,201218539 六、發明說明: 【發明所屬之技術領域】 本發明係關於一種同軸電纜連 軸電纜連接器之應變消除配件。、指一種用於同 【先前技術】 同轴電缓在多種應用中用於 —,,例如利用它們的 接收器。同軸電規基本上包括 =*,、、線電傳达盗與 體的一絕緣層、環繞該絕緣層部導 部導體的一保護套。 體及%繞該外 在安裝之前,-同轴電規的兩 尾。連接器可概略分類成可現場 一連接器收 的連接器。雖然、部分卫廢安f :、、$或工薇安裝 接至該同軸繼導體,可現===也焊接或炫 一螺絲機構或一壓縮工具所造 。既略地經由 纜的導體。 、π壓而附著於該同軸電 可現場安裝的連接器之困 螺絲固定連接器係要維持於’像是壓縮連接器或 一-a—的可接受位準。在同 丄:,Pa* 的PIM係由於該連接器之多種組 收尾區段中 穩定的接_造成。這絲=㈣線性與不 =接觸會造成該等表面之間的㈣間的非 造成干擾RF信號的產生。 笨敌電,這會 201218539 例如…些螺絲固定連接器經設計,使 該外部導體之間的接觸力係根據該連接器之,接益與 續軸向保持力而定。該連接器之螺紋組件在使用:::連 之後會意外地分離,因此造成該連接器與該 7間 非線性與不穩定的接觸。 導體之間 另外’甚至在_軸魏之連接料外部 相富穩定的接觸’由於例如強風或振動該 = 應力而逐漸損害’因此造成在該同轴電縵之、 可接受之高PIM位準。 S &中不 例如當該同軸電缓用於一蜂巢式通訊塔時,該 繞之收尾區段中不可接受的高PIM位準及所造成的干擾 耵信號會中斷該塔與低功率蜂巢式裝置上敏感的接收器 與傳送器^備之間的通訊。中斷的通訊會造成例如通話中 斷’或是嚴重地限制了資料速率,因而造成顧客不滿意與 顧客變動。 ”…ππ"、"々π文衣連接器之這些難題,會嘗試木 ,包含預製職纜線,其具有—鮮長度,並具4 ^壬—端上有焊接祕接的卫廢安I連接器。這歧焊接i 比目前的可現場安裝的連接器於較寬範, 下概略可呈現出穩定的ΡΙΜ效能。但是在許, 應用中逆些預製的跳接纜線並 上:::種蜂巢式網路中每二蜂巢式一 準比造成需要 考概略比所需要的要長,造$ 201218539 浪費的纜線。同時’利用比需要的要長的纜 線中增加的介人損耗。另外,過度的I (雙 當=其周圍的空間。再者,對於_安裝用該塔 上旱著數種長度的跳接纜線相較於拿著能夠切割=手 的長度之單卷纜線會較不方便。同時, 所需要 與PIM標準的工廠安f焊接式广拉έ 〗α卩且抗匹配 士現出相當高百分比的不符合連接器。此不符人吊 比’及因此產生不能再用的連接器,在某此:的百分 向會到大約10%的連接器。對於 狀況下最 袭的焊接祕接連接器利用於標準2;;㈣1工廠安 決前述之可現場安裝連接器的難、:廿跳接纜線上來解 決手段。 、,/、並非一種理想的解 【發明内容】 概tr之,本發明之示例具㈣_ 連接器之應變消除配件。此處 ’、;同軸電 件可改善同轴電'尾處中的機械生應變消除 :動相互調制_)位準,及相關聯之由該等::其可降 處所放射之干擾RF信號的產生。 人同軸電纜收 在一示例性具體實施例中,— 消除配件包括-夾鉗套筒盥:軸電纜連接器之應 配置成環繞-同轴電繞,並^輕失甜。該失鉗套 端。該應變消除夾甜係配置在該同轴電境連接器之 加一向内導向的徑向力在該叫電=筒内’並配置 201218539 在另一示例性具體實施例中,一同 醫 广夾钳套筒、一應變消除夾鉗與一=: 動套同”亥夾鉗套筒配置成環繞—同轴電繞,並附著於一 接器之後端。該應變消除夾鉗係配置在該夾鉗 请:並配置成施加—向内導向的徑向力在該同轴電雙 =夹钳止動環配置成將該應變消除夾鉗固定在該爽甜 #同内。 在又另-示例性具體實施例中,提供一種用於收尾一 同軸電纜的一同軸電纟覽接έ 邱# 該同軸_包括—内 料體、械該㈣導體的—絕緣層、環繞該絕緣層的一 外部導體、及環繞該外部導體的—護套。該同轴電繞連接 ^組合件包括一同軸電鐵連接器與一應變消除配件。該同 轴電繞連接器包括一内部導體夾钳、一外部導體夹鉗鱼_ 濕度密封墊。該内部導體夹鉗配置成喃合該内部導體1 外部導體夾鉗配置成壓縮該外部導體在—内部支撐結播 ^。該濕度密封墊配置成嚙合該護套。該應變消除配:包 括配置成嚙合該同軸電纜的—應變消除夹鉗。該 夾鉗並不環繞該内部支撐結構的任何部份。 示 此「發明内容」係以—簡化型式來做一選擇性觀 仙’其在以下的「實施方式」中會進一步加以說明:此 ^内容」並無意於識別出所主張申請標的之關鍵特徵 或基本特徵’也並無意於用以限制所主張標的之範族 者,可瞭解到前述對於本發明的—般說明及以下的: 明為示例性及㈣性’並要提供如所主張的本發明之進^ 201218539 步解釋。 【實施方式】 同軸電纜連接器之 變消除配件可改盖 其可降低被動相互 電繞收尾處所放射 本發明之示例具體實施例係關於— 應變消除配件。此處所揭示的示例性應 同轴電纜收尾處中的機械與電性接_, 調制(PIM)位準’及相關聯之由該等同車由 之干擾RF信號的產生。 二 ,、脰員弛例的詳細說明中,將詳细 參照例示於該等附屬圖式中的本發 ^ ^、·、 奴乃之不例性呈體眚你 考::所有圖式_ 营述,一專業人士可實施二== 實施例,並可在m本發明範圍 ,、匕”體 與電性變化。再者,應瞭解本發明之,^仏、。構性、邏輯 不同’但不需要相互排斥。例如,於Γ且=貫施例雖有 之-特定特徵、結構或特性可被包含在;中所述 中。因此,以T的詳”明廿在其匕具體貫施例當 有之完全_的同等者所定義。 判乾圓所子 I.示例性同軸電境與示例性麗縮連接 現在參照第Μ圖’揭示一示 口 性同軸電纜100的阻抗為 孕電纜100。不例 同抽電鐵。但是要瞭解這此電==7 ”系列之波紋的 、一电、、見特性僅為不例性特性,且 201218539 此處所揭示的示例性口 、寸及形狀特性2同車由電系覽 〇 、''運接|g 200與一示例性庫 收尾在第1A圖之左側。」應中=除配件_而 連接器200為—公 接 ^中揭不了示例性壓縮 可配置為—#r 、、,連接應瞭解壓縮連接器200另 利用縮連接器(未示出)。示例性同軸電請 彻收尾於第2連接器2〇”一相同的應變消除配件 器組合件=圖之右側,其共同構成—示例性壓縮連接 現在請參照第1B圖,同軸電繞H) 〇概略包括由-絕緣 層104環繞的一内部導體1〇2、環燒絕緣層刚之一外部導 體⑽、及環繞外部導體106之一護套1〇8。如此處所使用 的片5吾「由..·環繞」指稱概略由一外層所包覆的一内層。 但是,應瞭解—内層可由—外層環繞,而該内層並不需要 緊鄰於該外層。因此,該用語「由…環繞」可允許中介層 的可能性。示例性同軸電纜100之這些組件的每一者現在 將依序討論。 内部導體102配置在示例性同軸電纜1〇〇之核心處, 並可配置成承載一系列的電流(安培)及/或RF/電子數位信 號。内部導體102可由銅、銅包鋁(CCA,Copper-clad aluminum)、銅包鋼(CCS,Copper-clad steel)、或鍵銀銅包鋼 (SCCCS,Silver-coated copper-clad steel)戶斤形成,雖然亦可 能使用其它導電材料。例如,内部導體1〇2可由任何種類 201218539 的導電金屬或合金所形成。此外,雖然第1B圖之内部導體 1〇2係經包覆的,其 回之内4導體 为了 有其匕組態,例如像是實心的、 、、久5的、波紋的、經電鍵的或中空的等。 —絕緣層104 il繞内部導體1〇2,並概略用於支撐内部導 體1〇2 ’且將内部導體102與外部導體106、絕緣。雖然未示 ;圖式中’接合劑(例如聚合物)可用於將絕緣層104接合 内Ρ導體102。如第1Β圖所*,絕緣層1〇4 & 一發泡材 料所形成,例如(但不限於)一發泡聚合物或氣聚合物。例 如,絕緣層104可由發泡聚乙烯所形成。 雖然未示於圖式中,要瞭解絕緣層104可由其介電常 數足以使内部導體1〇2與外部導體1〇6絕緣的其它種類之 、邑緣材料或結構所形成。例如,一替代絕緣層可由一螺旋 形間隔物構成,其使得内部導體1〇2概略以空氣與外部導 體隔開。該替代絕緣層之螺旋形間隔物可由例如聚乙 2或聚丙烯所形成。在該替代絕緣層中該螺旋形間隔物與 空亂之組合的介電常數將足以使内部導體102與外部導體 106絕緣。 ,外。Ρ導體106環繞絕緣層104,並概略用於最小化高頻 電磁輻射進出内部導體1G2。在—些應用中,高頻電磁幸昌射 為具有大於或等於大㉟5〇 MHz的頻率之輻射。外部導體 t可由固態銅、固態铭、或銅包紹(CCA)所形成,雖然亦 7能使用其它導電材料。外料體106之纽狀組態具有 尖峰與凹谷’使得同軸電麗1〇〇可比具有平滑壁面之外部 10 201218539 之 導體_線更為容易撓曲。此外,要瞭解外部 波紋可為_狀,如圖所示,或可為螺旋狀(未示出)。 護套⑽環繞外部導體1〇6,並概略用於鱗同 、之内σ卩組件免於接觸外部污染物,例如像是粉塵、μ 及油巧。在—典型的具體f施例巾,護套108亦用於阳= 该電繞的彎曲半縣防止扭折,並餘保護該電贊(及^内 部組件)防止由於外力造成的壓壞或是其它變形 ^ I:多,料形成,其中包括(但不限於)聚乙烯、高密度0聚8 稀、低讀聚乙烯、線性低密度聚乙烯、橡^ :或其㈣組合。用於形成護套⑽之實際材料可 慮的特疋應用/環境來指明。 考 請參照第1C圖,同軸電纜謂之一收尾 利用示例性_連接器收尾之後被揭露、^預先 第⑴圖所示’同_〜尾端包 弟 E奴110、一第二區段112與一核心 。凡 114。護套108、外部導體1〇6與絕緣層1〇 區& ㈣剝除。護*⑽已經自第二區段心 04已經由核心挖空區段114被挖空核心。" II.示例性壓縮連接器組合件 合件:2Α·2β圖,揭示了示例性壓縮連接器組 -ο 彻。匕括_性壓縮連接器與示例性應變消除配件 201218539 如第2A-2B圖所*,示例性 一 〇型環密封塾21〇、—連接以包括一第 接态本體220、一連接哭碟炉 230、-第二〇型環密封墊24q、 運I肩目 一絕緣體260、一導電销2 —尘核密封墊250、 “ 電勒27G、—心軸、-卡# 290、 一夾鉗卡衣290 壓縮套筒330。示例性庫二:—濕氧密封塾32〇、及- ί 件_包括—夾鉗止動環 應U除失鉗42〇與-失鉗套筒430。 如第2B圖所示’失甜3〇〇包 義隔開該等部件之溝样3〇9 …仟,、配口以疋 定義—靜422,盆/_同樣地’應變消除夾鉗侧 ^ ' 9 ,、仃經應變消除失鉗420的長度。廊變消 除爽钳420亦定義_唾合表面似。 -應以 如第2C圖所示,連技哭碑如。 連接$ + σ螺中自230經由一環狀凸緣222 逆接至連接器本體220。絕绦# + 2?n 、、體26〇疋位並保持導電銷270 甘逆獲本體220之内。導雷 |^p 272 . 導電銷270包括位於一端處的一 P 272及位在另—端處的 接於導電銷270之失鉗邻”4 " 274〜軸位在鄰 ^ 2,〇 6, 爽、甘邻274的連接器本體220内部。心 釉280的一驅動器部282 失甜遍來將夾鉗扇的,^失鉗静—卡環290環繞 對接濕氣密封環31〇。渴件夾持在一起。夾甜300 320, “、、軋狁封環310對接濕氣密封墊 兩者白配置在壓縮套筒330之内。 如第2C圖所示,夾知pi w 又鉗止動裱41〇與應變消除夾鉗42〇 ^]φ + . 内。在至少部份示例性具體實施 例中,夾钳止動環410蛵 只 套锊ζηη Μβπν 由例如一干涉配合而嚙合於夾鉗 〇 、貞彳表面。藉由夾甜止動環410喃合於失钳套 12 201218539 筒430内側表 套筒430内。 面能夠協助將應變消除夹鉗 420保持在夾甜 現在請參照第2C_2E圖 件500之操作的並它離樣 π河性麗縮連接器組合 的示例性麗縮連接哭愈—圖揭示在初始開放位置處 〇圖揭不於—個兩階㈣縮程序的第-階段期鬥二Ϊ 移動到一喃合位置上之後的示例性壓縮、^Γ 經被, 201218539 VI. Description of the Invention: [Technical Field] The present invention relates to a strain relief fitting for a coaxial cable coupling cable connector. Refers to a receiver that is used in the same way as the [Prior Art] coaxial power in a variety of applications, for example, using them. The coaxial electrical gauge basically comprises a **, , a wire electrically conveying an insulating layer of the stolen body, and a protective sleeve surrounding the conductor of the insulating layer. Body and % around the external installation, the two ends of the coaxial electrical gauge. The connectors can be roughly classified into connectors that can be connected to a connector at the site. Although, some of the waste safety f:,, $ or Wei Wei is connected to the coaxial relay, it can be welded or stunned by a screw mechanism or a compression tool. A conductor that passes through the cable slightly. The π-pressure is attached to the coaxial field-mountable connector. The screw-on connector is maintained at an acceptable level such as a compression connector or a-a. In the same way: Pa*'s PIM system is caused by the stable connection in the various groups of the closing sections of the connector. This wire = (iv) linearity and non-contact will cause non-interfering RF signal generation between (4) between the surfaces. Duplicate enemy, this will be 201218539. For example, some screw-on connectors are designed so that the contact force between the outer conductors depends on the connector's, the contact and the continued axial retention. The threaded assembly of the connector is accidentally separated after the ::: connection, thus causing the connector to be in non-linear and unstable contact with the 7th. The otherwise stable contact between the conductors, even outside the junction material, is gradually damaged by, for example, strong winds or vibrations, thus resulting in an acceptable high PIM level at the coaxial coil. In S & for example, when the coaxial power is used in a cellular communication tower, the unacceptably high PIM level in the winding section and the resulting interference signal will interrupt the tower and the low power honeycomb type. Communication between the sensitive receiver and the transmitter on the device. Interrupted communications can cause, for example, a call interruption or severely limit the data rate, resulting in customer dissatisfaction and customer changes. "...ππ", "々π文衣连接器 These puzzles will try wood, including prefabricated cables, which have a fresh length and have 4 ^ 壬 - the end of the weld with a welding secret I The connector is a wider range than the current field-installable connector, and the outline can be stable. However, in the application, the pre-made jumper cable is placed on the :::: Each of the two honeycomb types in the cellular network results in a need for a test that is longer than necessary, resulting in a waste of $201218539. At the same time, 'the use of cables that are longer than needed to increase the loss. In addition, excessive I (double when = the space around it. Moreover, for the installation of several lengths of jumper cables on the tower compared to holding a single-cable cable capable of cutting = the length of the hand will It is less convenient. At the same time, the factory needs to be welded with the PIM standard, and the anti-match has a fairly high percentage of non-compliant connectors. This does not match the crane's ratio and therefore can no longer be used. Connector, in a certain: the percentage will be about 10% of the connection The most suitable soldering connector for the situation is used in the standard 2; (4) 1 factory to settle the above-mentioned difficult to install the connector on the site: the jump cable is used to solve the solution. , /, is not an ideal Solution [Summary] In general, the example of the present invention has (4) _ connector strain relief fittings. Here, ',; coaxial electrical components can improve the mechanical strain relief in the coaxial 'tail': dynamic mutual modulation _) The level, and the associated ones:: the generation of the interfering RF signal radiated by the dropable portion. The human coaxial cable is received in an exemplary embodiment, - the accessory is included - the clamp sleeve 盥: the shaft cable The connector should be configured to be wrapped around-coaxially and lightly sweetened. The loss-clamping end of the strain relief is configured to provide an inwardly directed radial force in the coaxial electrical connector. In the other exemplary embodiment, a medical wide clamp sleeve, a strain relief clamp, and a =: a movable sleeve with a "sea clamp sleeve configured to surround" Coaxially wound around and attached to the rear end of a connector. The strain relief clamp is disposed in the clamp and configured to apply an inwardly directed radial force at the coaxial electrical double = clamp stop ring configured to secure the strain relief clamp to the sweet #同内. In still another exemplary embodiment, a coaxial electrical connection for closing a coaxial cable is provided. The coaxial _ includes an inner material, an insulating layer of the (four) conductor, and the surrounding insulation. An outer conductor of the layer and a sheath surrounding the outer conductor. The coaxial electrical winding assembly comprises a coaxial electrical iron connector and a strain relief fitting. The coaxial electrical wound connector includes an inner conductor clamp and an outer conductor clamp fish _ humidity seal. The inner conductor clamp is configured to mate the inner conductor 1 and the outer conductor clamp is configured to compress the outer conductor during the internal support. The humidity seal is configured to engage the jacket. The strain relief is configured to include a strain relief clamp configured to engage the coaxial cable. The clamp does not surround any part of the internal support structure. This "invention content" is described as a "simplified version" which is described in the following "Embodiment": This content is not intended to identify the key features or basics of the claimed application. The features are also not intended to limit the scope of the claimed subject matter, and the foregoing general description of the invention and the following are intended to be exemplary and (four) and to provide the invention as claimed. Enter ^ 201218539 step explanation. [Embodiment] The variable elimination fitting of the coaxial cable connector can be modified to reduce the radiation of the passive mutual electrical winding. An exemplary embodiment of the present invention relates to a strain relief fitting. The exemplary mechanical and electrical connections in the end of the coaxial cable disclosed herein, the modulation (PIM) level and associated generation of interfering RF signals by the equivalent vehicle. Second, in the detailed description of the employee's relaxation case, the details of the present invention, which are exemplified in the attached drawings, will be described in detail in the test.: All patterns _ camp As described, a professional can implement the two == embodiment, and can vary the scope of the invention, and the physical and electrical changes. Further, it should be understood that the present invention is different in structure and logic. It is not necessary to mutually exclude each other. For example, the specific features, structures, or characteristics may be included in the description. Therefore, the detailed description of T is in the concrete embodiment. When there is a complete _ equalizer defined. Example of an exemplary coaxial power supply and an exemplary condensed connection Referring now to the drawings, the impedance of an illustrative coaxial cable 100 is disclosed as a pregnancy cable 100. Not the same as pumping iron. However, it is necessary to understand that the corrugated, electric, and characteristic characteristics of this electric ==7 series are only exemplary, and the exemplary port, inch and shape characteristics disclosed herein are disclosed in 201218539. , ''Transport|g 200 and an exemplary library ending on the left side of Figure 1A.) should be = except for the accessory _ and the connector 200 is - the public connection can not reveal the exemplary compression can be configured as -#r, The connection should be understood that the compression connector 200 utilizes a shrink connector (not shown). The exemplary coaxial power is to be completed in the second connector 2"" the same strain relief fitting assembly = the right side of the figure, which together constitute - exemplary compression connection, please refer to Figure 1B, coaxial winding H) The outline includes an inner conductor 1 〇 2 surrounded by an insulating layer 104, an outer conductor (10) of the ring-fired insulating layer, and a sheath 1 〇 8 surrounding the outer conductor 106. The sheet 5 as used herein is composed of. "Circle" refers to an inner layer that is roughly covered by an outer layer. However, it should be understood that the inner layer may be surrounded by an outer layer that does not need to be in close proximity to the outer layer. Therefore, the term "surrounded by" allows the possibility of an intermediary layer. Each of these components of the exemplary coaxial cable 100 will now be discussed in turn. The inner conductor 102 is disposed at the core of the exemplary coaxial cable 1 , and can be configured to carry a series of current (amperes) and/or RF/electronic digital signals. The inner conductor 102 may be formed of copper, copper-clad aluminum (CCA), copper-clad steel (CCS), or silver-coated copper-clad steel (SCCCS). Although other conductive materials may also be used. For example, the inner conductor 1〇2 can be formed from any type of conductive metal or alloy of 201218539. In addition, although the inner conductor 1〇2 of FIG. 1B is coated, the inner conductor of the first conductor is configured to have its configuration, such as solid, long, corrugated, keyed or Hollow and so on. The insulating layer 104 il surrounds the inner conductor 1 〇 2 and is used to support the inner conductor 1 〇 2 ' and to insulate the inner conductor 102 from the outer conductor 106. Although not shown; a bonding agent (e.g., a polymer) can be used to bond the insulating layer 104 to the inner germanium conductor 102. As shown in Fig. 1, the insulating layer 1〇4 & a foamed material is formed, such as, but not limited to, a foamed polymer or a gas polymer. For example, the insulating layer 104 may be formed of expanded polyethylene. Although not shown in the drawings, it is to be understood that the insulating layer 104 may be formed of other kinds of rim materials or structures whose dielectric constants are sufficient to insulate the inner conductor 1〇2 from the outer conductor 1〇6. For example, an alternative insulating layer can be constructed of a spiral spacer that allows the inner conductor 1 概略 2 to be substantially separated from the outer conductor by air. The spiral spacer of the alternative insulating layer may be formed of, for example, polyethylene-2 or polypropylene. The dielectric constant of the combination of the spiral spacer and the void in the replacement insulating layer will be sufficient to insulate the inner conductor 102 from the outer conductor 106. ,outer. The germanium conductor 106 surrounds the insulating layer 104 and is used to minimize the ingress and egress of high frequency electromagnetic radiation into and out of the inner conductor 1G2. In some applications, high frequency electromagnetic radiation is radiation having a frequency greater than or equal to 355 〇 MHz. The outer conductor t can be formed by solid copper, solid state, or copper clad (CCA), although other conductive materials can be used. The configuration of the outer body 106 has peaks and valleys so that the coaxial wire can be more easily deflected than the conductor wire of the outer wall 10 201218539. In addition, it is to be understood that the outer corrugations may be in the form of a _, as shown, or may be helical (not shown). The sheath (10) surrounds the outer conductor 1〇6 and is generally used for scales, within which the σ卩 component is protected from external contaminants such as dust, μ and oil. In the typical concrete embodiment, the sheath 108 is also used for the positive = the bend of the electric winding to prevent kinking, and the protection of the electric praise (and internal components) to prevent crushing due to external force or Other variants I: Multiple, material formation, including but not limited to polyethylene, high density 0 poly 8 dilute, low read polyethylene, linear low density polyethylene, rubber ^ or a combination thereof. The particular application/environment that is used to form the actual material of the sheath (10) is indicated. Please refer to the 1C picture, the coaxial cable is said to be closed with the example _ connector after the end of the exposure, ^ pre- (1) shown in the same as the same _ ~ tail end brother E slave 110, a second section 112 and A core. Where 114. The sheath 108, the outer conductor 1〇6 and the insulating layer 1〇 & (4) are stripped. The guard*(10) has been hollowed out from the core of the second section heart 04 by the core hollow section 114. " II. Exemplary Compression Connector Assembly Assembly: 2Α·2β diagram, revealing an exemplary compression connector set -ο 彻.匕Sexual compression connector and exemplary strain relief accessory 201218539 as shown in Figures 2A-2B*, an exemplary one-ring ring seal 21塾, connected to include a first body 220, a connection crying oven 230, - second 〇 type ring seal 24q, transport I shoulder-insulator 260, a conductive pin 2 - dust core seal 250, "Electric 27G, - mandrel, - card # 290, a clamp card 290 compression sleeve 330. Exemplary library two: - wet oxygen seal 塾 32 〇, and - ί _ including - clamp stop ring should U remove the clamp 42 〇 and - tong clamp sleeve 430. As shown in Figure 2B The 'sweet 3 〇〇 义 隔开 隔开 隔开 隔开 隔开 , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , The strain relief eliminates the length of the tongs 420. The ridge change elimination tongs 420 are also defined as _ sway surface. - should be as shown in Figure 2C, even the technical crying monument. Connect $ + σ snail from 230 through a The annular flange 222 is reversely connected to the connector body 220. The 绦# + 2?n, the body 26 is clamped and the conductive pin 270 is kept inside the body 220. Thunder|^p 272. The conductive pin 270 includes Bit A P 272 at one end and a missing clamp adjacent to the conductive pin 270 at the other end are adjacent to the connector body 220 of the adjacent 2, 〇6, Shuang, Gan 274. . A driver portion 282 of the heart glaze 280 is de-sweetened to clamp the fan, and the snap ring 290 surrounds the wet seal ring 31 环绕. The thirsty pieces are held together. Clip sweet 300 320, ",, rolling seal 310 docking moisture seal is white disposed inside the compression sleeve 330. As shown in Figure 2C, the pin pi w and the clamp stop 41 〇 and strain Eliminating the clamp 42〇^]φ + .. In at least some exemplary embodiments, the clamp stop ring 410 is only sleeved ηη Μβπν by, for example, an interference fit to engage the jaws, the surface of the jaws By clamping the sweet stop ring 410 to the inside of the inner sleeve 430 of the cannula 12 201218539. The surface can assist in holding the strain relief clamp 420 in the sweetness. Please refer to the operation of the 2C_2E image 500. And it's an example of a sigma-like condensed connector combination of the example of a condensed connection to cry - the picture reveals that at the initial open position, the map is not revealed - a two-stage (four) contraction of the first-stage period of the second move to An exemplary compression after a singular position,
圖揭示於該兩階段㈣程序 = 200。第2E ,位置上之後的示例性應變第二 =經被移動到 赫奸如Ϊ2(^所示’帛1C圖之同輛電繞100的收尾端可 連接器200當中。一曰插入/伽並插入到示例性I縮 軸與之;;體1〇6被收納到心 y 、甘300之間所疋義的間隙340當中。同時一旦 2後’内部導體1〇2被收納到導電銷27〇的夹甜部別 虽中’使得導電銷270機械式與電性地接觸内部導體1〇2。 插入後,應變消除夾钳420與濕氣密封墊32〇 環繞同軸電纜100的護套108。 如第2C與2D圖所示,於一個兩階段壓縮程序的第一 階段期,,示例性壓縮連接器細藉由將壓縮套筒33〇轴 ^地沿著連接器本體22〇朝向連接器螺帽23G滑動直到壓 縮套筒330的一肩部332對接連接器本體22〇的一肩部224 ^止而移動到該喷合位置上。此外,壓縮套筒33()的一遠 端334壓縮第三〇型環密封墊25〇到定義在連接器本體22〇 13 201218539 中的一環狀凹槽226當中,因此將懕仏六w 田丁 口此肘碴鲕套筒33〇密 接器本體220。 』王逆 另外’當該兩階段壓縮程序的第1皆段期間壓縮連接 态200被移動到該嚙合位置上,壓縮套筒33〇之一凸緣M6 轴向地偏壓至濕氣密封墊32G上,其細向地偏壓在濕氣密 封環310上,其軸向地強迫夾钳扇進入較小直徑的連接 器本體220中’其藉由窄化或封閉溝槽搬而徑向地壓縮 環繞外部導體106之夾鉗300(參見第扣圖)。夹甜卿之 壓縮徑向地壓縮爽㈣〇與心車由28〇之間的外部導體⑽。 因此心軸280為-内部連接器結構的示例,因為心轴彻 之至少-部份配置成位於同軸電纜1〇〇的内部。 此外,當於該兩階段壓縮程序的第一階段期間壓缩連 接器雇被移動到該4合位置上,失鉗綱軸向地偏壓在 驅動器部282 ±,其軸向地強迫導電銷,的夾鉗部μ 進入較小直徑的絕緣體當中,其㈣㈣㈣_ 導體102之夾甜部274。另外,導電銷27〇的銷部奶延伸 通過絕緣體260,藉以-旦唾合於連接器螺中冒23〇後喃合一 母連接器(未示出)的一對應導體。 σ同時,#於該兩階段壓縮程序的第-階段期間壓㈣ 接益2G0被移動到該4合位置上時,連接器本體22〇的遠 端228軸向地偏壓在濕氣密封環31() ±,其轴向地偏壓在 濕氣密封塾320上直到濕器密封環31〇的—肩部31 到壓縮套筒330的-肩部338,藉此轴向地壓縮濕氣密封塾 32〇,使得濕氣密封墊32〇的長度變短,而寬度變厚。 201218539 岔封墊320之加厚的寬度使得濕氣密封墊320施加一第一 向内導向的#向力在同轴電纜1〇〇的護套1〇8上,因而密 封壓縮套筒330至同軸電纜1〇〇的護套1〇8。 如第2D與2E圖所示,於該兩階段壓縮程序的第二階 段期間,示例性應變消除配件400藉由將夾钳套筒43〇軸 向地沿著壓縮套筒330朝向連接器螺帽23〇滑動直到夹鉗 套筒430之遠端432對接壓縮套筒33〇之一肩部3外而被 移動到該嚙合位置上。 ' 田,丨、^土微茭碉陡配仵400於該兩階段壓縮程 序的第一階段期間被移動到該嚙合位置上時,夾鉗套筒43〇 之-錐形表面434偏壓在應變消除炎钳42()的一相對 =表面426上,其偏壓在並直接實體接觸於夾钳止動環^ ,直到該夾钳止動輯接並直接實體接觸於壓縮套筒 的轴^7'Γ夾鉗套筒CO的相對軸向力之失鉗止動環410 3=3變消除夾俯420的錐形表面426與應變消 鉗420的相對應錐形表面434交互作 化或封閉溝槽422(參 稭乂猎由乍 徑向力在護套刚上。_ & 1二向内導向的 越遠離該示例性壓Ϊ連:42〇的_ 該第二向内的任何部份,並藉此施加 部上。 的徑向力在同軸電纜100的—内部未支撐 徑向具體實施例中’該第-向内導向的 J於料二向内導向的徑向力。此力量的差異可能 15 201218539 由=封塾32。與應變消除夹⑽。之 . 开邊的差異,及/或由於㈣ 或 夾鉗42。的變形力之差 除 部份由於濕氣密封墊320係二里:差異亦可能或另至少 材料更軟的材料所形成。例如:濕二^:广 軟的橡膠材料所形成,而應變消除夾鉗可由―:: 對較硬的橡膠材料或—_均聚物材料所形成。 形成濕氣密封塾320之材料的相對柔軟度使得渴氣密 200 可貫質地防止濕氣進入到示例性壓縮連接琴 ::::吏同轴電纔⑽之護套彻 —純U其它表面缺陷或不平整’相對較軟的渴 =封塾320能夠實質地密封護套⑽的表面防止濕氣。、 丨即使電!覽100可於濕氣密封墊32〇處彎折,因此另 於該彎折的内側處壓縮濕氣密封墊32G的部份,而於該彎 ^的外側處拉離濕氣密封塾32G的部份,相對較軟的濕氣 =封塾320使得該彎折的外側處之濕氣密封塾似的部份 膨服’並、輯於該料的外财密封護套1〇8的表面防止 濕氣。 在收尾與安裝同軸電纜100之後,例如於一蜂巢式通 A塔上’同軸電欖1QQ與壓縮連接器、之導體間的機械 式與電性接觸會由於例如強風與振動而遭受到應變。由應 隻消除爽钳420施加的該第二向内導向的徑向力將同轴電 繞100上的應變從轉移成外部導體106、夾钳300與心軸 280之間的機械式與電性接觸中解除。 201218539 向力=可夹鉗42°包含有其第二向内導向徑 部導體、爽二:Γ100於應變消除夹甜42。與外 間的徺曲。二 撓曲超過應變消除夾:r =:=。〇 _上的向的徑向力可以允許同轴電境 _ 濕氣密封塾似進入示例性壓縮 向^ 而由應變消除夾甜420施加相對較大的向内導 。偟向力可實質地防止同軸電瘦1〇〇上 =應變消除夹⑽至外部導請、夾請與^^ ^的機械式與電性接觸。 另外,應變消除夾鉗420的放置超過心軸28〇的末 所Μ應變消除夾钳並未環繞心、轴的任何部份 =應變消除夹钳420可提供比如果應變消除夾钳物 :轴28G的-些部份時更大的應變消除,藉此有必要放置 為更靠近夾鉗300。概言之,應變消除夾鉗42〇放置地離爽 鉗300越遠,提供給外部導體1〇6、夾鉗3〇〇與心軸之⑽ 間的機械式與電性接觸之應變消除就越多。 實質地防止這些機械式與電性接觸上的應變有助於這 些接觸維持線性與穩定,其有助於降低或防止表面之間^ =電弧或電暈放電,其可降低ΡΙΜ位準與相關之由示例性 魘缩連接器200所放射之干擾RF信號的產生。較佳地是示 例性可現場安裝的壓縮連接器200呈現可匹配或超過 17 201218539 的跳接繞線上較不方便的工薇安裝之焊接或炫接的連 之該等對應特性的PIM特性。 口° III.第一替代壓縮連接器組合件 請參照第3A_3C圖’揭示一第一 組合件。如第3A圖所示,第一替代壓縮連接器组^ 7〇0包括壓縮連接器·與—第一替代應變消除配件_t 第:替代應變消除酉以牛600才目同於應變消除配件4〇 應=430已經由一夹鉗套筒630取代,而第四與i五 密::r。、62。已經被加入到第一替代應變消除配 °第Β圖所不’第四與第五〇型環密封墊⑽、 620配置在夹鉗套筒63〇之内。 :在請參照第犯與坨圖,揭示第 組合件7〇〇之操作的態樣。第3Β _連接益 程序的第一階段期間已經被移動到,位:::=縮 Π=2°°。第%圖揭示於該兩階段壓縮程序: 删除:=ΓΓ位置上之後的第-替代 夕女夕缸 口為苐—替代壓縮連接器組合件700 合件二、=:型上相同於示例性1縮連接器組 件-之操作:同器組合 作的那些態樣。 U縮連接〶組合件7 0 〇之操 段^第與替^圖^’於該兩階段㈣程序的第二階 軸向地沿嶋件_藉由將夹甜套筒630 330朝向連接器螺帽230滑動直到夾 18 201218539 鉗套筒630之遠端632對接壓縮套筒33〇之一卩 被移動到該嚙合位置上。 σ 另外,當於該兩階段壓縮程序的第二階段 配件6〇。被移動到該唾合位置上時,丄^ 的第^型環密封墊610到定義在爽甜套筒63〇中 筒』 ’因此軸夾鉗套筒630至麗縮套 茼 此外,第五〇型環密封墊620由同轴電纜 義在夾鉗套筒630中的-環狀凹㈣ 型環密封墊二=套共V二=套:8 7/與第五。 之住一門访# 、方止‘軋絰由夾鉗套筒630 汗1放柒進入第一替代應變消除配件600。The figure is revealed in the two-stage (four) procedure = 200. 2E, the exemplary strain second after the position = is moved to the end of the connector 200 of the same electric winding 100 of the same electric vehicle as shown in Fig. 2(^1) Inserted into the exemplary I-retracted axis; the body 1〇6 is accommodated in the gap 340 between the heart y and the Gan 300. At the same time, once 2, the inner conductor 1〇2 is received into the conductive pin 27〇. The pinch portion does not allow the conductive pin 270 to mechanically and electrically contact the inner conductor 1〇2. After insertion, the strain relief clamp 420 and the moisture seal 32 surround the sheath 108 of the coaxial cable 100. As shown in Figures 2C and 2D, during the first phase of a two-stage compression procedure, the exemplary compression connector is slid along the connector body 22 toward the connector nut by the compression sleeve 33 23G slides until a shoulder 332 of the compression sleeve 330 abuts a shoulder 224 of the connector body 22〇 and moves to the spray position. Further, a distal end 334 of the compression sleeve 33() compresses the third The ring-shaped ring gasket 25 is defined in an annular groove 226 defined in the connector body 22〇13 201218539, thus The 碴鲕 w w 此 此 此 此 此 此 此 碴鲕 碴鲕 碴鲕 碴鲕 碴鲕 。 。 。 』 』 』 』 』 』 另外 另外 另外 另外 当 当 当 当 当 当 当 当 当 当 当 当 当 当 当 当 当 当 当 当One of the flanges M6 of the compression sleeve 33 is axially biased onto the moisture seal 32G, which is finely biased against the moisture seal ring 310, which axially forces the clamp fan into a smaller diameter In the connector body 220, it radially compresses the clamp 300 surrounding the outer conductor 106 by narrowing or closing the groove (see the figure). The compression of the clip is compressed radially (four) and the heart The car consists of an outer conductor (10) between 28 turns. The mandrel 280 is therefore an example of an internal connector structure, since the mandrel is at least partially configured to be located inside the coaxial cable 1 。. During the first phase of the stage compression procedure, the compression connector is moved to the 4-position position, and the lost clamp is axially biased at the driver portion 282 ±, which axially forces the conductive pin, and the clamp portion μ enters Among the small-diameter insulators, (4) (4) (4) _ the sweet portion 274 of the conductor 102. The pin portion of the electric pin 27 extends through the insulator 260, so that a corresponding conductor of a female connector (not shown) is squirted in the connector screw and squirted by a female connector (not shown). During the first-stage pressure of the phase compression program (4) When the 2G0 is moved to the 4-position position, the distal end 228 of the connector body 22 is axially biased at the moisture seal ring 31() ±, its axial direction The ground is biased on the moisture seal 塾 320 until the shoulder 31 of the wet seal ring 31 到 to the shoulder 338 of the compression sleeve 330, thereby axially compressing the moisture seal 塾 32〇, so that the moisture seal The length of the pad 32 turns shorter and the width becomes thicker. 201218539 The thickened width of the 岔 gland 320 causes the moisture seal 320 to apply a first inwardly directed #向 force on the sheath 1 〇 8 of the coaxial cable 1 ,, thus sealing the compression sleeve 330 to the coaxial The sheath 1〇8 of the cable 1〇〇. As shown in Figures 2D and 2E, during the second phase of the two-stage compression procedure, the exemplary strain relief fitting 400 is oriented axially along the compression sleeve 330 toward the connector nut by axially clamping the clamp sleeve 43 23〇 slides until the distal end 432 of the clamp sleeve 430 abuts one of the shoulders 3 of the compression sleeve 33〇 and is moved to the engaged position. When the field, 丨, and 土 茭碉 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 夹 夹 夹 夹Eliminating a relative = surface 426 of the squeegee 42 (), biased and directly in physical contact with the clamp stop ring ^ until the clamp stops and directly contacts the axis of the compression sleeve ^7 The relative axial force of the Γ clamp sleeve CO is lost or the damper ring 410 3 = 3 distorts the tapered surface 426 of the 420 and the corresponding tapered surface 434 of the strain relief 420 interacts or closes the groove Slot 422 (the stalk is stalked by the radial force on the sheath just now. _ & 1 the second inward guide is farther away from the exemplary compression joint: 42 〇 _ the second inward any part, And thereby exerting the radial force on the portion of the coaxial cable 100 - the inner portion of the coaxial cable 100 is not supported in the radial embodiment, the radial force of the first inwardly directed J is directed inwardly. Possible 15 201218539 by = 塾 32. With the strain relief clip (10). The difference between the open edge, and / or due to the difference between the deformation force of (4) or the clamp 42. The moisture seal 320 is two-way: the difference may also be formed by at least another softer material. For example: wet two: soft rubber material, and the strain relief clamp can be hardened by ":: The rubber material or --- homopolymer material is formed. The relative softness of the material forming the moisture seal 塾 320 makes the thirst gas tightness 200 to prevent moisture from entering the exemplary compression joint piano::::吏 coaxial Jacking of electric (10) - pure U other surface defects or uneven 'relatively soft thirst = sealing 320 can substantially seal the surface of the sheath (10) to prevent moisture. 丨 Even electricity! View 100 can be wet The gasket 32 is bent at the dam, so that the portion of the moisture seal 32G is compressed at the inner side of the bend, and the portion of the seal that is pulled away from the moisture seal 塾 32G at the outer side of the bend is relatively soft. Moisture = sealing 320 causes the moisture-sealed portion of the bent portion to be swollen like a part, and the surface of the outer sealing seal 1〇8 of the material is protected from moisture. After the coaxial cable 100, for example, on a honeycomb type A tower, the coaxial coaxial 1QQ and the compression connector, The mechanical and electrical contact between the conductors is subject to strain due to, for example, strong winds and vibrations. The strain on the coaxial coils 100 is shifted by the radial force that should only be removed by the second inwardly directed force applied by the stiffeners 420. The external conductor 106, the clamp 300 and the mandrel 280 are released in mechanical and electrical contact. 201218539 The force = the clamp 42° includes the second inward guide diameter conductor, the cool two: Γ100 Strain relief clamps sweet 42. Distortion with the outside. Two deflections exceed the strain relief clamp: r =:=. The radial force on the 〇_ can allow the coaxial _ moisture seal to enter the exemplary compression A relatively large inward guide is applied to the strain relief clip 420. The 偟 force can substantially prevent the mechanical and electrical contact between the coaxial strainer (10) and the external guide, the clamp and the ^^ ^. In addition, the strain relief clamp 420 is placed beyond the end of the mandrel 28〇. The strain relief clamp does not surround the heart, any part of the shaft = strain relief clamp 420 can provide a ratio of strain relief clamps: shaft 28G - Some parts of the larger strain relief, thereby making it necessary to place the clamp 300 closer. In summary, the farther the strain relief clamp 42 is placed away from the smoothing clamp 300, the more the strain relief is provided to the outer conductor 1〇6, the mechanical and electrical contact between the clamp 3〇〇 and the mandrel (10). many. Substantially preventing these mechanical and electrical strains helps to maintain linearity and stability of these contacts, which helps to reduce or prevent surface arcing or corona discharge, which can reduce the level of enthalpy and related The generation of interfering RF signals emitted by the exemplary collapse connector 200. Preferably, the exemplary field mountable compression connector 200 exhibits PIM characteristics that match or exceed the corresponding characteristics of the less convenient weld or splicing of the sleek installation on the jumper winding of 17 201218539. Port III. First Alternative Compression Connector Assembly Referring to Figure 3A_3C, a first assembly is disclosed. As shown in FIG. 3A, the first alternative compression connector group 〇7〇0 includes a compression connector and a first alternative strain relief accessory _t: an alternative strain relief 酉 牛 600 is the same as the strain relief accessory 4 〇 should = 430 has been replaced by a clamp sleeve 630, and the fourth and i five secrets:: r. 62. It has been added to the first alternative strain relief. The fourth and fifth jaw ring seals (10), 620 are disposed within the clamp sleeve 63. : Please refer to the accomplice and the smuggling diagram to reveal the aspect of the operation of the first assembly. Section 3 _ Connection Benefits The first phase of the program has been moved to, bit:::= shrink = 2°°. The %th image is revealed in the two-stage compression procedure: Delete: = the first-after-the-night nucleus after the ΓΓ position is 苐 - the replacement compression connector assembly 700 is the second, the =: type is the same as the exemplary 1 Shrink Connector Assembly - Operation: Those aspects of the same group. U 〒 〒 〒 7 7 ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ The cap 230 slides until the clip 18 201218539 the distal end 632 of the jaw sleeve 630 is moved to the engaged position by the butt compression sleeve 33. σ In addition, when the second stage of the two-stage compression program is the fitting 6〇. When being moved to the salivation position, the ^-ring seal 610 of the 丄^ is defined in the tube of the sweet sleeve 63 ' 'so the shaft clamp sleeve 630 to the condensed sleeve 茼 In addition, the fifth 〇 The ring seal 620 is made of a coaxial cable in the clamp sleeve 630 - an annular concave (four) type ring seal two = a set of V two = sleeve: 8 7 / and fifth. The residence of a visit #, 方止' rolling 绖 by the clamp sleeve 630 sweat 1 put into the first alternative strain relief fitting 600.
IV.第二替代壓縮連接器組合件 現在請參照第4a_4C 組合件900。如笛4Δ图 《一替代麗縮連接器 9〇〇 ρ '"所不,第二替代壓縮連接器組合件 第二替代應變 _苐-替代應變消除配件_。 應變消除夾鉗420與夾射套筒4 件彻,除了 _、-夹所取代,而—第四0型環密封塾 第代庫二: 濕氣密封墊850已經被加入至 弟-曰代應變消除配件咖。 ! 密封墊_、應變消除夹紐82"B圖/斤不’弟四0型環 封墊850配置在类钮卷/ Λ鉗$展840與第二濕氣密 置在失鉗套筒830之内。 現在請參照第4B|k 組合件9 0 0之摔作&:梯 揭不第二替代壓縮連接器 ❹作的_。第4Β圖揭示於一個兩階段壓縮 19 201218539 =㈣1段期間已經被移動到―哺合位置上 :隊縮連接器。第4C圖揭示於該兩階段壓== 庫;期間已經被移動到—喃合位置上之後的第二替代 應=除配件_。因為第二替代壓縮連接器級合件: 二型式與功能上相同於示例性壓縮連接器組 ° 之该專組件,在以下僅討論與示例性壓縮 組=500之操作不同的第二替代壓縮連 之操作的那些態樣。 口件900 "二第Γ與4 C圖所示’於該兩階段壓縮程序的第二階 …帛-替代應變消除配件_藉由將夾 軸_沿著麗縮套筒330朝向連接器螺帽23〇滑動直0 鉗套同請之遠端832對接壓縮套筒33〇之—肩部33 A 被移動到該嚙合位置上。 。 而 代^2#於該兩階段壓縮程序的第二階段期間第二替 除配件_被移動到㈣合位置上時 :壓縮第四Ο型環密封塾81G進人㈣在夾钳套筒套^ 2一環狀凹槽834,因此密封爽鉗套筒83〇至壓縮套筒 同時,當於該兩階段壓縮程序的第二階段期間第 代應變消除配件_被移動到該喷合位置上時,夾_ 830的-凸緣836軸向地偏壓在第二濕氣密封塾⑽上1 轴向地偏壓在夾钳環840上’其轴向地騎在應變消除; 钳820上,其軸向地偏壓在夾鉗止動環41〇上,1 = 偏壓在壓縮套筒3則後端上。結合於夾鉗環= 20 201218539 夾鉗套筒830的凸緣836之軸向力轴向地麗缩第 ;""、、孔饴封墊850直到該夾鉗環的一肩部842對接夾鉗套 同830的一肩部咖,因此造成第二濕氣 變短,而寬度變厚。第二濕氣密封塾8 =: ==:!85。施加一第三向内導向的經向力在同 1〇8〇-〇〇^ 的第:性具體實施财n氣密封墊㈣ =二導向的徑向力實質上等於濕氣密 向内導向的徑向力。 π乐 於防=,0型環密封塾81G與第二濕氣密封塾850共同用 、方止濕軋經由失鉗套筒83〇的 t>^iM^8〇〇〇 …壬&進人到第二替代應 另外’當於該兩階段壓縮程序的第 代應變消除配件_被移動到該唾合位置上::第二替 環84〇的一錐Ι Γ 鉗% 840之軸向力強迫夾鉗 錐形表面^ %變消除失鉗伽的一相對應 叫衣面826交互作用,藉以藉 見第4八圖;)施为繁,^ 或ί閉溝槽822(參 加一第二向内導向 應變消除失心〇的錐形表面826越=在絲108上。 接器200越向内缩丨-_ 乂離邊不例性壓縮連 心軸 聊並未環繞 力=電:何部份’並因此施加該第二向内導向的徑向 力在同軸電乡覽_的-内部未支撐部。 徑向實施例中’該第-向内導向的 n向内導向的“力。此力量的差異可能 21 201218539 封塾32。與應變消除夹鉗82〇之間的尺侧 " /、,及/或由於施加於濕氣密封墊320鱼庫辦、肖广 夾鉗820的變形力之罢里θ 。應變湞除 刘八山 差,、。此力罝的差異亦可能或另至少 二:=濕氣密封墊32〇係由比形成 材料更軟的材料卿成。 謂820之 V.替代壓縮連接器組合件 見體圖所揭示之組件的順序在—些示例性 ㈣貫關中可以改變。例如,除了濕氣密料3 2 〇被包 括不例性壓縮連接器2〇〇中,並配置於應變 與炎請之間,濕氣密封墊32G另可包括在夾甜= 二=變消除夹甜420可配置在_ 與濕氣密㈣ 此外亦應瞭解在至少某些示例性具體實施例中,濕 氣密封墊320與應變消除夾钳働可整合地形成為一單一 零件。例如’―單—零件可以包括做為-濕氣密封墊的一 部份’及做為-應變消除夾鉗的另一組成部。 另外,雖然第2B_2E目所示之應變消除失鉗420之喷 合表面424為一實質上平滑的圓柱面,可考慮部分的响合 表面424為非K柱形。例如,部分的喃合表面424可以包 拉段差、凹槽、肋部或齒部’藉以更佳地响合同轴電雙綱 的護套108。 此外,應變消除失钳42〇的夾钳功能性可由且有並它 維態的應㈣除夾钳來達成。例如,替代應變齡炎甜可 在相反的方向上漸縮,其可包括不同角度下的多個錐形表 22 201218539 :作== = =件之相對應相對錐形表面交 該應變消除_可料包括多個溝槽,或可包括使得 厚度。此外,=顯著不同外徑的同軸電纜的一 應變消除配件的二咖 變消除配件之應__。中,耩以進—步增強_ 幻士包括在應變消除配件400、000、800之每一者 :的應變消除夾鉗同樣地配置成共同申請中的美國專利申 η月、、域12/889,913(律師立案編號179〇91171)中所揭示之IV. Second Alternative Compression Connector Assembly Referring now to the 4a-4C assembly 900. Such as the flute 4 Δ map "An alternative crescent connector 9 〇〇 ρ '" No, the second alternative compression connector assembly second alternative strain _ 苐 - alternative strain relief accessories _. The strain relief clamp 420 and the clamp sleeve 4 are completely replaced, except for the _, - clip, and the fourth 0 type ring seal 塾 first generation library 2: the moisture seal 850 has been added to the brother-曰 strain Eliminate accessories. Seal _, strain relief clip button 82 " B map / kg not 'di brother's four 0 ring seal 850 is configured in the class button roll / tongs $ 840 and the second moisture is placed in the tongs sleeve 830 Inside. Now refer to the 4B|k assembly part of the 90's fall &: step to uncover the second alternative compression connector. Figure 4 reveals a two-stage compression 19 201218539 = (d) 1 segment has been moved to the "feeding position": the team is shrinking the connector. Figure 4C reveals the two-stage pressure == library; the second substitution after the period has been moved to the -halo position = except for the accessory_. Because of the second alternative compression connector ferrule: a second type and the same component that is functionally identical to the exemplary compression connector set °, only the second alternative compression cascading that is different from the exemplary compression set = 500 operation is discussed below. Those aspects of the operation. The mouthpiece 900 "Two Dijon and the 4 C diagram show the second stage of the two-stage compression program...帛-alternative strain relief fittings_by the clamping shaft _ along the slewing sleeve 330 towards the connector snail The cap 23 is slid to the straight 0 tongs and the distal end 832 is abutted against the compression sleeve 33 - the shoulder 33 A is moved to the engaged position. . And when the second part of the two-stage compression program is removed during the second stage of the two-stage compression program, when the second part is removed to the (four) position: the fourth type of ring seal 塾 81G is compressed (four) in the clamp sleeve ^ 2 an annular groove 834, thereby sealing the smoothing sleeve 83 to the compression sleeve while the first generation strain relief fitting _ is moved to the spray position during the second phase of the two-stage compression sequence The flange 836 of the clamp _ 830 is axially biased on the second moisture seal cymbal (10) 1 axially biased on the clamp ring 840 'which axially rides on the strain relief; the caliper 820, its axis It is biased toward the ground on the clamp stop ring 41, 1 = biased on the rear end of the compression sleeve 3. Combined with the clamp ring = 20 201218539 The axial force of the flange 836 of the clamp sleeve 830 is axially retracted; "", the aperture seal 850 is docked until a shoulder 842 of the clamp ring The clamp sleeve is the same as the shoulder of the 830, thus causing the second moisture to become shorter and the width to become thicker. The second moisture seal 塾8 =: ==:!85. Applying a third inwardly directed warp force is the same as the first 〇8〇-〇〇^: the specific implementation of the gas seal (four) = the radial force of the two guides is substantially equal to the moisture tightly directed Radial force. π is happy to prevent =, 0-ring seal 塾 81G is used together with the second moisture seal 塾 850, and the wet-rolling is stopped by the tweezers sleeve 83〇^^M^8〇〇〇...壬& To the second alternative, the first generation strain relief fitting _ as the two-stage compression program is moved to the salivation position: the axial force of the second ring 84 〇 Ι 钳 % % 840 The conical surface of the clamp is removed. The corresponding one is called the clothing surface 826 interaction, so as to borrow the 4th figure;) Shi Wei, ^ or ί closed groove 822 (to participate in a second inward The more the tapered surface 826 of the guiding strain-removing eccentricity is on the wire 108. The more the adapter 200 is inwardly contracted, the _ 乂 乂 不 不 不 不 不 不 连 连 并未 并未 = = = = = = = = = = And thus applying the second inwardly directed radial force at the inner unsupported portion of the coaxial electric field. In the radial embodiment, the 'inward-inwardly directed n-inwardly directed "force. The difference may be 21 201218539 塾 32. The ulnar side between the strain relief clamp 82〇 " /, and / or due to the application of the moisture seal 320 fish bank office, Xiao Guang clamp 820 change The force is in the θ. The strain is removed from the Liu Bashan difference, and the difference between the force and the force may be at least two: = the moisture seal 32 is made of a softer material than the forming material. The sequence of components of the compression connector assembly as disclosed in the body diagram may vary in some exemplary (four) cross-sections. For example, in addition to the moisture-tight material 3 2 〇 is included in the non-existent compression connector 2〇〇, and configured Between strain and inflammation, the moisture seal 32G may additionally be included in the clip sweet = two = variable elimination clip sweet 420 can be configured in _ with moisture tight (four) and should also be understood in at least some exemplary embodiments The moisture seal 320 and the strain relief clamp can be integrated into a single part. For example, '-a single part can be included as part of a moisture seal' and as a strain relief clamp In addition, although the spray surface 424 of the strain relief tongs 420 shown in the second B_2E is a substantially smooth cylindrical surface, it is considered that the partial ringing surface 424 is a non-K-column. For example, part of The halved surface 424 can wrap the step difference, the groove, The ribs or teeth's are used to better circumvent the contractor shaft of the contract shaft. In addition, the caliper function of the strain relief tongs 42 可由 can be achieved by and in addition to the clamps. For example, instead of strain-age sweetness, it may be tapered in the opposite direction, which may include multiple cones at different angles. Table 22 201218539: == = = corresponding to the tapered surface of the piece. The material includes a plurality of grooves, or may include a thickness. In addition, = a significantly different outer diameter of the coaxial cable of a strain relief accessory of the two coffee-eliminating accessories should be __. Medium, 耩 to advance - step enhancement _ _ The strain relief clamps included in each of the strain relief fittings 400, 000, 800 are similarly configured as disclosed in the commonly-owned U.S. Patent Application, Nov. 12/889,913 (Attorney Docket No. 179-91171). It
應變夾鉗組態中任—者’該專射請案名為「具有應變消 除失甜之同軸電纜連接器」(c〇AXIAL CABLE CONNECTOR WITH STRAIN RELIEF CLAMP),其與本案 共同立案’並在此以引用方式完整併入本文。 另外’雖然第2B-4C圖所示之應變消除夾鉗42〇實質 地環繞與喃合護套108’應瞭解護套1〇8之剝除部可延伸到 應變消除夾鉗420中至少一部份當中。因此,應變消除炎 鉗420可沿著護套1〇8、外部導體1〇6或護套1〇8與外部導 體106兩者來施加一向内導向的徑向力在同軸電纜1〇〇上。 同時,第2B-2E圖所示之夾鉗3〇〇僅為一外部導體夾 甜的一個示例。同樣地’導電銷270的夾鉗部274僅為一 内部導體夾钳的一個示例。應瞭解第2B-4C圖所示之應變 消除夾鉗420可配合多種其它種類的内部導體夾钳及/或外 4導體夾甜來使用。例如,雖然夾甜300概略需要同轴電 纜100被預先成具有波紋的外部導體106之一暴露區段, 23 201218539 夾鉗3GG另可由配置成達到與外部導體⑽之一平滑化或 甚至圓柱形區段之機械式與電性接觸的—夾鉗所取代/ 另外,雖然示例性壓縮連接器·與示例性應變消除 配件彻、_、_可餘何方式關未連接的組件直到 如此處所述之該兩階段壓_序的第二階段為止,要瞭解 不例性壓縮連接器與示例性應變消除配件權、繼、 =〇中任—者另可在同軸電規⑽的收尾之前被預先連 接。例如’央鉗套筒430之遠端432於示例性壓縮連接器 二合件5G0、·或·之初始組裝期間可滑動在壓縮套筒 3—3〇的-微小部份之上,所以整個壓縮連接器組合件可在單 —動作中滑動到該同軸電鐵的—收尾端上。另外,當 縮連接II 200與示例性應變消除配件_、6⑼或_ 中之-者被預先連接時’夾鉗止動環41〇可被省略 :=30之長度可縮短失钳止動環_之長度,因為壓 j同330將料把應變消除夾㈣㈣持在夾钳套筒· 以二:至在第2A-4C圖中所示之非預先連接的壓縮連接 700或9〇〇中,夾鉗止動環“Ο可被省略, 且夹鉗套同430之長度可被縮 41〇的功能性。 〃甲不而要夾钳止動環 最後’應瞭解雖然該等圖式中 連接器200盘示例性庫料^中揭不的不例性同轴電纜 兩階段壓縮程:==4〇〇、_、8。°運用- 使用個別的壓縮工具來嚙合,應變、、肖 =420與夹甜_、夹鉗物較佳地是可用於::; 的連接器與一類似的應變消除配件中,其中該連接器與該In the configuration of the strain clamp, the name of the special-purpose project is called "c〇AXIAL CABLE CONNECTOR WITH STRAIN RELIEF CLAMP", which is jointly filed with the case' and is here. This article is fully incorporated herein by reference. In addition, although the strain relief clamp 42 shown in FIG. 2B-4C substantially surrounds the ferrule sheath 108', it should be understood that the stripping portion of the sheath 1 〇 8 can extend to at least one of the strain relief tongs 420. Among them. Thus, the strain relief tongs 420 can exert an inwardly directed radial force on the coaxial cable 1 along both the sheath 1 〇 8, the outer conductor 1 或 6 or the sheath 1 〇 8 and the outer conductor 106. Meanwhile, the clamp 3 shown in Fig. 2B-2E is only an example of the sweetness of an outer conductor. Similarly, the jaw portion 274 of the conductive pin 270 is only one example of an internal conductor clamp. It will be appreciated that the strain relief clamp 420 shown in Figures 2B-4C can be used in conjunction with a variety of other types of internal conductor clamps and/or outer conductor clamps. For example, although the clip 300 typically requires the coaxial cable 100 to be pre-formed as one of the exposed segments of the corrugated outer conductor 106, 23 201218539 the clamp 3GG can alternatively be configured to achieve smoothing or even a cylindrical region with one of the outer conductors (10). The mechanical and electrical contact of the segment is replaced by a clamp / in addition, although the exemplary compression connector and the exemplary strain relief accessory, _, _ can be left unconnected components until as described here Up to the second stage of the two-stage compression sequence, it is to be understood that the exemplary compression connector and the exemplary strain relief accessory, and the other can be pre-connected before the end of the coaxial electrical gauge (10). For example, the distal end 432 of the caliper sleeve 430 can slide over the tiny portion of the compression sleeve 2-3 于 during the initial assembly of the exemplary compression connector merging 5G0, or, so the entire compression The connector assembly can be slid onto the end of the coaxial electric iron in a single action. In addition, when the shrink connection II 200 and the exemplary strain relief fitting _, 6 (9) or _ are pre-connected, the 'clamp stop ring 41 〇 can be omitted: the length of 30 can shorten the nipper stop ring _ The length, because the pressure j and 330 will be the strain relief clamp (4) (4) held in the clamp sleeve · 2: to the non-pre-connected compression connection 700 or 9 in the 2A-4C diagram, clip The clamp stop ring "Ο can be omitted, and the length of the clamp sleeve can be reduced by 41 长度. The armor does not have to clamp the stop ring. Finally, it should be understood that although the connector 200 in these figures The two-stage compression process of the non-existing coaxial cable that is not disclosed in the exemplary library material: ==4〇〇, _, 8. °Usage - use individual compression tools to mesh, strain, Shaw = 420 and clip Sweet_, the clamp is preferably a connector that can be used for::; and a similar strain relief fitting, wherein the connector is
E 24 201218539 應變消除配件使用被建構在該連接器與該應變消除配件中 的螺絲機構來响合。 此處所揭示的該等示例性具體實施例可以其它特定型 式實施。此處所揭示的該等示例性具體實施例在各方面僅 可視為例示性而非限制性。 【圖式簡單說明】 本發明之示例性具體實施例的各種態樣將可由以下對 於所提供之示例性具體實施例的詳細說明配合該等附屬圖 式而更加瞭解,其中·· 第1A圖為一示例性波紋的同軸電纜的透視圖,該電纜利用 一示例性壓縮連接器及一示例性應變消除配件收 尾於一端上,並且預先利用一相同的壓縮連接器及 一相同的應變消除配件收尾在另一端上。 第1B圖為第1A圖之示例性波紋的同軸電纜之一部份的透 視圖,該透視圖將該示例性波紋的同軸電纜的每一 層之部份切開。 第1C圖為第1A圖之示例性波紋的同軸電纜之一收尾端在 已經預先利用第1A圖之示例性壓縮連接器與示例 性應變消除配件做收尾之後的剖面圖。 第2A圖為第1A圖之示例性壓縮連接器與該示例性應變消 除配件之透視圖,該示例性壓縮連接器與該示例性 應變消除配件係在開放的位置。 25 201218539 第2B圖為第2A圖之示例性壓縮連接器與該示例性應變消 除配件之分解圖。 第2C圖為第1C圖之示例性波紋的同軸電纜之收尾端在已 經被插入通過第2A圖之示例性應變消除配件,並 被插入到第2A圖之示例性壓縮連接器當中之後的 橫截面側視圖,該示例性壓縮連接器與該示例性應 變消除配件係在開放的位置。 第2D圖為第1C圖之示例性波紋的同軸電纜之收尾端在已 經被插入通過第2A圖之示例性應變消除配件,並 被插入到第2A圖之示例性壓縮連接器當中之後的 剖面圖,於一個兩階段壓縮程序之第一階段期間該 示例性壓縮連接器已經被移動到一嚙合位置當中。 第2E圖為第1C圖之示例性波紋的同軸電纜之收尾端在已 經被插入通過第2A圖之示例性應變消除配件,並 被插入到第2A圖之示例性壓縮連接器當中之後的 剖面圖,於該兩階段壓縮程序之第二階段期間該示 例性應變消除配件已經被移動到一嚙合位置當中。 第3A圖為第2A圖之示例性壓縮連接器之透視圖,與一第 一替代應變消除配件之分解圖。 第3B圖為第1C圖之示例性波紋的同軸電纜之收尾端在已 經被插入通過第3A圖之第一替代應變消除配件, 並被插入到第3A圖之示例性壓縮連接器當中之後 的剖面圖,於一個兩階段壓縮程序之第一階段期間 26 201218539 該示例性壓縮連接器已經被移動到一嚙合位置當 中。 第3C圖為第1C圖之示例性波紋的同軸電纜之收尾端在已 經被插入通過第3A圖之第一替代應變消除配件, 並被插入到第3A圖之示例性壓縮連接器當中之後 的剖面圖,於該兩階段壓縮程序之第二階段期間該 第一替代應變消除配件已經被移動到一嚙合位置 當中。 第4A圖為第2A圖之示例性壓縮連接器之透視圖,與一第 二替代應變消除配件之分解圖。 第4B圖為第1C圖之示例性波紋的同轴電纜之收尾端在已 經被插入通過第4A圖之第二替代應變消除配件, 並被插入到第4A圖之示例性壓縮連接器當中之後 的剖面圖,於一個兩階段壓縮程序之第一階段期間 該示例性壓縮連接器已經被移動到一嚙合位置當 中。 第4C圖為第1C圖之示例性波紋的同軸電纜之收尾端在已 經被插入通過第4A圖之第二替代應變消除配件, 並被插入到第4A圖之示例性壓縮連接器當中之後 的剖面圖,於該兩階段壓縮程序之第二階段期間該 第二替代應變消除配件已經被移動到一嚙合位置 當中。 【主要元件符號說明】 27 201218539 100 102 104 106 108 110 112 114 200 210 220 222 224 226 228 230 240 250 260 270 272 274 280 282 同軸電麗 内部導體 絕緣層 外部導體 護套 第一區段 第二區段 核心挖空區段 壓縮連接器 第一 0型環密封墊 連接器本體 環狀凸緣 肩部 環狀凹槽 遠端 連接器螺帽 第二0型環密封墊 第三0型環密封墊 絕緣體 導電銷 銷部 炎钳部 心抽 驅動器部 28 201218539 290 卡環 300 夾鉗 302 溝槽 310 濕氣密封環 312 肩部 320 濕氣密封墊 330 壓縮套筒 332 肩部 334 遠端 336 凸緣 338 肩部 339 肩部 340 間隙 400 應變消除配件 410 夾钳止動環 420 應變消除夾鉗 422 溝槽 424 响合表面 426 錐形表面 430 夾鉗套筒 432 遠端 434 錐形表面 500 壓縮連接器組合件 600 第一替代應變消除配件 29 第四Ο型環密封墊 第五Ο型環密封墊 夾钳套筒 遠端 環狀凹槽 環狀凹槽 第一替代壓縮連接器組合件 第二替代應變消除配件 第四0型環密封墊 應變消除夾鉗 溝槽 錐形表面 夾钳套筒 遠端 環狀凹槽 凸緣 肩部 夾I甘環 肩部 錐形表面 第二濕氣密封墊 第二替代壓縮連接器組合件 30E 24 201218539 The strain relief accessory uses a screw mechanism constructed in the connector to the strain relief fitting. The exemplary embodiments disclosed herein may be embodied in other specific forms. The exemplary embodiments disclosed herein are to be considered in a BRIEF DESCRIPTION OF THE DRAWINGS [0009] Various aspects of the exemplary embodiments of the present invention will be understood by the following detailed description of exemplary embodiments provided herein A perspective view of an exemplary corrugated coaxial cable terminated at one end with an exemplary compression connector and an exemplary strain relief accessory, and pre-assembled with an identical compression connector and an identical strain relief accessory On the other end. Figure 1B is a perspective view of a portion of an exemplary corrugated coaxial cable of Figure 1A, the perspective view of a portion of each of the layers of the exemplary corrugated coaxial cable being cut away. Figure 1C is a cross-sectional view of one of the exemplary corrugated coaxial cables of Figure 1A after the end of the exemplary compression connector of Figure 1A has been pre-configured with the exemplary strain relief assembly. Figure 2A is a perspective view of the exemplary compression connector of Figure 1A and the exemplary strain relief fitting in an open position with the exemplary strain relief fitting. 25 201218539 Figure 2B is an exploded view of the exemplary compression connector of Figure 2A and the exemplary strain relief fitting. Figure 2C is a cross section of the end of the exemplary corrugated coaxial cable of Figure 1C after it has been inserted through the exemplary strain relief fitting of Figure 2A and inserted into the exemplary compression connector of Figure 2A. In a side view, the exemplary compression connector is in an open position with the exemplary strain relief attachment. Figure 2D is a cross-sectional view of the end of the exemplary corrugated coaxial cable of Figure 1C after it has been inserted through the exemplary strain relief assembly of Figure 2A and inserted into the exemplary compression connector of Figure 2A. The exemplary compression connector has been moved into an engaged position during the first phase of a two-stage compression procedure. Figure 2E is a cross-sectional view of the end of the exemplary corrugated coaxial cable of Figure 1C after it has been inserted through the exemplary strain relief assembly of Figure 2A and inserted into the exemplary compression connector of Figure 2A. The exemplary strain relief accessory has been moved into an engaged position during the second phase of the two-stage compression sequence. Figure 3A is a perspective view of the exemplary compression connector of Figure 2A, and an exploded view of a first alternative strain relief assembly. Figure 3B is a section of the end of the exemplary corrugated coaxial cable of Figure 1C after it has been inserted through the first alternative strain relief fitting of Figure 3A and inserted into the exemplary compression connector of Figure 3A. Figure, during the first phase of a two-stage compression procedure 26 201218539 The exemplary compression connector has been moved into an engaged position. Figure 3C is a section of the end of the exemplary corrugated coaxial cable of Figure 1C after it has been inserted through the first alternative strain relief fitting of Figure 3A and inserted into the exemplary compression connector of Figure 3A. The first alternative strain relief assembly has been moved into an engaged position during the second phase of the two-stage compression sequence. Figure 4A is a perspective view of the exemplary compression connector of Figure 2A, and an exploded view of a second alternative strain relief assembly. Figure 4B is a diagram showing the end of the exemplary corrugated coaxial cable of Figure 1C after it has been inserted through the second alternative strain relief fitting of Figure 4A and inserted into the exemplary compression connector of Figure 4A. In the cross-sectional view, the exemplary compression connector has been moved into an engaged position during the first phase of a two-stage compression procedure. Figure 4C is a section of the end of the exemplary corrugated coaxial cable of Figure 1C after it has been inserted through the second alternative strain relief fitting of Figure 4A and inserted into the exemplary compression connector of Figure 4A. The second alternative strain relief assembly has been moved into an engaged position during the second phase of the two-stage compression sequence. [Major component symbol description] 27 201218539 100 102 104 106 108 110 112 114 200 210 220 222 224 226 228 230 240 250 260 270 272 274 280 282 Coaxial electric inner conductor insulation outer conductor sheath first section second zone Segment core hollow section compression connector first 0 type ring seal connector body annular flange shoulder annular groove distal connector nut second 0 type ring seal third 0 type ring gasket insulator Conductive pin section inflammation pliers heart pump driver 28 201218539 290 snap ring 300 clamp 302 groove 310 moisture seal ring 312 shoulder 320 moisture seal 330 compression sleeve 332 shoulder 334 distal end 336 flange 338 shoulder Port 339 Shoulder 340 Gap 400 Strain relief fitting 410 Clamp stop ring 420 Strain relief clamp 422 Groove 424 Coupling surface 426 Tapered surface 430 Clamp sleeve 432 Distal 434 Conical surface 500 Compression connector assembly 600 First alternative strain relief fittings 29 Fourth Ο type ring seal Fifth Ο type ring seal Clamp sleeve distal ring groove annular groove first alternative compression connection Assembly second replacement strain relief fittings fourth type 0 ring seal strain relief clamp groove tapered surface clamp sleeve distal ring groove flange shoulder clip I Gan ring shoulder cone surface second Moisture seal second alternative compression connector assembly 30