#，且功能性地喝 δ該第一絕緣體的管狀心軸。 /同轴_連接器的另—種態樣包括具有—内部孔的 可憂开乂構件’且被安置在該壓縮帽蓋的第二端與該夹钮環 的第二端之間的壓縮帽蓋之内。 該同轴電繞連接器的另一種態樣包括在該連接器本體 的内邛孔上的一肩部、在該壓縮帽蓋的内部孔上的一肩 邛、在該夾鉗環上的一凸緣及在該壓縮帽蓋的第二端上的 201232970 一在、、’σ構上功能性地嚙合該可變形構件。 連接電纜連接器的另—種態樣包括在該1 縮帽蓋與 之—者朝向另—者軸向地前進之狀況下，該屢 地4合該夾鉗環以軸㈣料該夾，该 trr力能鋪私料射勤_縣面㈣地前遂 二：“該夾鉗功旎性地嚙合該同軸電纜以朝向該導電· α則進該同軸電纜’該連接器本體功能性地嚙合該▲ 厂邑緣體以轴向地前進該第二絕緣體，該第二絕緣體功能 嚙合該導電銷以朝向該同軸電纜軸向地前進該導電 2該導電銷功能性地鳴合該第-絕緣體以軸向地前進該 、、’邑緣體’ §亥第-絕緣體功能性地喃合該壓縮環以朝向 該夾钳軸向地前進該壓縮環，其中該壓縮帽蓋與該連接号 彼此的前進造成讀同轴電緵之外部導體的波形敏 j该夾鋤與該壓縮表面之間，該導電銷的管座功能性地 ==同軸魏的中央導體’且該第一絕緣體轴向地位移 該導電銷穿過該第二絕緣體的内部孔，使得該導電銷的脊 座功能性地喃合該第二絕緣體的内部孔，且該第二絕緣體 的第二端功能性地嚙合該第一絕緣體的第一端。 另一種態樣概略地關於壓縮連接器，該連接器包含一 連接器未體，其包含一第一踹、—结 ,^ δ M s ^ ^ t端友定義在該本體 的第-端與第二端之間的一内部孔；—壓縮構件，A包含 一第一端、一第二端及定義在該第—端與該第二端之間的 一内部孔，該壓縮構件的第-端在結構上喃合該連接器本 體的第二端；一夾鉗’其包含一第—端、—第二端及定義 201232970 在該夾鉗的第一端與第二端之間的一内部孔 促進一 _電纜的螺旋式插人；及設置在該連接 =壓縮表面’其中該連接器本體與該壓縮構件中—者 :另一者的軸向前進促進該夾鉗被軸向地前進到該壓 附近二使得該夹鉗與該壓縮表面在彼此之間傳遞力量广 另一種態樣概略地關於連接器，其包含一 士 第一端與一第二端;一壓縮構件配置成二 =縮在該連接器本體上卜夾鉗設置在該連接器本2 ’該夾鉗配置成促進-同軸電社螺旋式的嗤合；及至 乂兩個配合表面’該等配合表面配置成當該連接器移動到 一關閉位置當中時在其間皺縮該同軸電規的一外部導體之 一或多個波形。 另一種態樣概略地關於一種連接一壓縮連接器至一同 軸電纜的方法，該方法包含：提供一連接器本體、一壓縮 構件、一夾鉗及至少兩個配合表面，該連接器本體具有'一 第一端與一第二端，該壓縮構件配置成軸向地被壓縮到該 連接器本體之上，該夾鉗配置在該連接器本體之内，且該 夾鉗配置成促進一同軸電纜之螺旋式的嚙合，及該等配合 表面配置成當該連接器移動到一關閉位置上時在其間皺縮 該同軸電纜岛一外部導體之一或多個波形，螺棱式地前進 一同軸電纜到該連接器本體當中，其中該同軸電纜的一螺 旋波形外部導體螺旋式地接合該夹钳的一内部表面之一螺 旋槽部分，且軸向地壓縮該壓縮構件在該連接器本體之上 以移動該連接器至一關閉位置。 12 201232970 抑另-種態樣概略地關於同轴㈣連接器，其包人 接斋本體，其配置成收納一囬 3 連 操作地固定於該連接器本體；―:’見’:壓縮構件’其可 同軸電纜螺旋式嚙合；及—外/ ::配置成促進與該 少-部分以密封該連接器對抗環境元素。 ㈣中至 人.另—種態樣概略地關於-壓縮連接器，該連接4 :遠:,器本體二Ϊ具有-第-端、-第二端及定義: 二ΐ本體的^端與第二端之間的—内部孔；—壓缩 :件端其具有H、1二端及定義在該第^ 3向•動;-崎面，其轴向地位於該連接= :第—化與該壓縮構件的第二端之間；及-失鉗，其且右 第一端、—第二端及定義在該夹钳的第-端與第二端士 二的内部孔’其中該夹鉗結構上响合— 導 體；其中該炎钳至少部分由一展延性材料槿/境的導 本體與該壓縮構件之—者朝向另—者的軸向前進促 雙的：轴向地前進到該壓縮表面附近’使得當該同軸電 、體之-非均勾部分被壓縮在該夾钳與該壓縮表面之 二Ξ夾鉗的至少一部分符合於該同軸電纜的導體之非均 坠蝻部分的一可變軸向厚度而可展延性地變形。， 另一種態樣概略地關於一連接器，其包含：—連接器 5體’其具有—第—端與—第二端；一壓縮構件，其相對 本本體可軸向移動；—夾钳，其配置在該連接器 的第一端與該壓縮構件的第二端之間，該失鉗配置成 13 201232970 ==電麗的一導體之嗔合；及至少兩個配合表面， -己口 面配置成當该連接器本體與該壓縮構件之—者 D另者移動時’在其間壓縮該同軸電缓的導體之 向不規則部分，其甲該至少兩個配合結構之一者可展延， 並符合於被壓縮在其間的同軸電鐵之導體的部分之轴向不 規則性。 另一種態樣概略地關於一種連接一連接器至一同轴電 麗的方法’該方法包含··提供—連接器本體、—I縮構件、 一夾鉗及至少兩個配合表面，該連接器本體具有一第—端 與一第二端，該壓縮構件’其可相對於該連接器本體轴向 地移動m在該連接器本體的第_端與該壓縮構件的 第二端之間，該夾钳，其配置成促進該同軸電繞的一導體 之喷合’其中該等至少兩個配合表面之一者可展延；前進 同軸電繞到該連接器當中，其中該同軸電親的導體喃合 4夾鉗，且相對於連接器本體軸向地壓縮該壓縮構件，藉 此壓縮該同軸電規的導體在該等至少兩個配合表面之間7 其方式可使得可變厚度被壓縮在其間的同軸電纜之導體的 轴向部分，其中該可展延配合表面符合於該同軸電纜的導 體之壓縮部分的可變軸向厚度而變形。 另一輕態樣包括一同軸電纜組合件，該k合件包含士 一同軸電繞’其具有一内部導體、一外部波狀導體及一絕 緣體，該絕緣體係配置在該内部導體與該外部導體之間； -連接器本體’其包含一第一端、一第二端及定義在該本 體的第一端與第一端之間的一内部孔；一壓縮帽蓋，其包 14 201232970 一第二端及定義在該帽蓋的第一端與第二端201232970, invention: [Technical Field] The present invention relates to the field of coaxial cable connectors, and more particularly to a contact connector assembly for use with a coaxial cable having a central conductor. [Prior Art]: A corrugated coaxial cable is an electrical cable used as a transmission line for radio frequency signals. The coaxial electrical trace is formed by an inner conductor surrounded by a flexible insulating layer which in turn is surrounded by a corrugated outer conductor which is shielded as a conductive shield. An outer protective sheath or jacket surrounds the corrugated outer conductor. A corrugated coaxial cable in an operational state typically has a connector attached to either end of the cable. The quality of the electrical connection between the coaxial cable and the individual connectors is important. In fact, the quality of the electrical connection can positively or negatively affect the resulting electrical signal and the performance of the connector. One problem that negatively affects the electrical signal between the cable and the connector is the size of the connector as a function of the cable size. Currently connectors of a specific size must be selected for each size of the cable they will be connected to. The choice of a properly sized connector or even a cable of a particular size will adversely affect the electrical signal between the cable and the connector, resulting in extremely low performance. Moreover, even if an appropriately sized connector is selected for the specified cable, a change in the actual size of the manufactured cable can cause the connector to be improperly mounted on the cable. Improper installation can result in poor electrical and mechanical connections between the compression connector and the electrical 201232970 cable. Therefore, there is a need in the field of corrugated coaxial cables for a universal connector to handle these aforementioned problems. SUMMARY OF THE INVENTION The present invention is directed to the field of coaxial cable connectors, and more particularly to a type of contact assembly having a coaxial electrical winding with a +-conductor. An aspect of the coaxial electrical wound connector includes a coaxial electrical snubber having an inner conductor, an exposed outer undulating conductor disposed on the inner conductor and the outer conductor m (four), and disposed on the undulating outer conductor The upper-protective sheath; the connector body includes a first end, a second end, and an inner-compression cap defined between the first end and the second end of the body, the - an end, a second end and an inner bore defined between the first and second ends of the towel cover, the Z-th structure of the compression cap (four) joining the second end of the connector body; ___ clip a clamp ring having a second end and a second end defined between the first end and the first end of the clamp ring for allowing the coaxial cable to pass axially through the inner hole The structure is functionally engaged with the inner bore of the compression cap, a = clamp comprising a first end, a second end and defined between the first end and the second end of the clip for allowing the coaxial (four) Axial through 2 of them. a p-hole and an annular recess on the inner hole, the annular recess engaging an outer corrugated conductor of the coaxial cable in an f-configuration, the first, and the ligatures of the clamp ring are mechanically engaged The end of the clamp; and a compression table 201232970 sweet second in the f connector body 'where the compression surface is adjacent to the clamp π structure is axially advanced to the compression in the clamp The waveform of the outer conductor of the coaxial electric power is creased therebetween under the condition near the surface. Another aspect of the coaxial electrical connector includes the body to the connector, and the self-collecting crying (10) recording surface [the internal hole of the mouth of the connected body is radially inward: the cow = shrink surface - the step comprises - an inclined surface, and wherein the clamp / ι - inclined surface, the inclined surface of the clamp is adapted to the inclined surface of the compression surface; wherein the clamp is under the condition of the clamp The inclined surface of the inclined surface and the inclined surface of the reduced surface are in the shape of the outer body of the material. Another aspect of the coaxial electrical wound connector includes a recess, which is disposed laterally on the outside of the inclined surface, and wherein the first end of the clamp further includes a protrusion that is radially disposed at An outer side of the inclined surface of the caliper and extending axially from the first end of the clamp, wherein the recess and the protrusion are structurally configured to be at an inclined surface of the (four) riding surface and the compression surface In the case where the waveform of the outer conductor is referred to, a portion of the waveform of the outer conductor is functionally engaged therebetween. Another aspect of the coaxial electrical connector includes a compression ring having a first end, a second end, and an internal bore defined between the first end and the second end of the compression ring, wherein ▲ The compression ring functionally mates the internal bore of the connector body, and wherein the second end of the compression ring acts as the compression surface. Another aspect of the coaxial cable connector includes a second end of the compressed soil having an annular indentation, wherein the annular indentation is advanced in the axial direction of the compression surface toward the compression surface 201232970 The teeth form a leading edge of the waveform of the outer conductor of the electrical winding, and wherein a portion of the waveform is deformed within the annular indentation' = the remainder of the waveform is collapsed between the county face and the clamp. ☆ «Another aspect of the Hai coaxial electric iron connector includes the second of the compression ring: two, including the i-inclined surface and the - (four) inclined surface, which is structurally arranged to occupy the second end of the compression ring The flute of r forms a V-shaped indentation, and wherein the clamp = wide pack 3 - an outer inclined edge and an inner inclined edge, the outer inclined edge and the inner inclined edge are configured to be formed in the first end of the clamp a v: mateable within the v-shaped indentation of the compression surface such that the waveform of the outer conductor shrinks in the compression while the jaw is axially advanced toward the contracting surface The V-shaped indentation of the surface is between the V-shape on the first end of the clamp. Another aspect of the shaft-type Wei connector includes a plurality of radial positions: a clamp of each of the sectors, and the structure of each sector is a single-field radial displacement under the condition that the coaxial cable passes through the tongs. And - an elastic member, the basin - on the outer surface of the jaw, the resilient member being configured to maintain the relative position relative to each other during radial displacement of the individual: zones. j: Another aspect of the adapter assembly includes a deformable mesh/... having a first-I-second end and a wire at the first end, between :::: an inner hole, A deformable gasket is disposed between the second ends of the second binder body of the clamp and structurally slidably engages the inner bore of the compression cap. Another aspect of the coaxial electrical wrap connector includes the deformable shim, 201232970 which is structurally oriented against a longitudinal advancement of the clamp under a first force, and at a greater than the first force The two forces are deformed to allow the tongs to advance axially through the deformed shims. Another aspect of the coaxial cable connector includes an insulator having a first end, a second end, and an internal bore defined between the first end and the third end of the insulator, the insulator being disposed Within the inner bore of the connector body, and structurally slidably engaging the connector and the conductive lock, having a -th end ... the second end and radially from the pin in the == central region An outwardly extending flange that penetrates the inner bore of the insulator and slidably engages the insulating bore 1 . The flange structurally engages the second end of the insulator and the first end of the pin is structurally Functionally engaging a central conductor of the coaxial cable. ▲ Another aspect of the coaxial electrical wound connector includes the compression cap, "mechanically, the clamp ring R axially advances the loss of the strip, the clip ring functionally sprays the clip The clamp is axially advanced toward the compression surface. The clamp is functionally inserted into the coaxial cable for axial direction of the conductive pin. The connector body functionally engages the insulator. Advancing the insulator, the insulator functionally feeding the conductive pin η axially advancing the conductive pin by electrical winding, wherein the compression cap portion guides the axial direction toward each other to cause a simple shaft electric power Wrong n between the clamp and the compression surface, and the conductive end functionally sprays the coaxial electric ten-conductor. The other aspect of the Wei connector includes - the first insulator, the end, a a second end, a tube 201232970, an insulator extending axially from the second end, having a hole between the first end and the second end of the first insulator, the first insulator being disposed at The inner hole of the connector body is structurally slidable (four) to the connector The inner end of the body, and the second end of the complex/four-insulator functional (four) first end of the second end of the shrinkable ring and between the first end and the second end of the second insulator - (d) a hole, the second insulator is disposed in the (four) shape of the body of the n-connected body, and structurally controls the inner hole of the connecting body; and has a first end and a first end = a conductive pin, The second end is in its ambiguous-axial tube seat, which is placed in the inner hole of the second insulator, and slidably sprays the inner hole of the second insulator, and wherein the second end of the pin Structurally functionally engaging the first end of the first conductor, and the axial socket is structurally functionally engaged with a central conductor of the coaxial cable. Another aspect of the coaxial electrical transformer includes the The first end of the first insulator includes a tubular mandrel extending axially from the second end, wherein the common mandrel is structurally slidably sprayed with the through hole of the compression ring to be collapsed - the tubular shape of the insulator, and functionally drank the tubular mandrel of the first insulator. /Coaxial_connector The sample includes a waffle opening member having an inner bore and is disposed within a compression cap between the second end of the compression cap and the second end of the grip ring. The coaxial electrical wrap connector Another aspect includes a shoulder on the inner bore of the connector body, a shoulder on the inner bore of the compression cap, a flange on the clamp ring, and the compression cap The 201232970 on the second end of the cover functionally engages the deformable member in a 'sigma configuration. Another aspect of the connecting cable connector includes the one with the cap and the other facing the other In the case of axial advancement, the clamp 4 is combined with the clamp ring to feed the clamp (4), and the trr force can be used to spread the material to the _ county (four) front 遂 2: "the clamp is functionally Engaging the coaxial cable to enter the coaxial cable toward the conductive cable. The connector body functionally engages the ▲ factory edge body to axially advance the second insulator, the second insulator functionally engaging the conductive pin to Advancing the conductive member 2 axially toward the coaxial cable. The conductive pin functionally sings the first insulator to axially Advancing the , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , The waveform of the outer conductor of the coaxial electric coil is between the clamp and the compression surface, the socket of the conductive pin functionally == the central conductor of the coaxial conductor and the first insulator axially displaces the conductive pin Passing through the inner hole of the second insulator such that the spine of the conductive pin functionally mates the inner hole of the second insulator, and the second end of the second insulator functionally engages the first of the first insulator end. Another aspect relates generally to a compression connector, the connector comprising a connector body comprising a first 踹, a junction, and a δ M s ^ ^ t end friend defined at the first end of the body An internal bore between the two ends; the compression member, A includes a first end, a second end, and an internal bore defined between the first end and the second end, the first end of the compression member Structurally equating the second end of the connector body; a clamp 'which includes a first end, a second end, and an internal bore defining a 201232970 between the first end and the second end of the clamp Promoting a helical insertion of a cable; and positioning the connection = compression surface 'where the connector body and the compression member - the axial advancement of the other facilitates axial advancement of the clamp to the The vicinity of the pressure causes the clamp and the compression surface to transmit a force between each other. The other aspect is roughly related to the connector, which includes a first end and a second end; a compression member is configured to be indented The connector body is provided with a clamp on the connector 2' the clamp is configured to promote - the same a helical coupling of the shafting machine; and to the two mating surfaces 'the mating surfaces are configured to collapse one or more of an outer conductor of the coaxial electrical gauge therebetween when the connector is moved into a closed position Waveform. Another aspect relates generally to a method of connecting a compression connector to a coaxial cable, the method comprising: providing a connector body, a compression member, a clamp, and at least two mating surfaces, the connector body having ' a first end and a second end, the compression member is configured to be axially compressed onto the connector body, the clamp is disposed within the connector body, and the clamp is configured to facilitate a coaxial cable a helical engagement, and the mating surfaces are configured to crimp one or more of the outer conductors of the coaxial cable island between the connector when the connector is moved to a closed position, and advance a coaxial cable Into the connector body, wherein a helically shaped outer conductor of the coaxial cable helically engages a helical groove portion of an inner surface of the clamp and axially compresses the compression member over the connector body Move the connector to a closed position. 12 201232970 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 It can be helically meshed with a coaxial cable; and - external / :: is configured to facilitate the sealing of the connector against environmental elements with the less-part. (4) Medium to human. Another way to roughly refer to the -compressed connector, the connection 4: far:, the body of the body has a - first end, - the second end and definition: the end of the second body and the second Between the two ends - internal hole; - compression: the end of the piece has H, 1 two ends and is defined in the third direction; - the surface, which is axially located at the connection =: first - and Between the second ends of the compression members; and - the tongs, the right first end, the second end, and the inner bore defined at the first end and the second end of the clamp, wherein the clamp structure Resonating - the conductor; wherein the inflammatory forceps are at least partially advanced from the axial direction of the ductile material and the axial direction of the compression member to the other: axially advancing to the compression surface Nearby a variable such that when the coaxial electrical, body-uneven hook portion is compressed, at least a portion of the clamp of the clamp and the compression surface conforms to the non-uniform portion of the conductor of the coaxial cable The axial thickness is deformable in a ductile manner. Another aspect relates generally to a connector comprising: a connector body 5 having a first end and a second end; a compression member axially movable relative to the body; a clamp, Arranging between the first end of the connector and the second end of the compression member, the tongs are configured to be 13 201232970 == a conductor of a galvanic combination; and at least two mating surfaces, Configuring to compress the irregular portion of the coaxial electrical conductor between the connector body and the compression member while the other member is moving, wherein one of the at least two mating structures can be extended, And conforms to the axial irregularity of the portion of the conductor of the coaxial electric iron that is compressed therebetween. Another aspect relates generally to a method of connecting a connector to a coaxial device. The method includes providing a connector body, a contraction member, a clamp, and at least two mating surfaces. The body has a first end and a second end, and the compression member 'is axially movable relative to the connector body m between the first end of the connector body and the second end of the compression member, a clamp configured to facilitate a blow-through of a conductor of the coaxial electrical winding, wherein one of the at least two mating surfaces is extendable; a forward coaxial electrical coil is wound into the connector, wherein the coaxial electrical conductor Coupling the 4 clamps and axially compressing the compression member relative to the connector body, thereby compressing the conductor of the coaxial electrical gauge between the at least two mating surfaces 7 in such a manner that the variable thickness is compressed An axial portion of the conductor of the coaxial cable therebetween, wherein the expandable mating surface is deformed in conformity with a variable axial thickness of the compressed portion of the conductor of the coaxial cable. Another light aspect includes a coaxial cable assembly comprising a coaxial coaxial winding having an inner conductor, an outer corrugated conductor and an insulator disposed on the inner conductor and the outer conductor The connector body includes a first end, a second end, and an internal hole defined between the first end and the first end of the body; a compression cap, the package 14 201232970 Two ends and defined at the first end and the second end of the cap

地嗔合該夾鉗時口齒合與作用在該外部導體上；其中該連接 器本體與_帽蓋之一者朝向另一者軸向前進促進該爽 含一第一端、一I 之間的一内部孔， 移動；一夾甜， ，被軸向地前進到該壓縮表面附近，使得該同軸電缓的外 部導體的—波狀_於該夾鉗與㈣縮表©之間；及另外 其中該導體位料引構件的結構與定位在#該外部導體敵 縮時’協料㈣外料體的—料部分至折#靠近賴 縮的波狀部分的一位置處。 ； 时另一種態樣包括一壓縮連接器，該連接器包含：一^ ，器本體’其包含—第—端.、—第二端及定義在該本體的 厂：與第二端之間的一内部孔；一壓縮帽蓋，其包含一 第端、一第二端及定義在該帽蓋的第一端與第二端之間 的内部孔；該壓縮帽蓋可相對於該連接^本體轴向地移 動’一夾鉗’其包含"第—端、—第二端及定義在該夾:鉗 端與第二端之間的—内部孔’其中該夾钳可與該壓 縮帽蓋移動；-壓縮表面，其配置在該連接器本體之内:;， ΐ中該連接器本體與該壓縮帽蓋之-者朝向另-者的輛向 别進促進該夾鉗錄向地前進到·縮表面附近，使得該 失鉗與該壓縮表面彼此之間傳遞力量；及—導體位移導引 構件’其位在該連接H之内，其方式為#該電麵壓縮式 15 201232970 地附著至該連接器時，可允許與一同轴電鐵的—導電構件 之規定性接觸，以導引該導電構件的位移。 另—種態樣包括一種促進一同轴電纜與一同軸電纜連 接器之間阻抗匹配的方法，該方法包含：提供—連接二本 體’其包含-第-端、-第二端及定義在該本體的第:端 與第二端之間的一内部孔；提供一壓縮帽蓋，其包含一第 -端、-第二端及定義在該帽蓋的第—端與第二端之間的 一内部孔’該壓縮帽蓋可相對於該連接器本體軸向地移 動，提供-失钳，其包含-第—端、一第二端及定義在該 夹甜的第-端與第二端之間的一内部孔，其中該夹射可與 該壓縮帽蓋移動；提供一壓縮表面，其設置在該連接器本 體内’其中該連接器本體與該壓縮帽蓋之一者朝向另一者 的軸向前進促進該夾钳被轴向地前進到該壓縮表面附近， 使得該夹钳與該壓縮表面彼此之間傳遞力量；提供一導體 位移導引構件，其位在該連接器之内，其方式在當該電境 被屋縮式地附著至該連接器時，可允許與一同轴電繞的一 導電構件有規定的接觸，以導引該導電構件的位移；轴向 地將該I縮帽蓋與該連接器本體朝向另一者前進，使得該 夾鉗轴向地前進到配置在該連接器帽蓋之内的一㈣表面 附近，且該同軸電鐵的一外部導體之一部分敵縮在該夹甜 與該麗縮表面之間；及藉由當該外部導體皺縮時喃合於該 導體位移導引構件以導引該外部導體的一前導部分至折叠 在靠近該敏縮波形部分之—位置處，以最小化被動式互調 變及關聯於該外部導體的前導部分之回波損耗。 16 201232970 明 【實施方式】 :先參照P圖與第2圖，所示為連接器ι〇有 =端210之環形波狀的同罐2〇。之—具體實J "係對準在一共用中心軸2 貝也 波狀的同Μ增上口為連接&1G與環形 的說日^ Γ 向地對稱於其巾吨2,在以下 的方rj “ 向外」的方向係指自中心軸2向外遠離 係於1目反地才目對於連接器組件運動的「徑向地向内」 10、°「内朝向中〜轴2。再者’同軸電，覽200相對於連接器 4的軸向刖進」與連接器10之組件相對於彼此的「軸向 J進」3係指要沿著轴心2的長度。 ； 可耦合於該具體實施例的連接器之同軸電纜200包含 扣絕緣體2〇4環繞之一實體的中央導體2〇2、環繞絕緣體 的—波狀的外部導體206、及環繞外部導體206的-保 202蔓套2〇8同車由電纜2〇0的預備末端210包含中央導體 苴2 =一暴路長度212、外部導體206之一暴露的長度，使 第^露Ϊ第一凹陷波谷216與第^'凹陷波谷218之間的一 之厂暴露波形214及第二凹陷波谷218與第三凹陷波谷222 的第一暴露波形220中至少一者。暴露的外部導體 〇6之刖緣226必須配置成（即切割成）使得前緣226為波狀 、卜。Ρ導體206之凹陷波谷中—者的部分，其優點將在以 17 201232970 下詳細說明。絕緣體204由-軟性 合物發泡體。絕緣體2〇4的一邱八可規材料製成，例如聚 藉此提供-「挖空核心」環狀二咖預備末端m移除’ 之一組件的—部分。 用於收納連接器1〇 第2圖所示為連接H1G之-具體 下的橫截面圖。連接器】〇包含一夫广例在-第-狀態 含一苐一端22、一第二端24吕連接器本體20,其包 本體20包含—導電材料。連接器1〇 2 26。管狀連接器 其設置在管狀連接器本體2〇的了包含:第-絕 第一絕緣體40包含-第-表面42、一赏 26之内。 孔44、及-管狀心軸46，管狀心轴％係^㈣、-通 的第二表面48軸向地延伸。連接器⑺ 絕緣體40 帽蓋60’其包含一第一端幻卜包含-壓縮 ⑽的-内部孔66。壓縮帽蓋⑼配置成有-肩部 本體20，更具體而言係可滑動 %至官狀連接器 的第二端24。 狀連接器本體20 連接器10進一步包含當壓縮 本體2〇且進一步朝向管狀連接器本狀連接器 ^:轴向方向上_電叫外時用 一暴疼波形214之構件。連接器1() ，體挪的第 該外部導體之構件在以下做說明。 、、且牛及用於皺縮 連接器10進一步包含—導電的壓綠環8 第一絕緣體40之第二表面48的一第一 /、包含嚙合 助I縮同轴電瘦200之外部導體高一表面=及用於輔 幻第一暴露波形214 18 201232970 ==表Γ之一塵縮表面86。虔縮環80包含一通孔82, 接在通孔82 並可賴㈣匈配 連接e IGit—步包含—可擴展的 ;f器10之内滑動，且功能上喝合管狀連接器本:二 :部孔26。爽㈣包含一壓縮表面92、一第二端94、= 的—错* 疋義在位向地向内延伸接近壓縮表面幻 二笛一：犬出邊緣98與徑向地向内延伸接近第二端94的 壓缩奈2 t’邊緣1〇2之間的中央環形凹部100。夾鉗90的 狀連接器本體一 :t 當壓縮帽蓋6〇與管 該壓缩表面祐慨.月° 者轴向地前進時’在如上述 下，9G的壓縣面92附近的狀況之 波形= 轴電繞200之外部導體施的第一暴露When the clamp is engaged with the clamp, the teeth are engaged and act on the outer conductor; wherein the connector body and one of the caps are axially advanced toward the other to promote the connection between the first end and the first An internal bore, moving; a clip of sweetness, being axially advanced to the vicinity of the compression surface such that the coaxially wicked outer conductor - between the clamp and the (four) retracted table ©; and The structure of the conductor material guiding member is located at a position where the outer conductor of the material (the fourth material) of the outer material body is at a position close to the wavy portion of the folding body. Another aspect includes a compression connector, the connector comprising: a ^ body comprising - a first end, a second end and a factory defined between the body and the second end An inner cap; a compression cap comprising a first end, a second end, and an inner bore defined between the first end and the second end of the cap; the compression cap is closable relative to the body Moving axially 'a clamp' comprising a "first end, a second end and an inner bore defined between the clamp end and the second end, wherein the clamp is engageable with the compression cap Moving; a compression surface disposed within the connector body;; wherein the connector body and the compression cap are oriented toward each other to facilitate advancement of the clamp to the position - the vicinity of the constricted surface, such that the tongs and the compression surface transfer forces between each other; and - the conductor displacement guiding member 'is located within the connection H, in the manner that the electric surface compression type 15 201232970 is attached to The connector allows for a predetermined contact with a conductive member of a coaxial electric iron to guide the Electrical displacement member. Another aspect includes a method of facilitating impedance matching between a coaxial cable and a coaxial cable connector, the method comprising: providing - connecting two bodies 'including - a - end, - a second end and defining An inner bore between the first end and the second end of the body; providing a compression cap including a first end, a second end, and a first end and a second end defined between the cap An inner bore 'the compression cap is axially movable relative to the connector body, providing a nipper, comprising - a first end, a second end, and a first end and a second end defined in the sweet portion of the clip An internal bore therebetween, wherein the clip is movable with the compression cap; providing a compression surface disposed within the connector body 'where the connector body and the compression cap are facing one another The axial advancement facilitates axial advancement of the jaws adjacent the compression surface such that the jaws and the compression surface transfer forces therebetween; providing a conductor displacement guide member positioned within the connector In the manner when the electrical environment is attached to the connector Having a predetermined contact with a coaxial electrically conductive member to direct displacement of the electrically conductive member; axially advancing the first cap and the connector body toward the other such that the clip The tongs are axially advanced to a vicinity of a (four) surface disposed within the connector cap, and a portion of an outer conductor of the coaxial electric iron is partially entrapped between the clip sweet and the retracted surface; The outer conductor is crimped to the conductor displacement guiding member to guide a leading portion of the outer conductor to a position folded near the sensitive waveform portion to minimize passive intermodulation and associated with the Return loss of the leading portion of the outer conductor. 16 201232970 DESCRIPTION [Embodiment]: Referring first to the P diagram and the second diagram, the same tank 2 of the ring-shaped wave having the connector ι = = terminal 210 is shown. The concrete J " is aligned with a common central axis 2 shells also wavy the same as the connection of the &1G and the ring of the day ^ Γ symmetry to its towel ton 2, in the following The direction of the square rj "outward" refers to the "radially inward" movement from the central axis 2 away from the 1 mesh to the ground, and the movement of the connector assembly is 10, ° "inward toward the middle ~ axis 2." The "axial" of the coaxial cable 200 with respect to the connector 4 and the "axial J" of the components of the connector 10 relative to each other refer to the length along the axis 2. The coaxial cable 200, which may be coupled to the connector of this embodiment, includes a central conductor 2〇 around the body of the buckle insulator 2〇4, a corrugated outer conductor 206 surrounding the insulator, and a surrounding outer conductor 206. The front end 210 of the cable 200 〇0 includes the central conductor 苴2 = a storm path length 212, and the length of one of the outer conductors 206 is exposed, so that the first depression trough 216 is A factory exposure waveform 214 between the first recessed valleys 218 and at least one of the second recessed valleys 218 and the first exposed waveforms 220 of the third recessed valleys 222. The outer edge of the exposed outer conductor 〇6 must be configured (i.e., cut) such that the leading edge 226 is wavy, b. The advantages of the portion of the depressed conductor trough of the conductor 206 will be described in detail under 17 201232970. The insulator 204 is a foam of a soft compound. The insulator 2〇4 is made of a quaternary material, for example, a portion of the component of the "hollowed core" ring-shaped two-coffee preparation terminal m-removal. For housing the connector 1〇 Figure 2 shows a cross-sectional view of the H1G connection. The connector 〇 includes a wide-scale in-state-of-state one end 22 and a second end 24 connector body 20, and the package body 20 includes a conductive material. Connector 1〇 2 26. The tubular connector is disposed in the tubular connector body 2 including: the first-insulating insulator 40 includes a --surface 42 and a radius 26. The bore 44, and the tubular mandrel 46, the tubular mandrel %, and the second surface 48 of the through-shaft extend axially. Connector (7) Insulator 40 The cap 60' includes a first end imaginary-compressed (10)-internal bore 66. The compression cap (9) is configured to have a shoulder body 20, and more specifically a slidable % to the second end 24 of the official connector. The connector body 20 connector 10 further includes a member that utilizes a violent waveform 214 when the body 2 is compressed and further toward the tubular connector body connector: in the axial direction. The connector 1 (), the member of the first outer conductor that is moved, will be described below. And the bobbin and the crimping connector 10 further comprise a conductive green ring 8 a first surface of the second surface 48 of the first insulator 40, and an outer conductor comprising the meshing assisted coaxial cable 200 A surface = and used for the first exposed waveform of the illusion 214 18 201232970 == one of the surface of the dust-shrinking surface 86. The shrink ring 80 includes a through hole 82, which is connected to the through hole 82 and can be connected to the (4) Hungarian connection e IGit-step includes - expandable; slides within the device 10, and functionally engages the tubular connector. Portion 26. Shuang (4) includes a compression surface 92, a second end 94, = - error * 在 inwardly extending inwardly toward the compression surface phantom two: the dog exit edge 98 and the radially inward extension approaching the second The end 94 compresses the central annular recess 100 between the edges 2 ' 2 edges. The connector body of the clamp 90 is: t. When the compression cap 6 is pressed and the compression surface of the tube is extended, the waveform of the condition near the 9G pressure county surface 92 is as follows. = first exposure of the outer conductor of the shaft winding 200

I 有—Ϊ=Α10進一步包含一失鉗推動環12。，其包含-具 人壓缩124的凸緣122,其結構上配置成可滑動地1^ 口 Μ縮帽蓋60的內邱$ 66，日丄Λμι 的启+ 且功此性地嚙合壓縮帽蓋60 的肩部68。夾钳推動環12〇進 結構上功舍匕槌从“人 少匕δ —第一端120，其 4地哺合可擴展的失甜90的第二端94。 直接實施例中’壓輪帽蓋6〇在結構上功能性地 繼嶋”㈣進造成央甜 置在連接器心，且如所示設置在 圖之連接器1〇之内’連接器H)與同罐係在 201232970 被:入i::二，2圖與第4圖，在預備⑽ ===於形成在可擴展的夾鉗-之二 此外、，二縮表面86之間的-環形體積的之内。 設置在可擴展的夾鉗如之令央環 %凹部100之内，且管狀心軸46 r央衣 地延伸。 於祗形凹穴224之内軸向 入到第4圖所示之第—位置’預備末端210*** 206的H 内部孔^當中’直到波狀的外部導體 的“ 226喊合可擴展的夾鉗9()，如第3圖所示。在 96=」同轴電規2GG進一步軸向地前進穿過中央通道 雙200 2擴展的爽甜9〇徑向地向外擴展，以允許同轴電 ^的第—暴露波形214穿過夾钳9〇的中央通道％，且 1 著1向地向内收縮以將同軸電纜2〇〇的第二暴露波形 火已3在夹甜90的中央環形凹部100之内。更具體而言， 均同軸電、’見200❸第一暴露波形214喝合可擴展的失甜9〇 ，第一突出邊緣1G2時，第-暴露波形214的有角度第一 刀 嚙5可擴展的夾钳90的第二突出邊緣1〇2的有角 二第―P刀97°此可提供一種凸輪運動，其中第一暴露波 % 214做為一凸給Λ Α β，，丄 7凸。Ρ，且可擴展的夾鉗9〇的第二突出邊 Q 彳文為&輪從動件’藉此徑向地擴展可擴展的夾鉗 9〇’如第3圖之箭頭91所示。 如上所述，預備末端210的***亦提供抵抗可擴展的 Λ甜％ #轴向力’如箭頭93所示。然而，在該第一狀 20 201232970 30配置在連接器1〇之内導電的管 本體20之第-破w狀逆接為 巧第―鳊24與可擴展的夹鉗90之壓縮表面92之 間’使件墊片13Q嗜合可擴展的夹鉗9()之壓縮表面％，並 喷合管狀連接器本體2G的第二端24。被f狀連接器本體 2〇嚙。的墊片130抵抗軸向力93’並防止可擴展的夾鉗9〇 被***的預備末端⑽軸向地前進。墊片130亦做為一承 座，其在當可擴展的夾鉗90於第一暴露波形214及第二暴 =波形220穿過第二突出邊緣1()2時徑向地擴展與收縮 柃，墊片130抵抗可擴展的失鉗9〇之壓縮表面％的滑動， 如上所述。 為了允許可擴展的夾鉗9〇徑向地擴展與收縮，可擴展 的夾鉗9〇可包含複數個扇區，例如扇區1〇4、1〇6,其在當 同軸電纜200穿過其中時個別地相對於彼此徑向地位移〔 該複數個扇區共同地包含可擴展的夹甜9〇，其包括中央誇 狀凹部100、第一突出邊緣98與第二突出邊緣1〇2。為了 夾持可擴展的夾鉗90的個別扇區相對彼此靠近，可擴展的 夾鉗90進一步可包含一彈性構件108，其設置環繞該徑向 位移扇區104與扇區106，藉此固定扇區1〇4與扇區1〇6 相對彼此的相對位置，包括當預備末端210之第一暴露波 形214及/或第二暴露波形220穿過及/或穿透到失鉗9〇當 中的期間之徑向地擴展與收縮能力。在第3圖與第4圖中 所示的一具體實施例中，彈性構件108可形成為—彈性環。 彈性環108可具有如第3圖與第4圖所示的一圓形橫截面， 或者彈性構件108可具有一正方形、長方形或其它橫截面 21 201232970 形狀。可擴展的夾鉗9〇 有可喷合的—相對庫 、在其外部周緣95上，其具 性構件⑽相對於⑼9〇 6f槽及彈性構件而，並維持彈 -彈性體製成，例如橡膠7對位置。彈性構件⑽可由 可由橡膠或類橡膠材❹#在一具體實施例中，該彈性環 為-環狀彈簧，例如常2。另外’彈性構件108可形成 彈簧。在另一且體實#彳,丄、唇狀密封件中的一纏繞金屬線 可形成為一彈性套筒^ ^未顯示於圖式），彈性構件108 95的一部分。該彈^ ^後可擴展的夾鉗90之外部周緣 請再次參照第4圖冋預:由-彈性體製成，例如橡勝。 在該第一狀態下。可㈣^端210與連接器10所示為 同軸電雙200之第一 1爽甜9〇已經徑向地擴展以允許 縮以將同車_ 的皮來穿過，然後徑向地收 中失環形凹部i i之内。猫一冰路波形2 2 〇包含在夾鉼9 0的 設置在形成在可擴 :末端210的第一暴露波形214 ，表面％之間的if :體面92與壓縮環8。 也延伸在環狀凹部以 之内，且管狀心軸46軸 9〇將同轴電壤200固定接器1〇的可擴展的夾鉗 破輪向地前進的狀況之下 上。然後，在I縮帽蓋60 鉗％、壓縮帽f ’同軸電纜200由於可擴展的夾 起騎進。、 〃外部導體加6之結構性喷合而與其一 在讀第一你、 ^ 6〇輿管狀連接^軸電境2〇。對壓縮帽 騎進。此可由下述之一項來、進一步朝向另-者轴向 員來達成：當管狀連接器本體2〇 22 201232970 被固定在定仇上時，m縮帽蓋 :向地前進;當覆縮帽蓋60被固定:向/狀連接器本體20 二本體20係朝向絲帽蓋㈣ ^上時，管狀連接 與管狀連接器本體2G之每進，或是麼缩帽蓋 前進。壓縮帽蓋60與管狀連二同時朝向另-者轴向地 向前進造成壓縮帽蓋60與管狀n〇朝向另—者的料 f態’其中在壓縮帽蓋6。之内的=二到達-第二 吟同軸電纜_經由連接器 合’以允 如第5圖戶Γ Γ )。換言之，在該第二狀態下:， 二=斤不，連接器丨。建立了同轴電繞2。〇、連接二 械；未顯示於圖式)之間所需要的操作性電氣:機 在第4圖與第5圖所示之具體實施例中一 與管狀連接器本體20在結構上可滑 嗜：巾目盒60 ^在-相f的軸向方向上移動，由第= 的5圖的第二狀態。壓縮帽蓋60朝向管狀連接器本體_ 、、軸向移動造成同軸電纜2〇〇之外部導體2〇6的第—“ =214的敵縮，其係在該壓縮表面（可擴展的失甜卯ςI having - Ϊ = Α 10 further includes a tongs push ring 12. , which includes a flange 122 having a human compression 124, which is configured to slidably slid the inner pocket of the cap 60, and to engage the compression cap 60 shoulders 68. The clamp pushes the ring 12 into the structure and the second end 94 of the expandable sweetened 90 is fed from the "small 匕δ-first end 120. The direct embodiment of the 'pressure wheel cap' The cover 6〇 functionally follows the structure “(4) into the central sweetness placed in the connector core, and as shown in the figure connector 1〇 'connector H) and the same tank system in 201232970 are: Into i:: 2, 2 and 4, in preparation (10) === within the annular volume formed between the expandable jaws and the diverging surface 86. The expandable clamp is disposed within the central ring % recess 100 and the tubular mandrel 46r extends. Within the 凹-shaped recess 224, axially into the first position shown in Fig. 4, the 'preparing end 210 is inserted into the H inner hole ^ of the 206' until the wavy outer conductor of the 226 shouting expandable clip Pliers 9(), as shown in Figure 3. The 96=” coaxial electrical gauge 2GG is further axially advanced through the central channel double 200 2 extended sweetness 9〇 radially outwardly to allow coaxial The first exposed waveform 214 of the electric^ passes through the central passage % of the clamp 9〇, and is contracted inwardly toward the ground to fuse the second exposed waveform of the coaxial cable 2〇〇 to the center of the sweetness 90. Within the recess 100. More specifically, both are coaxial, 'see 200 ❸ first exposure waveform 214 occupies expandable de-sweetness 9 〇, when the first protruding edge 1G2, the angled first blade 5 of the first-exposed waveform 214 is expandable The angled second P-knife of the second projecting edge 1 〇 2 of the clamp 90 provides a cam motion wherein the first exposure wave % 214 acts as a convex Λ , β, 丄 7 convex. The second protruding edge Q of the expandable clamp 9 为 is the & wheel follower ' thereby radially expanding the expandable clamp 9 〇 ' as indicated by arrow 91 in FIG. As noted above, the insertion of the preparation tip 210 also provides resistance to the expandable % sweetness # axial force as indicated by arrow 93. However, in the first shape 20 201232970 30, the first-break-w-like reverse connection of the conductive body 20 disposed within the connector 1 is between the 第24 and the compression surface 92 of the expandable clamp 90' The spacer spacer 13Q is adapted to the compression surface % of the expandable clamp 9 () and sprays the second end 24 of the tubular connector body 2G. It is bitten by the f-connector body 2. The spacer 130 resists the axial force 93' and prevents the expandable jaw 9' from being advanced axially by the inserted prime end (10). The shim 130 also acts as a socket that radially expands and contracts when the expandable clamp 90 is in the first exposed waveform 214 and the second burst = waveform 220 passes through the second protruding edge 1 () 2 The spacer 130 resists sliding of the expandable surface of the expandable clamp 9 , as described above. In order to allow the expandable clamp 9 to radially expand and contract, the expandable clamp 9A can include a plurality of sectors, such as sectors 1〇4, 1〇6, when the coaxial cable 200 passes through it. The elements are radially displaced individually relative to one another [the plurality of sectors collectively comprise an expandable clip 9 〇 comprising a centrally-shaped recess 100, a first protruding edge 98 and a second protruding edge 1 〇2. To hold the individual sectors of the expandable jaw 90 relatively close to each other, the expandable jaw 90 can further include an elastic member 108 disposed about the radial displacement sector 104 and the sector 106, thereby securing the fan The relative position of the zone 1〇4 and the sector 1〇6 relative to each other, including during the passage of the first exposed waveform 214 and/or the second exposed waveform 220 of the preliminary end 210 and/or into the nipper 9〇 Radial expansion and contraction capability. In a specific embodiment shown in Figures 3 and 4, the resilient member 108 can be formed as an elastic ring. The elastic ring 108 can have a circular cross-section as shown in Figures 3 and 4, or the resilient member 108 can have a square, rectangular or other cross-section 21 201232970 shape. The expandable clamp 9 is sprayable - on the outer periphery 95 thereof, its member (10) is opposed to the (9) 9〇6f groove and the elastic member, and is maintained in an elastic-elastic body, such as rubber. 7 pairs of locations. The elastic member (10) may be made of a rubber or rubber-like material. In one embodiment, the elastic ring is a ring spring, such as often 2. Further, the elastic member 108 can form a spring. In another embodiment, a wound wire in the 丄, lip seal may be formed as an elastic sleeve (not shown in the drawings), a portion of the resilient member 108 95. The outer circumference of the expandable clamp 90 after the bomb ^ ^ Refer again to Figure 4 冋 pre: made of - elastomer, such as rubber win. In this first state. The first (1) end 210 and the connector 10 are shown as the first one of the coaxial electric doubles 200. The first sweetness 9 has been radially expanded to allow the contraction to pass through the skin of the same vehicle, and then radially loses the loss. Within the annular recess ii. The cat-ice path waveform 2 2 〇 is included in the pinch 90. The first exposed waveform 214 formed at the expandable end 210, the surface between the %: the face 92 and the compression ring 8. It also extends within the annular recess and the tubular mandrel 46 shaft 9 〇 under the condition that the expandable clamp of the coaxial electric soil 200 fixed connector 1 is advanced toward the ground. Then, in the I cap 60, the clamp, the compression cap f' coaxial cable 200 rides in due to the expandable grip. 〃 〃 external conductor plus 6 structural spray and one with the first you, ^ 6 〇舆 tubular connection ^ axis environment 2 〇. Riding the compression cap. This can be achieved by one of the following: further towards the other axial member: when the tubular connector body 2〇22 201232970 is fixed on the revenge, the m cap is: advancing toward the ground; when the cap is capped The cover 60 is fixed: when the two body 20 of the connector body 20 is oriented toward the wire cap (4), the tubular connection and the tubular connector body 2G are advanced, or the cap is advanced. Simultaneously, the compression cap 60 and the tubular yoke are axially advanced toward the other to cause the compression cap 60 and the tubular rim to face the other material state, wherein the cap 6 is compressed. = two arrivals - the second 吟 coaxial cable _ via the connector to allow for the fifth picture Γ Γ). In other words, in the second state: two = no, the connector is defective. A coaxial electric winding 2 is established. The operational electrical required between the 〇, the connection of the two devices; not shown in the drawings: the machine is structurally slippery with the tubular connector body 20 in the specific embodiment shown in Figures 4 and 5 : The towel box 60 ^ moves in the axial direction of the phase f, and is in the second state of the fifth graph of the ==. The compression cap 60 is moved axially toward the tubular connector body _, causing the first "=214 enemy of the outer conductor 2〇6 of the coaxial cable 2〇〇, which is attached to the compression surface (extensible de-sweetened 卯ς

1縮表面92)與另-壓麻.面(壓縮環80的壓縮表I 二==壓縮帽蓋60朝向f狀連接器本體2〇 ，軸向則進促進可擴展的夾钳9G在管 rr，之内朝向壓縮卿向地移動。可 之此種軸向位移造成可擴展的夾钳90變形墊片的、 23 201232970 :部區域132,使得可擴展的夾鉗9〇朝向壓縮環80軸向地 刖進透過墊片130之變形的内部區域132而通過墊片13〇。 再者可擴展的夾鉗9〇的此種軸向前進降低可擴展的夹甜 9〇的壓縮表面92與i縮環8〇的壓縮表面％之間的環狀體 積89。％狀體積89的降低造成同軸電境2〇〇的外部導體 之第-暴露波形214在該等壓縮表面之間或是可擴展 的=钳90的壓縮表面92與壓縮環8〇的壓縮表面％之間 鈹細°在此第二狀態下’如上述之壓縮表面將第—暴露波 形214皺縮成一皺縮波形215，皺縮波形215係定義為已自 我折疊或自我鈹曲的第一暴露波形214❺整個區段，以產 生外部導體206❺一雙重厚度。具體而·^，在一具體實施 例中’敞縮波形215的至少-部分中，皺縮波形21s具有 外部導體206的兩倍厚度。在另一具體實施例中，敵縮波 形215的大部分中，皺縮波形215具有外部導體2〇6的兩 L厚度。在又另一具體實施例中，整個皺縮波形中， 皺縮波形215具有外部導體206的兩倍厚度。該等壓縮表 面進一步壓迫其間的皺縮波形215，以促進同軸電纜2〇〇 之波狀的外部導體206與管狀連接器本體2〇之間的一功能 性電氣連接。管狀心軸46軸向地延伸到環狀凹部224當 中’藉此將波狀的外部導體》〇6與中央導體202絕緣。 抵住皺縮波形215被壓迫在該第二狀態下之壓縮環8〇 進一步可包含在壓縮表面86中一環狀凹部88，環狀凹部 88係形成收納第一暴露波形214的前緣226的結構，如第 4圖所示。在連接器1〇由該第一狀態轉換到該第二狀態的 24 201232970 狀況之下，别緣226進入環狀凹部抑 朝向另-者的轴向移動造成前緣2 :、面92與86 皺曲在環狀凹部88之内，以呈媚狀凹部88,並 縮波形215之錢料_縮在壓m卩88的形狀。皺 使得於壓縮表面92與86之間㈣㈣2=之間， 此種皺縮波形215之兩階段隨曲可 5本身敞曲。 組件之間的電氣與機械性連接。 雜》1G的相對 可擴展的失鉗90進-步可包 .： 傾斜緣u〇,其在當壓縮帽蓋6〇朝向面的一 轴向地前進時促進墊片⑽的位移==接林體20 同時，墊片130的内部區域13 縫、或其它應力华中器丨夫 < 數標記、狹 形。塾片f 於圖式)以促進塾片13〇的變 2〇 一足夠剛性材料製成’做為當-同軸雷增 :的預備末端21〇***人到連接器 =。的停止器，但亦有足夠的彈性，藉二 =夹 管狀連接料可健料鉗90朝向 薄的軟二刚形。塾片⑽可由-執行其上：類似材料製成’其如^ 挪請再次參照第2.圖，連接器1G進—步 的—150’其先由第-絕緣體40設置在管狀連接3 -絕 ^部孔26之内。第體2〇 第二端156、-中央通孔158、及一 ^、一 置成可滑動地嚙合管狀連接 …结構上配 钱态本體20的内部孔26,且配置 25 201232970 成嚙合在管狀連接器本體20的内部孔26上的一肩部28。 連接器1〇進一步可包括設置在第二絕緣體150的中央通孔 ⑼之内的-導電銷17〇。導電銷17〇可包含一第一端”2、 一第二端174、及自第二端174軸向地延伸的一軸向座 176。 、f亦參照第4圖與第5圖，當同軸魏被***到 連接口。ίο田中時’導電銷170的軸向管座收納同軸電 4 200的中央導體2〇2之暴露長度212。沿著軸向管座us 的長度軸向穿過的複數個狹縫178可在軸向管座176中以 預定的間隔被切割成導電銷17〇,藉此在該等狹缝178之間 定義^數個指部179,其結構上配置成在當預備末端21〇 之暴露長度212被***到軸向管座176當中時，指部 即擴展。 ° 第一絕緣體40的第一表面42進一步可包含自第一表 面軸向延伸的一環狀外緣52，環狀外緣52定義一環狀 2 ’其結構上可在壓縮帽蓋⑼朝向管狀連接器本體20 =地前進而自該第一狀態成為該第二狀態的 的第二端174。請參照第6圖，壓縮 體第2〇r向前進而成為該第二狀態係㈣ 以及^ 第一表面42嚙合導電銷170的第二端174, 第-絕緣體150的通孔158之㈣向地 170。亦缚灸昭笛7® r- 子电鋼 2。的:二:=縮帽蓋6〇朝向管狀連接器本體 的轴向別進而成為該第二狀態造成第—絕緣體4〇 42嚙合第二絕緣請的第二端156。第二絕緣體 26 201232970 150的第-她彳 — 6進一步可包含結構上收納第一絕緣體40 之裱狀外緣52.的一環狀凹部16〇。 .,.^ _ 7圖所不’該第二狀態為連接器10與同軸電纜200 中、，二”生，電氣地搞合之配置。具體而言，在該第二狀態 、接态10為電氣與機械性地耦合至同軸電纜，苡 ㈣200經由連接器1G傳送信號，並到達連接器 另外耦合的連接埠（未顯示於圖式）。在該第二狀態中， 肖已經軸向地前進超過第二絕緣體15〇的第一端 ⑸使传導電錦’170可連接至該連接璋（未顯示於圖式）的 中央g座。此外’整片130之至少一部分被壓縮，並包 各在夾鉗推動環12〇、可擴展的夾甜9Q與管狀連接触 20之^。墊片13〇的某個其它部分可設置成可擴展 - 9〇與管狀連接器本體2〇之間的创花或其它小粒去’ ^ 於圖式）。 丁〈禾顯示 連接器10進一夕可配置成使得壓縮帽蓋60之輛。4 進而成為該第二狀態造成夹鉗推動環120之第—端月1J 合官狀連接器本體2〇的第二端24。同時，壓 6嘴 ±丄人「目星ό〇夕 車向刚進而成為該第 >狀態造成在壓縮帽蓋6〇的内咅 66上之一第—肩部7〇嚙合管狀連接器本體20上—外j孔 部30。這些個別部分之間的接觸可在當軸向地前進壓二肩^ 蓋60至管狀連接器参體2〇之上時做為額外的停止器縮帽 應瞭解到該等部分在連接器10的移動，及預備末* 21〇之第一暴露波形214的皺縮之順序可與前述 端 铱，®丄 久军4圖至 弟圖中所示者做改變。例如，第一絕緣體40歲厭& 雙细環8〇 27 201232970 =連接器本體20的内部孔 此，第―絕緣體4〇盥 “有干涉配接。因 部孔26内的轴向〜 管連接器本體2〇之内 絕緣體4〇與麗到與其摩擦的抵抗。如果抵抗第- 繞之第之運動的此摩擦力小於皺縮同軸電 〈第暴露波形214所靈尊的 ⑽冤 4〇與壓縮環8〇 、置，則第一絕緣體 之前在管狀連接哭;^纜綱之第—暴露波形叫敵縮 此外，舉例來1严部孔％之内轴向地前進。 的軸向前進首二:第 6〇朝向#狀連接器本體2〇 ,ΑΙ 化成第—絕緣體40的笫—矣a ^ 電銷的第二端174,並在 ;面42喃合導 =也前進導電銷，。壓縮帽蓋緣:二^ 連接林體20上_地前進，以造成第V可在管狀 一表面42嗔合第二絕緣體15〇的第二端^緣體40的第 進一步可在管狀連接器本體20上軸向地前彻蓋6〇 展的夾钳90在管狀連接器本體2〇的 /造成可擴 縮環8〇軸向地前進，藉此降低可擴展的夹甜^内朝向厂堅 面92與屢縮環80的屋縮表面％之間士 ％眺縮表 縮第一暴露波形214。另外，舉例來說，如=㈣，並皺 器本體20之内的第一絕緣體4〇與屢縮環於官狀連接 阻抗大約等於皺縮第一暴露波形2Μ所之運動的摩擦 絕緣體40與壓縮環8〇在管狀連接器本體而：：力量’第-及同轴電遭之第一暴露波形2 内的位移， 蓋60朝向管狀連接器本體2G㈣地前進^在當_帽 成為該第二狀態時同時地發生。 該第一狀態 28 201232970 —請再次參照第2圖與第7圖，連接器10可包括一第一 =2=型環)，其設置在該連接器本體之外部周 緣上的一溝槽13(榡示 該第二狀態下的心之中⑽’並於連接器1〇在 帽蓋60的内部孔66之：留:於管狀連接器本體20與壓縮 在内部孔66之内的第二接$ 1G進—步可包括一包含 二凸緣72。請亦參昭:封二牛14，及堡縮帽蓋6。的-第 尺+ r~、、、弟4圖與第5圖，連接器1〇的組件之 前進之寸付在Ϊ縮帽篕6〇朝向管狀連接器本體20軸向地 6。的肩Ip 68之:::環12。的外部肩部124與壓縮帽蓋 連接器本體20轴向壓縮帽蓋6〇朝向管狀 排除係使第二密封件 得第二密封件14之一 ^ 狀況，藉此使 〇Λ〇 k向地擴展依此提供同軸電纜200之 將壓端Φ—與壓縮帽蓋6〇的内部孔66之間的有效密#。 藉由第一密封.件12而於其末端之一她 —者器本體2G，且藉由第二密封件14於其末端之另 與電至同轴！繞200時，可防止濕氣進入到機械性 琴雷:的連接器1G與同軸魏，藉此保持該連接 β與該魏之_電氣錢難連接。 180第1圖與第7圖，連接器10可具有'一緊固件 件’喝〇至該連接痒(未顯示於圖式）的一螺帽。緊固 連接秀^括用於密封至該連接埠的—密封件182。另外， 1〇亦°可具有用於連接至一母連接埠的公螺紋。連接器 …配置成—有角度的連接H ’例如9G度f管連接哭。 29 201232970 請參照第8圖，所示鱗接器1()的另—具體實施例斑 具有預備末端训之環形波狀的同軸電纟覽對準在一^ 用中央軸2上。第8圖所示為於環形波狀的同轴電产· 的預備末端210插人期間示例性的連接器1()之^。 同軸電缓·的-具體實施例包含由一絕緣體2()4 中空的中央導體2〇2、環繞絕緣體謝之一波狀的外^體 雇、及環繞外部導體施的—保護護套通。同軸· 的預備末端21〇包含中央導體2G2的—暴露長度1 2〇4與波狀的外部導體2〇6。外 、”邑緣體 體高的保護護套208直到 二凹陷波…間的一第;=:凹陷波谷216與第 暴路波形214與第二四陷波 奋218與第三凹陷波谷瓜之間的一第二暴露波形22:中 至少-者。預備末端21〇必須配置成(即切割)使 206的前緣226在波狀的外部導體施之凹陷波谷中之一者 ’其優點將在以下詳細說明。絕緣體204由—軟性可 撓材料製成，例如聚合物發泡體。 ^' =述之：種具體實施例的連接㈣之優點在於其 或現場安襄，且能夠可靠有效地建立 =持連接心與環形波狀的同軸賴雇之間的強大接 連接β 10的-具體實施例包括導電銷i川與第二絕緣 150’第一絕，體150係設置在管狀連接器本體20之内， ==Γ接器本體20的内部孔-第二絕緣 权置成4導電銷170’籍以將導電銷170固定在定 30 201232970 位上。另外，第二絕緣體15〇 管狀遠桩哭门地文置在導電銷170盥 間。導電銷170提供連接至_;。 所連接的預備末端21G之中空的中_加^接盗10 # 150 夹導體2〇2,且第二絕緣 體將導電銷170與管狀連接器本體20的第一端22電 氣絕緣。在所揭示的具體實施例中，導電銷17。可罝有.! 向外擴展的可撓性的又齒332及—固定元件州，又齒说 用以嚙合中央導體2〇2的内徑 齒332的軸向移動。 固疋几件334用以防止叉 在一具體實施例中，管狀連接器本體2〇的内部孔％ 進-步包含—壓縮表面336，如第8圖所示，並放大於第 11圖。壓縮表面336包含由管狀連接器本體20的内部孔 26徑向地向内延伸的一第—區域335，及同時徑向地向内 並朝向同轴電瘦的預備末端2H)延伸的-第二區域 337。壓縮表面336做為一壓縮表面，其類似於在上述具體 實施例中的壓縮表面92、86 ’因為壓縮表面336辅助波狀 外部導體206(第-暴露波开）214)的皺縮。在一具體實施例 中，第二區域337與縱向軸2具有一銳角"該角度可在5 度與60度之間。在該揭示具體實施例中，第二區域337的 角度大約為45度。壓縮表面336的近端進一步可包括實質 垂直於縱向軸2的一平坦面338。平坦面338，與壓縮表面 336協同合作地唾合與變形波狀的外部導體2〇6(第一暴露 波形214)，直到於該連接器由第8圖所示之第一狀態轉換 成第9圖所示之第二狀態的狀況之下，其本身皺縮以形成 皺縮波形215。 31 201232970 造一…糊中，管狀連接器本體20的第二端24 進仏含一傾斜緣342，以在當連接器 第24 轉換成該第二狀態時輔助管狀連接器本體2㈣狀態 I::。更具體而言’傾斜緣342允許央甜9。可:: :::緣⑷，藉以在厂_蓋6。朝 二:： = 二狀 本體20的内部孔26。舉例來說，管狀連接器 二狀態造成壓縮帽蓋60的前使;，恶轉換成該第 接器本體2G㈣地前進 孔26°_95Τ/月動與功能性地唾合該連接器本體的内部 在-具體實施例中，炎鉗9G亦可在壓縮表面％上真 2壓縮表面382。壓縮表面382做為一壓縮表面，其_ ;則述具體實施例中的麈 、 面 86。再者’壓縮表面 、、，構性相容於壓縮表面336，使㈣縮表面如與壓縮 处面336協同合作來在該連接器由第一狀態轉換成第二狀 怨的狀況之下喃合及變形波狀的外料體2Q6。此外，夹甜 90可具有複數個彈性構件1〇8冑置環繞其外部周緣％，如 第8圖與第9圖所示。彈性構件108可為張力ί裒，用於將 夾鉗90的個別扇區固定在一略微開放或擴展的位置上。該 等張力環可由金屬或塑膠製造。 32 201232970 在一示例性操作中，該等多種具體實施例之連接器1〇 概略可用以下的方式結合至同軸電纜200。波狀同軸電纜 200可藉由在該等波形波谷之一處切割用於***之電纜來 預備，且尤其係在第一波形波谷216處，或至少靠近第一 波形波谷216。相較於需要於波峰處切割該波狀的許多先前 技術電繞連接器所造成的困難而言，此可提供一種優點L 在同軸電纜200已經於該等波形波谷中任—者處切割而暮 露第一波形波谷216之後，同軸電纜200可根據上述之個 別的說明來預備。 然後連接器1 (M皮預先組農成其第一狀態。内部元件Θ =件二：Γ推動環12〇、失箝9。、墊片13〇)可藉由 第一检封件14到壓縮帽蓋6 〇的孔趙 於第二凸緣72而被固持在軸向.：中’_其對接 =到壓縮帽蓋6㈣孔66當中直到其對===樣 ’***夾* 90直到其對接於爽甜I、第-㈣# 片130到壓縮帽蓋6〇的孔％备 衣120,及***聖 該裝置的第二絕緣n15()_m其對接於夾钳％。 絕緣體150到管狀連接器本體 Φ可藉由***第二 體對接於内部孔26上的肩 、26當中直到該絕續 ***導電銷170到第二絕月28而破固持在軸向壓縮中; 在刖述具體實施例的案例中， * 央通孔158當中。 狀連接器本體20的孔26之、名緣體40可被***在管 第-絕緣體4G的管狀心4 ^然錢端環⑽可被***名 連接器本體可藉由可滑 w後壓縮帽蓋60與n 地喝合壓、_蓋_管狀連接器 33 201232970 本體20而於初始時耦，、 狀態。在所示的目° ，以建立連接器10的第〜 '、、.'、體實施例中，麗缩㈣g 動崎管狀連接器本體2。的外 僅在壓縮帽蓋6〇 ^周、、彖直到墊片13〇 2〇的第二端以，二 =广亦喷合管狀連接器本體 定位上。错此在该第-狀態中固持該等個別組件在 f所揭示的具體實施例中電 發明不限於此同軸魏_為該環狀變化 鉗90被旋入在定位±，壤狀波形不允許爽 例。因此，炎鉗90 ^ 波狀同轴電覺段的宰 許夹钳90穿過在 ^徑向地向外伸展，以允 在-呈辨· 』軸電麗2GG +外部導體2G6的迪仙f 在具體實施例中，彈性構 …皮狀段。 90徑向地向外伸展，同時ΓίΓ換性，且允許· 法自由活動。、u的個別扇區受限制W 1Λ 田0軸電、，見200經由壓縮帽蓋60被推動,…、 ，10當中時’失鉗90徑向地向外延伸，以;:動到連 體206的波妝、、由夂 穿過外部邋 等波狀波谷當中 波谷’然後徑向地向内安置 轉換=所f之具體實施例中’連接器10由該第- —液壓^ 由手來執行，或在大部分案例h /'(未顯示於圖式）執行。該工且嚙合 與管狀連接哭土獅μ ，、函口麼％帽蓋 接„„本體2〇，並將它們擠壓在一起，1 contracted surface 92) and another - pressed hemp surface (compression table of compression ring 80 I = = compression cap 60 toward the f-connector body 2 〇, axially advances to promote the expandable clamp 9G in the tube rr Within the direction of compression, the axial displacement causes the expandable clamp 90 to deform the gasket, 23 201232970: portion 132, such that the expandable clamp 9 turns toward the compression ring 80 axially The mantle penetrates through the deformed inner region 132 of the shim 130 through the shim 13 再. Further such axial advancement of the expandable jaw 9〇 reduces the compressible surface of the expandable clip 9 与The annular volume 89 between the compression surfaces of the ring 8 turns. The decrease in the % volume 89 causes the first-exposed waveform 214 of the outer conductor of the coaxial environment to be either expandable between the compressed surfaces. The compression surface 92 of the pliers 90 is thinner than the compression surface % of the compression ring 8A. In this second state, the compression surface, as described above, collapses the first exposure waveform 214 into a collapsed waveform 215, the collapsed waveform 215 Is defined as a first exposed waveform 214 that has been self-folding or self-distorting to create an external guide 206 ❺ a double thickness. Specifically, in at least a portion of the 'opening waveform 215' in a particular embodiment, the collapsed waveform 21s has twice the thickness of the outer conductor 206. In another embodiment, the enemy is reduced In most of the waveform 215, the collapsed waveform 215 has two L thicknesses of the outer conductor 2" 6. In yet another embodiment, the collapsed waveform 215 has twice the thickness of the outer conductor 206 throughout the collapsed waveform. The compression surfaces further compress the collapsed waveform 215 therebetween to facilitate a functional electrical connection between the corrugated outer conductor 206 of the coaxial cable 2 and the tubular connector body 2 . The tubular mandrel 46 is axially Extending into the annular recess 224 ' thereby insulating the corrugated outer conductor 〇 6 from the central conductor 202. The compression ring 8 抵 pressed against the collapsed waveform 215 in the second state may further be included in the compressed surface An annular recess 88, the annular recess 88 forms a structure for receiving the leading edge 226 of the first exposed waveform 214, as shown in Fig. 4. The connector 1 is switched from the first state to the second state. Of the 24 201232970 status Next, the edge 226 enters the annular recess and the axial movement toward the other causes the leading edge 2: the faces 92 and 86 are wrinkled within the annular recess 88 to form a concave portion 88, and the waveform 215 is contracted. The material _ shrinks in the shape of the pressure m 卩 88. The wrinkles are between the compression surfaces 92 and 86 between (4) and (4) 2 =, and the two stages of the crimping waveform 215 are open to the curve 5 itself. Mechanically connected. The relatively expandable tongs of the 1G are 90-step-packable.: The slanted edge u〇, which promotes the displacement of the shims (10) when the compression cap 6 前进 is oriented axially toward the face. ==Connecting the forest body 20 At the same time, the inner region 13 of the gasket 130 is sewn, or other stresses, the cockroach <number mark, narrow shape. The cymbal f is in the form of a pattern to promote the deformation of the cymbal 13 〇 2 〇 a sufficiently rigid material to be made as when - the coaxial extension: the preparation end 21 〇 is inserted into the connector =. The stopper, but also has sufficient elasticity, by the second = clamp tubular material can be used to feed the pliers 90 towards the thin soft di-shaped shape. The cymbal (10) can be made by - performing the same: a similar material is made - it is referred to as Fig. 2. The connector 1G is further - 150' which is first set by the first insulator 40 in the tubular connection 3 - ^ Within the hole 26. The second end 156 of the first body 2, the central through hole 158, and the first through hole 158 are slidably engaged with the inner hole 26 of the structure of the money body 20, and the configuration 25 201232970 is engaged in the tubular connector A shoulder 28 on the inner bore 26 of the body 20. The connector 1 further may include a conductive pin 17 设置 disposed within the central through hole (9) of the second insulator 150. The conductive pin 17A can include a first end ”2, a second end 174, and an axial seat 176 extending axially from the second end 174. f, also refers to FIGS. 4 and 5, when coaxial Wei is inserted into the connection port. In the middle of the field, the axial tube of the conductive pin 170 accommodates the exposed length 212 of the central conductor 2〇2 of the coaxial electric 4 200. The axial direction of the axial tube holder us is axially crossed. The slits 178 can be cut into the conductive pins 17〇 at predetermined intervals in the axial header 176, whereby a plurality of fingers 179 are defined between the slits 178, which are structurally configured to be prepared The first surface 42 of the first insulator 40 may further include an annular outer rim 52 extending axially from the first surface when the exposed length 212 of the tip end 21 is inserted into the axial tube holder 176. The annular outer rim 52 defines a ring 2' that is structurally movable toward the tubular connector body 20 from the compression cap (9) and from the first state to the second end 174 of the second state. Figure 6, the second body of the compression body forwards to the second state system (4) and the first surface 42 engages the conductive pin 170. The two ends 174, the fourth hole 158 of the first insulator 150 (four) to the ground 170. Also attached to the moxibustion of the Zhaodi 7® r- sub-electric steel 2: two: = shrink cap 6 〇 toward the axial direction of the tubular connector body Further, the second state causes the first insulator 4 to engage the second end 156 of the second insulation. The second insulator 26 of the second insulator 26 201232970 150 may further comprise a structure for receiving the first insulator 40 An annular recess 16 of the outer edge 52. is not disposed. The second state is a configuration in which the connector 10 and the coaxial cable 200 are electrically connected. Specifically, in the second state, the ground state 10 is electrically and mechanically coupled to the coaxial cable, and the 四 (4) 200 transmits a signal via the connector 1G and reaches a connector 另外 (not shown) that is coupled to the connector. In this second state, the shawus has been axially advanced beyond the first end (5) of the second insulator 15'' to allow the conductive galvanic '170 to be coupled to the central g-seat of the port (not shown). In addition, at least a portion of the entire sheet 130 is compressed and encased in a clamp push ring 12, an expandable clip 9Q and a tubular joint contact 20. Some other portion of the spacer 13'''''''''''''''''''''''''''' The display connector 10 can be configured to compress the cap 60. 4 Further, the second state causes the second end 24 of the first-to-end 1J joint connector body 2 of the clamp push ring 120. At the same time, the pressure 6 mouth * 丄 「 「 「 「 「 车 " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " Upper-outer j-hole portion 30. The contact between these individual portions can be used as an additional stop cap when axially advancing the shoulder cover 60 to the tubular connector body 2〇 The movement of the portions in the connector 10, and the order in which the first exposure waveform 214 of the preparation is removed, may be changed from that shown in the previous section, for example. The first insulator is 40 years old and the double thin ring 8〇27 201232970 = the internal hole of the connector body 20, the first "insulator 4" has interference mating. Due to the axial direction in the bore 26, the inner insulator of the tube connector body 2 is resistant to friction with the insulator. If the frictional force against the motion of the first-wound motion is smaller than the crimping coaxial electric power (the first exposure body 214 is the same as the compression ring 8〇, the first insulator is cried in the tubular connection; ^ The first part of the cable-exposure waveform is called the enemy contraction. In addition, for example, the inside of the 1% hole is axially advanced. The axial advancement of the first two: the sixth 〇 toward the #-connector body 2〇, ΑΙ into the first insulator 40 矣 ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ 电 电 电 电 电 电 电 电 电 电 第二 第二 第二 第二 第二 第二Conductive pin,. Compressing the cap edge: the second connecting body 20 is advanced to form a second end of the second end body 40 of the second insulator 15 可 at the tubular surface 42. The clamper 90 on the 20th axially forward cover 6 is axially advanced in the tubular connector body 2/causing the expandable ring 8〇, thereby reducing the expandable grip inside the factory facing the factory The difference between the 92 and the contraction surface of the retractable ring 80 is reduced by the first exposure waveform 214. In addition, for example, if = (4), the first insulator 4 〇 and the retractable ring within the blister body 20 are approximately equal to the friction insulator 40 and the compression of the movement of the first exposed waveform 2 皱The ring 8 is in the tubular connector body:: the displacement of the force 'the first and the coaxial electricity is exposed in the first exposed waveform 2, the cover 60 is advanced toward the tubular connector body 2G (four) ^ when the cap becomes the second state It happens at the same time. The first state 28 201232970 - referring again to Figures 2 and 7, the connector 10 can include a first = 2 = ring) provided with a groove 13 on the outer periphery of the connector body ( The heart (10)' in the second state is shown and the connector 1 is placed in the inner hole 66 of the cap 60: left: the tubular connector body 20 and the second connection compressed within the inner hole 66 The 1G advance step may include a two-flange 72. Please also refer to: the cover of the second cow 14, and the fort cap 6. The - the foot + r~,, the brother 4 and 5, the connector The 1〇 component is placed in front of the shrink cap 篕6〇 toward the tubular connector body 20. The shoulder Ip 68::: the outer shoulder 124 of the ring 12. and the compression cap connector body The 20 axial compression cap 6 〇 faces the tubular exclusion so that the second seal has a second seal 14 condition, thereby expanding the 〇Λ〇k to the ground thereby providing the pressing end Φ of the coaxial cable 200. The effective seal between the inner bore 66 of the compression cap 6〇 is at one of its ends by the first seal member 12, and at the end thereof by the second seal member 14. Coaxial with electricity! When winding 200, it can prevent moisture from entering the mechanical bridge: connector 1G and coaxial Wei, thereby keeping the connection β and the Weizhi_electric money difficult to connect. 180 Figure 1 In Fig. 7, the connector 10 can have a nut that is 'a fastener piece' to the itching (not shown). The fastening connection includes a seal for sealing to the port. 182. In addition, 1〇 can also have a male thread for connecting to a female connector. The connector is configured to have an angled connection H', for example, a 9G degree f tube connection is crying. 29 201232970 Please refer to Fig. 8, Another embodiment of the illustrated splicer 1() has a circular wave-like coaxial electrical alignment with a ready-to-end training alignment on a central axis 2. Figure 8 shows a circular undulation The front end 210 of the coaxial power supply is inserted during the exemplary connector 1(). The coaxial power-specific embodiment comprises a hollow central conductor 2〇2, surrounded by an insulator 2() Thanks to one of the wavy outer body and the protective sheath that is applied around the outer conductor. The coaxial front end 21〇 contains the center. The length of the body 2G2 is 1 2〇4 and the corrugated outer conductor 2〇6. The outer protective edge of the protective body 208 is high until the second concave wave...=: the concave trough 216 and the The trajectory waveform 214 is at least a second exposure waveform 22 between the second quadrangent wave 218 and the third recessed wave valley gull. The preliminary end 21〇 must be configured (ie, cut) such that the leading edge 226 of the 206 The advantages of one of the concave valleys applied to the corrugated outer conductor will be described in detail below. The insulator 204 is made of a soft flexible material, such as a polymer foam. ^' = Description: The advantage of the connection (4) is that it or the on-site ampere, and can reliably and effectively establish a strong connection between the connection core and the annular wave-like coaxial connection β 10 - the specific embodiment includes the conductive pin The second insulation 150' first, the body 150 is disposed within the tubular connector body 20, == the internal hole of the splicer body 20 - the second insulation is set to 4 the conductive pin 170' to place the conductive pin 170 Fixed at 30 201232970. In addition, the second insulator 15 is placed between the conductive pins 170盥. Conductive pin 170 provides a connection to _;. The hollow middle of the connected preliminary end 21G is spliced with a 10 #150 clip conductor 2〇2, and the second insulator electrically insulates the conductive pin 170 from the first end 22 of the tubular connector body 20. In the disclosed embodiment, the conductive pin 17 is used. The outwardly extending flexible teeth 332 and the stationary element state, and the teeth, are axially movable to engage the inner diameter teeth 332 of the center conductor 2〇2. A plurality of members 334 are used to prevent the fork. In one embodiment, the internal bore of the tubular connector body 2 includes a compression surface 336 as shown in Fig. 8 and enlarged in Fig. 11. The compression surface 336 includes a first region 335 that extends radially inwardly from the inner bore 26 of the tubular connector body 20, and a second portion that extends radially inwardly toward the coaxial, electrically thin, ready tip 2H) Area 337. The compression surface 336 acts as a compression surface similar to the compression surfaces 92, 86' in the above-described embodiments because the compression surface 336 assists in the collapse of the corrugated outer conductor 206 (first-exposure wave) 214). In a specific embodiment, the second region 337 has an acute angle with the longitudinal axis 2; the angle can be between 5 and 60 degrees. In the disclosed embodiment, the angle of the second region 337 is approximately 45 degrees. The proximal end of the compression surface 336 can further include a flat face 338 that is substantially perpendicular to the longitudinal axis 2. The flat surface 338, in cooperation with the compression surface 336, salivas and deforms the corrugated outer conductor 2〇6 (first exposed waveform 214) until the connector is converted from the first state shown in FIG. 8 to the ninth Under the condition of the second state shown in the figure, it collapses itself to form a collapsed waveform 215. 31 201232970 In the past, the second end 24 of the tubular connector body 20 includes a sloped edge 342 to assist the tubular connector body 2 (4) state I when the connector 24 is converted to the second state: . More specifically, the 'sloping edge 342 allows for a sweetness of 9. Can :::: edge (4), by the factory _ cover 6. Toward two:: = inner hole 26 of the two-shaped body 20. For example, the tubular connector two states cause the front of the compression cap 60; the cavities are converted into the advancement body 2G (four) advancement hole 26 ° _ 95 Τ / month and functionally sprinkle the interior of the connector body In a particular embodiment, the tongs 9G can also compress the surface 382 on the compression surface %. The compression surface 382 acts as a compression surface, which is the 麈, face 86 of the particular embodiment. Further, the 'compressed surface, the configuration is compatible with the compression surface 336, such that the (4) constricted surface cooperates with the compression surface 336 to circulate under the condition that the connector is converted from the first state to the second resentment. And a deformed corrugated outer body 2Q6. Further, the clip 90 may have a plurality of elastic members 1 胄 8 disposed around the outer circumference % thereof as shown in Figs. 8 and 9. The resilient member 108 can be tensioned to secure individual sectors of the clamp 90 in a slightly open or extended position. The tension rings can be made of metal or plastic. 32 201232970 In an exemplary operation, the connectors of the various embodiments may be summarized to the coaxial cable 200 in the following manner. The corrugated coaxial cable 200 can be prepared by cutting a cable for insertion at one of the waveform troughs, and particularly at the first waveform trough 216, or at least near the first waveform trough 216. This provides an advantage L in that the coaxial cable 200 has been cut in any of the waveform troughs, as compared to the difficulties caused by the need to cut the corrugated many prior art electrical wound connectors at the crests. After exposing the first waveform trough 216, the coaxial cable 200 can be prepared in accordance with the individual instructions described above. Then the connector 1 (M skin is pre-grouped into its first state. The internal components Θ = 2: Γ push ring 12 〇, tongs 9 垫片, shims 13 〇) can be compressed by the first seal 14 The hole of the cap 6 赵 is held in the axial direction of the second flange 72. The middle _ is its butt = into the hole 66 of the compression cap 6 (four) until it is opposite === sample insert clip 90 until it is docked Yu Shuang Tian I, the first - (four) # piece 130 to the compression cap 6 〇 hole % preparation 120, and the second insulation n15 () _ m inserted into the device is docked to the clamp %. The insulator 150 to the tubular connector body Φ can be broken and held in the axial compression by inserting the second body into the shoulder 26 of the inner hole 26 until the continuous insertion of the conductive pin 170 to the second month 28; In the case of the specific embodiment, * is in the middle of the hole 158. The hole body 26 of the connector body 20 can be inserted into the tubular core 4 of the tube-insulator 4G. The end ring (10) can be inserted into the connector body to be compressed by the slidable w-cap. 60 and n drink and press, _ cover _ tubular connector 33 201232970 body 20 and initially coupled, state. In the illustrated position, to establish the first '', '.' body embodiment of the connector 10, the squash (four) g moving mesh tubular connector body 2 is shown. The outer portion of the tubular connector body is positioned only by compressing the cap 6 〇 ^ 、, 彖 until the second end of the shims 13 〇 2 以. In this particular state, the individual components are held in the first state. The invention is not limited to the coaxial invention. The annular variation clamp 90 is screwed into the positioning ±, and the magnetic waveform is not allowed to be cool. example. Therefore, the tamper 90 wavy coaxial electrical sensation section of the slinger clamp 90 is extended radially outwardly to allow the 呈 呈 』 』 axis shaft 2GG + outer conductor 2G6 In a particular embodiment, the elastic structure is a leather segment. The 90 is extended radially outwards, while being versatile, and allowing the method to move freely. The individual sectors of u are limited to W 1 Λ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 The wave makeup of 206, through the troughs in the wavy troughs such as the outer 邋, and then the radially inward placement of the conversion = f in the embodiment, the connector 10 is executed by the first - hydraulic ^ by hand Or in most cases h / ' (not shown in the schema) is executed. The work is meshed with the tubular connection, crying the lion, and the cap is connected to the body, and they are squeezed together.

盗10至該第二狀態。當該液壓卫 ^ S 。吕狀連接器本體20’在帽蓋孔66上的肩部 34 201232970 嚙合失鉗推動環12〇的凸緣 朝向另—者的進一步軸向前 纟縮帽蓋60與本體20Steal 10 to the second state. When the hydraulic guard ^ S. The shoulder of the connector body 20' on the cap hole 66 201232970 engages the flange of the tongs push ring 12〇 toward the further axial forward of the other cap 60 and the body 20

鉗90。因坆成夾鉗推動環12〇嚙合央 因為夾鉗90嚙合同軸電 ° X 夾鉗90朝向管狀連接器本體^白勺外部導體挪，當 朝向管狀連接$本俨2() & ^ 軸向地行進時電纜2〇〇亦 被設計成Π 向地行進。如上所述，塾片_ ^ 成有足夠撓性使失鉗9〇始紅* 盍60的進— 推動牙過墊片130。壓縮帽 器本體2〇。 以、’ 9〇與電纜200接近管狀連無 21^==W’”9圖所示，第一暴露波形 教以提料/ 狀連接器本體2G的壓縮表面加， ，、憂良的電氣接觸之方式來變形。請邮在一呈體 外料體施已經於波形波谷216處⑽，轉 軒愚/、S縮表面336使得外部導體2G6(第—暴露波形214〕 ^其本身之上，並成為擠人在管狀連接ϋ本體20的壓 :面336與夾鉗9〇的壓縮表面382之間。該折疊動作在 卜。Ρ導體206(第一暴露波形214)被皺縮在其本身之上^ ^皺縮波形215時產生外部導體2G6的兩個厚度，其可 ^者地改4電氣接觸。第1〇圖所示緒縮波形215之放大 ^匕括第一區域335與第二區域337、皺縮波形215與壓 ;表岳382的壓縮表面336以粗略分解.圖說明來描述多種 件實際上’該等組件被緊密地壓縮在一起。 a 第1Q圖進一步例示提供摩擦力來將連接器10鎖定在 弋位上的組件安排。夾鉗9〇的外徑與管狀連接器本體2〇 '内彳k之尺寸可提供一微小徑向干涉配接（RIF, Radial 35 201232970 interference fit)。協同於由夾钳9〇與管狀連接器本體2〇之 間的第-暴露波形214之壓縮所提供的徑向與軸向摩擦 力’連接器10 -旦軸向地前進到該第二狀態中之後，即無 過度力量之下係無法分離。 第11圖描述例示第一暴露波形214之折疊動作的方 ，。第-暴露波形214大約於第一波形波谷216處切割。 管狀連接器本ϋ 20的平坦面338通過第一暴露波形214的 前緣226之上’並接觸第一暴露波形214大致上接近第一 暴露波形214的尾隨彎曲點392，使得第—暴露波形214 折疊在其本身之上，如該箭頭所示。此種安排的—個優點 為同軸㈣2GG進行插人的—操作者不需要於—波形波谷 處精確地切軸魏胤其在概谷的任—側上提供寬 裕餘地。 在具體貫加例中，如第12圖所示並放大於$ ^ 中，自管狀連接器本體20的内部孔26徑向地向内延伸纪 第一區域335進一步可包含一保持特徵394,以進-步在一 徑向方向上蚊該變形的皺縮波形215。在—示例中，保类 特徵394為在第-區域335中—環狀凹部，使得第一區知 335軸向地内縮:相對應地，失鉗9〇可包括_相配保持半 徵396。在所例示的示例中，皺縮波形215不禮沿著相配备 壓縮表面336、382被夾住，亦被夹在保持特徵綱與保本 特徵396之間。依此方式，如果壓縮帽蓋6〇轴向地自管法 連接器本體20退出，在保持特徵394及保持特徵的^ 域中作用在皺縮波形215上的#向夹制力不㈣影響，^ 36 201232970 外部導體2丨5將不會過度 管狀連接器本體2〇退出可能造成帽蓋㈣ 電氣耦合的損耗，表面336與382之間 縮波物__合失:之間皺 此，接器i。繼續提供其所要與需==本體，因 第-狀^體實施例中，如第14圖所示，該連接器係在該 !:=。除了前述的壓縮表蝴之外，夹钳90進二 =包3 一傾斜緣372。傾斜緣372與壓縮表面如係安皇在 内= 在:相對前導角落邊緣上’壓縮表面382被徑向地向 Γ=緣372。傾斜緣372與共用軸2成-銳角的角 度’且傾斜緣372的角度少於壓縮表面382與 角度。傾斜緣372與壓縮表面382在該連接器自該第一狀 態轉換成該第二狀態的狀況之下做為壓縮表面^ : 在第14圖的具體實施例之壓縮環8()中可發現到相知 應麗縮表面。具體而言，壓縮環8G的壓縮表面狀進一步 包含彼此相對的壓縮表面381與傾斜緣371，且概略在壓命 表面86中形成- V型形狀。壓縮表面381與傾斜緣371 個別地對應並相配於壓縮表面382與傾斜緣372。換士之..， 傾斜緣371與共用車由2間的一角度係約為傾斜緣 度。同樣地’壓縮表面381與共用軸2間的—角度係約為 壓縮表面382的角度。利用此種組態，當連接器^由該第 狀態轉換成該第二狀態時’藉此朝向壓縮環8()軸向地位 移夾甜90，在夾钳環90上的傾斜緣372、壓縮表面搬個 別地功能性地哺合在壓縮環80上相對應的傾斜緣"I、壓 37 201232970 縮表面381，以在其間壓縮同軸電纜2〇〇的第一暴露波形 214’而皺鮮-暴露波形214本身。其結果秘縮波形215 以一角度被壓入在傾斜緣372與傾斜緣371之間，亦以另 一角度被壓入在壓縮表面382與壓縮表面381之間，藉此 形成V型形狀的壓縮。& V型的壓縮同時提供連接哭1〇 的軸向與㈣在該第二狀態下促進連接器1〇較佳地 機械性與電氣搞合至同軸電纜200，並防止連接器1〇於一 旦連接器H)移動至其第二狀態之後在無不料的力量下脫 離。 此外，在帛Η II的具體實施例中，壓縮環8〇包含唾 合第一絕緣體40的第二表面48之第一表面84。第一表面 84包含嚙合自第一絕緣體40的第二表面48軸向地突出之 一環狀有角度唇部346的一環狀凹部388。當連接器⑺自 該第-狀態軸向地轉換成該第二狀態時，壓縮環8〇功能性 地嚙合第一絕緣體40，其依此功能性地嚙合導電銷^川而 軸向地前進導電銷170穿過第二絕緣體15〇的中央通孔 158,使得導電銷170軸向地突出超過第二絕緣體15〇 -端’使得導電銷170可連接至該連接蜂(未顯示於 式）。再者’連接器10由該第_狀態轉換成該第二狀 造成暴露的中央導體202軸向地前進到導，電銷m的 管座176 #中，使得中央導體2G2機械性與電氣地輕〜 固定在導電銷Π0之内。因此，除了外部導體寫被= 性與電氣_合至管狀連接器本體2G，如上所述，: 體202機械性與電氣地耦合至導電銷17〇，使得連接器忉 38 201232970 :滿意地機械性與電氣―連接淳(未顯示於 在-具體實施例中，如第15圖所示，連接器⑺勺 ^鉗9〇上的壓縮表面382、傾斜緣Μ，及壓縮環8〇二 傾斜緣371、壓縮表面381，如上所述。這些壓縮表面382 傾:緣372、壓縮表面381、傾斜緣371根據以 戈 明來操作。此外，第15圖的具體實施例進-步包 2 84上的-平坦表面389，平坦表面389在結構上喃人 第-絕緣體40的第二表面48。第—絕緣體4 : =進-f包含喃合平坦表面389的—平坦環狀㈣—=面 二、接器10由該第一狀態軸向地轉換成該第二狀態時，壓 =80功能性㈣合第-絕賴4G，其依此魏性地嘴合 導電銷170以轴向地前進導電麟m穿過第二絕緣體⑼ =t=158,使得導電銷Μ軸向地突出超過第二絕緣 體⑼㈣-端⑸，使得導電们7〇可連接至該連接未 顯示於圖式）。再者，連接器」。.由該第一狀態轉換成該第 一狀態亦造成暴露的中央導體2〇2軸向地前進到導電銷 170的軸向官座176當中’使得中央導體2〇2機械性盘電氣 地耦合並固定在導電銷170之内。因此’除了外部導體2〇6 被機械性與電氣地耦合至管狀連接器本體2〇，.如上所述.， ^央導體202機械式與電氣地耦合至導電銷17〇，使得連接 器1〇可令人滿意地機械式與電氣地耦合至該連接埠（未顯 示於圖式）。 ， 現在請參照第16圖，連接器1000的一具體實施例可 39 201232970 為一直線連接器、—直角連接器、〜 曲連接器、或任崎納一同軸電纜的一；二器二彎 配的連接器。連接器1000其它具體督 ’、、 ' 之相 電鐵1。’的一中央導體18，，其中同轴:二二:納一::軸 螺旋狀或螺旋形之外部導體14, 匕括一波狀、 納的同軸㈣10,之—示例為—心如，由連接11 1000收 之為s ’、’、累知形波狀電纜，有時候稱 之為Superflex⑧電纜。螺旋 士 編_公司製造的50歐姆2電規的不例包括由 「嶋1」電纜(wwwandrew =x」電纜與75歐姆 特殊種類的同軸魏形波狀同軸電繞為 =電Π!度可撓性時為必要。不同於標準 == 二Γ皮狀同柄電_-不規則外部表 定性、電氣^盘、接盗或連接技術可提供高度的機械穩 瘦的不規料部表面。―般心^个日㈣㈣抽害°亥電 可具有優良機械強度的優 會斷裂絲開。在波狀力環繞角料曲而不 部導體。連接器麵可用:電預:中’該波狀護_ 在使用期間簡化操作與安I預先_的配置提供給使用者 連接器1000的且辦眘, . 1020 墙/、實施例可包括一連接器本體 20红卜第一端1〇22、一第二端 連 接器本體1020之第一端& 及疋我隹遝 ;丨L「 W〇22與第二端购之間的一内部 壓縮構件1_，其包含+請2、-第二 W〇64、及定義在壓縮構件_的第-端膽與第二端 201232970 1064之間的—内部孔1〇66，壓縮構件1〇6〇的第一端ι〇62 之結構為嚙合連接器本體1020的第二端1024 -夾鉗 1090,其包含一壓縮表面1〇92、一第二端1〇94 .定義在夾 鉗1090的壓縮表面1〇92舆第二端1〇94之間的—内部孔 1096’其中夹鉗1〇90促進一同軸電纜1〇，之螺接式的***:； 及配置在連接器本體1G2G之内的-壓縮表面1()86(或與連 接器本體1020為一體的一表面，且其徑向地向内突出到蓮 接器本體1020的内部孔1026當中），其中連接器本體_ 與I缩構件觸的其中之—者朝向另一者的軸向前進促進 夾钳1090軸向地前進到壓縮絲1〇86附近(或是與連接器 本體102G為-體的—表面，且其徑向地向内突出到連接器 本體1020的内部孔刪當中），使得爽甜删與壓縮表 面娜(或是與連接器本體刪為一體的一表面，且其輪 向地向内犬㈣連接II本體1G2G的㈣孔丨⑽當中）可 ，此之間傳遞力量。連接器咖的其它具體實施例可包括 連接器本體1020，其具有一第-端贈與-第二端 1024 ; —壓縮構件1060配晋出έ _置成軸向地壓縮在該連接器本體 ，-夾鉗1090設置在該連接器本體1〇2〇之夾 =。：置成促進一同轴電麗1〇，之螺接式… 二兩個配&表面，該等配合表面配置成當該連接器1000移 動到一關閉位置當中時在兑間 魏1G，的-外部 2之—或多個第—暴露波形…兩個連接器，例如 連接器1000，其可用於產峰_ Ψ ^^ 、生跳線器，跳線器可被包裝且 …給消費者。一跳線器可為具有一連接器的-同軸電繞 201232970 10’，例如連接器1000，Pliers 90. Because the clamps push the ring 12〇 to engage the center because the clamp 90 engages the coaxial electric ° X clamp 90 toward the tubular connector body ^ the outer conductor is moved, when facing the tubular connection $本俨2() & ^ axial The cable 2 is also designed to travel in the direction of travel. As described above, the cymbal _ ^ is sufficiently flexible to cause the tongs 9 to start red* 盍 60 in advance - pushing the teeth over the spacer 130. Compress the cap body 2〇. The first exposed waveform is taught by the compression surface of the material/connector body 2G, and the electrical contact is made with the '9〇 and the cable 200 close to the tubular connection without 21^==W'". The way to deform. Please mail in an in vitro material body already at the waveform trough 216 (10), turn the Xuan Yu /, S shrink surface 336 so that the outer conductor 2G6 (the first - exposed waveform 214) ^ itself and become The squeeze is between the pressure of the tubular joint body 20: the surface 336 and the compression surface 382 of the clamp 9A. The folding action is performed. The tantalum conductor 206 (the first exposed waveform 214) is shrunk above itself ^ When the waveform 215 is collapsed, two thicknesses of the outer conductor 2G6 are generated, which can be electrically changed. The amplification of the inset waveform 215 shown in FIG. 1 includes the first region 335 and the second region 337, The collapsed waveform 215 and the pressure; the compression surface 336 of the watch 382 is roughly exploded. The illustration illustrates the various components in fact that the components are tightly compressed together. a Figure 1Q further illustrates the provision of friction to the connector 10 component arrangement locked on the clamp position. The outer diameter of the clamp 9〇 and the tubular connector body 2〇' The size of 彳k provides a small radial interference fit (RIF, Radial 35 201232970 interference fit). It is provided in cooperation with the compression of the first-exposed waveform 214 between the clamp 9〇 and the tubular connector body 2〇. The radial and axial frictional force of the connector 10 can not be separated after axially advancing into the second state, i.e., without excessive force. Figure 11 depicts a square illustrating the folding action of the first exposed waveform 214. The first-exposure waveform 214 is cut about the first waveform trough 216. The flat surface 338 of the tubular connector body 20 passes over the leading edge 226 of the first exposed waveform 214 and is in contact with the first exposed waveform 214 substantially The trailing bend point 392 of the first exposed waveform 214 causes the first exposed waveform 214 to be folded over itself, as indicated by the arrow. The advantage of this arrangement is that the coaxial (four) 2GG is inserted - the operator does not need to - The waveform trough accurately cuts the axis and provides a margin of leeway on any side of the valley. In the specific example, as shown in Fig. 12 and enlarged in $^, from the tubular connector body 20 Internal bore 26 radial The inwardly extending first region 335 can further include a retention feature 394 to further step the deformed collapsed waveform 215 in a radial direction. In the example, the warranty feature 394 is at the first region 335 The middle-annular recess causes the first zone 335 to be axially retracted: correspondingly, the nipple 9 can include a _matching retaining half 396. In the illustrated example, the collapsed waveform 215 is indecent along the phase The compression surface 336, 382 is clamped and also sandwiched between the retention feature and the cost-preserving feature 396. In this manner, if the compression cap 6 is axially withdrawn from the tubular connector body 20, the retention feature 394 And the retaining force in the ^ domain acts on the crimping waveform 215. The clamping force does not affect the (4), ^ 36 201232970 The outer conductor 2丨5 will not overexpose the tubular connector body 2〇 may cause the cap (4) to be electrically coupled The loss, the surface of the surface between 336 and 382, the shrinkage __ combined loss: between the wrinkle this, the connector i. Continuing to provide what it wants and needs == ontology, as in the first embodiment, as shown in Figure 14, the connector is at !:=. In addition to the aforementioned compression gauge, the clamp 90 is in two = pack 3 - a sloped edge 372. The sloped edge 372 and the compression surface are as follows: on the opposite leading edge edge' the compression surface 382 is radially oriented toward the edge 372. The inclined edge 372 forms an acute angle ' with the common axis 2 and the angle of the inclined edge 372 is less than the compression surface 382 and angle. The inclined edge 372 and the compression surface 382 act as a compression surface under the condition that the connector transitions from the first state to the second state: in the compression ring 8() of the specific embodiment of Fig. 14 Knowing that the surface should be condensed. Specifically, the compressed surface shape of the compression ring 8G further includes a compression surface 381 and a sloped edge 371 which are opposed to each other, and a V-shaped shape is formed in the pressure surface 86 as a rough. The compression surface 381 individually corresponds to the inclined edge 371 and is matched to the compression surface 382 and the inclined edge 372. For the change of the steering wheel, the inclined edge 371 and the shared car are inclined at an angle of two. Similarly, the angle between the "compression surface 381" and the common axis 2 is about the angle of the compression surface 382. With this configuration, when the connector is switched from the first state to the second state, 'by this, the sweetness 90 is axially displaced toward the compression ring 8 (), the inclined edge 372 on the clamp ring 90, compression The surface is individually functionally fed to the corresponding inclined edge "I, pressure 37 201232970 reduced surface 381 on the compression ring 80 to wrinkle the first exposed waveform 214' of the coaxial cable 2〇〇 therebetween The waveform 214 itself is exposed. As a result, the constricted waveform 215 is pressed between the inclined edge 372 and the inclined edge 371 at an angle, and is also pressed between the compression surface 382 and the compression surface 381 at another angle, thereby forming a V-shaped compression. . & V-type compression provides both the axial direction of the connection and (4) in the second state, facilitating the connector 1 to be mechanically and electrically coupled to the coaxial cable 200, and preventing the connector 1 from being smashed once The connector H) is disengaged under undesired force after moving to its second state. Moreover, in a particular embodiment of the 帛Η II, the compression ring 8A includes a first surface 84 that salves the second surface 48 of the first insulator 40. The first surface 84 includes an annular recess 388 that engages an annular angled lip 346 that projects axially from the second surface 48 of the first insulator 40. When the connector (7) is axially converted from the first state to the second state, the compression ring 8〇 functionally engages the first insulator 40, which in turn mechanically engages the conductive pin to axially advance the conductive The pin 170 passes through the central through hole 158 of the second insulator 15A such that the conductive pin 170 projects axially beyond the second end of the second insulator 15 such that the conductive pin 170 can be coupled to the connecting bee (not shown). Further, the connector 10 is converted from the first state to the second shape to cause the exposed central conductor 202 to be axially advanced to the guide, the socket 176# of the electric pin m, so that the central conductor 2G2 is mechanically and electrically light. ~ Fixed within the conductive pin Π0. Thus, in addition to the outer conductor writing being coupled to the tubular connector body 2G, as described above, the body 202 is mechanically and electrically coupled to the conductive pin 17〇 such that the connector 忉38 201232970: satisfactorily mechanical And the electrical connection 未 (not shown in the specific embodiment, as shown in Fig. 15, the compression surface 382 on the connector (7), the nipple 9 、, the inclined edge Μ, and the compression ring 8 〇 two inclined edges 371 The compression surface 381 is as described above. These compression surfaces 382 are inclined: the edge 372, the compression surface 381, and the inclined edge 371 are operated in accordance with Geming. In addition, the embodiment of Fig. 15 proceeds to - on the package 2 84 The flat surface 389, the flat surface 389 is structurally embossed to the second surface 48 of the first insulator 40. The first insulator 4: = in-f comprises a flat annular surface 389 - flat ring (four) - = surface two, connector 10 when the first state is axially converted into the second state, the pressure = 80 functional (four) and the first - the absolute 4G, which in turn is used to axially advance the conductive pin 170 to advance axially. Passing through the second insulator (9) = t = 158, so that the conductive pin Μ protrudes axially beyond the second insulator (9) (four) - end , So that the conductive 7〇 they may be connected to the connector not shown in the drawings). Furthermore, the connector". Converting from the first state to the first state also causes the exposed center conductor 2〇2 to advance axially into the axial seat 176 of the conductive pin 170 such that the central conductor 2〇2 mechanical disk is electrically coupled and It is fixed inside the conductive pin 170. Thus, 'except for the outer conductor 2〇6 being mechanically and electrically coupled to the tubular connector body 2〇. As described above, the central conductor 202 is mechanically and electrically coupled to the conductive pin 17〇 such that the connector 1〇 It can be satisfactorily mechanically and electrically coupled to the port (not shown). Referring now to FIG. 16, a specific embodiment of the connector 1000 can be used as a straight connector, a right angle connector, a ~flex connector, or a one-way two-coaxial cable. Connector. The connector 1000 is specifically connected to the electric iron 1 of the ', '. a central conductor 18, wherein the coaxial: two: two: a shaft spiral or spiral outer conductor 14, including a wave, nano coaxial (four) 10, which - for example - heart, by Connection 11 1000 is called s ', ', wavy cable, sometimes called Superflex8 cable. The example of the 50 ohm 2 electric gauge manufactured by the company is composed of a "嶋1" cable (wwwandrew = x" cable and a 75 ohm special type of coaxial Wei-shaped coaxial coaxial electric winding = electric power! Sex is necessary. Different from the standard == two-skinned with the handle _- irregular external table qualitative, electrical ^ disk, thief or connection technology can provide a high degree of mechanical stability of the surface of the irregular material. Heart ^ (days) (four) (four) smashing ° Hai electric can have excellent mechanical strength of the excellent fracture wire open. In the wave force around the corner of the material but not the conductor. Connector surface available: electric pre-: in the 'the wave protection _ The simplification of the operation and the pre-configuration during use is provided to the user of the connector 1000. The 1020 wall/the embodiment may include a connector body 20, a first end, a second, a second The first end of the end connector body 1020 & and the internal compression member 1_ between the L" W〇22 and the second end purchase, which includes +2, -2nd W〇64, And an internal hole 1〇66 defined between the first end of the compression member _ and the second end 201232970 1064, the first of the compression member 1〇6〇 The end 〇 62 is configured to engage the second end 1024 of the connector body 1020 - the clamp 1090, which includes a compression surface 1 〇 92 and a second end 1 〇 94. The compression surface defined on the clamp 1090 is 1 〇 92. The inner hole 1096' between the second end 1〇94, wherein the clamp 1〇90 promotes a coaxial cable 1〇, the screw-type insertion:; and the compression surface 1 disposed within the connector body 1G2G () 86 (or a surface integral with the connector body 1020 and projecting radially inwardly into the inner bore 1026 of the connector body 1020), wherein the connector body _ is in contact with the I contracting member The axial advancement of the person toward the other facilitates the axial advancement of the jaw 1090 to the vicinity of the compression wire 1〇86 (or the body-body surface of the connector body 102G, and which projects radially inwardly to the connection) The inner hole of the body 1020 is deleted, so that the sweet surface is cut and compressed surface (or a surface which is integrated with the connector body, and its wheeled inward dog (4) is connected to the (4) hole of the II body 1G2G (10) Wherein, a force can be transferred between the other. Other embodiments of the connector coffee can include the connector body 10 20, which has a first-end gift-second end 1024; - the compression member 1060 is configured to be axially compressed in the connector body, and the clamp 1090 is disposed on the connector body 1〇2〇 The clip =.: is set to promote a coaxial electric 1 inch, the screw type... two two matching & surface, the mating surfaces are configured to be in the exchange when the connector 1000 is moved into a closed position Wei 1G, - external 2 - or multiple - exposed waveforms... two connectors, such as connector 1000, which can be used to produce peaks _ Ψ ^^, jumpers, jumpers can be packaged and... To the consumer. A jumper can be a coaxial coaxial winding 201232970 10' having a connector, such as connector 1000,

f二連接器亦可包括關聯於連接器、麵所述之组件/特 徵’其山中該第-連接器可操作地㈣於—同軸魏1〇，的一 第端’而該第二連接器可操作地固定於同軸電境，的一 第一端。—跳線器的具體實施例可包括其它組件，例如一 或多個信號強波器、模製的中繼器與類似者。 同軸魏10,可麵合至連接器1000，其中同轴電纜1〇, 可包括由一絕緣體16，環繞之一固態的中央導體18,、環繞 絕緣體16’的-波狀螺旋式的外部導體M，、及環繞外部^ 體14’的-電㈣套12，。同軸電、镜1()’的預備末端可包括 中央導體18’的一暴露長度、外部導體14，的一第一暴露波 形17’，使得至少一第一暴露波形17，自電纜護套12，延伸 一個距離。絕緣體16，由一軟性可撓材料製成，例如聚合物 發泡體。絕緣體16’的一部分可自同軸電纜1〇，的預備末端 移除，藉此提供一「挖空核心」的環狀凹穴，用於收納連 接盗1000的一組件之一部分。但是，同軸電纜10,的具體 實施例可能不包含挖空核心之絕緣體16，的一部分，其同時 42 201232970 二即省同轴電親1()’的―段拜備’並允許連接器⑽〇不包 括一支撐心軸，例如管狀心軸46。 ...The f-connector may also include a component/feature associated with the connector, the first connector of the mountain being operatively (four) at the first end of the coaxial connector, and the second connector may be It is operatively fixed to a first end of the coaxial environment. - A particular embodiment of the jumper can include other components, such as one or more signal boosters, molded repeaters, and the like. The coaxial Wei 10 can be coupled to the connector 1000, wherein the coaxial cable 1〇 can include a central conductor 18 surrounded by a solid body 16 and a corrugated spiral outer conductor M surrounding the insulator 16' , and the electric (four) set 12 surrounding the external body 14'. The preliminary end of the coaxial, mirror 1 ()' may include an exposed length of the central conductor 18', a first exposed waveform 17' of the outer conductor 14, such that at least a first exposed waveform 17, from the cable jacket 12, Extend a distance. The insulator 16 is made of a soft flexible material such as a polymer foam. A portion of the insulator 16' can be removed from the preliminary end of the coaxial cable, thereby providing a "hollowed core" annular recess for receiving a portion of a component of the connection pirate 1000. However, a specific embodiment of the coaxial cable 10 may not include a portion of the hollowed out core insulator 16, which at the same time 42 201232970, that is, the coaxial coaxial electric pro 1 () 'segment of the 'participation' and allow the connector (10) A support mandrel, such as a tubular mandrel 46, is not included. ...

第16圖所示為連接器咖之—具體實施例在 :置上的橫截面圖。連接器麵可包括-管狀連接心: 狀的連接器本體咖之具體實施例可共㈡ 實貝㈣的結構，並做為管狀連接器本體2〇，如^ 例如，連接器本體1〇2〇可包括一第一端1〇22、一第二、 刪、及-内部孔刪。連接器本體刪包含一導·^ 。連接器1000的具體實施例可包括一緊固件⑽，复开 才呆作地附接至連接器本體_靠近第—端職處。L 件118G可為—輕合構件或-螺故螺帽，用於4合至該、隶k 埠(未顯示於圖式）。緊固件聽可包括用於密封至^ 崞的-密封件1182。另外，連接器麵可具有用於連、 一母連接埠之公螺紋。連接H _亦可配置成— : 接器，例如90度彎管連接器。' ^ 連接器1000的具體實施例可包括一第一密封钵 1012，例如〇型環，其設置在連接器本體1〇2〇的外部周緣 上的一溝槽之内，並在連接器1〇〇〇在該關閉位置上的況 之下留駐於管狀連接n本體1G2G與壓縮構件1Q6G的内部 孔1066之間。第-密封件1()12的具體實施例可共用相同 或實質上相同之第-密封件12:的結構性與功能性態樣，如 上所述。再者，連接器1〇〇〇的具體實施例進一步可包括有 包含在内部孔1066之内的一第二密封件1〇14及壓縮構件 1060的一第二凸緣。第二密封件1〇14的具體實施例可共用 43 201232970 相同或實質上相同的第_宗 .^ L ⑽弟—在封件14的結構性與功能性能 樣，如上所述。 心、 難二連接器1〇00的具體實施例可包括-第-絕緣體 尤盆^第—絕緣體可包括表面1G42,其唾合壓縮環1080, 二：名-表面腦。第一絕緣體腳可包括一Fig. 16 is a cross-sectional view showing the connector in a specific embodiment. The connector face may include a tubular connection core: a specific embodiment of the connector body may be a total of (2) a solid shell (four) structure, and as a tubular connector body 2, such as ^ for example, the connector body 1〇2〇 It may include a first end 1 〇 22, a second end, a deletion, and an internal hole deletion. The connector body deletes a guide ·^. A particular embodiment of the connector 1000 can include a fastener (10) that is reattached to be attached to the connector body _ near the first end. The L piece 118G can be a light fitting member or a screw nut for the purpose of 4 to the same (not shown in the drawings). The fastener can include a seal 1182 for sealing to the 。. Alternatively, the connector face can have a male thread for the connection, a female connection. The connection H _ can also be configured as a : : connector, such as a 90 degree elbow connector. A particular embodiment of the connector 1000 can include a first sealing jaw 1012, such as a 〇-shaped ring disposed within a groove on the outer periphery of the connector body 1〇2〇, and at the connector 1〇 The crucible remains between the tubular connection n body 1G2G and the inner bore 1066 of the compression member 1Q6G under the condition of the closed position. The specific embodiment of the first seal member (1) 12 may share the structural and functional aspects of the same or substantially the same first seal member 12, as described above. Further, a particular embodiment of the connector 1A can further include a second seal member 14a and a second flange of the compression member 1060 contained within the inner bore 1066. The specific embodiment of the second seal 1〇14 can share the same or substantially the same number of the same or substantially the same. The structural and functional properties of the seal 14 are as described above. A specific embodiment of the core and difficult connector 1 00 can include a -first insulator - the insulator - the insulator can include a surface 1G42 having a salivating compression ring 1080, a name-surface brain. The first insulator foot can include a

的開口以在連接器1000的〜 A # 關閉位置上容納中央導體18, 成以促^由絕緣的非導電材料形 緣體_的具體實施例二Γ:二氣二绝 】Λ， 爱％ 1080 ’但不會喃合電增 10的外部導體Μ，，以於同李由 ，覽 傷末端處不包括n、1 在帥魏〇的預 撐。 挖工核心的凹穴的具體實施例中提供支 連接器1000的具體實m «Ρ丄 連接器本體之内：=一步可包含設置在管狀的 ΐΠη # 内邛孔1〇26之内的一第二絕緣體 115〇,鄰近連接器本體102〇 一端 f 1〇5〇的且㈣的弟& 1〇22。第一絕緣體 , 々 匕，^ 用與第二絕緣體150之相同或實質 ^目同的結構與功能，如關聯於連接器H)所述。例如，^ ::緣體⑽可包含一第一物、一第二端收、： Τ央通孔1158及一凸綾lisa π ^ 说去 緣U54，凸緣1154結構上配置成可 :動地嗤合管狀的連接器本體咖之内部孔脳，且配置 4成嚙合在管狀本體職之㈣孔脳上的—户 第二絕緣體1150可將中央導體18，與連接器本‘ 20電氣絕緣。連接器1〇〇〇進一步可包括設置在絕緣體 50的中央通孔1158之内的一中央銷“。中央銷“7〇 44 201232970 可包含一第一端1172、_第二端1174與自第二端1174軸 向延伸的一軸向管座1176。當同軸電纜1〇，被***到連接 器1000當中時’中央銷1170的軸向管座1176收納同轴電 現10的中央導體18，之一暴露央端。沿著轴向管座1176 的長，軸向穿過的複數個狹缝1178可在軸向管座 U預定的間隔被切割成中央銷im，藉此在該等狹縫7 ==義複數指部，其結構上配置成在#預備的同轴㈣ 、、導體18之暴露尖端***人到轴向管座1176卷 時即擴展。 田中 連接器誦的具體實施例進一步可包括—壓林 1〇6〇。壓縮構件1〇6〇的 、、籌f 阁 U實&例可共賴壓縮帽蓋60 壓㈣株、上相同的結構與功能’如前所述。舉例來說;， ^ 可包括—第-端1㈤、-第二端聰及且 置成^部國的—内部孔1G66。壓縮構件1G60可配 動地唾合連接ϋ本體咖的第二端咖更/、體而5為可滑 1麵的具时_進—步可包括當壓縮構件 轴白地二、ί器本體咖且進—步朝向連接器本體1020 ==用於在該轴向方向上敵縮同議丨。，之外 =體Η，的第-暴露波形17’之手段。連接器謂之特定 、、且件f用於皺縮該外部導體14,之手段在此處做說明。1 1000仍參照第16圖且另參照第17 κ與第18 ®，連接器 呈骑、體實加例可包括—壓縮環1G8G。壓縮環1080的 貫施例可共用與_環_同或實質上相同的結構與 45 201232970 二？環1_可_第-絕緣 第—表面賴，及做為一壓 波形=^縮同軸㈣价的外部導體14,之第—暴露 、^勺壓縮表面1〇86。壓縮環1080包含一通孔1〇82 以允許同轴魏10,的中央導ϋ 18’之車由向通道。 1 =夕卜，連接器麵的具體實施例可包括—失甜刪.， i體fot在連接器酬之内滑動，且功能性地喷合連接器 2 _的内部孔刪。夾鉗1_的具體實施例可丘用 = 類似或實質上類似的結構與功能，如上所述。、然 聊的ΤΓ可能不包括獨立徑向位移段。換言之，夾鉗 態樣可為祕，料包括概^它結構性 許的:展。夹㈣90不需要擴展來允 電€10的***。夾鉗1090包含一壓 伸靠 #第—大出邊緣刪與#向地向内延 帛一鳊1094的一第二突出邊緣11〇 =:0。央—壓縮表―為另一壓縮 缩表面二上述之壓縮表面被帶入到接近夹鉗1090的壓 〗:之第二=況之下糊 縮/位移到連I:體：縮，構件1〇60被軸向地屢 第〇之上以移動至-關閉位置，如 再者，夹鉗讓可配置成環繞_體14，， ;2在=面：!編合外部導體14，與_套 置上。夾鉗顏的内側表面可包括-溝槽 46 201232970 部’其中該溝槽部對應於外部導體14,的一外部表面。失甜 1090的具體實施例可包括一溝槽部其具有對應於—螺線 狀或螺旋开)波狀外部導體的螺紋或溝槽 ，例如 Sup erf] ex ⑧ 電纜。因為夾鉗1090為剛性’並具有一螺旋形或螺線狀型 悲之溝槽的一内侧表面，以容納外部導體14,的一螺旋形或 螺線狀型態，一安裝者可以將同軸電纜1〇’螺接成與夾鉗 1090之機械式嚙合，其可確保適當的安裝（例如完全括入^ 同轴電繞10’）。換言之，夾鉗1090配置成促進同軸電纟覽1〇, 之螺接式的***。 連接器1000的具體實施例進一步可包含—夾鉗推動環 1120。夾鉗推動環1120的具體實施例可共用相同或實質上 相同的夹钳推動環12 0.之結構性與功能性態樣，如前所述:。 舉例來說，夾鉗推動環1120在緒構上組態成可滑動地嚙各 壓縮構件1060的中央肩部1068。夾鉗推動環112〇進一争 可包含一第一端1126,其結構上功能性地嚙合夾鉗1〇9〇 的第二端1094。在其它具體實施例中，壓縮構件1〇6〇在結 構上直接功能性地嚙合夾鉗1〇9〇,使得壓縮構件1〇6〇的軸 向前進造成夾鉗1090的軸向前進。 該預備的電纜末端可設置在連接器1〇〇〇中，且如所示 設置在第16圖之連接器刪之内，其中連接器麵斑同 軸観1G’係在-開放位置上。為了到達第16圖所示的開 放位置’該預備的㈣末端被播入到壓縮構件咖的内部 孔1〇66當中’直到波狀之外部導體14，的前、緣u，齡爽甜 1090。在4合時’同軸魏1G，進—封螺接式地軸向前進 201232970 穿過内部孔1G96’使得在夾钳1G9G的内側表面上的螺旋形 /螺叙狀形狀的溝槽接合於同轴㈣丨Q，的螺旋形/螺旋狀形 狀的外部導體14’ ’以在連接器本體1020之内進-步可螺 接式地軸向移動。當同轴電鐵1G，被完全地螺接進入或接近 於凡王螺接進入到與夾鉗1謂的4合時，同軸電繞1〇,的 第暴路波形17’在當連接器1〇〇〇被移動到一關閉位置上 時能夠喃合壓縮環1 〇8〇。 第18圖所不為連接器1000具有外部導體141缩在壓 縮表面1086、1〇92之間的一關閉位置之具體實施例。當第 η暴路波形17 合壓縮環丨刪時，其可變形而抵住壓輪 % 1〇8〇的-有角度表面（即壓縮表面麵广如前所述。壓 縮環1_與夾鋤刪之配合壓縮表面腦㈣用於在 波狀科部導體14,本身之域縮、壓扁、變形及/或折疊 乂捏縮鎖定、抓住、夾住等電繞1〇，的外部導體⑷。本 ，術項域專業人士應瞭解到外部導體Μ，被捏縮缴縮/折疊 2等兩個配合壓縮表面之_方式類似於或相同於以上 關聯於連接器1000所述降 h 吓疋除了外部導體14,具有-螺旋狀 及形，且夾鉗1〇9〇為剛性以丨如 ]0，、隹 勹眺(例如不會位移而允許同軸電纜 〇進入’並促進同轴電纜10，之螺接式的***)。 繼續參照圖式，第’19圖盥笛π 丄 _ . 矛圃興第圖為具有一外蓋5〇〇 的連接态1〇(或連接器1000)之且 一 且女 體實施例。第19圖所示為 “有一外蓋5〇〇的連接器志奎 态岐連接器_在-第-位置The opening is for accommodating the central conductor 18 at the ~A # closed position of the connector 1000, to facilitate the formation of the non-conductive material-shaped body of the insulating body. 具体: Two gas two absolutely Λ, love% 1080 'But it will not harmonize the external conductor 电 of 10, so that with the Li, the end of the injury does not include n, 1 in the pre-support of Shuai Wei. In a specific embodiment of the pocket of the digging core, the specific connector of the connector 1000 is provided. The inside of the connector body: = one step may include a first one disposed inside the tubular ΐΠη 邛 邛 〇 〇 26 The second insulator 115 is adjacent to the end of the connector body 102 at the end of the first and second sides of the connector body (1). The first insulator, 々, ^ is identical or substantially identical to the structure and function of the second insulator 150, as described in connection with connector H). For example, the ^:-edge body (10) may include a first object, a second end, and: a central through hole 1158 and a convex lisa π ^ said to the edge U54, the flange 1154 is configured to be movable The inner bore of the tubular connector body is configured and the second insulator 1150, which is configured to engage the tubular body (4) bore, electrically insulates the center conductor 18 from the connector body '20. The connector 1 further may include a central pin "" disposed within the central through hole 1158 of the insulator 50. The central pin "7" 44 201232970 may include a first end 1172, a second end 1174 and a second end 1174 axially extending an axial socket 1176. When the coaxial cable is inserted into the connector 1000, the axial socket 1176 of the central pin 1170 receives the central conductor 18 of the coaxial output 10, one of which exposes the central end. A plurality of slits 1178 extending axially along the length of the axial stem 1176 can be cut into a central pin im at a predetermined interval of the axial stem U, whereby the slits in the slits 7 == The portion is structurally arranged to expand when the pre-existing coaxial (four), the exposed tip of the conductor 18 is inserted into the axial tube holder 1176. A specific embodiment of the Tanaka connector can further include - pressurizing the forest. The compression member 1 〇 6 〇 、 U U U U U U 压缩 压缩 压缩 压缩 压缩 压缩 压缩 压缩 压缩 压缩 压缩 压缩 压缩 压缩 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 For example, ^ can include - the first end 1 (five), the second end of the congruence and the internal hole 1G66. The compression member 1G60 can be responsively connected to the second end of the body of the body, and the body 5 can be a slippery one. The step can include when the compression member is axially erected. The step is toward the connector body 1020 == for the enemy in the axial direction. , outside the body, the means of the first-exposed waveform 17'. The connector is meant to be specific, and the means for crimping the outer conductor 14 is described herein. 1 1000 Still referring to Figure 16 and with reference to 17th κ and 18®, the connector rider can also include a compression ring 1G8G. The embodiment of the compression ring 1080 can share the same or substantially the same structure as the _ ring _ 45 201232970 II? Ring 1_ can be - first - insulated first - surface, and as a pressure waveform = ^ shrink coaxial (four) priced outer conductor 14, the first - exposed, ^ scoop compression surface 1 〇 86. The compression ring 1080 includes a through hole 1 〇 82 to allow the coaxial guide 10' of the center guide 18' to be guided by the passage. 1 =, a specific embodiment of the connector face may include - de-sweet deletion. The i-body fot slides within the connector and functionally breaks the internal hole of the connector 2_. Specific embodiments of the clamp 1_ can be used for similar or substantially similar structures and functions, as described above. However, the chatter may not include independent radial displacement segments. In other words, the clamp can be a secret, including the structure of the exhibition: exhibition. The clip (four) 90 does not need to be extended to allow the insertion of €10. The clamp 1090 includes a second protruding edge 11 〇 =: 0 which is extended by #第一-大出边边和#向向向向帛1094. The central compression table is the compression surface of the other compression surface. The compression surface is brought into the pressure close to the clamp 1090: the second = condition of the paste/displacement to the joint I: body: contraction, member 1〇 60 is axially over the top to move to the -off position, as well, the clamp allows configurable to surround the body 14, 2; 2 in the = face:! Coupling the outer conductor 14, with the _ nest on. The inner side surface of the jaw face may include a groove 46 201232970 portion where the groove portion corresponds to an outer surface of the outer conductor 14. A particular embodiment of the loss of sweetness 1090 can include a groove portion having a thread or groove corresponding to a wavy outer conductor of a spiral or spiral opening, such as a Sup erf] ex 8 cable. Because the clamp 1090 is rigid and has an inner side surface of a spiral or spiral-shaped channel to accommodate the outer conductor 14, a spiral or spiral type, a installer can connect the coaxial cable 1"' is threaded into mechanical engagement with the clamp 1090, which ensures proper mounting (eg, fully enclosed ^ coaxial winding 10'). In other words, the clamp 1090 is configured to facilitate the insertion of the coaxial electrical interface. A particular embodiment of the connector 1000 can further include a clamp push ring 1120. The particular embodiment of the clamp pusher ring 1120 can share the structural and functional aspects of the same or substantially the same clamp pusher ring 120, as previously described. For example, the clamp push ring 1120 is configured to slidably engage the central shoulder 1068 of each compression member 1060. The clamp push ring 112 can be engaged to include a first end 1126 that structurally engages the second end 1094 of the clamp 1〇9〇. In other embodiments, the compression member 1〇6〇 directly mechanically engages the jaws 1〇9〇 such that the axial advancement of the compression members 1〇6〇 causes axial advancement of the jaws 1090. The prepared cable end can be disposed in the connector 1 , and is disposed within the connector of Figure 16 as shown, wherein the connector face is attached to the axis 観 1G' in the -open position. In order to reach the open position shown in Fig. 16, the prepared (four) end is broadcasted into the inner hole 1〇66 of the compression member coffee' until the front edge and the edge u of the corrugated outer conductor 14, which is 1090. At 4 o'clock, 'coaxial Wei 1G, the inlet-seal screw-type axial advancement 201232970 passes through the inner hole 1G96' so that the spiral/spiral-shaped groove on the inner side surface of the clamp 1G9G is joined to the coaxial (4) The outer conductor 14'' of the spiral/helical shape of the 丨Q, is axially movable in the threaded manner within the connector body 1020. When the coaxial electric iron 1G is completely screwed into or close to the king screw to enter the 4 joint with the clamp 1, the coaxial electric winding 1', the first storm waveform 17' is in the connector 1 When the 〇〇〇 is moved to a closed position, it can harmonize the compression ring 1 〇 8 〇. Figure 18 is not a specific embodiment of the connector 1000 having a closed position in which the outer conductor 141 is retracted between the compression surfaces 1086, 1〇92. When the η storm path waveform 17 is compressed and compressed, it can be deformed to resist the angled surface of the pressure wheel % 1 〇 8 ( (ie, the compressed surface surface is wide as described above. The compression ring 1_ and the clamp 锄Deleting the combined surface of the brain (4) for the outer conductor (4) in the wavy section conductor 14, itself shrinking, flattening, deforming and/or folding, pinching, locking, grasping, clamping, etc. Ben, the field domain professional should understand that the external conductor Μ, is pinched and contracted/folded 2 and so on with the compression surface. The way is similar to or the same as the above associated with the connector 1000. The outer conductor 14 has a spiral shape and a shape, and the clamp 1〇9〇 is rigid such as 0, 隹勹眺 (for example, the coaxial cable is allowed to enter without displacement) and the coaxial cable 10 is promoted. Screw-in type insertion. Continue to refer to the figure, the '19 figure 盥 π π 丄 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Female body embodiment. Figure 19 shows "connector with a cover 5 志 志 志 岐 _ _ _ in the - position

上的具體實施例。第20圖所示A 固叮丁馮具有一外蓋500的連接器 川(或連接器1〇〇〇)在一第 乐在封的位置上之具體實施例。 48 201232970 外蓋50G可為1封件、—密封構件、—密封罩、一密封 罩組合件及類似者，其可快速地安裝在—連接器之上及/或 自連接益移除’例如連接器10(或連接器1000)，並且外蓋 "T、、、ς止於連接埠的隔板，或終止於與多種尺寸/形狀 的另一同轴電纜連接器之—切片連接。外蓋500能夠保護 規連接器或其它組件防止環境影響，例如濕氣與亭 匕裒士兄因素並可維持其密封特性而不受溫度變動影響。 外盖，的具體實施例可為一連接器10(或連接器1000)的 _外蓋’其可用於終止—同軸電鏡1G’，其中外蓋，包含 一拉長的本體560’其包含一電覺末端5〇1肖一隸合器末峰 502、一内部表面5〇3與一外部表面5〇4，其中拉長的本體 560沿著一縱向軸5〇5延伸。内部表面5〇3能夠包括用於攀 蓋同軸電纜10之至少一部分的一第一區域51〇,並可自電 繞末端501延伸至一第一肩部？其中該第一區域具有最小 的第一橫截面直徑。内部表® 503進一步可包括一第二區 域520 ’其用於覆蓋至少連接器本體部55〇，且其可自該第 肩部延伸至一第二肩部。第二區域52〇可具有大於該最 小第一橫截面直徑的一最小第二橫截面直徑。内部表面5〇3 進一步可包括一第三區域530,其用於覆蓋連接器1000之 至少一部分，且其自該第二肩部延伸至耦合器末端5〇2。’第 二區域530可具有大於該最小第二橫截面直徑的一最小第 三橫截面直徑。外蓋500的其它具體實施例可包括複數個 周圍溝槽515’以在當該外蓋由該第一位置移動到該第二位 置時k供應變消除。該等周圍溝槽515可延伸少於完全環 49 201232970 繞外蓋500的筮— 體實施例可包Γ=。之周圍。另外，外蓋的具 能力。在〜來在溫度變錢間維持其密封 银力—貫知例中，外蓋綱由石夕氧橡膠製成。 5月-照第1圖至第2〇圖，一種連接— 至-同軸電雙的方法可包括以下步驟:提供具== 1〇二、=第二端_及至少兩個酉己合表面的—連接器本體 誦之一^構件1G6G配置成被轴向地壓縮到連接器本體 失鉗1090配置在連接器本體1〇2〇之内， 甜1090設置成促進一同軸電繞10,之螺接式的***，节等 配合表面配置成當連接器画移動到—關閉位置上時^ 間敞縮同軸電10,的-外部導體14，之一或多=靈 :17”，前進一同軸電…入連接器= 1020,其中_魏1()，的—螺旋形波狀的外部導體⑷ 接式地接合夾鉗觸的一内侧表面之一螺旋狀溝槽部，且 軸向地壓觸壓縮構件誦到連接器本體丨⑽ 動連接器1000到一關閉的位置。 請進一步參照第1圖至第20圖，且特別參照第18圖， W卜㈣電_—導體之—不 分(例如未垂直中央軸2切割的連接器具體實施例 外部導體，或是具有-非對稱螺旋形狀的連接器讓 之一外部導體14，）可被轴向不規則地設置在一連接器 H)(或連接器1_)之内，使得當同轴電藥扇 10，)之外部導體206(或外部導體14，)的非均句部分被壓縮 在夹钳90(或夾钳誦)及-壓縮表面（例如連接哭呈體實 201232970The specific embodiment above. Fig. 20 shows a specific embodiment of the connector of the outer cover 500 (or the connector 1) in the position of the first cover. 48 201232970 The cover 50G can be a seal, a sealing member, a sealing cover, a sealing cover assembly and the like, which can be quickly mounted on the connector and/or removed from the connection, such as a connection The device 10 (or the connector 1000), and the outer cover "T,, is terminated by a spacer connected to the cassette, or terminated by a slice connection with another coaxial cable connector of various sizes/shapes. The cover 500 is capable of protecting the connector or other components from environmental influences such as moisture and kiosk and maintaining their sealing characteristics without being affected by temperature variations. The outer cover may be an outer cover of a connector 10 (or connector 1000) that can be used to terminate the coaxial electron microscope 1G', wherein the outer cover includes an elongated body 560' which contains an electric The end 5 〇 1 隶 隶 end 502, an inner surface 5 〇 3 and an outer surface 5 〇 4, wherein the elongated body 560 extends along a longitudinal axis 5 〇 5 . The inner surface 5〇3 can include a first region 51〇 for climbing at least a portion of the coaxial cable 10 and can extend from the electrical end 501 to a first shoulder. Wherein the first region has a minimum first cross-sectional diameter. The internal table® 503 can further include a second region 520' for covering at least the connector body portion 55A and extending from the first shoulder to a second shoulder. The second region 52A can have a minimum second cross-sectional diameter that is greater than the minimum first cross-sectional diameter. The inner surface 〇3 may further include a third region 530 for covering at least a portion of the connector 1000 and extending from the second shoulder to the coupler end 5〇2. The second region 530 can have a minimum third cross-sectional diameter that is greater than the minimum second cross-sectional diameter. Other embodiments of the outer cover 500 can include a plurality of peripheral grooves 515' to eliminate the supply of k when the outer cover is moved from the first position to the second position. The surrounding grooves 515 can extend less than the full ring 49 201232970. The embodiment of the outer cover 500 can be wrapped. Around it. In addition, the outer cover has the ability. In the case of ~ to maintain its sealed silver force between temperature and money - in the example, the outer cover is made of Shixi oxygen rubber. May - According to Figures 1 to 2, a method of connecting-to-coaxial double can include the steps of: providing == 1 〇 2, = second end _ and at least two 酉 酉 surfaces - one of the connector bodies ^ 1 member 6G6G is configured to be axially compressed to the connector body. The tongs 1090 are disposed within the connector body 1〇2〇, and the sweet 1090 is arranged to facilitate a coaxial winding 10, which is screwed The insertion surface, the knot and the like mating surface are configured such that when the connector is drawn to the closed position, the coaxial conductor 10 is connected, the outer conductor 14, one or more = Ling: 17", advancing a coaxial electric... Into the connector = 1020, wherein the wei-shaped outer conductor (4) of the wavy corrugated joint engages one of the inner side surfaces of the gripper and the helical groove portion, and axially presses the compression member诵 到 到 到 到 到 到 到 到 到 到 到 到 到 到 到 到 到 到 到 到 到 到 到 到 到 到 到 到 到 到 到 到 到 到 到 到 到 到 到 到 到 到 到Connector for cutting the central shaft 2, the outer conductor of the embodiment, or one of the connectors having an asymmetrical spiral shape The partial conductors 14,) may be axially irregularly disposed within a connector H) (or connector 1_) such that when the coaxial conductor 10, the outer conductor 206 (or outer conductor 14,) The non-uniform part is compressed in the clamp 90 (or clamp 诵) and - compression surface (such as the connection crying body 201232970

器1〇〇〇)被附接至_魏(或同轴錢⑺，)在一壓縮 位置’夾鉗9G(或失鉗刪)的至少_部分可展延地變形以 符t於同軸電繞2〇〇(或同軸魏1〇，)之外部導體206(或办 、92、336、381與382，及連接器 哮1092)之間，當連接器.1〇(或連接1)) attached to _Wei (or coaxial money (7),) in a compression position ' at least _ part of the clamp 9G (or lost clamp) can be extended to deform to the coaxial winding 2〇〇 (or coaxial Wei 1〇,) between the outer conductor 206 (or office, 92, 336, 381 and 382, and the connector sling 1092), when the connector is 1 〇 (or connected

. 〜、义河於很動式互調變（PIM，Passive dulation)。通常可有效地加入剛性金屬接觸元件來 ^免，f連接器的壽命期間降低或劣化了接觸壓力的大 ^ 疋如以上參照第18圖.所述，非均勻性的問題會在 虽操作非均勻螺旋式波狀的㈣魏1。，或當操作之電叙 〜、有被切割或另外形成使得該導體之末端軸向地不規則 或非句自地垂直於該共料㈣*發生。當有轴肖不規則丨生 時，例如-螺旋形導體之隱含的軸向位移或某種其它軸向 不規則性’該導體在當於配合表面之間被抓取時可得到一 漸進式或另為可變的厚度。尤其是對於—職形導體，基 本上會有部分具有大於大致相對⑽度之—部分的歷縮 壁厚度，或大約該同軸電纜的導體之一完整螺旋迴圈的一 半因此，如帛18圖所述，外部導體14，在連接器1〇〇〇的 側上要比被壓縮在連接器1000的另一側上會有一較大 (較厚）的部分被壓縮在壓縮表面丨、應2之間。 處理此可變厚度的方式（其可變性會影響PIM與其它 201232970 間的同輪電雙不規則導體或不規則配合表面之 例如，對於且有Ί特定的形狀來容納該可變厚度。 卿外部導體二旋形外部導體的電繞，例— 後小心地與二螺旋式地修改，然 困難且昂貴彼此對率其面。這些修改實際上很 .. 並可此無法適當地對應在該電纜導體中由π 在安裝期間製造及/或預備造成_化。 中由於 圖圖至第20圖所述且進-步參照第21 題的獨特與創=㈣之軸向不規則導體元件之問 面。舉例心兒，一：：包含加入—可展延的配合壓縮表 1090d·^ —連器麵(或連接11 1G)可包括一夾鉗 展延變形的材I其中爽甜1〇9〇(或夹甜9〇)至少部分由可 八可展、材料所構成’使得夾钳1〇9〇(或夾鉗90)的一配 sU可展!壓縮表面1G92(或92、382)用於在#被壓縮抵住 -σ σ延的壓縮表面92、382、1092時，可支撐該起飯 的、抓取的、或另兔厭始°〆起敏 f 206Γ切 向不規則導體，例如外部導 體施(或外部導體14，），而無關於外部導體施(或外部導 體14 )之轴向均勻的對準或厚度。一連接器麵(或連接器 10)之具體實施例可包含—連接器本體或管狀連接器 本體一20山)’其具有一第一端(例如第一端22)、一第二端(例 如第一端24)及定義在連接器本體腿(或管狀連接器本體 20)之第端與第二端之間的—内部孔(例如内部孔26)。 一連接器1000(或連接器】〇)亦可包含一壓縮構件 1060(或屢縮帽蓋6〇)，其具有—第一端(例如第一端幻）、 52 201232970 -第二端(例如第二端64)及定義在該第— 間的-内部^例如内部孔66)，該等壓縮構件篇 帽蓋摩可相對於連接料體麵(或"連_本體2 軸向地移動。再者，—連接器麵(或連接器1G)的且體實 _可包含i縮表面’例如一壓縮表面幻Μ:， 其軸向地位在連接器本體！㈣(或管狀連接器本體抑的第 一端(例如第一端22)與壓縮構件刪(或麗縮帽蓋60)“ 二端（例如末端64)之間。另外，一連接器麵(或連接器 1〇)的具體實施例可包含—夾钳，例如夹钳90或夾鉗1090, 其中該夾鉗具有-第-端(例如壓縮表面92)、一第二端(例 如第二端94)及定義在夹鉗1〇9〇(或夹鉗9〇)的第一端與第 二端之間的一内部孔（例如内部札96)，其中夾鉗1〇9〇(或梃 钳90)之至J 一部分的結構上嚙合一同軸電纜(例如同軸電 纜200或同軸電纜1〇’)的一導體(例如外部導體2〇6或外部 導體14’）。連接器1000(或連接器1〇)之具體實施例的壓縮 表面可為一夹鉗1〇9〇(或夾鉗9〇)的一部分，例如壓縮表面 92 、 382 〇 一連接器1000(或連接器1〇)的具體實施例可包括一夾 鉗，例如夾鉗1〇9〇(或夾鉗90)，其中夾鉗i〇9〇(或夾鉗90) 至少部分由一可展延材料建構。這種可展延材料可為塑 膠’例如一聚醚醯亞胺（PEI，polyetherimide)材料，其具有 重複的C37H24〇6N2分子單元，且分子量大約為592 g/mol。 Ultem®品牌的PEI可提供優良的特性，包括高介電強度、 天然防火性、及低煙霧產生，以及連續使用到340°F(170°C) 53 201232970 時具有高機械特性與可接受的效能。但是本技術專業人士 必須瞭解到可利用其它塑膠材料，例如啦"，以形成 該連接器之-可展延表面中至少—部分，例如夾们啊或 夾钳90)的-可展延表面部分。此外，本技術領域專業人士 必須瞭解到像是夹錯刪(或夾鉗9G)之夹鉗可包括至少一 部分’其至少部分由—可展延金屬材料所建構，例如：金、 銀、鉛、銅、紹、锡、翻、鋅、鎳或由其任何级合所得到 的合金’但不限於此。連接器刚0(或連接n 1G)的可展延 部分可協助促進實體與電氣性符合於同軸魏細(或同轴 電規10’)之導體的-部分之一軸向不規則性(像是一非均句 軸向厚度）’其可被壓縮在夾钳麵(或失钳9G)的至少兩個 配合表面（例如壓縮表面92、382、1092)及/或該等配合表面 之間，像是壓縮表面86、336、3δ1，或其它連接器麵（或 連接器1G)組件’其配置成壓縮該同軸魏的導體之一轴向 不規則部分到其間，例如部分7QGa與部分裏(如第Η圖 所示）或第18 ®所示之未標示的部分，藉以確保可接受的 特性’尤其7C對於令人滿意的pm及/或信號回波損耗 量。 對於-連接器1000 (或連接器1〇)之具體實施例，連接 器本體1020(或皆狀連接器本體2〇)與壓縮構件1〇6〇(或壓 縮帽蓋6G)之-朝向另-者的軸向前進促進夾鉗誦(或失 钳90)轴向地前進到該_表面附近，例如壓縮表面％、 336、381 ’使知同軸電纜2〇〇(或同轴電纜1〇，)的導體(例如 外部導體206、外部導體14，）之一部分7〇〇a、7〇〇b被壓縮 54 201232970 在夹鉗1G9G(或夾鉗9G)與該壓縮表面（例如壓縮表面86、 336 381)之間’其方式造成同軸電缓(或同轴電鏡⑽) 之外部導體206(或外部導體i4，）的部分7〇〇a、7_之可變 轴向厚度，其中夾钳9〇(或失崔甘1〇9〇)的至少一部分％可展 延地變形而符合於同軸㈣雇(或同軸㈣ig，)之外部導 體206(或外部導體14，）的部分·a、雇的可變轴向厚 度，如第21圖中示例性方式所述。 -連接器1000 (或連接器1〇)的可展延組件比如果由剛 性材料製斜會更有可能潛變，本技術領域專#人士將可 暸解到有可能生產-連接器麵（或連接器1())的一具體實 施例，其不會隨著時間而損失其對該導體的「抓握」，例如 夕—卜部導體施《外部導體M，，換言之，該連接器在經歷了 每日重複使用、或季節性溫度與其它環境變化的期間延長 的使用仍可具有與—L體的可接受實體及電氣鳴合:。 連接器1000(或連接器10)之組件的材料特性，例如夹甜 1090(或夾鉗90)，或是關聯於可展延的配合表面之其它特 徵’皆可為了耐久使用來做選擇。再者，可展延組件，例 如夾鉗1090(或夾甜90)，可限定在剛性支撐結構之間，以 協助防止該等可展延组件(例如夹钳％或夹鉗刪)的變形 超過指定的結構性限度。此外，—連_麵（或連接器 10)的具體實施例之—可展延配合表面可包含與連接器本 體刪(或管狀連接器本體20)為—體的—表面之—部分， 其徑向地延伸至連接器本體画(或管狀連接器本體；的 一内部孔1026(或内部孔26)。 55 201232970 «月再進一步參照 一第一端（例如第一端2 —〃勺方法，可包括提供具有 管狀連接器本體2〇 哭、：第二端(例如第二端24)的一 驟可包含提供—壓 °°體1020之步驟。一額外的步 欣 拖巾自盖6〇、壓输播从 管狀連接器切2G &構件圆，其可相對於 置在該連接器本體的莖冑1。2。轴向地移動 ’並可設 6〇、壓縮構件1060沾贫端（例如第一端22)與壓縮帽蓋 驟可包括提供-=、：㈣ 200、1()，的—外 9G，其配置餘進同轴電镜 ，步驟可包括=二=14,之〜， 合表面(例如壓縮表面 的壓縮表面1_、_，二 者為可展延性。 /、中該專至少兩個配合結構之一 另㈣於連接—連接器i 20〇、10’的方法可包括至冋軸電纜 1〇、_當中，其^軸=電=勝1〇’到連接器 對於管狀連接器本體2接 3财法可包括相 6〇 ^ 1060 , 至少兩個配合表面(例如壓縮表面86、9::^^^ =體實施例之連接雜的壓縮表面二 92之間，其方式能夠造成被壓縮在其間的同車由電: 56 201232970 2〇〇(或同轴電纜10，）之外部導體206(或外部導體14，）的部 刀70〇a、7〇〇b之可變厚度，其中連接器具體實施例ι〇的 可展延配合表面（例如壓縮表面86、92、336、381、382之 )，或疋連接器1000的壓縮表面1086、1092可符合於同 轴電繞200、10’的外部導體2〇6、外部導體14,之部分700a、 700b的可變軸向厚度來變形。 晴參照第8圖至第13圖，未技術領域專業人士必須療 解到關於所有連接器10、1〇〇〇的結構與功能性可應用到多 種連接器尺寸、種類與公母端。舉例來說，第8圖至第13 圖所示為用於連接至—獨立公端組件的一母連接器。再 者’本技術領域專業人士必須瞭解到關於第1圖至第21圖 中任一者所示之所有連接器1〇、1〇〇〇的結構與功能性能夠 且必須設計成維持橫跨該連接的一同軸型式，並具有與諒 附接的電纜匹配的類似良好定義的阻抗。因此，多種尺| 的連接器10、1000能夠且必須製造成有效地與相對應尺寸 的電親-起操作。料’必齡解到此處所述關於連接器 10、酬的具體實施例之結構與功能性可操作地適用^ DIN式連接H、BNC式連接器、式連接器、N型連接 器、及其它類似的同軸電纟覽連接器’其結構與功能性為可 操作地相稱於此處所述具體實施例的連接器、iGn : 請進一步參關式，第22顧示為-連接器1〇之— 具體實施例的-部分當附著於一同軸電镜2〇〇時的 放大橫截面圖。同軸錢2⑻可包括由—内部介電絕緣體 204環繞的-中央導體202。中*導體2〇2可由固態導電材 57 201232970 料形成’或可為一中空藤番姓# 類似於前述之那些内部介電絕緣體，3 = 可 繞内部介電絕緣體咖。外部導體2G6可為^1206可環 可為固態’或可包含多種編織或纏繞的導電芦。式上 態。 月歧、螺旋狀或其它可操作的組 如第22圖所不’同軸電纜200所示為在一筮_ a : 附接至連接器10，同軸電- '、、、第二狀態中 -狀態被壓縮到連接养1〇 : 經藉由軸向壓縮自-第 該第二壓縮狀態中，第—固定機械式位置當中。在 '、、邑、，象體40留駐靠进壓給 依此留駐靠近連接器1G的夾鉗％ _其 部導體2〇6之-部分機械性地夹在壓 面如與可移動夹鉗9〇的對應壓表的^合壓縮表 鉗9〇可為固態或具有槽縫喝二表 定性可藉由相對於夾鉗9q的壓 ^的機械性穩 的傾:緣371之配合鄰近度來加強。外縮環80 段包含-皺縮的波狀部分 "導體2〇6之夾住 226a，其懸掛遠離或 八具有一不良的前緣 215a的其餘部分。""乂駐於離開皺縮的波狀部分 田々體實施例之一連接器 其方式可允許一不良導 接W電境·， ，其會具有關於被動互調== 的同轴魏m 連接㈣_抗舰於附接 阻抗特性。不匹配的阻抗會造成信號整 58 201232970 合性的問題’中斷經由同轴賴與連接^ 連接的通訊裝置之信號傳輸。 ’、、、1達 能性可協π 有而要—種結構與功 在。了協助防止在1轴連接器内不良導電構件的存 ^體實施例之連接器1G可具有結構性組件來在各勉 V電構件於同軸電纜200的壓；：. ΓΤ構件進人所需要的位置。因此 ㈡:移的另一具體實施例之上 導體二：筒。然本技術領域專業人士應瞭解到-件，例如彻，的具體實_亦可為獨立存在的敲 結構性特ΓΓ與襯套，及/或與壓縮環8。為-體之l 料或其a %的具體實施例可㈣電材料、非導電粉 導弓丨構所①成’並考慮到對於具體實施例之導體位輕 如，第2 500的位置與材料構成很重要的阻抗匹配。例 由 圖所示之導體位移導引構件⑽，的具體實施例可 優良的：驢亞胺塑膠形成，例如Ulte-樹脂，其可提供 生，以、生，包括高介電強度、天然防火性、及低煙霧產 接受的=續使用到340°F (170°c)時具有高機械特性與可 器10一導體位移導引構件，，的具體實施例可位在-連接 一外4之Γ，其方式可允許與導電構件之指定的接觸，例如 V體206,以協助導引該導電構件在當其於同軸電纜 59 201232970 200的附接期間位移時可進人到需要的位置上。如所示 丨構件蕭可包括,丨結構，例如斜坡導引表面 則’/、配置成當外部導體被位移時接 引的前緣2細上，使得-被導引的敏縮波形部分21= 操作地留駐於壓縮環80的壓縮表面38卜傾斜緣371盘可 = Ϊ:9〇之間。請注意到導體位移導引構件則，協助 導引的刖、.彖226b至敏起靠近敵縮波形部分21%之需要^ 位置導電位移導引構件⑽，輔助定位外部導體獅，使 得其位在中央，且外部導體施的前緣226b更可 斤 疊到一敵縮波形部分215b當中。當一導電構件，例如外部 導體206的前緣226b，其於關聯於抽向壓縮致動的電缓附 接之位移期間被適當地導引到—指定位置上時，連接器 的具體實施例不會有關聯於不良導電構件(例如第2 2圖所 示之不良的前緣226a)的連接器之阻抗、PIM及 點。回波損耗與透過導Μ位外部導體施的前威 226a而最小化，藉此促進阻抗匹配。包括導體位移導引構 件500’的連接器具體實施例1〇可操作地加入類似於以 關於第1 ®至第15圖所述之連接器結構情於成本與簡易 組裝的考量可導引本技術領域專業人士加入導體位移導引 構件500’來確保良好的連接器1〇效能。’’ 請參照第8 ®至第13圖’本技術領域專f人士應瞭解 到關於所有連接器具體實施例10的結構與功能性可應用到 多種連接器尺寸、種類與公母端。例如，第8圖至第13圖 所示為用於連接至—獨立公端組件的一母連接器。再者j 201232970 士必須瞭解到關於第1圖至第17圖中任-者 ===具體實施例10的結構與功能性能夠且必 的頁:二成鳴跨該連接的—同轴型式，並具 接 類似良好定義的阻抗。因此，多咖^ 二：广夠且必造成有效地與相對應尺寸的一4 ^纟外’必須瞭解到此處所述關於連接器10的具體實 用於聰式連接器:、以 軸電纜遠接 时型連接器、及其它類似的向 述的連接以^/、結構與功能性為可操作地相稱於此處所 述的連接器具體實施例10。 到本=已Ϊ參照一些特定具體實施例做說明，將可瞭解 社車之真正精神與範圍必讀僅由本說明書所支持的♦ 二^，決定。另外’此處之許多案例當中的系統與設 備4法係描述成具有某個數目的元件，因此將可瞭解細 j系統、設備與方法可利用少於所提到的某個數目之先 口 /實轭同時，在已經說明一些特定具體實施例時，將 β瞭解已經參照每個特定具體實施例所述之特徵與態樣 可配合每個其餘特定描述的具體實施例來使用。 【圖式簡單說明】 ’ 此處所述之特徵可參照下述之圖式做更佳的瞭解。該 等圖式並不舄要成比例，在例示本發明的原理時會另外做 概略f生強調。在該等圖式中，使用類似的數字來代表各個 圖式當中類似的部份。 61 201232970 第1圖為連接器之一具體實施例在一第一狀態下，及具有 一波狀外部導體的一同軸電纜，及預備要·***到 該連接器中的一末端之側視圖。 第2圖為連接器之一具體實施例在一第一狀態下的一侧 視橫截面圖，及同軸電纜的預備末端之一部分的 截面圖。 第3圖為連接器之一具體實施例在一第一狀態下的一侧 視橫截面圖，該連接器具有***在其中的同軸電 纜之預備末端。 第4圖為連接器之一具體實施例在一第一狀態下的一側 視橫截面圖，該連接器具有***在其中的同轴電 纜之預備末端。 第5圖為連接器之一具體實施例的側視橫截面圖。 第6圖為連接器之一具體實施例的側視橫截面圖。 第7圖為連接器之一具體實施例的側視橫截面圖。 第8圖為連接器之一具體實施例的一橫截面圖，該連接器 具有***在其中的同軸電纜之預備末端。 第9圖為連接器之一具體實施例的橫截面圖。 第10圖為第9圖之連接器的一具體實施例之放大圖。 ' 1 第11圖為連接器之一具體實施例的放大圖。 第12圖為連接器之一具體實施例的橫截面圖。 第13圖為第12圖的連接器之一具體實施例，其係在電纜 之外部導體壓縮之後的橫截面圖。 第14圖為連接器之一具體實施例的橫截面圖。 62 201232970 第15圖為連接器之一具體實施例的橫截面圖。 第16圖為連接$之—具體實施例在—同軸電境***之前 在一開放位置上的橫截面圖。 第17圖為連接$之—具體實施例在*具有—同軸電麗在 一關閉位置上的橫截面圖。 第18圖為連接||之—具體實施例在具有—同軸電藥於該 連接器之内完全螺旋式地前進之一關閉位置上的 橫截面圖。 第19圖為具有一外蓋的同軸電纜連接器在一第一位置上 的具體實施例之透視圖。 第20圖為具有一外蓋的同軸電纜連接器在一第二密封的 缸査上之具體實施例g透視圖。 第21圖為同軸電纜連接器之一具體實施例的橫截面圖之 局部放;^部分。… ’ ί 第22圖為連接器之一具體實施例的一部分附著於一同軸 電纜時的一局部放大橫截面圖。 第23圖為連接器之另一具體實施例的一部分附著於一同 轴電繞時的一局部放大橫截面圖。 【主要元件符號說明】' 2 共用中心軸 3 軸向前進 10 連接器 10， 同軸電纜 63 201232970 11， 前緣 12 第一密封件 12， 電纜護套 13 溝槽 14 第二密封件 14， 外部導體 16 小間隙 16， 絕緣體 17， 第一暴露波形 18， 中央導體 20 管狀連接器本體 22 第一端 24 第二端 26 内部孔 28 肩部 30 外部肩部 40 第一絕緣體 42 第一表面 44 通孔 46. 管狀心軸 48 第二表面 52 環狀外緣 60 壓縮帽蓋 62 第一端 64 201232970 64 第二端 66 内部孔 68 肩部 70 第一肩部 72 第二凸緣 80 壓縮環 82 通孔 84 第一表面 86 壓縮表面 88 環狀凹部 89 環狀體積 90 夾钳 91 箭頭 92 壓縮表面 93 軸向力 94 第二端 95 外部周緣./ 96 中央通道 97 有角度第二部分 98 第一突出邊緣 99 部分 100 中央環形凹部 101 中央環形凹部 102 第二突出邊緣 65 201232970 104 扇區 106 Ira y羽班 108 彈性構件 110 傾斜緣 120 夾钳推動環 122 凸緣 124 外部肩部 126 第一端 130 墊片 132 内部區域 150 第二絕緣體 152 第一端 154 凸緣 156 第二端 158 中央通孔 160 環狀凹部 170 導電銷 172 第一端 174 第二端 176 軸向管座 178 狹縫 179 指部 180 緊固件 182 密封件 66 201232970 200 同軸電纜 202 中央導體 204 絕緣體 206 外部導體 208 保護護套 210 預備末端 212 暴露長度 214 第一暴露波形 215 皺縮波形 215a 敵縮波狀部分 215b 皺縮波狀部分 216 第一凹陷波谷 217 有角度第一部 218 第二凹陷波谷 220 第二暴露波形 222 第三凹陷波谷 224 環狀凹部 226 前緣 226a 前缘 226b 前缘 332 叉齒 334 固定元件 335 第一區域 336 壓縮表面 67 201232970 337 第二區域 338 平坦面 342 傾斜緣 345 平坦環狀唇部 346 環狀有角度唇部 371 傾斜緣 372 傾斜緣 381 壓縮表面 382 壓縮表面 388 環狀凹部 389 平坦表面 392 尾隨彎曲點 394,396 保持特徵 500 外蓋 500， 導體位移導引構件 501 電纜末端 502 耦合器末端 503 内部表面 504 外部表面 505 縱向軸 510 第一區域 515 周圍溝槽 520 第二區域 530 第三區域 68 201232970 550 連接器本體部 560 本體 581 斜坡導引表面 700a 部分 700b 部分 1000 連接器 1012 第一密封件 1014 第二密封件 1020 連接器本體 1022 第一端 1024 第二端 1026 内部孔 1028 肩部 1040 第一絕緣體 1042 表面 1048 第二表面 1060 壓縮構件 1062 第一端 1064 第二端 1066 内部孔 1068 中央肩部 1080 壓縮環 1082 通孔 1084 第一表面 69 201232970 1086 壓縮表面 1090 夾钳 1092 壓縮表面 1094 第二端 1096 内部孔 1098 第一突出邊緣 1102 第二突出邊緣 1120 夾鉗推動環 1126 第一端 1150 第二絕緣體 1152 第一端 1154 凸緣 1156 第二端 1158 中央通孔 1170 中央銷 1172 第一端 1174 第二端 1176 轴向管座 1178 狹缝 1180 緊固件 1182 密封件 α 銳角~, Yihe in PIM (Passive dulation). Generally, the rigid metal contact element can be effectively added to reduce the contact pressure during the life of the f connector. As described above with reference to Fig. 18, the problem of non-uniformity may be uneven in operation. Spiral wavy (four) Wei 1. , or when the operation of the electrical ~, has been cut or otherwise formed such that the end of the conductor is axially irregular or non-sentence perpendicular to the common material (four) * occurs. When there is an axial irregularity, for example, an implicit axial displacement of the spiral conductor or some other axial irregularity, the conductor can be progressively obtained when being grasped between the mating surfaces. Or another variable thickness. In particular, for a profile conductor, there will be substantially a portion having a thickness greater than approximately (10) degrees, or about half of the complete spiral of one of the conductors of the coaxial cable, such as FIG. As described, the outer conductor 14 has a larger (thicker) portion on the side of the connector 1 被 that is compressed on the other side of the connector 1000 and is compressed between the compression surface 应. The manner in which this variable thickness is handled (its variability affects the same-round double irregular conductor or irregular mating surface between PIM and other 201232970, for example, and has a specific shape to accommodate the variable thickness. The electrical winding of the conductor's two-rotating outer conductor, for example - is carefully modified with two spirals, but it is difficult and expensive to rate each other. These modifications are actually very good.. and this does not properly correspond to the cable conductor. Manufactured and/or prepared by π during installation. In the figure, it is described in Fig. 20 to Fig. 20 and further refers to the question of the unique and invasive = (4) axial irregular conductor elements of the 21st problem. For example, one: include the addition-expandable matching compression table 1090d·^-connecting the surface (or connecting 11 1G) may include a clamp for the deformation of the material I which is sweet and sweet 1〇9〇 (or夹甜9〇) at least partially made up of a sturdy material, so that a sU of the clamp 1〇9〇 (or clamp 90) can be exhibited! The compression surface 1G92 (or 92, 382) is used at # When compressed against the compression surface 92, 382, and 1092 of -σ σ, the food can be supported and grasped. Or another rabbit is accustomed to the irregular conductor, such as the outer conductor (or outer conductor 14,), regardless of the axial uniform alignment of the outer conductor (or outer conductor 14). Or thickness. A particular embodiment of the connector face (or connector 10) can include a connector body or a tubular connector body 20 that has a first end (eg, first end 22), a second An end (eg, first end 24) and an internal bore (eg, inner bore 26) defined between the first end and the second end of the connector body leg (or tubular connector body 20). A connector 1000 (or connector) can also include a compression member 1060 (or a retractable cap 6) having a first end (eg, first end illusion), 52 201232970 - a second end (eg, The second end 64) and the inner portion (eg, the inner bore 66) defined in the first portion, the compression member caps are axially movable relative to the joint body surface (or the body 2). Furthermore, the connector face (or connector 1G) and the body can contain an i-contracted surface such as a compression surface illusion: its axial position is in the connector body! (4) (or the tubular connector body The first end (eg, the first end 22) is between the two ends (eg, the end 64) of the compression member (or the squeezing cap 60). In addition, a specific embodiment of the connector face (or connector 1) A clamp, such as a clamp 90 or a clamp 1090, may be included, wherein the clamp has a -th end (eg, compression surface 92), a second end (eg, second end 94), and a clamp 1〇9 An internal bore between the first end and the second end of the cymbal (or clamp 9 〇) (eg, internal spur 96), wherein the clamp 1 〇 9 〇 (or 梃 90 90) is structurally engaged to a portion of J together A conductor (eg, outer conductor 2 or outer conductor 14') of a cable (eg, coaxial cable 200 or coaxial cable 1'). The compression surface of a particular embodiment of connector 1000 (or connector 1) may be a A particular embodiment of a clamp 1〇9〇 (or clamp 9〇), such as a compression surface 92, 382, a connector 1000 (or a connector 1〇), may include a clamp, such as a clamp 1〇9 〇 (or clamp 90), wherein the clamp i〇9〇 (or clamp 90) is at least partially constructed of a stretchable material. The stretchable material can be a plastic such as a polyether quinone (PEI) , polyetherimide) material with repeating C37H24〇6N2 molecular units and a molecular weight of approximately 592 g/mol. The Ultem® brand of PEI provides excellent properties including high dielectric strength, natural fire resistance, and low smoke generation. And continuous use to 340 ° F (170 ° C) 53 201232970 has high mechanical properties and acceptable performance. However, the skilled in the art must understand that other plastic materials, such as, can be used to form the connector - at least part of the surface that can be stretched, such as a clip Or the surface of the clamp 90) can be extended. In addition, those skilled in the art must understand that a clamp such as a clamp (or clamp 9G) can include at least a portion of which is at least partially The metal material is constructed, for example, gold, silver, lead, copper, sulphur, tin, turn, zinc, nickel or an alloy obtained by any of its combinations 'but not limited to this. The connector is just 0 (or connected n 1G) The extendable portion of the conductor can assist in promoting the axial and irregularity of one of the conductors of the conductor of the coaxial filament (or coaxial gauge 10') (such as a non-uniform axial thickness) 'It can be compressed between at least two mating surfaces (eg, compression surfaces 92, 382, 1092) of the nipper face (or tongs 9G) and/or between such mating surfaces, such as compression surfaces 86, 336, 3δ1 , or other connector face (or connector 1G) component 'configured to compress an axially irregular portion of one of the coaxial conductors to, for example, a portion of the 7QGa and the portion (as shown in FIG. ® unmarked part to ensure acceptable characteristics 'especially 7C is satisfactory pm and / or the amount of signal return loss. For a specific embodiment of the connector 1000 (or the connector 1), the connector body 1020 (or the connector body 2〇) and the compression member 1〇6〇 (or the compression cap 6G) are oriented toward each other- The axial advancement of the person facilitates the axial advancement of the jaws (or the lost jaws 90) to the vicinity of the surface, such as the compression surface %, 336, 381 'to make the coaxial cable 2 (or coaxial cable 1) One of the conductors (e.g., outer conductor 206, outer conductor 14,) is 7 〇〇a, 7 〇〇b compressed 54 201232970 in clamp 1G9G (or clamp 9G) and the compression surface (eg, compression surface 86, 336 381 The variable axial thickness between the portions 7〇〇a, 7_ of the outer conductor 206 (or outer conductor i4,) of the coaxial electric slow (or coaxial electron mirror (10)), in which the clamp 9〇 At least a portion of the % of the cucurbits may be extended to conform to the portion of the outer conductor 206 (or outer conductor 14,) of the coaxial (four) hired (or coaxial (four) ig,) a, employed variable The axial thickness is as described in the exemplary manner in Fig. 21. - The expandable components of the connector 1000 (or the connector 1) are more likely to creep than if it were made of a rigid material, and those skilled in the art will understand that it is possible to produce a connector face (or connection). A specific embodiment of the device 1()) does not lose its "grip" to the conductor over time, for example, the outer conductor M, in other words, the connector has experienced each The use of daily re-use, or extended periods of seasonal temperature and other environmental changes, may still have acceptable entities and electrical resonances with the -L body: The material properties of the components of connector 1000 (or connector 10), such as clip 1090 (or clamp 90), or other features associated with the extendable mating surface, can be selected for durability. Furthermore, extendable components, such as clamp 1090 (or clipper 90), may be defined between the rigid support structures to assist in preventing deformation of the extendable components (eg, clamp % or clamp removal) from exceeding The specified structural limit. Furthermore, the stretchable mating surface of the embodiment of the connector (or connector 10) may comprise a portion of the surface of the connector body (or tubular connector body 20) that is body-shaped. Extending to the connector body (or tubular connector body; an internal bore 1026 (or internal bore 26). 55 201232970 «The month further refers to a first end (eg first end 2 - scoop method, Including providing a tubular connector body 2 to cry, a second end (e.g., second end 24) may include the step of providing a body 1020. An additional step of the towel from the cover 6 〇, pressure The transport cuts the 2G & member circle from the tubular connector, which is movable relative to the stem of the connector body 1. 2. It can be moved axially and can be set to 6 〇, and the compression member 1060 is smeared (for example, The end 22) and the compression cap may comprise -=,: (4) 200, 1 (), - 9G, configured with a residual coaxial electron microscope, the steps may include = two = 14, ~, the surface (For example, the compression surface of the compression surface 1_, _, both are ductile. /, at least two mating structures (4) The method of connecting the connector i 20〇, 10' may include the connection to the x-axis cable 1〇, _, the axis = electric=win 1〇' to the connector for the tubular connector body 2 A phase 6 〇 1060 may be included, at least two mating surfaces (eg, a compression surface 86, 9:: ^^^^ between the compression surfaces of the bulk embodiment of the body embodiment, in a manner capable of causing compression within Vehicle power: 56 201232970 2〇〇 (or coaxial cable 10,) the outer thickness of the outer conductor 206 (or outer conductor 14,) of the partial cutter 70〇a, 7〇〇b, wherein the connector embodiment The imaginable mating surface of the 〇 (eg, the compression surfaces 86, 92, 336, 381, 382), or the compression surface 1086, 1092 of the 疋 connector 1000 can conform to the outer conductor 2 of the coaxial electrical winding 200, 10' 〇6, the outer conductor 14, the variable axial thickness of the portions 700a, 700b is deformed. Referring to Figures 8 to 13, the prior art professionals must be treated to all connectors 10, 1〇〇〇 The structure and functionality can be applied to a variety of connector sizes, types and male and female ends. For example, Figures 8 through 13 The figure shows a female connector for connection to a stand-alone male end assembly. Furthermore, those skilled in the art must be aware of all of the connectors shown in any of Figures 1-21. The structure and functionality of the device can and must be designed to maintain a coaxial pattern across the connection and have a similarly well-defined impedance that matches the cable that is attached. Thus, a variety of sizes | 1000 can and must be manufactured to effectively operate with the corresponding size of the electrical device. The material is functionally applicable to the structure and functionality of the specific embodiment of the connector 10 described herein. DIN-type connection H, BNC type connectors, connectors, N-type connectors, and other similar coaxial electrical connectors" whose structure and functionality are operatively commensurate with the connections of the specific embodiments described herein , iGn : Please refer to the further paragraph, the 22nd is shown as - the connector 1 - the portion of the specific embodiment is attached to a coaxial electron microscope 2 的 enlarged cross-sectional view. Coaxial money 2 (8) may include a central conductor 202 surrounded by an internal dielectric insulator 204. The middle conductor 2〇2 may be formed of a solid conductive material 57 201232970 or may be a hollow rattan number # similar to those of the aforementioned internal dielectric insulator, 3 = a rewritable internal dielectric insulator. The outer conductor 2G6 may be a solid state or may comprise a plurality of braided or wound conductive reeds. State. The moon, spiral or other operable group is shown in Figure 22 as the coaxial cable 200 is shown in a 筮 a: attached to the connector 10, coaxial - ',,, in the second state - state Compressed to the connection 1 : through the axial compression from - the second compression state, the first - fixed mechanical position. In the ', 邑, 象, the body 40 is retained by the pressure to the clamp 1% _ the part of the conductor 2 〇 6 of the connector 1G is mechanically clamped to the pressing surface such as the movable clamp 9 The compression gauge of the corresponding pressure gauge of the crucible can be solid or have a slot. The qualitative determination can be enhanced by the mechanical stability of the pressure relative to the clamp 9q: the closeness of the edge 371 . The outer ring 80 segment contains a - undulating wavy portion " conductor 2 〇 6 clamped 226a, which is suspended away or has the remainder of a poor leading edge 215a. ""乂A connector that resides in one of the embodiments of the wavy portion of the wavy portion of the wavy portion, which allows for a poor conduction, and which would have a coaxial Wei m with respect to passive intermodulation == Connection (4) _ anti-ship attached impedance characteristics. A mismatched impedance can cause a signal to be transmitted. The problem is that the signal is transmitted via a coaxial communication device connected to the connection. ',,,,,,,,,,,,,,,,,,,,,,,,, The connector 1G of the embodiment for assisting in preventing the defective conductive member in the 1-axis connector may have a structural component to press the respective electrical components on the coaxial cable 200; position. Therefore (b): another embodiment of the shift on the conductor two: the cylinder. However, it should be understood by those skilled in the art that the components, such as the singular, may also be separate knock-on features and bushings, and/or with the compression ring 8. The specific embodiment of the material or its a% can be made of (4) electrically material, non-conductive powder guide structure and considering the position of the conductor for the specific embodiment is light, the position and material of the second 500. Forms an important impedance match. For example, the specific embodiment of the conductor displacement guiding member (10) shown in the figure can be excellent: the bismuth imide plastic is formed, for example, Ulte-resin, which can provide raw, raw, high dielectric strength, natural fire resistance. And low smoke production acceptance = continued use of 340 ° F (170 ° c) with high mechanical properties and a 10 conductor displacement guide member, a specific embodiment can be located - connected to the outer 4 The manner may allow for a specified contact with the electrically conductive member, such as the V body 206, to assist in guiding the electrically conductive member into a desired position when it is displaced during attachment of the coaxial cable 59 201232970 200. The 丨 member may be included as shown, the 丨 structure, such as the ramp guiding surface, is configured such that the leading edge 2 of the lead is fined when the outer conductor is displaced, such that the guided varised waveform portion 21 = The compression surface 38, which is operatively resident in the compression ring 80, is inclined to the edge 371. Please note that the conductor displacement guiding member assists the guiding 刖, 彖 226b to sensitively close to the enemy's constricted portion 21% of the position of the conductive displacement guiding member (10), assisting in positioning the outer conductor lion, making it in position The center, and the leading edge 226b of the outer conductor is more likely to be pinched into an enemy waved portion 215b. When a conductive member, such as the leading edge 226b of the outer conductor 206, is properly guided to a designated position during displacement associated with electrical slow attachment of the draw compression actuation, the particular embodiment of the connector does not There will be impedance, PIM and points associated with the connector of the poor conductive member (e.g., the poor leading edge 226a shown in Figure 2). The return loss is minimized by the pre-existing 226a applied through the external conductor of the conduction stop, thereby facilitating impedance matching. The connector embodiment including the conductor displacement guiding member 500' is operatively incorporated into a technique similar to that of the connector structure described in the first to the fifteenth drawings for cost and ease of assembly. Field professionals join the conductor displacement guide member 500' to ensure good connector performance. Please refer to Figures 8 through 13 for those skilled in the art. It should be understood that the structure and functionality of all of the connector embodiments 10 can be applied to a variety of connector sizes, types, and male and female ends. For example, Figures 8 through 13 show a female connector for connection to an independent male assembly. Furthermore, ju 201232970 must understand that the structure and functionality of the specific embodiment 10 can be made with respect to the figures 1 to 17 =========================================================================== And with a similarly well-defined impedance. Therefore, more than two ^: wide enough and must result in a valid and corresponding size of a 4 ^ ' ' must understand the specific implementation of the connector 10 described here for the smart connector:, with the cable cable far The connector of the type, and other similar connections, are operatively commensurate with the connector embodiment 10 described herein. To this book, we have explained some specific embodiments, and we will understand that the true spirit and scope of the social car must be read only by the support of this manual. In addition, the system and device 4 systems in many of the cases here are described as having a certain number of components, so it will be appreciated that the system, devices and methods may utilize less than the number of ports mentioned / In the meantime, where specific embodiments have been described, it has been understood that the features and aspects that have been described with reference to each particular embodiment can be used in conjunction with the specific embodiments of each of the remaining specific descriptions. [Simple Description of the Drawings] The characteristics described here can be better understood by referring to the following drawings. The drawings are not intended to be to scale, and the s In these figures, similar numbers are used to represent similar parts of the various figures. 61 201232970 Fig. 1 is a side view of a connector in a first state, and a coaxial cable having a corrugated outer conductor, and a side end ready to be inserted into the connector. Fig. 2 is a side cross-sectional view showing a portion of the connector in a first state, and a cross-sectional view of a portion of the preliminary end of the coaxial cable. Figure 3 is a side cross-sectional view of a particular embodiment of the connector in a first state having a ready end of a coaxial cable inserted therein. Figure 4 is a side cross-sectional view of a particular embodiment of the connector in a first state having a ready end of a coaxial cable inserted therein. Figure 5 is a side cross-sectional view of one embodiment of a connector. Figure 6 is a side cross-sectional view of one embodiment of a connector. Figure 7 is a side cross-sectional view of one embodiment of a connector. Figure 8 is a cross-sectional view of one embodiment of a connector having a ready end of a coaxial cable inserted therein. Figure 9 is a cross-sectional view of one embodiment of a connector. Figure 10 is an enlarged view of a specific embodiment of the connector of Figure 9. ' 1 Figure 11 is an enlarged view of one embodiment of the connector. Figure 12 is a cross-sectional view of one embodiment of a connector. Figure 13 is a cross-sectional view of one embodiment of the connector of Figure 12 after compression of the outer conductor of the cable. Figure 14 is a cross-sectional view of one embodiment of a connector. 62 201232970 Figure 15 is a cross-sectional view of one embodiment of a connector. Figure 16 is a cross-sectional view of the connection $ in an open position prior to the insertion of the coaxial environment. Figure 17 is a cross-sectional view of the connection $ - a specific embodiment having a coaxial coil in a closed position. Figure 18 is a cross-sectional view of the connection || in a closed position in which the coaxial medicament is fully helically advanced within the connector. Figure 19 is a perspective view of a particular embodiment of a coaxial cable connector having an outer cover in a first position. Figure 20 is a perspective view of a specific embodiment g of a coaxial cable connector having an outer cover in a second sealed cylinder. Figure 21 is a partial cross-sectional view of a cross-sectional view of one embodiment of a coaxial cable connector. Fig. 22 is a partially enlarged cross-sectional view showing a portion of a connector in which a portion of a connector is attached to a coaxial cable. Figure 23 is a partially enlarged cross-sectional view showing a portion of another embodiment of the connector attached to a coaxial winding. [Main component symbol description] ' 2 Common central axis 3 Axial advance 10 Connector 10, coaxial cable 63 201232970 11, leading edge 12 first seal 12, cable sheath 13 groove 14 second seal 14, outer conductor 16 small gap 16, insulator 17, first exposed waveform 18, central conductor 20 tubular connector body 22 first end 24 second end 26 inner bore 28 shoulder 30 outer shoulder 40 first insulator 42 first surface 44 through hole 46. Tubular mandrel 48 Second surface 52 Annular outer edge 60 Compression cap 62 First end 64 201232970 64 Second end 66 Internal bore 68 Shoulder 70 First shoulder 72 Second flange 80 Compression ring 82 Through hole 84 First surface 86 Compression surface 88 Annular recess 89 Annular volume 90 Clamp 91 Arrow 92 Compression surface 93 Axial force 94 Second end 95 External circumference. / 96 Central passage 97 Angled second part 98 First protruding edge 99 portion 100 central annular recess 101 central annular recess 102 second protruding edge 65 201232970 104 sector 106 Ira y feathers 108 elastic member 110 Beveled edge 120 Clamp push ring 122 Flange 124 External shoulder 126 First end 130 Gasket 132 Inner region 150 Second insulator 152 First end 154 Flange 156 Second end 158 Central through hole 160 Annular recess 170 Conductive pin 172 First end 174 second end 176 axial socket 178 slit 179 finger 180 fastener 182 seal 66 201232970 200 coaxial cable 202 central conductor 204 insulator 206 outer conductor 208 protective sheath 210 preliminary end 212 exposed length 214 first Exposed waveform 215 Shrunken waveform 215a Enemy constricted portion 215b Shrinked corrugated portion 216 First depressed trough 217 Angled first portion 218 Second depressed trough 220 Second exposed waveform 222 Third depressed trough 224 Annular recess 226 Front Edge 226a leading edge 226b leading edge 332 fork 334 fixing element 335 first region 336 compression surface 67 201232970 337 second region 338 flat surface 342 inclined edge 345 flat annular lip 346 annular angled lip 371 inclined edge 372 tilt Edge 381 compression surface 382 compression surface 388 annular recess 389 flat table 392 trailing bend point 394, 396 retaining feature 500 outer cover 500, conductor displacement guide member 501 cable end 502 coupler end 503 inner surface 504 outer surface 505 longitudinal axis 510 first region 515 surrounding groove 520 second region 530 third region 68 201232970 550 Connector body portion 560 Body 581 Ramp guiding surface 700a Portion 700b Portion 1000 Connector 1012 First seal 1014 Second seal 1020 Connector body 1022 First end 1024 Second end 1026 Internal bore 1028 Shoulder 1040 An insulator 1042 surface 1048 second surface 1060 compression member 1062 first end 1064 second end 1066 inner hole 1068 central shoulder 1080 compression ring 1082 through hole 1084 first surface 69 201232970 1086 compression surface 1090 clamp 1092 compression surface 1094 second End 1096 Internal bore 1098 First protruding edge 1102 Second protruding edge 1120 Clamp push ring 1126 First end 1150 Second insulator 1152 First end 1154 Flange 1156 Second end 1158 Central through hole 1170 Central pin 1172 First end 1174 Two ends 1 176 Axial socket 1178 Slit 1180 Fastener 1182 Seal α Acute angle

Claims (1)

201232970 七、申請專利範圍： 1. 一種同軸電纜組合件，該組合件包含： 丨 體、：二電镜，其具有一内部導體、-暴露的外部導 置在該外料體之±的—賴護套； 讀體及f 體’其包含一第一端、—第二端及定義在 /接斋本體的第一端與第二端之間的一内部孔· -麗縮帽蓋，其包含—第一端、一第二端定“ 壓縮帽蓋的第一端盥第_端 ^ 的望一…“ 的一内部孔，該壓縮帽篕 …、知在π構上嚙合該連接器本體的第二端. 的第一 包含—第—端、一第二端、定義在該夹甜 笛一山弟一知之間用於允許該同軸電瘦軸向地穿過 二端的—内部孔及在該内部孔上的一環狀凹 4該核狀凹部在結構上喃合該同軸電繞的外部導體；及 絲面，其設[在與接器讀之内， 其中該連接n本體與該壓縮帽蓋之—者朝向另一者 2軸向則進以促進該夾鉗軸向地前進到該壓縮表面附 主使得該同軸電_外部導體之一波形在該爽甜與該壓 細表面之間皺縮。 2.如申請專利範圍第1項所述之同軸魏組合件，其中該壓 f表面係與該連接器本體為—體，並自該連接器本體的内 耗徑向地向内突出，該壓縮表面進-步包含-傾斜表 面，及 其中該夾鉗進一步包含一傾斜表面，該夾鉗的傾斜表 71 201232970 面配置成相配於該壓縮表面的傾斜表面，其中在該失甜朝 向該壓縮表面軸向地前進的狀況·之下，該夾鉗的傾斜表面 與TT亥壓縮表面的傾斜表面在彼此之間壓敵該電纟覽的外邻 導體之波形。 3’如申凊專利範圍第1項所述之同軸電纟覽組合件，進一步包 含： 一壓縮環，其包含一第一端、一第二端及定義在該壓 縮環之第一 與第一端之間的一内部孔，其中該壓縮環在 結構上功能性地嚙合該連接器本體的内部孔，且其中該壓 的第一端做為該壓縮表面。 : 4.如申請專利範圍第3項所述之同軸電纜組合件，其中該壓 縮環的第二端進一步包含一傾斜表面與一相對傾:表 面，其結構上配置成在該壓縮環的第二端上形成一 v型壓 痕，及 ；其中該夾鉗的第一端包含一外部傾斜緣與一内部傾 =，該外部傾斜緣及該内部傾斜緣配置成在該夾甜的第 升乂成 v型，其配置成配接在該壓縮表面的v型 壓痕内，使得在該夾钳朝向該壓絲面㈣地前進的狀況 之下’該電纜的-外部導體之一波形在該壓縮表面的乂型 _壓痕與在該夹射之第__端上的v型之間H , 士申印專利|已圍第i項所述之同軸電親組合件，其中 錯進一步包含： 複數個徑向位移扇區，其共同地包含該夹甜，每一扇 區在結構上於該_電㈣過該夹鉗的狀況之下獨立地 72 201232970 徑向位移；及 一彈性構件，其設.置在該来鉗的一外部表面上，該彈 性構件配置成於該等個別扇區的徑向位移期間相對於彼 此維持該等個別扇區的相對位置。 >如申請專利範圍第丨項所述之同軸電纜組合件，進一步^ ..含：. ▲-可變雜片，其包含—第一端、—第二端及定義争 该第一端與該第二端之間的一内部孔，該可變形墊片設叙 在該夾鉗的第一端與該連接器本體的第二端之間，且其結 構上滑動地嚙合該壓縮帽蓋的内部孔。 7. 如申請專利範圍第i項所述之同軸電纜組合件，該連接^ 進一步：包含：:; 」 —一可變形構件，其具有一内部孔，且設置在該壓縮切 蓋之内，其中該壓縮帽蓋的内部孔與第二端功能性地嚙备 該可變形構件。.’ 8. 如申請專利範圍第1項所述之同軸電纜組合件，該連接器 進一步包含： 一導體位移導引構件，其安置成當移動地嚙合該夾鉗 時喷合與作用在該外部導體上；及 其中當该外部導瘊皺縮時，該導體位移導引構件的結 構與定位協助導引該外部導體的一前導部分至折疊靠近 該皺縮的波狀部分的一位置處。 9. 如申請專利範圍第8項所述之同軸電纜組合件，其中該導 體位移導引構件係-套筒，其係自該連接器的一第一絕緣 73 201232970 體一體延伸。 ίο. —種壓縮逹接器，該連接器包含： 一連接器本體，其包含—第一 在該本體的第一端與第二端之間的-内端及定義 -壓縮帽蓋，其包含一第一端、一第二端 / 夾钳’其包含一第一端 該帽蓋的第一端與第二端之間的一内部孔，該壓 的第-端在結構上鳴合該連接器本體的第二端"；、，’百目： 第 定義在該身 、— 甜的第-端與第二端之間的一内部孔，其中該夹甜^ 步包含複數個徑向位移扇區，其共同地包含該夹甜，考 一扇區配置成獨立地徑向位移；及， -壓縮表面’其設置在該連接器本體之内，苴" 連接器本體與該壓縮帽蓋之一者朝.向另—者的_前^ 而促進該夾钳軸向地前進到該壓縮表面附近，使得該决 钳與該壓縮表面在彼此之間傳遞力量。 Π.如申請專利範圍第10項所述之連接器，該連接器進一并 包含： ν 一彈性構件，其設置在該夾鉗的一外部表面上，該 彈性構件配置成於該等個別扇區的徑向位移期間相對於 彼此維持該等個別為區的相對位置。 ’. 12.如申請專利範圍第10項所述之壓縮連接器，其中該壓縮 表面係與該連接器本體為一體，並自該連接器本體的内 部孔徑向地向内突出，該壓縮表面進一步包含—傾斜表 面，及 74 201232970 其中該夾鉗進一步包含一傾斜表面，該夾鉗的傾斜 表面配置成相配於該壓縮表面的傾斜表面；其中在該美 鉗朝向該壓縮表面軸向地前進的狀況之下’該夾鉗的傾 斜表面與該壓縮表面的傾斜表面在彼此之間傳遞力量。： 如申請專利範圍第1G項所述之壓縮連制，進—步包 -壓縮環’其包含一第一端、一第二端及定義在該 ，縮環之第—端與第二端之間的-内部孔，其中該壓.▲ %在結構上功能性地4合該連接器本體的内部孔，且灰 中該壓縮環的第二端做為該壓縮表面，且結構上使得表 朝向該壓縮表面軸㈣前進的狀況之下，該壓^ 衣的第—端與該夾鉗的第―蜂在彼此之間傳遞力量。： .如申請專利範圍第10項所縣麗縮連接器，進一步包士 在，：可變形墊片，其包含-第-端、-第二端及定k 端與該第二端之間的—内部孔，該可變形塾:片 :該夾鉗的第一端與該連接器本體的第二端之間;， /、…構上滑動地嚙合該壓縮帽蓋的内部孔。 •如申請專利範圍第1G項所述之_連接器，進—步包入· i體位料5丨構件，其位找連接器之内，其& 二-當-電麗被屢縮式地附接至該連接器時，允哕 同軸電纜的一導電構件之規定 ，° 〜 件的位移。構件之規疋度接觸，以判該導電構 16=請專利範圍第10項所述之連接器，其中該導體位移 導？I構件喻入光道_2丨夺體位· 0 緣。口I導引該同軸電規的-外部導體之一前 75 201232970 17. 種連接一壓縮連接器至 含： 同轴電親的方法，該方法包 取得具有一第一端、 帽蓋； 第二端及一内部孔的一壓縮 ***具有—内部孔的_夾鉗到該壓縮帽蓋的内部孔 田中， • · . · :動@軸電預備末端到’該壓縮帽蓋的第二 :’且穿過該炎鉗的内部孔，制該外部導體的一 疮ί狀段突出超過該夾钳的第—端，且該夾钳的内部 孔嚙合該外部導體的一第二波狀段； 第二端及一内部孔的一連接 取得具有一第一端、一 器本體； 藉由功能性地嗔合該壓縮帽蓋的第一端至該連接辱 體的第二端以輕合該壓縮帽蓋至該連接器本體； 軸=地將該壓縮帽蓋與該連接器本體朝向另一者箭 ，使得該夾鉗軸向地前進到設置在該連接器帽蓋之内 =_表_近’且該外料_第_波狀段在該夹 鉗與該壓縮表面之間皺縮。 18.如申請專利範圍第〗7項所述之方法，進一步包含： 插人具有—内耗的—域㈣蓋的内部 孔當令； P***具有—通孔的—絕緣體到該連接器本體的内部 才匕畐尹； ***一銷在該絕緣體的通孔中·，及 76 201232970 耦合該同轴電纜的内部導體之一部分至該銷， 其中在該壓縮帽蓋與該連接器本體其中^一者朝向 另一者軸向地前進的狀況下，. ° 该壓縮帽蓋功能性地嚙合及軸向地前進該夹鉗環， 該夾钳環係功能性耗合與軸向地前進該夾鉗，該爽射 係功能性地嗔合與軸向地前進該同軸讀，使得該同抽 電規的-中央導體軸向地突出超過該夾鉗的第一端，及 該連接器本體功能性地嘴合且轴向地前進該絕緣 體’該絕緣體係功能性地喃合且軸向地前進該銷，使得 該銷功能性地嗤合該同軸魏的中央導體與該夾甜，且 該壓縮表面在該同軸電纜的中央導體與該夾鉗之間皺縮 該外部導體的波狀段。 19.如申請專利範圍第17項所述之方法，進一步提供一導體 位移導引構件，其位在該連接器之内，其方式為當該電 镜：壓縮式地附接至該連接器時，允許與一同軸電纜的 導電構件之規定性接觸，以導引該導f構件的位移；： 及 田°亥外部導體皺縮時，藉由嚙合於該導體位移導引 ^件以導㈣外部導襲—料料至㈣在靠近該皴 g 、皮开^°卩刀之一位置處，以最小化被動式互調變及相 卜„卩導體的前導部分之回波損耗。 土 ^ ttw /U3L 田 f 丁· 由電纜的-螺旋波形外部導體與該夾钳的一内部表 玲專利氣圍第17項所述之方法，其中該同軸電親的 末端螺旋式地前進到該連接器本體當中，其t該同 軸電纜的一碑〜、丄_,... T J 面 77 201232970 一螺旋槽部分螺接。 21. 如申請專利範圍第20項所述之方法，其中該夾鉗係剛性:。 22. —種連接器，其包含： 一連接器本體，其具有一第一端及一第二端； ： 一壓縮構件，其配置成軸向地壓縮在該連接器本體 上； 一夾鉗，其設置在該連接器本體之内，該夾鉗配置 成促進一同軸電纜之螺接式的嚙合；.及 至少兩個配合表面，該等配合表面配置成當該連接 器移動到一關閉位置當中時在該等配合表面之間皺縮該 同轴電纜的一外部導體之一或多個波形。 23. 如申請專利範圍第22項所述之連接器，其中該至少兩裀 配合表面之一係一導電的壓縮環之一第一表面。 ， 24. 如申請專利範圍第22項所述之連接器，其中該至少兩個 配合表面之一係與該連接器本體的一表面為一體，其徑 向地向内突出至該連接器本體的内部孔。 25. 如申請專利範圍第22項所述之連接器，其中該至少兩個 配合表面之一係該夾钳的一端。 26. 如申請專利範圍第22項所述之連接器，其中該夾鉗至少 1 » 部份由一延展性材料構成；且 其中該連接器本體與該壓縮構件其中之一者朝向另 一者的軸向前進促進該夾钳軸向地前進到該塵縮表面附 近，使得當該同軸電纜的導體之一非均勻部分被壓縮在 該夾钳與該壓縮表面之間時，該夾鉗的至少一部分符合 78 201232970 於該同軸電纜的導體之非均句壓縮部分的—可變轴向严 度而展延性地變形。 ^ 27. 如申請專利範圍第9項所述之連接器，進一步包含—外 蓋，其設置在該連接器中至少—部分以密_連接 抗環境因素。 °「 28. 如申請專利範圍第20項所述之連接器，其中該至少兩個 配合表面之-係-延展性的配合表面，且符合於被_ 在該等配合表面之間的同軸電纜之導體的部分之軸向不 29. 如申請專利範圍第26項所述之連接器，其中該 ^ 配合表面係該夾鉗的一部分。 展[ 生的 30. 如申請專利範圍第26項所述之連接器，其中該延展性：、 配合表面係在該連接器内一導電的壓縮環之一'部分i的 79201232970 VII. Patent application scope: 1. A coaxial cable assembly, the assembly comprising: a body, a second electron microscope, having an inner conductor, and an exposed external guide to the outer body a body; the body and the body include a first end, a second end, and an internal bore defined between the first end and the second end of the body of the ligation body. a first end, a second end defining an inner hole of the first end of the compression cap, the first end of the first end, the compression cap, ... the engagement of the connector body in the π configuration The first end of the second end. The first end, the second end, and the second end are defined between the clip and the sweetener to allow the coaxial electric thin to pass axially through the two ends - the inner hole An annular recess 4 in the inner hole, the nuclear recess is structurally conjugated to the coaxial outer conductor; and a wire surface, which is disposed in the connector read, wherein the n body and the compression cap are connected The cover is oriented toward the other 2 axially to facilitate the axial advancement of the clamp to the compression surface. _ Outer conductor coaxial electrical waveform of one surface of the fine crimped between the pressure and cool sweet. 2. The coaxial weft assembly of claim 1, wherein the surface of the pressure f is body-shaped with the connector body and protrudes radially inward from an internal loss of the connector body, the compression surface The step-inclusive-inclined surface, and wherein the clamp further comprises an inclined surface, the tilt table 71 201232970 face of the clamp is configured to match an inclined surface of the compression surface, wherein the sweetness is oriented axially toward the compression surface Under the condition of the ground advancement, the inclined surface of the clamp and the inclined surface of the TT-compression surface press the waveform of the outer adjacent conductor of the electric attraction between each other. The coaxial electrical communication assembly of claim 1, further comprising: a compression ring including a first end, a second end, and first and first defined in the compression ring An internal bore between the ends, wherein the compression ring mechanically engages the internal bore of the connector body, and wherein the first end of the press acts as the compression surface. 4. The coaxial cable assembly of claim 3, wherein the second end of the compression ring further comprises an inclined surface and a opposite tilting surface configured to be second in the compression ring Forming a v-shaped indentation on the end; and wherein the first end of the clamp comprises an outer inclined edge and an inner tilting=, the outer inclined edge and the inner inclined edge are configured to form a first rise in the sweetness of the clip a v-type configured to fit within a v-shaped indentation of the compression surface such that a waveform of one of the outer conductors of the cable is on the compression surface while the jaw is advanced toward the surface of the filament (four)乂 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Radial displacement sectors, which collectively comprise the sweetness, each sector is structurally independent of the state of the clamp under the condition of the clamp 72 201232970 radial displacement; and an elastic member, which is provided. Placed on an outer surface of the jaw, the elastic member is configured to be Relative to one another to maintain the relative position of these individual sectors during radial displacement of the sectors. > The coaxial cable assembly as described in the scope of the patent application, further comprising: ▲-variable chip, comprising: a first end, a second end and a definition of the first end An internal bore between the second end, the deformable gasket being disposed between the first end of the clamp and the second end of the connector body, and structurally slidingly engaging the compression cap Internal hole. 7. The coaxial cable assembly of claim i, wherein the connection further comprises: a deformable member having an internal bore and disposed within the compression cut cover, wherein The inner bore and the second end of the compression cap functionally engage the deformable member. 8. The coaxial cable assembly of claim 1, wherein the connector further comprises: a conductor displacement guiding member disposed to spray and act on the exterior when the clamp is movably engaged And a structure of the conductor displacement guiding member assisting in guiding a leading portion of the outer conductor to a position folded near the collapsed corrugated portion when the outer guide is collapsed. 9. The coaxial cable assembly of claim 8, wherein the conductor displacement guiding member is a sleeve that extends integrally from a first insulation 73 201232970 body of the connector.逹ο. A compression splicer, the connector comprising: a connector body comprising - a first inner end between the first end and the second end of the body and a definition - compression cap comprising a first end, a second end/clamp comprising a first end and an inner hole between the first end and the second end of the cap, the pressed first end mechanically mingling the connection The second end of the body ";, 'Hundred eyes: an internal hole defined between the body, the sweet first end and the second end, wherein the clip sweet step comprises a plurality of radial displacements a sector, which collectively includes the sweetness, wherein the sector is configured to be independently radially displaced; and, - the compression surface is disposed within the connector body, and the connector body and the compression cap are One of them urges the clamp axially forward to the vicinity of the compression surface toward the other, such that the jaws and the compression surface transfer forces between each other. The connector of claim 10, wherein the connector further comprises: ν an elastic member disposed on an outer surface of the clamp, the elastic member being configured for the individual sectors The relative positions of the individual zones are maintained relative to one another during radial displacement. The compression connector of claim 10, wherein the compression surface is integral with the connector body and protrudes radially inward from an inner bore of the connector body, the compression surface further Including - a sloping surface, and 74 201232970 wherein the tong further comprises an inclined surface, the inclined surface of the tong being configured to mate with an inclined surface of the compression surface; wherein the nipper is axially advanced toward the compression surface Below the 'inclined surface of the clamp and the inclined surface of the compression surface transfer forces between each other. The compression package described in claim 1G of the patent scope includes a first end, a second end, and a first end and a second end defined therein. Inter-inner hole, wherein the pressure ▲% functionally structurally fits the internal bore of the connector body, and the second end of the compression ring in the ash acts as the compression surface and is structurally oriented Under the condition that the compression surface axis (4) advances, the first end of the press and the first bee of the clamp transfer forces between each other. : As claimed in the scope of claim 10, the county crescent connector, further packaged in: a deformable gasket, comprising - the first end, the second end and the fixed k end and the second end - an internal bore, the deformable jaw: a sheet: between the first end of the clamp and the second end of the connector body; /, ... configured to slidingly engage the internal bore of the compression cap. • As described in the patent application scope 1G, the connector is inserted into the i-position material 5丨 member, and its position is found in the connector, and its & two-down-electricity is repeatedly reduced When attached to the connector, a conductive member of the coaxial cable is allowed to be specified, and the displacement of the member. The gauge of the component is contacted to determine the conductive structure. 16 = The connector of claim 10, wherein the conductor displacement guide? The I component is referred to the track 2 and the position is 0. Port I guides one of the coaxial conductors - one of the outer conductors of the previous 75 201232970. 17. A method of connecting a compression connector to: a coaxial electric pro method, the method package having a first end, a cap; a compression insert of the end and an inner bore into the inner bore of the compression cap with the inner bore, • the drive shaft is ready to the end of the compression cap and the second: Passing through the inner hole of the tong, the sore-like section of the outer conductor protrudes beyond the first end of the clamp, and the inner hole of the clamp engages a second undulation of the outer conductor; a connection between the end and an inner hole has a first end, a body; the first end of the compression cap is functionally coupled to the second end of the connection body to lightly engage the compression cap To the connector body; the shaft = ground the compression cap and the connector body toward the other arrow, such that the clamp is axially advanced to be disposed within the connector cap =_表_近' The outer material_the undulating section collapses between the clamp and the compression surface. 18. The method of claim 7, further comprising: inserting an internal hole having a - internal consumption - domain (four) cover; P inserting an insulator having a through hole into the interior of the connector body匕畐尹; insert a pin in the through hole of the insulator, and 76 201232970 couples one part of the inner conductor of the coaxial cable to the pin, wherein the compression cap and the connector body are oriented toward the other In a condition of axial advancement, the compression cap functionally engages and axially advances the clamp ring, the clamp ring system functionally consuming and axially advancing the clamp, the cool The shooter functionally couples and axially advances the coaxial read such that the central conductor of the same gauge axially projects beyond the first end of the clamp, and the connector body functionally engages and Axially advancing the insulator 'the insulating system functionally circumscribes and axially advances the pin such that the pin functionally couples the central conductor of the coaxial Wei with the clip, and the compression surface is on the coaxial cable Central conductor with the clip The undulations of the outer conductor are crimped between the tongs. 19. The method of claim 17, further providing a conductor displacement guiding member positioned within the connector in a manner that when the electron microscope: is compression-attached to the connector Allowing a predetermined contact with a conductive member of a coaxial cable to guide the displacement of the conductive member; when the outer conductor of the field is shrunk, by engaging the conductor displacement guide member to guide the outer portion (4) Induction—feeding material to (4) at a position close to the 皴g, skin open ^° boring tool to minimize the passive intermodulation and the return loss of the leading part of the conductor. earth ^ ttw /U3L The method of the present invention is the method of the present invention, wherein the end of the coaxial electric pro is advanced spirally into the connector body, The method of claim 20, wherein the clamp is rigid: 22 a connector comprising: a connector body, Having a first end and a second end; a compression member configured to be axially compressed on the connector body; a clamp disposed within the connector body, the clamp configured to facilitate a threaded engagement of a coaxial cable; and at least two mating surfaces configured to collapse one of the coaxial cables between the mating surfaces when the connector is moved into a closed position The one or more waveforms of the outer conductor. The connector of claim 22, wherein one of the at least two mating surfaces is a first surface of a conductive compression ring. The connector of claim 22, wherein one of the at least two mating surfaces is integral with a surface of the connector body and projects radially inwardly to an internal bore of the connector body. The connector of claim 22, wherein one of the at least two mating surfaces is one end of the clamp. 26. The connector of claim 22, wherein the clamp is at least 1 » Partially by Constructing a malleable material; and wherein axial advancement of the connector body and one of the compression members toward the other facilitates axial advancement of the jaws adjacent the dust-shrinking surface such that the conductor of the coaxial cable When a non-uniform portion is compressed between the clamp and the compression surface, at least a portion of the clamp conforms to the variable axial stiffness of the non-uniform compression portion of the conductor of the coaxial cable at 78 201232970 The connector of claim 9, further comprising an outer cover disposed in the connector at least partially connected to the environmental factor by a dense connection. The connector of claim 20, wherein the at least two mating surfaces are a taut-ductive mating surface and conform to an axial direction of a portion of the conductor of the coaxial cable between the mating surfaces The connector of claim 26, wherein the mating surface is part of the clamp. 30. The connector of claim 26, wherein the ductility: the mating surface is one of a conductive compression ring in the connector.