200933999 六、發明說明: 【發明所屬之技術領域】 本發明係有關為了檢查,而用以將配設在電子 被檢查基板之被檢查侧的細線同軸連接器予以電性 測定器等而使用之中繼連接器。 逆楼在 【先前技術】 . 在行動電話機與餘相機之極小型且具備液晶 之電子機n中’係有將細線㈣連接器介裝於電性 液晶面板之電路,而構成可進行連接分離者。因此,於檢 查此液晶面板時,必須有-種可使細線同轴連接器電㈣ …接在測定器等甩之可簡單且確實地進行電性連接之 可與測定器分離的中繼連接器。 以往,以與配設在被檢查基板之被檢查侧的連接器处 .夠簡單地進行電性連接與分離的中繼連揍器而言,專 • 獻1所揭示之構造者係為人熟知。 〇 專利文獻1 :日本專利第321929號公報 【發明内容】 (發明所欲解決之課題) 然而,在專利文獻1所示之習知的中繼連接器中,僅 連接器的端子可作電性連接、分離,而沒考慮到接地電極, 且非對應同軸構造的細線同轴連接器。 因此,冀望實現一種中繼連接器,能對應細線同軸連 接器’而與同軸構造的中心導體所電性連接之端子自由地 電性連接、分離,同時,亦能對於同軸構造的外部導體所 4 320763 200933999 電性連接之接地電極自如地進行電性連接、分離。 本發明係根據此種要求而研創者,其目的在提供一種 中繼連接器,係對應同軸構造之細線同軸連接器,能與端 子及接地電極皆自如地進行電性連接、分離。 (解決課題之手段) ❹ 馮了達成上述目的,本發明之中繼連接器,係利用搖 動主軸搖動自如地配設由導電材料形成的第1夾具(cHp) 構件以及由絕緣材料形成的第2夾具構件,並在前述搖動 主軸之一方侧壓縮設置彈性體於前述第1夾具構件與第2 夾具構件之間,且以利用前述彈性體的彈力使前述第i夾 具構件與第2夾具構件之前述搖動主軸的另一方側關閉之 方式來彈性地推壓,並在前述第1失具構件的前述另一方 側且為前述第2夾具構件侧之面設置導溝,該導溝係供被 檢查侧的細線同軸連接器嵌合插入而予以定位者,並在前 述第2失具構件之與前述第1夾具構件相反側的面配設用 以電連接至測定H之電路基板,且在前述第2失具構件 的前述另-方側將探針配設成使其—端面對前述細線同轴 的端子Μ進行抵接之同時使其另—端抵接於前述 板的電路圖案’並於前述第2夾具構件之前述另一 ⑨彈簧連接H配設成使其—端叫 :::行抵接之同她-端抵接在前述電路= 此外亦可依下列方式來構成: 地配設第1夾具構件以及由絕緣材料形二2搖= 320763 200933999 件,並在刖述搖動主軸之一方侧壓縮設置彈性體於前述第 1夾具構件與第2夾具構件之間,且以利用前述彈性體的 彈力使前述第1夾具構件與第2夾具構件之前述搖動主軸 的另一方侧關閉之方式來彈性地推壓,並在前述第丨夾具 構件的前述另一方侧且為前述第2夾具構件侧之面設置導 '溝,該導溝係供被檢查侧的水平嵌合型細線同軸連接器嵌 •合插入而予以定位者,並在前述第2夾具構件之與前述第 ❹ 1夾具構件相反侧的面配設用以電性連接至測定器之電路 基板,且在别述第2夾具構件的前述另一方侧將探針配置 成使其一端面對前述細線同軸連接器的端子而可進行抵接 之同時另一端抵接於前述電路基板的電路圖案,並於前述 第2夾具構件的前述另一方侧以面對且可抵接於前述細線 同軸連接器之表面侧的接地電極之方式來配設導電金屬構 件,並配設成在前述導電金屬構件與前述電路基板的接地 圖案之間壓縮設置導電性的彈簧。 〇 此外,亦可藉下列方式來構成:利用搖動主轴搖動自 如地配設第1夾具構件以及由絕緣材料形成之第2爽具構 件,並在前述搖動主軸之一方侧壓縮設置彈性體於前述第 1夾具構件與第2夾具構件之間,且以利用前述彈性體的 彈力使前述第1夾具構件與第2夾具構件之前述搖動主軸 的另一方側關閉之方式來彈性地推壓,並在前述第丨夾具 構件的前述另一方侧且為前述第2失具構件侧之面設置導 溝,該導溝係供被檢查側的水平嵌合型細線同軸連接器嵌 合插入而予以定位者’並在前述第2夾具構件之與前述第 6 320763 200933999 1夾具構件相反侧的面配設用以電性連接至測定器之電路 基板’且在前述第2失具構件的前述另一方側將探針配設 成使其一端面對前述細線同轴連接器的端子而可進行抵接 之同時使其另一端抵接於前述電路基板的電路圖案,且在 前述第2夾具構件之前述另一方侧將彈簧連接器配設成使 •其一端面對且可抵接於前述細線同軸連接器的表面側之接 •地電極之同時使其另一端抵接在前述電路基板的接地圖 案。 ❹ * 並且’亦可依下列方式來構成:利用搖動主軸搖動自 如地配設第1夾具構件以及由絕緣材料形成之第2夾具構 件,並在前述搖動主軸之—方侧壓縮設置彈性體於前述第 1夹具構件與第2夾具構件之間,且以利用前述彈性體的 彈力使前述第1夾具構件與第2夾具構件之前述搖動主軸 的另一方側關閉之方式來彈性地推壓,並在前述第1夾具 -構件的前述另一方侧且為前述第2夾具構件侧之面設置導 D溝’該導溝係供被檢查侧的水平嵌合型細線同軸連接器嵌 合插入而予以定位者’並在前述第2夾具構件之與前述第 1 .夾具構件相反側的面配設用以電性連接至測定器之電路 基板’且在前述第2夾具構件的前述另一方側將探針配設 成使其一端面對前述細線同軸連接器的端子而可進行抵接 之同時另一端抵接於前述電路基板的電路圖案,且在前述 第2夾具構件之前述另一方側以面對前述細線同軸連接器 之表面侧的接地電極且可進行抵接之方式來配設導電金屬 構件’並配設成在前述導電金屬構件與前述電路基板的接 7 320763 200933999 ‘ 地圖案之間壓縮設置彈簧連接器。 此外,亦可藉下列方式來構成:將在前述第2失具構 件之則述另一方側以面對前述細線同軸連接器的表面侧 接地電極的方式所配設之前述導電金屬構件配設成,相= 於前述第2夾具構件相對地自由移動於前述第具構、 .的方向,而且從前述第2夾具構件的前述第i夾具構件= 之面㈣m於前述第1夾具構件侧之狀態而不脫離侧 此外,亦可以下列方式來構成:利用搖動主軸 如地配設第1夾具構件以及由絕緣材料形成之第2爽旦自 件’並在前述搖動主軸之一方侧壓縮設置彈性體於前 1夾具構件與第2夹具構件之間,且以利用前述彈性# 彈力使前述第1夹具構件與第2夾具構件之前述搖動紅 ,的另-方侧關閉之方式來彈性地推壓,並在前述第輪 =件的前述另-方側且為前述第2夾具構件側之面= 該導溝係供被檢查侧導 〇 以定位者,廿户a 疋牧时敢口插入而予 R . ^别述第2夾具構件之與前述第1失夏欉 ^反側的面配設用以電性連接至測定器 I,件 構件的前述另-方侧將探針配設上2 另-端輛連接器的端子而可進行抵接之同時使其 具構件之乂 :迷電路基板的電路圖案,並在前述第1夾 接地雷福I溝以面對前述細線同軸連接器之背面側的 構件之述來配設導電金屬構件,且於前述第2爽具 設在前1第!Γ方侧將彈餐連接器配設成使其一端面對配 具構件之前述導電金屬構件的端部而可進 320763 200933999 * 行抵接之同時使其另一端抵接於前述電路基板的接地圖 案。 並且,亦可依下列方式來構成:將配設於前述第1夾 具構件之前述導電金屬構件構成為,比前述導溝的底面稍 為浮出,同時,在配設前述細線同轴連接器且利用前述彈 - 性體的彈力而以前述第1夾具構件與前述第2夾具構件予 . 以央持時,會彈性變形而形成為與前述導溝的底面大致相 同的高度。 μ 此外並且,亦可藉下列方式來構成:利用搖動主軸搖 動自如地配設第1夾具構件以及由絕緣材料形成之第2夾 具構件,並在前述搖動主軸之一方側壓縮設置彈性體於前 述第1夾具構件與第2夾具構件之間,且以利用前述彈性 體的彈力使前述第1夹具構件與第2夾具構件之前述搖動 ' 主軸的另一方側關閉之方式來彈性地推壓,並在前述第1 夾具構件之前述另一方侧設置一導溝,以使被檢查侧之細 ❹ 線同軸連接器欲合插入而予以定位,且在前述導溝的底以 面對前述細線同軸連接器之背面側的接地電極之方式來配 設由導電材料所形成的接地板,並藉由電性連接在前述接 地板之由導電材料所形成的螺釘將前述接地板固定在前述 第1夾具構件,而且將前述螺釘以使其一端面對前述第2 夾具構件側之方式配設在前述第1夾具構件,並在前述第 2夾具構件之與前述第1夾具構件相反側的面配設用以電 性連接至測定器之電路基板,且在前述第2夾具構件的前 述另一方側將探針配設成使其一端面對前述細線同轴連接 9 320763 200933999 器的端子而可進行抵接之同時使其另一端抵接於前述電路 基板的電路圖案,並在前述第2夾具構件之前述另一方侧 將彈簧連接器配設成使其一端面對配設在前述第1夾具構 件之前述螺釘的與前述第2夾具構件面對之前述一端可進 行抵接之同時使其另一端抵接於前述電路基板的接地圖 • 姿 茶0 ' 再者’中繼連接器的特徵係構成為,前述第1夾具構 Q 件具備配設固定在前述另一端側之由另外個體所構成之導 塊’且在前述導塊設置前述導溝,同時配設前述接地板。 (發明的功效) 在申請專利範圍第1項之中繼連接器中,係以導電材 料形成設置有導溝之第1夾具構件,故當嵌合插入被檢查 側的細線同軸連接器於此導溝時,設置在細線同軸連接器 的背面側之接地電極抵接在第1夾具構件而電性連接。然 後’當以第1夾具構件與第2夾具構件夾持此細線同軸連 ❿接器時,經由探針對設置在第2夾具構件的電路基板之電 路圖案與細線同軸連接器的端子進行電性連接,同時,設 置在第2夾具構件之彈簧連接器抵接在第丨夾具構件而將 第1夾具構件與電路基板之接地圖案電性連接。因此,分 別將細線同軸連接器之同軸構造的端子與接地電極電性連 接於電路基板。水平嵌合型的細線同軸連接器於表面側與 背面側皆設置有接地電極,垂直嵌合型的細線同軸連接器 係在者面侧6Χ置有接地電極,故皆可與水平被合型與垂直 嵌合型之任一種細線同軸連接器對應。 320763 10 200933999 此外’在申請專利範圍第2項之中繼連接器中,係與 接地電極亦設置在表面侧之水平嵌合盤的細線同轴連接器 對應α置在第2夹具構件之導電金屬構件抵接在細線同 軸連接器之表面侧的接地電極,且此導電金屬構件與電路 基板之接地圖案仙由導電性的彈簧進行電性連接。第i 炎具構件可由m旨等絕緣材料來形成。[Technical Field] The present invention relates to an electric measuring device or the like for attaching a thin-wire coaxial connector disposed on an inspection side of an electronic inspection substrate for inspection. Following the connector. In the case of the [previous technology]. In the extremely small and liquid crystal electronic machine n of the mobile phone and the remaining camera, there is a circuit in which the thin wire (four) connector is interposed in the electrical liquid crystal panel, and the connection can be separated. . Therefore, when inspecting the liquid crystal panel, it is necessary to have a relay connector which can electrically connect the thin-wire coaxial connector (4) to a measuring device or the like, which can be easily and surely electrically connected and can be separated from the measuring device. . Conventionally, it is known that the structure disclosed in the first embodiment is well-connected to a relay connector that is easily connected to the connector on the inspection side of the substrate to be inspected. . [Patent Document 1] Japanese Patent No. 321929 [Invention] [Problems to be Solved by the Invention] However, in the conventional relay connector shown in Patent Document 1, only the terminals of the connector can be electrically operated. A thin-wire coaxial connector that is connected, separated, and does not take into account the ground electrode, and does not correspond to a coaxial structure. Therefore, it is expected that a relay connector can be electrically connected and disconnected to the terminal electrically connected to the central conductor of the coaxial structure corresponding to the thin-wire coaxial connector, and at the same time, the external conductor of the coaxial structure can also be used. 320763 200933999 The grounding electrode of the electrical connection is electrically connected and separated freely. The present invention has been made in view of such a demand, and an object thereof is to provide a relay connector which is a thin-wire coaxial connector corresponding to a coaxial structure and which can be electrically connected and separated from a terminal and a ground electrode. (Means for Solving the Problem) ❹ In order to achieve the above object, the relay connector of the present invention is configured by arranging a first jig (cHp) member made of a conductive material and a second member made of an insulating material by a rocking spindle. a clamp member that compresses and provides an elastic body between the first clamp member and the second clamp member on one side of the swing spindle, and causes the aforementioned i-th clamp member and the second clamp member by the elastic force of the elastic body The other side of the swinging main shaft is elastically pressed, and a guide groove is provided on the other side of the first dislocation member and on the surface of the second jig member side, and the guide groove is provided for the inspection side. The thin-wire coaxial connector is inserted and positioned, and a circuit board for electrically connecting to the measurement H is disposed on a surface of the second dislocation member opposite to the first jig member, and the second The other side of the dislocation member is disposed such that the end face abuts the terminal 同轴 coaxial with the thin wire while abutting the other end of the circuit pattern of the plate 2 The other 9 spring connection H of the clamp member is arranged such that the end of the line is abutted with the her-end in the above-mentioned circuit = and can also be constructed in the following manner: The clamp member and the insulating material are formed in the shape of a spring, and the elastic member is compressed between the first clamp member and the second clamp member, and the elastic force of the elastic body is utilized. The first clamp member and the second clamp member are elastically biased so as to close the other side of the swing main shaft, and are on the other side of the second clamp member and on the second clamp member side. a guide groove is provided, and the horizontal fitting type thin wire coaxial connector on the inspection side is inserted and inserted to be positioned, and the surface of the second clamp member opposite to the first 夹具 1 clamp member is provided A circuit board electrically connected to the measuring device is disposed, and the probe is disposed such that one end thereof faces the terminal of the thin-wire coaxial connector on the other side of the second clamp member, and the abutting can be performed. At the same time The end is in contact with the circuit pattern of the circuit board, and the conductive metal member is disposed on the other side of the second jig member so as to face the ground electrode on the surface side of the thin-wire coaxial connector. And being disposed to compress and provide a conductive spring between the conductive metal member and the ground pattern of the circuit board. In addition, the first clamp member and the second refresher member formed of an insulating material may be disposed by shaking the main shaft, and the elastic body may be compressed and provided on one side of the swing main shaft. 1 between the clamp member and the second clamp member, and elastically pressing the other of the first clamp member and the second clamp member on the other side of the swing main shaft by the elastic force of the elastic body, and The other side of the second clamp member is provided with a guide groove on the surface of the second retracting member side, and the guide groove is fitted and inserted by the horizontal fitting type thin wire coaxial connector on the inspection side to be positioned. a circuit board for electrically connecting to the measuring device is disposed on a surface of the second clamp member opposite to the clamp member of the sixth 320763 200933999 1 and the probe is disposed on the other side of the second lost member Provided such that one end thereof faces the terminal of the thin-wire coaxial connector and can abut while the other end abuts against the circuit pattern of the circuit board, and in the second clip The other side of the member is disposed such that one end thereof faces and can abut on the surface side of the thin-wire coaxial connector while the other end abuts on the circuit board Ground pattern. ❹ * and 'may be configured by: arranging a first clamp member and a second clamp member formed of an insulating material by a rocking spindle, and compressing the elastic body on the side of the rocking spindle The first jig member and the second jig member are elastically pressed so that the other side of the rocking main shaft of the first jig member and the second jig member is closed by the elastic force of the elastic body, and The other side of the first jig-member is provided with a guide D groove on the surface of the second jig member side. The guide groove is fitted and inserted by the horizontal fitting type thin wire coaxial connector on the inspection side. And a circuit board for electrically connecting to the measuring device is disposed on a surface of the second clamp member opposite to the first clamp member, and the probe is disposed on the other side of the second clamp member Providing one end of the thin-wire coaxial connector to be abutted while the other end abuts against the circuit pattern of the circuit board, and the other of the second clamp member The square side is disposed so as to be in contact with the ground electrode on the surface side of the thin-wire coaxial connector, and is disposed to be in contact with the conductive metal member and the circuit board. A spring connector is compressed between the patterns. Further, the conductive metal member may be disposed so as to face the surface-side ground electrode of the thin-wire coaxial connector on the other side of the second lost member. The phase of the first clamp member is relatively freely movable in the direction of the first configuration, and the surface of the second clamp member is the surface of the first clamp member. In addition, the first clamping member and the second cooling member formed of an insulating material may be disposed by using a rocking spindle, and the elastic body may be compressed on one side of the rocking spindle. 1 between the clamp member and the second clamp member, and elastically pressing the other side of the first clamp member and the second clamp member to be closed by the elastic force, and The other side of the first wheel = the side of the second clamp member side = the guide groove is for the inspection side guide to be positioned, and the Seto a 敢 疋 敢 敢 插入 插入 插入 插入 插入 . The second fixture structure The surface opposite to the first side of the first summer device is disposed to be electrically connected to the measuring device I, and the other side of the member member is provided with a terminal of the second end-end connector. At the same time as the contact, the circuit pattern of the circuit board is provided, and the conductive metal is disposed in the first clip grounding Leifu I groove to face the member on the back side of the thin-wire coaxial connector. It is the first, and it is the first one! The side of the crucible is disposed such that one end thereof faces the end of the conductive metal member of the accessory member and can be brought into contact with the other end of the circuit substrate while the other end is abutted at 320763 200933999 * pattern. Further, the conductive metal member disposed in the first jig member may be configured to float slightly above the bottom surface of the guide groove, and the thin coaxial connector may be disposed and used. The elastic force of the elastic body is set to be substantially the same height as the bottom surface of the guide groove when the first clamp member and the second clamp member are held by the first clamp member. Further, the first jig member and the second jig member formed of an insulating material may be disposed by shaking the main shaft, and the elastic body may be compressed and provided on one side of the rocking spindle. 1 between the clamp member and the second clamp member, and elastically pressing the other of the first clamp member and the second clamp member to close the other side of the main shaft by the elastic force of the elastic body, and a guide groove is disposed on the other side of the first clamp member so that the fine-wire coaxial connector on the inspection side is to be inserted and positioned, and at the bottom of the guide groove to face the thin-wire coaxial connector. a grounding plate formed of a conductive material is disposed on the back side of the grounding electrode, and the grounding plate is fixed to the first clamp member by a screw electrically connected to the grounding plate by a conductive material, and The screw is disposed on the first clamp member such that one end thereof faces the second clamp member side, and the first clamp member and the first a circuit board electrically connected to the measuring device is disposed on a surface opposite to the clamp member, and the probe is disposed on the other side of the second clamp member such that one end thereof is coaxially connected to the thin wire 9 320763 The terminal of the 200933999 device can be abutted while the other end thereof abuts against the circuit pattern of the circuit board, and the spring connector is disposed on the other side of the second clamp member so that one end thereof faces The one end of the screw of the first jig member that faces the second jig member is capable of abutting and the other end of the screw is in contact with the ground plane of the circuit board. The connector is characterized in that the first jig-constituting member includes a guide block that is fixed to the other end side and is provided by another individual, and the guide groove is provided in the guide block, and the connection is provided. floor. (Effect of the Invention) In the relay connector of the first aspect of the invention, the first clamp member provided with the guide groove is formed of a conductive material, so that the thin-wire coaxial connector that is fitted into the inspection side is guided In the case of the groove, the ground electrode provided on the back side of the thin-line coaxial connector abuts on the first jig member and is electrically connected. Then, when the thin wire coaxial splicer is sandwiched between the first jig member and the second jig member, the circuit pattern of the circuit board provided on the second jig member is electrically connected to the terminal of the thin coaxial connector via the probe. At the same time, the spring connector provided in the second clamp member abuts against the second clamp member to electrically connect the first clamp member to the ground pattern of the circuit board. Therefore, the terminals of the coaxial structure of the thin-wire coaxial connector and the ground electrode are electrically connected to the circuit board, respectively. The horizontally-fitting thin-wire coaxial connector is provided with a ground electrode on both the front side and the back side, and the vertical-fitting type thin-wire coaxial connector has a ground electrode on the side of the face 6 so that it can be combined with the horizontal type. Any of the vertical type coaxial connectors of the vertical fitting type corresponds to each other. 320763 10 200933999 In addition, in the relay connector of the second application patent range, the thin-wire coaxial connector of the horizontal fitting disk which is also disposed on the surface side with the ground electrode corresponds to the conductive metal placed on the second clamp member. The member abuts against the ground electrode on the surface side of the thin-wire coaxial connector, and the conductive metal member and the ground pattern of the circuit substrate are electrically connected by a conductive spring. The i-th insulating member may be formed of an insulating material such as m.
❹ 然後’在申請專利範圍第3項之中繼連接器中’藉由 。又置在第2夹具構件之彈簧連接器,對設置在水平嵌合型 之細線同轴連接器的表面側之接地電極與電路基板之接地 圖案進行電性連接,故其構造簡單。 並且,在申請專利範圍第4項之中繼連接器中,取代 =請專利範圍第2項的彈簧’而使用彈簧連接器,由於彈 '、接器之電佳連接的確實性以及將彈簧連接器配設於第 2央具構件之構造容易等之理由,故設計的自由度大。 此外,在申請專利範圍第5項之中繼連接器中,導 金屬構件抵接於水核合型之細線同軸連接 接地電極時,彈簧或彈簧連接器之 而得到確實的電性連接。 生連接 於與人^ "科蚊中繼連接ϋ中,設j 於嵌。插人到第i夾具構件料溝之細線同軸連接 面侧之接地電極係抵接於導電金屬構件而作電性^接[ =置在第2爽具構件之彈簧連接器係將設置在第;: ”構件之導電金屬構件與電路基板4地圖: 接。可與水平嵌合型與垂直嵌合型中 ^電眭1 任一者的細線同4 320763 200933999 連接器對應。而且,可用樹脂等絕、緣材料來形成第i夾具 構件。 此外,在申請專利範圍第7項之中繼連接器中,設置 在第1,具構件之導電金屬構件係設成從導溝之底猶微浮 上,而备嵌合插入在導溝之細線同軸連接器藉由第1夾具 f件與第2夾具構件祕時,由於導電金屬構件產生彈性 變形而成為與導溝的底面幾乎相同的高度,故可將導電金 〇屬構件彈ϋ連接到接地電極來進行確實的電性連接。 並且,在申請專利範圍第8項之中繼連接器中,由於 在第夹/、構件之導溝的底配設有接地板,故設置於複合 插入到導溝之細線同軸連接器的背面侧之接地電極係抵接 於接地板而可進行電性連接。並且,設置在第2夾具構件 之彈簧連接器係抵接於將接地板配設固定於第1爽具構件 •之由導電材料所構成的螺釘之一端,而將接地板與電路基 板之接地圖案作電性連接。可與水平嵌合型與垂直嵌合型 ©巾之任-者的細線同軸連接器對應。而且,亦可使用樹脂 等絕緣材料來形成第1夾具構件。 再者,在申請專利範圍第9項之中繼連接器中,第i 夾’、構件具備配設固定在另一端側之由不同個體所構成之 導塊、’且由於在此導塊設置導溝之同時也配設接地板,故 藉由準備形成按照被铁合插入而定位之被檢查側的細線同 轴,,11之形狀尺寸的導紅導塊,便可透過交換此導塊 而簡單地對應不同的細線同軸連接器。 【實施方式】 320763 12 200933999 以下’參照第1圖至第8圖來說明本發明的第1實施 例。第】圖係本發明的t繼連接器之第!實施例的平面圖。 第2圖係第1圖的正視圖。第3圖係第1圖之開口狀離的 正視圖。第4圖係第!圖之A_A剖面從箭號方向觀視· 不。第5_第1 剖面從箭號方向觀視之圖示。 第6圖係第1圖之中繼連接器的分解立體圖。第7圖係表 不與垂直後合型的細線同軸連接器對應之導溝,⑷係從導 〇 溝與垂直後合型的細線同軸連接器之上所看的立體圖 係由垂直嵌合型的細線同轴連接器之下所看的立體圖。第 8圖係表不與水平嵌合型之細線同軸連接器對應的導溝, ⑻係從導溝與水平嵌合型的細線同軸連接器之上所看的 ^圖,_由水平嵌合型的細線_連接器之下所看的 立體圖。 為m圖至第8圖中,本發明之中繼連接器係構成 Ο 第2尤 轴14搖動自如地配設第1爽具構件10與 ^夾具構件12,且在搖動主軸Μ之—方側於第❹ Then 'in the relay connector of item 3 of the patent application'. Further, the spring connector provided in the second jig member electrically connects the ground electrode provided on the surface side of the horizontal fitting type thin-wire coaxial connector to the ground pattern of the circuit board, so that the structure is simple. In addition, in the relay connector of the fourth application patent range, the spring connector is used instead of the spring of the second item of the patent scope, because of the authenticity of the connection of the spring and the connector, and the spring connection Since the structure of the second centering member is easy to be arranged, the degree of freedom in design is large. Further, in the relay connector of the fifth application of the patent application, when the metal guiding member abuts against the water-core type coaxial wire coaxially connecting the grounding electrode, the spring or the spring connector is surely electrically connected. The student is connected to the person &"Ki Mosquito relay connection, set j to embed. The ground electrode that is inserted into the side of the coaxial line connecting surface of the i-th clamp member groove abuts against the conductive metal member for electrical connection [= the spring connector that is placed on the second refresher member is set in the first; : "Characteristics of the conductive metal member of the member and the circuit board 4: Connected. It can be used with the thin wire of either the horizontal fitting type or the vertical fitting type." The connector corresponds to the connector of 4 320763 200933999. Further, in the relay connector of the seventh aspect of the invention, in the relay connector of the seventh aspect of the invention, the conductive metal member having the member is arranged to float from the bottom of the guide groove, and When the thin-wire coaxial connector that is inserted into the guide groove is made of the first jig member and the second jig member, the conductive metal member is elastically deformed to have almost the same height as the bottom surface of the guide groove, so that the conductive member can be electrically conductive. The metal armor member magazine is connected to the ground electrode for a reliable electrical connection. Moreover, in the relay connector of the eighth aspect of the patent application, the bottom of the guide groove of the first clip/member is provided with the connection. Floor, so set in composite The ground electrode on the back side of the thin-wire coaxial connector inserted into the guide groove is electrically connected to the ground plate, and the spring connector provided in the second clamp member abuts against the ground plate. The grounding plate and the grounding pattern of the circuit board are electrically connected to one end of the screw composed of the conductive material of the first refreshing member, and can be combined with the horizontal fitting type and the vertical fitting type. In addition, the first clamp member may be formed of an insulating material such as resin. Further, in the relay connector of the ninth application patent, the i-th member and the member are provided and fixed. A guide block composed of different individuals on the other end side, and a grounding plate is disposed at the same time as the guide groove is provided in the guide block, so that a thin line to be inspected on the side to be inspected by the iron insertion is prepared. Coaxial, 11-size red-conducting guide blocks can be easily exchanged for different thin-wire coaxial connectors by exchanging the guide blocks. [Embodiment] 320763 12 200933999 The following 'refer to Figures 1 to 8 Say BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a plan view showing a second embodiment of a t-connector of the present invention. Fig. 2 is a front view of Fig. 1. Fig. 3 is an opening of Fig. 1 The front view is shown in Fig. 4. The A_A section of the figure is viewed from the direction of the arrow. No. The 5th to 1st section is viewed from the direction of the arrow. Fig. 6 is the relay connection of Fig. 1. The exploded perspective view of the device. Figure 7 shows the guide groove corresponding to the vertical-coaxial type thin-wire coaxial connector, and (4) the stereoscopic view seen from the guide groove and the vertical-back type thin-wire coaxial connector. A perspective view of a vertically-fitted thin-wire coaxial connector. Figure 8 shows a guide groove that does not correspond to a horizontal-fitting type thin-wire coaxial connector. (8) A guide wire and a horizontally-fitted thin wire The figure seen on the coaxial connector, _ is a perspective view seen from the horizontal fitting type thin wire_connector. In the case of the m-picture to the eighth figure, the relay connector of the present invention is configured such that the first and second clamp members 12 and the clamp member 12 are oscillated freely, and the side of the spindle is swung. Yu Di
夾具構件12之間顧設置作為彈性K 性以彈簧16,16···的彈力賦予彈 14的/ 具構件1〇與第2夾具構件12之搖動主軸 在搖動主° ^ 1夹具構件1〇係由導電材料形成,並 置導^ —方側且為第2夾具構件12側的面設 照第7圖所示之垂直_的 或第8圖所示之水平嵌合型的細線同軸 盗20之形狀而形成,且進行嵌合插入到此導溝心之 320763 13 200933999 細線同軸連接器20的定位。此外,導溝1〇a由平面來看, 第1夾具構件1〇的緣部之部分呈細的大致T字形,其深 度係與細線同軸連接器20之厚度相同。 第2夾具構件π係由樹脂等絕緣材料所形成,並在 搖動主軸14之另一方侧固定有由絕緣材料所形成之插銷 固疋座(pm block) 12a。以包含此插銷固定座i2a之方式構 '成第2失具構件12。在插銷固定座12a,係配設有探針 0 22,22…’以使該等探針之一端可面向並抵接在設置於嵌合 插入在第1夾具構件1〇的導溝10a之細線同轴連接器20 的表面侧之端子20a,20a,並配設彈簧連接器24,24以使該 等彈簧連接器之一端靠接於第 1夾具構件10。並且’在此 第2夾具構件12之與第1夾具構件1〇之相反侧的面,配 设有用以進行電性連接至測定器之電路基板18,並設成令 探針22,22…之另一端抵接於設置在電路基板18之電路圖 案’且令彈簧連接器24,24的另一端抵接於設置在電路基 © 板18之接地圖案。並且,以覆蓋此電路基板18之方式配 設由絕緣材料所形成之覆蓋構件26。再者,將探針22,22.·· 各者嵌合插入到穿設在插銷固定座12a之多數個探針用孔 來予以配設固定,且將彈簧連接器24,24嵌合插入在彈簧 連接器用孔12c,12c而予以配設固定。插銷固定座12a,係 在上述實施例中為了容易進行製造起見而製造成與第2夾 具構件12為分開的零件,並將其固定在第2夾具構件12 成為一體化,但不用說亦可將插銷固定座12a與第2夾具 構件12製造成一體。 14 320763 200933999 在此種構成中,如第3圖所示,抵抗線圈彈簧μ ^ 之彈力,關閉第1夾具構件10與第2夾具構件12 ’ 6··· 主軸14的一方側,並使另一方侧呈開口狀態。在此=搖動 狀態下,將細線同軸連接器20嵌合插入於第丨 汗之 10的導溝l〇a來定位,並解除抗拒彈力而關閉第1决件 件10與第2夾具構件12之一方側的力量。如此一來具構 由線圈彈簧16,16…的彈力,如第2圖所示關閉第i ,藉 ❹ Ο 構件10與第2夾具構件12之搖動主軸14的另一蠕伯^具 將細線同軸連接器20以第1夾具構件1〇與第2 ⑨’而 12夾持。在此,探針22,22…的一端抵接於細線同^ =件 器20的端子2〇a,20a…,且經由上述探針2? π ‘,々·.·將端子 20a,20a…電性連接在電路基板18的電路 ^ ^ . 來同時,强 簧連接器24,24的一端抵接於第1夾具構件1〇, ^ 述彈簧連接器24,24對第1夾具構件1〇與電路基板 接地圖案進行電性連接。然後,在第7圖所示之垂 的 型及第8圖所示的水平嵌合型中之任一者的細線同嵌5 器20中,皆由於在其背面侧設置有接地電 連接 %u,故藉由 嵌合插入到導溝l〇a使接地電極20b抵接於第1夹耳構 10而予以電性連接。因此,經由彈簧連接器24,24與第二 失具構件10,將細線同軸連接器20之接地電極2〇b'電性 連接於電路基板18之接地圖案。因此’將細線同軸連接器 2〇之同軸構造的端子20a,20a…與接地電極2〇b分別電性 連接在電路基板18的電路圖案與接地圖案。此外,由於將 導溝10a設為從平面來看大致呈T字形,故嵌合插入到導 320763 15 200933999 溝10a之凡線同轴連接器2〇只有在相對於第^央具構件 10朝第2夹具構件12之方向移動時才可被取出而在細 線同軸連接器20文到第j夹具構件1〇與第2夾具構件^ 夹持之狀態下無法取出,且在檢查中無探針22,22·..從端 子2〇a,20a.·.偏離之虞慮。 其-人’參照第9圖至第u圖來說明本發明之第2實 •施例。第9圖係本發明中繼連接器之第2實施例的分解立 ❹體圖。第1G圖係第9圖所示之中繼連接器的組合狀態之主 要部分的縱剖面圖。第u圖係表示設置在第2夾具構件之 導電金屬構件的第10圖之c_c剖面從箭號方向觀視之圖 不。在第9圖至第11圖中,係在與第1圖至第8圖所示之 構件相同或相等的構件附加相同的符號而省略重複的說 明0 、在第9圖至第η圖所示之本發明第2實施例之中繼 連接器,係與在表面侧亦設置有接地電極施之水平嵌人 〇型的細線同軸連接器20對應。在此第2實施例中,鱼第^ 實施例不同之處,係如以下者。首先,在第2實施例中, 第i夹具構件10不須由導電材料所形成,亦可由樹脂等嗯 緣材料來形m,將導電金屬構件3()插人配設到穿設 於插銷固定座12a之收納m2b。如第n圖所示,: 導電金屬構件30係相對於插銷固定座12a相對地朝第1 夾具構件10的方向於少許範圍内自由移動,而且以稍微突 出於第1夾具構件1〇側之狀態下限制其脫出。並且,此導 電金屬構件30係配設成面向並可抵接於設置於嵌合插入 320763 16 200933999 在第1夾具構件10的導溝l〇a而定位之細線同軸連接器 20的表面侧之接地電極20b。此外,在此導電金屬構件30 與電路基板18之間壓縮設置由導電材料所形成的彈箸 32,32,且將導電金屬構件30電性連接在電路基板18的接 地圖案。再者,分別將彈簧32,32的一端嵌合於設置在導 電金屬構件30之突起部30a,30a而予以配設固定。 - 在此種構成之本發明第2實施例之中繼連接器中,與 第1實施例不同,係第1夾具構件10不作為細線同轴連接 器20之接地電極20b的導電路徑之用,而可由樹脂等絕緣 材料形成。 此外,參照第12圖及第13圖來說明本發明的第3實 施例。第12圖係本發明的中繼連接器之第3實施例的分解 立體圖。第13圖係第12圖所示之中繼連接器的組合狀態 ' 之主要部分的縱剖面圖。在第12圖及第13圖中,於與第 1圖至第11圖所示之構件相同或相等之構件附加相同符號 ❹ 而省略重複的說明。 在第12圖及第13圖所示之本發明第3實施例之中繼 連接器中,與第2實施例相同,係與在表面侧亦設置有接 地電極20b之水平嵌合型的細線同軸連接器20對應。在此 第3實施例中,與第2實施例不同之處,係沒設置有第2 實施例之導電金屬構件30,而將插入配設在穿設於插銷固 定座12a的彈簧連接器用孔12c,12c之彈簧連接器24,24 的一端,以面對設置於嵌合插入在第1夾具構件10的導溝 10a而定位之細線同軸連接器20的表面侧之接地電極20b 17 320763 200933999 而可直接進行抵接之方式予以配設。此彈簧連接器2424 的另一端係抵接在電路基板18的接地圖案。 在此種構成的本發明之第3實施例的中繼連接器中, 與第2實施例不同,不需導電金屬構件30,構造變為簡單。 然後’參照第14圖及第15圖來説明本發明之第4實 施例。第14圖係本發明中繼連接器之第4實施例的分解立 體圖。第15圖係第14圖所示之中繼連接器的組合狀熊之 主要部分的縱剖面圖。於第14圖及第15圖中,在與第j 圖至第13圖所示之構件相同或相等的構件附加相同符號 而不作重複的說明。 ❹ 在第Η圖及第15圖所示之本發明第4實施例之中繼 連接器中,與第2實施例及第3實施例相同,為與在表面 侧亦設置有接地電極20b之水平嵌合塑的細線同軸連接器 20對應。在此第4實施例中,與第2實施例不同之處,係 取代第2實施例之彈簧32,32,而配設成:使插入配設在 穿設於插銷固定座12a之彈簧連接器用孔12c,12c之彈簧連 接,24,24的一端抵接於導電金屬構件3〇,且使此彈簧連 接器24,24的另—端抵接在電路基板18的接地圖案。 由於成之本發明的第4實施例之中繼連接器中, :取^於第2實施例所用之彈菁邮而使 态24,24,故可提升電性連 頁逆接 施例之用以固定彈簧連接器二:實性,且不需如第2實 利用穿設於插咖定座12a之^之技部施,遍’而可 地配設固定彈簧連接器2424簧連接器用孔12c,12簡單 320763 18 200933999 ' 並且,參照第16圖至第18圖來說明本發明之第5實 施例。第16圖係本發明中繼連接器的第5實施例之分解立 體圖。第17圖係表示設置在第16圖所示之中繼連接器的 組合狀態之第1夾具構件之導電金屬構件的縱剖面圖。第 18圖係表示設置在第16圖所示之中繼連接器的組合狀態 之第1夾具構件的其他例子之導電金屬構件的縱剖面圖。 在第16圖至第18圖中,在與第1圖至第17圖所示之構件 相同或相等的構件附加符號而省略重複的說明。 ® 在第16圖至第18圖所所示之本發明第5實施例之中 繼連接器中,與第1實施例相同,亦與於背面側設置有接 地電極20b之垂直嵌合型及水平嵌合型中之任一者的細線 同軸連接器20對應。在此第5實施例中,與第1實施例不 同之處,係構成為:在第1夹具構件10的導溝l〇a之底, 配設導電金屬構件36,且抵接於嵌合插入在導溝10a之細 線同軸連接器20的背面侧之接地電極20b。此外,此導電 ❹ 金屬構件36之兩端部係形成為,被折彎為連接有2個大致 L字狀之略階梯狀,其兩端係形成與第1夾具構件10的第 2夾具構件12侧之面大致成為相同。且設成為:令設置在 第2夾具構件12之彈簧連接器24,24的一端面對且可進行 抵接於設成與此第1夾具構件10的面大致相同之導電金屬 構件36的兩端部。然後,關於導電金屬構件36的構成, 做為一例者,係由具有彈性之薄金屬板所構成,且如第17 圖所示,接觸導溝l〇a的底之部分係以稍微浮起之方式形 成為彎曲,而嵌合插入在導溝10a之細線同轴連接器20 19 320763 200933999 ❹ *受到第1夾具猶10與第2夾具構件12夾持時,形成為 彎曲之部分產生彈性變形而成為與導溝的底面大致相 同的高度。此外’轉電金屬構件36之其他的例而言 構成如第18圖所示,為了將其兩端形成為與第!夹^構件 10之第2夾具構件12側的面成為大致相同而折彎成大致 .為L字狀之部分係被強烈地折彎成稍高於%度以上,而 形成為使面向導溝l〇a的底之部分稍微浮起,而嵌合插入 在導溝l〇a之細線同轴連接器2〇受到第】夾具構件忉與 ^ 2夾具構件12夾持時,以兩端受到強烈折弯而大致成^ 字狀之折彎的部分之折變角度變為猶微和緩之方式產生 性變形而成為與導溝l〇a的底面大致相同的高度。 ❹ 在此種構成之本發明第5實施例之中繼連接器中,與 第1實施例相同,亦可與在背面侧具有接地電極薦之垂 直嵌合型及水平喪合型中之任一者的細線同轴連接器2〇 對應。然後’經由導電金屬構件36與彈菁速接器24,2 細線同軸連接器20之接地電極細予以電性連接於電路美 板18的接地圖案,故不須以導電材料來形成第i夾具構$ !〇,而可使用樹脂等絕緣材料來形成。此外,如第η圖及 18圖所不’右將導電金屬構件36彈性連接於設置在细 =同軸連㈣2G㈣面側之接地電極施,卿電金屬構 件36便確實地電性連接於接地電極20b。 並且’參照第19圖及第2〇圖來說明本發明第6實施 例第19圖係本發明令繼連接器的第6實施例之第工夹具 構件的刀解立體圖。第2〇圖係表示第19圖所示之第1爽 320763 20 200933999 在第 具構件的組合狀態之接地板的配設固定之縱剖面阓件相同 19圖及第20圖中,於與第1圖至第18圖所示之構 或相等之構件附加相同符號而省略重複的說明。 中孅 於第I9圖及第2〇圖所示之本發明第6實施例背面 連接器中,與第1實施例及第5實施例相同’亦與之释 侧設置有接地電極20b之垂直嵌合型及水平嵌合趣中與第 一者的細線同軸連接器20對應。在此第6實施例中/ Ο 5實施例不同之處,係在第1夾具構件ίο之另/鄕 ,^ 外形成之導塊l〇b加以適當地定位且藉螺釘等予以® 在此導塊l〇b設置導溝l〇a,並以形成該導溝l〇a的底 式配設由導電材料所形成之接地板38。以包含此導塊 之方式構成第1夾具構件10。接地板38係藉由從第1夫 具構件10之第2夾具構件12侧的面插入並螺合的由導電 材料所形成之螺釘40,40所固定。此螺釘40,40的一端之 • 頭部的先端.面,係設為與第1夾具構件1〇的第2夾具構件 ❹ 侧之面大致相同,且以面對著第2夾具構件12之方式 所配設。然後’設置在第2夾具構件12之彈簧連接器24,24 的一端係設成面對螺釘40,40的一端而可進行抵接。因 此,嵌合插入在導溝10a之細線同軸連接器2〇的背面侧之 接地電極20b係抵接於接地板.38而進行電性連接,並且嵌 合插入在導溝10a之細線同軸連接器2〇受到第丨夾具構件 1〇與第2夹具構件12夾持時,彈簧連接器24,24的一端 係抵接在螺釘40,40的一端來進行電性連接。 在此種構成的本發明第6實施例的中繼連接器中,與 320763 21 200933999 第1實施例及第5實施例相同,亦可與在背面側具有接地 電極20b之垂直喪合型及水平嵌合型中之任—者的細線同 軸連接器20對應。然後,細線同轴連接器2〇之接地電極 20b係經由接地板38與螺釘40,40及彈簧連接器24,24而 電性連接於電路基板18的接地圖案。因此,不須利用導電 . 材料來形成包含導塊l〇b之第1夾具構件1〇,而可利用樹 脂等絕緣材料來形成。再者,導塊l〇b係藉著螺釘而配設 〇 固定在第1夾具構件10,故可容易且簡單地進行交換。因 此’若準備幾個設置有按照被檢查側的細線同轴連接器20 之尺寸形狀的導溝l〇a之不同的導塊1〇b,便亦可簡單地對 應不同形狀之細線同軸連接器2〇。此外,由導電材料所形 成之螺釘40,40,在上述實施例中,係從第2夾具構件12 侧的面插入到導塊l〇b而螺合在接地板38,但不限於此, 亦可由接地板38側插入到導塊i〇b而使螺釘40,40嫘合於 設置在導塊l〇b之母螺紋。在此種構造中,只要設成,使 ❹螺釘40,40的前端面以面對第2夾具構件12之方式構成, 且彈簧連接器24,24可抵接於該螺釘40,40的前端面即 以上詳細地且參照特定的實施態樣說明了本發明,但 在不脫離本發明的精神與範圍下可作種種的變更與修史, 此對本業者而言可清楚理解。 本申請案係根據2007年11月8曰申請的曰本專利申 請案(特願2007-290626)者,在此將該内容作為參照而加以 納入0 (產業上之利用可能性) 320763 200933999 機與數位相機之=明之中繼連接器,係在如行動電話 檢查此液晶面板日寺J備有液晶面板之電子機器中,於 定器等、同時且可與將_連接器電性連接於挪 f圖式@單說明】、”、繼連接11而言為有助益者。 弟圖係本發明中繼廉 第2圖係〜圖的正視圖。第⑼例的平面圖。 ❹ =::::的開口狀態之正視圖。 第5圖係第^ “剖面從箭號方向觀視之圖示。 第6圖係第1圖之^剖面從箭號方向觀視之圖示。 第7圖係表、觀接㈣分解立體®。 導溝,⑷係從導直嵌合型的細線同軸連接器對應之 看的立體圖,(b)係:直嵌合型的細線同軸連接 器之上所 看的立體圖。、直嵌合型的細線同軸連接 器之下所 ο 第8圖係表示與、, 導溝,(a)係從導溝平嵌合型的細線同軸連接器對應之 看的立體圖,(b)係^欠:嵌合型的細線同軸連接器之上所 看到的立體圖β 、尺平嵌合型的細線同軸連接器之下所 第9圖係本發明中 圖。 埂接态之第2實施例的分解立體 第10圖係第9圖% 要部分的縱剖面圖。#不之中繼連接器的組合狀態之主 第η圖係表示設署 在第2夾具構件的導電金屬構件 320763 23 200933999 ’ 之第10圖的C-C剖面從箭號方向觀視之圖示。 第12圖係本發明中繼連接器之第3實施例的分解立 體圖_。 第13圖係第12圖所示之中繼連接器的組合狀態之主 要部分的縱剖面圖。 • 第14圖係本發明中繼連接器之第4實施例的分解立 . 體圖。 第15圖係表示第14圖所示之中繼連接器的組合狀態 之主要部分的縱剖面圖。 第16圖係本發明中繼連接器之第5實施例的分解立 體圖。 第17圖係表示設置在第16圖所示之中繼連接器的組 合狀態之第1夹具構件之導電金屬構件的縱剖面圖。 第18圖係設置在第16圖所示之中繼連接器的組合狀 態之第1爽具構件之其他的例之導電金屬構件的縱剖面 ❹圖。 第19圖係本發明中繼連接器之第6實施例的第1夾 具構件之分解立體圖。 第20圖係表示第19圖所示之第1夾具構件的組合狀 態之接地板的配設固定之縱剖面圖。 【主要元件符號說明】 10 第1夾具構件 10a 導溝 10b 導塊 24 320763 200933999 ' 12 第2夾具構件 12a 插銷固定座 12b 收納用空間 12c 彈簧連接器用孔 14 搖動主軸 - 16 線圈彈簧 18 電路基板 20 細線同軸連接器 ® 20a 端子 20b 接地電極 22 探針 24 彈簧連接器 26 覆蓋構件 30,36 導電金屬構件 30a 突起部 〇 32 彈簧 38 接地板 40 螺釘Between the clamp members 12, the elastic members are provided with the springs 16, 16··· the elastic members of the springs 14 and the second clamp members 12 are rocking the main shaft at the rocking main ° 1 fixture member 1 It is formed of a conductive material, and is placed on the side of the second clamp member 12 side, and the surface of the second clamp member 12 side is provided in the shape of a vertical-line or a horizontally-fitted thin-line coaxial thief 20 shown in FIG. The positioning of the thin-wire coaxial connector 20 is formed and inserted into the guide groove 320763 13 200933999. Further, the guide groove 1a is a plan view, and the portion of the edge portion of the first jig member 1A is thin and substantially T-shaped, and the depth thereof is the same as the thickness of the thin-wire coaxial connector 20. The second jig member π is formed of an insulating material such as resin, and a plug pm block 12a made of an insulating material is fixed to the other side of the rocking spindle 14. The second lost member 12 is configured to include the plug holder i2a. The latch holder 12a is provided with probes 0 22, 22... so that one end of the probes can face and abut against the thin line provided in the guide groove 10a of the first clamp member 1A. The terminals 20a, 20a on the surface side of the coaxial connector 20 are provided with spring connectors 24, 24 such that one end of the spring connectors abuts against the first clamp member 10. Further, 'on the surface of the second jig member 12 opposite to the first jig member 1A, a circuit board 18 for electrically connecting to the measuring device is disposed, and is provided with the probes 22, 22, ... The other end abuts on the circuit pattern 'disposed on the circuit board 18' and the other end of the spring connectors 24, 24 abuts against the ground pattern provided on the circuit board 18. Further, a covering member 26 made of an insulating material is disposed so as to cover the circuit board 18. Further, the probes 22, 22, . . . are fitted and inserted into a plurality of probe holes that are bored in the pin holder 12a, and the spring connectors 24, 24 are fitted and inserted. The spring connector is provided and fixed by the holes 12c, 12c. In the above-described embodiment, the latch holder 12a is manufactured separately from the second clamp member 12 for easy manufacture, and is fixed to the second clamp member 12, but it is needless to say that The latch holder 12a and the second clamp member 12 are integrally formed. 14 320763 200933999 In this configuration, as shown in Fig. 3, the first clamp member 10 and the second clamp member 12' 6··· the one side of the main shaft 14 are closed against the elastic force of the coil spring μ ^, and another One side is open. In this state of shaking, the thin-wire coaxial connector 20 is fitted into the guide groove 10a of the first sweat 10 to be positioned, and the elastic force is released to close the first and second clamp members 10, 12. The strength of one side. Thus, the elastic force of the coil springs 16, 16, ... is closed, and the i-th is closed as shown in Fig. 2, and the other member of the rocking spindle 14 of the second clamp member 12 is coaxial with the thin wire. The connector 20 is sandwiched by the first jig member 1A and the 2nd 9'. Here, one ends of the probes 22, 22, ... are in contact with the terminals 2a, 20a, ... of the thin wire and the device 20, and the terminals 20a, 20a are ... via the probe 2? π ', 々·. Electrically connected to the circuit of the circuit board 18, at the same time, one end of the strong spring connectors 24, 24 abuts against the first clamp member 1A, and the spring connectors 24, 24 are paired with the first clamp member 1 The circuit board ground pattern is electrically connected. Then, in either the vertical type shown in Fig. 7 or the horizontal fitting type shown in Fig. 8, the grounding electrical connection %u is provided on the back side thereof. Therefore, the ground electrode 20b is electrically connected to the first clip structure 10 by fitting into the guide groove 10a. Therefore, the ground electrode 2'b' of the thin-wire coaxial connector 20 is electrically connected to the ground pattern of the circuit substrate 18 via the spring connectors 24, 24 and the second retracting member 10. Therefore, the terminals 20a, 20a, ... of the coaxial structure of the thin-wire coaxial connector 2 and the ground electrode 2B are electrically connected to the circuit pattern and the ground pattern of the circuit board 18, respectively. Further, since the guide groove 10a is formed in a substantially T-shape as viewed in plan, the coaxial coaxial connector 2 that is fitted into the guide 320763 15 200933999 groove 10a is only in the opposite side with respect to the third member 10 2 When the direction of the clamp member 12 is moved, it can be taken out and cannot be taken out in the state where the thin-wire coaxial connector 20 is clamped to the j-th clamp member 1〇 and the second clamp member ^, and the probe 22 is not inspected during the inspection. 22·.. Deviation from the terminal 2〇a, 20a.·. The second embodiment of the present invention will be described with reference to Figs. 9 to u. Fig. 9 is an exploded perspective view showing a second embodiment of the relay connector of the present invention. Fig. 1G is a longitudinal sectional view showing the main part of the combined state of the relay connector shown in Fig. 9. Fig. u is a view showing a cross section taken along line c_c of Fig. 10 of the conductive metal member provided in the second jig member as viewed from the direction of the arrow. In the ninth to eleventh drawings, members that are the same as or equal to those in the first to eighth embodiments are denoted by the same reference numerals, and the overlapping description 0 is omitted, and the ninth to nth figures are shown. The relay connector according to the second embodiment of the present invention corresponds to a horizontal-line coaxial connector 20 of a horizontal embedded type in which a ground electrode is also provided on the front surface side. In the second embodiment, the difference in the fish embodiment is as follows. First, in the second embodiment, the i-th clamp member 10 does not need to be formed of a conductive material, and may be formed of a resin or the like, and the conductive metal member 3 () is inserted and fixed to the pin. The seat 12a is housed in m2b. As shown in the nth figure, the conductive metal member 30 is freely moved in a slight range with respect to the direction in which the pin holder 12a is opposed to the first jig member 10, and is slightly protruded from the side of the first jig member 1 Lower the limit to its escape. Further, the conductive metal member 30 is disposed so as to face and be grounded to the ground side of the surface of the thin-wire coaxial connector 20 which is disposed in the guide groove 10a of the first clamp member 10, which is provided in the fitting insertion 320763 16 200933999. Electrode 20b. Further, between the conductive metal member 30 and the circuit substrate 18, the elastics 32, 32 formed of a conductive material are compressed, and the conductive metal member 30 is electrically connected to the ground pattern of the circuit substrate 18. Further, one ends of the springs 32, 32 are fitted to the projections 30a, 30a provided in the conductive metal member 30, respectively, and fixed. - In the relay connector of the second embodiment of the present invention having such a configuration, unlike the first embodiment, the first jig member 10 is not used as a conductive path of the ground electrode 20b of the thin-wire coaxial connector 20, and It can be formed of an insulating material such as a resin. Further, a third embodiment of the present invention will be described with reference to Figs. 12 and 13 . Fig. 12 is an exploded perspective view showing a third embodiment of the relay connector of the present invention. Fig. 13 is a longitudinal sectional view showing the main part of the combined state of the relay connector shown in Fig. 12. In the 12th and 13th drawings, the same or equivalent members as those of the members shown in Figs. 1 to 11 are denoted by the same reference numerals, and the overlapping description will be omitted. The relay connector according to the third embodiment of the present invention shown in Figs. 12 and 13 is the same as the second embodiment, and is a coaxial wire of a horizontal fitting type in which the ground electrode 20b is also provided on the surface side. The connector 20 corresponds. In the third embodiment, unlike the second embodiment, the conductive metal member 30 of the second embodiment is not provided, and the spring connector hole 12c that is inserted into the plug holder 12a is inserted and inserted. One end of the spring connector 24, 24 of 12c is provided to face the ground electrode 20b 17 320763 200933999 provided on the surface side of the thin-wire coaxial connector 20 which is inserted and inserted into the guide groove 10a of the first clamp member 10. Directly connected to the way. The other end of the spring connector 2424 abuts against the ground pattern of the circuit board 18. In the relay connector of the third embodiment of the present invention having such a configuration, unlike the second embodiment, the conductive metal member 30 is not required, and the structure is simplified. Next, a fourth embodiment of the present invention will be described with reference to Figs. 14 and 15. Fig. 14 is an exploded perspective view showing a fourth embodiment of the relay connector of the present invention. Fig. 15 is a longitudinal sectional view showing the main part of the combined bear of the relay connector shown in Fig. 14. In the drawings of Fig. 14 and Fig. 15, the same or equivalent components as those of the members of the jth to thirteenth drawings are denoted by the same reference numerals and the description thereof will not be repeated.中继 In the relay connector of the fourth embodiment of the present invention shown in FIG. 15 and FIG. 15, the level of the ground electrode 20b is also provided on the surface side as in the second embodiment and the third embodiment. The mating thin wire coaxial connector 20 corresponds. In the fourth embodiment, the second embodiment is different from the second embodiment in that the springs 32 and 32 of the second embodiment are provided so as to be inserted into the spring connector that is inserted through the pin holder 12a. The springs of the holes 12c, 12c are connected, and one end of the 24, 24 abuts against the conductive metal member 3'', and the other end of the spring connector 24, 24 abuts against the ground pattern of the circuit board 18. In the relay connector of the fourth embodiment of the present invention, the second embodiment can be used to improve the electrical continuity of the embodiment. The fixed spring connector 2 is solid and does not need to be disposed in the technical part of the plug-in seat 12a as in the second embodiment, and the fixed spring connector 2424 spring connector hole 12c can be disposed. 12 Simple 320763 18 200933999 ' Further, a fifth embodiment of the present invention will be described with reference to Figs. 16 to 18. Fig. 16 is an exploded perspective view showing a fifth embodiment of the relay connector of the present invention. Fig. 17 is a longitudinal sectional view showing a conductive metal member of a first jig member provided in a combined state of the relay connector shown in Fig. 16. Fig. 18 is a longitudinal sectional view showing a conductive metal member of another example of the first jig member provided in the combined state of the relay connector shown in Fig. 16. In the sixteenth to eighteenth drawings, members that are the same as or equal to those of the members shown in Figs. 1 to 17 are denoted by the same reference numerals and the description thereof will not be repeated. The relay connector of the fifth embodiment of the present invention shown in Figs. 16 to 18 is the same as the first embodiment, and is also provided with a vertical fitting type and level of the ground electrode 20b on the back side. The thin wire coaxial connector 20 of any of the mating types corresponds. In the fifth embodiment, the first embodiment is different from the first embodiment in that the conductive metal member 36 is disposed at the bottom of the guide groove 10a of the first jig member 10, and is abutted to the fitting insertion. The ground electrode 20b on the back side of the thin wire coaxial connector 20 of the guide groove 10a. Further, both end portions of the conductive iridium metal member 36 are formed so as to be bent in a substantially stepwise shape in which two substantially L-shaped portions are connected, and the second clamp member 12 of the first jig member 10 is formed at both ends thereof. The sides are roughly the same. Further, one end of the spring connectors 24, 24 provided in the second clamp member 12 faces and can abut against both ends of the conductive metal member 36 which is substantially the same as the surface of the first clamp member 10. unit. Then, the configuration of the conductive metal member 36 is exemplified by a thin metal plate having elasticity, and as shown in Fig. 17, the portion contacting the bottom of the guide groove 10a is slightly floated. When the first jig 10 and the second jig member 12 are sandwiched by the first jig 10 and the second jig member 12 are inserted into the guide groove 10a, the curved portion is formed to be elastically deformed. It is approximately the same height as the bottom surface of the guide groove. Further, the other example of the "transferring metal member 36" is as shown in Fig. 18, in order to form both ends thereof with the first! The surface of the clip member 10 on the side of the second jig member 12 is substantially the same and is bent substantially. The portion having the L shape is strongly bent to be slightly higher than or equal to or more than %, and is formed so that the surface guide groove 1 is formed. The bottom portion of the crucible a is slightly floated, and the thin-wire coaxial connector 2 that is fitted into the guide groove 10a is strongly clamped at both ends when it is held by the first clamp member and the clamp member 12. The folding angle of the portion bent in a substantially U-shaped shape is deformed in a gentle manner and becomes substantially the same height as the bottom surface of the guide groove 10a. In the relay connector of the fifth embodiment of the present invention having such a configuration, as in the first embodiment, either one of the vertical fitting type and the horizontal leveling type having the grounding electrode on the back side may be used. The thin wire coaxial connector 2〇 corresponds. Then, the grounding electrode of the thin-wire coaxial connector 20 is electrically connected to the grounding pattern of the circuit board 18 via the conductive metal member 36, so that it is not necessary to form the i-th clamp structure with a conductive material. $ !〇, and can be formed using an insulating material such as resin. In addition, as shown in FIGS. 11 and 18, the conductive metal member 36 is elastically connected to the ground electrode disposed on the side of the thin=coaxial (4) 2G (four) plane, and the electro-metal member 36 is electrically connected to the ground electrode 20b. . Further, a ninth embodiment of the present invention will be described with reference to Figs. 19 and 2, and Fig. 19 is a perspective view showing the cleaver of the sixth embodiment of the connector. The second figure shows the first cool 320763 20 200933999 shown in Fig. 19, and the longitudinal section of the grounding plate in the combined state of the first member is the same as the first and second figures. The components that are the same or the same as those shown in FIG. 18 are denoted by the same reference numerals and the description thereof will not be repeated. In the back connector of the sixth embodiment of the present invention shown in FIGS. 9 and 2, the same as in the first embodiment and the fifth embodiment, and the vertical insertion of the ground electrode 20b is also disposed on the side. The fit and the horizontal fit match the first thin wire coaxial connector 20. In the sixth embodiment, the difference between the embodiment and the fifth embodiment is that the guide block 10b formed outside the first clamp member ίο is properly positioned and guided by a screw or the like. The block l〇b is provided with a guide groove l〇a, and a ground plate 38 formed of a conductive material is disposed in a bottom form forming the guide groove 10a. The first jig member 10 is configured to include the guide block. The grounding plate 38 is fixed by screws 40, 40 formed of a conductive material inserted and screwed from the surface of the second grip member 12 on the side of the second grip member 10. The tip end surface of one end of the screw 40, 40 is substantially the same as the surface of the second clamp member side of the first clamp member 1A, and faces the second clamp member 12 It is equipped. Then, one end of the spring connectors 24, 24 provided on the second jig member 12 is provided so as to face one end of the screws 40, 40 to be abutted. Therefore, the ground electrode 20b that is fitted into the back side of the thin-wire coaxial connector 2A of the guide groove 10a is electrically connected to the ground plate .38, and is inserted into the thin-wire coaxial connector of the guide groove 10a. When the second clamp member 1 is clamped to the second clamp member 12, one end of the spring connectors 24, 24 abuts against one end of the screws 40, 40 to be electrically connected. The relay connector of the sixth embodiment of the present invention having such a configuration is the same as the first embodiment and the fifth embodiment of 320763 21 200933999, and may have a vertical splicing type and level with the ground electrode 20b on the back side. The thin-wire coaxial connector 20 of any of the mating types corresponds to each other. Then, the ground electrode 20b of the thin-wire coaxial connector 2 is electrically connected to the ground pattern of the circuit board 18 via the ground plate 38, the screws 40, 40, and the spring connectors 24, 24. Therefore, it is not necessary to form the first jig member 1B including the guide block 10b by using a conductive material, and it can be formed by using an insulating material such as a resin. Further, since the guide blocks 10b are fixed to the first jig member 10 by screws, they can be easily and easily exchanged. Therefore, if a plurality of guide blocks 1〇b provided with different guide grooves l〇a according to the size of the thin-wire coaxial connector 20 on the side to be inspected are prepared, it is also possible to simply correspond to different-shaped thin-wire coaxial connectors. 2〇. Further, in the above-described embodiment, the screws 40 and 40 formed of a conductive material are inserted into the guide block 10b from the surface on the side of the second clamp member 12, and are screwed to the ground plate 38, but are not limited thereto. The side of the grounding plate 38 can be inserted into the guide block i〇b to engage the screws 40, 40 with the female thread provided on the guide block 10b. In such a configuration, the front end faces of the boring screws 40, 40 are configured to face the second clamp member 12, and the spring connectors 24, 24 can abut against the front end faces of the screws 40, 40. The invention has been described in detail above with reference to the specific embodiments thereof, and various modifications and changes can be made without departing from the spirit and scope of the invention. This application is based on a patent application filed on Nov. 8, 2007 (Japanese Patent Application No. 2007-290626), which is incorporated herein by reference in its entirety in The digital camera = Ming's relay connector is used in an electronic device such as a mobile phone to check the LCD panel of the Japanese temple, which is equipped with a liquid crystal panel, and can be electrically connected to the connector. Fig. @单说明],", is helpful for connection 11. The drawing is a front view of the second embodiment of the present invention. Fig. 9 is a plan view. ❹ =:::: A front view of the open state. Fig. 5 is a diagram of the "section" viewed from the direction of the arrow. Fig. 6 is a diagram showing the cross section of Fig. 1 viewed from the direction of the arrow. Figure 7 is a table, view (4) exploded stereo®. The guide groove, (4) is a perspective view corresponding to the straight-wire type coaxial connector of the straight fitting type, and (b) is a perspective view of the straight-line type coaxial connector of the straight fitting type. In the case of the straight-line coaxial connector of the straight-fit type, FIG. 8 shows a perspective view of the guide wire, and (a) is a view of the thin-wire coaxial connector of the guide groove-fitting type, (b) Fig. 9 is a perspective view of the present invention as seen from a perspective view of a fitting type thin-wire coaxial connector, and a plan view of a thin-wire coaxial connector. The exploded perspective of the second embodiment of the spliced state is shown in Fig. 10 as a longitudinal sectional view of the essential portion. The main figure of the combination state of the relay connector is shown in Fig. 10, which is a view of the cross section taken along line C-C of Fig. 10 of the conductive metal member of the second clamp member 320763 23 200933999 '. Fig. 12 is an exploded perspective view showing a third embodiment of the relay connector of the present invention. Fig. 13 is a longitudinal sectional view showing the main part of the combined state of the relay connector shown in Fig. 12. Figure 14 is an exploded perspective view of a fourth embodiment of the relay connector of the present invention. Fig. 15 is a longitudinal sectional view showing the main part of the combined state of the relay connector shown in Fig. 14. Fig. 16 is an exploded perspective view showing a fifth embodiment of the relay connector of the present invention. Fig. 17 is a longitudinal sectional view showing a conductive metal member of a first jig member provided in a combined state of the relay connector shown in Fig. 16. Fig. 18 is a vertical cross-sectional view showing a conductive metal member of another example of the first refresher member provided in the combined state of the relay connector shown in Fig. 16. Fig. 19 is an exploded perspective view showing the first jig member of the sixth embodiment of the relay connector of the present invention. Fig. 20 is a longitudinal sectional view showing the arrangement and fixing of the ground plates of the combined state of the first jig members shown in Fig. 19. [Description of main component symbols] 10 First clamp member 10a Guide groove 10b Guide block 24 320763 200933999 ' 12 2nd clamp member 12a Pin holder 12b Storage space 12c Spring connector hole 14 Shake spindle - 16 Coil spring 18 Circuit board 20 Thin Wire Coaxial Connector® 20a Terminal 20b Grounding Electrode 22 Probe 24 Spring Connector 26 Covering Member 30, 36 Conductive Metal Member 30a Protrusion 〇32 Spring 38 Ground Plate 40 Screw