TWM505097U - Coaxial cable connector - Google Patents

Coaxial cable connector Download PDF

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Publication number
TWM505097U
TWM505097U TW103201941U TW103201941U TWM505097U TW M505097 U TWM505097 U TW M505097U TW 103201941 U TW103201941 U TW 103201941U TW 103201941 U TW103201941 U TW 103201941U TW M505097 U TWM505097 U TW M505097U
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TW
Taiwan
Prior art keywords
coaxial cable
nut
cable connector
metal
sleeve
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TW103201941U
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Chinese (zh)
Inventor
Kai-Chih Wei
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Ezconn Corp
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Publication date
Application filed by Ezconn Corp filed Critical Ezconn Corp
Priority to TW103201941U priority Critical patent/TWM505097U/en
Priority to CN201410216786.0A priority patent/CN104733884A/en
Priority to CN201410216360.5A priority patent/CN104733875A/en
Priority to US14/320,587 priority patent/US9306324B2/en
Publication of TWM505097U publication Critical patent/TWM505097U/en

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Abstract

This invention discloses a coaxial cable connector comprises a spring set up on a nut, an inner sleeve, an outer sleeve or a threaded connector. The spring is integrated with the nut, the inner sleeve, the outer sleeve or the threaded connector. The coaxial cable connector can be reliably electrically connected with an electronic device via an elasticity of the spring, via the nut so as to ensure good signal transmission quality and good electrical performance.

Description

同軸電纜連接器Coaxial cable connector

本創作有關於一種同軸電纜線連接器,尤指一種具有良好電連接性之同軸電纜連接器This creation relates to a coaxial cable connector, especially a coaxial cable connector with good electrical connectivity.

有線電視之訊號利用同軸電纜線(Coaxial cable)連接至接收電視。此同軸電纜藉由旋轉式F型連接器(Screw-on F-Type connectors)與有線電視解碼器(Cable TV decoders)、卡帶錄影機/數位影碟(VCR/DVD)之數位式硬碟記錄器(hard disk digital recorders)、衛星接收器(satellite receivers)、視訊遊戲(video games)、電視信號分佈式分離器(TV signal distribution splitters)及開關(switches)連結。The cable TV signal is connected to the receiving TV using a coaxial cable. This coaxial cable uses a digital hard disk recorder with a Screw-on F-Type connectors and Cable TV decoders, a cassette recorder/digital video disc (VCR/DVD) ( Hard disk digital recorders), satellite receivers, video games, TV signal distribution splitters, and switches.

習知旋轉式連接器接地電連性常發生接觸不良的問題,原因在於連接器之螺帽與上述設備之螺紋介面連接器連合時,螺帽與連接器之內套筒未完全接觸,以及內套筒與螺紋介面連接器未接觸,或不小心拉扯導致螺帽與內套筒與螺紋介面連接器鬆脫,上述接觸不良導致接器本體與螺紋介面連接器的接地性變差,而使電氣信號傳輸性能降低,造成其間的接觸不良須予以克服。Conventional rotary connector grounding electrical continuity often causes poor contact problems, because the nut of the connector is not completely in contact with the inner sleeve of the connector when the nut of the connector is coupled with the threaded interface connector of the above device, and The sleeve is not in contact with the threaded interface connector, or carelessly pulled causes the nut and the inner sleeve to be loosened from the threaded interface connector. The poor contact causes the grounding property of the connector body and the threaded interface connector to be deteriorated, thereby making the electrical The signal transmission performance is degraded, causing poor contact between them to be overcome.

本創作同軸電纜連接器在螺帽、內套筒、外套筒或接頭上設置一金屬片,此金屬片分別與螺帽、內套筒或外套筒為一體成型,藉由金屬片之彈性,使螺帽與內套筒能確實的接觸,杜絕電性接觸不良情形發生。The creative coaxial cable connector is provided with a metal piece on the nut, the inner sleeve, the outer sleeve or the joint, and the metal piece is integrally formed with the nut, the inner sleeve or the outer sleeve, respectively, by the elasticity of the metal piece The nut can be reliably contacted with the inner sleeve to prevent electrical contact failure.

本創作為一種同軸電纜連接器適於接合一電子裝置之具有一螺紋表面之一接頭,該同軸電纜連接器包括一內套筒、一外套筒同軸地設置在該內套筒外、一螺帽套設在該內套筒上,其中該螺帽之一螺紋部適於接合該螺紋表面,當該螺帽與該接頭接合時,該內套筒之一外凸緣位在該螺帽之一內凸緣與該電子裝置之該接頭之間,其特徵在於:該內套筒包括一第一金屬片及一內套筒本體,該內套筒本體與該第一金屬片為一體成型,該第一金屬片位於該外凸緣與該內凸緣之間,其中且一第一溝槽位於該第一金屬片與該外凸緣之間。The present invention is a coaxial cable connector adapted to engage an electronic device having a threaded surface of a joint, the coaxial cable connector including an inner sleeve, an outer sleeve coaxially disposed outside the inner sleeve, a screw a cap sleeve is disposed on the inner sleeve, wherein a threaded portion of the nut is adapted to engage the threaded surface, and when the nut is engaged with the joint, an outer flange of the inner sleeve is located at the nut Between the inner flange and the joint of the electronic device, the inner sleeve includes a first metal piece and an inner sleeve body, and the inner sleeve body is integrally formed with the first metal piece. The first metal piece is located between the outer flange and the inner flange, and a first groove is located between the first metal piece and the outer flange.

本創作為一種同軸電纜連接器適於接合一電子裝置之具有一螺紋表面之一接頭,該同軸電纜連接器包括一內套筒、一外套筒同軸地設置在該內套筒外、一螺帽套設在該內套筒上,其中該螺帽之一螺紋部適於接合該螺紋表面,當該螺帽與該接頭接合時,該內套筒之一外凸緣位在該螺帽之一內凸緣與該電子裝置之該接頭之間,其特徵在於:當該螺帽與該接頭接合時,該內套筒之一第一金屬片接觸該接頭,當該螺帽未與該接頭接合時,該第一金屬片係在一第一徑向方向由內而外地往遠離該內套筒之一本體之方向傾斜。The present invention is a coaxial cable connector adapted to engage an electronic device having a threaded surface of a joint, the coaxial cable connector including an inner sleeve, an outer sleeve coaxially disposed outside the inner sleeve, a screw a cap sleeve is disposed on the inner sleeve, wherein a threaded portion of the nut is adapted to engage the threaded surface, and when the nut is engaged with the joint, an outer flange of the inner sleeve is located at the nut An inner flange and the joint of the electronic device, wherein when the nut is engaged with the joint, a first metal piece of the inner sleeve contacts the joint, and when the nut is not connected with the joint When engaged, the first metal sheet is inclined from the inside to the outside in a first radial direction away from the body of one of the inner sleeves.

本創作為一種同軸電纜連接器適於接合一電子裝置之具有一螺紋表面之一接頭,該同軸電纜連接器包括一內套筒、一外套筒同軸地設置在該內套筒外、一螺帽套設在該內套筒上,其中該螺帽之一螺紋部適於接合該螺紋表面,當該螺帽與該接頭接合時,該內套筒之一外凸緣位在該螺帽之一內凸緣與該電子裝置之該接頭之間,其特徵在於:該螺帽包括一第一金屬片,一體成型地結合該螺帽之一本體,該第一金屬片位於該本體與該外套筒之間,且該第一金屬片係在一第一徑向方向上內而外地往遠離該螺帽之該本體之方向傾斜,且該內凸緣抵觸該內套筒之該本體。The present invention is a coaxial cable connector adapted to engage an electronic device having a threaded surface of a joint, the coaxial cable connector including an inner sleeve, an outer sleeve coaxially disposed outside the inner sleeve, a screw a cap sleeve is disposed on the inner sleeve, wherein a threaded portion of the nut is adapted to engage the threaded surface, and when the nut is engaged with the joint, an outer flange of the inner sleeve is located at the nut Between an inner flange and the joint of the electronic device, the nut includes a first metal piece integrally coupled to the body of the nut, the first metal piece being located on the body and the outer body Between the sleeves, and the first metal piece is inclined in a first radial direction and outwardly away from the body of the nut, and the inner flange abuts the body of the inner sleeve.

一種同軸電纜連接器適於接合一電子裝置之具有一螺紋表面之一接頭,該同軸電纜連接器包括一內套筒、一外套筒同軸地設置在該內套筒外、一螺帽套設在該內套筒上,其中該螺帽之一螺紋部適於接合該螺紋表面,當該螺帽與該接頭接合時,該內套筒之一外凸緣位在該螺帽之一內凸緣與該電子裝置之該接頭之間,其特徵在於:該外套筒包括一第一金屬片,一體成型地結合該外套筒之一本體,該第一金屬片位於該外套筒與該螺帽之間,該第一金屬片係在一第一徑向方向上內而外地往遠離該外套筒之該本體之方向傾斜。A coaxial cable connector adapted to engage a connector of a electronic device having a threaded surface, the coaxial cable connector including an inner sleeve, an outer sleeve coaxially disposed outside the inner sleeve, and a nut sleeve In the inner sleeve, wherein one of the threaded portions of the nut is adapted to engage the threaded surface, and when the nut is engaged with the joint, one of the outer flanges of the inner sleeve is located in one of the nuts Between the edge and the joint of the electronic device, the outer sleeve includes a first metal piece integrally coupled to a body of the outer sleeve, the first metal piece being located at the outer sleeve and the outer sleeve Between the nuts, the first sheet of metal is inclined in a first radial direction and outwardly away from the body of the outer sleeve.

一種接頭適於設置在一電子裝置上,該接頭具有一螺紋表面,適於接合一同軸電纜連接器,該軸電纜連接器包括一內套筒、一外套筒同軸地設置在該內套筒外、一螺帽套設在該內套筒上,其中該螺帽之一螺紋部適於接合該螺紋表面,當該螺帽與該接頭接合時,該內套筒之一外凸緣位在該螺帽之一內凸緣與該電子裝置之該接頭之間,其特徵在於:當該螺帽與該接頭接合時,該接頭之一第一金屬片接觸該內套筒,當該螺帽未與該接頭接合時,該第一金屬片係在一第一徑向方向上內而外地往遠離該接頭之一本體之方向傾斜。A connector adapted to be disposed on an electronic device, the connector having a threaded surface adapted to engage a coaxial cable connector, the shaft cable connector including an inner sleeve, an outer sleeve coaxially disposed on the inner sleeve Externally, a nut is sleeved on the inner sleeve, wherein a threaded portion of the nut is adapted to engage the threaded surface, and when the nut is engaged with the joint, an outer flange of the inner sleeve is located Between an inner flange of the nut and the joint of the electronic device, the first metal piece of the joint contacts the inner sleeve when the nut is engaged with the joint, and the nut is When not engaged with the joint, the first sheet of metal is inclined in a first radial direction and outwardly away from a body of the joint.

現將經由對說明性實施例、隨附圖式及申請專利範圍之以下詳細描述的評述,使本創作之此等以及其他組件、步驟、特徵、效益及優勢變得明朗。These and other components, steps, features, advantages and advantages of the present invention will become apparent from the following detailed description of the accompanying drawings.

圖式揭示本創作之說明性實施例。其並未闡述所有實施例。可另外或替代使用其他實施例。為節省空間或更有效地說明,可省略顯而易見或不必要之細節。相反,可實施一些實施例而不揭示所有細節。當相同數字出現在不同圖式中時,其係指相同或類似組件或步驟。The drawings reveal illustrative embodiments of the present work. It does not describe all of the embodiments. Other embodiments may be used in addition or instead. In order to save space or more effectively explain, obvious or unnecessary details may be omitted. Instead, some embodiments may be implemented without revealing all the details. When the same number appears in different figures, it refers to the same or similar components or steps.

當以下描述連同隨附圖式一起閱讀時,可更充分地理解本創作之態樣,該等隨附圖式之性質應視為說明性而非限制性的。該等圖式未必按比例繪製,而是強調本創作之原理。The present invention may be more fully understood from the following description, which is considered to be illustrative and not restrictive. These drawings are not necessarily drawn to scale, but rather emphasize the principles of the present invention.

現描述說明性實施例。可另外或替代使用其他實施例。為節省空間或更有效地呈現,可省略顯而易見或不必要之細節。相反,可實施一些實施例而不揭示所有細節。Illustrative embodiments are now described. Other embodiments may be used in addition or instead. In order to save space or render more efficiently, obvious or unnecessary details may be omitted. Instead, some embodiments may be implemented without revealing all the details.

本創作為一同軸電纜連接器,其中同軸電纜之剖面圖如第1圖所示,此同軸電纜包括一金屬線1、包覆金屬線1之一絶緣層3、包覆絶緣層3之一薄金屬層5、包覆薄金屬層5之一金屬編織層7及包覆金屬編織層7之一塑膠皮層9,其中金屬線1之材質為銅、鐡、銀、鎳、錫、金、銅金合金、銅錫合金、銅鎳合金或其它導電性良好之聚合物或非金屬類之導體等,另外薄金屬層5之材質為含鋁之金屬層、含銅之金屬層或含有導電物質之導電層,例如一鋁箔包覆層或銅箔包覆層,其中薄金屬層5具有電性遮蔽功效,可減少干擾,而金屬編織層7之形式包括二層編織(Standard)、三層編織(Tri-shield)及四層編織(Quad)等不同包覆形式,金屬編織層7的材質例如為鋁、鋁合金、銅或銅合金。The present invention is a coaxial cable connector, wherein the cross-sectional view of the coaxial cable is as shown in FIG. 1 , and the coaxial cable includes a metal wire 1 , an insulating layer 3 covering the metal wire 1 , and a thin insulating layer 3 . a metal layer 5, a metal braid layer 7 covering the thin metal layer 5, and a plastic skin layer 9 covering the metal braid layer 7, wherein the metal wire 1 is made of copper, bismuth, silver, nickel, tin, gold or copper Alloy, copper-tin alloy, copper-nickel alloy or other conductive polymer or non-metal conductor, etc., and the thin metal layer 5 is made of aluminum-containing metal layer, copper-containing metal layer or conductive material containing conductive material. a layer, such as an aluminum foil cladding or a copper foil cladding layer, wherein the thin metal layer 5 has electrical shielding effect to reduce interference, and the metal braid layer 7 includes two layers of braiding, three-layer weaving (Tri Different coating forms such as -shield and four layers, the material of the metal braid 7 is, for example, aluminum, aluminum alloy, copper or copper alloy.

本創作具有數個實施例,該些實施例皆可相互結合其特點,以下依序說明本創作之實施例:The present invention has several embodiments, and the embodiments can be combined with each other. The following embodiments of the present invention are described in order:

第一實施例:First embodiment:

請參閱第2a圖、第2b圖及第2c圖所示,其依序為第一實施例之同軸電纜連接器剖面圖、同軸電纜連接器分解剖面圖及內套筒之立體圖。此同軸電纜連接器包括同軸之一內套筒10、一外套筒12、一螺帽14及一金屬環19,其中內套筒10及外套筒12係以同軸配置方式並容納如第1圖所示之同軸電纜,內套筒10、螺帽14及金屬環19之材質為導電材質,例如是銅、鐡、銀、鎳、錫、金、銅金合金、銅錫合金、銅鎳合金或其它導電性良好之聚合物或非金屬類之導體等,內套筒10、螺帽14及金屬環19之表面可電鍍、無電電鍍或覆蓋上一層防鏽金屬層,其材質包括一銅、鐡、銀、鎳、錫、金、銅金合金、銅錫合金、銅鎳合金或其它導電性良好之聚合物或非金屬類之導體等。本實施例之外套筒12例如為塑膠材質、有機聚合物,但也可替換成金屬材質,例如是銅、鐡、銀、鎳、錫、金、銅金合金、銅錫合金、銅鎳合金或其它導電性良好之聚合物或非金屬類之導體等。Please refer to FIGS. 2a, 2b and 2c, which are a cross-sectional view of the coaxial cable connector of the first embodiment, an exploded cross-sectional view of the coaxial cable connector, and a perspective view of the inner sleeve. The coaxial cable connector includes a coaxial inner sleeve 10, an outer sleeve 12, a nut 14 and a metal ring 19, wherein the inner sleeve 10 and the outer sleeve 12 are coaxially arranged and accommodate the first one. The coaxial cable shown in the figure, the inner sleeve 10, the nut 14 and the metal ring 19 are made of a conductive material, such as copper, bismuth, silver, nickel, tin, gold, copper-gold alloy, copper-tin alloy, copper-nickel alloy. Or other conductive polymer or non-metal conductor, etc., the surface of the inner sleeve 10, the nut 14 and the metal ring 19 can be electroplated, electrolessly plated or covered with a layer of anti-rust metal, the material of which includes a copper, Neodymium, silver, nickel, tin, gold, copper-gold alloy, copper-tin alloy, copper-nickel alloy or other conductive or non-metallic conductors. The sleeve 12 in this embodiment is, for example, a plastic material or an organic polymer, but may be replaced with a metal material such as copper, bismuth, silver, nickel, tin, gold, copper-gold alloy, copper-tin alloy, copper-nickel alloy. Or other conductive or non-metallic conductors.

請參閱第2b圖及第2c圖所示,本實施例之內套筒10具有一內套筒本體100及二金屬片102,此內套筒本體100與二金屬片102一體成型,此內套筒本體100具有一穿孔101、一第一外凸緣104、一第一溝槽106、一第二溝槽108、一第二外凸緣110、一第三外凸緣112、一第一表面114、一第二表面116及一後端延伸部118,其中第一溝槽106位於第一外凸緣104與金屬片102之間、第二溝槽108位於金屬片102與第二外凸緣110之間、第二表面116位於第二外凸緣110與第三外凸緣112之間、第一表面114為第二外凸緣110表面且位於第二溝槽108與第二表面116之間。且每一金屬片102係兩末端連接內套筒本體100,每一金屬片102係往遠離第一外凸緣104之方向凹折,每一金屬片102之外徑的弧度例如介於120度至180度之間。金屬片102與內套筒10之一徑向方向之間的一夾角a為一銳角,此夾角例如介於10度至40度之間、15度至60度之間及20度至80度之間,金屬片102係往第二外凸緣110之方向傾斜。另外金屬片102之厚度例如介於0.1至1.5毫米(mm)之間、0.3至2毫米之間及0.5至3毫米之間,而第一溝槽106在內套筒100之徑向方向上由內而外地逐漸變寬,第二溝槽108在內套筒100之徑向方向上由內而外地逐漸變窄,第一溝槽106之最小寛度(位於第一溝槽106之底部)例如介於0.1至1毫米(mm)之間、0.3至1.5毫米之間及0.5至2毫米之間,第二溝槽108之最大寛度(位於第二溝槽106之頂部)例如介於0.1至1毫米(mm)之間、0.3至1.5毫米之間及0.5至2毫米之間,而第一溝槽106之深度例如介於0.5至2毫米(mm)之間,第二溝槽108之深度例如介於0.25至1毫米(mm)之間,金屬片102之頂端到內套筒100之一軸線間的一徑向距離大致上等於或小於第一外凸緣104之外徑表面到內套筒100之該軸線間的一徑向距離,但大於第二外凸緣110之第二表面116到內套筒100之該軸線間的一徑向距離。Referring to FIG. 2b and FIG. 2c, the inner sleeve 10 of the embodiment has an inner sleeve body 100 and two metal sheets 102. The inner sleeve body 100 is integrally formed with the two metal sheets 102. The barrel body 100 has a through hole 101, a first outer flange 104, a first groove 106, a second groove 108, a second outer flange 110, a third outer flange 112, and a first surface. 114, a second surface 116 and a rear end extension 118, wherein the first groove 106 is located between the first outer flange 104 and the metal sheet 102, and the second groove 108 is located between the metal sheet 102 and the second outer flange Between 110, the second surface 116 is located between the second outer flange 110 and the third outer flange 112, the first surface 114 is the surface of the second outer flange 110 and is located at the second groove 108 and the second surface 116 between. And each metal piece 102 is connected to the inner sleeve body 100 at both ends, and each metal piece 102 is concavely folded away from the first outer flange 104, and the outer diameter of each metal piece 102 has an arc of, for example, 120 degrees. Between 180 degrees. An angle a between the metal piece 102 and one of the radial directions of the inner sleeve 10 is an acute angle, for example, between 10 degrees and 40 degrees, between 15 degrees and 60 degrees, and between 20 degrees and 80 degrees. The metal piece 102 is inclined toward the second outer flange 110. Further, the thickness of the metal piece 102 is, for example, between 0.1 and 1.5 millimeters (mm), between 0.3 and 2 millimeters, and between 0.5 and 3 millimeters, and the first groove 106 is formed by the radial direction of the inner sleeve 100. The inner and outer portions are gradually widened, and the second groove 108 is gradually narrowed from the inside to the outside in the radial direction of the inner sleeve 100, and the minimum width of the first groove 106 (located at the bottom of the first groove 106) is, for example. Between 0.1 and 1 millimeter (mm), between 0.3 and 1.5 mm, and between 0.5 and 2 mm, the maximum twist of the second trench 108 (located at the top of the second trench 106) is, for example, between 0.1 and Between 1 millimeter (mm), between 0.3 and 1.5 millimeters, and between 0.5 and 2 millimeters, and the depth of the first trench 106 is, for example, between 0.5 and 2 millimeters (mm), the depth of the second trench 108 For example, between 0.25 and 1 millimeter (mm), a radial distance between the tip of the metal sheet 102 and one of the axes of the inner sleeve 100 is substantially equal to or smaller than the outer diameter surface of the first outer flange 104 to the inner sleeve. A radial distance between the axes of the barrel 100 is greater than a radial distance between the second surface 116 of the second outer flange 110 and the axis of the inner sleeve 100.

另外,本實施例之金屬片102數量可為二片,但是金屬片102數量也可為一片、三片或四片以上,例如金屬片102數量為四片時,請參閱第2d圖所示,每片金屬片102兩末端連接內套筒本體100,每一金屬片102係以一凹折線1021為基準往遠離第一外凸緣104之方向凹折,每一金屬片102之外徑的弧度例如介於50度至110度之間。若金屬片102數量為一片時,請參閱第2e圖所示,此金屬片102之形狀兩末端連接內套筒本體100,金屬片102係以一凹折線1021為基準往遠離第一外凸緣104之方向凹折,金屬片102之外徑的弧度例如介於150度至300度之間。In addition, the number of the metal sheets 102 in this embodiment may be two, but the number of the metal sheets 102 may be one, three, or four. For example, when the number of the metal sheets 102 is four, refer to the second drawing. The inner ends of each of the metal sheets 102 are connected to the inner sleeve body 100, and each of the metal sheets 102 is concavely folded away from the first outer flange 104 by a concave fold line 1021, and the outer diameter of each metal piece 102 is curved. For example between 50 degrees and 110 degrees. If the number of the metal pieces 102 is one piece, as shown in FIG. 2e, the shape of the metal piece 102 is connected to the inner sleeve body 100 at both ends, and the metal piece 102 is away from the first outer flange by a concave fold line 1021. The direction of the concave direction of 104 is such that the outer diameter of the metal piece 102 has an arc of, for example, between 150 degrees and 300 degrees.

本實施例之外套筒12具有一穿孔121、一內凸緣122、一可形變部125、一凹槽127及一後端延伸部124。本實施例之螺帽14具有一穿孔141、一內凸緣142及一螺紋部144。後端延伸部124的內徑大於後端延伸部118之外徑,其中螺帽14的型式為六角螺帽、方型螺帽、環型螺帽、翼型螺帽等任何型式之螺帽,可用扳手或其他工具將連接器鎖在電子裝置上。The outer sleeve 12 of the present embodiment has a through hole 121, an inner flange 122, a deformable portion 125, a recess 127 and a rear end extension 124. The nut 14 of this embodiment has a through hole 141, an inner flange 142 and a threaded portion 144. The inner diameter of the rear end extension 124 is greater than the outer diameter of the rear end extension 118, wherein the nut 14 is of any type such as a hex nut, a square nut, a ring nut, an airfoil nut, and the like. The connector can be locked to the electronic device with a wrench or other tool.

請同時參閱第2f圖所示,本實施例之組裝方式係將金屬環19套在外套筒12之外圍,其中金屬環19之側壁靠近中後段處之內表面係呈一傾斜面,使得金屬環19之插孔靠近中後段處愈往後方孔徑係逐漸變大金屬環19之側壁靠近中後段處之內表面係呈一傾斜面,使得金屬環19之插孔靠近中後段處愈往後方孔徑係逐漸變大,其中金屬環19之傾斜面與金屬環之一軸向方向之間呈一第一傾斜角,該第一傾斜角例如介於5度至45度,外套筒12包括具有一傾斜面之一可形變部125,可形變部125之傾斜面與外套筒12之一軸向方向之間呈一第二傾斜角,該第二傾斜角例如介於5度至45度。另外,在可形變部125之傾斜面的後側設有一凹槽127,環繞在外套筒12上,藉以使可形變部125易於形變。此時,金屬環19之傾斜面係頂靠可形變部125之傾斜面。接著,將內套筒本體100之後端延伸部118穿過螺帽14之穿孔141,並使內凸緣142套在內套筒本體100之第一表面114之外圍,接著將後端延伸部118穿過外套筒12之穿孔121,並使外套筒12之內凸緣122套接在第二表面116上,且以緊配合的方式將內凸緣122緊密的卡合在第二表面116上及第二外凸緣110及第三外凸緣112之間,此時後端延伸部118與後端延伸部124之間形成環狀空心且呈同心環繞關係。另外在組裝完成時,會因金屬片102之彈力抵住螺帽14之內凸緣142,進而使螺帽14抵觸外套筒12之內凸緣122,同時螺帽14之內凸緣142可在內套筒10之第一外凸緣104與外套筒12之內凸緣122之間自由旋轉,且因金屬片102之彈力限制螺帽14之軸向移動,透過金屬片102可以使螺帽14與內套筒10保持電性連接,亦即電性接地。Referring to FIG. 2f at the same time, the assembly method of the embodiment is to lay the metal ring 19 around the outer sleeve 12, wherein the inner surface of the side wall of the metal ring 19 near the middle and rear sections has an inclined surface, so that the metal ring The hole of the 19 is closer to the middle and the rear section, and the aperture of the metal ring 19 is gradually larger. The inner surface of the metal ring 19 is inclined toward the inner surface of the middle and rear sections, so that the socket of the metal ring 19 is closer to the middle and rear sections. Gradually increasing, wherein the inclined surface of the metal ring 19 and the axial direction of one of the metal rings have a first inclination angle, the first inclination angle is, for example, 5 to 45 degrees, and the outer sleeve 12 includes a slope. One of the deformable portions 125 has a second inclined angle between the inclined surface of the deformable portion 125 and one of the axial directions of the outer sleeve 12, and the second inclined angle is, for example, between 5 and 45 degrees. Further, a groove 127 is provided on the rear side of the inclined surface of the deformable portion 125 so as to surround the outer sleeve 12, whereby the deformable portion 125 is easily deformed. At this time, the inclined surface of the metal ring 19 abuts against the inclined surface of the deformable portion 125. Next, the rear end extension 118 of the inner sleeve body 100 is passed through the through hole 141 of the nut 14 and the inner flange 142 is sleeved around the first surface 114 of the inner sleeve body 100, and then the rear end extension 118 is The through hole 121 of the outer sleeve 12 is passed through, and the inner flange 122 of the outer sleeve 12 is sleeved on the second surface 116, and the inner flange 122 is tightly engaged with the second surface 116 in a tight fit manner. Between the upper and second outer flanges 110 and the third outer flange 112, the rear end extension portion 118 and the rear end extension portion 124 form an annular hollow and are concentrically wrapped. In addition, when the assembly is completed, the elastic force of the metal piece 102 is against the inner flange 142 of the nut 14, so that the nut 14 abuts the inner flange 122 of the outer sleeve 12, and the inner flange 142 of the nut 14 can be The first outer flange 104 of the inner sleeve 10 and the inner flange 122 of the outer sleeve 12 are freely rotatable, and the axial movement of the nut 14 is restricted by the elastic force of the metal piece 102, and the snail can be transmitted through the metal piece 102. The cap 14 is electrically connected to the inner sleeve 10, that is, electrically grounded.

當同軸電纜裝設在同軸電纜連接器時,同軸電纜之編織層7及塑膠皮層9會被擠壓至內套筒10之後端延伸部118與外套筒12之後端延伸部124之間所形成之間隙內,此時部分之編織層7會外翻包覆部分之塑膠皮層9之外表面,而同軸電纜之金屬線1、絶緣層3及薄金屬層5(未標示於第2f圖中)會從穿孔101之後端穿進內套筒10之穿孔101之前端,其中金屬線1延伸至螺帽14之螺紋部144所構成之空間內。接著,將金屬環19軸向地往後移動,使外套筒12之可形變部125向內變形頂壓同軸電纜之塑膠皮層9,藉以固定該同軸電纜,此時金屬環19之後端會頂靠外套筒12之一階梯狀部分129,此階梯狀部分129即為在可形變部125尚未形變前凹槽127靠近後端之側壁。When the coaxial cable is mounted on the coaxial cable connector, the braided layer 7 of the coaxial cable and the plastic skin layer 9 are pressed to form between the rear end portion 118 of the inner sleeve 10 and the rear end portion 124 of the outer sleeve 12. In the gap, at this time, part of the braid layer 7 will overturn the outer surface of the covered plastic skin layer 9, and the metal wire 1, the insulating layer 3 and the thin metal layer 5 of the coaxial cable (not shown in the 2f figure) From the rear end of the perforation 101, it is threaded into the front end of the perforation 101 of the inner sleeve 10, wherein the wire 1 extends into the space formed by the threaded portion 144 of the nut 14. Then, the metal ring 19 is moved axially backward, so that the deformable portion 125 of the outer sleeve 12 is deformed inwardly to press the plastic skin layer 9 of the coaxial cable, thereby fixing the coaxial cable, and the metal ring 19 is at the rear end. By a stepped portion 129 of the outer sleeve 12, the stepped portion 129 is the side wall of the recess 127 near the rear end before the deformable portion 125 has been deformed.

安裝同軸電纜連接器至一接頭500,此接頭500可設置在一電子裝置上,或是一延長同軸電纜之中間轉接頭,或是一T型或F型之轉接頭,其中組裝步驟,請參閱第2g圖及第2h圖所示,此接頭500具有一螺紋部502,使同軸電纜中心的金屬線1穿進接頭500內,接著旋轉螺帽14使同軸電纜連接器之內套筒10的第一外凸緣104慢慢接近接頭500,此時螺帽14之內凸緣142因金屬片102之彈力壓迫,使螺帽14與接頭500的接合過程初期,螺帽14之內凸緣142一直與外套筒12的內凸緣122接觸。接近接合完成時,金屬片102與內套筒10之徑向方向之間的夾角a會逐漸的縮小,此時螺帽14之內凸緣142不再與外套筒12的內凸緣122接觸。在螺帽14與接頭500鎖緊接合完成時,金屬片102與內套筒10之徑向方向之間的夾角a變成0度,或者金屬片102甚至會往第一外凸緣104的方向傾斜。所以安裝同軸電纜連接器至接頭500後,金屬片102與螺帽14之內凸緣142會一直保持接觸,形成良好電性連接之途徑,使同軸電纜連接器在使用時不小心拉扯導致螺帽14與接頭500未緊迫連接時,仍可提供良好的接地(ground)電性連接,進而確保信號傳遞品質。Mounting the coaxial cable connector to a connector 500, the connector 500 can be disposed on an electronic device, or an intermediate adapter of an extended coaxial cable, or a T-type or F-type adapter, wherein the assembly step, Referring to Figures 2g and 2h, the connector 500 has a threaded portion 502 for threading the wire 1 in the center of the coaxial cable into the connector 500, and then rotating the nut 14 to the sleeve 10 of the coaxial cable connector. The first outer flange 104 slowly approaches the joint 500. At this time, the inner flange 142 of the nut 14 is pressed by the elastic force of the metal piece 102, so that the inner flange of the nut 14 and the joint 500 are engaged. The 142 is always in contact with the inner flange 122 of the outer sleeve 12. When the engagement is completed, the angle a between the metal piece 102 and the radial direction of the inner sleeve 10 is gradually reduced, and the inner flange 142 of the nut 14 is no longer in contact with the inner flange 122 of the outer sleeve 12. . When the nut 14 is engaged with the joint 500, the angle a between the metal sheet 102 and the radial direction of the inner sleeve 10 becomes 0 degrees, or the metal piece 102 may even be inclined toward the first outer flange 104. . Therefore, after the coaxial cable connector is installed to the connector 500, the metal piece 102 and the inner flange 142 of the nut 14 are kept in contact at all times, forming a good electrical connection, so that the coaxial cable connector is accidentally pulled during use, resulting in a nut. 14 When the connector 500 is not tightly connected, a good ground electrical connection is still provided to ensure signal transmission quality.

第二實施例:Second embodiment:

請參閱第3a圖及第3b圖所示,其係為第二實施例之同軸電纜連接器剖面圖及內套筒之剖面圖。第二實施例與第一實施例類似,在本實施例中之元件,與第一實施例之元件具有相同標號,可以參照第一實施例中對於該元件之說明。二金屬片103與內套筒10為一體成型,差異在於此二金屬片103分別設置在第二外凸緣110之第一表面114上,且金屬片103與第一外凸緣104之間僅具有一溝槽107,與第一實施例金屬片102二側具有第一溝槽106及第二溝槽108不同,且此金屬片103之厚度作介於0.1至1.5毫米(mm)之間、0.3至2毫米之間及0.5至3毫米之間,溝槽107在內套筒100之徑向方向上由內而外地逐漸變窄至一最小寛度後,維持此最小寛度至溝槽107底部,溝槽107之最小寛度例如介於0.1至1毫米(mm)之間、0.3至1.5毫米之間及0.5至2毫米之間,溝槽107之最大寛度(位於第二溝槽107之頂部)例如介於0.1至1毫米(mm)之間、0.3至1.5毫米之間及0.5至2毫米之間,溝槽107之深度例如介於0.25至1毫米(mm)之間,金屬片103之頂端到內套筒100之一軸線間的一徑向距離大致上等於或小於第一外凸緣104之外徑表面到內套筒100之該軸線間的一徑向距離,但大於第二外凸緣110之第二表面116到內套筒100之該軸線間的一徑向距離,另外金屬片103由內而外延伸的方向與一徑向方向之間的一夾角b為一銳角,金屬片103徑向地由內而外地往第一外凸緣104相反方向傾斜,此夾角a是介於10度至40度之間、15度至60度之間及20度至80度之間。Please refer to FIGS. 3a and 3b, which are cross-sectional views of the coaxial cable connector of the second embodiment and a cross-sectional view of the inner sleeve. The second embodiment is similar to the first embodiment, and the elements in the present embodiment have the same reference numerals as those of the first embodiment, and the description of the elements in the first embodiment can be referred to. The two metal sheets 103 are integrally formed with the inner sleeve 10, the difference being that the two metal sheets 103 are respectively disposed on the first surface 114 of the second outer flange 110, and only between the metal sheet 103 and the first outer flange 104 Having a trench 107 different from the first trench 106 and the second trench 108 on both sides of the metal strip 102 of the first embodiment, and the thickness of the metal strip 103 is between 0.1 and 1.5 millimeters (mm). Between 0.3 and 2 mm and between 0.5 and 3 mm, the groove 107 is gradually narrowed from the inside to the outside in the radial direction of the inner sleeve 100 to a minimum degree, and the minimum twist is maintained to the groove 107. At the bottom, the minimum twist of the groove 107 is, for example, between 0.1 and 1 millimeter (mm), between 0.3 and 1.5 mm, and between 0.5 and 2 mm, and the maximum twist of the groove 107 (located in the second groove 107) The top portion) is, for example, between 0.1 and 1 millimeter (mm), between 0.3 and 1.5 mm, and between 0.5 and 2 mm, and the depth of the groove 107 is, for example, between 0.25 and 1 mm (mm), the metal piece A radial distance from the tip of the 103 to one of the axes of the inner sleeve 100 is substantially equal to or less than a radial direction between the outer diameter surface of the first outer flange 104 to the axis of the inner sleeve 100 The distance is greater than a radial distance between the second surface 116 of the second outer flange 110 and the axis of the inner sleeve 100, and another between the direction in which the metal piece 103 extends from the inside to the outside and a radial direction The angle b is an acute angle, and the metal piece 103 is radially inclined from the inside to the outside in the opposite direction of the first outer flange 104. The angle a is between 10 degrees and 40 degrees, between 15 degrees and 60 degrees, and 20 degrees. Degree to 80 degrees.

另外,本實施例之金屬片103數量可為二片,但是金屬片103數量也可為一片、三片或四片以上,例如金屬片103數量為四片時,請參閱第3c圖所示,每片金屬片103兩末端連接內套筒本體100,每一金屬片103係以一凹折線1031為基準往遠離第一外凸緣104之方向凹折,每一金屬片103之外徑的弧度例如介於50度至110度之間。若金屬片103數量為一片時,請參閱第3d圖所示,此金屬片103之形狀兩末端連接內套筒本體100,金屬片103係以一凹折線1031為基準往遠離第一外凸緣104之方向凹折,金屬片103之外徑的弧度例如介於150度至300度之間。另外本實施例其它元件皆與第一實施例相同,在此不加以重覆說明。In addition, the number of the metal sheets 103 in this embodiment may be two, but the number of the metal sheets 103 may be one, three or four. For example, when the number of the metal sheets 103 is four, please refer to the figure 3c. The inner ends of each of the metal sheets 103 are connected to the inner sleeve body 100, and each of the metal sheets 103 is concavely folded away from the first outer flange 104 by a concave fold line 1031, and the outer diameter of each metal piece 103 is curved. For example between 50 degrees and 110 degrees. If the number of the metal sheets 103 is one, as shown in FIG. 3d, the shape of the metal piece 103 is connected to the inner sleeve body 100 at both ends, and the metal piece 103 is away from the first outer flange by a concave fold line 1031. The direction of the concave direction of 104 is such that the outer diameter of the metal piece 103 has an arc of, for example, between 150 degrees and 300 degrees. In addition, other elements of the embodiment are the same as those of the first embodiment, and will not be repeatedly described herein.

本實施例同軸電纜連接器之組裝方式與第一實施例相同,其中位在第一表面114上之金屬片103在組裝完成後,因金屬片103之彈力抵住螺帽14之內凸緣142,使螺帽14抵觸外套筒12之內凸緣122,同時螺帽14之內凸緣142可在內套筒10與外套筒12之間自由旋轉,但因金屬片103之彈力限制螺帽14之軸向移動。The coaxial cable connector of this embodiment is assembled in the same manner as the first embodiment. The metal piece 103 on the first surface 114 is pressed against the inner flange 142 of the nut 14 by the elastic force of the metal piece 103 after the assembly is completed. The nut 14 is in contact with the inner flange 122 of the outer sleeve 12, and the inner flange 142 of the nut 14 is freely rotatable between the inner sleeve 10 and the outer sleeve 12, but the snail is restrained by the elastic force of the metal piece 103. The axial movement of the cap 14 is performed.

請參閱第3e圖所示,安裝本實施例之同軸電纜連接器至接頭500之方式與第一實施例相同,其中接合過程之中金屬片103與內套筒10之徑向方向之間的一夾角a會逐漸的縮小,在螺帽14與接頭500鎖緊接合完成時,螺帽14之內凸緣142會稍微的往接頭500的方向移動,使內凸緣142不接觸外套筒12之內凸緣122,而金屬片103與內套筒10之徑向方向之間的一夾角a變成0度,安裝同軸電纜連接器至接頭500後,金屬片103與螺帽14之內凸緣142會一直保持接觸,形成良好電性連接之途徑,使同軸電纜連接器在使用時不小心拉扯導致螺帽14與接頭500未緊迫連接時,仍可提供良好的接地(ground)電性連接,進而確保信號傳遞品質。Referring to FIG. 3e, the coaxial cable connector of the present embodiment is mounted to the joint 500 in the same manner as the first embodiment, wherein a radial direction between the metal piece 103 and the inner sleeve 10 during the joining process is shown. The angle a will gradually shrink. When the nut 14 and the joint 500 are locked and engaged, the inner flange 142 of the nut 14 will slightly move toward the joint 500, so that the inner flange 142 does not contact the outer sleeve 12. The inner flange 122, and an angle a between the metal piece 103 and the radial direction of the inner sleeve 10 becomes 0 degree, and after the coaxial cable connector is attached to the joint 500, the metal piece 103 and the inner flange 142 of the nut 14 Will always maintain contact, forming a good electrical connection, so that the coaxial cable connector will be pulled when used, causing the nut 14 and the connector 500 not to be tightly connected, still provide a good ground electrical connection, and then Ensure signal quality.

第三實施例:Third embodiment:

請參閱第4a圖、第4b圖及第4c圖所示,其依序為第三實施例之同軸電纜連接器剖面圖、同軸電纜連接器分解剖面圖及內套筒之立體圖。第三實施例的外套筒12、螺帽14及金屬環19與第一實施例相同,請參閱第一實施例所述,在此就不重覆說明,在本實施例中之元件,與第一實施例之元件具有相同標號,可以參照第一實施例中對於該元件之說明。第三實施例與第一實施例差異在於內套筒10的結構不同。本實施例之內套筒30具有一內套筒本體300及二金屬片302,此內套筒本體100與金屬片302一體成型,此內套筒本體300具有一穿孔301、一第一外凸緣304、一第二外凸緣310、一第三外凸緣312、一第一表面314、一第二表面316及一後端延伸部318,其中金屬片302係位在第一外凸緣304前端,第二表面316位於第二外凸緣310與第三外凸緣312之間,且第一表面314為第二外凸緣310表面。且每一金屬片302係兩末端連接內套筒本體300,每一金屬片302係以對應之一凹折線3021為基準往遠離第一外凸緣304之方向凹折,每一金屬片302之外徑的弧度例如介於120度至180度之間。每一金屬片302與第一外凸緣304之間具有一缺口303,此缺口303徑向地切過內套筒30之一管壁,並隔開金屬片302之內徑與內套筒本體300及隔開金屬片302之外徑與內套筒本體300,且在垂直於凹折線3021之徑向方向上,隔開金屬片302之外徑與內套筒本體300之間的距離係大於隔開金屬片302之內徑與內套筒本體300之間的距離,亦即隔開金屬片302與內套筒本體300之間的距離係在徑向方向上由內而外地逐漸變寬,其中每一金屬片302與內套筒30之一徑向方向之間的一夾角c為一銳角,且金屬片302往遠離第一外凸緣304之方向傾斜,此夾角c例如介於20度至60度之間、30度至70度之間及45度至80度之間。另外金屬片302之厚度例如介於0.1至1.5毫米(mm)之間、0.3至2毫米之間及0.5至3毫米之間,另外此缺口303之探度係介於0.1至1.5毫米(mm)之間、0.3至2毫米之間及0.5至3毫米之間。Please refer to FIGS. 4a, 4b and 4c, which are a cross-sectional view of the coaxial cable connector of the third embodiment, an exploded cross-sectional view of the coaxial cable connector, and a perspective view of the inner sleeve. The outer sleeve 12, the nut 14 and the metal ring 19 of the third embodiment are the same as those of the first embodiment. Please refer to the first embodiment, and the components in the embodiment are not repeated here. The elements of the first embodiment have the same reference numerals, and the description of the elements in the first embodiment can be referred to. The third embodiment differs from the first embodiment in the structure of the inner sleeve 10. The inner sleeve 30 of the embodiment has an inner sleeve body 300 and two metal sheets 302. The inner sleeve body 100 is integrally formed with the metal piece 302. The inner sleeve body 300 has a through hole 301 and a first convex portion. a rim 304, a second outer flange 310, a third outer flange 312, a first surface 314, a second surface 316 and a rear end extension 318, wherein the metal sheet 302 is tied to the first outer flange The front end of the 304, the second surface 316 is located between the second outer flange 310 and the third outer flange 312, and the first surface 314 is the surface of the second outer flange 310. And each metal piece 302 is connected to the inner sleeve body 300 at both ends, and each metal piece 302 is concavely folded away from the first outer flange 304 with respect to one of the concave fold lines 3021, and each metal piece 302 is The curvature of the outer diameter is, for example, between 120 and 180 degrees. A gap 303 is defined between each of the metal sheets 302 and the first outer flange 304. The notch 303 radially cuts through one of the inner sleeves 30 and separates the inner diameter of the metal piece 302 from the inner sleeve body. 300 and the outer diameter of the metal piece 302 and the inner sleeve body 300, and in the radial direction perpendicular to the concave fold line 3021, the distance between the outer diameter of the spaced metal piece 302 and the inner sleeve body 300 is greater than The distance between the inner diameter of the metal piece 302 and the inner sleeve body 300, that is, the distance between the partition metal piece 302 and the inner sleeve body 300 is gradually widened from the inside to the outside in the radial direction. An angle c between each of the metal pieces 302 and one of the radial directions of the inner sleeve 30 is an acute angle, and the metal piece 302 is inclined away from the first outer flange 304. The angle c is, for example, 20 degrees. Between 60 degrees, between 30 degrees and 70 degrees and between 45 degrees and 80 degrees. In addition, the thickness of the metal piece 302 is, for example, between 0.1 and 1.5 millimeters (mm), between 0.3 and 2 millimeters, and between 0.5 and 3 millimeters, and the depth of the notch 303 is between 0.1 and 1.5 millimeters (mm). Between 0.3 and 2 mm and between 0.5 and 3 mm.

另外,本實施例之金屬片302數量可為二片,但是金屬片302數量也可為一片、三片或四片以上,例如金屬片302數量為四片時,請參閱第4d圖所示,每片金屬片302兩末端連接內套筒本體300,每一金屬片302係以一凹折線3021為基準往遠離第一外凸緣304之方向凹折,每一金屬片302之外徑的弧度例如介於50度至110度之間。若金屬片302數量為一片時,請參閱第4e圖所示,此金屬片302之形狀兩末端連接內套筒本體300,金屬片302係以一凹折線3021為基準往遠離第一外凸緣304之方向凹折,金屬片302之外徑的弧度例如介於150度至300度之間。In addition, the number of metal pieces 302 in this embodiment may be two, but the number of metal pieces 302 may be one, three, or four. For example, when the number of metal pieces 302 is four, refer to FIG. 4d. The inner ends of each of the metal sheets 302 are connected to the inner sleeve body 300, and each of the metal sheets 302 is concavely folded away from the first outer flange 304 with a concave fold line 3021, and the outer diameter of each metal piece 302 is curved. For example between 50 degrees and 110 degrees. If the number of the metal pieces 302 is one piece, as shown in FIG. 4e, the shape of the metal piece 302 is connected to the inner sleeve body 300 at both ends, and the metal piece 302 is moved away from the first outer flange by a concave fold line 3021. The direction of the recess is 304, and the outer diameter of the metal piece 302 has an arc of, for example, between 150 and 300 degrees.

請同時參閱第4f圖所示,本實施例之組裝方式係先將金屬環19套在外套筒12之外圍,其中金屬環19之側壁靠近中後段處之內表面係呈一傾斜面,使得金屬環19之插孔靠近中後段處愈往後方孔徑係逐漸變大,其中金屬環19之傾斜面與金屬環之一軸向方向之間呈一第一傾斜角,該第一傾斜角例如介於5度至45度,外套筒12包括具有一傾斜面之一可形變部125,可形變部125之傾斜面與外套筒12之一軸向方向之間呈一第二傾斜角,該第二傾斜角例如介於5度至45度。另外,在可形變部125之傾斜面的後側設有一凹槽127,環繞在外套筒12上,藉以使可形變部125易於形變。此時,金屬環19之傾斜面係頂靠可形變部125之傾斜面。接著,將內套筒本體300之後端延伸部318穿過螺帽14之穿孔141,並使內凸緣142套在內套筒本體300之第一表面314之外圍,接著將後端延伸部318穿過外套筒12之穿孔121,並使外套筒12之內凸緣122套接在第二表面116上,且以緊配合的方式將內凸緣122緊密的卡合在第二表面316上及第二外凸緣310及第三外凸緣312之間,此時後端延伸部318與後端延伸部124之間形成環狀空心且呈同心環繞關係。螺帽14之內凸緣142夾在內套筒30之第一外凸緣304與外套筒12的內凸緣122之間,且可在第一外凸緣304與內凸緣122之間自由旋轉及移動。Referring to FIG. 4f at the same time, the assembly method of the embodiment firstly sleeves the metal ring 19 around the outer sleeve 12, wherein the inner surface of the side wall of the metal ring 19 near the middle and rear sections has an inclined surface, so that the metal The hole of the ring 19 is gradually enlarged toward the rear of the middle and rear sections, wherein the inclined surface of the metal ring 19 and the axial direction of one of the metal rings have a first inclination angle, and the first inclination angle is, for example, 5 degrees to 45 degrees, the outer sleeve 12 includes a deformable portion 125 having an inclined surface, and the inclined surface of the deformable portion 125 and the axial direction of the outer sleeve 12 have a second inclination angle. The two tilt angles are, for example, between 5 and 45 degrees. Further, a groove 127 is provided on the rear side of the inclined surface of the deformable portion 125 so as to surround the outer sleeve 12, whereby the deformable portion 125 is easily deformed. At this time, the inclined surface of the metal ring 19 abuts against the inclined surface of the deformable portion 125. Next, the inner sleeve body 300 rear end extension 318 is passed through the through hole 141 of the nut 14 and the inner flange 142 is sleeved around the first surface 314 of the inner sleeve body 300, and then the rear end extension 318 The through hole 121 of the outer sleeve 12 is passed through, and the inner flange 122 of the outer sleeve 12 is sleeved on the second surface 116, and the inner flange 122 is tightly engaged to the second surface 316 in a tight fit manner. Between the upper and second outer flanges 310 and the third outer flange 312, the rear end extension 318 and the rear end extension 124 form an annular hollow and have a concentric relationship. The inner flange 142 of the nut 14 is sandwiched between the first outer flange 304 of the inner sleeve 30 and the inner flange 122 of the outer sleeve 12 and is between the first outer flange 304 and the inner flange 122. Free to rotate and move.

當同軸電纜裝設在同軸電纜連接器時,同軸電纜之編織層7及塑膠皮層9會被擠壓至內套筒30之後端延伸部318與外套筒12之後端延伸部124之間所形成之間隙內,此時部分之編織層7會外翻包覆部分之塑膠皮層9之外表面,而同軸電纜之金屬線1、絶緣層3及薄金屬層5(未標示於第4f圖中)會從穿孔301之後端穿進內套筒30之穿孔301之前端,其中金屬線1延伸至螺帽14之螺紋部144所構成之空間內。接著,將金屬環19軸向地往後移動,使外套筒12之可形變部125向內變形頂壓同軸電纜之塑膠皮層9,藉以固定該同軸電纜,此時金屬環19之後端會頂靠外套筒12之一階梯狀部分129,此階梯狀部分129即為在可形變部125尚未形變前凹槽127靠近後端之側壁。When the coaxial cable is mounted on the coaxial cable connector, the braided layer 7 of the coaxial cable and the plastic skin layer 9 are pressed to form between the rear end portion 318 of the inner sleeve 30 and the rear end portion 124 of the outer sleeve 12. In the gap, at this time, part of the braid layer 7 will overturn the outer surface of the part of the plastic skin layer 9, and the metal wire 1, the insulating layer 3 and the thin metal layer 5 of the coaxial cable (not shown in Fig. 4f) From the rear end of the perforation 301, it is threaded into the front end of the perforation 301 of the inner sleeve 30, wherein the wire 1 extends into the space formed by the threaded portion 144 of the nut 14. Then, the metal ring 19 is moved axially backward, so that the deformable portion 125 of the outer sleeve 12 is deformed inwardly to press the plastic skin layer 9 of the coaxial cable, thereby fixing the coaxial cable, and the metal ring 19 is at the rear end. By a stepped portion 129 of the outer sleeve 12, the stepped portion 129 is the side wall of the recess 127 near the rear end before the deformable portion 125 has been deformed.

安裝本實施例之同軸電纜連接器至一接頭500,此接頭500可設置在一電子裝置上,或是一延長同軸電纜之中間轉接頭,或是一T型或F型之轉接頭,其中組裝步驟,請參閱第4g圖及第4h圖所示,此接頭500具有一螺紋部502,使同軸電纜中心的金屬線1穿進接頭500內,接著旋轉螺帽14使同軸電纜連接器之內套筒30的第一外凸緣304慢慢接近接頭500,此時位在第一外凸緣304前端的金屬片302會與螺紋部502之一端接觸,同時金屬片302與內套筒30徑向方向之間的一夾角a會逐漸縮小,在螺帽14與接頭500鎖緊接合完成時,接頭500表面會壓迫金屬片302,使金屬片302與內套筒30徑向方向之間的夾角a變成幾近0度,並且金屬片302之一表面與接頭500表面貼合。所以安裝同軸電纜連接器至接頭500後,金屬片302與接頭500之金屬表面一直保持接觸,形成良好電性連接之途徑,縱使同軸電纜連接器在使用時不小心拉扯導致螺帽14與接頭500未緊迫連接時,金屬片302會因彈力持續接觸接頭500之金屬表面,仍保持良好的導電途徑,同時提供良好的接地(ground)電性連接,進而確保信號傳遞品質。The coaxial cable connector of the embodiment is installed to a connector 500. The connector 500 can be disposed on an electronic device, or an intermediate adapter of an extended coaxial cable, or a T-type or F-type adapter. For the assembly step, as shown in FIG. 4g and FIG. 4h, the connector 500 has a threaded portion 502 for threading the metal wire 1 at the center of the coaxial cable into the connector 500, and then rotating the nut 14 to make the coaxial cable connector The first outer flange 304 of the inner sleeve 30 slowly approaches the joint 500, and the metal piece 302 located at the front end of the first outer flange 304 is in contact with one end of the threaded portion 502, while the metal piece 302 and the inner sleeve 30 are An angle a between the radial directions will gradually decrease. When the nut 14 and the joint 500 are locked and engaged, the surface of the joint 500 will press the metal piece 302 between the metal piece 302 and the inner sleeve 30 in the radial direction. The angle a becomes almost 0 degrees, and one surface of the metal piece 302 is attached to the surface of the joint 500. Therefore, after the coaxial cable connector is installed to the connector 500, the metal piece 302 is kept in contact with the metal surface of the connector 500, forming a good electrical connection path, even if the coaxial cable connector is accidentally pulled during use, causing the nut 14 and the connector 500. When not connected, the metal piece 302 will continue to contact the metal surface of the joint 500 due to the elastic force, and still maintain a good conductive path, and at the same time provide a good ground electrical connection, thereby ensuring signal transmission quality.

第四實施例:Fourth embodiment:

請參閱第5a圖、第5b圖及第5c圖所示,其依序為第四實施例之同軸電纜連接器剖面圖、同軸電纜連接器分解剖面圖及外套筒之立體圖。此同軸電纜連接器包括同軸向之一內套筒40、一外套筒42及一螺帽44,其中內套筒40及外套筒42係以同軸方式接納如第1圖所示之同軸電纜,內套筒40、外套筒42及螺帽44之材質為導電材質,例如是銅、鐡、銀、鎳、錫、金、銅金合金、銅錫合金、銅鎳合金或其它導電性良好之聚合物或非金屬類之導體等,內套筒40、外套筒42及螺帽44之表面可電鍍、無電電鍍或覆蓋上一層防鏽金屬層,其材質包括一銅、鐡、銀、鎳、錫、金、銅金合金、銅錫合金、銅鎳合金或其它導電性良好之聚合物或非金屬類之導體等,其中螺帽44的型式為六角螺帽、方型螺帽、環型螺帽、翼型螺帽等任何型式之螺帽,可用扳手或其他工具將連接器鎖在電子裝置上。Please refer to FIG. 5a, FIG. 5b and FIG. 5c, which are a cross-sectional view of the coaxial cable connector of the fourth embodiment, an exploded cross-sectional view of the coaxial cable connector, and a perspective view of the outer sleeve. The coaxial cable connector includes an inner sleeve 40, an outer sleeve 42 and a nut 44, wherein the inner sleeve 40 and the outer sleeve 42 coaxially receive the coaxial cable as shown in FIG. The material of the inner sleeve 40, the outer sleeve 42 and the nut 44 is made of a conductive material, such as copper, bismuth, silver, nickel, tin, gold, copper-gold alloy, copper-tin alloy, copper-nickel alloy or other good electrical conductivity. The surface of the inner sleeve 40, the outer sleeve 42 and the nut 44 may be plated, electrolessly plated or covered with a layer of rustproof metal, the material of which includes a copper, bismuth, silver, or the like. Nickel, tin, gold, copper-gold alloy, copper-tin alloy, copper-nickel alloy or other conductive polymer or non-metal conductor, etc., wherein the nut 44 is of a hexagonal nut, a square nut, and a ring. Any type of nut, such as a nut or wing nut, can be locked to the electronics with a wrench or other tool.

本實施例之內套筒40具有一穿孔401、一外凸緣404、一表面406及一後端延伸部408。本實施例之螺帽44具有一穿孔441、一內凸緣442及一螺紋部444。本實施例之外套筒42具有一外套筒本體420及二金屬片422,此外套筒本體420與二金屬片422一體成型,此外套筒本體420具有一穿孔421、一內凸緣424及一後端延伸部428,其中金屬片422係位在內凸緣424前端,且每一金屬片422係兩末端連接外套筒本體420,每一金屬片422係以對應之一凹折線4221為基準往遠離內凸緣424之方向凹折,每一金屬片422之外徑的弧度例如介於120度至180度之間。每一金屬片422與內凸緣424之間具有一缺口423,此缺口423徑向地切過外套筒42之一管壁,並隔開金屬片422之內徑與外套筒本體420及隔開金屬片422之外徑與外套筒本體420,且在垂直於凹折線4221之徑向方向上,隔開金屬片422之外徑與外套筒本體420之間的距離係大於隔開金屬片422之內徑與外套筒本體420之間的距離,亦即隔開金屬片422與外套筒本體420之間的距離係在徑向方向上由內而外地逐漸變寬。其中每一金屬片422與外套筒42之一徑向方向之間的一夾角d為一銳角,且金屬片422往遠離內凸緣424之方向傾斜,此夾角d例如介於20度至60度之間、30度至70度之間及45度至80度之間。另外金屬片422之厚度例如介於0.1至1.5毫米(mm)之間、0.3至2毫米之間及0.5至3毫米之間,另外此缺口423之探度係介於0.1至1.5毫米(mm)之間、0.3至2毫米之間及0.5至3毫米之間。The inner sleeve 40 of the present embodiment has a through hole 401, an outer flange 404, a surface 406 and a rear end extension 408. The nut 44 of this embodiment has a through hole 441, an inner flange 442 and a threaded portion 444. The sleeve 42 has an outer sleeve body 420 and two metal sheets 422. The sleeve body 420 is integrally formed with the two metal sheets 422. The sleeve body 420 has a through hole 421 and an inner flange 424. a rear end extension 428, wherein the metal piece 422 is fastened to the front end of the inner flange 424, and each metal piece 422 is connected to the outer sleeve body 420 at both ends, and each metal piece 422 is corresponding to one of the concave fold lines 4221. The reference is concavely folded away from the inner flange 424, and the outer diameter of each of the metal sheets 422 is, for example, between 120 and 180 degrees. A gap 423 is defined between each of the metal sheets 422 and the inner flange 424. The gap 423 radially cuts through one of the outer sleeves 42 and separates the inner diameter of the metal piece 422 from the outer sleeve body 420. The outer diameter of the metal piece 422 is spaced apart from the outer sleeve body 420, and in a radial direction perpendicular to the concave fold line 4221, the distance between the outer diameter of the spaced metal piece 422 and the outer sleeve body 420 is greater than the distance The distance between the inner diameter of the metal piece 422 and the outer sleeve body 420, that is, the distance between the partition metal piece 422 and the outer sleeve body 420 is gradually widened from the inside to the outside in the radial direction. An angle d between each of the metal sheets 422 and one of the radial directions of the outer sleeve 42 is an acute angle, and the metal piece 422 is inclined away from the inner flange 424. The angle d is, for example, between 20 degrees and 60 degrees. Between degrees, between 30 degrees and 70 degrees and between 45 degrees and 80 degrees. In addition, the thickness of the metal piece 422 is, for example, between 0.1 and 1.5 millimeters (mm), between 0.3 and 2 millimeters, and between 0.5 and 3 millimeters, and the depth of the notch 423 is between 0.1 and 1.5 millimeters (mm). Between 0.3 and 2 mm and between 0.5 and 3 mm.

另外,本實施例之金屬片422數量可為二片,但是金屬片422數量也可為一片、三片或四片以上,例如金屬片422數量為四片時,請參閱第5d圖所示,每片金屬片422兩末端連接外套筒本體420,每一金屬片422係以一凹折線4221為基準往遠離內凸緣424之方向凹折,每一金屬片422之外徑的弧度例如介於50度至110度之間。若金屬片422數量為一片時,請參閱第5e圖所示,此金屬片422之形狀兩末端連接外套筒本體420,金屬片422係以一凹折線4221為基準往遠離內凸緣424之方向凹折,金屬片422之外徑的弧度例如介於150度至300度之間。In addition, the number of metal sheets 422 in this embodiment may be two, but the number of metal sheets 422 may be one, three or four. For example, when the number of metal sheets 422 is four, please refer to FIG. 5d. The outer ends of each of the metal sheets 422 are connected to the outer sleeve body 420. Each of the metal sheets 422 is concavely folded away from the inner flange 424 with reference to a concave fold line 4221, and the outer diameter of each metal piece 422 is, for example, Between 50 degrees and 110 degrees. If the number of the metal pieces 422 is one piece, as shown in FIG. 5e, the shape of the metal piece 422 is connected to the outer sleeve body 420 at both ends, and the metal piece 422 is away from the inner flange 424 with a concave fold line 4221 as a reference. The direction is concavely folded, and the outer diameter of the metal piece 422 has an arc of, for example, between 150 degrees and 300 degrees.

請同時參閱第5f圖所示,本實施例之組裝方式係將內套筒40之後端延伸部408穿過螺帽44之穿孔441,並使內凸緣442套在內套筒40之表面406之外圍,接著將後端延伸部408穿過外套筒42之穿孔421,並使外套筒42之內凸緣424套接在表面406上,且以緊配合的方式將內凸緣424緊密的卡合在表面406上,此時後端延伸部408與後端延伸部428之間形成環狀空心且呈同心環繞關係。另外組裝完成時會因金屬片422之彈力抵住螺帽44之內凸緣442,進而使螺帽44抵觸內套筒40之外凸緣404,同時螺帽44之內凸緣442可在內套筒40與外套筒42之間自由旋轉,但因金屬片422之彈力限制螺帽44之軸向移動。Referring to FIG. 5f at the same time, the assembly of the embodiment is such that the rear end extension 408 of the inner sleeve 40 passes through the through hole 441 of the nut 44 and the inner flange 442 is sleeved on the surface 406 of the inner sleeve 40. At the periphery, the rear end extension 408 is then passed through the perforation 421 of the outer sleeve 42 and the inner flange 424 of the outer sleeve 42 is overlaid on the surface 406 and the inner flange 424 is tightly fitted in a tight fit. The engagement of the rear end extension 408 and the rear end extension 428 forms an annular hollow and concentric wrap relationship. In addition, when the assembly is completed, the elastic force of the metal piece 422 is against the inner flange 442 of the nut 44, so that the nut 44 is in contact with the outer flange 404 of the inner sleeve 40, and the inner flange 442 of the nut 44 can be included. The sleeve 40 and the outer sleeve 42 are free to rotate, but the axial movement of the nut 44 is restricted by the elastic force of the metal piece 422.

當同軸電纜裝設在同軸電纜連接器時,同軸電纜之編織層7及塑膠皮層9會被擠壓至內套筒40之後端延伸部408與外套筒42之後端延伸部428之間所形成之間隙內,此時部分之編織層7會外翻包覆部分之塑膠皮層9之外表面,而同軸電纜之金屬線1、絶緣層3及薄金屬層5(未標示於第5f圖中)會從穿孔401之後端穿進內套筒40之穿孔401之前端,其中金屬線1延伸至螺帽44之螺紋部444所構成之空間內。接著,利用工具徑向地施壓外套筒42,使外套筒42向內變形頂壓同軸電纜之塑膠皮層9,藉以固定該同軸電纜。When the coaxial cable is mounted on the coaxial cable connector, the braided layer 7 of the coaxial cable and the plastic skin layer 9 are pressed to form between the rear end portion 408 of the inner sleeve 40 and the rear end portion 428 of the outer sleeve 42. In the gap, at this time, part of the woven layer 7 will overturn the outer surface of the part of the plastic skin layer 9, and the metal wire 1, the insulating layer 3 and the thin metal layer 5 of the coaxial cable (not shown in Fig. 5f) From the rear end of the perforation 401, it is threaded into the front end of the perforation 401 of the inner sleeve 40, wherein the wire 1 extends into the space formed by the threaded portion 444 of the nut 44. Next, the outer sleeve 42 is radially pressed by the tool, and the outer sleeve 42 is deformed inwardly to press the plastic skin layer 9 of the coaxial cable to fix the coaxial cable.

安裝同軸電纜連接器至一接頭500,此接頭500可設置在一電子裝置上,或是一延長同軸電纜之中間轉接頭,或是一T型或F型之轉接頭,其中組裝步驟,請參閱第5g圖及第5h圖所示,此接頭500具有一螺紋部502,使同軸電纜中心的金屬線1穿進接頭500內,接著旋轉螺帽44使同軸電纜連接器之內套筒40的外凸緣404慢慢接近接頭500,此時螺帽44之內凸緣442因金屬片422之彈力壓迫,使螺帽44與接頭500的接合過程之中,使螺帽44之內凸緣442一直與內套筒40的外凸緣404接觸,其中螺帽44與接頭500接合過程至接合完成,金屬片422與外套筒42徑向方向之間的一夾角d不會改變,螺帽44之內凸緣442持續與內套筒40的外凸緣404接觸,形成良好電性連接之途徑,使同軸電纜連接器在使用時不小心拉扯導致螺帽44與接頭500未緊迫連接時,仍可提供良好的接地(ground)電性連接,進而確保信號傳遞品質。Mounting the coaxial cable connector to a connector 500, the connector 500 can be disposed on an electronic device, or an intermediate adapter of an extended coaxial cable, or a T-type or F-type adapter, wherein the assembly step, Referring to FIGS. 5g and 5h, the connector 500 has a threaded portion 502 for threading the wire 1 at the center of the coaxial cable into the connector 500, and then rotating the nut 44 to the sleeve 40 of the coaxial cable connector. The outer flange 404 is slowly approached to the joint 500. At this time, the inner flange 442 of the nut 44 is pressed by the elastic force of the metal piece 422, so that the inner flange of the nut 44 is engaged during the engagement of the nut 44 with the joint 500. The 442 is always in contact with the outer flange 404 of the inner sleeve 40, wherein the engagement of the nut 44 with the joint 500 is completed, and an angle d between the radial direction of the metal piece 422 and the outer sleeve 42 does not change, the nut The flange 442 continues to contact the outer flange 404 of the inner sleeve 40 within 44 to form a good electrical connection such that the coaxial cable connector is inadvertently pulled during use causing the nut 44 and the joint 500 not to be tightly coupled. Still provide a good ground electrical connection to ensure signal transmission Quality.

第五實施例:Fifth embodiment:

請參閱第6a圖、第6b圖及第6c圖所示,其依序為第五實施例之同軸電纜連接器剖面圖、同軸電纜連接器分解剖面圖及螺帽之立體圖。此同軸電纜連接器包括同軸向之一內套筒60、一外套筒62及一螺帽64,其中內套筒60及外套筒62係以同軸方式接納如第1圖所示之同軸電纜,內套筒60、外套筒62及螺帽64之材質為導電材質,例如是銅、鐡、銀、鎳、錫、金、銅金合金、銅錫合金、銅鎳合金或其它導電性良好之聚合物或非金屬類之導體等,內套筒60、外套筒62及螺帽64之表面可電鍍、無電電鍍或覆蓋上一層防鏽金屬層,其材質包括一銅、鐡、銀、鎳、錫、金、銅金合金、銅錫合金、銅鎳合金或其它導電性良好之聚合物或非金屬類之導體等,其中螺帽64的型式為六角螺帽、方型螺帽、環型螺帽、翼型螺帽等任何型式之螺帽,可用扳手或其他工具將連接器鎖在電子裝置上。Please refer to FIGS. 6a, 6b and 6c, which are a cross-sectional view of the coaxial cable connector of the fifth embodiment, an exploded cross-sectional view of the coaxial cable connector, and a perspective view of the nut. The coaxial cable connector includes an inner sleeve 60, an outer sleeve 62 and a nut 64. The inner sleeve 60 and the outer sleeve 62 receive the coaxial cable as shown in FIG. 1 coaxially. The inner sleeve 60, the outer sleeve 62 and the nut 64 are made of a conductive material, such as copper, bismuth, silver, nickel, tin, gold, copper-gold alloy, copper-tin alloy, copper-nickel alloy or other good electrical conductivity. The surface of the inner sleeve 60, the outer sleeve 62 and the nut 64 may be plated, electrolessly plated or covered with a layer of rustproof metal, the material of which includes a copper, bismuth, silver, or the like. Nickel, tin, gold, copper-gold alloy, copper-tin alloy, copper-nickel alloy or other conductive polymer or non-metallic conductor, etc., wherein the nut 64 is of a hexagonal nut, a square nut, and a ring. Any type of nut, such as a nut or wing nut, can be locked to the electronics with a wrench or other tool.

本實施例之內套筒60具有一穿孔601、一外凸緣604、一表面606及一後端延伸部608。本實施例之外套筒62具有一穿孔621、一內凸緣622及一後端延伸部624。本實施例之螺帽64具有一螺帽本體640及二金屬片642,此螺帽本體640與二金屬片642一體成型,此螺帽本體640具有一穿孔641、一螺紋部644及一內凸緣646,此金屬片642係位在內凸緣646後端,且每一金屬片642係兩末端連接螺帽本體640,每一金屬片642係以對應之一凹折線6421為基準往遠離內凸緣646之方向凹折,每一金屬片642之外徑的弧度例如介於120度至180度之間。每一金屬片642與內凸緣646之間具有一缺口643,此缺口643徑向地切過螺帽64之一管壁,並隔開金屬片642之內徑與螺帽本體640及隔開金屬片642之外徑與螺帽本體640,且在垂直於凹折線6421之徑向方向上,隔開金屬片642之外徑與螺帽本體640之間的距離係大於隔開金屬片642之內徑與螺帽本體640之間的距離,亦即隔開金屬片642與螺帽本體640之間的距離係在徑向方向上由內而外地逐漸變寬。其中每一金屬片642與螺帽64之一徑向方向之間的一夾角e為一銳角,且金屬片642往遠離內凸緣646之方向傾斜,此夾角e例如介於20度至60度之間、30度至70度之間及45度至80度之間。另外金屬片642之厚度例如介於0.1至1.5毫米(mm)之間、0.3至2毫米之間及0.5至3毫米之間,另外此缺口643之探度係介於0.1至1.5毫米(mm)之間、0.3至2毫米之間及0.5至3毫米之間。The inner sleeve 60 of the present embodiment has a through hole 601, an outer flange 604, a surface 606 and a rear end extension 608. The sleeve 62 of the present embodiment has a through hole 621, an inner flange 622 and a rear end extension 624. The nut 64 of the embodiment has a nut body 640 and two metal sheets 642. The nut body 640 is integrally formed with the two metal sheets 642. The nut body 640 has a through hole 641, a threaded portion 644 and a convex portion. The edge 646, the metal piece 642 is fastened to the rear end of the inner flange 646, and each metal piece 642 is connected to the nut body 640 at both ends, and each metal piece 642 is away from the inner concave line 6421. The direction of the flange 646 is concavely folded, and the outer diameter of each of the metal pieces 642 is, for example, between 120 degrees and 180 degrees. There is a notch 643 between each of the metal pieces 642 and the inner flange 646. The notch 643 radially cuts through a wall of the nut 64 and separates the inner diameter of the metal piece 642 from the nut body 640. The outer diameter of the metal piece 642 and the nut body 640, and in the radial direction perpendicular to the concave fold line 6421, the distance between the outer diameter of the spaced metal piece 642 and the nut body 640 is greater than that of the spaced metal piece 642. The distance between the inner diameter and the nut body 640, that is, the distance between the partition metal piece 642 and the nut body 640 is gradually widened from the inside to the outside in the radial direction. An angle e between each of the metal pieces 642 and one of the radial directions of the nut 64 is an acute angle, and the metal piece 642 is inclined away from the inner flange 646. The angle e is, for example, between 20 degrees and 60 degrees. Between 30 degrees and 70 degrees and between 45 degrees and 80 degrees. In addition, the thickness of the metal piece 642 is, for example, between 0.1 and 1.5 millimeters (mm), between 0.3 and 2 millimeters, and between 0.5 and 3 millimeters, and the thickness of the notch 643 is between 0.1 and 1.5 millimeters (mm). Between 0.3 and 2 mm and between 0.5 and 3 mm.

另外,本實施例之金屬片642數量可為二片,但是金屬片642數量也可為一片、三片或四片以上,例如金屬片642數量為四片時,請參閱第6d圖所示,每片金屬片642兩末端連接螺帽本體640,每一金屬片642係以一凹折線6421為基準往遠離內凸緣646之方向凹折,每一金屬片642之外徑的弧度例如介於50度至110度之間。若金屬片642數量為一片時,請參閱第6e圖所示,此金屬片642之形狀兩末端連接螺帽本體640,金屬片642係以一凹折線6421為基準往遠離內凸緣646之方向凹折,金屬片642之外徑的弧度例如介於150度至300度之間。In addition, the number of metal sheets 642 in this embodiment may be two, but the number of metal sheets 642 may also be one, three or four. For example, when the number of metal sheets 642 is four, please refer to FIG. 6d. The ends of each of the metal pieces 642 are connected to the nut body 640. Each of the metal pieces 642 is concavely folded away from the inner flange 646 with reference to a concave fold line 6421. The curvature of the outer diameter of each metal piece 642 is, for example, 50 degrees to 110 degrees. If the number of the metal pieces 642 is one piece, as shown in FIG. 6e, the shape of the metal piece 642 is connected to the nut body 640 at both ends, and the metal piece 642 is oriented away from the inner flange 646 with a concave fold line 6421. The concave fold, the outer diameter of the metal piece 642 has an arc of, for example, between 150 degrees and 300 degrees.

請同時參閱第6f圖所示,本實施例之組裝方式係將內套筒64之後端延伸部608穿過螺帽64之穿孔641,並使內凸緣646套在內套筒60之表面606之外圍,接著將後端延伸部608穿過外套筒62之穿孔621,並使外套筒62之內凸緣622套接在表面606上,且以緊配合的方式將內凸緣622緊密的卡合在表面606上,此時後端延伸部608與後端延伸部624之間形成環狀空心且呈同心環繞關係。另外組裝完成時會因金屬片642之彈力抵住外套筒62之內凸緣622,進而使螺帽64抵觸內套筒60之外凸緣604,同時螺帽64之內凸緣646可在內套筒60與外套筒62之間自由旋轉,但因金屬片642之彈力限制螺帽64之軸向移動。Referring to FIG. 6f at the same time, the assembly mode of the embodiment is such that the rear end extension 608 of the inner sleeve 64 passes through the through hole 641 of the nut 64 and the inner flange 646 is sleeved on the surface 606 of the inner sleeve 60. At the periphery, the rear end extension 608 is then passed through the through hole 621 of the outer sleeve 62, and the inner flange 622 of the outer sleeve 62 is sleeved over the surface 606, and the inner flange 622 is tightly fitted in a tight fit manner. The engagement is on the surface 606, and the rear end extension 608 and the rear end extension 624 form an annular hollow and are in a concentric wrap relationship. In addition, when the assembly is completed, the elastic force of the metal piece 642 is against the inner flange 622 of the outer sleeve 62, so that the nut 64 is in contact with the outer flange 604 of the inner sleeve 60, and the inner flange 646 of the nut 64 can be The inner sleeve 60 and the outer sleeve 62 are free to rotate, but the axial movement of the nut 64 is restricted by the elastic force of the metal piece 642.

當同軸電纜裝設在同軸電纜連接器時,同軸電纜之編織層7及塑膠皮層9會被擠壓至內套筒60之後端延伸部608與外套筒62之後端延伸部624之間所形成之間隙內,此時部分之編織層7會外翻包覆部分之塑膠皮層9之外表面,而同軸電纜之金屬線1、絶緣層3及薄金屬層5(未標示於第6f圖中)會從穿孔601之後端穿進內套筒60之穿孔601之前端,其中金屬線1延伸至螺帽44之螺紋部644所構成之空間內。接著,利用工具徑向地施壓外套筒62,使外套筒62向內變形頂壓同軸電纜之塑膠皮層9,藉以固定該同軸電纜。When the coaxial cable is mounted on the coaxial cable connector, the braided layer 7 of the coaxial cable and the plastic skin layer 9 are pressed to form between the rear end portion 608 of the inner sleeve 60 and the rear end portion 624 of the outer sleeve 62. In the gap, at this time, part of the braid layer 7 will overturn the outer surface of the part of the plastic skin layer 9 and the metal wire 1, the insulating layer 3 and the thin metal layer 5 of the coaxial cable (not shown in Fig. 6f). From the rear end of the perforation 601, the front end of the perforation 601 of the inner sleeve 60 is inserted, wherein the wire 1 extends into the space formed by the threaded portion 644 of the nut 44. Next, the outer sleeve 62 is radially pressed by the tool, and the outer sleeve 62 is deformed inwardly to press the plastic skin layer 9 of the coaxial cable to fix the coaxial cable.

安裝同軸電纜連接器至一接頭500,此接頭500可設置在一電子裝置上,或是一延長同軸電纜之中間轉接頭,或是一T型或F型之轉接頭,其中組裝步驟,請參閱第6g圖及第6h圖所示,此接頭500具有一螺紋部502,使同軸電纜中心的金屬線1穿進接頭500內,接著旋轉螺帽64使同軸電纜連接器之內套筒60的外凸緣604慢慢接近接頭500,此時螺帽64之內凸緣646因金屬片642之彈力壓迫,使螺帽64與接頭500的接合過程之中,使螺帽64之內凸緣646一直與內套筒60的外凸緣604接觸,其中螺帽64與接頭500接合過程至接合完成,金屬片642與外套筒62徑向方向之間的一夾角e不會改變,螺帽64之內凸緣646持續與內套筒60的外凸緣604接觸,形成良好電性連接之途徑,使同軸電纜連接器在使用時不小心拉扯導致螺帽44與接頭500未緊迫連接時,仍可提供良好的接地(ground)電性連接,進而確保信號傳遞品質。Mounting the coaxial cable connector to a connector 500, the connector 500 can be disposed on an electronic device, or an intermediate adapter of an extended coaxial cable, or a T-type or F-type adapter, wherein the assembly step, Referring to Figures 6g and 6h, the connector 500 has a threaded portion 502 for threading the wire 1 at the center of the coaxial cable into the connector 500, and then rotating the nut 64 to the sleeve 60 of the coaxial cable connector. The outer flange 604 slowly approaches the joint 500. At this time, the inner flange 646 of the nut 64 is pressed by the elastic force of the metal piece 642, so that the inner flange of the nut 64 is engaged during the engagement of the nut 64 with the joint 500. 646 is always in contact with the outer flange 604 of the inner sleeve 60, wherein the engagement of the nut 64 with the joint 500 is completed, and an angle e between the radial direction of the metal piece 642 and the outer sleeve 62 does not change, the nut The flange 646 continues to contact the outer flange 604 of the inner sleeve 60 within 64 to form a good electrical connection such that the coaxial cable connector is inadvertently pulled during use causing the nut 44 and the joint 500 not to be tightly connected. Still provide a good ground electrical connection to ensure signal transmission Quality.

請參閱第6i圖及第6j圖所示,本實施例上述之外套筒62材質為金屬,然熟知本領域之使用者也可利用一非金屬材質或非導電材質之外套筒66取代金屬材質的外套筒62,此外套筒66具有一第一金屬環19、一第二金屬環662、非金屬材質或非導電材質之外套筒本體664、一內凸緣665、一穿孔666、一可形變部661、一凹槽667及一後端延伸部668,此第二金屬環662是設置在外套筒本體664之內凸緣665上並曝露一側面,且第二金屬環662之下表面曝露在穿孔628之中,此第二金屬環662之材質例如是銅、鐡、銀、鎳、錫、金、銅金合金、銅錫合金、銅鎳合金或其它導電性良好之聚合物或非金屬類之導體等,此第二金屬環662表面也可電鍍、無電電鍍或覆蓋上一層防鏽金屬層,其材質包括一銅、鐡、銀、鎳、錫、金、銅金合金、銅錫合金、銅鎳合金或其它導電性良好之聚合物或非金屬類之導體等。Referring to FIGS. 6i and 6j, the outer sleeve 62 of the present embodiment is made of metal. However, users skilled in the art can also replace the metal with a sleeve 66 other than a non-metallic material or a non-conductive material. The outer sleeve 62 of the material, in addition, the sleeve 66 has a first metal ring 19, a second metal ring 662, a non-metallic material or a non-conductive material, a sleeve body 664, an inner flange 665, a perforation 666, a deformable portion 661, a recess 667 and a rear end extension 668. The second metal ring 662 is disposed on the inner flange 665 of the outer sleeve body 664 and exposes a side surface and is under the second metal ring 662. The surface is exposed in the perforation 628. The material of the second metal ring 662 is, for example, copper, bismuth, silver, nickel, tin, gold, copper-gold alloy, copper-tin alloy, copper-nickel alloy or other polymer with good conductivity or Non-metallic conductors, etc., the surface of the second metal ring 662 can also be electroplated, electrolessly plated or covered with a layer of anti-rust metal, the material of which includes a copper, bismuth, silver, nickel, tin, gold, copper alloy, copper Tin alloy, copper-nickel alloy or other polymer or non-metal with good conductivity The conductor and so on.

本實施例之內套筒60具有一穿孔601、一外凸緣604、一第一表面605、一第二表面607及一後端延伸部608,此同軸電纜連接器組裝方式係將第一金屬環19裝設至外套筒66上,其中裝設的方式請參閱第一實施之說明,外套筒66裝設金屬環19後,將內套筒64之後端延伸部608穿過螺帽64之穿孔641,並使內凸緣646套在內套筒60之第一表面605之外圍,接著將後端延伸部608穿過外套筒66之穿孔666,並使外套筒66之內凸緣665套接在第二表面607上,且以緊配合的方式將內凸緣665緊密的卡合在第二表面607上,此時後端延伸部608與後端延伸部668之間形成環狀空心且呈同心環繞關係。另外組裝完成時會因金屬片642之彈力抵住第二金屬環662,進而使螺帽64抵觸內套筒60之外凸緣604,同時螺帽64之內凸緣646可在內套筒60與外套筒62之間自由旋轉,但因金屬片642之彈力限制螺帽64之軸向移動。The inner sleeve 60 of the embodiment has a through hole 601, an outer flange 604, a first surface 605, a second surface 607 and a rear end extension 608. The coaxial cable connector is assembled in a first metal. The ring 19 is mounted to the outer sleeve 66. The manner of mounting is described in the first embodiment. After the outer sleeve 66 is provided with the metal ring 19, the inner sleeve 64 rear end extension 608 is passed through the nut 64. The perforations 641 and the inner flange 646 are placed around the outer surface 605 of the inner sleeve 60, and then the rear end extension 608 is passed through the perforations 666 of the outer sleeve 66 and the inner sleeve 66 is convex. The edge 665 is sleeved on the second surface 607, and the inner flange 665 is tightly engaged on the second surface 607 in a tight fit manner, and a loop is formed between the rear end extension 608 and the rear end extension 668. Hollow and concentric. In addition, when the assembly is completed, the elastic force of the metal piece 642 is against the second metal ring 662, so that the nut 64 is in contact with the outer flange 604 of the inner sleeve 60, and the inner flange 646 of the nut 64 can be the inner sleeve 60. Free rotation with the outer sleeve 62, but the axial movement of the nut 64 is restricted by the elastic force of the metal piece 642.

當同軸電纜裝設在同軸電纜連接器時,同軸電纜之編織層7及塑膠皮層9會被擠壓至內套筒60之後端延伸部608與外套筒66之後端延伸部668之間所形成之間隙內,此時部分之編織層7會外翻包覆部分之塑膠皮層9之外表面,而同軸電纜之金屬線1、絶緣層3及薄金屬層5(未標示於第6j圖中)會從穿孔601之後端穿進內套筒60之穿孔601之前端,其中金屬線1延伸至螺帽64之螺紋部644所構成之空間內。接著,將金屬環19軸向地往後移動,使外套筒66之可形變部661向內變形頂壓同軸電纜之塑膠皮層9,藉以固定該同軸電纜,此時金屬環19之後端會頂靠外套筒66之一階梯狀部分669,此階梯狀部分669即為在可形變部661尚未形變前凹槽667靠近後端之側壁。When the coaxial cable is installed in the coaxial cable connector, the braided layer 7 of the coaxial cable and the plastic skin layer 9 are pressed to form between the rear end portion 608 of the inner sleeve 60 and the rear end portion 668 of the outer sleeve 66. In the gap, at this time, part of the woven layer 7 will overturn the outer surface of the part of the plastic skin layer 9 and the metal wire 1, the insulating layer 3 and the thin metal layer 5 of the coaxial cable (not shown in Fig. 6j) From the rear end of the perforation 601, it is threaded into the front end of the perforation 601 of the inner sleeve 60, wherein the wire 1 extends into the space formed by the threaded portion 644 of the nut 64. Then, the metal ring 19 is moved axially backward, so that the deformable portion 661 of the outer sleeve 66 is deformed inwardly to press the plastic skin layer 9 of the coaxial cable, thereby fixing the coaxial cable, and the metal ring 19 is at the rear end. By a stepped portion 669 of the outer sleeve 66, the stepped portion 669 is the side wall of the recess 667 near the rear end before the deformable portion 661 has been deformed.

因此本實施例之軸電纜連接器20與接頭500接合後,藉由金屬片642之彈力抵住第二金屬環662,同時使螺帽64之內凸緣646持續與內套筒60的外凸緣604接觸,形成良好電性連接之途徑,使同軸電纜連接器在使用時不小心拉扯導致螺帽64與接頭500未緊迫連接時,仍可提供良好的接地(ground)電性連接,進而確保信號傳遞品質。Therefore, after the shaft cable connector 20 of the embodiment is engaged with the joint 500, the elastic force of the metal piece 642 is pressed against the second metal ring 662 while the inner flange 646 of the nut 64 continues to be convex with the inner sleeve 60. The edge 604 contacts, forming a good electrical connection, so that the coaxial cable connector is inadvertently pulled during use, so that the nut 64 and the connector 500 are not tightly connected, and still provide a good ground electrical connection, thereby ensuring Signal transmission quality.

第六實施例:Sixth embodiment:

請參閱第7a圖、第7b圖、第7c圖及第7d圖所示,其依序為第六實施例之同軸電纜連接器剖面圖、同軸電纜連接器分解剖面圖、螺帽之4/3開口立體圖及螺帽之前視圖。此同軸電纜連接器包括同軸向之一內套筒90、一外套筒92、一螺帽94及一金屬環19,其中內套筒90及外套筒92係以同軸方式接納如第1圖所示之同軸電纜,內套筒90、螺帽94及金屬環19之材質為導電材質,例如是銅、鐡、銀、鎳、錫、金、銅金合金、銅錫合金、銅鎳合金或其它導電性良好之聚合物或非金屬類之導體等,內套筒90、螺帽94及金屬環19之表面可電鍍、無電電鍍或覆蓋上一層防鏽金屬層,其材質包括一銅、鐡、銀、鎳、錫、金、銅金合金、銅錫合金、銅鎳合金或其它導電性良好之聚合物或非金屬類之導體等,其中螺帽94的型式為六角螺帽、方型螺帽、環型螺帽、翼型螺帽等任何型式之螺帽,可用扳手或其他工具將連接器鎖在電子裝置上,本實施例之外套筒92例如為塑膠材質、有機聚合物,但也可替換成金屬材質,例如是銅、鐡、銀、鎳、錫、金、銅金合金、銅錫合金、銅鎳合金或其它導電性良好之聚合物或非金屬類之導體等。Please refer to FIG. 7a, FIG. 7b, FIG. 7c and FIG. 7d, which are a cross-sectional view of the coaxial cable connector of the sixth embodiment, an exploded sectional view of the coaxial cable connector, and 4/3 of the nut. Open perspective view and front view of the nut. The coaxial cable connector includes an inner sleeve 90, an outer sleeve 92, a nut 94 and a metal ring 19, wherein the inner sleeve 90 and the outer sleeve 92 are coaxially received as shown in FIG. The coaxial cable shown, the inner sleeve 90, the nut 94 and the metal ring 19 are made of a conductive material such as copper, tantalum, silver, nickel, tin, gold, copper-gold alloy, copper-tin alloy, copper-nickel alloy or Other conductive or non-metallic conductors, etc., the surface of the inner sleeve 90, the nut 94 and the metal ring 19 may be electroplated, electrolessly plated or covered with a layer of anti-rust metal, the material of which includes a copper and tantalum. , silver, nickel, tin, gold, copper-gold alloy, copper-tin alloy, copper-nickel alloy or other conductive polymer or non-metallic conductor, etc., wherein the nut 94 is of the type of hexagonal nut, square snail Any type of nut such as a cap, a ring nut, a wing nut, or the like can be locked to the electronic device by a wrench or other tools. The sleeve 92 is made of a plastic material or an organic polymer, for example, but Can also be replaced with metal materials, such as copper, tantalum, silver, nickel, tin, gold, Gold alloy, copper-tin alloy, copper-nickel alloy, or other well-conducting polymer or of the non-metal conductor or the like.

本實施例之內套筒90具有一穿孔901、一外凸緣904、一第一表面906、一第二表面907及一後端延伸部908,其中第二表面907位在第一表面906與外凸緣904之間。本實施例之外套筒92具有一穿孔921、一內凸緣922、可形變部925、凹槽927及一後端延伸部924。本實施例之螺帽94具有一螺帽本體940及一金屬片942,此金屬片942具有一圓環部9421及四個凹折部9422,此螺帽本體940與金屬片942一體成型,此螺帽本體940具有一穿孔941、一螺紋部944及一內凸緣946,此圓環部9421之外環部分接合內凸緣946下(內)表面上並位於內凸緣946前端,且圓環部9421之內環部分徑向地接合每一凹折部9422,每二凹折部9422在一圓周方向上係相互分離一角度,此角度係介於30度至75度之間之間或介於45度至90度之間,同軸電纜連接器組裝之前此四個凹折部9422與圓環部9421共平面。另外金屬片942之厚度例如介於0.1至1.5毫米(mm)之間、0.3至2毫米之間及0.5至3毫米之間。The inner sleeve 90 of the embodiment has a through hole 901, an outer flange 904, a first surface 906, a second surface 907 and a rear end extension 908, wherein the second surface 907 is located on the first surface 906. Between the outer flanges 904. The sleeve 92 of the present embodiment has a through hole 921, an inner flange 922, a deformable portion 925, a groove 927, and a rear end extension portion 924. The nut 94 of the embodiment has a nut body 940 and a metal piece 942. The metal piece 942 has a circular portion 9421 and four concave portions 9422. The nut body 940 is integrally formed with the metal piece 942. The nut body 940 has a through hole 941, a threaded portion 944 and an inner flange 946. The outer ring portion of the annular portion 9421 engages the lower (inner) surface of the inner flange 946 and is located at the front end of the inner flange 946, and is rounded. The inner ring portion of the ring portion 9421 radially engages each of the concave portions 9422, and each of the two concave portions 9422 is separated from each other by an angle in a circumferential direction, the angle being between 30 degrees and 75 degrees or Between 45 degrees and 90 degrees, the four concave folds 9422 are coplanar with the annular portion 9421 prior to assembly of the coaxial cable connector. Further, the thickness of the metal piece 942 is, for example, between 0.1 and 1.5 millimeters (mm), between 0.3 and 2 mm, and between 0.5 and 3 mm.

本實施例之凹折部9422數量可為四片,但是凹折部9422數量也可為二片或三片以上,例如凹折部9422數量為三片時,請參閱第7e圖所示,金屬片942之圓環部9421係環設在內凸緣946下(內)表面上,且每一凹折部9422係徑向地設置在圓環部9421上,每一凹折部9422之間之夾角大約120度。若凹折部9422數量為二片時,請參閱第7f圖所示,金屬片942之圓環部9421係環設在內凸緣946下表面上,且每一凹折部9422係徑向地設置在圓環部9421上且位在內套筒90相對之兩側,此二凹折部9422之間之夾角大約180度。The number of the concave folds 9422 in this embodiment may be four, but the number of the concave folds 9422 may be two or more. For example, when the number of the concave folds 9422 is three, refer to the metal shown in Fig. 7e. The annular portion 9421 of the piece 942 is looped on the inner (inner) surface of the inner flange 946, and each concave portion 9422 is radially disposed on the annular portion 9421, and between each concave portion 9422 The angle is about 120 degrees. If the number of the concave portions 9422 is two, as shown in FIG. 7f, the annular portion 9421 of the metal piece 942 is looped on the lower surface of the inner flange 946, and each concave portion 9422 is radially It is disposed on the annular portion 9421 and is located on opposite sides of the inner sleeve 90. The angle between the two concave portions 9422 is about 180 degrees.

另外,本實施例金屬片942之圓環部9421可以省略,凹折部9422之一端直接接合內凸緣946下(內)表面上並位於內凸緣946前端,此凹折部9422數量為三片時,請參閱第7g圖所示,且每一凹折部9422係徑向地設置在內凸緣946下(內)表面上,每一凹折部9422之間之夾角大約介於60度至150度之間之間或介於45度至120度之間。若凹折部9422數量為二片時,請參閱第7h圖所示,且每一凹折部9422係徑向地設置在內凸緣946下(內)表面上且位在內套筒90相對之兩側,此二凹折部9422之間之夾角大約介於90度至180度之間之間或介於45度至120度之間。In addition, the annular portion 9421 of the metal piece 942 of the present embodiment may be omitted, and one end of the concave folded portion 9422 directly engages the lower (inner) surface of the inner flange 946 and is located at the front end of the inner flange 946. The number of the concave folded portions 9422 is three. For the sheet, please refer to the figure 7g, and each concave portion 9422 is radially disposed on the lower (inner) surface of the inner flange 946, and the angle between each concave portion 9422 is about 60 degrees. Between 150 degrees or between 45 degrees and 120 degrees. If the number of the concave folds 9422 is two, please refer to the figure 7h, and each concave portion 9422 is radially disposed on the lower (inner) surface of the inner flange 946 and is located opposite the inner sleeve 90. On both sides, the angle between the two concave portions 9422 is approximately between 90 degrees and 180 degrees or between 45 degrees and 120 degrees.

請同時參閱第7i圖所示,本實施例之組裝方式係將金屬環19套在外套筒92之外圍,其中金屬環19之側壁靠近中後段處之內表面係呈一傾斜面,使得金屬環19之插孔靠近中後段處愈往後方孔徑係逐漸變大,其中金屬環19之傾斜面與金屬環之一軸向方向之間呈一第一傾斜角,該第一傾斜角例如介於5度至45度,外套筒92包括具有一傾斜面之一可形變部925,可形變部925之傾斜面與外套筒92之一軸向方向之間呈一第二傾斜角,該第二傾斜角例如介於5度至45度。另外,在可形變部925之傾斜面的後側設有一凹槽927,環繞在外套筒92上,藉以使可形變部925易於形變。此時,金屬環19之傾斜面係頂靠可形變部925之傾斜面。接著將內套筒90之後端延伸部908穿過螺帽94之穿孔941,並使內凸緣946套在內套筒90之表面906之外圍,此內凸緣946與內套筒之一軸向延伸表面之間的間距為0.03公分至0.1公分或0.05公分至0.2公分,在此組裝步驟,金屬片942之四個凹折部9422會徑向且朝著內凸緣946表面之方向凹折,其中每一凹折部9422與螺帽94之一徑向方向之間的一夾角i為一銳角,且金屬片942往遠離內凸緣946之方向傾斜,此夾角e例如介於30度至90度之間、40度至80度之間及50度至85度之間,此時凹折部9422係從圓環部9421往遠離外凸緣904之方向凹折並抵觸內套筒90的第二表面907上,此時圓環部9421與凹折部9422之夾角介於90度至120度之間或100度至150度之間。接著將後端延伸部908穿過外套筒92之穿孔921,並使外套筒92之內凸緣922套接在表面906上,且以緊配合的方式將內凸緣922緊密的卡合在表面906上,此時後端延伸部908與後端延伸部924之間形成環狀空心且呈同心環繞關係。另外組裝完成時會因金屬片942之凹折部9422產生之彈力抵住內套筒90之表面906,同時螺帽94之內凸緣946可在內套筒90與外套筒92之間自由旋轉,透過凹折部9422可以使螺帽94與內套筒90保持電性連接,亦即電性接地。Referring to FIG. 7i at the same time, the assembly method of the embodiment is to lay the metal ring 19 around the outer sleeve 92, wherein the inner surface of the metal ring 19 near the middle rear portion has an inclined surface, so that the metal ring The hole of the 19 is gradually enlarged toward the rear of the middle and rear sections, wherein the inclined surface of the metal ring 19 and the axial direction of one of the metal rings have a first inclination angle, and the first inclination angle is, for example, 5 The outer sleeve 92 includes a deformable portion 925 having an inclined surface, and the inclined surface of the deformable portion 925 and the axial direction of the outer sleeve 92 have a second inclination angle, the second The tilt angle is, for example, between 5 and 45 degrees. Further, a groove 927 is provided on the rear side of the inclined surface of the deformable portion 925 so as to surround the outer sleeve 92, whereby the deformable portion 925 is easily deformed. At this time, the inclined surface of the metal ring 19 abuts against the inclined surface of the deformable portion 925. The inner sleeve 90 rear end extension 908 is then passed through the perforation 941 of the nut 94 and the inner flange 946 is placed around the outer surface 906 of the inner sleeve 90. The distance between the extending surfaces is 0.03 cm to 0.1 cm or 0.05 cm to 0.2 cm. In this assembly step, the four concave portions 9422 of the metal piece 942 are concavely and radially in the direction of the surface of the inner flange 946. An angle i between each concave portion 9422 and one of the radial directions of the nut 94 is an acute angle, and the metal piece 942 is inclined away from the inner flange 946, and the angle e is, for example, 30 degrees to Between 90 degrees, between 40 degrees and 80 degrees, and between 50 degrees and 85 degrees, at this time, the concave portion 9422 is concavely folded from the annular portion 9421 in a direction away from the outer flange 904 and is in contact with the inner sleeve 90. On the second surface 907, the angle between the annular portion 9421 and the concave portion 9422 is between 90 degrees and 120 degrees or between 100 degrees and 150 degrees. The rear end extension 908 is then passed through the perforation 921 of the outer sleeve 92 and the inner flange 922 of the outer sleeve 92 is overlaid on the surface 906 and the inner flange 922 is tightly engaged in a tight fit. On the surface 906, at this time, the rear end extension 908 and the rear end extension 924 form an annular hollow and have a concentric wrap relationship. In addition, when the assembly is completed, the elastic force generated by the concave portion 9422 of the metal piece 942 is against the surface 906 of the inner sleeve 90, and the inner flange 946 of the nut 94 is free between the inner sleeve 90 and the outer sleeve 92. Rotating, through the concave fold portion 9422, the nut 94 and the inner sleeve 90 can be electrically connected, that is, electrically grounded.

當同軸電纜裝設在同軸電纜連接器時,同軸電纜之編織層7及塑膠皮層9會被擠壓至內套筒90之後端延伸部908與外套筒92之後端延伸部924之間所形成之間隙內,此時部分之編織層7會外翻包覆部分之塑膠皮層9之外表面,而同軸電纜之金屬線1、絶緣層3及薄金屬層5(未標示於第7g圖中)會從穿孔901之後端穿進內套筒90之穿孔901之前端,其中金屬線1延伸至螺帽94之螺紋部944所構成之空間內。接著,將金屬環19軸向地往後移動,使外套筒92之可形變部925向內變形頂壓同軸電纜之塑膠皮層9,藉以固定該同軸電纜,此時金屬環19之後端會頂靠外套筒92之一階梯狀部分929,此階梯狀部分929即為在可形變部925尚未形變前凹槽927靠近後端之側壁。When the coaxial cable is mounted on the coaxial cable connector, the braided layer 7 of the coaxial cable and the plastic skin layer 9 are pressed to form between the rear end portion 908 of the inner sleeve 90 and the rear end portion 924 of the outer sleeve 92. In the gap, at this time, part of the braid layer 7 will overturn the outer surface of the part of the plastic skin layer 9, and the metal wire 1, the insulating layer 3 and the thin metal layer 5 of the coaxial cable (not shown in the figure 7g) From the rear end of the perforation 901, it is threaded into the front end of the perforation 901 of the inner sleeve 90, wherein the wire 1 extends into the space formed by the threaded portion 944 of the nut 94. Then, the metal ring 19 is moved axially backward, so that the deformable portion 925 of the outer sleeve 92 is deformed inwardly to press the plastic skin layer 9 of the coaxial cable, thereby fixing the coaxial cable, and the metal ring 19 is at the rear end. By a stepped portion 929 of the outer sleeve 92, the stepped portion 929 is the side wall of the recess 927 near the rear end before the deformable portion 925 has been deformed.

安裝同軸電纜連接器至一接頭500,此接頭500可設置在一電子裝置上,或是一延長同軸電纜之中間轉接頭,或是一T型或F型之轉接頭,其中組裝步驟,請參閱第7j圖及第7k圖所示,此接頭500具有一螺紋部502,使同軸電纜中心的金屬線1穿進接頭500內,接著旋轉螺帽94使同軸電纜連接器與接頭500鎖合固定,此鎖合過程之中,藉由螺帽74之金屬片942的凹折部9422所產生之彈力抵住內套筒90之表面906,使螺帽74與內套筒90在鎖合過程中一直保持電性連接,使同軸電纜連接器在使用時不小心拉扯導致螺帽94與接頭500未緊迫連接時,仍可提供良好的接地(ground)電性連接途徑,進而確保信號傳遞品質。Mounting the coaxial cable connector to a connector 500, the connector 500 can be disposed on an electronic device, or an intermediate adapter of an extended coaxial cable, or a T-type or F-type adapter, wherein the assembly step, Referring to Figures 7j and 7k, the connector 500 has a threaded portion 502 for threading the wire 1 in the center of the coaxial cable into the connector 500, and then rotating the nut 94 to engage the coaxial cable connector with the connector 500. During the locking process, the elastic force generated by the concave portion 9422 of the metal piece 942 of the nut 74 abuts against the surface 906 of the inner sleeve 90, so that the nut 74 and the inner sleeve 90 are in the locking process. The electrical connection is always maintained, so that the coaxial cable connector is inadvertently pulled during use, and the nut 94 and the connector 500 are not tightly connected, and a good ground connection is provided, thereby ensuring signal transmission quality.

第七實施例:Seventh embodiment:

請參閱第8a圖、第8b圖及第8c圖所示,其依序為第七實施例之同軸電纜連接器剖面圖、同軸電纜連接器分解剖面圖及內套筒之立體圖。此同軸電纜連接器包括同軸向之一內套筒70、一外套筒72、一螺帽74及一金屬環19,其中內套筒70及外套筒72係以同軸配置方式容納如第1圖所示之同軸電纜,內套筒70、螺帽74及金屬環19之材質為導電材質,例如是銅、鐡、銀、鎳、錫、金、銅金合金、銅錫合金、銅鎳合金或其它導電性良好之聚合物或非金屬類之導體等,內套筒70、螺帽74及金屬環19之表面可電鍍、無電電鍍或覆蓋上一層防鏽金屬層,其材質包括一銅、鐡、銀、鎳、錫、金、銅金合金、銅錫合金、銅鎳合金或其它導電性良好之聚合物或非金屬類之導體等,其中螺帽74的型式為六角螺帽、方型螺帽、環型螺帽、翼型螺帽等任何型式之螺帽,可用扳手或其他工具將連接器鎖在電子裝置上,本實施例之外套筒72例如為塑膠材質、有機聚合物,但也可替換成金屬材質,例如是銅、鐡、銀、鎳、錫、金、銅金合金、銅錫合金、銅鎳合金或其它導電性良好之聚合物或非金屬類之導體等。Please refer to FIGS. 8a, 8b and 8c, which are a cross-sectional view of the coaxial cable connector of the seventh embodiment, an exploded cross-sectional view of the coaxial cable connector, and a perspective view of the inner sleeve. The coaxial cable connector includes an inner sleeve 70, an outer sleeve 72, a nut 74 and a metal ring 19, wherein the inner sleeve 70 and the outer sleeve 72 are accommodated in a coaxial configuration as in the first The coaxial cable shown in the figure, the inner sleeve 70, the nut 74 and the metal ring 19 are made of a conductive material, such as copper, bismuth, silver, nickel, tin, gold, copper alloy, copper tin alloy, copper nickel alloy. Or other conductive polymer or non-metal conductor, etc., the surface of the inner sleeve 70, the nut 74 and the metal ring 19 can be electroplated, electrolessly plated or covered with a layer of anti-rust metal, the material of which comprises a copper,鐡, silver, nickel, tin, gold, copper-gold alloy, copper-tin alloy, copper-nickel alloy or other conductive polymer or non-metallic conductor, etc., wherein the nut 74 is of the type of hexagonal nut, square For any type of nut such as a nut, a ring nut, or a wing nut, the connector can be locked to the electronic device by a wrench or other tools. The sleeve 72 is made of a plastic material or an organic polymer. But it can also be replaced with a metal material such as copper, bismuth, silver, nickel, tin, , Copper-gold alloy, copper-tin alloy, copper-nickel alloy, or other well-conducting polymer or of the non-metal conductor or the like.

請參閱第8b圖及第8c圖所示,本實施例之內套筒70具有一內套筒本體700及二第一金屬片702及二第二金屬片703,此內套筒本體700與第一金屬片702及第二金屬片703一體成型,此內套筒本體700具有一穿孔701、一第一外凸緣704、一第一溝槽706、一第二溝槽708、一第二外凸緣710、一第三外凸緣712、一第一表面714、一第一表面716及一後端延伸部718,其中第一溝槽706位於第一外凸緣704與第一金屬片702之間、第二溝槽708位於第一金屬片702與第二外凸緣710之間、第二表面716位於第二外凸緣710與第三外凸緣712之間,第一表面714為第二外凸緣710表面且位於第二溝槽708與第二表面716之間。且每一第一金屬片702係兩末端連接內套筒本體700,每一金屬片702係往遠離第一外凸緣704之方向凹折,每一第一金屬片702之外徑的弧度例如介於120度至180度之間。其中二第二金屬片703係位在第一外凸緣704前端。Referring to FIGS. 8b and 8c, the inner sleeve 70 of the embodiment has an inner sleeve body 700 and two first metal sheets 702 and two second metal sheets 703. The inner sleeve body 700 and the first sleeve body A metal piece 702 and a second metal piece 703 are integrally formed. The inner sleeve body 700 has a through hole 701, a first outer flange 704, a first groove 706, a second groove 708, and a second outer portion. a flange 710, a third outer flange 712, a first surface 714, a first surface 716 and a rear end extension 718, wherein the first groove 706 is located at the first outer flange 704 and the first metal piece 702 Between the first metal sheet 702 and the second outer flange 710, the second surface 716 is located between the second outer flange 710 and the third outer flange 712. The first surface 714 is The second outer flange 710 is surfaced and located between the second trench 708 and the second surface 716. And each of the first metal pieces 702 is connected to the inner sleeve body 700 at both ends, and each of the metal pieces 702 is concavely folded away from the first outer flange 704, and the outer diameter of each of the first metal pieces 702 is, for example, Between 120 degrees and 180 degrees. Two of the second metal pieces 703 are fastened to the front end of the first outer flange 704.

第一金屬片702與內套筒70之一徑向方向之間的一夾角f為一銳角,此夾角f例如介於10度至40度之間、15度至60度之間及20度至80度之間,第一金屬片702係往第二外凸緣710之方向傾斜。另外第一金屬片702之厚度例如介於0.1至1.5毫米(mm)之間、0.3至2毫米之間及0.5至3毫米之間,而第一溝槽706在內套筒700之徑向方向上由內而外地逐漸變寬,第二溝槽708在內套筒700之徑向方向上由內而外地逐漸變窄,第一溝槽706之最小寛度(位於第一溝槽706之底部)例如介於0.1至1毫米(mm)之間、0.3至1.5毫米之間及0.5至2毫米之間,第二溝槽708之最大寛度(位於第二溝槽106之頂部)例如介於0.1至1毫米(mm)之間、0.3至1.5毫米之間及0.5至2毫米之間,而第一溝槽706之深度例如介於0.5至2毫米(mm)之間,第二溝槽708之深度例如介於0.25至1毫米(mm)之間,第一金屬片702之頂端到內套筒700之一軸線間的一徑向距離大致上等於或小於第一外凸緣704之外徑表面到內套筒700之該軸線間的一徑向距離,但大於第二外凸緣710之第二表面716到內套筒700之該軸線間的一徑向距離。An angle f between the first metal piece 702 and one of the radial directions of the inner sleeve 70 is an acute angle, and the angle f is, for example, between 10 degrees and 40 degrees, between 15 degrees and 60 degrees, and 20 degrees to Between 80 degrees, the first metal piece 702 is inclined toward the second outer flange 710. Further, the thickness of the first metal piece 702 is, for example, between 0.1 and 1.5 millimeters (mm), between 0.3 and 2 millimeters, and between 0.5 and 3 millimeters, and the first groove 706 is in the radial direction of the inner sleeve 700. The upper portion is gradually widened from the inside to the outside, and the second groove 708 is gradually narrowed from the inside to the outside in the radial direction of the inner sleeve 700, and the minimum width of the first groove 706 is located at the bottom of the first groove 706. For example between 0.1 and 1 millimeter (mm), between 0.3 and 1.5 mm and between 0.5 and 2 mm, the maximum twist of the second trench 708 (located at the top of the second trench 106) is for example between Between 0.1 and 1 millimeter (mm), between 0.3 and 1.5 millimeters, and between 0.5 and 2 millimeters, and the depth of the first trench 706 is, for example, between 0.5 and 2 millimeters (mm), the second trench 708 The depth is, for example, between 0.25 and 1 millimeter (mm), and a radial distance between the tip of the first metal piece 702 and one of the axes of the inner sleeve 700 is substantially equal to or smaller than the outer diameter of the first outer flange 704. A radial distance from the surface to the axis of the inner sleeve 700 is greater than a radial distance between the second surface 716 of the second outer flange 710 to the axis of the inner sleeve 700.

而每一第二金屬片703係兩末端連接內套筒本體700,每一第二金屬片703係以對應之一凹折線7031為基準往遠離第一外凸緣704之方向凹折,每一第二金屬片703之外徑的弧度例如介於120度至180度之間。每一第二金屬片703與第一外凸緣704之間具有一缺口705,此缺口705徑向地切過內套筒70之一管壁,並隔開第二金屬片703之內徑與內套筒本體700及隔開第二金屬片703之外徑與內套筒本體700,且在垂直於凹折線7031之徑向方向上,隔開第二金屬片703之外徑與內套筒本體700之間的距離係大於隔開第二金屬片703之內徑與內套筒本體700之間的距離,亦即隔開第二金屬片703與內套筒本體700之間的距離係在徑向方向上由內而外地逐漸變寬。其中每一第二金屬片703與內套筒70之一徑向方向之間的一夾角g為一銳角,且第二金屬片703往遠離第一外凸緣704之方向傾斜,此夾角g例如介於20度至60度之間、30度至70度之間及45度至80度之間。另外第二金屬片703之厚度例如介於0.1至1.5毫米(mm)之間、0.3至2毫米之間及0.5至3毫米之間,另外此缺口705之探度係介於0.1至1.5毫米(mm)之間、0.3至2毫米之間及0.5至3毫米之間。Each of the second metal pieces 703 is connected to the inner sleeve body 700 at both ends, and each of the second metal pieces 703 is concavely folded away from the first outer flange 704 with respect to one of the concave fold lines 7031. The curvature of the outer diameter of the second metal piece 703 is, for example, between 120 degrees and 180 degrees. A gap 705 is defined between each of the second metal sheets 703 and the first outer flange 704. The notch 705 radially cuts through one of the inner sleeves 70 and separates the inner diameter of the second metal piece 703. The inner sleeve body 700 and the outer diameter of the second metal piece 703 are spaced apart from the inner sleeve body 700, and the outer diameter and the inner sleeve of the second metal piece 703 are spaced apart in a radial direction perpendicular to the concave fold line 7031. The distance between the bodies 700 is greater than the distance between the inner diameter of the second metal piece 703 and the inner sleeve body 700, that is, the distance between the second metal piece 703 and the inner sleeve body 700 is The radial direction gradually widens from the inside to the outside. An angle g between each of the second metal piece 703 and one of the radial directions of the inner sleeve 70 is an acute angle, and the second metal piece 703 is inclined away from the first outer flange 704. Between 20 degrees and 60 degrees, between 30 degrees and 70 degrees and between 45 degrees and 80 degrees. In addition, the thickness of the second metal piece 703 is, for example, between 0.1 and 1.5 millimeters (mm), between 0.3 and 2 millimeters, and between 0.5 and 3 millimeters, and the gap 705 is between 0.1 and 1.5 millimeters. Between mm, between 0.3 and 2 mm and between 0.5 and 3 mm.

本實施例之第一金屬片702數量可為二片,但是第一金屬片702數量也可為一片、三片或四片以上,例如第一金屬片702數量為四片時,請參閱第8d圖所示,每片第一金屬片702兩末端連接內套筒本體700,每一第一金屬片702係以一凹折線7021為基準往遠離第一外凸緣704之方向凹折,每一第一金屬片702之外徑的弧度例如介於50度至110度之間。若第一金屬片702數量為一片時,請參閱第8e圖所示,此第一金屬片702之形狀兩末端連接內套筒本體700,第一金屬片702係以一凹折線7021為基準往遠離第一外凸緣704之方向凹折,第一金屬片702之外徑的弧度例如介於150度至300度之間。The number of the first metal sheets 702 in this embodiment may be two, but the number of the first metal sheets 702 may also be one, three or four. For example, when the number of the first metal sheets 702 is four, please refer to the eighth. As shown, each end of the first metal piece 702 is connected to the inner sleeve body 700, and each of the first metal pieces 702 is concavely folded away from the first outer flange 704 with reference to a concave fold line 7021. The curvature of the outer diameter of the first metal piece 702 is, for example, between 50 degrees and 110 degrees. If the number of the first metal pieces 702 is one, as shown in FIG. 8e, the first metal piece 702 is connected to the inner sleeve body 700 at both ends, and the first metal piece 702 is based on a concave fold line 7021. The arc of the outer diameter of the first metal piece 702 is, for example, between 150 degrees and 300 degrees away from the direction of the first outer flange 704.

本實施例之第二金屬片703數量可為二片,但是第二金屬片703數量也可為一片、三片或四片以上,例如第二金屬片703數量為四片時,請參閱第8f圖所示,每片第二金屬片703兩末端連接內套筒本體700,每一第二金屬片703係以一凹折線7031為基準往遠離第一外凸緣704之方向凹折,每一第二金屬片703之外徑的弧度例如介於50度至110度之間。若第二金屬片703數量為一片時,請參閱第8g圖所示,此第二金屬片703之形狀兩末端連接內套筒本體700,第二金屬片703係以一凹折線7031為基準往遠離第一外凸緣704之方向凹折,第二金屬片703之外徑的弧度例如介於150度至300度之間。The number of the second metal sheets 703 in this embodiment may be two, but the number of the second metal sheets 703 may be one, three or four. For example, when the number of the second metal sheets 703 is four, please refer to the 8th. As shown, each end of the second metal piece 703 is connected to the inner sleeve body 700, and each of the second metal pieces 703 is concavely folded away from the first outer flange 704 with a concave fold line 7031 as a reference. The curvature of the outer diameter of the second metal piece 703 is, for example, between 50 degrees and 110 degrees. If the number of the second metal sheets 703 is one, as shown in FIG. 8g, the two ends of the second metal piece 703 are connected to the inner sleeve body 700, and the second metal piece 703 is based on a concave fold line 7031. The arc of the outer diameter of the second metal piece 703 is, for example, between 150 degrees and 300 degrees away from the direction of the first outer flange 704.

本實施例之外套筒72具有一穿孔721、一內凸緣722、可形變部725、凹槽727及一後端延伸部724。本實施例之螺帽74具有一穿孔741、一內凸緣742及一螺紋部744。後端延伸部724的內徑大於後端延伸部718之外徑,其中螺帽74的型式為六角螺帽、方型螺帽、環型螺帽、翼型螺帽等任何型式之螺帽,可用扳手或其他工具將連接器鎖在電子裝置上。The sleeve 72 of the present embodiment has a through hole 721, an inner flange 722, a deformable portion 725, a groove 727 and a rear end extension portion 724. The nut 74 of this embodiment has a through hole 741, an inner flange 742 and a threaded portion 744. The inner diameter of the rear end extension 724 is greater than the outer diameter of the rear end extension 718, wherein the nut 74 is of any type such as a hex nut, a square nut, a ring nut, an airfoil nut, and the like. The connector can be locked to the electronic device with a wrench or other tool.

請同時參閱第8h圖所示,本實施例之組裝方式係將金屬環19套在外套筒72之外圍,其中金屬環19之側壁靠近中後段處之內表面係呈一傾斜面,使得金屬環19之插孔靠近中後段處愈往後方孔徑係逐漸變大,其中金屬環19之傾斜面與金屬環之一軸向方向之間呈一第一傾斜角,該第一傾斜角例如介於5度至45度,外套筒72包括具有一傾斜面之一可形變部725,可形變部725之傾斜面與外套筒72之一軸向方向之間呈一第二傾斜角,該第二傾斜角例如介於5度至45度。另外,在可形變部725之傾斜面的後側設有一凹槽727,環繞在外套筒72上,藉以使可形變部725易於形變。此時,金屬環19之傾斜面係頂靠可形變部725之傾斜面。接著,將內套筒本體700之後端延伸部718穿過螺帽74之穿孔741,並使內凸緣742套在內套筒本體700之第一表面714之外圍,接著將後端延伸部718穿過外套筒72之穿孔721,並使外套筒72之內凸緣722套接在第二表面716上,且以緊配合的方式將內凸緣722緊密的卡合在第二表面716上及第二外凸緣710及第三外凸緣712之間,此時後端延伸部718與後端延伸部724之間形成環狀空心且呈同心環繞關係。另外在組裝完成時,會因第一金屬片702之彈力抵住螺帽74之內凸緣742,進而使螺帽74抵觸外套筒72之內凸緣722,同時螺帽74之內凸緣742可在內套筒70之第一外凸緣704與外套筒72之內凸緣722之間自由旋轉,且因第一金屬片702之彈力限制螺帽74之軸向移動,透過第一金屬片702可以使螺帽74與內套筒70保持電性連接,亦即電性接地。Please also refer to FIG. 8h. The assembly method of this embodiment is to lay the metal ring 19 around the outer sleeve 72. The inner surface of the side wall of the metal ring 19 near the middle and rear sections has an inclined surface, so that the metal ring The hole of the 19 is gradually enlarged toward the rear of the middle and rear sections, wherein the inclined surface of the metal ring 19 and the axial direction of one of the metal rings have a first inclination angle, and the first inclination angle is, for example, 5 The outer sleeve 72 includes a deformable portion 725 having an inclined surface, and the inclined surface of the deformable portion 725 and the axial direction of the outer sleeve 72 have a second inclination angle, the second The tilt angle is, for example, between 5 and 45 degrees. Further, a groove 727 is provided on the rear side of the inclined surface of the deformable portion 725 so as to surround the outer sleeve 72, whereby the deformable portion 725 is easily deformed. At this time, the inclined surface of the metal ring 19 abuts against the inclined surface of the deformable portion 725. Next, the inner sleeve body 700 rear end extension 718 is passed through the through hole 741 of the nut 74, and the inner flange 742 is fitted around the first surface 714 of the inner sleeve body 700, and then the rear end extension 718 is used. Through the through hole 721 of the outer sleeve 72, the inner flange 722 of the outer sleeve 72 is sleeved on the second surface 716, and the inner flange 722 is tightly engaged on the second surface 716 in a tight fit manner. Between the upper and second outer flanges 710 and the third outer flange 712, the rear end extension 718 and the rear end extension 724 form an annular hollow and are concentrically wrapped. In addition, when the assembly is completed, the elastic force of the first metal piece 702 is against the inner flange 742 of the nut 74, so that the nut 74 abuts the inner flange 722 of the outer sleeve 72, and the inner flange of the nut 74 742 is free to rotate between the first outer flange 704 of the inner sleeve 70 and the inner flange 722 of the outer sleeve 72, and the axial movement of the nut 74 by the elastic force of the first metal piece 702 passes through the first The metal piece 702 can maintain the nut 74 and the inner sleeve 70 electrically connected, that is, electrically grounded.

當同軸電纜裝設在同軸電纜連接器時,同軸電纜之編織層7及塑膠皮層9會被擠壓至內套筒70之後端延伸部718與外套筒72之後端延伸部724之間所形成之間隙內,此時部分之編織層7會外翻包覆部分之塑膠皮層9之外表面,而同軸電纜之金屬線1、絶緣層3及薄金屬層5(未標示於第2f圖中)會從穿孔701之後端穿進內套筒70之穿孔701之前端,其中金屬線1延伸至螺帽74之螺紋部744所構成之空間內。接著,將金屬環19軸向地往後移動,使外套筒72之可形變部725向內變形頂壓同軸電纜之塑膠皮層9,藉以固定該同軸電纜,此時金屬環19之後端會頂靠外套筒72之一階梯狀部分729,此階梯狀部分729即為在可形變部725尚未形變前凹槽727靠近後端之側壁。When the coaxial cable is mounted on the coaxial cable connector, the braided layer 7 of the coaxial cable and the plastic skin layer 9 are pressed to form between the rear end portion 718 of the inner sleeve 70 and the rear end portion 724 of the outer sleeve 72. In the gap, at this time, part of the braid layer 7 will overturn the outer surface of the covered plastic skin layer 9, and the metal wire 1, the insulating layer 3 and the thin metal layer 5 of the coaxial cable (not shown in the 2f figure) From the rear end of the perforation 701, it is threaded into the front end of the perforation 701 of the inner sleeve 70, wherein the wire 1 extends into the space formed by the threaded portion 744 of the nut 74. Then, the metal ring 19 is moved axially backward, so that the deformable portion 725 of the outer sleeve 72 is deformed inwardly to press the plastic skin layer 9 of the coaxial cable, thereby fixing the coaxial cable, and the metal ring 19 is at the rear end. By a stepped portion 729 of the outer sleeve 72, the stepped portion 729 is the side wall of the recess 727 near the rear end before the deformable portion 725 has been deformed.

安裝同軸電纜連接器至一接頭500,此接頭500可設置在一電子裝置上,或是一延長同軸電纜之中間轉接頭,或是一T型或F型之轉接頭,其中組裝步驟,請參閱第8i圖及第8j圖所示,此接頭500具有一螺紋部502,使同軸電纜中心的金屬線1穿進接頭500內,接著旋轉螺帽74使同軸電纜連接器之內套筒70的第一外凸緣704慢慢接近接頭500,此時螺帽74之內凸緣742因第一金屬片702之彈力壓迫,使螺帽74與接頭500的接合過程初期,螺帽74之內凸緣742一直與外套筒72的內凸緣722接觸,而此時位在第一外凸緣704前端的第二金屬片703會與螺紋部502之一端接觸,同時第二金屬片703由內而外延伸的方向與一徑向方向之間的一夾角b會逐漸縮小,另外接近接合完成時,第一金屬片702與內套筒70之徑向方向之間的一夾角a會逐漸的縮小,此時螺帽74之內凸緣742不再與外套筒72的內凸緣722接觸。在螺帽74與接頭500鎖緊接合完成時,第一金屬片702與內套筒70之徑向方向之間的夾角f變成0度,或者第一金屬片702甚至會往第一外凸緣704的方向傾斜,而接頭500表面會壓迫第二金屬片703,使第二金屬片703與內套筒70之徑向方向之間的夾角g變成幾近0度,並且第二金屬片703之一表面與接頭500表面貼合。所以安裝同軸電纜連接器至接頭500後,第一金屬片702與螺帽74之內凸緣742會一直保持接觸,形成良好電性連接之一途徑,而第二金屬片703也與接頭500之金屬表面一直保持接觸,形成良好電性連接之另一途徑,使同軸電纜連接器在使用時不小心拉扯導致螺帽74與接頭500未緊迫連接時,仍可提供二個良好的接地(ground)電性連接途徑,進而確保信號傳遞品質。Mounting the coaxial cable connector to a connector 500, the connector 500 can be disposed on an electronic device, or an intermediate adapter of an extended coaxial cable, or a T-type or F-type adapter, wherein the assembly step, Referring to FIGS. 8i and 8j, the connector 500 has a threaded portion 502 for threading the wire 1 at the center of the coaxial cable into the connector 500, and then rotating the nut 74 to the sleeve 70 of the coaxial cable connector. The first outer flange 704 is slowly approaching the joint 500. At this time, the inner flange 742 of the nut 74 is pressed by the elastic force of the first metal piece 702, so that the nut 74 and the joint 500 are engaged in the initial stage of the nut 74. The flange 742 is always in contact with the inner flange 722 of the outer sleeve 72, while the second metal piece 703 located at the front end of the first outer flange 704 is in contact with one end of the threaded portion 502 while the second metal piece 703 is An angle b between the direction of the inner and outer extension and a radial direction is gradually reduced, and when the engagement is completed, an angle a between the radial direction of the first metal piece 702 and the inner sleeve 70 is gradually increased. Zooming out, the inner flange 742 of the nut 74 is no longer in contact with the inner flange 722 of the outer sleeve 72. When the nut 74 is engaged with the joint 500, the angle f between the radial direction of the first metal piece 702 and the inner sleeve 70 becomes 0 degrees, or the first metal piece 702 may even go to the first outer flange. The direction of the 704 is inclined, and the surface of the joint 500 presses the second metal piece 703 such that the angle g between the radial direction of the second metal piece 703 and the inner sleeve 70 becomes nearly 0 degrees, and the second metal piece 703 A surface conforms to the surface of the joint 500. Therefore, after the coaxial cable connector is installed to the connector 500, the first metal piece 702 and the inner flange 742 of the nut 74 are kept in contact at all times to form a good electrical connection, and the second metal piece 703 is also connected to the joint 500. The metal surface remains in contact at all times, forming another way of making a good electrical connection, allowing the coaxial cable connector to be pulled inadvertently during use, resulting in two good grounds when the nut 74 is not tightly coupled to the connector 500. Electrical connection to ensure signal transmission quality.

第八實施例:Eighth embodiment:

請參閱第9a圖所示,其係為接頭500之剖面圖,此接頭500之一第一端部501連接或配置在一電子裝置上及一第二端部503連接一同軸電纜連接器,或者此接頭500是一延長同軸電纜之一中間轉接頭,或是一T型或F型之轉接頭,第一端部501與第二端部503之間具有一螺紋部502,且二金屬片504設置在第二端部503,此金屬片504與接頭500為一體成型,每一金屬片504係兩末端連接至第二端部503表面,每一金屬片504係以對應之一凹折線5041為基準往遠離第二端部503之方向凹折,每一金屬片504之外徑的弧度例如介於120度至180度之間。每一金屬片504與第二端部503之間具有一缺口506,此缺口506徑向地切過接頭500之一管壁,並隔開金屬片504之內徑與接頭500及隔開金屬片504之外徑與接頭500,且在垂直於凹折線5041之徑向方向上,隔開金屬片504之外徑與接頭500之間的距離係大於隔開金屬片504之內徑與接頭500之間的距離,亦即隔開金屬片504與接頭500之間的距離係在徑向方向上由內而外地逐漸變寬,其中每一金屬片504與接頭500之一徑向方向之間的一夾角h為一銳角,且金屬片504往遠離第二端部503之方向傾斜,此夾角h例如介於20度至60度之間、30度至70度之間及45度至80度之間。另外金屬片504之厚度例如介於0.1至1.5毫米(mm)之間、0.3至2毫米之間及0.5至3毫米之間,另外此缺口506之探度係介於0.1至1.5毫米(mm)之間、0.3至2毫米之間及0.5至3毫米之間。Referring to FIG. 9a, which is a cross-sectional view of the connector 500, one of the first ends 501 of the connector 500 is connected or disposed on an electronic device and a second end 503 is connected to a coaxial cable connector, or The connector 500 is an intermediate adapter of an extended coaxial cable, or a T-type or F-type adapter. The first end 501 and the second end 503 have a threaded portion 502 therebetween. The sheet 504 is disposed at the second end portion 503. The metal piece 504 is integrally formed with the joint 500. Each metal piece 504 has two ends connected to the surface of the second end portion 503, and each metal piece 504 is corresponding to one of the concave fold lines. The 5041 is concavely folded away from the second end portion 503, and the outer diameter of each of the metal sheets 504 is, for example, between 120 degrees and 180 degrees. There is a notch 506 between each of the metal pieces 504 and the second end 503. The notch 506 radially cuts through one of the pipe walls of the joint 500, and separates the inner diameter of the metal piece 504 from the joint 500 and the metal piece. The outer diameter of the 504 is different from the joint 500, and in the radial direction perpendicular to the concave fold line 5041, the distance between the outer diameter of the partition metal piece 504 and the joint 500 is greater than the inner diameter of the partition metal piece 504 and the joint 500. The distance between the spaced apart metal sheets 504 and the joint 500 is gradually widened from the inside to the outside in the radial direction, wherein each of the metal sheets 504 and one of the joints 500 has a radial direction. The angle h is an acute angle, and the metal piece 504 is inclined away from the second end 503. The angle h is, for example, between 20 degrees and 60 degrees, between 30 degrees and 70 degrees, and between 45 degrees and 80 degrees. . In addition, the thickness of the metal piece 504 is, for example, between 0.1 and 1.5 millimeters (mm), between 0.3 and 2 millimeters, and between 0.5 and 3 millimeters, and the gap 506 is between 0.1 and 1.5 millimeters (mm). Between 0.3 and 2 mm and between 0.5 and 3 mm.

此接頭500及金屬片504之材質為導電材質,例如是銅、鐡、銀、鎳、錫、金、銅金合金、銅錫合金、銅鎳合金或其它導電性良好之聚合物或非金屬類之導體等,且接頭500及金屬片504之表面可電鍍、無電電鍍或覆蓋上一層防鏽金屬層,其材質包括一銅、鐡、銀、鎳、錫、金、銅金合金、銅錫合金、銅鎳合金或其它導電性良好之聚合物或非金屬類之導體等。The material of the joint 500 and the metal piece 504 is made of a conductive material, such as copper, bismuth, silver, nickel, tin, gold, copper-gold alloy, copper-tin alloy, copper-nickel alloy or other conductive polymer or non-metal. The conductors and the like, and the surface of the joint 500 and the metal piece 504 can be electroplated, electrolessly plated or covered with a layer of rustproof metal, and the material thereof comprises a copper, bismuth, silver, nickel, tin, gold, copper alloy, copper tin alloy. , copper-nickel alloy or other conductive or non-metallic conductors.

另外,本實施例之金屬片504數量可為二片,但是金屬片504數量也可為一片、三片或四片以上,例如金屬片504數量為四片時,請參閱第9b圖所示,每片金屬片504兩末端連接至接頭500,每一金屬片504係以一凹折線5041為基準往遠離接頭500之方向凹折,每一金屬片504之外徑的弧度例如介於50度至110度之間。若金屬片504數量為一片時,請參閱第9c圖所示,此金屬片504之形狀兩末端連接至接頭500,金屬片504係以一凹折線5041為基準往遠離接頭500之方向凹折,金屬片504之外徑的弧度例如介於150度至300度之間。In addition, the number of metal sheets 504 in this embodiment may be two, but the number of metal sheets 504 may also be one, three or four. For example, when the number of metal sheets 504 is four, please refer to FIG. 9b. Each of the metal sheets 504 has two ends connected to the joint 500. Each of the metal sheets 504 is concavely folded away from the joint 500 with a concave fold line 5041. The outer diameter of each of the metal sheets 504 is, for example, 50 degrees. Between 110 degrees. If the number of the metal pieces 504 is one piece, as shown in FIG. 9c, the shape of the metal piece 504 is connected to the joint 500 at both ends, and the metal piece 504 is concavely folded away from the joint 500 with reference to a concave fold line 5041. The outer diameter of the metal piece 504 has an arc of, for example, between 150 and 300 degrees.

接頭500連接至一同軸電纜連接器時,請參閱第9d圖及第9e圖所示,此同軸電纜連接器包括同軸向之一內套筒80、一外套筒82、金屬環19及一螺帽84,其中內套筒80及外套筒82係以同軸方式接納如第1圖所示之同軸電纜,內套筒80、金屬環19及螺帽84之材質為導電材質,例如是銅、鐡、銀、鎳、錫、金、銅金合金、銅錫合金、銅鎳合金或其它導電性良好之聚合物或非金屬類之導體等,內套筒80、金屬環19及螺帽84之表面可電鍍、無電電鍍或覆蓋上一層防鏽金屬層,其材質包括一銅、鐡、銀、鎳、錫、金、銅金合金、銅錫合金、銅鎳合金或其它導電性良好之聚合物或非金屬類之導體等,本實施例之外套筒82例如為塑膠材質、有機聚合物,但也可替換成金屬材質,例如是銅、鐡、銀、鎳、錫、金、銅金合金、銅錫合金、銅鎳合金或其它導電性良好之聚合物或非金屬類之導體等。另外螺帽84的型式為六角螺帽、方型螺帽、環型螺帽、翼型螺帽等任何型式之螺帽,可用扳手或其他工具將連接器鎖在電子裝置上。When the connector 500 is connected to a coaxial cable connector, as shown in Figures 9d and 9e, the coaxial cable connector includes an inner sleeve 80, an outer sleeve 82, a metal ring 19 and a screw. The cap 84, wherein the inner sleeve 80 and the outer sleeve 82 receive the coaxial cable as shown in FIG. 1 coaxially, and the inner sleeve 80, the metal ring 19 and the nut 84 are made of a conductive material, such as copper.鐡, silver, nickel, tin, gold, copper-gold alloy, copper-tin alloy, copper-nickel alloy or other conductive polymer or non-metallic conductor, etc., inner sleeve 80, metal ring 19 and nut 84 The surface can be electroplated, electrolessly plated or covered with a layer of rust-proof metal, including copper, bismuth, silver, nickel, tin, gold, copper-gold alloy, copper-tin alloy, copper-nickel alloy or other polymer with good conductivity. Or a non-metallic conductor or the like, the sleeve 82 of the present embodiment is, for example, a plastic material or an organic polymer, but may be replaced with a metal material such as copper, bismuth, silver, nickel, tin, gold, or copper-gold alloy. , copper-tin alloy, copper-nickel alloy or other conductive or non-metallic Conductors, etc. In addition, the nut 84 is of any type such as a hex nut, a square nut, a ring nut, a wing nut, etc., and the connector can be locked to the electronic device by a wrench or other tool.

本實施例之內套筒80具有一第一外凸緣804、一第二外凸緣810、一第三外凸緣812、一第一表面814、一第二表面816及一後端延伸部818,第二表面816位於第二外凸緣810與第三外凸緣812之間、第一表面814為第二外凸緣810表面。本實施例之螺帽84具有一內凸緣842及一螺紋部844,其中內凸緣842位在內套筒80之第一表面814上。本實施例之外套筒82具有一內凸緣822及一後端延伸部824。其中外套筒82之內凸緣822位在第二表面816上且卡設在第二外凸緣810及第三外凸緣812之間,並以緊配合的方式緊密的卡合在第二表面816上,其中後端延伸部818與後端延伸部824之間形成環狀空心且呈同心環繞關係,此外此同軸電纜連接器可提供一同軸電纜裝設,其中裝設同軸電纜之說明請參考上述第一實施例所示,在此不加以重覆說明。The inner sleeve 80 of the embodiment has a first outer flange 804, a second outer flange 810, a third outer flange 812, a first surface 814, a second surface 816 and a rear end extension. 818, the second surface 816 is located between the second outer flange 810 and the third outer flange 812, and the first surface 814 is the surface of the second outer flange 810. The nut 84 of the present embodiment has an inner flange 842 and a threaded portion 844, wherein the inner flange 842 is located on the first surface 814 of the inner sleeve 80. The outer sleeve 82 of this embodiment has an inner flange 822 and a rear end extension 824. The inner flange 822 of the outer sleeve 82 is located on the second surface 816 and is disposed between the second outer flange 810 and the third outer flange 812, and is tightly engaged in the second tight fit. The surface 816, wherein the rear end extension 818 and the rear end extension 824 form an annular hollow and concentric surrounding relationship, and the coaxial cable connector can provide a coaxial cable installation, wherein the coaxial cable is provided. Referring to the first embodiment described above, it will not be repeated here.

本實施例之接頭500可連接至同軸電纜連接器,其中組裝步驟,使同軸電纜中心的金屬線1穿進接頭500內,接著旋轉螺帽84使同軸電纜連接器之內套筒80的第一外凸緣804慢慢接近接頭500,此時位在第二端部503之金屬片504會與第一外凸緣804接觸,同時金屬片504與第一外凸緣804之徑向方向之間的一夾角a會逐漸變小,在螺帽84與接頭500鎖緊接合完成時,第一外凸緣804表面會壓迫金屬片504,使金屬片504與第一外凸緣804之徑向方向之間的夾角a變成幾近0度,並且金屬片504之一表面與第一外凸緣804表面貼合。所以安裝同軸電纜連接器至接頭500後,金屬片504與內套筒80之第一外凸緣804表面一直保持接觸,形成良好電性連接之途徑,縱使同軸電纜連接器在使用時不小心拉扯導致螺帽84與接頭500未緊迫連接時,金屬片504會因彈力持續接觸內套筒80之第一外凸緣804表面,保持良好的導電途徑,同時提供良好的接地(ground)電性連接,進而確保信號傳遞品質。The connector 500 of the present embodiment can be connected to a coaxial cable connector, wherein the assembly step causes the metal wire 1 at the center of the coaxial cable to penetrate into the connector 500, and then rotates the nut 84 to make the first sleeve 80 of the coaxial cable connector The outer flange 804 slowly approaches the joint 500, at which point the metal sheet 504 at the second end 503 will contact the first outer flange 804 while the radial direction of the metal sheet 504 and the first outer flange 804 An angle a will gradually become smaller. When the nut 84 and the joint 500 are locked and engaged, the surface of the first outer flange 804 will press the metal piece 504 to make the radial direction of the metal piece 504 and the first outer flange 804. The angle a between them becomes almost 0 degrees, and one surface of the metal piece 504 is in contact with the surface of the first outer flange 804. Therefore, after the coaxial cable connector is installed to the connector 500, the metal piece 504 is kept in contact with the surface of the first outer flange 804 of the inner sleeve 80, forming a good electrical connection, even if the coaxial cable connector is accidentally pulled during use. When the nut 84 and the joint 500 are not tightly connected, the metal piece 504 continuously contacts the surface of the first outer flange 804 of the inner sleeve 80 due to the elastic force, maintaining a good conductive path while providing a good ground electrical connection. To ensure signal transmission quality.

此外,揭露在第一、第二、第四及第五實施例中之同軸電纜連接器均可與本實施例所揭露之接頭結合,使得金屬片504可以與第一實施例之內套筒10之第一外凸緣104表面、第二實施例之內套筒10之第一外凸緣104表面、第四實施例之內套筒40之第一外凸緣404表面或第五實施例之內套筒60之第一外凸緣604表面一直保持接觸。In addition, the coaxial cable connectors disclosed in the first, second, fourth and fifth embodiments can be combined with the joints disclosed in the embodiment, so that the metal piece 504 can be combined with the inner sleeve 10 of the first embodiment. The surface of the first outer flange 104, the surface of the first outer flange 104 of the inner sleeve 10 of the second embodiment, the surface of the first outer flange 404 of the inner sleeve 40 of the fourth embodiment or the fifth embodiment The surface of the first outer flange 604 of the inner sleeve 60 remains in contact at all times.

第九實施例:Ninth embodiment:

上述8個實施例皆有不同之特點,每一特點皆可提供同軸電纜連接器與接頭接合時良好的電性連接途徑,因此熟知本領域者可透過上述8個實施例之揭露結構及說明予以相互結合,如第10a圖所示,其係將上述第五實施例所揭露之螺帽64與第三實施例之內套筒30相互結合,如第10b圖所示,其係將上述第四實施例之外套筒42與第三實施例之內套筒30相互結合,如第10c圖所示,其係將上述第六實施例所揭露之螺帽94與第三實施例之內套筒30相互結合,本實施例舉出3種組合方式,此3種方式之元件說明皆揭露至所屬實施例之中,在此不加以重覆說明,其中將上述7個實施例之揭露結構及說明予以相互結合,其目的為提供同軸電纜連接器與接頭接合時二個良好的電性連接途徑,用以確保信號傳遞品質。The above eight embodiments have different features, each of which can provide a good electrical connection path when the coaxial cable connector and the connector are joined. Therefore, those skilled in the art can disclose the structure and description of the above eight embodiments. In combination with each other, as shown in FIG. 10a, the nut 64 disclosed in the fifth embodiment is combined with the inner sleeve 30 of the third embodiment, as shown in FIG. 10b, which is the fourth The outer sleeve 42 is combined with the inner sleeve 30 of the third embodiment, as shown in Fig. 10c, which is the inner sleeve of the sixth embodiment and the inner sleeve of the third embodiment. 30 combinations of three, the three combinations of the present embodiment, the description of the components of the three methods are disclosed in the corresponding embodiments, which will not be repeatedly described herein, wherein the disclosed structure and description of the above seven embodiments They are combined with each other to provide two good electrical connections for the coaxial cable connector and the connector to ensure signal transmission quality.

儘管已展示及描述了本新型之實施例,但對於一般熟習此項技術者而言,可理解,在不脫離本新型之原理及精神 之情況下可對此等實施例進行變化。本新型之適用範圍由所附申請專利範圍及其等同物限定。本新型之權利保護範圍,應如所主張之申請專利範圍所界定為準。應注意,措詞「包括」不排除其他元件,措詞「一」不排除多個。While the embodiments of the present invention have been shown and described, it will be understood that The scope of applicability of the present invention is defined by the scope of the appended claims and their equivalents. The scope of the present invention is defined by the scope of the claimed patent application. It should be noted that the word "comprising" does not exclude other elements, and the word "a" does not exclude a plurality.

除非另外說明,否則本說明書中(包括申請專利範圍中)所闡述之所有量度、值、等級、位置、量值、尺寸及其他規格為近似而非精確的。上述者意欲具有與其相關功能且與其所屬技術中慣用者相符的合理範圍。All metrics, values, grades, positions, magnitudes, dimensions and other specifications set forth in this specification (including the scope of the claims) are approximation rather than precise. The above is intended to have a reasonable range of functionality associated therewith and which is consistent with the skill of the art.

1‧‧‧金屬線
3‧‧‧絕緣層
5‧‧‧薄金屬層
7‧‧‧編織層
9‧‧‧塑膠皮層
10‧‧‧內套筒
12‧‧‧外套筒
14‧‧‧螺帽
19‧‧‧金屬環
100‧‧‧內套筒本體
102‧‧‧金屬片
101‧‧‧穿孔
104‧‧‧第一外凸緣
106‧‧‧第一溝槽
108‧‧‧第二溝槽
110‧‧‧第二外凸緣
112‧‧‧第三外凸緣
114‧‧‧第一表面
116‧‧‧第一表面
118‧‧‧後端延伸部
121‧‧‧穿孔
122‧‧‧內凸緣
124‧‧‧後端延伸部
125‧‧‧可形變部
127‧‧‧凹槽
129‧‧‧階梯狀部分
141‧‧‧穿孔
142‧‧‧內凸緣
144‧‧‧螺紋部
500‧‧‧接頭
502‧‧‧螺紋部
103‧‧‧金屬片
107‧‧‧溝槽
1021‧‧‧凹折線
1031‧‧‧凹折線
30‧‧‧內套筒
300‧‧‧內套筒本體
302‧‧‧金屬片
3021‧‧‧凹折線
301‧‧‧穿孔
304‧‧‧第一外凸緣
310‧‧‧第二外凸緣
312‧‧‧第三外凸緣
314‧‧‧第一表面
316‧‧‧第二表面
318‧‧‧後端延伸部
303‧‧‧缺口
40‧‧‧內套筒
42‧‧‧外套筒
44‧‧‧螺帽
401‧‧‧穿孔
404‧‧‧外凸緣
406‧‧‧表面
408‧‧‧後端延伸部
441‧‧‧穿孔
442‧‧‧內凸緣
444‧‧‧螺紋部
420‧‧‧外套筒本體
422‧‧‧金屬片
4221‧‧‧凹折線
423‧‧‧缺口
60‧‧‧內套筒
62‧‧‧外套筒
64‧‧‧螺帽
601‧‧‧穿孔
604‧‧‧外凸緣
606‧‧‧表面
608‧‧‧後端延伸部
621‧‧‧穿孔
622‧‧‧內凸緣
624‧‧‧後端延伸部
640‧‧‧螺帽本體
642‧‧‧金屬片
6421‧‧‧凹折線
641‧‧‧穿孔
644‧‧‧螺紋部
646‧‧‧內凸緣
643‧‧‧缺口
66‧‧‧外套筒
661‧‧‧可形變部
667‧‧‧凹槽
669‧‧‧階梯狀部分
662‧‧‧金屬環
664‧‧‧外套筒本體
665‧‧‧內凸緣
666‧‧‧穿孔
668‧‧‧後端延伸部
605‧‧‧第一表面
607‧‧‧第二表面
70‧‧‧內套筒
72‧‧‧外套筒
74‧‧‧螺帽
700‧‧‧內套筒本體
702‧‧‧第一金屬片
7021‧‧‧凹折線
703‧‧‧第二金屬片
7031‧‧‧凹折線
701‧‧‧穿孔
704‧‧‧第一外凸緣
706‧‧‧第一溝槽
708‧‧‧第二溝槽
710‧‧‧第二外凸緣
712‧‧‧第三外凸緣
714‧‧‧第一表面
716‧‧‧第一表面
718‧‧‧後端延伸部
705‧‧‧缺口
721‧‧‧穿孔
722‧‧‧內凸緣
724‧‧‧後端延伸部
725‧‧‧可形變部
727‧‧‧凹槽
729‧‧‧階梯狀部分
741‧‧‧穿孔
742‧‧‧內凸緣
744‧‧‧螺紋部
501‧‧‧第一端部
503‧‧‧第二端部
504‧‧‧金屬片
5041‧‧‧凹折線
506‧‧‧缺口
80‧‧‧內套筒
82‧‧‧外套筒
84‧‧‧螺帽
804‧‧‧第一外凸緣
810‧‧‧第二外凸緣
812‧‧‧第三外凸緣
814‧‧‧第一表面
816‧‧‧第二表面
818‧‧‧後端延伸部
842‧‧‧內凸緣
844‧‧‧螺紋部
822‧‧‧內凸緣
824‧‧‧後端延伸部
90‧‧‧內套筒
92‧‧‧外套筒
94‧‧‧螺帽
19‧‧‧金屬環
901‧‧‧穿孔
904‧‧‧外凸緣
906‧‧‧第一表面
907‧‧‧第二表面
908‧‧‧後端延伸部
921‧‧‧穿孔
922‧‧‧內凸緣
925‧‧‧可形變部
927‧‧‧凹槽
924‧‧‧後端延伸部
940‧‧‧螺帽本體
942‧‧‧金屬片
9421‧‧‧圓環部
9422‧‧‧凹折部
941‧‧‧穿孔
944‧‧‧螺紋部
946‧‧‧內凸緣
927‧‧‧凹槽
929‧‧‧階梯狀部分
1‧‧‧metal wire
3‧‧‧Insulation
5‧‧‧thin metal layer
7‧‧‧woven layer
9‧‧‧Plastic cortex
10‧‧‧Inner sleeve
12‧‧‧Outer sleeve
14‧‧‧ Nuts
19‧‧‧Metal ring
100‧‧‧Inner sleeve body
102‧‧‧metal pieces
101‧‧‧Perforation
104‧‧‧First outer flange
106‧‧‧First trench
108‧‧‧Second trench
110‧‧‧Second outer flange
112‧‧‧ Third outer flange
114‧‧‧ first surface
116‧‧‧ first surface
118‧‧‧Back end extension
121‧‧‧Perforation
122‧‧‧ inner flange
124‧‧‧Back end extension
125‧‧‧Deformable Department
127‧‧‧ Groove
129‧‧‧ stepped part
141‧‧‧Perforation
142‧‧‧ inner flange
144‧‧ Thread Department
500‧‧‧ connector
502‧‧‧Threading Department
103‧‧‧metal piece
107‧‧‧ trench
1021‧‧‧ concave line
1031‧‧‧ concave line
30‧‧‧Inner sleeve
300‧‧‧Inner sleeve body
302‧‧‧metal pieces
3021‧‧‧ concave line
301‧‧‧Perforation
304‧‧‧First outer flange
310‧‧‧Second outer flange
312‧‧‧ Third outer flange
314‧‧‧ first surface
316‧‧‧ second surface
318‧‧‧Back end extension
303‧‧ ‧ gap
40‧‧‧Inner sleeve
42‧‧‧Outer sleeve
44‧‧‧ nuts
401‧‧‧Perforation
404‧‧‧Outer flange
406‧‧‧ surface
408‧‧‧Back end extension
441‧‧‧Perforation
442‧‧‧ inner flange
444‧‧‧Threaded Department
420‧‧‧Outer sleeve body
422‧‧‧metal pieces
4221‧‧‧ concave line
423‧‧ ‧ gap
60‧‧‧Inner sleeve
62‧‧‧Outer sleeve
64‧‧‧ nuts
601‧‧‧Perforation
604‧‧‧Outer flange
606‧‧‧ surface
608‧‧‧Back end extension
621‧‧‧Perforation
622‧‧‧ inner flange
624‧‧‧Back end extension
640‧‧‧The nut body
642‧‧‧metal piece
6421‧‧‧ concave line
641‧‧‧Perforation
644‧‧ Thread Department
646‧‧‧ inner flange
643‧‧‧ gap
66‧‧‧Outer sleeve
661‧‧‧Deformable Department
667‧‧‧ Groove
669‧‧‧ stepped part
662‧‧‧Metal ring
664‧‧‧Outer sleeve body
665‧‧‧ inner flange
666‧‧‧Perforation
668‧‧‧Back end extension
605‧‧‧ first surface
607‧‧‧ second surface
70‧‧‧Inner sleeve
72‧‧‧Outer sleeve
74‧‧‧ nuts
700‧‧‧Inner sleeve body
702‧‧‧First sheet metal
7021‧‧‧ concave line
703‧‧‧Second metal piece
7031‧‧‧ concave line
701‧‧‧Perforation
704‧‧‧First outer flange
706‧‧‧First trench
708‧‧‧Second trench
710‧‧‧Second outer flange
712‧‧‧ Third outer flange
714‧‧‧ first surface
716‧‧‧ first surface
718‧‧‧Back end extension
705‧‧ ‧ gap
721‧‧‧Perforation
722‧‧‧ inner flange
724‧‧‧Back end extension
725‧‧‧Deformable Department
727‧‧‧ Groove
729‧‧‧stepped part
741‧‧‧Perforation
742‧‧‧ inner flange
744‧‧ Thread Department
501‧‧‧ first end
503‧‧‧second end
504‧‧‧metal pieces
5041‧‧‧ concave line
506‧‧‧ gap
80‧‧‧Inner sleeve
82‧‧‧Outer sleeve
84‧‧‧ nuts
804‧‧‧First outer flange
810‧‧‧Second outer flange
812‧‧‧ Third outer flange
814‧‧‧ first surface
816‧‧‧ second surface
818‧‧‧Back end extension
842‧‧‧ inner flange
844‧‧ Thread Department
822‧‧‧ inner flange
824‧‧‧Back end extension
90‧‧‧Inner sleeve
92‧‧‧Outer sleeve
94‧‧‧ Nuts
19‧‧‧Metal ring
901‧‧‧Perforation
904‧‧‧Outer flange
906‧‧‧ first surface
907‧‧‧ second surface
908‧‧‧Back end extension
921‧‧‧Perforation
922‧‧‧ inner flange
925‧‧‧Deformable Department
927‧‧‧ Groove
924‧‧‧Back end extension
940‧‧‧ nut body
942‧‧‧metal pieces
9421‧‧‧Round Department
9422‧‧‧ concave part
941‧‧‧Perforation
944‧‧‧Threaded Department
946‧‧‧ inner flange
927‧‧‧ Groove
929‧‧‧stepped part

第1圖為本創作第一實施例之同軸電纜連接器之立體部份斷面圖。 第2a圖為本創作第一實施例之同軸電纜連接器之剖面圖。 第2b圖為本創作第一實施例之同軸電纜連接器分解剖面圖。 第2c圖為本創作第一實施例內套筒之立體圖。 第2d圖及第2e圖為本創作第一實施例之不同數量金屬片之示意圖。 第2f圖為本創作第一實施例之同軸電纜連接器組裝完成時之剖面圖。 第2g圖及第2h圖為本創作第一實施例之同軸電纜連接器結合至接頭之步驟示意圖。 第3a圖為本創作第二實施例之同軸電纜連接器之剖面圖。 第3b圖為本創作第二實施例之內套筒之剖面圖。 第3c圖及第3d圖為本創作第二實施例之不同數量金屬片之示意圖。 第3e圖為本創作第二實施例之同軸電纜連接器結合至接頭後之剖面圖。 第4a圖為本創作第三實施例之同軸電纜連接器之剖面圖。 第4b圖為本創作第三實施例之同軸電纜連接器分解剖面圖。 第4c圖為本創作第三實施例內套筒之立體圖。 第4d圖及第4e圖為本創作第三實施例之不同數量金屬片之示意圖。 第4f圖為本創作第三實施例之同軸電纜連接器組裝完成時之剖面圖。 第4g圖及第4h圖為本創作第三實施例之同軸電纜連接器結合至接頭之步驟示意圖。 第5a圖為本創作第四實施例之同軸電纜連接器之剖面圖。 第5b圖為本創作第四實施例之同軸電纜連接器分解剖面圖。 第5c圖為本創作第四實施例外套筒之立體圖。 第5d圖及第5e圖為本創作第四實施例之不同數量金屬片之示意圖。 第5f圖為本創作第四實施例之同軸電纜連接器組裝完成時之剖面圖。 第5g圖及第5h圖為本創作第四實施例之同軸電纜連接器結合至接頭之步驟示意圖。 第6a圖為本創作第五實施例之同軸電纜連接器之剖面圖。 第6b圖為本創作第五實施例之同軸電纜連接器分解剖面圖。 第6c圖為本創作第五實施例螺帽之立體圖。 第6d圖及第6e圖為本創作第五實施例之不同數量金屬片之示意圖。 第6f圖為本創作第五實施例之同軸電纜連接器組裝完成時之剖面圖。 第6g圖及第6h圖為本創作第五實施例之同軸電纜連接器結合至接頭之步驟示意圖。 第6i圖為本創作第五實施例另一態樣之同軸電纜連接器分解剖面圖。 第6j圖為本創作第五實施例另一態樣之同軸電纜連接器結合至接頭之步驟示意圖。 第7a圖為本創作第六實施例之同軸電纜連接器之剖面圖。 第7b圖為本創作第六實施例之同軸電纜連接器分解剖面圖。 第7c圖為本創作第六實施例螺帽之3/4立體圖。 第7d圖及第7f圖為本創作第六實施例之不同數量凹折部之示意圖。 第7g圖及第7h圖為本創作第六實施例另一種形式之金屬片,且不同數量凹折部之示意圖。 第7i圖為本創作第六實施例之同軸電纜連接器組裝完成時之剖面圖。 第7j圖及第7k圖為本創作第六實施例之同軸電纜連接器結合至接頭之步驟示意圖。 第8a圖為本創作第七實施例之同軸電纜連接器之剖面圖。 第8b圖為本創作第七實施例之同軸電纜連接器分解剖面圖。 第8c圖為本創作第七實施例內套筒之立體圖。 第8d圖及第8e圖為本創作第七實施例之不同數量第一金屬片之示意圖。 第8f圖及第8g圖為本創作第七實施例之不同數量第一金屬片之示意圖。 第8h圖為本創作第七實施例之同軸電纜連接器組裝完成時之剖面圖。 第8i圖及第8j圖為本創作第七實施例之同軸電纜連接器結合至接頭之步驟示意圖。 第9a圖為本創作第八實施例接頭之剖面圖。 第9b圖及第9c圖為本創作第八實施例之不同數量金屬片之示意圖。 第9d圖及第9e圖為本創作第八實施例之接頭與同軸電纜連接器結合之步驟示意圖。 第10a圖為本創作第九實施例第一種組合態樣之同軸電纜連接器剖面圖。 第10b圖為本創作第九實施例第二種組合態樣之同軸電纜連接器剖面圖。 第10c圖為本創作第九實施例第三種組合態樣之同軸電纜連接器剖面圖。 雖然在圖式中已描繪某些實施例,但熟習此項技術者應瞭解,所描繪之實施例為說明性的,且可在本創作之範疇內構想並實施彼等所示實施例之變化以及本文所述之其他實施例。Figure 1 is a perspective view, partly in section, of the coaxial cable connector of the first embodiment of the present invention. Figure 2a is a cross-sectional view of the coaxial cable connector of the first embodiment of the present invention. Fig. 2b is an exploded cross-sectional view showing the coaxial cable connector of the first embodiment of the present invention. Figure 2c is a perspective view of the inner sleeve of the first embodiment of the creation. 2d and 2e are schematic views of different numbers of metal sheets in the first embodiment of the present invention. Figure 2f is a cross-sectional view showing the completion of the assembly of the coaxial cable connector of the first embodiment of the present invention. 2g and 2h are schematic views showing the steps of coupling the coaxial cable connector of the first embodiment to the joint. Figure 3a is a cross-sectional view of the coaxial cable connector of the second embodiment of the present invention. Figure 3b is a cross-sectional view of the inner sleeve of the second embodiment of the present invention. 3c and 3d are schematic views of different numbers of metal sheets in the second embodiment of the present invention. Fig. 3e is a cross-sectional view showing the coaxial cable connector of the second embodiment of the present invention after being joined to the joint. Figure 4a is a cross-sectional view of the coaxial cable connector of the third embodiment of the present invention. Figure 4b is an exploded cross-sectional view showing the coaxial cable connector of the third embodiment of the present invention. Figure 4c is a perspective view of the inner sleeve of the third embodiment of the present invention. 4d and 4e are schematic views of different numbers of metal sheets in the third embodiment of the present invention. Figure 4f is a cross-sectional view showing the completion of the assembly of the coaxial cable connector of the third embodiment of the present invention. 4g and 4h are schematic views showing the steps of coupling the coaxial cable connector of the third embodiment to the joint. Fig. 5a is a cross-sectional view showing the coaxial cable connector of the fourth embodiment of the present invention. Fig. 5b is an exploded cross-sectional view showing the coaxial cable connector of the fourth embodiment of the present invention. Figure 5c is a perspective view of the fourth embodiment of the present invention. Fig. 5d and Fig. 5e are schematic views showing different numbers of metal sheets in the fourth embodiment of the present invention. Figure 5f is a cross-sectional view showing the completion of the assembly of the coaxial cable connector of the fourth embodiment of the present invention. Fig. 5g and Fig. 5h are schematic diagrams showing the steps of coupling the coaxial cable connector of the fourth embodiment to the joint. Figure 6a is a cross-sectional view of the coaxial cable connector of the fifth embodiment of the present invention. Figure 6b is an exploded cross-sectional view showing the coaxial cable connector of the fifth embodiment of the present invention. Figure 6c is a perspective view of the nut of the fifth embodiment of the present invention. 6d and 6e are schematic views of different numbers of metal sheets in the fifth embodiment of the present invention. Figure 6f is a cross-sectional view showing the completion of the assembly of the coaxial cable connector of the fifth embodiment of the present invention. 6g and 6h are schematic views showing the steps of coupling the coaxial cable connector of the fifth embodiment to the joint. Figure 6i is an exploded cross-sectional view showing another aspect of the coaxial cable connector of the fifth embodiment of the present invention. Figure 6j is a schematic view showing the steps of coupling the coaxial cable connector of another aspect of the fifth embodiment to the joint. Fig. 7a is a cross-sectional view showing the coaxial cable connector of the sixth embodiment of the present invention. Fig. 7b is an exploded cross-sectional view showing the coaxial cable connector of the sixth embodiment of the present invention. Fig. 7c is a perspective view of the 3/4 of the nut of the sixth embodiment of the present invention. 7d and 7f are schematic views of different numbers of concave folds in the sixth embodiment of the present invention. 7g and 7h are schematic views of another form of metal sheet of the sixth embodiment, and different numbers of concave folds. Fig. 7i is a cross-sectional view showing the completion of the assembly of the coaxial cable connector of the sixth embodiment of the present invention. 7j and 7k are schematic views showing the steps of coupling the coaxial cable connector of the sixth embodiment to the joint. Figure 8a is a cross-sectional view of the coaxial cable connector of the seventh embodiment of the present invention. Figure 8b is an exploded cross-sectional view showing the coaxial cable connector of the seventh embodiment of the present invention. Figure 8c is a perspective view of the inner sleeve of the seventh embodiment of the present invention. 8d and 8e are schematic views of different numbers of first metal sheets in the seventh embodiment of the present invention. 8f and 8g are schematic views of different numbers of first metal sheets in the seventh embodiment of the present invention. Figure 8h is a cross-sectional view showing the completion of the assembly of the coaxial cable connector of the seventh embodiment of the present invention. 8i and 8j are schematic views showing the steps of coupling the coaxial cable connector of the seventh embodiment to the joint. Figure 9a is a cross-sectional view of the joint of the eighth embodiment of the present invention. Figures 9b and 9c are schematic views of different numbers of metal sheets of the eighth embodiment of the present invention. 9d and 9e are schematic views showing the steps of combining the connector of the eighth embodiment and the coaxial cable connector. Figure 10a is a cross-sectional view showing the first assembled coaxial cable connector of the ninth embodiment of the present invention. Figure 10b is a cross-sectional view showing the second embodiment of the coaxial cable connector of the ninth embodiment. Figure 10c is a cross-sectional view showing a coaxial cable connector of a third combination of the ninth embodiment of the present invention. Although certain embodiments have been shown in the drawings, the embodiments of the embodiments of the present invention And other embodiments described herein.

19‧‧‧金屬環19‧‧‧Metal ring

102‧‧‧金屬片102‧‧‧metal pieces

104‧‧‧第一外凸緣104‧‧‧First outer flange

106‧‧‧第一溝槽106‧‧‧First trench

108‧‧‧第二溝槽108‧‧‧Second trench

110‧‧‧第二外凸緣110‧‧‧Second outer flange

112‧‧‧第三外凸緣112‧‧‧ Third outer flange

118‧‧‧後端延伸部118‧‧‧Back end extension

122‧‧‧內凸緣122‧‧‧ inner flange

124‧‧‧後端延伸部124‧‧‧Back end extension

129‧‧‧階梯狀部分129‧‧‧ stepped part

142‧‧‧內凸緣142‧‧‧ inner flange

502‧‧‧螺紋部502‧‧‧Threading Department

Claims (51)

一種同軸電纜連接器,其適於接合一電子裝置之具有一螺紋表面之一接頭,該同軸電纜連接器包括一內套筒、一外套筒同軸地設置在該內套筒外、一螺帽套設在該內套筒上,其中該螺帽之一螺紋部適於接合該螺紋表面,當該螺帽與該接頭接合時,該內套筒之一外凸緣位在該螺帽之一內凸緣與該電子裝置之該接頭之間,其特徵在於:該內套筒包括一第一金屬片及一內套筒本體,該內套筒本體與該第一金屬片為一體成型,該第一金屬片位於該外凸緣與該內凸緣之間,且一第一溝槽位於該第一金屬片與該外凸緣之間。 A coaxial cable connector adapted to engage a connector of a electronic device having a threaded surface, the coaxial cable connector including an inner sleeve, an outer sleeve coaxially disposed outside the inner sleeve, and a nut Nested on the inner sleeve, wherein one of the threaded portions of the nut is adapted to engage the threaded surface, and when the nut is engaged with the joint, one of the outer flanges of the inner sleeve is located at one of the nuts The inner sleeve and the joint of the electronic device are characterized in that the inner sleeve comprises a first metal piece and an inner sleeve body, and the inner sleeve body is integrally formed with the first metal piece, A first metal piece is located between the outer flange and the inner flange, and a first groove is located between the first metal piece and the outer flange. 如申請專利範圍第1項所述之同軸電纜連接器,其中當該螺帽未與該接頭接合時,該第一金屬片往該內凸緣方向傾斜並接觸該內凸緣。 The coaxial cable connector of claim 1, wherein the first metal piece is inclined toward the inner flange and contacts the inner flange when the nut is not engaged with the joint. 如申請專利範圍第2項所述之同軸電纜連接器,其中當該螺帽未與該接頭接合時,該第一金屬片與一徑向方向之間的一夾角包括一銳角。 The coaxial cable connector of claim 2, wherein an angle between the first metal piece and a radial direction comprises an acute angle when the nut is not engaged with the joint. 如申請專利範圍第1項所述之同軸電纜連接器,其中一第二溝槽位於該第一金屬片之一側,該第一溝槽位於該第一金屬片之另一側。 The coaxial cable connector of claim 1, wherein a second groove is located on one side of the first metal piece, and the first groove is located on the other side of the first metal piece. 如申請專利範圍第1項所述之同軸電纜連接器,其中該第一金屬片之一頂端到該內套筒之一軸線間的一徑向距離係大致上等於該外凸緣之外徑表面到該軸線間的一徑向距離。 The coaxial cable connector of claim 1, wherein a radial distance between a tip of one of the first metal sheets and an axis of the inner sleeve is substantially equal to an outer diameter surface of the outer flange A radial distance to the axis. 如申請專利範圍第4項所述之同軸電纜連接器,其中該第一溝槽在該內套筒之一徑向方向上由內而外地逐漸變寬,該第二溝槽在該內套筒之一徑向方向上由內而外地逐漸變窄。 The coaxial cable connector of claim 4, wherein the first groove is gradually widened from the inside to the outside in a radial direction of one of the inner sleeves, and the second groove is in the inner sleeve One of them is gradually narrowed from the inside to the outside in the radial direction. 如申請專利範圍第1項所述之同軸電纜連接器,其中該外套筒之材質包括一塑膠材質。 The coaxial cable connector of claim 1, wherein the material of the outer sleeve comprises a plastic material. 如申請專利範圍第1項所述之同軸電纜連接器,其中該外套筒更套設一金屬環,用以使該外套筒變形並將一部分之同軸電纜線卡設在該外套筒與該內套筒之間。 The coaxial cable connector of claim 1, wherein the outer sleeve is further sleeved with a metal ring for deforming the outer sleeve and a part of the coaxial cable is clamped to the outer sleeve. Between the inner sleeves. 如申請專利範圍第1項所述之同軸電纜連接器,更包括一第二金屬片位在該外凸緣與該接頭之間,當該螺帽與該接頭接合時,該第二金屬片接觸該接頭,當該螺帽未與該接頭接合時,該第二金屬片係往遠離該內套筒之一本體之方向傾斜。 The coaxial cable connector of claim 1, further comprising a second metal sheet positioned between the outer flange and the joint, the second metal sheet contacting when the nut is engaged with the joint The joint, when the nut is not engaged with the joint, the second metal sheet is inclined away from a body of the inner sleeve. 如申請專利範圍第9項所述之同軸電纜連接器,其中該第二金屬片與該內套筒本體為一體成型。 The coaxial cable connector of claim 9, wherein the second metal piece is integrally formed with the inner sleeve body. 如申請專利範圍第1項所述之同軸電纜連接器,其中該第一金屬片以一凹折線為基準往遠離該外凸緣之方向凹折,該第一金屬片之外徑的弧度係介於50度至110度之間。 The coaxial cable connector of claim 1, wherein the first metal piece is concavely folded away from the outer flange with a concave fold line, and the outer diameter of the first metal piece is curved. Between 50 degrees and 110 degrees. 一種同軸電纜連接器,其適於接合一電子裝置之具有一螺紋表面之一接頭,該同軸電纜連接器包括一內套筒、一外套筒同軸地設置在該內套筒外、一螺帽套設在該內套筒上,其中該螺帽之一螺紋部適於接合該螺紋表面,當該螺帽與該接頭接合時,該內套筒之一外凸緣位在該螺帽之一內凸緣與該電子裝置之該接頭之間,其特徵在於:當該螺帽與該接頭接合時,該內套筒之一第一金屬片接觸該接頭,當該螺帽未與該接頭接合時,該第一金屬片係往遠離該內套筒之一本體之方向傾斜。 A coaxial cable connector adapted to engage a connector of a electronic device having a threaded surface, the coaxial cable connector including an inner sleeve, an outer sleeve coaxially disposed outside the inner sleeve, and a nut Nested on the inner sleeve, wherein one of the threaded portions of the nut is adapted to engage the threaded surface, and when the nut is engaged with the joint, one of the outer flanges of the inner sleeve is located at one of the nuts Between the inner flange and the joint of the electronic device, wherein when the nut is engaged with the joint, a first metal piece of the inner sleeve contacts the joint when the nut is not engaged with the joint The first metal sheet is inclined away from the body of one of the inner sleeves. 如申請專利範圍第12項所述之同軸電纜連接器,其中一缺口徑向地切過該內套筒之一管壁,且位在該第一金屬片與該內套筒之該本體之間。 The coaxial cable connector of claim 12, wherein a notch radially cuts through a wall of the inner sleeve and is located between the first metal piece and the body of the inner sleeve . 如申請專利範圍第13項所述之同軸電纜連接器,其中該缺口之探度係介於0.1至1.5毫米(mm)之間。 The coaxial cable connector of claim 13, wherein the notch is between 0.1 and 1.5 millimeters (mm). 如申請專利範圍第12項所述之同軸電纜連接器,其中當該螺帽未與該接頭接合時,該第一金屬片與該內套筒之一徑向方向之間的一夾角包括一銳角。 The coaxial cable connector of claim 12, wherein an angle between the first metal piece and a radial direction of the inner sleeve includes an acute angle when the nut is not engaged with the joint . 如申請專利範圍第12項所述之同軸電纜連接器,其中該內套筒還更包括一第二金屬片,一體成型地結合該內套筒之該本體,當該螺帽與該接頭接合時,該第二金屬片接觸該接頭,當該螺帽未與該接頭接合時,該第二金屬片係往遠離該內套筒之該本體之方向傾斜。 The coaxial cable connector of claim 12, wherein the inner sleeve further comprises a second metal piece integrally coupled to the body of the inner sleeve when the nut is engaged with the joint The second metal sheet contacts the joint, and when the nut is not engaged with the joint, the second metal sheet is inclined away from the body of the inner sleeve. 如申請專利範圍第12項所述之同軸電纜連接器,其中該第一金屬片與該外凸緣一體成型。 The coaxial cable connector of claim 12, wherein the first metal piece is integrally formed with the outer flange. 如申請專利範圍第12項所述之同軸電纜連接器,其中該外套筒之材質包括一塑膠材質。 The coaxial cable connector of claim 12, wherein the material of the outer sleeve comprises a plastic material. 如申請專利範圍第12項所述之同軸電纜連接器,其中該外套筒更套設一金屬環,用以使該外套筒變形並將一部分之同軸電纜線卡設在該外套筒與該內套筒之間。 The coaxial cable connector of claim 12, wherein the outer sleeve is further sleeved with a metal ring for deforming the outer sleeve and a part of the coaxial cable is clamped to the outer sleeve Between the inner sleeves. 如申請專利範圍第12項所述之同軸電纜連接器,更包括一第二金屬片位在該外凸緣與該內凸緣之間,且該第二金屬片與該外凸緣之間具有一溝槽。 The coaxial cable connector of claim 12, further comprising a second metal sheet positioned between the outer flange and the inner flange, and having a second metal sheet and the outer flange a groove. 如申請專利範圍第20項所述之同軸電纜連接器,其中該第二金屬片與該內套筒為一體成型。 The coaxial cable connector of claim 20, wherein the second metal piece is integrally formed with the inner sleeve. 一種同軸電纜連接器,其適於接合一電子裝置之具有一螺紋表面之一接頭,該同軸電纜連接器包括一內套筒、一外套筒同軸地設置在該內套筒外、一螺帽套設在該內套筒上,其中該螺帽之一螺紋部適於接合該螺紋表面,當該螺帽與該接頭接合時,該內套筒之一外凸緣位在該螺帽之一內凸緣與該電 子裝置之該接頭之間,其特徵在於:該螺帽包括一第一金屬片,一體成型地結合該螺帽之一本體,該第一金屬片位於該本體與該外套筒之間,且該第一金屬片係往遠離該螺帽之該本體之方向傾斜,且該內凸緣抵觸該內套筒之該外凸緣。 A coaxial cable connector adapted to engage a connector of a electronic device having a threaded surface, the coaxial cable connector including an inner sleeve, an outer sleeve coaxially disposed outside the inner sleeve, and a nut Nested on the inner sleeve, wherein one of the threaded portions of the nut is adapted to engage the threaded surface, and when the nut is engaged with the joint, one of the outer flanges of the inner sleeve is located at one of the nuts Inner flange and the electric Between the joints of the sub-devices, the nut includes a first metal piece integrally coupled to the body of the nut, the first metal piece being located between the body and the outer sleeve, and The first sheet of metal is inclined away from the body of the nut and the inner flange abuts the outer flange of the inner sleeve. 如申請專利範圍第22項所述之同軸電纜連接器,其中該第一金屬片與該螺帽之一徑向方向之間的一夾角包括一銳角。 The coaxial cable connector of claim 22, wherein an angle between the first metal piece and one of the radial directions of the nut comprises an acute angle. 如申請專利範圍第22項所述之同軸電纜連接器,其中該螺帽更包括一第二金屬片,一體成型地結合該螺帽之該本體,該第二金屬片位於該本體與該外套筒之間,且該第二金屬片係往遠離該螺帽之該本體之方向傾斜。 The coaxial cable connector of claim 22, wherein the nut further comprises a second metal piece integrally coupled to the body of the nut, the second metal piece being located on the body and the outer casing Between the barrels, and the second sheet of metal is inclined away from the body of the nut. 如申請專利範圍第22項所述之同軸電纜連接器,其中該外套筒之材質包括一金屬,且該第一金屬片接觸該外套筒。 The coaxial cable connector of claim 22, wherein the material of the outer sleeve comprises a metal, and the first metal piece contacts the outer sleeve. 如申請專利範圍第22項所述之同軸電纜連接器,還包括一金屬導體套設在該內套筒上,該第一金屬片位在該內凸緣與該金屬導體之間並接觸該金屬導體,其中該外套筒之材質包括塑膠。 The coaxial cable connector of claim 22, further comprising a metal conductor sleeved on the inner sleeve, the first metal sheet being located between the inner flange and the metal conductor and contacting the metal a conductor, wherein the material of the outer sleeve comprises plastic. 如申請專利範圍第22項所述之同軸電纜連接器,其中一缺口徑向地切過該螺帽之一管壁,且位在該第一金屬片與該內凸緣之間。 A coaxial cable connector according to claim 22, wherein a notch is cut radially through a wall of the nut and is located between the first metal piece and the inner flange. 如申請專利範圍第22項所述之同軸電纜連接器,更包括一第二金屬片位在該外凸緣與該接頭之間,當該螺帽與該接頭接合時,該第二金屬片接觸該接頭,當該螺帽未與該接頭接合時,該第二金屬片係往遠離該內套筒之一本體之方向傾斜。 The coaxial cable connector of claim 22, further comprising a second metal sheet positioned between the outer flange and the joint, the second metal sheet contacting when the nut is engaged with the joint The joint, when the nut is not engaged with the joint, the second metal sheet is inclined away from a body of the inner sleeve. 如申請專利範圍第28項所述之同軸電纜連接器,其中該第二金屬片與該內套筒一體成型。 The coaxial cable connector of claim 28, wherein the second metal piece is integrally formed with the inner sleeve. 如申請專利範圍第22項所述之同軸電纜連接器,其中該第一金屬 片以一凹折線為基準往遠離該內凸緣之方向凹折,該第一金屬片之外徑的弧度係介於120度至180度之間。 The coaxial cable connector of claim 22, wherein the first metal The sheet is concavely folded away from the inner flange with a concave fold line, and the outer diameter of the first metal piece is between 120 degrees and 180 degrees. 一種同軸電纜連接器,其適於接合一電子裝置之具有一螺紋表面之一接頭,該同軸電纜連接器包括一內套筒、一外套筒同軸地設置在該內套筒外、一螺帽套設在該內套筒上,其中該螺帽之一螺紋部適於接合該螺紋表面,當該螺帽與該接頭接合時,該內套筒之一外凸緣位在該螺帽之一內凸緣與該電子裝置之該接頭之間,其特徵在於:該外套筒包括一第一金屬片,一體成型地結合該外套筒之一本體,該第一金屬片位於該外套筒與該螺帽之間,該第一金屬片係往遠離該外套筒之該本體之方向傾斜。 A coaxial cable connector adapted to engage a connector of a electronic device having a threaded surface, the coaxial cable connector including an inner sleeve, an outer sleeve coaxially disposed outside the inner sleeve, and a nut Nested on the inner sleeve, wherein one of the threaded portions of the nut is adapted to engage the threaded surface, and when the nut is engaged with the joint, one of the outer flanges of the inner sleeve is located at one of the nuts Between the inner flange and the joint of the electronic device, the outer sleeve includes a first metal piece integrally coupled to a body of the outer sleeve, the first metal piece being located at the outer sleeve Between the nut and the nut, the first sheet of metal is inclined away from the body of the outer sleeve. 如申請專利範圍第31項所述之同軸電纜連接器,其中該第一金屬片與該外套筒之一徑向方向之間的一夾角包括一銳角。 The coaxial cable connector of claim 31, wherein an angle between the first metal piece and one of the radial directions of the outer sleeve comprises an acute angle. 如申請專利範圍第31項所述之同軸電纜連接器,其中該外套筒更包括一第二金屬片,一體成型地結合該外套筒之該本體,該第二金屬片位於該外套筒與該螺帽之間,且該第二金屬片係往遠離該外套筒之該本體之方向傾斜。 The coaxial cable connector of claim 31, wherein the outer sleeve further comprises a second metal piece integrally coupled to the body of the outer sleeve, the second metal piece being located at the outer sleeve And the nut is inclined, and the second metal piece is inclined away from the body of the outer sleeve. 如申請專利範圍第31項所述之同軸電纜連接器,其中一缺口徑向地切過該外套筒之一管壁,且位在該第一金屬片與該外套筒之該本體之間。 The coaxial cable connector of claim 31, wherein a notch radially cuts through a wall of the outer sleeve and is located between the first metal piece and the body of the outer sleeve . 如申請專利範圍第31項所述之同軸電纜連接器,更包括一第二金屬片位在該外凸緣與該接頭之間,當該螺帽與該接頭接合時,該第二金屬片接觸該接頭,當該螺帽未與該接頭接合時,該第二金屬片係往遠離該內套筒之一本體之方向傾斜。 The coaxial cable connector of claim 31, further comprising a second metal sheet positioned between the outer flange and the joint, the second metal sheet contacting when the nut is engaged with the joint The joint, when the nut is not engaged with the joint, the second metal sheet is inclined away from a body of the inner sleeve. 如申請專利範圍第35項所述之同軸電纜連接器,其中該第二金屬片與該內套筒一體成型。 The coaxial cable connector of claim 35, wherein the second metal piece is integrally formed with the inner sleeve. 一種同軸電纜連接器,其適於接合一電子裝置之具有一螺紋表面之一接頭,該同軸電纜連接器包括一內套筒、一外套筒及一螺帽,該外套筒同軸地設置在該內套筒外,該螺帽套設在該內套筒上,其中該螺帽之一螺紋部適於接合該螺紋表面,當該螺帽與該接頭接合時,該內套筒之一外凸緣位在該螺帽之一內凸緣與該電子裝置之該接頭之間,其特徵在於:該螺帽包括一第一金屬片,與該內凸緣一體成型地結合該螺帽之一本體,該第一金屬片位於該內凸緣與該內套筒之一軸向延伸表面之間,且該第一金屬片靠近該外凸緣之一側連接該內凸緣,該第一金屬片遠離該外凸緣之一側抵觸該內套筒。 A coaxial cable connector adapted to engage a connector of a electronic device having a threaded surface, the coaxial cable connector including an inner sleeve, an outer sleeve and a nut, the outer sleeve being coaxially disposed Outside the inner sleeve, the nut is sleeved on the inner sleeve, wherein a threaded portion of the nut is adapted to engage the threaded surface, and when the nut is engaged with the joint, one of the inner sleeves The flange is located between the inner flange of the nut and the joint of the electronic device, wherein the nut comprises a first metal piece, and one of the nuts is integrally formed with the inner flange a first metal piece between the inner flange and an axially extending surface of the inner sleeve, and the first metal piece is connected to the inner flange near a side of the outer flange, the first metal The sheet is against the inner sleeve away from one side of the outer flange. 如申請專利範圍第37項所述之同軸電纜連接器,其中該第一金屬片與一徑向方向之間的一夾角包括一銳角,該夾角介於50度至85度之間。 The coaxial cable connector of claim 37, wherein an angle between the first metal piece and a radial direction comprises an acute angle, the included angle being between 50 degrees and 85 degrees. 如申請專利範圍第37項所述之同軸電纜連接器,其中該第一金屬片與該內凸緣表面之夾角大約介於45度至90度之間。 The coaxial cable connector of claim 37, wherein the first metal piece has an angle with the inner flange surface of between about 45 and 90 degrees. 如申請專利範圍第37項所述之同軸電纜連接器,其中該外套筒之材質包括一金屬,且該第一金屬片接觸該外套筒。 The coaxial cable connector of claim 37, wherein the material of the outer sleeve comprises a metal, and the first metal piece contacts the outer sleeve. 如申請專利範圍第37項所述之同軸電纜連接器,其中該外套筒之材質包括一塑膠材質。 The coaxial cable connector of claim 37, wherein the material of the outer sleeve comprises a plastic material. 如申請專利範圍第37項所述之同軸電纜連接器,更包括一第二金屬片位在該外凸緣與該接頭之間,當該螺帽與該接頭接合時,該第二金屬片接觸該接頭,當該螺帽未與該接頭接合時,該第二金屬片係往遠離該內套筒之一本體之方向傾斜。 The coaxial cable connector of claim 37, further comprising a second metal sheet positioned between the outer flange and the joint, the second metal sheet contacting when the nut is engaged with the joint The joint, when the nut is not engaged with the joint, the second metal sheet is inclined away from a body of the inner sleeve. 如申請專利範圍第42項所述之同軸電纜連接器,其中該第二金屬 片與該內套筒一體成型。 The coaxial cable connector of claim 42, wherein the second metal The sheet is integrally formed with the inner sleeve. 如申請專利範圍第37項所述之同軸電纜連接器,其中該第一金屬片之厚度介於0.3至2毫米之間。 The coaxial cable connector of claim 37, wherein the first metal piece has a thickness of between 0.3 and 2 mm. 如申請專利範圍第37項所述之同軸電纜連接器,其中該第一金屬片包括一圓環部及一第一凹折部,該圓環部、該第一凹折部與該內凸緣一體成型地結合該螺帽之該本體,其中該圓環部環繞該軸向延伸表面,且該圓環部之一外環部分接合該內凸緣,該圓環部之一內環部分接合該第一凹折部,該第一凹折部係從該圓環部往遠離該外凸緣之方向凹折並抵觸該內套筒。 The coaxial cable connector of claim 37, wherein the first metal piece comprises a circular portion and a first concave portion, the annular portion, the first concave portion and the inner flange Integrally coupling the body of the nut, wherein the annular portion surrounds the axially extending surface, and an outer ring portion of the annular portion engages the inner flange, and an inner ring portion of the annular portion engages the inner ring portion a first concave portion that is concavely folded from the annular portion away from the outer flange and that interferes with the inner sleeve. 如申請專利範圍第45項所述之同軸電纜連接器,其中該圓環部與該第一凹折部之間之一夾角係介於90度至120度之間。 The coaxial cable connector of claim 45, wherein an angle between the annular portion and the first concave portion is between 90 degrees and 120 degrees. 如申請專利範圍第45項所述之同軸電纜連接器,其中該第一金屬片還包括一第二凹折部,該圓環部、該第一凹折部、該第二凹折部與該內凸緣一體成型地結合該螺帽之該本體,其中該圓環部之該內環部分接合該第二凹折部,該第二凹折部係從該圓環部往遠離該外凸緣之方向凹折並抵觸該內套筒。 The coaxial cable connector of claim 45, wherein the first metal piece further comprises a second concave portion, the annular portion, the first concave portion, the second concave portion and the The inner flange integrally engages the body of the nut, wherein the inner ring portion of the annular portion engages the second concave portion, the second concave portion is away from the outer flange from the annular portion The direction is concave and offset against the inner sleeve. 如申請專利範圍第47項所述之同軸電纜連接器,其中該第一凹折部與該第二凹折部在一圓周方向上係相互分離一角度,該角度係介於30度至75度之間。 The coaxial cable connector of claim 47, wherein the first concave portion and the second concave portion are separated from each other by an angle in a circumferential direction, the angle being between 30 degrees and 75 degrees. between. 如申請專利範圍第47項所述之同軸電纜連接器,其中該第一凹折部與該第二凹折部係位在該內套筒相對之兩側。 The coaxial cable connector of claim 47, wherein the first concave portion and the second concave portion are tied to opposite sides of the inner sleeve. 如申請專利範圍第45項所述之同軸電纜連接器,其中該第一金屬片還包括一第二凹折部、一第三凹折部及一第四凹折部,該圓環部、該第一凹折部、該第二凹折部、該第三凹折部及該第四凹折部與該內凸緣一體成型地結合該螺帽之該本體,其中該圓環部之該內環部分接合該第二凹折部、該第三凹 折部及該第四凹折部,該第二凹折部、該第三凹折部及該第四凹折部係從該圓環部往遠離該外凸緣之方向凹折並抵觸該內套筒,該第一凹折部、該第二凹折部、該第三凹折部及該第四凹折部在一圓周方向上係相互分離,該第一凹折部與該第三凹折部係位在該內套筒相對之兩側,該第二凹折部與該第四凹折部係位在該內套筒相對之兩側。 The coaxial cable connector of claim 45, wherein the first metal piece further comprises a second concave portion, a third concave portion and a fourth concave portion, the annular portion, the The first concave portion, the second concave portion, the third concave portion and the fourth concave portion integrally form the body of the nut with the inner flange, wherein the inner portion of the annular portion The ring portion engages the second concave portion and the third concave portion a folding portion and the fourth concave portion, the second concave portion, the third concave portion and the fourth concave portion are concavely folded from the annular portion away from the outer flange and interfere with the inner portion a sleeve, the first concave portion, the second concave portion, the third concave portion and the fourth concave portion are separated from each other in a circumferential direction, the first concave portion and the third concave portion The folding portion is located on opposite sides of the inner sleeve, and the second concave portion and the fourth concave portion are fastened on opposite sides of the inner sleeve. 如申請專利範圍第37項所述之同軸電纜連接器,其中該內凸緣與該內套筒之一軸向延伸表面之間的間距為0.05公分至0.2公分。 The coaxial cable connector of claim 37, wherein a spacing between the inner flange and an axially extending surface of the inner sleeve is 0.05 cm to 0.2 cm.
TW103201941U 2013-12-20 2014-01-29 Coaxial cable connector TWM505097U (en)

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TW103201941U TWM505097U (en) 2013-12-20 2014-01-29 Coaxial cable connector
CN201410216786.0A CN104733884A (en) 2013-12-20 2014-05-21 Coaxial cable connector
CN201410216360.5A CN104733875A (en) 2013-12-20 2014-05-21 Joint structure
US14/320,587 US9306324B2 (en) 2013-12-20 2014-06-30 Coaxial cable connector and threaded connector

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI726761B (en) * 2020-07-06 2021-05-01 世同投資有限公司 Coaxial cable connector

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI726761B (en) * 2020-07-06 2021-05-01 世同投資有限公司 Coaxial cable connector
EP3937314A1 (en) * 2020-07-06 2022-01-12 TCC RFTECH Co., Ltd. Coaxial cable connector
US11450984B2 (en) 2020-07-06 2022-09-20 TCC RFTECH Co., Ltd. Coaxial cable connector

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