1295520 九、發明說明: 【發明所屬之技術領域】 本發明為一種遮蔽式網路插座的芯線刺破裝置及其方 法,尤指一種沿著轴心方向移動的轉動元件之網路插座的 心線刺破方法。 【先前技術】 -般的電腦都是透過-條跳線來連接上一網路,而該 •跳線則利用-網路插頭以連接至_面板上的一網路插座, 接著再經由-條内部網路線來連接至—集線器(Μ),然而 由於該内部網路線之施工不易,因此必須委請一位專業的 網路施工人員,其藉著使用一種报昂貴的網路打線專用之 手工具來完成内部網路線之電連接到該網路插座。但對於 時下普遍流行的此種「使用者可以自己動手做(DIY)」的趨 勢而言,另外再委請專業的施工人員並不划算,但是想要 讓自己嘗試在該網路插座上把八根芯線打入八根刺破型端 _子的話,又欠缺此種網路打線專用手工具,因而無法進行, 像如此無法讓一般的使用者自己動手做的網路插座,實在 很不理想。 因此,如何改善網路插座無法讓一般的使用者自己動 手做的問題,經發明人致於實驗、測試及研究後,終於獲 得一種遮蔽式網路插座的芯線刺破裝置及其方法,除了有 效解決先前技術的缺點外,亦能獲致一般的使用者均可輕 易地在網路插座上完成芯線刺破的便利性。亦即本發明所 欲解決的課題即為如何克服使用者毋須準備網路打線專用 4 1295520 手工具即可刺破芯線的問題,而使得網路插座的施工可以 更加便利,不需再仰賴專業的施工人員,以及如何克服網 路插座之線夾與此種普通的手工具即可轉動的元件之間無 法連動的問題,又如何克服該轉動元件在一線夾上作轉動 的時候,怎能連接到一固定件的問題等。 【發明内容】 本發明為一種遮蔽式網路插座的芯線刺破方法,其步 驟包括提供一端子座,提供一端子,其裝設於該端子座内, 提供一線夾,係位於該端子座上,用以供一芯線之置放, 以及提供一轉動元件,其裝設於該端子座上,以遂行一旋 轉動作,且該轉動元件在該端子座中係沿著該轉動元件之 一軸心方向移動,俾當該芯線位於該線夾與該端子之間 時,經該旋轉動作即可使該端子刺破該芯線,以行電連接 該芯線與該端子。 較佳者,該方法中的遮蔽式網路插座係為一種使用者 可以自己動手做(DIY)的插座,以用於一電腦之連接至一網 路。 又按照一主要技術的觀點來看,本發明即為一種遮蔽 式的網路插座,其包括一端子座,一端子,其裝設於該端 子座内,一線夾,係位於該端子座上,用以供一芯線之置 放,以及一軸向移動轉動元件,其裝設於該端子座上,俾 當該芯線位於該線夾與該端子之間時,經一旋轉動作即可 使該端子刺破該芯線,以行電連接該芯線與該端子。 較佳者,該插座的端子座係分別由一外框部及一内基 1295520 座所組成,且該内基座裝設有一固定件 而該固定 且該線夹 當然,該插座的轉動元件可以為一螺絲釘 件為一螺帽或於該内基座上開設一内面陰螺紋 係具有一中央通孔,以供該螺絲釘之穿過。 該插座的内基座係可以具有—卡固凹槽,以卡 當然 固該螺帽 較佳者’該插座的内基座係具有—頂部凹槽及一底部 凹槽,以分別容納一上端子及一下端子。 一 較佳者,該插座的轉動元件係震設於該固定件上,並 於該固定件中沿著該轉動元件之—轴心方向作轴向移動。 當然,該插座更可以包括一線夹遮蔽部及一插座本體 遮蔽部’且該線㈣蔽部及該插座本㈣蔽部均為一金屬 材質’以形成該遮蔽式網路插座。 當然,該插座的線爽遮蔽部係可以具有一頂部通孔, 以供該轉動元件之穿過’且該轉動元件藉由—螺絲起子以 推動該線央遮蔽部之一受力凹槽,而該線夾遮蔽部與該線 夾即同日守沿著该轉動元件之該轴心方向移動。 較佳者’該插座的線夾遮蔽部係具有一與該轴心方向 相平行的網路線人π或-與該軸心方向相垂直的網路線入 口,以供一網路線之置入該網路插座。 較佳者,該插座的外框部係具有一上導引部及一下導 引部j以利於引導該端子在線夾中刺破該芯線。 當然,該插座的下導引部係可以具有一内縮端部,以 配合該線夹之一凸起端部,而獲致一防呆效果。 1295520 當然,該插座的外框部係可以具有一凹入卡槽,以供 該内基座之一凸出卡榫的卡接。 較佳者,該插座的線夾係具有一芯線置入槽,以供該 芯線之置入,而該端子即於該芯線置入槽中刺破該芯線, 且該芯線置入槽具有一緊縮開口,以防止該芯線之跳脫。 較佳者,該插座的線夾係具有一怒線穿越孔,以供該 芯線之穿越而到達該芯線置入槽。 若是從另一個可行的角度來看,本發明乃一種網路插 座的芯線刺破裝置,其包括,一端子,其裝設於一端子座 内,一線夾,係位於該端子座上,用以供一芯線之置放, 以及一軸向移動轉動元件,其裝設於該端子座上,俾當該 芯線位於該線夾與該端子之間時,經一旋轉動作即可使該 端子刺破該芯線,以行電連接該芯線與該端子。 當然,利用該裝置的網路插座為一遮蔽式的網路插 座,該端子座係可以分別由一外框部及一内基座所組成, φ且該内基座裝設有一固定件。 當然,該裝置的轉動元件可以為一螺絲釘,而該固定 件為一螺帽或於該内基座上開設一内面陰螺紋,且該線夾 係具有一中央通孔,以供該螺絲釘之穿過。 較佳者,該裝置的内基座係具有一卡固凹槽,以卡固 該螺帽。 本發明經由上述構想的解說,即能看出所運用之遮蔽 式網路插座的芯線刺破裝置及其方法,果能利用一轉動元 件之裝設於該端子座上,而使該轉動元件得以遂行一旋轉 7 /1295520 動作,而在該端子座中沿著它的軸心方向移動,並具有運 用該芯線位於該線夾與該端子之間時,經該旋轉動作即可 使該端子刺破該芯線以便於進行電連接該芯線與該端子之 特色。為了易於說明,本發明得藉由下述之較佳實施例及 圖示而得到一更加瞭解。 【實施方式】 請參閱第一及第二圖,顯示出一種遮蔽式網路插座10 的芯線20刺破方法,其步驟包括提供一端子座11,提供八 •根端子12,其裝設於端子座11内,提供一線夾13,係位 於端子座11上,用以供八條芯線20之置放,以及提供一 轉動元件14,其裝設於端子座11上,以遂行一旋轉動作 TN,且轉動元件14在端子座11中係沿著轉動元件14之一 轴心方向AD移動,俾當芯線20位於線夾13與端子12之 間時,經該旋轉動作即可使端子12刺破芯線20,以行電連 接芯線20與端子12。 又該方法中的遮蔽式網路插座10係為一種使用者可以 自己動手做(DIY)的插座,以用於一電腦(圖中未示出)之 連接至一網路。 又按照一主要技術的觀點來看,本發明即為一種遮蔽 式的網路插座10,其包括一端子座11,八根端子12,19, 其裝設於端子座11内,一線夾13,係位於端子座11上, 用以供八條芯線20之置放,以及一軸向移動轉動元件14, 其裝設於端子座11上,俾當芯線20位於線夾13與端子12 之間時,經一旋轉動作TN即可使端子12刺破芯線20,以 8 1295520 行電連接芯線20與端子12。 成,Πί:::別由一外框部15及一内基座16所組 一利釘^ 有—固定件17。轉動元件14可以為 J累广4’而固定件17為一螺㈣或於内基座 面陰螺紋(圖中未示出),且線夾13係具有 以供螺絲釘14之穿過’而形成-種「以螺絲U :::媒,遮蔽式網路插座1〇之結構」。内基座“係 1 11,、如第二圖所示之一卡固凹槽30,以卡固螺帽17。 二參閱第四圖’内基座16係具有四個頂部凹 以分別容納四根上端子19及四根下端子二 =兀件14係裝設於固^件17上,並於固料17中沿著 轉動7L件14之-軸心方向AD作軸向移動。 蔽二6^::以包括一線夾遮蔽部151及-插座本體遮 金4夾遮敝部151及插座本體遮蔽部161均為一 夹遮蔽二遮蔽式網路插座1〇。請參閱第五圖,線 二係可以具有-頂部通孔5。,以供轉動元件14 =文二動元件藉14由一螺絲起子(圖中未示出)以 遮㈣151之—受力凹槽6〇(詳第六圖),而線夹 :#151與線夾13即同時沿著轉動元件14之軸心方向 =起子在轉動螺絲14時,螺絲14對線夾遮蔽部ΐ5ι所產 的推動壓力。線夾遮蔽部151係具有一種與軸心方向仙 :、!= 路广、入/51或改成一種與軸心方向相垂直的網 、”(评第七圖),以供第二圖所示的一網路線21 9 Γ295520 之置入網路插座ίο。 請參閱第八圖,外框部15係具有一上導引部81及一 下導引部82,以利於引導端子12在線夾13中刺破芯線20。 又下導引部82係可以具有二内縮端部83,以配合線夾13 之二凸起端部91,92 (詳第九圖),而獲致一防呆效果,且 線夾13係具有八個芯線置入槽93,以供芯線20之置入, 而端子12即於芯線置入槽93中刺破芯線20,各芯線置入 槽93具有第十二圖所示之一緊縮開口 120,以防止芯線20 之跳脫。請參閱第十三圖,線夾13係具有二芯線穿越孔 131,132,以供芯線20之穿越而到達芯線置入槽93。請參 閱第十圖,外框部15係可以具有二凹入卡槽101,102,以 供内基座16之二凸出卡榫111,112的卡接。再由第十四圖, 即可看出網路線21中的八根芯線20穿過第七圖的線夾遮 蔽部151而置入第九圖的線夾13中的情況。 若是從另一個可行的角度來看,本發明乃一種網路插 座(例如:遮蔽式的網路插座10)的芯線刺破裝置,其包 括,八根端子12,19,其裝設於一端子座11内,一線夾13, 係位於端子座11上,用以供一芯線20之置放,以及一軸 向移動轉動元件14,其裝設於端子座11上,俾當芯線20 位於線夾13與端子12之間時,經一旋轉動作即可使端子 12刺破芯線20,以行電連接芯線20與端子12。當然,此 時利用該裝置的網路插座可以為前段所述的遮蔽式網路插 座10,至於本網路插座的芯線刺破裝置實施例之不一定使 用於遮蔽式網路插座10的其他細節部分,係如前段所述, 1295520 故於此不再贅述。 綜上所述,本發明確能以一種新款的設計,藉由利用 一轉動元件之裝設於該端子座上,即得以使該轉動元件得 以遂行一旋轉動作而在該端子座中沿著它的軸心方向移 動,並且所運用之該芯線位於該線夾與該端子之間時,經 該旋轉動作即能使該端子刺破該芯線以便於進行電連接該 芯線與該端子。故凡熟習本技藝之人士,得任施匠思而為 諸般修飾,然皆不脫如附申請專利範圍所欲保護者。 丨 【圖式簡單說明】 第一圖:是本發明之遮蔽式網路插座的芯線刺破方法 之較佳實施例的立體爆開示意圖; 第二圖:是與第一圖中之插座相連接的網路線之立體 不意圖, 第三圖:是第一圖中的内基座之剖面示意圖; 第四圖:是第一圖中的内基座之放大的立體示意圖; 第五圖:是第一圖之網路插座的立體組合示意圖; 第六圖:是第一圖中的線夾遮蔽部之前視示意圖; 第七圖:是第一圖中的線夾遮蔽部之另一較佳實施例 的側視不意圖, 第八圖:是第一圖中的外框座之立體示意圖; 第九圖:是第一圖中之線夾之立體示意圖; 第十圖:是第一圖中的外框部之剖面示意圖; 第十一圖:是第一圖中的内基座之剖面示意圖; 第十二圖:是第一圖中之線夾之剖面示意圖; 11 1295520 =三::ΐ第一圖中的線夾之後視示意圖;以及 四圖·疋網路線申的八根芯線穿過第七3的後央 r 1入弟九圖的線夾中之立體示意圖。 【主要元件符號說明】 10 ·遮蔽式網路插座11 ··端子座 12 ·(下)端子 13 :線夾 14 ··轉動元件/螺絲(釘)TN ••旋轉動作 AD:軸心方向 15 ••外框部 151 :線夾遮蔽部 16 :内基座 161 ·插座本體遮蔽部17 :固定件/螺帽 18 :中央通孔 19 :上端子 20 ·芯線 21 :網路線 30 :卡固凹槽 41 :頂部凹槽 50 :頂部通孔 60 81 83 93 受力凹槽 上導引部 内縮端部 芯線置入槽 42 :底部凹槽 51 :平行的網路線入口 70 :垂直的網路線入口 82 :下導引部 91,92 :凸起端部 101,102 ·凹入卡槽 120 :緊縮開口 131,132 :芯線穿越孔 121295520 IX. Description of the Invention: [Technical Field] The present invention relates to a core wire piercing device for a shielded network socket and a method thereof, and more particularly to a core wire of a network socket of a rotating component moving along an axial direction Puncture method. [Prior Art] - All computers are connected to the previous network through a jumper, which uses a -network plug to connect to a network socket on the _ panel, and then through the - The intranet route is connected to the hub (Μ), however, due to the difficulty of the construction of the intranet route, a professional network construction personnel must be appointed to use a hand tool for reporting expensive internet cables. To complete the electrical connection of the internal network route to the network socket. However, for the trend of "users can do it themselves (DIY)", it is not cost-effective to appoint a professional construction worker, but I want to try to put it on the network socket. If the eight core wires break into the eight piercing ends, they lack the hand tools for such network cables, so they cannot be carried out. It is not ideal for a network socket that cannot be used by ordinary users. . Therefore, how to improve the problem that the network socket can not be used by the average user, after the experiment, test and research by the inventor, finally obtains a core wire piercing device and method for the shielded network socket, except for the effective In addition to the shortcomings of the prior art, it is also convenient for the average user to easily complete the core puncture on the network socket. That is to say, the problem to be solved by the present invention is how to overcome the problem that the user can puncture the core wire without preparing the 4 1295520 hand tool for the network cable, so that the construction of the network socket can be more convenient, and no need to rely on professional The construction personnel, and how to overcome the problem that the wire clamp of the network socket can not be linked with the rotating component of the ordinary hand tool, how to overcome the rotation of the rotating component on the wire clamp, how can it be connected A fixed piece of the problem, etc. SUMMARY OF THE INVENTION The present invention is a method for puncturing a core wire of a shielded network socket, the method comprising the steps of: providing a terminal block, providing a terminal disposed in the terminal block, providing a wire clamp on the terminal block Providing a core wire for arranging, and providing a rotating component mounted on the terminal block for performing a rotating motion, and the rotating component is disposed along the axis of the rotating component in the terminal block The direction is moved. When the core wire is located between the clip and the terminal, the terminal can pierce the core wire by the rotating action to electrically connect the core wire and the terminal. Preferably, the shielded network outlet in the method is a user-operable (DIY) socket for connecting a computer to a network. According to a main technical point of view, the present invention is a shielded network socket, which comprises a terminal block, a terminal, which is installed in the terminal block, and a wire clamp is located on the terminal block. For placing a core wire, and an axially moving rotating component, which is mounted on the terminal block, when the core wire is located between the wire clamp and the terminal, the terminal can be rotated by a rotation action The core wire is pierced to electrically connect the core wire to the terminal. Preferably, the terminal base of the socket is composed of an outer frame portion and an inner base 1295520 seat, and the inner base is provided with a fixing member for fixing and the wire clamp. Of course, the rotating component of the socket can be A screw member is a nut or an inner female thread is formed on the inner base to have a central through hole for the screw to pass through. The inner base of the socket may have a locking groove, and the card is of course better. The inner base of the socket has a top groove and a bottom groove to respectively receive an upper terminal. And the next terminal. Preferably, the rotating component of the socket is shocked on the fixing member and axially moved in the fixing member along the axial direction of the rotating member. Of course, the socket may further include a wire clip shielding portion and a socket body shielding portion ‘and the wire (four) shielding portion and the socket portion (four) shielding portion are both made of a metal material to form the shielding network socket. Of course, the wire shielding portion of the socket may have a top through hole for the passing of the rotating member and the rotating member is driven by a screwdriver to push the force groove of one of the wire shielding portions. The clip shielding portion and the clip are moved along the axis direction of the rotating member on the same day. Preferably, the clip shielding portion of the socket has a mesh route person π parallel to the axial direction or a mesh route entrance perpendicular to the axial direction for the placement of a mesh route into the mesh Road socket. Preferably, the outer frame portion of the socket has an upper guiding portion and a lower guiding portion j to facilitate guiding the terminal to pierce the core wire in the wire clamp. Of course, the lower guiding portion of the socket may have a retracted end portion to cooperate with one of the protruding ends of the clip to obtain a foolproof effect. 1295520 Of course, the outer frame portion of the socket can have a recessed card slot for one of the inner bases to protrude from the latch. Preferably, the clip of the socket has a core insertion groove for the core wire to be inserted, and the terminal pierces the core wire in the core insertion groove, and the core wire insertion groove has a contraction. Opening to prevent the core from jumping off. Preferably, the clip of the socket has an anger crossing hole for the core to pass through to the core insertion slot. According to another feasible point of view, the present invention is a core wire piercing device for a network socket, comprising: a terminal disposed in a terminal block, and a wire clamp is disposed on the terminal block for Providing a core wire, and an axially moving rotating component, which is mounted on the terminal block, and when the core wire is located between the wire clamp and the terminal, the terminal can be pierced by a rotation action The core wire electrically connects the core wire to the terminal. Of course, the network socket of the device is a shielded network socket, and the terminal socket can be composed of an outer frame portion and an inner base, respectively, and the inner base is provided with a fixing member. Of course, the rotating component of the device may be a screw, and the fixing component is a nut or an inner female thread is formed on the inner base, and the cable clip has a central through hole for the screw to pass through. . Preferably, the inner base of the device has a retaining recess to secure the nut. Through the above-mentioned conception, the present invention can be seen that the core wire piercing device and the method thereof for the shielded network socket are used, and the rotating component can be carried out by using a rotating component mounted on the terminal block. a rotation of 7 / 1295520, moving in the terminal block along its axis direction, and having the core wire between the clamp and the terminal, the terminal can be pierced by the rotation action The core wire facilitates electrical connection of the core wire and the terminal. For the sake of easy description, the present invention will be better understood by the following preferred embodiments and illustrations. [Embodiment] Please refer to the first and second figures, showing a method for piercing the core wire 20 of the shielded network socket 10, the steps of which include providing a terminal block 11 and providing eight terminals 12 mounted on the terminals In the seat 11, a wire clamp 13 is provided on the terminal block 11 for placing the eight core wires 20, and a rotating component 14 is provided on the terminal block 11 for performing a rotating action TN. And the rotating component 14 moves along the axial direction AD of the rotating component 14 in the terminal block 11, and when the core wire 20 is located between the wire clamp 13 and the terminal 12, the terminal 12 can pierce the core wire through the rotating action. 20, the core wire 20 and the terminal 12 are connected in a row. Also, the shielded network outlet 10 in the method is a user-operable (DIY) socket for connection to a network (not shown). According to a main technical point of view, the present invention is a shielded network socket 10, which comprises a terminal block 11, eight terminals 12, 19, which are installed in the terminal block 11, and a wire clamp 13, It is located on the terminal block 11 for placing the eight core wires 20, and an axially moving rotary member 14 is mounted on the terminal block 11 when the core wire 20 is located between the wire clamp 13 and the terminal 12. The terminal 12 pierces the core wire 20 through a rotating action TN, and electrically connects the core wire 20 and the terminal 12 with 8 1295520 rows. Π, Πί::: It is not provided by an outer frame portion 15 and an inner base 16 that a fixing nail 17 has a fixing member 17. The rotating member 14 may be J-wide 4' and the fixing member 17 is a screw (four) or a female thread on the inner base surface (not shown), and the wire clip 13 is formed to pass through the screw 14 - "The structure of the screw U:: media, shielded network socket 1". The inner base "1, 11, as shown in the second figure, the recess 30 to secure the nut 17. See the fourth figure 'the inner base 16 has four top recesses to accommodate four respectively The upper terminal 19 and the four lower terminals 2 are mounted on the fixing member 17, and are axially moved in the solid material 17 along the axial direction AD of the rotating 7L member 14. The cover Shielding Portion 151 and the Socket Body Shielding Portion 151 and the Socket Body Shielding Portion 161 are both shielded and shielded network sockets 1 〇. See Figure 5, Line 2 There may be a top through hole 5. For the rotating element 14 = the second moving element 14 is covered by a screwdriver (not shown) to cover (four) 151 - the force groove 6 〇 (detailed sixth figure), The clip: #151 and the clip 13 are simultaneously along the axial direction of the rotating member 14 = the driving pressure of the screw 14 to the clip shielding portion ΐ 5 when the screw 14 is rotated. The clip shielding portion 151 has A direction with the axis direction:, ! = road wide, into / 51 or changed into a network perpendicular to the direction of the axis," (review of the seventh picture), for the second line shown in Figure 2 1 9 Γ295520 is placed in the network socket ίο. Referring to the eighth figure, the outer frame portion 15 has an upper guiding portion 81 and a lower guiding portion 82 for facilitating the guiding terminal 12 to pierce the core wire 20 in the wire clip 13. The lower guiding portion 82 may have two retracting end portions 83 to cooperate with the two convex end portions 91, 92 of the clip 13 (see the ninth diagram) to obtain a foolproof effect, and the clip 13 has Eight core wires are placed in the slots 93 for the insertion of the core wires 20, and the terminals 12 pierce the core wires 20 in the core wire insertion slots 93. Each of the core wire insertion slots 93 has a tightening opening 120 as shown in FIG. To prevent the core wire 20 from jumping off. Referring to Fig. 13, the clip 13 has two core passing holes 131, 132 for the core wire 20 to pass through to the core insertion groove 93. Referring to the tenth figure, the outer frame portion 15 can have two recessed card slots 101, 102 for engaging the two protruding inner pins 16 of the inner latches 16, 111, 112. Further, from Fig. 14, it can be seen that the eight core wires 20 in the mesh path 21 pass through the wire clip shielding portion 151 of the seventh drawing and are placed in the wire clamp 13 of the ninth drawing. If viewed from another feasible perspective, the present invention is a core wire piercing device for a network socket (eg, a shielded network socket 10) that includes eight terminals 12, 19 mounted on a terminal In the seat 11, a wire clamp 13 is disposed on the terminal block 11 for placing a core wire 20, and an axially moving rotary member 14 is mounted on the terminal block 11, and the core wire 20 is located in the wire clamp. When between 13 and the terminal 12, the terminal 12 can pierce the core wire 20 by a rotation operation to electrically connect the core wire 20 and the terminal 12. Of course, the network socket using the device at this time may be the shielded network socket 10 described in the preceding paragraph. As for the core wire piercing device embodiment of the network socket, the other details of the shielded network socket 10 are not necessarily used. The part is as described in the previous paragraph, 1295520, so it will not be repeated here. In summary, the present invention can be implemented in a new design by using a rotating member mounted on the terminal block, so that the rotating member can perform a rotating motion and follow it in the terminal block. When the axial direction moves, and the core wire is used between the clamp and the terminal, the terminal can pierce the core wire to facilitate electrical connection between the core wire and the terminal. Therefore, anyone who is familiar with this skill can be modified by the ingenuity of the craftsmanship, but they are not protected by the scope of the patent application. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective exploded view of a preferred embodiment of a core wire puncture method of a shielded network socket of the present invention; FIG. 2 is a connection with a socket in the first figure; The third line is a schematic view of the inner base in the first figure; the fourth picture is an enlarged perspective view of the inner base in the first figure; A schematic diagram of a three-dimensional combination of a network socket in a figure; a sixth diagram: a front view of the clip shielding portion in the first figure; and a seventh preferred embodiment of the clip hiding portion in the first figure The side view is not intended, the eighth figure is a three-dimensional schematic view of the outer frame seat in the first figure; the ninth picture is a three-dimensional view of the line clamp in the first figure; the tenth picture: is the outer picture in the first picture Schematic diagram of the frame portion; Figure 11 is a schematic cross-sectional view of the inner base in the first figure; Figure 12: is a schematic cross-sectional view of the line clamp in the first figure; 11 1295520 = three:: first The rear view of the clip in the figure; and the eight cores of the four maps A three-dimensional diagram through the clip of the seventh center of the third center into the clip of the nine. [Main component symbol description] 10 · Shielded network socket 11 · Terminal block 12 · (Bottom) terminal 13 : Clamp 14 · · Rotating component / screw (nail) TN •• Rotation action AD: Axis direction 15 • • Outer frame portion 151 : Clamp shielding portion 16 : Inner base 161 · Receptacle body shielding portion 17 : Fixing member / Nut 18 : Central through hole 19 : Upper terminal 20 · Core wire 21 : Net route 30 : Retaining groove 41 : Top groove 50: Top through hole 60 81 83 93 Forced groove upper guide end retracted end core wire insertion groove 42: Bottom groove 51: Parallel mesh route inlet 70: Vertical mesh route entrance 82: Lower Guide portions 91, 92: raised ends 101, 102 · recessed card slots 120: constricted openings 131, 132: core through holes 12