WO2018230251A1

WO2018230251A1 - Substrate-mounted coaxial connector and method for manufacturing same

Info

Publication number: WO2018230251A1
Application number: PCT/JP2018/019117
Authority: WO
Inventors: 知尚山木
Original assignee: 株式会社村田製作所
Priority date: 2017-06-12
Filing date: 2018-05-17
Publication date: 2018-12-20
Also published as: JP6677351B2; JPWO2018230251A1; CN211238575U

Abstract

The present invention provides a substrate-mounted coaxial connector comprising an internal terminal, an external terminal, and an insulating member disposed between the internal terminal and the external terminal, the substrate-mounted coaxial connector being mounted on a substrate with the internal terminal and the external terminal interposed therebetween, wherein: the internal terminal has a first terminal part that projects so as to be inserted in a terminal of a mating connector, and a second terminal part that extends in a direction intersecting the projection direction of the first terminal part from a base end part of the first terminal part, the second terminal part being mounted on the substrate; the first terminal part has a cylinder part extending in tubular form from the base end part; and the outer diameter of the base end part is set equal to or less than the outer diameter of the cylinder part excluding the base end part.

Description

基板実装型同軸コネクタおよびその製造方法Board mounted coaxial connector and manufacturing method thereof

　本発明は、基板実装型同軸コネクタおよびその製造方法に関する。 The present invention relates to a board-mounted coaxial connector and a method for manufacturing the same.

　従来より、基板に実装された状態で使用される基板実装型同軸コネクタが知られている（例えば、特許文献１参照）。 Conventionally, there has been known a board-mounted coaxial connector used in a state of being mounted on a board (see, for example, Patent Document 1).

　特許文献１の基板実装型同軸コネクタは、コンタクトピンとしての中心導体を有する内部端子と、中心導体の周囲に配置される筒状の外部導体を有する外部端子と、内部端子と外部端子の間に配置される絶縁性部材とを備える。当該同軸コネクタは、内部端子および外部端子を介して基板に実装される。基板に実装された状態の同軸コネクタを相手方のコネクタに接続する際には、内部端子の中心導体および外部端子の外部導体を相手方コネクタの対応する各端子に嵌合させる。 The board-mounted coaxial connector of Patent Document 1 includes an internal terminal having a central conductor as a contact pin, an external terminal having a cylindrical external conductor disposed around the central conductor, and an internal terminal and an external terminal. And an insulating member to be disposed. The coaxial connector is mounted on the substrate via an internal terminal and an external terminal. When the coaxial connector mounted on the board is connected to the mating connector, the center conductor of the internal terminal and the external conductor of the external terminal are fitted to the corresponding terminals of the mating connector.

　このような構成において、内部端子の中心導体は絞り加工による筒形状を有しており、その基端部には径方向に広がった鍔部（拡径部）が形成されている。鍔部を囲むように絶縁性部材が配置されることで、鍔部は内部端子の抜け止めとして機能している。 In such a configuration, the central conductor of the internal terminal has a cylindrical shape formed by drawing, and a flange portion (expanded diameter portion) extending in the radial direction is formed at the base end portion. By disposing the insulating member so as to surround the flange portion, the flange portion functions as a retaining member for the internal terminal.

特許第３１６１２８１号Japanese Patent No. 3161281

　近年、同軸コネクタが実装される基板の多層化が進んでいる。このような基板の内部には複数の電極（グランド電極や信号電極）による層が設けられている。基板の多層化が進むほど、複数の電極による層同士の間隔や、同軸コネクタの端子と電極による層との距離も近くなる。特に、同軸コネクタの端子と電極による層の距離が近くなった場合、両者の間に電気的な容量結合が発生し、実装基板の電気特性が劣化することが懸念される。基板の設計を変更することができない場合、同軸コネクタ側において、基板に実装した場合にも電気特性の劣化を抑制できるような工夫を行うことが望ましい。 In recent years, the number of substrates on which coaxial connectors are mounted has been increasing. A layer of a plurality of electrodes (ground electrode and signal electrode) is provided inside such a substrate. As the number of substrates increases, the distance between layers formed by a plurality of electrodes and the distance between the terminals of the coaxial connector and the layers formed by the electrodes become shorter. In particular, when the distance between the layers of the terminals and the electrodes of the coaxial connector is short, there is a concern that electrical capacitive coupling occurs between the two and the electrical characteristics of the mounting substrate deteriorate. When the design of the board cannot be changed, it is desirable to devise on the coaxial connector side so that the deterioration of the electrical characteristics can be suppressed even when the board is mounted on the board.

　従って、本発明の目的は、前記問題を解決することにあって、電気特性の劣化を抑制することができる基板実装型同軸コネクタおよびその製造方法を提供することにある。 Therefore, an object of the present invention is to solve the above-described problems, and to provide a board-mounted coaxial connector that can suppress deterioration of electrical characteristics and a method for manufacturing the same.

　前記目的を達成するために、本発明の基板実装型同軸コネクタは、内部端子と、外部端子と、前記内部端子と前記外部端子の間に配置される絶縁性部材とを備え、前記内部端子および前記外部端子を介して基板に実装される基板実装型同軸コネクタであって、前記内部端子は、相手方コネクタの端子に挿入されるように突出する第１端子部と、前記第１端子部の基端部から前記第１端子部の突出方向に交差する方向に延びて、基板に実装される第２端子部とを有し、前記第１端子部は、前記基端部から筒状に延びる筒部を有し、前記基端部の外径は、前記基端部を除く前記筒部の外径以下に設定される。 To achieve the above object, a board-mounted coaxial connector according to the present invention includes an internal terminal, an external terminal, and an insulating member disposed between the internal terminal and the external terminal, and the internal terminal and A board-mounted coaxial connector mounted on a board via the external terminal, wherein the internal terminal includes a first terminal part protruding so as to be inserted into a terminal of a counterpart connector, and a base of the first terminal part. A second terminal portion that is mounted on the substrate and extends in a direction intersecting the protruding direction of the first terminal portion from the end portion, and the first terminal portion extends in a cylindrical shape from the base end portion. And an outer diameter of the base end portion is set to be equal to or smaller than an outer diameter of the cylindrical portion excluding the base end portion.

　また本発明の基板実装型同軸コネクタの製造方法は、内部端子と、外部端子と、前記内部端子と前記外部端子の間に配置される絶縁性部材とを備え、前記内部端子および前記外部端子を介して基板に実装される基板実装型同軸コネクタを製造する方法であって、前記内部端子を準備するステップと、前記外部端子を準備するステップと、前記内部端子と前記外部端子を互いに間隔を空けた状態で保持するステップと、前記内部端子と前記外部端子の間に前記絶縁性部材をインサート成形するステップとを含み、前記内部端子を準備するステップは、１枚の板状部材を準備するステップであって、第１の方向に板状に延びる第１端子部と、前記第１端子部の中央部の側方から分岐して前記第１の方向に直交する第２の方向に板状に延びる第２端子部とを有する前記１枚の板状部材を準備するステップと、前記第１端子部における前記第１の方向の中心部を基準として一方側の第１の部分と他方側の第２の部分とを互いの先端同士が対向して配置されるように湾曲させるステップと、前記第１端子部と前記第２端子部の接続部において、前記第１端子部あるいは前記第２端子部を折り曲げるステップと、を含む。 The method for manufacturing a board-mounted coaxial connector according to the present invention includes an internal terminal, an external terminal, and an insulating member disposed between the internal terminal and the external terminal, and the internal terminal and the external terminal are provided. A method of manufacturing a board-mounted coaxial connector mounted on a board via the step of preparing the internal terminal, the step of preparing the external terminal, and the internal terminal and the external terminal are spaced apart from each other. And holding the insulating member between the internal terminal and the external terminal, and the step of preparing the internal terminal includes the step of preparing one plate-like member A first terminal portion extending in a plate shape in a first direction and a plate shape in a second direction branched from a side of a central portion of the first terminal portion and perpendicular to the first direction. Second extending A step of preparing the one plate-like member having a child part, and a first part on one side and a second part on the other side with respect to a central part of the first terminal part in the first direction. And bending the first terminal portion or the second terminal portion at the connecting portion between the first terminal portion and the second terminal portion. And including.

　本発明の基板実装型同軸コネクタおよびその製造方法によれば、電気特性の劣化を抑制することができる。 According to the board mounted coaxial connector and the manufacturing method thereof of the present invention, it is possible to suppress deterioration of electrical characteristics.

実施の形態１の同軸コネクタを示す斜視図（絶縁性部材を実線で示した図）The perspective view which shows the coaxial connector of Embodiment 1 (The figure which showed the insulating member with the continuous line) 実施の形態１の同軸コネクタを示す斜視図（絶縁性部材を点線で示した図）The perspective view which shows the coaxial connector of Embodiment 1 (The figure which showed the insulating member with the dotted line) 同軸コネクタを基板に実装した状態のイメージ図Image diagram of coaxial connector mounted on board 内部端子の側面図Side view of internal terminal 内部端子の背面図Rear view of internal terminals 内部端子を形成する方法の一例を説明するための斜視図The perspective view for demonstrating an example of the method of forming an internal terminal 内部端子を形成する方法の一例を説明するための斜視図The perspective view for demonstrating an example of the method of forming an internal terminal 内部端子を形成する方法の一例を説明するための斜視図The perspective view for demonstrating an example of the method of forming an internal terminal 変形例１による内部端子を示す斜視図The perspective view which shows the internal terminal by the modification 1. 変形例１による内部端子を示す斜視図The perspective view which shows the internal terminal by the modification 1. 変形例１による内部端子を示す斜視図The perspective view which shows the internal terminal by the modification 1. 変形例２による内部端子を示す斜視図The perspective view which shows the internal terminal by the modification 2. 変形例３による内部端子を示す斜視図The perspective view which shows the internal terminal by the modification 3. 変形例３による内部端子を示す側面図Side view showing internal terminals according to Modification 3 実施の形態２の同軸コネクタに用いられる内部端子を示す斜視図The perspective view which shows the internal terminal used for the coaxial connector of Embodiment 2. 図９に示す内部端子を形成する方法の一例を説明するための斜視図The perspective view for demonstrating an example of the method of forming the internal terminal shown in FIG. 図９に示す内部端子を形成する方法の一例を説明するための斜視図The perspective view for demonstrating an example of the method of forming the internal terminal shown in FIG. 図９に示す内部端子を形成する方法の一例を説明するための斜視図The perspective view for demonstrating an example of the method of forming the internal terminal shown in FIG. 図９に示す内部端子を形成する方法の一例を説明するための斜視図The perspective view for demonstrating an example of the method of forming the internal terminal shown in FIG.

　本発明の第１態様によれば、内部端子と、外部端子と、前記内部端子と前記外部端子の間に配置される絶縁性部材とを備え、前記内部端子および前記外部端子を介して基板に実装される基板実装型同軸コネクタであって、前記内部端子は、相手方コネクタの端子に挿入されるように突出する第１端子部と、前記第１端子部の基端部から前記第１端子部の突出方向に交差する方向に延びて、基板に実装される第２端子部とを有し、前記第１端子部は、前記基端部から筒状に延びる筒部を有し、前記基端部の外径は、前記基端部を除く前記筒部の外径以下に設定される、基板実装型同軸コネクタを提供する。 According to a first aspect of the present invention, an internal terminal, an external terminal, and an insulating member disposed between the internal terminal and the external terminal are provided on the substrate via the internal terminal and the external terminal. A board-mounted coaxial connector to be mounted, wherein the internal terminal includes a first terminal portion protruding so as to be inserted into a terminal of a counterpart connector, and the first terminal portion from a base end portion of the first terminal portion. And a second terminal portion mounted on the substrate, the first terminal portion including a cylindrical portion extending in a cylindrical shape from the base end portion, and the base end The outer diameter of the portion is set to be equal to or smaller than the outer diameter of the cylindrical portion excluding the base end portion, and provides a board-mounted coaxial connector.

　このような構成によれば、第１端子部の基端部が広がらないように構成することで、基端部を径方向に広げて鍔部を設けた場合に比べて、第１端子部が基板と対向する対向面積が小さくなる。これにより、第１端子部と基板内層の電極との容量結合を抑制することができ、基板実装型同軸コネクタの電気特性の劣化を抑制することができる。 According to such a configuration, the first terminal portion is configured so that the base end portion of the first terminal portion does not widen, compared to the case where the base end portion is expanded in the radial direction and the flange portion is provided. The facing area facing the substrate is reduced. Thereby, capacitive coupling between the first terminal portion and the electrode on the inner layer of the board can be suppressed, and deterioration of the electrical characteristics of the board-mounted coaxial connector can be suppressed.

　本発明の第２態様によれば、前記第１端子部の前記基端部の外径は、前記基端部を除く前記筒部の外径と同じ長さに設定される、第１態様に記載の基板実装型同軸コネクタを提供する。このような構成によれば、第１端子部の筒部をストレートな形状とすることで、第１端子部を簡単に形成することができる。 According to the second aspect of the present invention, in the first aspect, the outer diameter of the base end portion of the first terminal portion is set to the same length as the outer diameter of the cylindrical portion excluding the base end portion. A board-mounted coaxial connector as described is provided. According to such a structure, a 1st terminal part can be easily formed by making the cylinder part of a 1st terminal part into a straight shape.

　本発明の第３態様によれば、前記第１端子部は、前記第２端子部と一体的な１枚の板状の部材で形成されており、前記第１端子部の前記筒部は、周方向の一方側に延びる板状の第１の部分と、前記第１の部分から周方向の他方側に延びる板状の第２の部分とを備え、前記第１の部分と前記第２の部分の先端同士が対向するように配置されている、第１態様又は第２態様に記載の基板実装型同軸コネクタを提供する。このような構成によれば、第１端子部と第２端子部を１枚の板状の部材により形成することで、内部端子を簡単に形成することができる。また、第１端子部の筒部を第１の部分と第２の部分に分けて形成することで、板状の部材を曲げるだけで第１の部分と第２の部分を構成して筒部を形成でき、第１端子部を簡単に形成することができる。 According to the third aspect of the present invention, the first terminal portion is formed of a single plate-like member integral with the second terminal portion, and the cylindrical portion of the first terminal portion is A plate-like first portion extending to one side in the circumferential direction; and a plate-like second portion extending from the first portion to the other side in the circumferential direction. The first portion and the second portion The board-mounted coaxial connector according to the first aspect or the second aspect, wherein the tip ends of the portions are arranged to face each other, is provided. According to such a structure, an internal terminal can be easily formed by forming a 1st terminal part and a 2nd terminal part by one plate-shaped member. In addition, by forming the cylindrical portion of the first terminal portion into the first portion and the second portion, the first portion and the second portion can be configured by simply bending the plate-like member to form the cylindrical portion. The first terminal portion can be easily formed.

　本発明の第４態様によれば、前記第１端子部の前記筒部は側面に貫通孔を有し、前記絶縁性部材は前記貫通孔を通るように配置されている、第１態様から第３態様のいずれか１つに記載の基板実装型同軸コネクタを提供する。このような構成によれば、貫通孔内に絶縁性部材を配置することで、第１端子部を強固に保持することができ、第１端子部の強度を補強することができる。 According to the fourth aspect of the present invention, the cylindrical portion of the first terminal portion has a through hole on a side surface, and the insulating member is disposed so as to pass through the through hole. A board-mounted coaxial connector according to any one of three aspects is provided. According to such a configuration, by disposing the insulating member in the through hole, the first terminal portion can be firmly held and the strength of the first terminal portion can be reinforced.

　本発明の第５態様によれば、内部端子と、外部端子と、前記内部端子と前記外部端子の間に配置される絶縁性部材とを備え、前記内部端子および前記外部端子を介して基板に実装される基板実装型同軸コネクタを製造する方法であって、前記内部端子を準備するステップと、前記外部端子を準備するステップと、前記内部端子と前記外部端子を互いに間隔を空けた状態で保持するステップと、前記内部端子と前記外部端子の間に前記絶縁性部材をインサート成形するステップとを含み、前記内部端子を準備するステップは、１枚の板状部材を準備するステップであって、第１の方向に板状に延びる第１端子部と、前記第１端子部の中央部の側方から分岐して前記第１の方向に直交する第２の方向に板状に延びる第２端子部とを有する前記１枚の板状部材を準備するステップと、前記第１端子部における前記第１の方向の中心部を基準として一方側の第１の部分と他方側の第２の部分とを互いの先端同士が対向して配置されるように湾曲させるステップと、前記第１端子部と前記第２端子部の接続部において、前記第１端子部あるいは前記第２端子部を折り曲げるステップと、を含む、基板実装型同軸コネクタの製造方法を提供する。 According to a fifth aspect of the present invention, an internal terminal, an external terminal, and an insulating member disposed between the internal terminal and the external terminal are provided on the substrate via the internal terminal and the external terminal. A method of manufacturing a board-mounted coaxial connector to be mounted, the step of preparing the internal terminal, the step of preparing the external terminal, and holding the internal terminal and the external terminal spaced apart from each other And the step of insert molding the insulating member between the internal terminal and the external terminal, the step of preparing the internal terminal is a step of preparing one plate-like member, A first terminal portion extending in a plate shape in a first direction, and a second terminal branching from a side of a central portion of the first terminal portion and extending in a plate shape in a second direction orthogonal to the first direction 1 having a portion And a first part on one side and a second part on the other side facing each other with the step of preparing the plate-shaped member as a reference and the central part of the first terminal portion in the first direction as a reference And a step of bending the first terminal portion or the second terminal portion at a connection portion between the first terminal portion and the second terminal portion. A method for manufacturing a coaxial connector is provided.

　このような方法によれば、第１端子部を基端部が広がらない形状とすることで、基端部が広がる形態に比べて、第１端子部が基板と対向する対向面積が小さくなる。これにより、第１端子部と基板内層の電極との電気的な容量結合を抑制することができ、基板実装型同軸コネクタの電気特性の劣化を抑制することができる。また、第１端子部と第２端子部を１枚の板状の部材により形成することで、内部端子を簡単に形成することができる。さらに、第１の部分と第２の部分を曲げるだけで第１端子部を形成できるため、第１端子部を簡単に形成することができる。 According to such a method, since the first terminal portion has a shape in which the base end portion does not widen, the facing area in which the first terminal portion faces the substrate is smaller than in the form in which the base end portion widens. Thereby, the electrical capacitive coupling between the first terminal portion and the electrode on the inner layer of the substrate can be suppressed, and deterioration of the electrical characteristics of the board-mounted coaxial connector can be suppressed. Moreover, an internal terminal can be easily formed by forming a 1st terminal part and a 2nd terminal part with one plate-shaped member. Furthermore, since the first terminal portion can be formed simply by bending the first portion and the second portion, the first terminal portion can be easily formed.

　本発明の第６態様によれば、前記１枚の板状部材を準備するステップは、前記第１端子部に貫通孔が形成された前記板状部材を準備するステップを含み、前記絶縁性部材をインサート形成するステップは、前記第１端子部の前記貫通孔に前記絶縁性部材を配置するステップを含む、第５態様に記載の基板実装型同軸コネクタの製造方法を提供する。このような方法によれば、貫通孔に絶縁性部材を配置することで、第１端子部を絶縁性部材により強固に保持することができる。 According to a sixth aspect of the present invention, the step of preparing the one plate-like member includes the step of preparing the plate-like member in which a through hole is formed in the first terminal portion, and the insulating member The step of forming the insert includes the step of disposing the insulating member in the through hole of the first terminal portion, and provides a method for manufacturing a board-mounted coaxial connector according to the fifth aspect. According to such a method, the first terminal portion can be firmly held by the insulating member by disposing the insulating member in the through hole.

　以下、本発明に係る基板実装型同軸コネクタおよびその製造方法の例示的な実施形態について、添付の図面を参照しながら説明する。本発明は、以下の実施形態の具体的な構成に限定されるものではなく、同様の技術的思想に基づく構成が本発明に含まれる。 Hereinafter, exemplary embodiments of a board-mounted coaxial connector and a manufacturing method thereof according to the present invention will be described with reference to the accompanying drawings. The present invention is not limited to the specific configurations of the following embodiments, and configurations based on similar technical ideas are included in the present invention.

（実施の形態１） (Embodiment 1)

　図１、図２は、実施の形態１の基板実装型同軸コネクタ（以下、同軸コネクタと称する。）２を示す斜視図である。図１、図２に示す同軸コネクタ２は、主要な構成として、内部端子４と、外部端子６と、絶縁性部材８とを備える。図１では絶縁性部材８が実線で示されており、図２では絶縁性部材８が点線で示されている。 1 and 2 are perspective views showing a board-mounted coaxial connector (hereinafter referred to as a coaxial connector) 2 according to the first embodiment. The coaxial connector 2 shown in FIGS. 1 and 2 includes an internal terminal 4, an external terminal 6, and an insulating member 8 as main components. In FIG. 1, the insulating member 8 is indicated by a solid line, and in FIG. 2, the insulating member 8 is indicated by a dotted line.

　同軸コネクタ２は、内部端子４と外部端子６の裏面側が基板（図示せず）に実装されて、内部端子４と外部端子６の表面側が相手方コネクタ（図示せず）に接続される。同軸コネクタ２を相手方コネクタに接続する際には、内部端子４および外部端子６を対応する相手方コネクタの各端子に嵌合させる。 In the coaxial connector 2, the back surfaces of the internal terminal 4 and the external terminal 6 are mounted on a substrate (not shown), and the surface side of the internal terminal 4 and the external terminal 6 is connected to a mating connector (not shown). When connecting the coaxial connector 2 to the counterpart connector, the internal terminals 4 and the external terminals 6 are fitted to the corresponding terminals of the counterpart connector.

　図１、図２に示すように、内部端子４は、中心導体１０と、実装部１２とを備える。中心導体１０は、内部端子４を相手方コネクタに電気的に接続するための端子（第１端子部）であり、実装部１２は、内部端子４を基板に実装して電気的に接続するための端子（第２端子部）である。 As shown in FIGS. 1 and 2, the internal terminal 4 includes a center conductor 10 and a mounting portion 12. The center conductor 10 is a terminal (first terminal portion) for electrically connecting the internal terminal 4 to the counterpart connector, and the mounting portion 12 is for electrically connecting the internal terminal 4 by mounting it on the substrate. Terminal (second terminal portion).

　中心導体１０は、相手方コネクタの端子に挿入されるようにＡ方向（挿入方向）に突出した部材である。中心導体１０は、Ａ方向に筒状に延びる筒状の形状（本実施の形態１では円筒状）を有する。中心導体１０の中心部にはＡ方向に貫通する貫通孔１４が形成されている。 The center conductor 10 is a member protruding in the A direction (insertion direction) so as to be inserted into the terminal of the mating connector. The center conductor 10 has a cylindrical shape (cylindrical in the first embodiment) extending in a cylindrical shape in the A direction. A through hole 14 penetrating in the A direction is formed at the center of the central conductor 10.

　図１、図２に示すように、中心導体１０は、相手方コネクタにおけるソケット形状の端子（図示せず）に挿入可能なピン形状を有する。ピン形状は外周部に接触表面を有し、ソケット形状は内周部に接触表面を有する。 1 and 2, the center conductor 10 has a pin shape that can be inserted into a socket-shaped terminal (not shown) in the mating connector. The pin shape has a contact surface on the outer periphery, and the socket shape has a contact surface on the inner periphery.

　実装部１２は、中心導体１０の基端部１０ａ（図２）からＢ方向に延びる板状の部材である。本実施の形態１におけるＢ方向はＡ方向に直交する。実装部１２は基板に半田付けされて実装される。 The mounting portion 12 is a plate-like member extending in the B direction from the base end portion 10a (FIG. 2) of the center conductor 10. The B direction in the first embodiment is orthogonal to the A direction. The mounting unit 12 is mounted by being soldered to the substrate.

　外部端子６は、外部導体１６と、実装部１８とを備える。外部導体１６は、外部端子６を相手方コネクタに電気的に接続するための端子（第３端子部）であり、実装部１８は、外部端子６を基板に実装して電気的に接続するための端子（第４端子部）である。外部導体１６の内側には内部端子４の中心導体１０が配置されている。 The external terminal 6 includes an external conductor 16 and a mounting portion 18. The external conductor 16 is a terminal (third terminal portion) for electrically connecting the external terminal 6 to the mating connector, and the mounting portion 18 is for electrically connecting the external terminal 6 by mounting it on the substrate. Terminal (fourth terminal portion). A central conductor 10 of the internal terminal 4 is disposed inside the external conductor 16.

　外部導体１６は、相手方コネクタの端子に嵌合するように、前述した中心導体１０と同様にＡ方向に延びる筒状（本実施の形態１では円筒状）の部材として構成されている。外部導体１６の外周面には相手型コネクタの端子を嵌合させる溝１６ａが形成されている。 The outer conductor 16 is configured as a cylindrical member (cylindrical in the first embodiment) extending in the A direction in the same manner as the central conductor 10 described above so as to be fitted to the terminal of the counterpart connector. On the outer peripheral surface of the outer conductor 16, a groove 16a for fitting the terminal of the mating connector is formed.

　実装部１８は、外部導体１６の基端部１６ｂ（図２）から横方向に延びる板状の部材である。実装部１８は基板に半田付けされて実装される。実施の形態１では実装部１８は３箇所設けられている。 The mounting portion 18 is a plate-like member extending in the lateral direction from the base end portion 16b (FIG. 2) of the outer conductor 16. The mounting portion 18 is mounted by being soldered to the substrate. In the first embodiment, three mounting portions 18 are provided.

　絶縁性部材８は、内部端子４と外部端子６を電気的に絶縁するように、内部端子４と外部端子６の間に配置される絶縁性の部材である。絶縁性部材８は例えば樹脂により構成される。 The insulating member 8 is an insulating member disposed between the internal terminal 4 and the external terminal 6 so as to electrically insulate the internal terminal 4 and the external terminal 6 from each other. The insulating member 8 is made of, for example, resin.

　上述した構成の同軸コネクタ２を製造する方法の例としては、まず、内部端子４と外部端子６をそれぞれ準備する。具体的には、図１、図２に示した形状の内部端子４と外部端子６をそれぞれ準備する。内部端子４と外部端子６は１枚の金属板を加工して作製することができ、例えば、銅合金素材の表面にニッケルと金のめっきを施して形成される。内部端子４の詳細な作製方法については後述する。 As an example of a method for manufacturing the coaxial connector 2 having the above-described configuration, first, the internal terminal 4 and the external terminal 6 are respectively prepared. Specifically, an internal terminal 4 and an external terminal 6 having the shapes shown in FIGS. 1 and 2 are prepared. The internal terminal 4 and the external terminal 6 can be produced by processing a single metal plate, and are formed, for example, by plating nickel and gold on the surface of a copper alloy material. A detailed manufacturing method of the internal terminal 4 will be described later.

　その後、金型等を用いて内部端子４と外部端子６を、互いに間隔を空けた状態で保持する。その状態で内部端子４と外部端子６の間に、絶縁性部材８の原料である樹脂をインサート成形し、絶縁性部材８を形成する。これにより、図１、図２に示す同軸コネクタ２を製造することができる。 Thereafter, the internal terminal 4 and the external terminal 6 are held in a state of being spaced from each other using a mold or the like. In this state, between the internal terminal 4 and the external terminal 6, a resin that is a raw material of the insulating member 8 is insert-molded to form the insulating member 8. Thereby, the coaxial connector 2 shown in FIG. 1 and FIG. 2 can be manufactured.

　上述した構成の同軸コネクタ２を基板に実装した状態のイメージ図を図３に示す。 FIG. 3 shows an image diagram of the state where the coaxial connector 2 having the above-described configuration is mounted on the substrate.

　図３は、同軸コネクタ２における内部端子４の中心導体１０と、基板２０の表面側グランド電極２２および裏面側グランド電極２４を模式的に示している。図３に示す状態において、同軸コネクタ２に高周波信号を流した場合、中心導体１０と表面側グランド電極２２の間（矢印Ｃ）と、中心導体１０と裏面側グランド電極２４の間（矢印Ｄ）において電気的な容量結合が生じる。この中でも特に、矢印Ｄで示す中心導体１０と裏面側グランド電極２４の間で発生する容量が大きくなると、電気特性の劣化が生じてしまうことが多い。 FIG. 3 schematically shows the center conductor 10 of the internal terminal 4 in the coaxial connector 2, the front surface side ground electrode 22 and the back surface side ground electrode 24 of the substrate 20. In the state shown in FIG. 3, when a high-frequency signal is passed through the coaxial connector 2, the gap is between the center conductor 10 and the front surface side ground electrode 22 (arrow C) and between the center conductor 10 and the back surface side ground electrode 24 (arrow D). In this case, electric capacitive coupling occurs. Among these, in particular, when the capacitance generated between the center conductor 10 indicated by the arrow D and the back-side ground electrode 24 increases, the electrical characteristics often deteriorate.

　このような電気特性の劣化を抑制するために、本実施の形態１の同軸コネクタ２では、内部端子４の中心導体１０の形状を工夫している。具体的には、図４Ａ、図４Ｂを用いて説明する。 In order to suppress such deterioration of electrical characteristics, the shape of the central conductor 10 of the internal terminal 4 is devised in the coaxial connector 2 of the first embodiment. Specifically, it demonstrates using FIG. 4A and FIG. 4B.

　図４Ａは、内部端子４の側面図であり、図４Ｂは、内部端子４の背面図である。図４Ａ、図４Ｂに示すように、本実施の形態１における中心導体１０は、略筒状の形状を有しており、実装部１２が接続される基端部１０ａと、基端部１０ａから挿入方向Ａへ筒状（本実施の形態１では円筒状）に延びる筒部１０ｂとを有する。筒部１０ｂは、中心導体１０の先端部１０ｃを構成する。 FIG. 4A is a side view of the internal terminal 4, and FIG. 4B is a rear view of the internal terminal 4. As shown in FIGS. 4A and 4B, the center conductor 10 in the present first embodiment has a substantially cylindrical shape, and includes a base end portion 10a to which the mounting portion 12 is connected, and a base end portion 10a. And a cylindrical portion 10b extending in the insertion direction A in a cylindrical shape (cylindrical in the first embodiment). The cylindrical portion 10 b constitutes the tip portion 10 c of the center conductor 10.

　本実施の形態１では特に、基端部１０ａから筒部１０ｂにかけて外周部が直線的に構成されており、基端部１０ａの外径（直径）Ｄ１と筒部１０ｂの外径Ｄ２は同じ長さに設定されている。このように、中心導体１０の基端部１０ａには径方向に広がった鍔部が形成されていない。また本実施の形態１では、実装部１２の幅も基端部１０ａの幅（外径Ｄ１）と同じ長さに設定されている。 Particularly in the first embodiment, the outer peripheral portion is linearly formed from the base end portion 10a to the tube portion 10b, and the outer diameter (diameter) D1 of the base end portion 10a and the outer diameter D2 of the tube portion 10b are the same length. Is set. As described above, the base end portion 10a of the central conductor 10 is not formed with a flange portion that expands in the radial direction. In the first embodiment, the width of the mounting portion 12 is also set to the same length as the width (outer diameter D1) of the base end portion 10a.

　上述した実施の形態１の構成に対して、特許文献１の同軸コネクタのように、中心導体の基端部に径の広がった鍔部が形成される形態が考えられる。この形態では、同軸コネクタにおいて基板に最も近い位置に面積の広くなった鍔部が形成されている。このため、中心導体が基板２０に対向する対向面積が大きくなり、中心導体と裏面側グランド電極２４の間で発生する容量が大きくなり、同軸コネクタの電気特性が劣化することが懸念される。 In contrast to the configuration of the first embodiment described above, like the coaxial connector of Patent Document 1, a configuration in which a flange having a wide diameter is formed at the proximal end portion of the center conductor is conceivable. In this embodiment, a flange having a large area is formed at a position closest to the substrate in the coaxial connector. For this reason, the facing area where the central conductor faces the substrate 20 is increased, the capacity generated between the central conductor and the back-side ground electrode 24 is increased, and there is a concern that the electrical characteristics of the coaxial connector deteriorate.

　実施の形態１の同軸コネクタ２では、前述したように中心導体１０の基端部１０ａに鍔部は形成されておらず、挿入方向であるＡ方向に外周部が直線状となっている。このような構成によれば、中心導体１０が基板２０に対向する対向面積を小さくすることができるため、中心導体１０と裏面側グランド電極２４の間で発生する容量を小さくすることができ、同軸コネクタ２の電気特性の劣化を抑制することができる。 In the coaxial connector 2 of the first embodiment, as described above, the flange portion is not formed on the base end portion 10a of the center conductor 10, and the outer peripheral portion is linear in the A direction which is the insertion direction. According to such a configuration, since the facing area where the central conductor 10 faces the substrate 20 can be reduced, the capacitance generated between the central conductor 10 and the back-side ground electrode 24 can be reduced, and the coaxial conductor is coaxial. Deterioration of the electrical characteristics of the connector 2 can be suppressed.

　上述した構成の内部端子４を形成する方法の一例について、図５Ａ－図５Ｃを用いて説明する。 An example of a method for forming the internal terminal 4 having the above-described configuration will be described with reference to FIGS. 5A to 5C.

　まず、１枚の板状部材２６を準備する（ステップＳ１）。具体的には、図５Ａに示すように、第１端子部２８と第２端子部３０を一体的に有した導電性の板状部材２６を準備する。 First, one plate-like member 26 is prepared (step S1). Specifically, as shown in FIG. 5A, a conductive plate member 26 having a first terminal portion 28 and a second terminal portion 30 integrally is prepared.

　図５Ａに示すように、第１端子部２８は、第１の方向Ｅに延びる板状の部分である。第２端子部３０は、第１の方向Ｅに直交する第２の方向Ｆに延びる板状の部分である。第１端子部２８と第２端子部３０は、同一平面に沿って延びるように一体的に形成されている。図５Ａに示すように、第１端子部２８と第２端子部３０は接続ライン３１で互いに接続されている。また第２端子部３０は、第１端子部２８におけるＥ方向の中央部から側方に分岐している。 As shown in FIG. 5A, the first terminal portion 28 is a plate-like portion extending in the first direction E. The second terminal portion 30 is a plate-like portion that extends in a second direction F that is orthogonal to the first direction E. The first terminal portion 28 and the second terminal portion 30 are integrally formed so as to extend along the same plane. As shown in FIG. 5A, the first terminal portion 28 and the second terminal portion 30 are connected to each other by a connection line 31. Further, the second terminal portion 30 branches from the central portion in the E direction in the first terminal portion 28 to the side.

　次に、第１端子部２８を湾曲させる（ステップＳ２）。具体的には、図５Ａに示すように、第１端子部２８における第１の方向Ｅの中心位置である中心ライン２９を基準として、一方側にある第１の部分２８ａと他方側にある第２の部分２８ｂをそれぞれ湾曲させる。 Next, the first terminal portion 28 is bent (step S2). Specifically, as shown in FIG. 5A, the first portion 28a on the one side and the first portion 28a on the other side with respect to the center line 29 that is the center position in the first direction E in the first terminal portion 28. Each of the two portions 28b is curved.

　図５Ｂに示すように、第１の部分２８ａは周方向Ｒ１に沿って湾曲され、第２の部分２８ｂは周方向Ｒ１とは逆向きの周方向Ｒ２に沿って湾曲されている。また、第１の部分２８ａの先端２８ｃと第２の部分２８ｂの先端２８ｄは互いに対向して配置されている。先端２８ｃと先端２８ｄは接触しても非接触であってもよい。 As shown in FIG. 5B, the first portion 28a is curved along the circumferential direction R1, and the second portion 28b is curved along the circumferential direction R2 opposite to the circumferential direction R1. Further, the tip 28c of the first portion 28a and the tip 28d of the second portion 28b are arranged to face each other. The tip 28c and the tip 28d may be in contact or non-contact.

　このように湾曲された第１端子部２８は、外周部に凹凸がなく軸方向に沿って直線状に延びた筒状に形成される。 The first terminal portion 28 thus curved is formed in a cylindrical shape having no irregularities on the outer peripheral portion and extending linearly along the axial direction.

　次に、第１端子部２８を折り曲げる（ステップＳ３）。具体的には、図５Ｂに示す第１端子部２８と第２端子部３０の接続部である接続ライン３１を基準として、第１端子部２８を約９０度折り曲げる。 Next, the first terminal portion 28 is bent (step S3). Specifically, the first terminal portion 28 is bent about 90 degrees with reference to a connection line 31 that is a connection portion between the first terminal portion 28 and the second terminal portion 30 shown in FIG. 5B.

　第１端子部２８を折り曲げると、図５Ｃに示すような形状となる。図５Ｃに示す板状部材２６は、第１端子部２８が中心導体１０を構成し、第２端子部３０が実装部１２を構成する内部端子４となる。 When the first terminal portion 28 is bent, the shape shown in FIG. 5C is obtained. In the plate member 26 shown in FIG. 5C, the first terminal portion 28 constitutes the central conductor 10, and the second terminal portion 30 serves as the internal terminal 4 constituting the mounting portion 12.

　このような内部端子４の形成方法によれば、中心導体１０を基端部に鍔部のない外周部が直線状に形成された筒状に形成することができる。よって、中心導体の基端部に鍔部を有する形態に比べて、基板２０の裏面側グランド電極２４との対向面積を小さくすることができ、裏面側グランド電極２４の間で発生する容量を抑制し、同軸コネクタ２の電気特性の劣化を抑制することができる。 According to such a method of forming the internal terminal 4, the central conductor 10 can be formed in a cylindrical shape in which the outer peripheral portion having no flange portion is formed in a linear shape at the base end portion. Therefore, the area facing the back surface side ground electrode 24 of the substrate 20 can be reduced as compared with the configuration having the flange portion at the base end portion of the center conductor, and the capacitance generated between the back surface side ground electrodes 24 is suppressed. And deterioration of the electrical property of the coaxial connector 2 can be suppressed.

　このように同軸コネクタ２の電気特性の劣化を抑制することができるため、基板２０内層の電極層の数を減らさずに多数の電極層を設けた場合であっても、内部端子４の中心導体１０と基板２０の電極との容量結合を小さくして所望の電気特性が得ることができる。これにより、基板２０の設計上の制約を減らすことができる。 Since the deterioration of the electrical characteristics of the coaxial connector 2 can be suppressed in this way, even if a large number of electrode layers are provided without reducing the number of electrode layers on the inner layer of the substrate 20, the central conductor of the internal terminal 4 is provided. The desired electrical characteristics can be obtained by reducing the capacitive coupling between the electrode 10 and the electrode of the substrate 20. Thereby, the restriction | limiting on the design of the board | substrate 20 can be reduced.

　また上記方法によれば、中心導体１０および実装部１２を１枚の板状部材２６から形成することができるため、簡単な方法で内部端子４を形成することができる。さらには、第１端子部２８の第１の部分２８ａと第２の部分２８ｂを湾曲させるだけで、中心導体１０を形成することができるため、簡単な方法で第１端子部２８を形成することができる。 Further, according to the above method, since the central conductor 10 and the mounting portion 12 can be formed from the single plate-like member 26, the internal terminal 4 can be formed by a simple method. Furthermore, since the center conductor 10 can be formed only by bending the first portion 28a and the second portion 28b of the first terminal portion 28, the first terminal portion 28 is formed by a simple method. Can do.

　以上、実施の形態１の同軸コネクタ２に用いる内部端子４の形状について詳細に説明したが、様々な変形例が可能である。具体的な変形例について、図６Ａ－図１０Ｄを用いて説明する。なお、以下の変形例では、実施の形態１と異なる点について主に説明し、重複する内容については説明を省略する。また、同一又は同等の構成については同じ符号を付して説明する。 As mentioned above, although the shape of the internal terminal 4 used for the coaxial connector 2 of Embodiment 1 was demonstrated in detail, various modifications are possible. A specific modification will be described with reference to FIGS. 6A to 10D. Note that in the following modification example, differences from the first embodiment will be mainly described, and description of overlapping contents will be omitted. The same or equivalent components will be described with the same reference numerals.

（変形例１）
　図６Ａ－図６Ｃに、変形例１による内部端子４０を示す。図６Ａ－図６Ｃに示す内部端子４０は、中心導体４２と、実装部４３とを備える。 (Modification 1)
6A to 6C show an internal terminal 40 according to the first modification. The internal terminal 40 shown in FIGS. 6A to 6C includes a center conductor 42 and a mounting portion 43.

　実施の形態１の内部端子４と同様に、中心導体４２の基端部４２ａは径方向に広がった鍔部を有しておらず、筒部４２ｂの外径と同じ外径に設定されている。これにより、中心導体４２が基板２０に対向する対向面積を小さくすることができるため、実施の形態１の同軸コネクタ２と同様に、内部端子４０を使用した同軸コネクタにおける電気特性の劣化を抑制することができる。 Similar to the internal terminal 4 of the first embodiment, the base end portion 42a of the central conductor 42 does not have a flange portion that expands in the radial direction, and is set to the same outer diameter as the outer diameter of the cylindrical portion 42b. . Thereby, since the facing area where the center conductor 42 opposes the board | substrate 20 can be made small, like the coaxial connector 2 of Embodiment 1, the deterioration of the electrical property in the coaxial connector using the internal terminal 40 is suppressed. be able to.

　変形例１の中心導体４２において、基端部４２ａに対向する位置にある先端部４２ｃは、筒部４２ｂから径方向に窄まったテーパ形状となっている。すなわち、先端部４２ｃの外径は筒部４２ｂの外径よりも小さく、先端側に向かって漸減するように構成されている。このように先端部４２ｃを先端側が窄まったテーパ状とすることにより、相手方コネクタの端子に挿入する際に容易に挿入することができる。 In the center conductor 42 of the first modification, the distal end portion 42c located at the position facing the proximal end portion 42a has a tapered shape that is narrowed in the radial direction from the cylindrical portion 42b. That is, the outer diameter of the distal end portion 42c is smaller than the outer diameter of the cylindrical portion 42b, and is configured to gradually decrease toward the distal end side. Thus, by making the front-end | tip part 42c into the taper shape which the front end side narrowed, when inserting in the terminal of the other party connector, it can insert easily.

　変形例１の中心導体４２にはさらに、基端部４２ａに切欠き４４が設けられている。切欠き４４には前述した絶縁性部材８（図１）が配置される。切欠き４４に絶縁性部材８を配置することにより、中心導体４２を絶縁性部材８によって強固に固定することができる。このように切り欠き４４を設けることで、中心導体４２の基端部４２ａに鍔部を設けずに絶縁性部材８による抜け止め作用がなくなった場合でも、中心導体４２の強度を補強することができる。 The center conductor 42 of Modification 1 is further provided with a notch 44 at the base end 42a. The aforementioned insulating member 8 (FIG. 1) is disposed in the notch 44. By disposing the insulating member 8 in the notch 44, the central conductor 42 can be firmly fixed by the insulating member 8. By providing the notches 44 in this way, the strength of the center conductor 42 can be reinforced even when the insulating member 8 does not have a retaining action without providing a flange at the base end portion 42a of the center conductor 42. it can.

　図６Ａ－６Ｃに示すような内部端子４０を形成するには、図５Ａに示した板状部材２６において切欠き４４が予め形成されたものを用いて、図５Ａ－５Ｃに示した方法と同様の方法を実施すればよい。 In order to form the internal terminal 40 as shown in FIGS. 6A-6C, using the plate-like member 26 shown in FIG. 5A with the notches 44 formed in advance, the same method as shown in FIGS. 5A-5C is used. It is sufficient to implement the method.

（変形例２）
　次に、変形例２による内部端子５０を図７に示す。図７に示す内部端子５０は、中心導体５２と、実装部４３とを備える。中心導体５２は、基端部５２ａと、筒部４２ｂと、先端部４２ｃとを備える。 (Modification 2)
Next, an internal terminal 50 according to Modification 2 is shown in FIG. The internal terminal 50 shown in FIG. 7 includes a center conductor 52 and a mounting portion 43. The center conductor 52 includes a proximal end portion 52a, a cylindrical portion 42b, and a distal end portion 42c.

　図７に示す内部端子５０は、中心導体５２の基端部５２ａにおいて、切欠き４４に加えてさらなる切欠き５５が形成されている点が、変形例１の内部端子４０と異なる。 7 differs from the internal terminal 40 of Modification 1 in that a further notch 55 is formed in addition to the notch 44 at the proximal end portion 52a of the central conductor 52. The internal terminal 50 shown in FIG.

　このような切欠き５５を設けると共に、切欠き５５に絶縁性部材８を配置する。これにより、中心導体５２を絶縁性部材８によってより強固に固定し、中心導体５２の強度を補強することができる。 Such a notch 55 is provided, and the insulating member 8 is disposed in the notch 55. Thereby, the center conductor 52 can be more firmly fixed by the insulating member 8, and the strength of the center conductor 52 can be reinforced.

　図７に示すような内部端子５０を形成するには、図５Ａに示した板状部材２６において切欠き４４と切欠き５５が予め形成されたものを用いて、図５Ａ－５Ｃに示した方法と同様の方法を実施すればよい。 In order to form the internal terminal 50 as shown in FIG. 7, the method shown in FIGS. 5A-5C is used by using the plate-like member 26 shown in FIG. 5A in which the

notches

44 and 55 are formed in advance. A method similar to that described above may be performed.

（変形例３）
　次に、変形例３による内部端子６０を図８Ａ、８Ｂに示す。図８Ａ、８Ｂに示す内部端子６０は、中心導体６２と、実装部４３とを備える。中心導体６２は、基端部６２ａと、筒部６２ｂと、先端部４２ｃとを備える。 (Modification 3)
Next, an internal terminal 60 according to Modification 3 is shown in FIGS. 8A and 8B. The internal terminal 60 shown in FIGS. 8A and 8B includes a center conductor 62 and a mounting portion 43. The center conductor 62 includes a proximal end portion 62a, a cylindrical portion 62b, and a distal end portion 42c.

　図８Ａ、８Ｂに示す内部端子６０は、中心導体６２の筒部６２ｂの側面に貫通孔６４を形成している点が、変形例１の内部端子４０と異なる。 8A and 8B is different from the internal terminal 40 of Modification 1 in that a through hole 64 is formed on the side surface of the cylindrical portion 62b of the center conductor 62. The internal terminal 60 shown in FIGS.

　貫通孔６４には絶縁性部材８（図示せず）が配置される。絶縁性部材８は、貫通孔６４を通じて中心導体６２の外周部と内周部を囲むように配置され、図１に示すような同軸コネクタ２の完成状態において貫通孔６４を露出させないように配置される。 An insulating member 8 (not shown) is disposed in the through hole 64. The insulating member 8 is disposed so as to surround the outer peripheral portion and the inner peripheral portion of the center conductor 62 through the through hole 64, and is disposed so as not to expose the through hole 64 in the completed state of the coaxial connector 2 as shown in FIG. The

　このように貫通孔６４に絶縁性部材８を配置することで、クサビの構造をとることができ、中心導体６２をより強固に固定することができる。また、絶縁性部材８によって中心導体６２の抜けや回転を抑制することにより、同軸コネクタ２の電気特性の劣化を抑制することができる。さらに、絶縁性部材８によって中心導体６２と実装部４３の方向性が一意的に決まり、動くことがないため、同軸コネクタ２を基板２０へ実装した時に中心導体６２の回転による電気的・機械的な性能の不具合が発生しないようにすることができる。 Thus, by disposing the insulating member 8 in the through hole 64, a wedge structure can be obtained, and the center conductor 62 can be more firmly fixed. Moreover, the deterioration of the electrical characteristics of the coaxial connector 2 can be suppressed by suppressing the removal and rotation of the center conductor 62 by the insulating member 8. Furthermore, the direction of the central conductor 62 and the mounting portion 43 is uniquely determined by the insulating member 8 and does not move. Therefore, when the coaxial connector 2 is mounted on the substrate 20, electrical and mechanical characteristics are generated by the rotation of the central conductor 62. Therefore, it is possible to prevent a malfunction from occurring.

　図８Ａ、８Ｂに示すような内部端子６０を形成するには、図５Ａに示した板状部材２６において切欠き４４と貫通孔６４が予め形成されたものを用いて、図５Ａ－５Ｃに示した方法と同様の方法を実施すればよい。 In order to form the internal terminal 60 as shown in FIGS. 8A and 8B, the plate-like member 26 shown in FIG. 5A having the notches 44 and the through holes 64 formed in advance is used, as shown in FIGS. 5A-5C. A method similar to that described above may be performed.

（実施の形態２）
　本発明に係る実施の形態２の同軸コネクタで用いられる内部端子について説明する。なお、実施の形態２では、主に実施の形態１と異なる点について説明する。実施の形態２においては、実施の形態１と同一又は同等の構成については同じ符号を付して説明する。また、実施の形態２では、実施の形態１と重複する記載は省略する。 (Embodiment 2)
The internal terminals used in the coaxial connector according to the second embodiment of the present invention will be described. In the second embodiment, differences from the first embodiment will be mainly described. In the second embodiment, the same or equivalent components as those in the first embodiment will be described with the same reference numerals. In the second embodiment, descriptions overlapping with those in the first embodiment are omitted.

　実施の形態１では、内部端子４を曲げ加工により形成していたのに対して、実施の形態２では絞り加工により内部端子を形成する点が、実施の形態１と異なる。 In the first embodiment, the internal terminals 4 are formed by bending, whereas the second embodiment differs from the first embodiment in that the internal terminals are formed by drawing.

　実施の形態２における内部端子７０を図９に示す。図９に示す内部端子７０は、中心導体７２と、実装部７４とを備える。 FIG. 9 shows the internal terminal 70 in the second embodiment. The internal terminal 70 shown in FIG. 9 includes a center conductor 72 and a mounting portion 74.

　中心導体７２は、大略筒状に形成されるとともに、基端部７２ａと、筒部７２ｂと、先端部７２ｃとを備える。 The center conductor 72 is formed in a substantially cylindrical shape, and includes a proximal end portion 72a, a cylindrical portion 72b, and a distal end portion 72c.

　実施の形態１では、中心導体１０の中心を貫通するように貫通孔１４が形成されていたのに対し、実施の形態２では貫通孔が形成されておらず閉じられており、先端部７２ｃはドーム状に形成されている。また筒部７２ｂの側面には、矩形状に開口した貫通孔７６が形成されている。 In the first embodiment, the through hole 14 is formed so as to pass through the center of the central conductor 10, whereas in the second embodiment, the through hole is not formed, and the tip 72 c is closed. It is formed in a dome shape. A through-hole 76 that opens in a rectangular shape is formed on the side surface of the cylindrical portion 72b.

　図９に示す内部端子７０は、図１０Ａに示すような一枚の板状部材８０を絞り加工することによって形成することができる。 The internal terminal 70 shown in FIG. 9 can be formed by drawing a single plate-like member 80 as shown in FIG. 10A.

　具体的には、図１０Ａに示す板状部材８０は、第１の板部８２と、第２の板部８４とを備える。第１の板部８２は、幅Ｄ３が一定である。第１の板部８２から続く第２の板部８４は、幅Ｄ３から幅Ｄ４まで漸増するように形成される基端部８４ａと、基端部８４ａから幅Ｄ４で一定に延びる中央部８４ｂと、中央部８４ｂから先端に向かって滑らかに窄まる先端部８４ｃとを有する。 Specifically, the plate-like member 80 shown in FIG. 10A includes a first plate portion 82 and a second plate portion 84. The first plate portion 82 has a constant width D3. The second plate portion 84 continuing from the first plate portion 82 includes a base end portion 84a formed so as to gradually increase from the width D3 to the width D4, and a central portion 84b extending from the base end portion 84a to the width D4. , And a distal end portion 84c that smoothly squeezes from the central portion 84b toward the distal end.

　内部端子７０を形成するためには、第１の板部８２よりも幅が大きくされた第２の板部８４に対して、パンチ等を用いて絞り加工を行う。これにより、図１０Ｂに示す中間体８６が形成される。 In order to form the internal terminal 70, the second plate 84 having a width larger than that of the first plate 82 is drawn using a punch or the like. Thereby, the intermediate body 86 shown in FIG. 10B is formed.

　中間体８６では、第２の板部８４において幅方向に直交するＡ方向に突出した筒状の筒部８８が形成される。筒部８８は絞り加工によって形成されるため、中心部を貫通するような貫通孔は形成されない。 In the intermediate body 86, a cylindrical tube portion 88 protruding in the A direction orthogonal to the width direction is formed in the second plate portion 84. Since the cylindrical portion 88 is formed by drawing, a through hole that penetrates the central portion is not formed.

　図１０Ｂに示す第２の板部８４では、筒部８８の外径よりも径が広がった鍔部８９が基端部に形成されている。筒部８８を絞り加工で形成するためには、鍔部８９のように径の広がった拡径部が必要となる。 In the second plate portion 84 shown in FIG. 10B, a flange portion 89 having a diameter wider than the outer diameter of the cylindrical portion 88 is formed at the base end portion. In order to form the cylindrical portion 88 by drawing, a diameter-expanded portion having a larger diameter like the flange portion 89 is required.

　次に、図１０Ｂに示す中間体８６の筒部８８の側面に切り抜き加工を行う。これにより、図１０Ｃに示すように貫通孔９０を形成する。 Next, the side surface of the cylindrical portion 88 of the intermediate body 86 shown in FIG. 10B is cut out. Thereby, the through-hole 90 is formed as shown in FIG. 10C.

　次に、図１０Ｃに示す中間体８６において、鍔部８９を切断する。これにより、図１０Ｄに示すような内部端子７０（図９）を形成することができる。図１０Ｄに示す内部端子７０においては、筒部８８が中心導体７２に相当し、第１の板部８２が実装部７４に相当する。 Next, the collar part 89 is cut in the intermediate body 86 shown in FIG. 10C. Thereby, the internal terminal 70 (FIG. 9) as shown in FIG. 10D can be formed. In the internal terminal 70 shown in FIG. 10D, the cylindrical portion 88 corresponds to the center conductor 72, and the first plate portion 82 corresponds to the mounting portion 74.

　図９、図１０Ｄに示す内部端子７０においても、中心導体７２の基端部７２ａは径方向に広がった鍔部を有さず、筒部７２ｂと同じ外径に設定されている。このような構成によれば、実施の形態１の内部端子４と同様に、内部端子７０を用いた同軸コネクタの電気特性の劣化を抑制することができる。 Also in the internal terminal 70 shown in FIGS. 9 and 10D, the base end portion 72a of the central conductor 72 does not have a flange portion that expands in the radial direction, and is set to have the same outer diameter as the cylindrical portion 72b. According to such a configuration, similarly to the internal terminal 4 of the first embodiment, it is possible to suppress the deterioration of the electrical characteristics of the coaxial connector using the internal terminal 70.

　なお、上述した方法により実施の形態２の内部端子７０を形成する場合には、貫通孔９０を形成する切り抜き工程や、鍔部８９を切断する切断工程において、中間体８６における他の部分の形状が崩れる等、困難性を伴う場合がある。このような絞り加工による内部端子７０の形成方法に対して、実施の形態１のような曲げ加工による内部端子４の形成方法によれば、切り抜きや切断といった工程が不要である。よって、内部端子４を精度良くかつ簡単に形成することができる。 When the internal terminal 70 of the second embodiment is formed by the above-described method, the shape of the other part of the intermediate body 86 in the cutting process for forming the through hole 90 or the cutting process for cutting the flange portion 89 is performed. May be difficult, such as collapse. In contrast to such a method for forming the internal terminal 70 by drawing, according to the method for forming the internal terminal 4 by bending as in the first embodiment, steps such as cutting and cutting are unnecessary. Therefore, the internal terminal 4 can be formed accurately and easily.

　以上、上述の実施の形態１、２および変形例を挙げて本発明を説明したが、本発明は上述の実施の形態１、２および変形例に限定されない。例えば、実施の形態１では、中心導体１０の基端部１０ａの外径が、基端部１０ａを除く筒部１０ｂの外径と同じ長さである場合について説明したが、このような場合に限らず、筒部１０ｂの外径よりも短い長さであってもよい。このような場合であっても、中心導体１０が基板２０に対向する対向面積を小さくすることができるため、同軸コネクタ２の電気特性の劣化を抑制することができる。このように、基端部１０ａの外径を、基端部１０ａを除く筒部１０ｂの外径以下に設定すれば、同軸コネクタ２の電気特性の劣化を抑制することができる。 As mentioned above, although the present invention has been described with reference to the above-described first and second embodiments and modifications, the present invention is not limited to the above-described first and second embodiments and modifications. For example, in Embodiment 1, although the case where the outer diameter of the base end part 10a of the center conductor 10 is the same length as the outer diameter of the cylinder part 10b except the base end part 10a was demonstrated, in such a case However, the length may be shorter than the outer diameter of the cylindrical portion 10b. Even in such a case, since the facing area where the central conductor 10 faces the substrate 20 can be reduced, deterioration of the electrical characteristics of the coaxial connector 2 can be suppressed. Thus, if the outer diameter of the base end part 10a is set to be equal to or smaller than the outer diameter of the cylindrical part 10b excluding the base end part 10a, deterioration of the electrical characteristics of the coaxial connector 2 can be suppressed.

　なお、本明細書における「筒状」とは、完全な筒形状だけでなく、外径が一定ではなく変化する筒形状や、筒形状に凹凸や切欠き、突出部などが加わったものまで含む（概ね筒状、略筒状、大略筒状など）。なお、本明細書における「外径」とは、中心導体１０の突出方向（挿入方向Ａ）と直交する断面における最も長い部位の長さを意味する。また、本明細書における「円筒状」とは、完全な円筒形状だけでなく、外径が一定ではなく変化する円筒形状や、円筒形状に凹凸や切欠き、突出部などが加わったものまで含む（概ね円筒状、略円筒状、大略円筒状など）。 In addition, the “cylindrical shape” in this specification includes not only a perfect cylindrical shape, but also a cylindrical shape whose outer diameter is not constant and changes, and a cylindrical shape with irregularities, notches, protrusions, etc. added thereto. (Generally cylindrical, substantially cylindrical, generally cylindrical, etc.). In addition, the “outer diameter” in this specification means the length of the longest part in the cross section orthogonal to the protruding direction (insertion direction A) of the central conductor 10. In addition, the “cylindrical shape” in this specification includes not only a perfect cylindrical shape but also a cylindrical shape in which the outer diameter is not constant and changes, and a cylindrical shape to which irregularities, notches, protrusions, and the like are added. (Generally cylindrical, substantially cylindrical, generally cylindrical, etc.).

　また実施の形態１では、内部端子４を形成する際に１枚の板状部材２６に曲げ加工を施すことにより形成する場合について説明したが、このような場合に限らない。複数の部材をもとに、絞り加工などの曲げ加工以外の加工を施すことにより、内部端子４を形成してもよい。なお、１枚の板状部材２６に曲げ加工を施すことにより内部端子４を形成した方が、精度良くかつ簡単に内部端子４を形成することができる。 In the first embodiment, the case where the internal terminal 4 is formed by bending the single plate-like member 26 has been described. However, the present invention is not limited to such a case. The internal terminal 4 may be formed by performing processing other than bending processing such as drawing processing based on a plurality of members. It should be noted that the internal terminal 4 can be formed with high accuracy and ease by forming the internal terminal 4 by bending a single plate-like member 26.

　また実施の形態１では、図５Ｂ、５Ｃに説明したように、板状部材２６において第１端子部２８を第２端子部３０に対して折り曲げる場合について説明したが、このような場合に限らない。第１端子部２８ではなく、第２端子部３０を第１端子部２８に対して折り曲げるようにしてもよい。すなわち、第１端子部２８あるいは第２端子部３０のいずれか一方を折り曲げればよい。 In the first embodiment, as described with reference to FIGS. 5B and 5C, the case where the first terminal portion 28 is bent with respect to the second terminal portion 30 in the plate-like member 26 has been described. However, the present invention is not limited to such a case. . Instead of the first terminal portion 28, the second terminal portion 30 may be bent with respect to the first terminal portion 28. In other words, either the first terminal portion 28 or the second terminal portion 30 may be bent.

　また変形例３では、中心導体６２に貫通孔６４を設けて抜け止め防止機構として機能させる場合について説明したが、このような場合に限らない。例えば、中心導体６２の側面に突起を設けるあるいは溝を設けて絶縁性部材８を配置することで、抜け止め防止機構として機能させてもよい。なお、中心導体６２の厚みは比較的小さいため、突起や溝ではなく貫通孔６４を設ける方が容易に加工を行うことができる。 In the third modification, the case where the through hole 64 is provided in the center conductor 62 to function as a retaining prevention mechanism has been described. However, the present invention is not limited to such a case. For example, a protrusion may be provided on the side surface of the center conductor 62 or a groove may be provided to dispose the insulating member 8 so as to function as a retaining prevention mechanism. In addition, since the thickness of the center conductor 62 is relatively small, it is possible to perform processing more easily by providing the through hole 64 instead of the protrusion and the groove.

　本開示は、添付図面を参照しながら好ましい実施の形態に関連して充分に記載されているが、この技術の熟練した人々にとっては種々の変形や修正は明白である。そのような変形や修正は、添付した特許請求の範囲による本開示の範囲から外れない限りにおいて、その中に含まれると理解されるべきである。また、各実施の形態における要素の組合せや順序の変化は、本開示の範囲及び思想を逸脱することなく実現し得るものである。 Although the present disclosure has been fully described in connection with preferred embodiments with reference to the accompanying drawings, various changes and modifications will be apparent to those skilled in the art. Such changes and modifications are to be understood as included within the scope of the present disclosure as set forth in the appended claims. In addition, combinations of elements and changes in the order in each embodiment can be realized without departing from the scope and spirit of the present disclosure.

　なお、前記様々な実施の形態および変形例のうちの任意の実施の形態あるいは変形例を適宜組み合わせることにより、それぞれの有する効果を奏するようにすることができる。 It should be noted that, by appropriately combining any of the above-described various embodiments and modifications, the effects possessed by them can be produced.

　本発明は、基板実装型同軸コネクタおよびその製造方法であれば適用可能である。 The present invention is applicable to any board-mounted coaxial connector and method for manufacturing the same.

　２　同軸コネクタ（基板実装型同軸コネクタ）
　４　内部端子
　６　外部端子
　８　絶縁性部材
１０　中心導体（第１端子部）
１０ａ　基端部
１０ｂ　筒部
１０ｃ　先端部
１２　実装部（第２端子部）
１４　貫通孔
１６　外部導体（第３端子部）
１６ａ　溝
１６ｂ　基端部
１８　実装部（第４端子部）
２０　基板
２２　表面側グランド電極
２４　裏面側グランド電極
２６　板状部材
２８　第１端子部
２８ａ　第１の部分
２８ｂ　第２の部分
２８ｃ　先端
２８ｄ　先端
２９　中心ライン
３０　第２端子部
３１　接続ライン
４０　内部端子
４２　中心導体
４２ａ　基端部
４２ｂ　筒部
４２ｃ　先端部
４３　実装部
４４　切欠き
５０　内部端子
５２　中心導体
５２ａ　基端部
５５　切欠き
６０　内部端子
６２　中心導体
６２ａ　基端部
６２ｂ　筒部
６４　貫通孔
７０　内部端子
７２ａ　基端部
７２ｂ　筒部
７２ｃ　先端部
７４　実装部
７６　貫通孔
８０　板状部材
８２　第１の板部
８４　第２の板部
８４ａ　基端部
８４ｂ　中央部
８４ｃ　先端部
８６　中間体
８８　筒部
８９　鍔部
９０　貫通孔 2 Coaxial connector (Board mounted coaxial connector)
4 Internal terminal 6 External terminal 8 Insulating member 10 Central conductor (first terminal part)
10a Base end portion 10b Tube portion 10c Tip end portion 12 Mounting portion (second terminal portion)
14 Through hole 16 External conductor (third terminal part)
16a Groove 16b Base end portion 18 Mounting portion (fourth terminal portion)
20 Substrate 22 Front-side ground electrode 24 Back-side ground electrode 26 Plate-like member 28 First terminal portion 28a First portion 28b Second portion 28c Tip 28d Tip 29 Center line 30 Second terminal portion 31 Connection line 40 Internal terminal 42 Center conductor 42a Base end part

42b Tube part

42c Tip part 43 Mounting part 44 Notch 50 Internal terminal 52 Center conductor 52a Base end part 55 Notch 60 Internal terminal 62 Center conductor 62a Base end part 62b Tube part 64 Through hole 70 Internal terminal 72a Base end portion

72b Tube portion

72c Tip portion 74 Mounting portion 76 Through hole 80 Plate member 82 First plate portion 84 Second plate portion 84a Base end portion

84b Center portion

84c Tip portion 86 Intermediate body 88 Tube portion 89 Part 90 through hole

Claims

　内部端子と、外部端子と、前記内部端子と前記外部端子の間に配置される絶縁性部材とを備え、前記内部端子および前記外部端子を介して基板に実装される基板実装型同軸コネクタであって、
　前記内部端子は、相手方コネクタの端子に挿入されるように突出する第１端子部と、前記第１端子部の基端部から前記第１端子部の突出方向に交差する方向に延びて、前記基板に実装される第２端子部とを有し、
　前記第１端子部は、前記基端部から筒状に延びる筒部を有し、前記基端部の外径は、前記基端部を除く前記筒部の外径以下に設定される、基板実装型同軸コネクタ。 A board-mounted coaxial connector that includes an internal terminal, an external terminal, and an insulating member disposed between the internal terminal and the external terminal, and is mounted on a board via the internal terminal and the external terminal. And
The internal terminal extends from the base end of the first terminal portion in a direction intersecting the protruding direction of the first terminal portion, and protrudes so as to be inserted into the terminal of the mating connector, A second terminal portion mounted on the substrate,
The first terminal portion has a cylindrical portion extending in a cylindrical shape from the base end portion, and an outer diameter of the base end portion is set to be equal to or smaller than an outer diameter of the cylindrical portion excluding the base end portion. Mounting type coaxial connector.
　前記第１端子部の前記基端部の外径は、前記基端部を除く前記筒部の外径と同じ長さに設定される、請求項１に記載の基板実装型同軸コネクタ。 The board-mounted coaxial connector according to claim 1, wherein an outer diameter of the base end portion of the first terminal portion is set to the same length as an outer diameter of the cylindrical portion excluding the base end portion.
　前記第１端子部は、前記第２端子部と一体的な１枚の板状の部材で形成されており、
　前記第１端子部の前記筒部は、周方向の一方側に延びる板状の第１の部分と、前記第１の部分から周方向の他方側に延びる板状の第２の部分とを備え、前記第１の部分と前記第２の部分の先端同士が対向するように配置されている、請求項１又は２に記載の基板実装型同軸コネクタ。 The first terminal portion is formed of a single plate-like member that is integral with the second terminal portion,
The cylindrical portion of the first terminal portion includes a plate-like first portion extending to one side in the circumferential direction and a plate-like second portion extending from the first portion to the other side in the circumferential direction. The board-mounted coaxial connector according to claim 1, wherein the first portion and the second portion are disposed so that tips of the first portion and the second portion face each other.
　前記第１端子部の前記筒部は側面に貫通孔を有し、前記絶縁性部材は前記貫通孔を通るように配置されている、請求項１から３のいずれか１つに記載の基板実装型同軸コネクタ。 The board mounting according to any one of claims 1 to 3, wherein the cylindrical portion of the first terminal portion has a through hole on a side surface, and the insulating member is disposed so as to pass through the through hole. Type coaxial connector.
　内部端子と、外部端子と、前記内部端子と前記外部端子の間に配置される絶縁性部材とを備え、前記内部端子および前記外部端子を介して基板に実装される基板実装型同軸コネクタを製造する方法であって、
　前記内部端子を準備するステップと、
　前記外部端子を準備するステップと、
　前記内部端子と前記外部端子を互いに間隔を空けた状態で保持するステップと、
　前記内部端子と前記外部端子の間に前記絶縁性部材をインサート成形するステップとを含み、
　前記内部端子を準備するステップは、
　１枚の板状部材を準備するステップであって、第１の方向に板状に延びる第１端子部と、前記第１端子部の中央部の側方から分岐して前記第１の方向に直交する第２の方向に板状に延びる第２端子部とを有する前記１枚の板状部材を準備するステップと、
　前記第１端子部における前記第１の方向の中心部を基準として一方側の第１の部分と他方側の第２の部分とを互いの先端同士が対向して配置されるように湾曲させるステップと、
　前記第１端子部と前記第２端子部の接続部において、前記第１端子部あるいは前記第２端子部を折り曲げるステップと、
　を含む、基板実装型同軸コネクタの製造方法。 Manufacturing a board-mounted coaxial connector that includes an internal terminal, an external terminal, and an insulating member disposed between the internal terminal and the external terminal, and is mounted on a board via the internal terminal and the external terminal A way to
Preparing the internal terminal;
Preparing the external terminal;
Holding the internal terminal and the external terminal spaced apart from each other;
Including insert molding the insulating member between the internal terminal and the external terminal,
Preparing the internal terminal comprises:
A step of preparing one plate-like member, the first terminal portion extending in a plate shape in a first direction, and a branch from a side of a central portion of the first terminal portion, in the first direction Preparing the one plate-like member having a second terminal portion extending in a plate shape in a second direction orthogonal to each other;
The step of bending the first portion on one side and the second portion on the other side with respect to the central portion of the first terminal portion in the first direction as a reference so that the tips of the first terminal portion face each other. When,
Bending the first terminal portion or the second terminal portion at a connection portion between the first terminal portion and the second terminal portion;
A method for manufacturing a board-mounted coaxial connector.
　前記１枚の板状部材を準備するステップは、前記第１端子部に貫通孔が形成された前記板状部材を準備するステップを含み、
　前記絶縁性部材をインサート形成するステップは、前記第１端子部の前記貫通孔に前記絶縁性部材を配置するステップを含む、請求項５に記載の基板実装型同軸コネクタの製造方法。 The step of preparing the one plate-like member includes the step of preparing the plate-like member in which a through hole is formed in the first terminal portion,
The method for manufacturing a board-mounted coaxial connector according to claim 5, wherein the step of forming the insulating member by insert includes the step of disposing the insulating member in the through hole of the first terminal portion.