JP2007227291A - High frequency coaxial connector - Google Patents

High frequency coaxial connector Download PDF

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JP2007227291A
JP2007227291A JP2006049826A JP2006049826A JP2007227291A JP 2007227291 A JP2007227291 A JP 2007227291A JP 2006049826 A JP2006049826 A JP 2006049826A JP 2006049826 A JP2006049826 A JP 2006049826A JP 2007227291 A JP2007227291 A JP 2007227291A
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connector
cylindrical
coaxial
outer conductor
high frequency
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JP4721930B2 (en
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Hideo Shino
志野英雄
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Jeol Ltd
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Abstract

<P>PROBLEM TO BE SOLVED: To provide a high frequency coaxial connector, which never causes leak of high frequency waves from a connection part of a coaxial connector with an external conductor of a cable having a multiple external conductor structure only by a processing of the same degree as a general coaxial connector processing work. <P>SOLUTION: This connector comprises a cylindrical shield member having one end to be inserted deeply to between layers of external conductors of a coaxial cable comprising two layers of an outer conductor and an inner conductor, and a collar part provided at an end portion opposite to the insert end side. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

本発明は、NMR装置等の高周波機器で使用される高周波用同軸コネクターに関し、より詳しくは、周囲への高周波の漏洩を大幅に抑えることができる高周波用同軸コネクターに関する。   The present invention relates to a high-frequency coaxial connector used in a high-frequency device such as an NMR apparatus, and more particularly to a high-frequency coaxial connector that can significantly suppress high-frequency leakage to the surroundings.

NMR装置は、静磁場中に置かれた被測定試料に高周波パルスを照射し、その後、被測定試料から出る微小な高周波信号(NMR信号)を検出し、その中に含まれている分子構造情報を抽出することによって分子構造を解析する装置である。このようなNMR装置では、高電力の高周波パルスが使用されるため、コネクターからの高周波の漏洩が問題になっている。   The NMR device irradiates a sample to be measured placed in a static magnetic field with a high frequency pulse, and then detects a minute high frequency signal (NMR signal) emitted from the sample to be measured, and the molecular structure information contained therein. Is a device for analyzing molecular structure by extracting. In such an NMR apparatus, since high-power high-frequency pulses are used, high-frequency leakage from the connector is a problem.

図1は、従来の高周波用同軸コネクターの一例である。図中1は同軸ケーブルの中心導体(芯線)である。中心導体1を取り巻くようにして、テフロン(登録商標)等でできた円筒状の誘電体2が設けられている。中心導体1の先端部は、その誘電体から突き出る形でむき出しになっており、そこに金属製のコネクターピン11が半田付けされている。   FIG. 1 is an example of a conventional high-frequency coaxial connector. In the figure, reference numeral 1 denotes a central conductor (core wire) of the coaxial cable. A cylindrical dielectric 2 made of Teflon (registered trademark) or the like is provided so as to surround the center conductor 1. The front end portion of the center conductor 1 is exposed so as to protrude from the dielectric, and a metal connector pin 11 is soldered thereto.

誘電体2の周りには、金属の網線でできた外部導体3が取り囲み、その外側をビニール等の絶縁被覆4が覆っている。外部導体3は、誘電体2よりも短く切断されており、絶縁被覆4は、外部導体3よりも更に短く切断されている。これにより、誘電体2の先端部からやや後退した位置に、外部導体3の露出部が設けられる。   An outer conductor 3 made of a metal mesh wire surrounds the dielectric 2, and an insulating coating 4 such as vinyl covers the outside. The outer conductor 3 is cut shorter than the dielectric 2, and the insulating coating 4 is cut shorter than the outer conductor 3. As a result, the exposed portion of the external conductor 3 is provided at a position slightly retracted from the tip of the dielectric 2.

外部導体3の露出部には、外周面に雄ねじを切った金属製の円筒状部材8が9の位置で半田付けされている。この雄ねじに螺合するように、内周面に雌ネジを切った金属製のコネクター本体6がねじ部10で締結されている。コネクター本体6の先端位置は、テフロン(登録商標)等でできた円筒型スペーサー5を介して、コネクターピン11の先端部とほぼ同じ高さになるように設定されている。   A metal cylindrical member 8 having a male screw cut on the outer peripheral surface is soldered to the exposed portion of the outer conductor 3 at a position 9. A metal connector main body 6 having a female screw cut on the inner peripheral surface is fastened by a screw portion 10 so as to be screwed into the male screw. The distal end position of the connector body 6 is set to be almost the same height as the distal end portion of the connector pin 11 via a cylindrical spacer 5 made of Teflon (registered trademark) or the like.

コネクター本体6の外周部には、内周面に雌ねじを切ったコネクター外部固定ねじ7が回転可能に係止されている。これにより、コネクター本体6を図示しない入力端子に接続した際に、相手側端子外周部に設けられた雄ねじと螺合させることにより、コネクターの接合が外れることを防ぐ。この目的のため、コネクター外部固定ねじ7の先端位置は、コネクターピン11の先端部、および、コネクター本体6の突出部とほぼ同じ高さになるように設定されている。   A connector external fixing screw 7 having a female thread cut on the inner peripheral surface is rotatably engaged with the outer peripheral portion of the connector body 6. Thereby, when the connector main body 6 is connected to an input terminal (not shown), the connector is prevented from being disconnected by being screwed with a male screw provided on the outer peripheral portion of the counterpart terminal. For this purpose, the tip position of the connector external fixing screw 7 is set to be substantially the same height as the tip portion of the connector pin 11 and the protruding portion of the connector body 6.

尚、金属製の円筒状部材8を使用せず、同軸ケーブルの外部導体3を直接コネクター本体6に半田付けするタイプの高周波用コネクターも市販されている。   A high-frequency connector that does not use the metal cylindrical member 8 and solders the outer conductor 3 of the coaxial cable directly to the connector body 6 is also commercially available.

特開平8−50966号公報。JP-A-8-50966.

特開平11−74038号公報。Japanese Patent Laid-Open No. 11-74038.

ところで、上記のような高周波用同軸コネクターには、円筒状部材8とコネクター本体6との間から高周波が漏洩することがあり、シールド性能が十分ではないという問題があった。また、円筒状部材8を外部導体3に半田付けする手間がかかり、同軸ケーブルの種類によっては外部導体3の網線が薄く、半田付けがむつかしい場合があった。   By the way, the high frequency coaxial connector as described above has a problem that a high frequency leaks from between the cylindrical member 8 and the connector main body 6 and the shielding performance is not sufficient. Further, it takes time to solder the cylindrical member 8 to the outer conductor 3, and depending on the type of the coaxial cable, the mesh wire of the outer conductor 3 is thin and soldering may be difficult.

また、同軸ケーブルの外部導体3を直接コネクター本体6に半田付けするタイプの高周波用同軸コネクターでは、適用対象が同軸ケーブルの外部導体3が金属パイプ状のもの(セミリジッド線)に限られ、ケーブルの形状に自由度が求められる一般的な用途には向かないという問題があった。また、金属製網線や金属箔を用いた通常の同軸ケーブルでは、半田付けがむつかしい場合があった。   In addition, in the type of high frequency coaxial connector in which the outer conductor 3 of the coaxial cable is directly soldered to the connector body 6, the applicable object is limited to the case where the outer conductor 3 of the coaxial cable is a metal pipe (semi-rigid wire). There has been a problem that it is not suitable for general applications requiring a degree of freedom in shape. In addition, soldering is sometimes difficult in a normal coaxial cable using a metal mesh wire or a metal foil.

本発明の目的は、上述した点に鑑み、通常の同軸コネクター加工作業と同程度の加工作業を施すだけで、同軸コネクターと多重外部導体構造のケーブルの外部導体との接続部から高周波が漏洩しないような高周波用同軸コネクターを提供することにある。   In view of the above points, the object of the present invention is not to leak high frequency from the connection portion between the coaxial connector and the outer conductor of the cable having the multiple outer conductor structure, only by performing a machining operation similar to a normal coaxial connector machining operation. An object of the present invention is to provide such a high frequency coaxial connector.

この目的を達成するため、本発明にかかる高周波用同軸コネクターは、
同軸ケーブルの中心導体に接続されるべく高周波用同軸コネクターの中心軸上に配置されるコネクターピンと、
前記コネクターピンと同心状に配置されると共に、外側導体と内側導体の二層から成る同軸ケーブルの外部導体の層間に一端が挿入され、その挿入端側と反対側の端部に鍔部を有する円筒状シールド部材と、
前記コネクターピンおよび前記円筒状シールド部材の外側に同心状に配置され、径の異なる2つの円筒状部材を平坦部で段状に接続して成るコネクター本体と、
前記コネクター本体の内側に同心状に配置され、コネクター本体の一方の円筒部内周に設けられた雌ねじ部と螺合するように構成された雄ねじ部を外周部に有する円筒状押圧部材と
から成る高周波用同軸コネクターであって、
該円筒状押圧部材の雄ねじ部と前記コネクター本体内周の雌ねじ部とを締結して、前記コネクター本体の平坦部と前記円筒状押圧部材との間に前記円筒状シールド部材の鍔部と前記同軸ケーブルの外部導体の外側導体を挟み込むことにより、両者を密着させ、高周波の漏洩を防ぐようにしたことを特徴としている。
In order to achieve this object, the high frequency coaxial connector according to the present invention is:
A connector pin disposed on the central axis of the coaxial connector for high frequency to be connected to the central conductor of the coaxial cable;
A cylinder which is arranged concentrically with the connector pin, has one end inserted between the outer conductor layers of the coaxial cable composed of two layers of the outer conductor and the inner conductor, and has a flange at the end opposite to the insertion end side. A shield member,
A connector body that is concentrically disposed outside the connector pin and the cylindrical shield member, and is formed by connecting two cylindrical members having different diameters in a stepped manner at a flat portion;
A high frequency comprising a cylindrical pressing member disposed on the inner side of the connector main body and having a male screw portion on the outer peripheral portion configured to be screwed with a female screw portion provided on the inner periphery of one cylindrical portion of the connector main body. Coaxial connector for
The male screw portion of the cylindrical pressing member and the female screw portion on the inner periphery of the connector body are fastened, and the flange portion of the cylindrical shield member and the coaxial are between the flat portion of the connector main body and the cylindrical pressing member. By sandwiching the outer conductor of the outer conductor of the cable, the two are brought into close contact with each other to prevent high-frequency leakage.

また、前記円筒状押圧部材と前記同軸ケーブルの外側導体との間に、更に押圧仲介部材を挟み込むことを特徴としている。   Further, a press mediating member is further sandwiched between the cylindrical pressing member and the outer conductor of the coaxial cable.

本発明の高周波用同軸コネクターによれば、
同軸ケーブルの中心導体に接続されるべく高周波用同軸コネクターの中心軸上に配置されるコネクターピンと、
前記コネクターピンと同心状に配置されると共に、外側導体と内側導体の二層から成る同軸ケーブルの外部導体の層間に一端が挿入され、その挿入端側と反対側の端部に鍔部を有する円筒状シールド部材と、
前記コネクターピンおよび前記円筒状シールド部材の外側に同心状に配置され、径の異なる2つの円筒状部材を平坦部で段状に接続して成るコネクター本体と、
前記コネクター本体の内側に同心状に配置され、コネクター本体の一方の円筒部内周に設けられた雌ねじ部と螺合するように構成された雄ねじ部を外周部に有する円筒状押圧部材と
から成る高周波用同軸コネクターであって、
該円筒状押圧部材の雄ねじ部と前記コネクター本体内周の雌ねじ部とを締結して、前記コネクター本体の平坦部と前記円筒状押圧部材との間に前記円筒状シールド部材の鍔部と前記同軸ケーブルの外部導体の外側導体を挟み込むことにより、両者を密着させ、高周波の漏洩を防ぐようにしたので、
通常の同軸コネクター加工作業と同程度の加工作業を施すだけで、同軸コネクターと多重外部導体構造のケーブルの外部導体との接続部から高周波が漏洩しないような高周波用同軸コネクターを提供することが可能になった。
According to the coaxial connector for high frequency of the present invention,
A connector pin disposed on the central axis of the coaxial connector for high frequency to be connected to the central conductor of the coaxial cable;
A cylinder which is arranged concentrically with the connector pin, has one end inserted between the outer conductor layers of the coaxial cable composed of two layers of the outer conductor and the inner conductor, and has a flange at the end opposite to the insertion end side. A shield member,
A connector body that is concentrically disposed outside the connector pin and the cylindrical shield member, and is formed by connecting two cylindrical members having different diameters in a stepped manner at a flat portion;
A high frequency comprising a cylindrical pressing member disposed on the inner side of the connector main body and having a male screw portion on the outer peripheral portion configured to be screwed with a female screw portion provided on the inner periphery of one cylindrical portion of the connector main body. Coaxial connector for
The male screw portion of the cylindrical pressing member and the female screw portion on the inner periphery of the connector body are fastened, and the flange portion of the cylindrical shield member and the coaxial are between the flat portion of the connector main body and the cylindrical pressing member. By sandwiching the outer conductor of the outer conductor of the cable, they were brought into close contact with each other, preventing high-frequency leakage.
It is possible to provide a high-frequency coaxial connector that prevents high-frequency leakage from the connection between the coaxial connector and the outer conductor of a cable with a multi-outer conductor structure by simply performing the same level of processing as a normal coaxial connector. Became.

以下、図面を参照しながら本発明の実施の形態を説明する。図2は、本発明にかかる高周波用コネクターの一実施例である。図中21は同軸ケーブルの中心導体(芯線)である。中心導体21を取り巻くようにして、テフロン(登録商標)等でできた円筒状の誘電体22が設けられている。中心導体21の先端部は、その誘電体から突き出る形でむき出しになっており、そこに金属製のコネクターピン34が半田付けされ、高周波用同軸コネクターの中心軸上に配置されている。   Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 2 shows an embodiment of the high frequency connector according to the present invention. In the figure, reference numeral 21 denotes a central conductor (core wire) of the coaxial cable. A cylindrical dielectric 22 made of Teflon (registered trademark) or the like is provided so as to surround the center conductor 21. The front end portion of the center conductor 21 is exposed so as to protrude from the dielectric, and a metal connector pin 34 is soldered to the center conductor 21 and disposed on the center axis of the high frequency coaxial connector.

誘電体22の周りには、二層構造の外部導体、すなわち、内側の金属箔材23と外側の金属製網線24とが同心状に取り囲み、その外側をビニール等の絶縁被覆25が覆っている。絶縁被覆25は、誘電体22および外部導体23、24よりも短く切断されている。これにより、誘電体22の先端部からやや後退した位置にかけて、外部導体23、24の露出部が設けられる。   Around the dielectric 22, an outer conductor having a two-layer structure, that is, an inner metal foil material 23 and an outer metal mesh wire 24 are concentrically surrounded, and an outside is covered with an insulating coating 25 such as vinyl. Yes. The insulating coating 25 is cut shorter than the dielectric 22 and the outer conductors 23 and 24. As a result, the exposed portions of the external conductors 23 and 24 are provided from the distal end portion of the dielectric 22 to a position slightly retracted.

外部導体23、24の隙間には、誘電体22よりもやや大きな径の内孔を有する金属製の円筒状シールド部材28が前記コネクターピン34と同心上に配置されて挿入されている。その円筒先端の挿入の深さは、外部導体23、24の露出部よりも奥側、すなわち、絶縁被覆25が覆っている領域にまで達している。この円筒状シールド部材28の内壁には外部導体の金属箔材23、外壁には外部導体の金属製網線24が密接している。   A metallic cylindrical shield member 28 having an inner hole having a diameter slightly larger than that of the dielectric 22 is disposed concentrically with the connector pin 34 in the gap between the outer conductors 23 and 24. The insertion depth of the cylindrical tip reaches the back side of the exposed portions of the outer conductors 23 and 24, that is, the region covered with the insulating coating 25. The cylindrical shield member 28 is in close contact with the outer conductor metal foil 23 and the outer conductor metal mesh wire 24 in close contact with the inner wall.

コネクター本体26は、前記コネクターピン34および前記円筒状シールド部材28の外側に同心状に配置されている。同軸ケーブルの二層の外部導体23、24の層間に挿入された側と反対側の円筒状シールド部材28の端部は鍔状になっていて、金属製網線24はこの鍔の部分で折り返されている。この金属製網線24が折り返されている面とは反対側の鍔部面は、径の異なる2つの円筒状部材を平坦部で段状に接続して成るコネクター本体26の該平坦部と当接している。   The connector body 26 is disposed concentrically outside the connector pin 34 and the cylindrical shield member 28. The end portion of the cylindrical shield member 28 opposite to the side inserted between the two layers of the outer conductors 23 and 24 of the coaxial cable has a hook shape, and the metal mesh wire 24 is folded back at this hook portion. It is. The flange surface opposite to the surface on which the metal mesh wire 24 is folded back is in contact with the flat portion of the connector main body 26 formed by connecting two cylindrical members having different diameters in a stepped manner at the flat portion. It touches.

押圧部材29〜32は、折り返された金属製網線24と前記円筒状シールド部材28の鍔部とを、前記平坦部との間で挟み込むようにしながら押圧している。この押圧部材は、外周部に雄ねじを切った押圧駆動部材(押し子)30、ゴムパッキン32とワッシャ31の組み合わせから成る緩衝部材、および金属製の円環状接触子29とから成っている。本実施例では、これらは別体に作られているが、変形例として、これらを一体に作っても良いことは言うまでもない。   The pressing members 29 to 32 press the folded metal net wire 24 and the flange portion of the cylindrical shield member 28 while sandwiching the metal mesh wire 24 between the flat portions. This pressing member is composed of a pressing drive member (presser) 30 having a male screw cut on the outer peripheral portion, a buffer member formed by a combination of a rubber packing 32 and a washer 31, and a metal annular contact 29. In the present embodiment, these are made separately, but it goes without saying that these may be made integrally as a modification.

円環状接触子29、ワッシャ31、ゴムパッキン32などの押圧仲介部材は、前記コネクター本体26の内側に同心位置に配置されており、押圧駆動部材30の押圧効率を高める目的で、押圧駆動部材30と円筒状シールド部材28の鍔部(および同軸ケーブルの網線24)との間に一列に挟み込まれているものである。   The pressure mediating members such as the annular contact 29, the washer 31, and the rubber packing 32 are arranged concentrically on the inner side of the connector main body 26, and for the purpose of increasing the pressing efficiency of the pressing driving member 30, the pressing driving member 30. And the collar portion of the cylindrical shield member 28 (and the mesh wire 24 of the coaxial cable).

押圧駆動部材30の外周部に切られた雄ねじは、2つの円筒状部材から成るコネクター本体26の一方の円筒部内周に設けられた雌ねじと螺合する。両者のねじを固く締結させることにより、円筒状シールド部材28と金属製網線24の間をしっかりと固着させることができる。これにより、同軸ケーブルの端部から漏洩しそうになる高周波を、円筒状シールド部材28により完全にシールドさせることができる。   The male screw cut on the outer peripheral portion of the pressing drive member 30 is screwed with a female screw provided on the inner periphery of one cylindrical portion of the connector main body 26 formed of two cylindrical members. By firmly fastening both screws, the cylindrical shield member 28 and the metal mesh wire 24 can be firmly fixed. Thereby, the cylindrical shield member 28 can completely shield the high frequency that is likely to leak from the end of the coaxial cable.

コネクター本体26の先端位置は、テフロン(登録商標)等でできた円筒型スペーサー33を介して、コネクターピン34の先端部とほぼ同じ高さになるように設定されている。これは従来の高周波用同軸コネクターと同じである。   The distal end position of the connector body 26 is set to be almost the same height as the distal end portion of the connector pin 34 via a cylindrical spacer 33 made of Teflon (registered trademark) or the like. This is the same as a conventional high frequency coaxial connector.

コネクター本体26の外周部には、内周面に雌ねじを切ったコネクター外部固定ねじ27が回転可能に係止されている。これにより、コネクター本体26を図示しない入力端子に接続した際に、相手側端子外周部に設けられた雄ねじと螺合させることにより、コネクターの接合が外れることを防ぐ。この目的のため、コネクター外部固定ねじ27の先端位置は、コネクターピン34の先端部、および、コネクター本体26の突出部とほぼ同じ高さになるように設定されている。   A connector external fixing screw 27 having a female thread on the inner peripheral surface is rotatably locked to the outer peripheral portion of the connector body 26. Accordingly, when the connector body 26 is connected to an input terminal (not shown), the connector is prevented from being disconnected by being screwed with a male screw provided on the outer peripheral portion of the counterpart terminal. For this purpose, the tip position of the connector external fixing screw 27 is set to be substantially the same height as the tip portion of the connector pin 34 and the protruding portion of the connector body 26.

尚、上記実施例では、二層構造の外部導体の内側導体に金属箔材を想定しているが、これは金属製網線であっても良い。   In the above embodiment, a metal foil material is assumed for the inner conductor of the outer conductor having a two-layer structure, but this may be a metal mesh wire.

このようなシールド構造を取ることにより、同軸ケーブルの端部からの高周波漏洩は大幅に低減される。   By adopting such a shield structure, high-frequency leakage from the end of the coaxial cable is greatly reduced.

NMR装置に、広く利用できる。   Widely available for NMR equipment.

従来の高周波用コネクターの一例を示す図である。It is a figure which shows an example of the conventional high frequency connector. 本発明にかかる高周波用コネクターの一実施例を示す図である。It is a figure which shows one Example of the connector for high frequency concerning this invention.

符号の説明Explanation of symbols

1:中心導体、2:誘電体、3:外部導体、4:絶縁被覆、5:円筒状スペーサー、6:コネクター本体、7:コネクター外側固定ねじ、8:円筒状部材、9:半田、10:ねじ部、11:コネクターピン、21:中心導体、22:誘電体、23:外部導体(金属箔材)、24:外部導体(金属製網線)、25:絶縁被覆、26:コネクター本体、27:コネクター外側固定ねじ、28:円筒状シールド部材、29:円環状接触子、30:押圧駆動部材、31:ワッシャ、32:ゴムパッキン、33:円筒状スペーサー、11:コネクターピン 1: Central conductor, 2: Dielectric, 3: External conductor, 4: Insulation coating, 5: Cylindrical spacer, 6: Connector body, 7: Connector outer fixing screw, 8: Cylindrical member, 9: Solder, 10: Threaded part, 11: Connector pin, 21: Center conductor, 22: Dielectric, 23: Outer conductor (metal foil material), 24: Outer conductor (metal wire), 25: Insulation coating, 26: Connector body, 27 : Connector outer fixing screw, 28: Cylindrical shield member, 29: Ring contact, 30: Press drive member, 31: Washer, 32: Rubber packing, 33: Cylindrical spacer, 11: Connector pin

Claims (2)

同軸ケーブルの中心導体に接続されるべく高周波用同軸コネクターの中心軸上に配置されるコネクターピンと、
前記コネクターピンと同心状に配置されると共に、外側導体と内側導体の二層から成る同軸ケーブルの外部導体の層間に一端が挿入され、その挿入端側と反対側の端部に鍔部を有する円筒状シールド部材と、
前記コネクターピンおよび前記円筒状シールド部材の外側に同心状に配置され、径の異なる2つの円筒状部材を平坦部で段状に接続して成るコネクター本体と、
前記コネクター本体の内側に同心状に配置され、コネクター本体の一方の円筒部内周に設けられた雌ねじ部と螺合するように構成された雄ねじ部を外周部に有する円筒状押圧部材と
から成る高周波用同軸コネクターであって、
該円筒状押圧部材の雄ねじ部と前記コネクター本体内周の雌ねじ部とを締結して、前記コネクター本体の平坦部と前記円筒状押圧部材との間に前記円筒状シールド部材の鍔部と前記同軸ケーブルの外部導体の外側導体を挟み込むことにより、両者を密着させ、高周波の漏洩を防ぐようにしたことを特徴とする高周波用同軸コネクター。
A connector pin disposed on the central axis of the coaxial connector for high frequency to be connected to the central conductor of the coaxial cable;
A cylinder which is arranged concentrically with the connector pin, has one end inserted between the outer conductor layers of the coaxial cable composed of two layers of the outer conductor and the inner conductor, and has a flange at the end opposite to the insertion end side. A shield member,
A connector body that is concentrically disposed outside the connector pin and the cylindrical shield member, and is formed by connecting two cylindrical members having different diameters in a stepped manner at a flat portion;
A high frequency comprising a cylindrical pressing member disposed on the inner side of the connector main body and having a male screw portion on the outer peripheral portion configured to be screwed with a female screw portion provided on the inner periphery of one cylindrical portion of the connector main body. Coaxial connector for
The male screw portion of the cylindrical pressing member and the female screw portion on the inner periphery of the connector body are fastened, and the flange portion of the cylindrical shield member and the coaxial are between the flat portion of the connector main body and the cylindrical pressing member. A high-frequency coaxial connector characterized in that the outer conductor of the outer conductor of the cable is sandwiched so that they are brought into close contact with each other to prevent high-frequency leakage.
前記円筒状押圧部材と前記同軸ケーブルの外側導体との間に、更に押圧仲介部材を挟み込むことを特徴とする請求項1記載の高周波用同軸コネクター。 2. The high frequency coaxial connector according to claim 1, further comprising a pressing mediating member sandwiched between the cylindrical pressing member and an outer conductor of the coaxial cable.
JP2006049826A 2006-02-27 2006-02-27 High frequency coaxial connector Expired - Fee Related JP4721930B2 (en)

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JP2007227291A true JP2007227291A (en) 2007-09-06
JP4721930B2 JP4721930B2 (en) 2011-07-13

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Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS60192387A (en) * 1984-03-14 1985-09-30 シンワ測定株式会社 Method of plating both sides of printed board
JPS60192387U (en) * 1984-05-30 1985-12-20 多治見無線電機株式会社 coaxial connector

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS60192387A (en) * 1984-03-14 1985-09-30 シンワ測定株式会社 Method of plating both sides of printed board
JPS60192387U (en) * 1984-05-30 1985-12-20 多治見無線電機株式会社 coaxial connector

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