201034322 六、發明說明: 【發明所屬之技術領域】 本發明有關於一種轉換套與F型公連接器連結,可用以 將一F型公連接器結合至一F型母連接器。 【先前技術】 大部分的RF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 τν decoders)、卡帶 φ 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(sateiiite receivers)、視訊遊戲 (video games)、電視信號分佈式分離器(Tv Signai distribution splitters)及開關(switches)連結。就大區域範圍所連接設置之電視 與電纜盒(Cable box)、卡帶錄影機或視訊遊戲而言,一般採用手 動方式將F型連接器(於rg-6或RG-59型同軸電纜之端部具有F 型公連接器)連接於該電視裝置與電纜之間。 ❼ F型連接器之標準型設計採用7/16英u寸之六角螺帽(hex nut) • 做為回轉連接環(connecting ring) ’其中,該螺帽的長度界於1/8 至1/4英吋,此一尺寸長度相當合適於手指的控制,而螺帽與所 配合之F型母連接器之内螺紋為每3/8英吋32牙。當兩者進行 耦合時,F型公連接器與該F型母連接器之間必須在相當精確的 對準下方能達到結合。 由習知技術可知’該F型公連接器仍採用傳統手動旋轉方 式鎖β於型母連接器或自該f型母連接器進行分離。當以 手動方式(通常為4圈)將F型公連接器完全旋入於F型母連接器 3 201034322 .後,此時再藉由板手或其它工具對該六角螺帽進行扭轉,如此便 可確保該接頭不致於產生鬆脫。 目前可採用兩種工具及方法來進行該F型公連接器之旋緊 及鬆脫。第-種工具為-月牙型扳手(_e一ench),其中, h扳手,、有7/16叶標準開σ (。卿叫,並且該月牙型扳手所具 2之最小軸長為4_6英对。由㈣月牙型扳手的操作方式係沿 _著該F型公連接器之轴心進行徑向迴轉,因此在對於相互鎖合 之公、母連接器進行旋轉時,於該月牙型扳手之迴轉區域内不 可以有阻礙物的存在。然而,當對於具有多數連接器之電視裝 置進行該連接器的設置時,所連接之贊曲的電規會影響板手的 操作。 第-種工具為具有7/16英时六角螺帽之套筒起子㈣打 socket)套筒起子的側面上具有一溝槽⑷叫,其操作方式是將 _該溝槽滑移於一已安裝電蜆並對F型電規進行設置。套筒起子 的缺點在於所處理的電缓必須與相互鎖合之公、母連接器之間 成一直線。由此可知,上述工具受限於其本身的特性而無法適 用於電規密集區域的操作環境,而如何藉由合適的工具以對於 電瘦密度高之操作環境下之公連接器的安裝或移除已是當今重 要的課題。 目前需要一種具機械利益之轉換套配置於F型公連接器外 部,它能經由手指的旋轉將F型公連接器鎖合於F型母連接器 或自F型母連接器進行分離。 4 201034322 . 【發明内容】 本發明之目的在於提供一種轉換套結合於F型公連接器, 藉由該轉換套可將具有同軸電境之Μ公連接器結合至一電視 裝置之F型母連接器。 上述之目的可在該轉換套的作用下達成,轉換套可用以將 -F型公同轴電纜連接器結合至一Μ母同軸電纜連接器,F 型公同軸電窺連接器具有一 F3LJ公連接器及—同轴電規,公連 «接器具有-螺帽以可回轉方式設置於公連接器之前端 end),該同轴電繞沿著公連接器之尾端(taiHng娜向後延伸, 螺帽具有-螺紋内表面及一六角形外表面。轉換套包括一板手 部(霞1^卿_及一握持部(卵1^13〇也〇11),其中,握持部 與扳手部為-體結構。扳手部的内部具有一成型部(如㈣ portion)用以配合於公連接器之螺帽的外表面。握持部包含多數 象成片狀的棋形’各棋形部包含一内凸緣形成在握持部的末 端藉由該轉換套可將?型公連接器設置於F型母連接器(或將 F型公連接ϋ自該F型母連接器進行分離)。 本發明之特徵在於具有獨特的新穎性,並且已於事後所附 之申請專利範圍中明白界定。為讓本發明之上述目的、特徵及 此更月顯易僅’下文特舉—較佳實施例,並配合所附圖式, 作詳細說明如下。 【實施方式】 圖表不F型公同軸電纜連接器1〇之立體圖。f型公同軸 5 201034322 電纜連接器10具有一 F型公連接器Π及一同轴電纜16沿著公 連接器11之後端進行延伸。公連接器u具有一可回轉的螺帽 12及一套筒組合15。其中,螺帽12的内表面13都是螺紋,螺 帽12的外表面14是六角形。 圖二至圖四表示本發明連接F型公同轴電纜連接器用轉換 套20的立體圖、立體部分斷面圖、斷面圖。轉換套2〇由扳手 部21及握持部22所共同形成一管狀構件。扳手部.2ι具有一前 、 端23,一尾端24,及一中空本體部25位於前端23與尾端24 ' 之間。本體部25的内部具有一六角形的成型部26可接納公連 接器11之螺帽12的外表面14。此外,於本體部25的内表面形 成有一階狀止推部(stepped stop)27 ;當公連接器u沿著轉換套 2〇之方向前進時,藉由階狀止推部27可避免螺帽12的外表面 14移動超過扳手部21的位置(如圖五b)。 ❹ 握持部22為一圓弧狀中空元件,具有一環狀的前端以及 末端29,其中,握持部22的前端28貼附於扳手部21的尾端 24’握持部22的前端28與末端29間包含多數成片狀的拱形部 21卜本實施例顯示有四只棋形部211以等間隔設置。各棋形部 211包含一内凸緣212形成在握持部22的末端29,當公連接器 11完全插入於轉換套2〇時,藉由内凸緣212可避免公連接器 11自握持部22的末端29滑出(如圖五B)。握持部22之外表面 上可設置凸肋或其它防滑結構,如此在進行手動扭轉該握持部 22時可避免產生打滑現象。 6 201034322 圖五A-五B顯示轉換套2〇安裝於連接器1〇之操作方式。 首先,將轉換套20插入於公連接器u,如圖五A所示,這樣 可使螺帽12的外表面14配置在扳手部21的成型部以内,而 套筒組合15則配置在握持部22内,如圖五B所示。藉由手指 在握持部22的作用下’讓轉換套2〇以順時針(或逆時針)方式結 合至電子器件的母接頭(或自電子器件的母接頭將公接頭進行° 移除)。 由於,握持部22之外徑D遠大於螺帽12之外徑d,藉由 此機械利益所產生的扭力可有效地將螺帽12設置於其所配合之 連接器上。 總而言之,本發明在免用安裝/移除工具下,操作者可藉由 該轉換套2G的連續轉動使得螺帽12在安裝/移除過程中同時達 到連續轉動’該轉換套2G所具有之機械利益仍足以產生適當的 扭力以對於該連接器進行鬆脫及鎖緊等處理。 雖然本發明已以較佳實施例揭露如上,然其並非用以限制 本發明’任何熟習此項技藝者,在不脫離本發明之精神和範圍 内,當可做更動與潤飾,因此本發明之保護範圍當事後附之申 請專利範圍所界定者為準。 【圖式簡單說明】 圖-為F型公同轴電規連接器之立體圖,顯示同轴電規結合於 F型公連接器。 圖-、圖三、圖四為本發明轉換套之立體圖、立體部份斷面圖、 201034322 . 斷面圖。 圖五A-圖五B表示將圖二之轉換套安裝於F型公連接器以準備 進行安裝的示意圖。 【主要元件符號說明】 扳手部21 前端23 本體部25 階狀止推部27 末端29 内凸緣212 轉換套20 握持部22 尾端24 Θ 成型部26 k 前端28 拱形部211201034322 VI. Description of the Invention: [Technical Field] The present invention relates to a conversion sleeve coupled to an F-type male connector for coupling an F-type male connector to an F-type female connector. [Prior Art] Most of the RF coaxial cable is digitally represented by a Screw-type F-Type connector and Cable τν decoders, and a cassette φ video recorder/digital video disc (VCR/DVD). Hard disk digital recorders, satellite receivers, video games, Tv Signai distribution splitters, and switches. For TV and cable boxes, video cassette recorders or video games that are connected in a large area, the F-type connector is usually used manually (at the end of the rg-6 or RG-59 coaxial cable) An F-type male connector is connected between the television device and the cable.标准 The standard design of the F-type connector uses a 7/16 inch U-hex nut (hex nut). • As a connecting ring, the length of the nut is 1/8 to 1/ 4 inches, this size is quite suitable for finger control, and the internal thread of the nut and the mating F-type female connector is 32 teeth per 3/8 inch. When the two are coupled, the F-type male connector and the F-type female connector must be joined under a fairly precise alignment. It is known from the prior art that the F-type male connector still uses a conventional manual rotary lock β to be connected to or from the female connector. When the F-type male connector is fully screwed into the F-type female connector 3 201034322 manually (usually 4 turns), the hex nut is twisted by a wrench or other tool at this time. This ensures that the joint does not become loose. Two tools and methods are currently available for tightening and loosening the F-type male connector. The first tool is a crescent wrench (_e-ench), in which the h-wrench has a 7/16-leaf standard open σ (.Qing, and the crescent-shaped wrench has a minimum axial length of 4-6 inches. The operation mode of the (four) crescent wrench is to perform radial rotation along the axis of the F-type male connector, so that the rotation of the crescent wrench is performed when the male and female connectors that are interlocked are rotated. There may be no obstructions in the area. However, when the connector is set for a TV set with a plurality of connectors, the connected electric gauge may affect the operation of the wrench. The first tool has 7/16 inch hex nut socket screwdriver (4) socket) The side of the sleeve driver has a groove (4) called, which is operated by sliding the groove to an installed electric raft and F type The electric gauge is set. A disadvantage of the sleeve driver is that the electrical strain to be treated must be in line with the interlocking male and female connectors. Therefore, it can be seen that the above tool is limited by its own characteristics and cannot be applied to the operating environment of the electric gauge dense area, and how to install or shift the male connector in the operating environment with high electric density and high density by a suitable tool. In addition to the important issues of today. There is a need for a mechanically beneficial conversion sleeve that is external to the F-type male connector and that can be used to lock the F-type male connector to the F-type female connector or from the F-type female connector via finger rotation. 4 201034322 . SUMMARY OF THE INVENTION An object of the present invention is to provide a conversion sleeve that is coupled to an F-type male connector, and the conversion sleeve can be used to couple a coaxial connector having a coaxial environment to a F-type female connector of a television device. Device. The above purpose can be achieved by the conversion sleeve, and the conversion sleeve can be used to couple the -F type male coaxial cable connector to a female coaxial cable connector, and the F type male coaxial electric eye connector has a F3LJ male connector. And - coaxial electric gauge, the public connection «connector has - nut is rotatably arranged at the front end of the male connector), the coaxial electric winding is along the rear end of the male connector (taiHng Na extends backward, snail The cap has a threaded inner surface and a hexagonal outer surface. The conversion sleeve includes a wrench (Xia 1^qing_ and a grip portion (egg 1^13〇11), wherein the grip portion and the wrench portion The body portion has a molding portion (such as a portion) for fitting to the outer surface of the nut of the male connector. The grip portion includes a plurality of chess pieces shaped like a sheet. An inner flange is formed at the end of the grip portion, and the male connector is disposed on the F-type female connector (or the F-type male connector is separated from the F-type female connector) by the conversion sleeve. It is characterized by its unique novelty and has been included in the patent application scope attached hereinafter. The above-mentioned objects, features, and advantages of the present invention are described in detail below with reference to the accompanying drawings, and are described in detail below. [Embodiment] The chart is not F-type A perspective view of a coaxial cable connector. The f-type male coaxial 5 201034322 cable connector 10 has an F-type male connector and a coaxial cable 16 extending along the rear end of the male connector 11. The male connector u has a The swivel nut 12 and a sleeve assembly 15. The inner surface 13 of the nut 12 is a thread, and the outer surface 14 of the nut 12 is hexagonal. Figure 2 to Figure 4 show the connection F type of the present invention. A perspective view, a perspective view, and a cross-sectional view of the conversion sleeve 20 for the shaft cable connector. The conversion sleeve 2 is formed by the wrench portion 21 and the grip portion 22 together to form a tubular member. The wrench portion 2 has a front end and a rear end 23 A tail end 24, and a hollow body portion 25 are located between the front end 23 and the trailing end 24'. The interior of the body portion 25 has a hexagonal shaped portion 26 that receives the outer surface 14 of the nut 12 of the male connector 11. In addition, a step is formed on the inner surface of the body portion 25. Stepped stop 27; when the male connector u advances in the direction of the conversion sleeve 2〇, the stepped thrust portion 27 can prevent the outer surface 14 of the nut 12 from moving beyond the position of the wrench portion 21 (eg Figure 5 b) ❹ The grip portion 22 is an arcuate hollow member having an annular front end and a distal end 29, wherein the front end 28 of the grip portion 22 is attached to the trailing end 24' of the wrench portion 21 The front end 28 of the portion 22 and the end portion 29 include a plurality of in-line arch portions 21. The present embodiment shows four chess portions 211 disposed at equal intervals. Each of the chess portions 211 includes an inner flange 212 formed in the grip. The end 29 of the portion 22, when the male connector 11 is fully inserted into the conversion sleeve 2, prevents the male connector 11 from slipping out of the end 29 of the grip portion 22 by the inner flange 212 (Fig. 5B). A rib or other non-slip structure may be provided on the outer surface of the grip portion 22, so that slippage can be prevented when the grip portion 22 is manually twisted. 6 201034322 Figure 5A-5B shows the operation mode of the conversion sleeve 2〇 mounted on the connector 1〇. First, the conversion sleeve 20 is inserted into the male connector u as shown in FIG. 5A, so that the outer surface 14 of the nut 12 can be disposed within the molding portion of the wrench portion 21, and the sleeve assembly 15 is disposed in the grip portion. 22, as shown in Figure 5B. By means of the finger under the action of the grip 22, the conversion sleeve 2 is coupled to the female connector of the electronic device in a clockwise (or counterclockwise) manner (or the male connector is removed from the female connector of the electronic device). Since the outer diameter D of the grip portion 22 is much larger than the outer diameter d of the nut 12, the torque generated by this mechanical advantage can effectively set the nut 12 to the mating connector. In summary, the present invention allows the operator to simultaneously achieve continuous rotation of the nut 12 during installation/removal by the continuous rotation of the conversion sleeve 2G under the free installation/removal tool. 'The machine of the conversion sleeve 2G The benefit is still sufficient to generate the proper torque to handle the connector loosening and locking. Although the present invention has been disclosed in the above preferred embodiments, it is not intended to limit the invention, and the invention may be modified and modified without departing from the spirit and scope of the invention. The scope of protection shall be subject to the definition of the scope of application for patent application. [Simple diagram of the diagram] Figure- is a perspective view of the F-type male coaxial electrical gauge connector, showing the coaxial electrical gauge combined with the F-type male connector. Figure -, Figure 3, and Figure 4 are perspective views, three-dimensional partial cross-sectional views of the conversion sleeve of the present invention, 201034322. Sectional view. Figures 5A-5B show a schematic view of the conversion sleeve of Figure 2 mounted to an F-type male connector for installation. [Main component symbol description] Wrench part 21 Front end 23 Main body part 25 Stepped thrust part 27 End 29 Inner flange 212 Conversion sleeve 20 Grip portion 22 Tail end 24 成型 Molding portion 26 k Front end 28 Arch portion 211