JP2013058417A - Coaxial connector device - Google Patents
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- JP2013058417A JP2013058417A JP2011196629A JP2011196629A JP2013058417A JP 2013058417 A JP2013058417 A JP 2013058417A JP 2011196629 A JP2011196629 A JP 2011196629A JP 2011196629 A JP2011196629 A JP 2011196629A JP 2013058417 A JP2013058417 A JP 2013058417A
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本願の特許請求の範囲に記載された発明は、中心導体とそれを内部絶縁体を介して包囲する外側導体とが外部絶縁体により被覆されて成る同軸ケーブルの中心導体及び外側導体が夫々接続される、互いに絶縁されたコンタクト部材及びグラウンドコンタクト部材を備えて成り、他の同軸コネクタ装置である相手方同軸コネクタ装置に嵌合連結される同軸コネクタ装置に関する。 In the invention described in the claims of the present application, the center conductor and the outer conductor of the coaxial cable in which the center conductor and the outer conductor surrounding the center conductor are covered with the outer insulator are connected to each other. The present invention relates to a coaxial connector device that includes a contact member and a ground contact member that are insulated from each other, and is fitted and connected to a counterpart coaxial connector device that is another coaxial connector device.
複数の電気部品,電気装置あるいは電子機器間等における高周波信号の伝送には、外部ノイズの影響を受け難い信号伝送路を形成する、中心導体とそれを内部絶縁体を介して包囲する外側導体とが外部絶縁体により被覆されて成る同軸ケーブルが用いられることが多い。例えば、同軸ケーブルが高周波信号を扱う回路基板に接続されて、当該回路基板からその外部への同軸ケーブルを通じた高周波信号の伝送、あるいは、当該回路基板への外部からの高周波信号の同軸ケーブルを通じた伝送が行われる。 For transmission of high-frequency signals between a plurality of electrical components, electrical devices, or electronic devices, a central conductor and an outer conductor that surrounds the central conductor with an internal insulator are formed to form a signal transmission path that is not easily affected by external noise. In many cases, coaxial cables are used that are covered with an external insulator. For example, when a coaxial cable is connected to a circuit board that handles high-frequency signals, the high-frequency signal is transmitted from the circuit board to the outside through the coaxial cable, or from the outside to the circuit board through the coaxial cable of the high-frequency signal. Transmission takes place.
同軸ケーブルが回路基板に接続される際には、同軸ケーブルの中心導体が接続されるコンタクト部材と同軸ケーブルの外側導体が接続されるグラウンドコンタクト部材とを備えた同軸コネクタ装置が同軸ケーブルの一端に装着され、その同軸コネクタ装置が、回路基板において扱われる高周波信号が供給される中心コンタクトと中心コンタクトを包囲して配されてグラウンド電位が与えられる外側コンタクトとを備えて回路基板に取り付けられた相手方同軸コネクタ装置に連結されるようにされる。このような同軸コネクタ装置の相手方同軸コネクタ装置との連結は、例えば、同軸コネクタ装置のグラウンドコンタクト部材が相手方同軸コネクタ装置の外側コンタクトに嵌合接続されるもとで、同軸コネクタ装置のコンタクト部材が相手方同軸コネクタ装置の中心コンタクトに接触接続される状態がとられて行われる。 When the coaxial cable is connected to the circuit board, a coaxial connector device having a contact member to which the central conductor of the coaxial cable is connected and a ground contact member to which the outer conductor of the coaxial cable is connected is connected to one end of the coaxial cable. The other end of the coaxial connector device mounted on the circuit board is provided with a central contact to which a high-frequency signal to be handled in the circuit board is supplied and an outer contact which is arranged to surround the center contact and to which a ground potential is applied. It is made to be connected to a coaxial connector device. Such a connection of the coaxial connector device with the counterpart coaxial connector device is performed, for example, when the ground contact member of the coaxial connector device is fitted and connected to the outer contact of the counterpart coaxial connector device. This is performed in a state of being contact-connected to the center contact of the counterpart coaxial connector device.
斯かる同軸コネクタ装置の相手方同軸コネクタ装置との連結が行われるにあたっては、回路基板に取り付けられた相手方同軸コネクタ装置が、それにおける中心コンタクトと外側コンタクトとを回路基板における部品等搭載面の上方に向かわせるものとされ、その相手方同軸コネクタ装置に対して、同軸ケーブルの一端に装着された同軸コネクタ装置が、回路基板における部品等搭載面の上方からその部品等搭載面に向かう方向をもって係合せしめられて、同軸コネクタ装置のグラウンドコンタクト部材が相手方同軸コネクタ装置の外側コンタクトに嵌合接続されるとともに、同軸コネクタ装置のコンタクト部材が相手方同軸コネクタ装置の中心コンタクトに接触接続される。従って、相手方同軸コネクタ装置が取り付けられた回路基板上において、同軸コネクタ装置は、回路基板の部品等搭載面から突出する方向、即ち、回路基板の部品等搭載面に直交する方向の寸法を厚み寸法とするものとなる。 When such a coaxial connector device is connected to the counterpart coaxial connector device, the counterpart coaxial connector device attached to the circuit board has the center contact and the outer contact thereof placed above the component mounting surface on the circuit board. The coaxial connector device attached to one end of the coaxial cable is engaged with the counterpart coaxial connector device in a direction from above the component mounting surface on the circuit board to the component mounting surface. Thus, the ground contact member of the coaxial connector device is fitted and connected to the outer contact of the counterpart coaxial connector device, and the contact member of the coaxial connector device is contact-connected to the center contact of the counterpart coaxial connector device. Therefore, on the circuit board to which the counterpart coaxial connector device is attached, the coaxial connector device has a thickness dimension in the direction protruding from the circuit board component mounting surface, that is, the direction perpendicular to the circuit board component mounting surface. It becomes that.
従来、同軸コネクタ装置として様々なものが知られているが、それらのうちの一つとして、同軸ケーブルの一端への装着を適正かつ容易にすべく、それが備えるコンタクト部材と同軸ケーブルの中心導体との接続に半田付けを必要としないようにした同軸コネクタ装置が提案されている(例えば、特許文献1参照。)。斯かる特許文献1に開示されている同軸ケーブル用コネクタ(同軸コネクタ装置)は、胴部(環状嵌合部)(6) とその胴部(6 ) から伸びるホルダ部(7) とを有した外部導体シェル(グラウンドコンタクト部材)(1) と、前部(下部)接続部(3a)と後部(上部)接続部(3b)とを有してL字形を成す中心端子(コンタクト部材)(3) と、外部導体シェル(1) と中心端子(3) との間に配される誘電体(絶縁ハウジング部材)(2) とを備えて構成される。そして、中心端子(3) が誘電体(2) により支持され、その誘電体(2) が外部導体シェル(1) シェルにより支持されて、中心端子(3) の前部(下部)接続部(3a)が、外部導体シェル(1) の胴部(6) によって包囲されることになる位置に配される。 Conventionally, various coaxial connector devices have been known. One of them is a contact member provided in the coaxial cable and a central conductor of the coaxial cable so that the coaxial cable can be attached to one end properly and easily. There has been proposed a coaxial connector device that does not require soldering for connection to the connector (for example, see Patent Document 1). The coaxial cable connector (coaxial connector device) disclosed in Patent Document 1 has a trunk portion (annular fitting portion) (6) and a holder portion (7) extending from the trunk portion (6). L-shaped center terminal (contact member) having an outer conductor shell (ground contact member) (1), a front (lower) connecting portion (3a) and a rear (upper) connecting portion (3b) (3 ) And a dielectric (insulating housing member) (2) disposed between the outer conductor shell (1) and the center terminal (3). The center terminal (3) is supported by the dielectric (2), the dielectric (2) is supported by the outer conductor shell (1) shell, and the front (lower) connecting portion ( 3a) is arranged at a position to be surrounded by the body (6) of the outer conductor shell (1).
斯かる同軸ケーブル用コネクタが同軸ケーブル(4) の一端に装着される際には、先ず、同軸ケーブル(4) の中心導体(15)に、中心端子(3) の後部(上部)接続部(3b)がその内面を当接させてかしめ圧着により取り付けられる。それにより、中心端子(3) の前部(下部)接続部(3a)が、同軸ケーブル(4) の中心導体(15)からその中心軸線に直交する方向に突出するものとされる。その後、同軸ケーブル(4) の中心導体(15)からその中心軸線に直交する方向に突出する中心端子(3) の前部(下部)接続部(3a)が、外部導体シェル(1) の胴部(6) 内に配された誘電体(2) の下部に設けられた内孔(2a)の挿入され、続いて、外部導体シェル(1) のホルダ部(7) が胴部(6) に向かって折曲げられ、それに伴って、誘電体(2) の上部が誘電体(2) の下部に向かって折曲げられて、中心端子(3) の後部(上部)接続部(3b)が取り付けられた同軸ケーブル(4) の中心導体(15)を押圧する。さらに、外部導体シェル(1) のホルダ部(7) が、誘電体(2) の上部を包囲する状態をもって同軸ケーブル(4) の外皮(外部絶縁体)(12) にかしめにより固定される。 When such a coaxial cable connector is attached to one end of the coaxial cable (4), first, the central conductor (15) of the coaxial cable (4) is connected to the rear (upper) connecting portion ( 3b) is attached by crimping with its inner surface in contact. Thereby, the front (lower) connecting portion (3a) of the center terminal (3) projects from the center conductor (15) of the coaxial cable (4) in a direction perpendicular to the center axis. After that, the front (lower) connecting part (3a) of the center terminal (3) protruding from the center conductor (15) of the coaxial cable (4) in a direction perpendicular to the center axis line is connected to the body of the outer conductor shell (1). The inner hole (2a) provided in the lower part of the dielectric (2) disposed in the part (6) is inserted, and then the holder part (7) of the outer conductor shell (1) is inserted into the body part (6). The upper part of the dielectric (2) is bent toward the lower part of the dielectric (2), and the rear (upper) connection (3b) of the center terminal (3) Press the center conductor (15) of the attached coaxial cable (4). Further, the holder portion (7) of the outer conductor shell (1) is fixed by caulking to the outer cover (external insulator) (12) of the coaxial cable (4) in a state of surrounding the upper portion of the dielectric (2).
そして、同軸ケーブル(4) の一端に装着された同軸ケーブル用コネクタは、回路基板に取り付けられた相手方同軸コネクタ装置に、外部導体シェル(1) の胴部(6) を相手方同軸コネクタ装置の外側コンタクトに嵌合させるとともに、同軸ケーブル(4) の中心導体(15)に取り付けられた中心端子(3) の前部(下部)接続部(3a)を相手方同軸コネクタ装置の中心コンタクトに接触接続させて連結される。 The coaxial cable connector attached to one end of the coaxial cable (4) is connected to the counterpart coaxial connector device attached to the circuit board with the body (6) of the outer conductor shell (1) outside the counterpart coaxial connector device. Attach to the contact and connect the front (lower) connection (3a) of the center terminal (3) attached to the center conductor (15) of the coaxial cable (4) to the center contact of the counterpart coaxial connector device. Connected.
このような特許文献1に開示された従来の同軸ケーブル用コネクタにあっては、同軸ケーブルの一端に装着されて回路基板に取り付けられた相手方同軸コネクタ装置に連結されたとき、同軸ケーブルの中心導体からその中心軸線に直交する方向に突出する中心端子の前部(下部)接続部が、相手方同軸コネクタ装置の中心コンタクトとの接触接続状態におかれるが、その際における接触接続状態は、中心端子の前部(下部)接続部が弾性力を中心コンタクトに作用させることによりとられる。それゆえ、同軸ケーブルの中心導体からその中心軸線に直交する方向に突出する中心端子の前部(下部)接続部が、中心コンタクトに接触接続を確実なものとするに足る弾性力を作用させるべく、同軸ケーブルの中心導体からの突出長を比較的大なるものとすることが必要とされる。それにより、中心コンタクトとその上方に配されることになる同軸ケーブルの中心導体との間隔が比較的大とされることになり、その結果、胴部とホルダ部とを有した外部導体シェルと、前部(下部)接続部と後部(上部)接続部(3b)とを有してL字形を成す中心端子と、外部導体シェルと中心端子との間に配される誘電体とを備えて構成される同軸ケーブル用コネクタが、相手方同軸コネクタ装置が取り付けられた回路基板の部品等搭載面に直交する方向の寸法である厚み寸法の低減を図ることが困難なものとなってしまう。 In the conventional coaxial cable connector disclosed in Patent Document 1, when the coaxial cable is connected to a counterpart coaxial connector device attached to one end of the coaxial cable and attached to the circuit board, the central conductor of the coaxial cable is used. The front part (lower part) of the center terminal protruding in the direction perpendicular to the center axis is placed in contact connection with the center contact of the counterpart coaxial connector device. The front (lower) connecting portion of the slab is taken by applying an elastic force to the central contact. Therefore, the front (lower) connecting portion of the central terminal protruding from the central conductor of the coaxial cable in the direction perpendicular to the central axis should exert an elastic force sufficient to ensure contact connection to the central contact. Therefore, it is necessary to make the protrusion length from the central conductor of the coaxial cable relatively large. As a result, the distance between the center contact and the center conductor of the coaxial cable to be arranged above the center contact is made relatively large. As a result, the outer conductor shell having the body portion and the holder portion And an L-shaped center terminal having a front (lower) connecting portion and a rear (upper) connecting portion (3b), and a dielectric disposed between the outer conductor shell and the center terminal. It becomes difficult for the coaxial cable connector to be configured to reduce the thickness dimension, which is a dimension in a direction perpendicular to the mounting surface of the circuit board component or the like to which the counterpart coaxial connector device is attached.
そのため、同軸ケーブルの中心導体が接続されるコンタクト部材と同軸ケーブルの外側導体が接続されるグラウンドコンタクト部材とを備えたもとで、同軸ケーブルの中心導体が接続されたコンタクト部材の相手方同軸コネクタ装置の中心コンタクトとの接触態様を工夫することにより、厚み寸法の低減を図るようにした同軸コネクタ装置も従来提案されている(例えば、特許文献2参照。)。 Therefore, the contact member to which the central conductor of the coaxial cable is connected and the ground contact member to which the outer conductor of the coaxial cable is connected are provided. Conventionally, a coaxial connector device has been proposed in which a thickness dimension is reduced by devising a contact mode with a contact (see, for example, Patent Document 2).
斯かる特許文献2に開示されている同軸コネクタ(同軸コネクタ装置)にあっては、同軸ケーブル(26)の中心導体(26c) に、ばね性を有する金属からなり、リング状に形成されたばね接触部(33)を有したソケット(コンタクト部材)(23)が、かしめにより取り付けられ、そのソケット(23)がブッシング(絶縁ハウジング部材)(22)に設けられた嵌合凹部に挿入され、さらに、ブッシング(22)が金属性のハウジング(グラウンドコンタクト部材)(21)に設けられた筒状部(環状嵌合部)(24)に挿入される。そして、ソケット(23)がブッシング(22)に設けられた嵌合凹部に挿入され、そのブッシング(22)がハウジング(21)に設けられた筒状部(24)に挿入されたもとで、ブッシング(22)が有する折曲部及びハウジング(21)が有する折曲部が、ブッシング(22)の折曲部がソケット(23)を覆い、そのブッシング(22)の折曲部をハウジング(21)の折曲部が覆うようにして、折り重ねられる。ハウジング(21)の折曲部には、カシメ部(28)が形成されており、折り曲げられたハウジング(21)の折曲部におけるカシメ部(28)が、同軸ケーブル(26)の外導体(外側導体)(26a) に接続されるとともに、同軸ケーブル(26)を外皮(外部絶縁体)(26b) の外側からかしめる。それにより、同軸ケーブル(26)の中心導体(26c) がソケット(23)に接続されるとともに、同軸ケーブルの外側導体がハウジングに接続されて、同軸ケーブルの同軸ケーブルコネクタに対する接続がなされる。 In the coaxial connector (coaxial connector device) disclosed in Patent Document 2, the center conductor (26c) of the coaxial cable (26) is made of a metal having a spring property and is formed in a ring shape. A socket (contact member) (23) having a portion (33) is attached by caulking, and the socket (23) is inserted into a fitting recess provided in a bushing (insulating housing member) (22). A bushing (22) is inserted into a cylindrical portion (annular fitting portion) (24) provided in a metallic housing (ground contact member) (21). Then, the socket (23) is inserted into the fitting recess provided in the bushing (22), and the bushing (22) is inserted into the cylindrical portion (24) provided in the housing (21). 22) and the bent part of the housing (21), the bent part of the bushing (22) covers the socket (23), and the bent part of the bushing (22) is connected to the bent part of the housing (21). The folded part is folded so as to cover the folded part. A crimped part (28) is formed in the bent part of the housing (21), and the crimped part (28) in the bent part of the housing (21) is connected to the outer conductor of the coaxial cable (26) ( It is connected to the outer conductor (26a) and the coaxial cable (26) is caulked from the outside of the outer cover (external insulator) (26b). Thereby, the central conductor (26c) of the coaxial cable (26) is connected to the socket (23), and the outer conductor of the coaxial cable is connected to the housing, so that the coaxial cable is connected to the coaxial cable connector.
このような特許文献2に開示されている同軸コネクタにあっては、同軸ケーブルの一端に装着されて回路基板に取り付けられた相手方同軸コネクタ装置に連結されたとき、同軸ケーブルの中心導体に取り付けられたソケット(23)が、それが有するリング状に形成されたばね接触部(33)を、相手方同軸コネクタ装置の中心コンタクトに嵌合させることにより、相手方同軸コネクタ装置の中心コンタクトとの接触接続状態におかれる。従って、相手方同軸コネクタ装置の中心コンタクトとその上方に配されることになる同軸ケーブルの中心導体との間隔を比較的小なるものとすることができ、それにより、同軸コネクタの厚み寸法の低減を図ることができることになる。 In such a coaxial connector disclosed in Patent Document 2, when the coaxial connector is attached to one end of the coaxial cable and connected to the counterpart coaxial connector device attached to the circuit board, the coaxial connector is attached to the central conductor of the coaxial cable. The socket (23) is connected to the center contact of the counterpart coaxial connector device by fitting the spring contact portion (33) formed in a ring shape with the socket (23) into the center contact of the counterpart coaxial connector device. I'm left. Accordingly, the distance between the central contact of the counterpart coaxial connector device and the central conductor of the coaxial cable to be disposed above the relative contact can be made relatively small, thereby reducing the thickness dimension of the coaxial connector. It can be planned.
上述された特許文献2に開示された従来の同軸コネクタにあっても、以下に述べられるような、更なる改善が施されることが望まれる事柄が存在する。 Even in the conventional coaxial connector disclosed in Patent Document 2 described above, there are matters that are desired to be further improved as described below.
即ち、特許文献2に開示された従来の同軸コネクタにあっては、同軸ケーブルの一端に装着されて回路基板に取り付けられた相手方同軸コネクタ装置に連結されたとき、同軸ケーブルの中心導体に取り付けられたソケット(23)と相手方同軸コネクタ装置の中心コンタクトとの接触接続状態は、ソケット(23)が有するリング状に形成されたばね接触部(33)が相手方同軸コネクタ装置の中心コンタクトに嵌合することによって行われるので、ソケット(23)が、相手方同軸コネクタ装置の中心コンタクトに対して十分な接触圧を作用させるもとで堅固に接触するものとはされないことになる虞がある。即ち、特許文献2に開示された従来の同軸コネクタは、相手方同軸コネクタ装置が取り付けられた回路基板の部品等搭載面に直交する方向の寸法である厚み寸法の低減を図ることはできるが、同軸ケーブルの中心導体に接続されるコンタクト部材であるソケットと相手方同軸コネクタ装置の中心コンタクトとの接触接続が、確実かつ安定に行われない事態が生じる虞を伴うものとなってしまうのである。それゆえ、同軸ケーブルの中心導体に接続されるコンタクト部材であるソケットと相手方同軸コネクタ装置の中心コンタクトとの接触接続が、確実かつ安定に行われることになるような改善が望まれることになる。 That is, the conventional coaxial connector disclosed in Patent Document 2 is attached to the central conductor of the coaxial cable when it is connected to a counterpart coaxial connector device attached to one end of the coaxial cable and attached to the circuit board. The contact connection between the socket (23) and the center contact of the counterpart coaxial connector device is such that the spring contact portion (33) formed in the ring shape of the socket (23) is fitted to the center contact of the counterpart coaxial connector device. Therefore, there is a possibility that the socket (23) may not be firmly brought into contact with the center contact of the counterpart coaxial connector device under a sufficient contact pressure. That is, the conventional coaxial connector disclosed in Patent Document 2 can reduce the thickness dimension, which is a dimension in a direction perpendicular to the mounting surface of the circuit board components and the like to which the counterpart coaxial connector device is attached. There is a risk that the contact connection between the socket, which is a contact member connected to the center conductor of the cable, and the center contact of the counterpart coaxial connector device may not be performed reliably and stably. Therefore, it is desired to improve such that the contact connection between the socket, which is a contact member connected to the central conductor of the coaxial cable, and the central contact of the counterpart coaxial connector device is performed reliably and stably.
斯かる点に鑑み、本願の特許請求の範囲に記載された発明は、同軸ケーブルの中心導体が接続されるコンタクト部材と、同軸ケーブルの外側導体が接続されるグラウンドコンタクト部材と、コンタクト部材とグラウンドコンタクト部材とを相互絶縁状態をもって支持する絶縁ハウジング部材とを備えて構成されるもとで、相手方同軸コネクタ装置が取り付けられた回路基板の部品等搭載面に直交する方向の寸法である厚み寸法の低減を図ることができるとともに、コンタクト部材と相手方同軸コネクタ装置の中心コンタクトとの接触接続を確実かつ安定に行うことができる同軸コネクタ装置を提供する。 In view of such points, the invention described in the claims of the present application includes a contact member to which a central conductor of a coaxial cable is connected, a ground contact member to which an outer conductor of the coaxial cable is connected, a contact member and a ground. A thickness dimension which is a dimension in a direction perpendicular to a mounting surface of a component such as a circuit board on which a counterpart coaxial connector device is mounted, with an insulating housing member which supports the contact member in a mutually insulated state. Provided is a coaxial connector device that can be reduced and can reliably and stably perform contact connection between a contact member and a central contact of a counterpart coaxial connector device.
本願の特許請求の範囲における請求項1から請求項5までのいずれかに記載された発明に係る同軸コネクタ装置(以下、本願発明に係る同軸コネクタ装置という。)は、同軸ケーブルの中心導体との接続がなされる中心導体接続部と相手方同軸コネクタ装置の中心コンタクトに接触接続される接触係合部とを有したコンタクト部材と、相手方同軸コネクタ装置の中心コンタクトを包囲する外側コンタクトに嵌合接続される環状嵌合部とそれから折曲可能に伸びて同軸ケーブルの外側導体との接続がなされるシェル部とを有したグラウンドコンタクト部材と、コンタクト部材とグラウンドコンタクト部材とを相互絶縁状態をもって支持する絶縁ハウジング部材とを備えて構成され、コンタクト部材が、固定部が設けられてその固定部により絶縁ハウジング部材に固定され、接触係合部がグラウンドコンタクト部材の環状嵌合部の内側に配されるとともに、中心導体接続部がグラウンドコンタクト部材の環状嵌合部の外側において接触係合部に近接して配されるものとされ、接触係合部が、固定部から相互対向して突出する一対の湾曲弾性腕状部を有し、それらの夫々の自由端が相互係合せしめられて弾性変形可能な環状体を形成して、相手方同軸コネクタ装置の中心コンタクトに環状体を嵌合させて押圧接触することを特徴とするものとされる。 The coaxial connector device according to the invention described in any one of claims 1 to 5 in the claims of the present application (hereinafter referred to as a coaxial connector device according to the present invention) is connected to the central conductor of the coaxial cable. A contact member having a center conductor connection portion to be connected and a contact engaging portion to be contact-connected to the center contact of the counterpart coaxial connector device, and an outer contact surrounding the center contact of the counterpart coaxial connector device are fitted and connected. A ground contact member having an annular fitting portion and a shell portion that extends from the annular fitting portion and is connected to the outer conductor of the coaxial cable, and an insulation that supports the contact member and the ground contact member in a mutually insulated state. The contact member is provided with a fixed portion and insulated by the fixed portion. The contact engaging portion is fixed inside the ring contact portion of the ground contact member, and the center conductor connecting portion is adjacent to the contact engagement portion outside the annular contact portion of the ground contact member. The contact engaging portion has a pair of curved elastic arm portions protruding opposite to each other from the fixed portion, and their free ends are engaged with each other and elastically deformable. An annular body is formed, and the annular body is fitted and pressed into the center contact of the counterpart coaxial connector device.
上述の本願発明に係る同軸コネクタ装置にあっては、コンタクト部材がそれに設けられた固定部により絶縁ハウジング部材に固定され、コンタクト部材の接触係合部が、グラウンドコンタクト部材の環状嵌合部の内側に配されるとともに、コンタクト部材の中心導体接続部が、中心導体接続部がグラウンドコンタクト部材の環状嵌合部の外側において接触係合部に近接して配されたもとで、同軸ケーブルの中心導体がコンタクト部材の中心導体接続部に接続されるとともに、同軸ケーブルの外側導体がグラウンドコンタクト部材のシェル部に接続されて、同軸ケーブルの一端部に装着される。そして、コンタクト部材の接触係合部が、コンタクト部材の固定部から相互対向して突出する一対の湾曲弾性腕状部を有し、それらの夫々の自由端が相互係合せしめられて弾性変形可能な環状体を形成するものとされる。 In the above coaxial connector device according to the present invention, the contact member is fixed to the insulating housing member by the fixing portion provided thereon, and the contact engaging portion of the contact member is located inside the annular fitting portion of the ground contact member. And the center conductor connecting portion of the contact member is disposed close to the contact engaging portion outside the annular fitting portion of the ground contact member, so that the center conductor of the coaxial cable is The outer conductor of the coaxial cable is connected to the shell portion of the ground contact member and is attached to one end of the coaxial cable. The contact engaging portion of the contact member has a pair of curved elastic arm-like portions protruding opposite to each other from the fixed portion of the contact member, and their free ends can be engaged with each other to be elastically deformed. An annular body is formed.
コンタクト部材の接触係合部が有する一対の湾曲弾性腕状部は、例えば、コンタクト部材の固定部からの突出長が等長とされたもとで、環状体を形成する。また、コンタクト部材の接触係合部が有する一対の湾曲弾性腕状部は、例えば、そのうちの一方の自由端に係合凹部が設けられるとともに他方の自由端に係合凸部が設けられ、これらの係合凹部と係合凸部とが交互係合せしめられることにより環状体を形成する。 The pair of curved elastic arm-like portions included in the contact engaging portion of the contact member form an annular body, for example, with the protruding length from the fixed portion of the contact member being the same length. In addition, the pair of curved elastic arm-like portions included in the contact engagement portion of the contact member includes, for example, an engagement concave portion provided at one free end and an engagement convex portion provided at the other free end. The annular recesses are formed by alternately engaging the engaging concave portions and the engaging convex portions.
さらに、コンタクト部材の接触係合部が有する一対の湾曲弾性腕状部は、例えば、環状体を形成したもとで、相互に近接する方向及び相互に離隔する方向の弾性変位が可能とされ、それに伴い、絶縁ハウジング部材が、グラウンドコンタクト部材の環状嵌合部の内側において接触係合部を包囲する基部を有し、その基部と環状体を形成する一対の湾曲弾性腕状部の夫々との間に一対の湾曲弾性腕状部の弾性変位を許容する間隙が形成されるものとされる。 Furthermore, the pair of curved elastic arm portions of the contact engaging portion of the contact member can be elastically displaced in directions close to each other and in directions away from each other, for example, while forming an annular body. Accordingly, the insulating housing member has a base portion that surrounds the contact engagement portion inside the annular fitting portion of the ground contact member, and the base portion and each of the pair of curved elastic arm portions forming the annular body A gap that allows elastic displacement of the pair of curved elastic arm portions is formed between them.
同軸ケーブルの一端部に装着された本願発明に係る同軸コネクタ装置は、例えば、回路基板に取り付けられた相手方同軸コネクタ装置に、グラウンドコンタクト部材の環状嵌合部を相手方同軸コネクタ装置の外側コンタクトに嵌合させるとともに、グラウンドコンタクト部材の環状嵌合部の内側に配されたコンタクト部材の接触係合部を相手方同軸コネクタ装置の中心コンタクトに接触接続させて、連結される。その際、接触係合部は、それが有する一対の湾曲弾性腕状部の夫々の自由端が相互係合せしめられて形成する弾性変形可能な環状体を、相手方同軸コネクタ装置の中心コンタクトに嵌合させて、その中心コンタクトに押圧接触するものとされる。 The coaxial connector device according to the present invention attached to one end of the coaxial cable is, for example, fitted to the counterpart coaxial connector device attached to the circuit board and the annular fitting portion of the ground contact member to the outer contact of the counterpart coaxial connector device. At the same time, the contact engaging portion of the contact member disposed inside the annular fitting portion of the ground contact member is contact-connected to the center contact of the counterpart coaxial connector device to be coupled. At this time, the contact engaging portion is fitted with an elastically deformable annular body formed by mutually engaging the free ends of the pair of curved elastic arm portions of the contact engaging portion with the center contact of the counterpart coaxial connector device. In combination, the center contact is pressed.
このような本願発明に係る同軸コネクタ装置にあっては、グラウンドコンタクト部材の環状嵌合部の内側に配されるコンタクト部材の接触係合部が、相手方同軸コネクタ装置の中心コンタクトに嵌合する弾性変形可能な環状体を形成するものとされ、斯かる環状体は、嵌合する相手方同軸コネクタ装置の中心コンタクトに、相手方同軸コネクタ装置が取り付けられた回路基板の部品等搭載面に沿う方向をもって押圧接触することになり、また、同軸ケーブルの中心導体との接続がなされるコンタクト部材の中心導体接続部が、グラウンドコンタクト部材の環状嵌合部の外側において接触係合部に近接して配されるので、本願発明に係る同軸コネクタ装置は、相手方同軸コネクタ装置が取り付けられた回路基板の部品等搭載面に直交する方向の寸法である厚み寸法の低減を図ることができるものとなる。 In such a coaxial connector device according to the present invention, the contact engaging portion of the contact member arranged inside the annular fitting portion of the ground contact member is fitted to the center contact of the counterpart coaxial connector device. The annular body is formed to be deformable, and the annular body is pressed to the center contact of the mating coaxial connector device to be fitted in a direction along the mounting surface of the component of the circuit board to which the counterpart coaxial connector device is attached. The center conductor connecting portion of the contact member that is in contact with the center conductor of the coaxial cable is disposed in the vicinity of the contact engaging portion outside the annular fitting portion of the ground contact member. Therefore, the coaxial connector device according to the invention of the present application is in a direction orthogonal to the mounting surface of the circuit board components and the like to which the counterpart coaxial connector device is attached. It becomes capable of reducing the thickness is legal.
しかも、本願発明に係る同軸コネクタ装置にあっては、相手方同軸コネクタ装置の中心コンタクトに接触接続されるコンタクト部材の接触係合部が、コンタクト部材の固定部から相互対向して突出する一対の湾曲弾性腕状部を有し、それらの夫々の自由端が相互係合せしめられて弾性変形可能な環状体を形成し、その弾性変形可能な環状体を相手方同軸コネクタ装置の中心コンタクトに嵌合させて、その中心コンタクトに押圧接触するものとされるので、コンタクト部材の接触係合部の相手方同軸コネクタ装置の中心コンタクトに対する押圧接触が、弾性変形可能な環状体を形成する一対の湾曲弾性腕状部の夫々が具える弾性力を伴って強固に行われる。従って、本願発明に係る同軸コネクタ装置によれば、コンタクト部材と相手方同軸コネクタ装置の中心コンタクトとの接触接続を確実かつ安定に行うことができることになる。 In addition, in the coaxial connector device according to the present invention, the contact engaging portions of the contact member that are contact-connected to the center contact of the counterpart coaxial connector device are a pair of curves protruding opposite to each other from the fixed portion of the contact member. An elastic arm-shaped portion is provided, and the free ends thereof are mutually engaged to form an elastically deformable annular body, and the elastically deformable annular body is fitted to the center contact of the counterpart coaxial connector device. Therefore, the contact contact portion of the contact member is pressed against the center contact of the counterpart coaxial connector device to form an elastically deformable annular body. It is performed firmly with the elastic force which each part has. Therefore, according to the coaxial connector device according to the present invention, the contact connection between the contact member and the center contact of the counterpart coaxial connector device can be reliably and stably performed.
特に、コンタクト部材の接触係合部が有する一対の湾曲弾性腕状部が、コンタクト部材の固定部からの突出長が等長とされたもとで環状体を形成するもの、あるいは、コンタクト部材の接触係合部が有する一対の湾曲弾性腕状部が、そのうちの一方の自由端に係合凹部が設けられるとともに他方の自由端に係合凸部が設けられ、これらの係合凹部と係合凸部とが交互係合せしめられることにより環状体を形成するものとされる場合には、相手方同軸コネクタ装置の中心コンタクトに勘合する弾性変形可能な環状体を形成する一対の湾曲弾性腕状部の夫々が具える弾性力が、効率良く効果的に相手方同軸コネクタ装置の中心コンタクトに作用することになり、コンタクト部材の接触係合部の相手方同軸コネクタ装置の中心コンタクトに対する押圧接触がより強固に行われる。 In particular, the pair of curved elastic arm portions of the contact engaging portion of the contact member form an annular body with the projection length from the fixed portion of the contact member being equal, or the contact member contact portion. The pair of curved elastic arm-like portions of the joint portion has an engagement recess at one free end and an engagement projection at the other free end, and these engagement recess and engagement projection Are alternately engaged with each other to form an annular body, each of a pair of curved elastic arm portions that form an elastically deformable annular body that fits into the center contact of the counterpart coaxial connector device. The elastic force of the contact member acts efficiently and effectively on the center contact of the counterpart coaxial connector device, and the contact engaging portion of the contact member is pressed against the center contact of the counterpart coaxial connector device. Contact is more firmly carried out.
さらに、コンタクト部材の接触係合部が有する一対の湾曲弾性腕状部が、環状体を形成したもとで、相互に近接する方向及び相互に離隔する方向の弾性変位が可能とされ、それに伴い、絶縁ハウジング部材が、グラウンドコンタクト部材の環状嵌合部の内側において接触係合部を包囲する基部を有し、その基部と環状体を形成する一対の湾曲弾性腕状部の夫々との間に一対の湾曲弾性腕状部の弾性変位を許容する間隙が形成されるものとされる場合にも、相手方同軸コネクタ装置の中心コンタクトに勘合する弾性変形可能な環状体を形成する一対の湾曲弾性腕状部の夫々が具える弾性力が、相手方同軸コネクタ装置が取り付けられた回路基板の部品等搭載面に沿う方向をもって効率良く効果的に相手方同軸コネクタ装置の中心コンタクトに作用することになり、コンタクト部材の接触係合部の相手方同軸コネクタ装置の中心コンタクトに対する押圧接触がなお一層強固に行われる。 Further, the pair of curved elastic arm portions of the contact engaging portion of the contact member can be elastically displaced in directions close to each other and in directions away from each other while forming an annular body. The insulating housing member has a base portion that surrounds the contact engagement portion inside the annular fitting portion of the ground contact member, and between the base portion and each of the pair of curved elastic arm portions forming the annular body. A pair of curved elastic arms forming an elastically deformable annular body that fits into the center contact of the counterpart coaxial connector device even when a gap allowing elastic displacement of the pair of curved elastic arm-shaped portions is formed. The elastic force provided by each of the shaped portions is efficiently and effectively applied to the center contact of the counterpart coaxial connector device in the direction along the mounting surface of the parts of the circuit board to which the counterpart coaxial connector device is attached. Will be pressing contact with the central contact of the counterpart coaxial connector contact engagement portion of the contact member still be more firmly performed.
本願発明を実施するための形態は、以下に述べられる本願発明についての実施例をもって説明される。 The form for implementing this invention is demonstrated with the Example about this invention described below.
図1(平面図),図2(底面図)及び図3(図1における III−III 線断面を示す断面図)は、本願発明に係る同軸コネクタ装置の一例を、それが一端部に装着された同軸ケーブルの一例と共に示す。 FIG. 1 (plan view), FIG. 2 (bottom view), and FIG. 3 (sectional view showing a cross section taken along line III-III in FIG. 1) show an example of a coaxial connector device according to the present invention, which is attached to one end. And an example of a coaxial cable.
図1〜図3に示される本願発明に係る同軸コネクタ装置の一例を成す同軸コネクタ装置10は、同軸ケーブル11の一端部に装着されており、同軸ケーブル11は、中心導体12と、中心導体12を密着包囲する内部絶縁体13と、内部絶縁体13を密着包囲する外側導体14と、外側導体14を密着包囲する表皮絶縁体15とを有している。斯かる同軸ケーブル11の一端部においては、表皮絶縁体15が部分的に切除されて外側導体14が露出するとともに、その外側導体14及び内部絶縁体13の夫々が部分的に切除されて中心導体12が露出する状態におかれている。 A coaxial connector device 10, which is an example of the coaxial connector device according to the present invention shown in FIGS. 1 to 3, is attached to one end of a coaxial cable 11, and the coaxial cable 11 includes a center conductor 12 and a center conductor 12. An inner insulator 13 that tightly surrounds the outer conductor 14, an outer conductor 14 that tightly surrounds the inner insulator 13, and a skin insulator 15 that tightly surrounds the outer conductor 14. At one end of the coaxial cable 11, the skin insulator 15 is partially cut away to expose the outer conductor 14, and each of the outer conductor 14 and the inner insulator 13 is partially cut away to form the central conductor. 12 is exposed.
同軸コネクタ装置10は、主要構成要素として、導電性材料により形成されて、同軸ケーブル11の中心導体12との電気的接続がなされるコンタクト部材20と、導電性材料により形成されて、同軸ケーブル11の外側導体14との電気的接続がなされるグラウンドコンタクト部材21と、合成樹脂材等の絶縁材料により形成されて、コンタクト部材20とグラウンドコンタクト部材21とを相互絶縁状態をもって支持する絶縁ハウジング部材22とを備えている。 The coaxial connector device 10 is formed of a conductive material as a main component, and is formed of a conductive material and a contact member 20 that is electrically connected to the central conductor 12 of the coaxial cable 11. A ground contact member 21 that is electrically connected to the outer conductor 14 and an insulating housing member 22 that is formed of an insulating material such as a synthetic resin material and supports the contact member 20 and the ground contact member 21 in a mutually insulated state. And.
絶縁ハウジング部材22は、外周面23が円錐筒面状を成すものとされ、中央部に矩形透孔24が形成されるとともに、矩形透孔24に連なる内部空間が形成された基部25を有しており、基部25は、コンタクト部材20を保持している。また、グラウンドコンタクト部材21が、絶縁ハウジング部材22の基部25を包囲する環状嵌合部26を有している。そして、これら絶縁ハウジング部材22の基部25とグラウンドコンタクト部材21の環状嵌合部26とは、同軸コネクタ装置10における嵌合連結部を構成しており、同軸ケーブル11の一端部に装着された同軸コネクタ装置10は、斯かる嵌合連結部をもって、相手方同軸コネクタ装置に嵌合連結される。 The insulating housing member 22 has an outer peripheral surface 23 having a conical cylindrical surface shape. The insulating housing member 22 has a base portion 25 in which a rectangular through hole 24 is formed at the center and an internal space connected to the rectangular through hole 24 is formed. The base portion 25 holds the contact member 20. The ground contact member 21 has an annular fitting portion 26 that surrounds the base portion 25 of the insulating housing member 22. The base portion 25 of the insulating housing member 22 and the annular fitting portion 26 of the ground contact member 21 constitute a fitting connection portion in the coaxial connector device 10 and are coaxially mounted on one end portion of the coaxial cable 11. The connector device 10 is fitted and connected to the counterpart coaxial connector device with such a fitting connection portion.
図4(上面側から見た斜視図)及び図5(底面側から見た斜視図)は、同軸コネクタ装置10が嵌合連結される相手方同軸コネクタ装置の一例を成す相手方同軸コネクタ装置30を示す。相手方同軸コネクタ装置30は、回路基板(図示が省略されている。)に固定されるものとされており、合成樹脂材等の絶縁材料により形成されて、相手方同軸コネクタ装置30が固定される回路基板の部品等搭載面上に配される絶縁基体31を備えている。絶縁基体31は、相手方同軸コネクタ装置30が固定される回路基板の部品等搭載面に対接する底面側部分32とそれに対向する上面側部分33とを有しており、その中央部分に、底面側部分32と上面側部分33とを連通する透孔(図には現われていない。)が形成されている。 4 (a perspective view seen from the top surface side) and FIG. 5 (a perspective view seen from the bottom surface side) show a counterpart coaxial connector device 30 that is an example of a counterpart coaxial connector device to which the coaxial connector device 10 is fitted and connected. . The counterpart coaxial connector device 30 is fixed to a circuit board (not shown), is formed of an insulating material such as a synthetic resin material, and the circuit to which the counterpart coaxial connector device 30 is fixed. An insulating base 31 is provided on the mounting surface of the parts such as the substrate. The insulating base 31 has a bottom surface side portion 32 that contacts a mounting surface of a circuit board component and the like to which the counterpart coaxial connector device 30 is fixed, and a top surface side portion 33 that faces the bottom surface portion. A through-hole (not shown in the figure) that connects the portion 32 and the upper surface side portion 33 is formed.
また、相手方同軸コネクタ装置30は、導電材料により形成され、絶縁基体31の中央部分に形成された透孔を底面側部分32側から上面側部分33側へと貫通して、絶縁基体31に組み付けられる信号用接触導体34を備えている。信号用接触導体34には、絶縁基体31において底面側部分32側から透孔を貫通して上面側部分33側へと伸びる円柱状部を成す中心コンタクト35と、絶縁基体31の底面側部分32において中心コンタクト35から絶縁基体31の外部へと伸びる信号用接続部36とが設けられている。中心コンタクト35は、相手方同軸コネクタ装置30に嵌合連結される同軸コネクタ装置10におけるコンタクト部材20が接触接続されるものとされ、信号用接続部36は、絶縁基体31が配される部品等搭載面を有する回路基板に設けられた信号端子に、例えば、半田付けにより接続される。 Further, the counterpart coaxial connector device 30 is formed of a conductive material, passes through a through hole formed in the central portion of the insulating base 31 from the bottom side portion 32 side to the top side portion 33 side, and is assembled to the insulating base 31. The signal contact conductor 34 is provided. The signal contact conductor 34 includes a central contact 35 that forms a cylindrical portion that extends through the through hole from the bottom surface portion 32 side to the top surface portion 33 side in the insulating base 31, and the bottom surface portion 32 of the insulating base 31. , A signal connection portion 36 extending from the center contact 35 to the outside of the insulating base 31 is provided. The center contact 35 is to be contact-connected to the contact member 20 in the coaxial connector device 10 that is fitted and connected to the counterpart coaxial connector device 30, and the signal connection portion 36 is mounted with a component on which the insulating base 31 is disposed. For example, it is connected to a signal terminal provided on a circuit board having a surface by soldering.
さらに、相手方同軸コネクタ装置30は、導電材料により形成され、絶縁基体31の上面側部分33側において、中心コンタクト35を、絶縁基体31が配される回路基板の部品等搭載面に沿って包囲する環状体を成すものとして、絶縁基体31に組み付けられた外側コンタクト37を備えている。外側コンタクト37には、それから絶縁基体31を貫通して絶縁基体31の底面側部分32側及び絶縁基体31の外部へと伸びる接地用接続部38が設けられている。外側コンタクト37は、相手方同軸コネクタ装置30に嵌合連結される同軸コネクタ装置10におけるグラウンドコンタクト部材21の環状嵌合部26が嵌合接続されるものとされ、接地用接続部38は、絶縁基体31が配される部品等搭載面を有する回路基板に設けられた接地端子に、例えば、半田付けにより接続される。なお、信号用接触導体34及び外側コンタクト37の絶縁基体31への組み付けは、例えば、インサート成形による一体組付けとしてもよい。 Further, the counterpart coaxial connector device 30 is formed of a conductive material, and surrounds the center contact 35 along the mounting surface of the parts of the circuit board on which the insulating base 31 is disposed, on the upper surface side portion 33 side of the insulating base 31. As an annular body, an outer contact 37 assembled to the insulating base 31 is provided. The outer contact 37 is provided with a ground connection 38 extending through the insulating base 31 and extending to the bottom surface portion 32 side of the insulating base 31 and to the outside of the insulating base 31. The outer contact 37 is configured to be fitted and connected to the annular fitting portion 26 of the ground contact member 21 in the coaxial connector device 10 that is fitted and connected to the counterpart coaxial connector device 30. For example, it is connected by soldering to a ground terminal provided on a circuit board having a component mounting surface on which 31 is disposed. The signal contact conductor 34 and the outer contact 37 may be assembled to the insulating base 31 by, for example, integral assembly by insert molding.
同軸コネクタ装置10が備える絶縁ハウジング部材22は、図6,図7及び図8に示されるように、基部25に加えて、基部25の一端から折曲可能に伸び、折り曲げられたときコンタクト部材20に当接するものとされる折曲当接部40と、基部25から伸び、グラウンドコンタクト部材21の環状嵌合部26にその内側から係合してグラウンドコンタクト部材21を保持する保持部41とを有している。折曲当接部40は、全体として平板状部を成すものとされており、また、保持部41には、グラウンドコンタクト部材21の環状嵌合部26に設けられた切欠き26a(図9)に挿入される突起部41aが設けられている。 As shown in FIGS. 6, 7, and 8, the insulating housing member 22 included in the coaxial connector device 10 extends in a foldable manner from one end of the base portion 25 in addition to the base portion 25, and when bent, the contact member 20. A bending contact portion 40 that is to be in contact with the base portion 25, and a holding portion 41 that extends from the base portion 25 and engages with the annular fitting portion 26 of the ground contact member 21 from the inside to hold the ground contact member 21. Have. The bent contact portion 40 has a flat plate shape as a whole, and the holding portion 41 has a notch 26a (FIG. 9) provided in the annular fitting portion 26 of the ground contact member 21. A protrusion 41a to be inserted into the is provided.
また、同軸コネクタ装置10が備えるグラウンドコンタクト部材21にあっては、図9及び図10に示されるように、環状嵌合部26に、絶縁ハウジング部材22の保持部41に設けられた突起部41aが挿入される切欠き26aが設けられている。そして、グラウンドコンタクト部材21は、環状嵌合部26に加えて、環状嵌合部26の一端から折曲可能に伸び、折り曲げられるとき、それに伴って絶縁ハウジング部材22の折曲当接部40を折り曲げるとともに、中心導体12がコンタクト部材20に接続された同軸ケーブル11の外側導体14との接続がなされることになるシェル部44と、環状嵌合部26から伸びて、中心導体12がコンタクト部材20に接続された同軸ケーブル11の外側導体14に接触して当該同軸ケーブル11を支持するケーブル支持部45とを有している。シェル部44は、それに沿って絶縁ハウジング部材22における折曲当接部40が伸びることになるものとされている。 Further, in the ground contact member 21 provided in the coaxial connector device 10, as shown in FIGS. 9 and 10, the annular fitting portion 26 has a protrusion 41 a provided on the holding portion 41 of the insulating housing member 22. Is provided with a notch 26a. In addition to the annular fitting portion 26, the ground contact member 21 extends from one end of the annular fitting portion 26 so that it can be bent. When the ground contact member 21 is bent, the bending contact portion 40 of the insulating housing member 22 is accordingly accompanied. The center conductor 12 extends from the annular fitting portion 26 and the shell portion 44 that is to be connected to the outer conductor 14 of the coaxial cable 11 in which the center conductor 12 is connected to the contact member 20. And a cable support 45 for supporting the coaxial cable 11 in contact with the outer conductor 14 of the coaxial cable 11 connected to 20. In the shell portion 44, the bent contact portion 40 in the insulating housing member 22 extends along the shell portion 44.
そして、シェル部44には、折り曲げられて、ケーブル支持部45に係合することになる一対の第1の折曲係合部46、及び、折り曲げられて、中心導体12がコンタクト部材20に接続された同軸ケーブル11の表皮絶縁体15に係合することになる一対の第2の折曲係合部47が設けられている。また、ケーブル支持部45の同軸ケーブル11の外側導体14に接触する内側部分には、複数の帯状突起45aが互いに平行に伸びるように設けられており、それにより、ケーブル支持部45の同軸ケーブル11の外側導体14との接触接続が確実に行われることになる。 The shell portion 44 is bent to be engaged with the cable support portion 45 and the pair of first bending engagement portions 46, and the center conductor 12 is connected to the contact member 20 by being bent. A pair of second bent engaging portions 47 that are to be engaged with the skin insulator 15 of the coaxial cable 11 is provided. A plurality of strip-shaped protrusions 45a are provided on the inner portion of the cable support 45 that contacts the outer conductor 14 of the coaxial cable 11 so as to extend in parallel with each other. Thus, the contact connection with the outer conductor 14 is ensured.
さらに、同軸コネクタ装置10が備えるコンタクト部材20は、図11,図12及び図13に示されるように、絶縁ハウジング部材22における基部25に固定される固定部50と、同軸ケーブル11の中心導体12が接続される中心導体接続部51と、相手方同軸コネクタ装置30の中心コンタクト35に接触接続される接触係合部52とを有して構成されている。コンタクト部材20の固定部50には、係合突起部53が設けられており、この係合突起部53は、絶縁ハウジング部材22における基部25に矩形透孔24に隣接して形成された係合孔54に係合し、それにより、固定部50が絶縁ハウジング部材22における基部25に固定される。その際、コンタクト部材20の接触係合部52は、絶縁ハウジング部材22の基部25における矩形透孔24に連なる内部空間内に配される。 Further, the contact member 20 included in the coaxial connector device 10 includes a fixed portion 50 fixed to the base portion 25 of the insulating housing member 22 and the central conductor 12 of the coaxial cable 11 as shown in FIGS. 11, 12, and 13. Are connected to the center contact 35 of the counterpart coaxial connector device 30 and the contact engaging portion 52 is connected to the center contact 35 of the counterpart coaxial connector device 30. The fixing portion 50 of the contact member 20 is provided with an engaging protrusion 53, and the engaging protrusion 53 is formed on the base 25 of the insulating housing member 22 adjacent to the rectangular through hole 24. The fixing portion 50 is fixed to the base portion 25 of the insulating housing member 22 by engaging with the hole 54. At that time, the contact engaging portion 52 of the contact member 20 is disposed in an internal space that is continuous with the rectangular through hole 24 in the base portion 25 of the insulating housing member 22.
また、コンタクト部材20の中心導体接続部51は、固定部50の一端部から伸びる固定平板状部55と、固定平板状部55から屈曲部56を介して折り返すように伸びる可動平板状部57とを有して構成されている。可動平板状部57は、屈曲部56を揺動支点として、固定平板状部55に近接する方向及び固定平板状部55から離隔する方向に弾性揺動可能とされており、可動平板状部57が固定平板状部55に近接する位置をとるものとされて、同軸ケーブル11の中心導体12が固定平板状部55と可動平板状部56とによって挟持され、それにより、コンタクト部材20の中心導体接続部51に同軸ケーブル11の中心導体12が接続された状態がとられる。 Further, the center conductor connecting portion 51 of the contact member 20 includes a fixed flat plate portion 55 extending from one end portion of the fixed portion 50, and a movable flat plate portion 57 extending from the fixed flat plate portion 55 via the bent portion 56. It is comprised. The movable flat plate portion 57 is elastically swingable in the direction approaching the fixed flat plate portion 55 and the direction separating from the fixed flat plate portion 55 with the bent portion 56 as a swing fulcrum. Is positioned close to the fixed flat plate portion 55, and the central conductor 12 of the coaxial cable 11 is sandwiched between the fixed flat plate portion 55 and the movable flat plate portion 56, thereby the central conductor of the contact member 20. A state in which the central conductor 12 of the coaxial cable 11 is connected to the connecting portion 51 is taken.
さらに、コンタクト部材20の接触係合部52は、固定部50から相互対向して突出する一対の湾曲弾性腕状部58及び59を有して構成されている。一対の湾曲弾性腕状部58及び59は、固定部50からの突出長が実質的に等長とされており、湾曲弾性腕状部58の自由端に係合凹部60が形成されているとともに、湾曲弾性腕状部59の自由端に係合凸部61が形成されていて、湾曲弾性腕状部58の自由端に形成された係合凹部60と湾曲弾性腕状部59の自由端に形成されたは係合凸部61とが相互係合せしめられることにより、弾性変形可能な環状体を形成している。斯かる弾性変形可能な環状体を形成する一対の湾曲弾性腕状部58及び59は、環状体を形成したもとで、相互に近接する方向及び相互に離隔する方向の弾性変位が可能とされている。そして、接触係合部52が有する一対の湾曲弾性腕状部58及び59が形成する弾性変形可能な環状体は、相手方同軸コネクタ装置30の中心コンタクト35に嵌合し、当該中心コンタクト35との接触接続状態をとる。 Further, the contact engaging portion 52 of the contact member 20 includes a pair of curved elastic arm portions 58 and 59 that protrude from the fixing portion 50 so as to face each other. The pair of curved elastic arm portions 58 and 59 have substantially the same length protruding from the fixed portion 50, and an engagement recess 60 is formed at the free end of the curved elastic arm portion 58. An engagement convex portion 61 is formed at the free end of the curved elastic arm portion 59, and an engagement concave portion 60 formed at the free end of the curved elastic arm portion 58 and a free end of the curved elastic arm portion 59. The formed protrusions 61 are engaged with each other to form an elastically deformable annular body. The pair of curved elastic arm portions 58 and 59 forming such an elastically deformable annular body can be elastically displaced in a direction close to each other and in a direction away from each other. ing. Then, the elastically deformable annular body formed by the pair of curved elastic arm portions 58 and 59 included in the contact engaging portion 52 is fitted into the center contact 35 of the counterpart coaxial connector device 30 and is connected to the center contact 35. Take a contact connection.
なお、接触係合部52が有する一対の湾曲弾性腕状部58及び59は、湾曲弾性腕状部58の自由端に、係合凹部60に代えて、係合凸部が形成されるとともに、湾曲弾性腕状部59の自由端に、係合凸部61に代えて、係合凹部が形成されたものとされてもよい。 The pair of curved elastic arm portions 58 and 59 included in the contact engagement portion 52 is formed with an engagement convex portion at the free end of the curved elastic arm portion 58 instead of the engagement concave portion 60. Instead of the engaging convex portion 61, an engaging concave portion may be formed at the free end of the curved elastic arm portion 59.
このような固定部50,中心導体接続部51及び接触係合部52を有したコンタクト部材20は、例えば、弾性金属板材に打抜き折曲げ加工が施されることにより一体的に形成される。そして、コンタクト部材20が、その中心導体接続部51に同軸ケーブル11の中心導体12が接続されて、グラウンドコンタクト部材21と共に、絶縁ハウジング部材22により支持された状態がとられる際には、コンタクト部材20の接触係合部52が、絶縁ハウジング部材22の基部25における矩形透孔24に連なる内部空間内に配され、従って、グラウンドコンタクト部材21の環状嵌合部26の内側に配されるとともに、同軸ケーブル11の中心導体12が接続されたコンタクト部材20の中心導体接続部51が、絶縁ハウジング部材22の基部25の外部となるグラウンドコンタクト部材21の環状嵌合部26の外側において接触係合部52に近接して配される。 The contact member 20 having the fixed portion 50, the central conductor connecting portion 51, and the contact engaging portion 52 is integrally formed by punching and bending an elastic metal plate material, for example. When the contact member 20 is in a state where the center conductor 12 of the coaxial cable 11 is connected to the center conductor connecting portion 51 and is supported by the insulating housing member 22 together with the ground contact member 21, the contact member 20 20 contact engaging portions 52 are disposed in the internal space that is continuous with the rectangular through-hole 24 in the base portion 25 of the insulating housing member 22, and thus are disposed inside the annular fitting portion 26 of the ground contact member 21, The center conductor connecting portion 51 of the contact member 20 to which the center conductor 12 of the coaxial cable 11 is connected is a contact engaging portion outside the annular fitting portion 26 of the ground contact member 21 that is outside the base portion 25 of the insulating housing member 22. 52 in the vicinity.
上述の図11〜図13に示されるコンタクト部材20と図9及び図10に示されるグラウンドコンタクト部材21とが、図6〜図8に示される絶縁ハウジング部材22によって相互絶縁状態とされて支持されることにより、同軸コネクタ装置10が、図14,図15及び図16に示されるように組み立てられる。このような図14〜図16に示される同軸コネクタ装置10の組立は、例えば、次のようにしてなされる。 The contact member 20 shown in FIGS. 11 to 13 and the ground contact member 21 shown in FIGS. 9 and 10 are supported by being insulated from each other by the insulating housing member 22 shown in FIGS. Thus, the coaxial connector device 10 is assembled as shown in FIGS. 14, 15, and 16. The assembly of the coaxial connector device 10 shown in FIGS. 14 to 16 is performed as follows, for example.
先ず、コンタクト部材20が、その固定部50に設けられた係合突起部53が、絶縁ハウジング部材22における基部25に矩形透孔24に隣接して形成された係合孔54に係合して、固定部50が絶縁ハウジング部材22に固定される状態をもって、絶縁ハウジング部材22に取り付けられ、それにより、絶縁ハウジング部材22により支持された状態におかれる。その際、コンタクト部材20の接触係合部52が、絶縁ハウジング部材22の基部25における矩形透孔24に連なる内部空間内に配されるとともに、コンタクト部材20の中心導体接続部51が、絶縁ハウジング部材22の基部25における内部空間外に配される。即ち、絶縁ハウジング部材22の基部25は、コンタクト部材20の接触係合部52を包囲しており、接触係合部52に固定部50を介して連なるコンタクト部材20の中心導体接続部51が、その外部に置かれるものとなる。 First, the contact protrusion 20 of the contact member 20 is engaged with an engagement hole 54 formed adjacent to the rectangular through hole 24 in the base 25 of the insulating housing member 22. The fixing portion 50 is attached to the insulating housing member 22 with being fixed to the insulating housing member 22, thereby being supported by the insulating housing member 22. At that time, the contact engaging portion 52 of the contact member 20 is disposed in the internal space that is continuous with the rectangular through hole 24 in the base portion 25 of the insulating housing member 22, and the central conductor connecting portion 51 of the contact member 20 is connected to the insulating housing. It is arranged outside the internal space in the base portion 25 of the member 22. That is, the base portion 25 of the insulating housing member 22 surrounds the contact engaging portion 52 of the contact member 20, and the center conductor connecting portion 51 of the contact member 20 connected to the contact engaging portion 52 via the fixing portion 50 is It will be placed outside of it.
絶縁ハウジング部材22の基部25における内部空間内に配されたコンタクト部材20の接触係合部52が有する弾性変形可能な環状体を形成する一対の湾曲弾性腕状部58及び59は、相互に近接する方向及び相互に離隔する方向の弾性変位が可能な状態におかれ、そのため、絶縁ハウジング部材22の基部25と一対の湾曲弾性腕状部58及び59の夫々との間に、上述の弾性変位を許容する間隙が形成されるようにされている。 A pair of curved elastic arm portions 58 and 59 forming an elastically deformable annular body included in the contact engaging portion 52 of the contact member 20 disposed in the internal space in the base portion 25 of the insulating housing member 22 are close to each other. Elastic displacement in the direction to be separated and the direction to be separated from each other, so that the elastic displacement described above is provided between the base portion 25 of the insulating housing member 22 and each of the pair of curved elastic arm portions 58 and 59. A gap that allows the
上述のように絶縁ハウジング部材22の基部25における内部空間内に配されたコンタクト部材20の接触係合部52は、それが有する一対の湾曲弾性腕状部58及び59が形成する弾性変形可能な環状体が、絶縁ハウジング部材22の基部25に設けられた矩形透孔24に対応する位置をとるものとされる。また、コンタクト部材20の中心導体接続部51は、固定平板状部55と屈曲部56と可動平板状部57とを有して構成されているが、これらは、絶縁ハウジング部材22の基部25の外部に配されていて、可動平板状部57が固定平板状部55に対する近接変位及び離隔変位を行い得るものとされる。 As described above, the contact engaging portion 52 of the contact member 20 disposed in the inner space of the base portion 25 of the insulating housing member 22 is elastically deformable formed by the pair of curved elastic arm portions 58 and 59 that the contact engaging portion 52 has. The annular body takes a position corresponding to the rectangular through hole 24 provided in the base portion 25 of the insulating housing member 22. Further, the central conductor connecting portion 51 of the contact member 20 includes a fixed flat plate portion 55, a bent portion 56, and a movable flat plate portion 57, which are formed on the base portion 25 of the insulating housing member 22. It is arranged outside, and the movable flat plate portion 57 can perform a proximity displacement and a separation displacement with respect to the fixed flat plate portion 55.
続いて、グラウンドコンタクト部材21が、コンタクト部材20が取り付けられた絶縁ハウジング部材22に取り付けられ、それにより、絶縁ハウジング部材22により支持された状態におかれる。その際には、絶縁ハウジング部材22における基部25から伸びる保持部41が、グラウンドコンタクト部材21の環状嵌合部26にその内側から係合するとともに、グラウンドコンタクト部材21の環状嵌合部26に形成された切欠き26aに保持部41に設けられた突起部41aが挿入される。そして、絶縁ハウジング部材22の基部25から伸びる折曲当接部40が、図16に示されるように、グラウンドコンタクト部材21における環状嵌合部26から伸びるシェル部44に沿って伸びるものとされる。 Subsequently, the ground contact member 21 is attached to the insulating housing member 22 to which the contact member 20 is attached, so that the ground contact member 21 is supported by the insulating housing member 22. At that time, the holding portion 41 extending from the base portion 25 in the insulating housing member 22 is engaged with the annular fitting portion 26 of the ground contact member 21 from the inside thereof, and is formed in the annular fitting portion 26 of the ground contact member 21. The protrusion 41a provided on the holding portion 41 is inserted into the cutout 26a. And the bending contact part 40 extended from the base 25 of the insulating housing member 22 shall be extended along the shell part 44 extended from the annular fitting part 26 in the ground contact member 21, as FIG. 16 shows. .
このようにして、コンタクト部材20及びグラウンドコンタクト部材21が絶縁ハウジング部材22に取り付けられて組み立てられた同軸コネクタ装置10にあっては、コンタクト部材20の接触係合部52が、グラウンドコンタクト部材21の環状嵌合部26の内側に配されるとともに、コンタクト部材20の中心導体接続部51が、グラウンドコンタクト部材21の環状嵌合部26の外側において接触係合部52に近接して配されることになる。 In the coaxial connector device 10 assembled by attaching the contact member 20 and the ground contact member 21 to the insulating housing member 22 in this way, the contact engaging portion 52 of the contact member 20 is provided with the ground contact member 21. The central conductor connecting part 51 of the contact member 20 is arranged in the vicinity of the contact engaging part 52 outside the annular fitting part 26 of the ground contact member 21 while being arranged inside the annular fitting part 26. become.
そして、斯かる同軸コネクタ装置10が同軸ケーブル11の一端部に装着されるときには、図17に示されるように、同軸ケーブル11の一端部において、表皮絶縁体15が部分的に切除され、さらに、外側導体14と内部絶縁体13とが部分的に切除されて露出するものとされた中心導体12が、同軸コネクタ装置10におけるコンタクト部材20の中心導体接続部51を構成する固定平板状部55に載置される。その際、同軸ケーブル11の中心導体12は、固定平板状部55と固定平板状部55と共に中心導体接続部51を構成する可動平板状部57との間に位置するものとされる。 When such a coaxial connector device 10 is attached to one end portion of the coaxial cable 11, as shown in FIG. 17, the skin insulator 15 is partially cut off at one end portion of the coaxial cable 11, and The center conductor 12 in which the outer conductor 14 and the inner insulator 13 are partially cut and exposed is formed into a fixed flat plate-like portion 55 constituting the center conductor connecting portion 51 of the contact member 20 in the coaxial connector device 10. Placed. At this time, the central conductor 12 of the coaxial cable 11 is positioned between the fixed flat plate portion 55 and the movable flat plate portion 57 that constitutes the central conductor connecting portion 51 together with the fixed flat plate portion 55.
その後、グラウンドコンタクト部材21におけるシェル部44が、図16において矢印αにより示される、グラウンドコンタクト部材21におけるケーブル支持部45に向かう方向に、絶縁ハウジング部材22における折曲当接部40を伴って折り曲げられて、グラウンドコンタクト部材21におけるケーブル支持部45と略平行となる位置をとるものとされる。そして、グラウンドコンタクト部材21におけるシェル部44に伴って折り曲げられた絶縁ハウジング部材22における折曲当接部40が、コンタクト部材20の中心導体接続部51を構成する可動平板状部57に当接して、可動平板状部57を固定平板状部55に向かって押圧変位させ、固定平板状部55に載置された同軸ケーブル11の中心導体12を可動平板状部57と固定平板状部55とによって挟持されたものとなす。それにより、同軸ケーブル11の中心導体12がコンタクト部材20の中心導体接続部51に接続された状態が得られる。斯かる際、コンタクト部材20の中心導体接続部51に同軸ケーブル11の中心導体12を半田付けすることは不要とされる。 Thereafter, the shell portion 44 in the ground contact member 21 is bent together with the bending contact portion 40 in the insulating housing member 22 in the direction toward the cable support portion 45 in the ground contact member 21 as indicated by an arrow α in FIG. Thus, the ground contact member 21 takes a position substantially parallel to the cable support portion 45. Then, the bent contact portion 40 of the insulating housing member 22 that is bent along with the shell portion 44 of the ground contact member 21 contacts the movable flat plate-like portion 57 that constitutes the central conductor connecting portion 51 of the contact member 20. The movable flat plate portion 57 is pressed and displaced toward the fixed flat plate portion 55, and the central conductor 12 of the coaxial cable 11 placed on the fixed flat plate portion 55 is moved by the movable flat plate portion 57 and the fixed flat plate portion 55. It is assumed that it is pinched. Thereby, the state where the center conductor 12 of the coaxial cable 11 is connected to the center conductor connecting portion 51 of the contact member 20 is obtained. In this case, it is not necessary to solder the center conductor 12 of the coaxial cable 11 to the center conductor connecting portion 51 of the contact member 20.
続いて、折り曲げられたグラウンドコンタクト部材21におけるシェル部44に設けられた一対の第1の折曲係合部46及び一対の第2の折曲係合部47が夫々折り曲げられて、一対の第1の折曲係合部46がグラウンドコンタクト部材21におけるケーブル支持部45に係合し、また、一対の第2の折曲係合部47が同軸ケーブル11の表皮絶縁体15に係合する状態がとられる。その結果、図1〜図3に示されるような、同軸ケーブル11の一端部に装着された同軸コネクタ装置10が得られる。 Subsequently, the pair of first bent engaging portions 46 and the pair of second bent engaging portions 47 provided in the shell portion 44 of the bent ground contact member 21 are bent, respectively, so that the pair of first bent engaging portions 47 are bent. One bent engaging portion 46 is engaged with the cable support portion 45 in the ground contact member 21, and the pair of second bent engaging portions 47 are engaged with the skin insulator 15 of the coaxial cable 11. Is taken. As a result, the coaxial connector device 10 attached to one end of the coaxial cable 11 as shown in FIGS. 1 to 3 is obtained.
上述のようにして、同軸ケーブル11の一端部に装着された同軸コネクタ装置10が、例えば、回路基板に取り付けられた相手方同軸コネクタ装置30に嵌合連結されるときには、グラウンドコンタクト部材21の環状嵌合部26が、相手方同軸コネクタ装置30の外側コンタクト37に嵌合せしめられるとともに、グラウンドコンタクト部材21の環状嵌合部26の内側に配されたコンタクト部材20の接触係合部52が、相手方同軸コネクタ装置30の中心コンタクト35に接触接続される。その際、接触係合部52は、それが有する一対の湾曲弾性腕状部58及び59が各々の自由端が相互連結されたもとで形成する弾性変形可能な環状体を、相手方同軸コネクタ装置30の中心コンタクト35に嵌合させて、その中心コンタクト35に押圧接触するものとされる。 As described above, when the coaxial connector device 10 attached to one end portion of the coaxial cable 11 is fitted and connected to the counterpart coaxial connector device 30 attached to the circuit board, for example, the annular fitting of the ground contact member 21 is performed. The mating portion 26 is fitted to the outer contact 37 of the counterpart coaxial connector device 30, and the contact engagement portion 52 of the contact member 20 disposed inside the annular fitting portion 26 of the ground contact member 21 is the counterpart coaxial. It is contact-connected to the center contact 35 of the connector device 30. At that time, the contact engagement portion 52 is formed of an elastically deformable annular body formed by the pair of curved elastic arm portions 58 and 59 that are connected to each other at their free ends. The center contact 35 is fitted and pressed against the center contact 35.
このような本願発明に係る同軸コネクタ装置の一例を成す同軸コネクタ装置10によれば、グラウンドコンタクト部材21の環状嵌合部26の内側に配されるコンタクト部材20の接触係合部52が、相手方同軸コネクタ装置30の中心コンタクト35に嵌合する弾性変形可能な環状体を形成するものとされ、斯かる環状体は、嵌合する相手方同軸コネクタ装置30の中心コンタクト35に、相手方同軸コネクタ装置30が取り付けられた回路基板の部品等搭載面に沿う方向をもって押圧接触することになり、また、同軸ケーブル11の中心導体12との接続がなされるコンタクト部材20の中心導体接続部51が、グラウンドコンタクト部材21の環状嵌合部26の外側において接触係合部52に近接して配されるので、相手方同軸コネクタ装置30が取り付けられた回路基板の部品等搭載面に直交する方向の寸法である厚み寸法の低減を図ることができる。 According to the coaxial connector device 10 that constitutes an example of the coaxial connector device according to the present invention, the contact engaging portion 52 of the contact member 20 disposed inside the annular fitting portion 26 of the ground contact member 21 has a counterpart. An annular body that is elastically deformable to be fitted to the center contact 35 of the coaxial connector device 30 is formed. The annular body is connected to the center contact 35 of the mating coaxial connector device 30 to be fitted. The center conductor connecting portion 51 of the contact member 20 to be connected to the center conductor 12 of the coaxial cable 11 is connected to the ground contact in a direction along the mounting surface of the circuit board component or the like to which the circuit board is attached. Since it is arranged in the vicinity of the contact engaging portion 52 outside the annular fitting portion 26 of the member 21, the counterpart coaxial connector It is possible to reduce the thickness is the dimension in the direction 30 is perpendicular to the component such as the mounting surface of the circuit board mounted.
しかも、同軸コネクタ装置10によれば、相手方同軸コネクタ装置30の中心コンタクト35に接触接続されるコンタクト部材20の接触係合部52が、コンタクト部材20の固定部50から相互対向して突出する一対の湾曲弾性腕状部58及び59を有し、それらの夫々の自由端が相互連結されて弾性変形可能な環状体を形成し、その弾性変形可能な環状体を相手方同軸コネクタ装置30の中心コンタクト35に嵌合させて、その中心コンタクト35に押圧接触するものとされるので、コンタクト部材20の接触係合部52の相手方同軸コネクタ装置30の中心コンタクト35に対する押圧接触が、弾性変形可能な環状体を形成する一対の湾曲弾性腕状部58及び59の夫々が具える弾性力を伴って強固に行われるので、コンタクト部材20と相手方同軸コネクタ装置30の中心コンタクト35との接触接続を確実かつ安定に行うことができる。 Moreover, according to the coaxial connector device 10, the pair of contact engaging portions 52 of the contact member 20 that are contact-connected to the center contact 35 of the counterpart coaxial connector device 30 protrude from the fixing portion 50 of the contact member 20 so as to face each other. Curved elastic arm portions 58 and 59, and their free ends are interconnected to form an elastically deformable annular body, and the elastically deformable annular body serves as a center contact of the counterpart coaxial connector device 30. Since the contact contact portion 52 of the contact member 20 is pressed against the center contact 35 of the counterpart coaxial connector device 30, the contact contact portion 20 is elastically deformed. The contact member 2 is firmly formed with the elastic force provided by each of the pair of curved elastic arm portions 58 and 59 forming the body. And it is possible to perform the contacting of the center contact 35 of the counterpart coaxial connector 30 reliably and stably.
また、コンタクト部材20の接触係合部52が有する一対の湾曲弾性腕状部58及び59が、コンタクト部材20の固定部50からの突出長が等長とされたもとで環状体を形成するものとされ、さらに、湾曲弾性腕状部58の自由端に設けられた係合凹部60と湾曲弾性腕状部59の自由端に設けられた係合凸部61とが相互係合せしめられることにより環状体を形成するものとされるので、相手方同軸コネクタ装置30の中心コンタクト35に嵌合する弾性変形可能な環状体を形成する一対の湾曲弾性腕状部58及び59の夫々が具える弾性力が、効率良く効果的に相手方同軸コネクタ装置30の中心コンタクト35に作用することになり、コンタクト部材20の接触係合部52の相手方同軸コネクタ装置30の中心コンタクト35に対する押圧接触がより強固に行われる。 Further, the pair of curved elastic arm portions 58 and 59 included in the contact engaging portion 52 of the contact member 20 form an annular body with the protruding length from the fixed portion 50 of the contact member 20 being equal. Further, the engagement concave portion 60 provided at the free end of the curved elastic arm-shaped portion 58 and the engagement convex portion 61 provided at the free end of the curved elastic arm-shaped portion 59 are engaged with each other to form an annular shape. The elastic force provided by each of the pair of curved elastic arm portions 58 and 59 forming an elastically deformable annular body that fits into the center contact 35 of the counterpart coaxial connector device 30 is provided. Thus, it acts on the center contact 35 of the counterpart coaxial connector device 30 efficiently and effectively, so that the contact engaging portion 52 of the contact member 20 faces the center contact 35 of the counterpart coaxial connector device 30. Pressing contact is firmly carried out.
さらに、コンタクト部材20の接触係合部52が有する一対の湾曲弾性腕状部58及び59が、環状体を形成したもとで、相互に近接する方向及び相互に離隔する方向の弾性変位が可能とされ、それに伴い、絶縁ハウジング部材22が、グラウンドコンタクト部材21の環状嵌合部26の内側において接触係合部52を包囲する基部25を有し、その基部25と環状体を形成する一対の湾曲弾性腕状部58及び59の夫々との間に一対の湾曲弾性腕状部58及び59各々の弾性変位を許容する間隙が形成されるものとされるので、相手方同軸コネクタ装置30の中心コンタクト35に嵌合する弾性変形可能な環状体を形成する一対の湾曲弾性腕状部58及び59の夫々が具える弾性力が、相手方同軸コネクタ装置30が取り付けられた回路基板の部品等搭載面に沿う方向をもって効率良く効果的に相手方同軸コネクタ装置30の中心コンタクト35に作用することになり、それによっても、コンタクト部材20の接触係合部52の相手方同軸コネクタ装置30の中心コンタクト35に対する押圧接触がなお一層強固に行われる。 Further, the pair of curved elastic arm portions 58 and 59 included in the contact engaging portion 52 of the contact member 20 form an annular body, and can be elastically displaced in directions close to each other and in directions away from each other. Accordingly, the insulating housing member 22 has a base portion 25 that surrounds the contact engaging portion 52 inside the annular fitting portion 26 of the ground contact member 21, and a pair of the base portion 25 and the annular body is formed. Since a gap that allows elastic displacement of each of the pair of curved elastic arm portions 58 and 59 is formed between each of the curved elastic arm portions 58 and 59, the center contact of the counterpart coaxial connector device 30 is formed. The elastic force provided by each of the pair of curved elastic arm portions 58 and 59 forming an elastically deformable annular body fitted to 35 is a circuit base to which the counterpart coaxial connector device 30 is attached. It acts on the center contact 35 of the counterpart coaxial connector device 30 efficiently and effectively in the direction along the mounting surface of the other parts, and accordingly, the counterpart coaxial connector device 30 of the contact engagement portion 52 of the contact member 20 also acts. The pressing contact with respect to the center contact 35 is made even stronger.
以上のような本願発明に係る同軸コネクタ装置は、同軸ケーブルの中心導体が接続されるコンタクト部材と、同軸ケーブルの外側導体が接続されるグラウンドコンタクト部材と、コンタクト部材とグラウンドコンタクト部材とを相互絶縁状態をもって支持する絶縁ハウジング部材とを備えて構成されるもとで、厚み寸法の低減を図ることができるとともに、コンタクト部材と相手方同軸コネクタ装置の中心コンタクトとの接触接続を確実かつ安定に行うことができるものとして、各種の電子機器等に広く適用され得るものである。 The coaxial connector device according to the present invention as described above includes a contact member to which a central conductor of a coaxial cable is connected, a ground contact member to which an outer conductor of the coaxial cable is connected, and a contact member and a ground contact member that are mutually insulated. It is possible to reduce the thickness dimension while being configured to include an insulating housing member that supports in a state, and to make a reliable and stable contact connection between the contact member and the center contact of the counterpart coaxial connector device. It can be widely applied to various electronic devices.
10・・・同軸コネクタ装置, 11・・・同軸ケーブル, 12・・・中心導体, 13・・・内部絶縁体, 14・・・外側導体, 15・・・表皮絶縁体, 20・・・コンタクト部材, 21・・・グラウンドコンタクト部材, 22・・・絶縁ハウジング部材, 24・・・矩形透孔, 25・・・基部, 26・・・環状嵌合部, 30・・・相手方同軸コネクタ装置, 31・・・絶縁基体, 34・・・信号用接触導体, 35・・・中心コンタクト, 36・・・信号用接続部, 37・・・外側コンタクト, 38・・・接地用接続部, 40・・・折曲当接部, 41・・・保持部, 44・・・シェル部, 45・・・ケーブル支持部, 46・・・第1の折曲係合部, 47・・・第2の折曲係合部, 50・・・固定部, 51・・・中心導体接続部, 52・・・接触係合部, 53・・・係合突起, 54・・・係合孔, 55・・・固定平板状部, 56・・・屈曲部, 57・・・可動平板状部、 58,59・・・湾曲弾性腕状部, 60・・・係合凹部, 61・・・係合凸部 DESCRIPTION OF SYMBOLS 10 ... Coaxial connector apparatus, 11 ... Coaxial cable, 12 ... Center conductor, 13 ... Inner insulator, 14 ... Outer conductor, 15 ... Skin insulator, 20 ... Contact Members, 21 ... ground contact members, 22 ... insulating housing members, 24 ... rectangular through holes, 25 ... base portions, 26 ... annular fitting portions, 30 ... counterpart coaxial connector devices, 31 ... Insulating substrate, 34 ... Signal contact conductor, 35 ... Center contact, 36 ... Signal connection, 37 ... Outer contact, 38 ... Ground connection, 40. ..Folding contact part, 41... Holding part, 44... Shell part, 45... Cable support part, 46. Bending engagement part, 50... Fixing part, 51 .. Center conductor connecting part 52... Contact engaging part 53. Engaging projection 54. Engaging hole 55 55 Fixed plate-like part 56. ..Movable flat plate portion, 58, 59 ... curved elastic arm portion, 60 ... engaging recess, 61 ... engaging protrusion
Claims (5)
相手方同軸コネクタ装置の中心コンタクトを包囲する外側コンタクトに嵌合接続される環状嵌合部と該環状嵌合部から折曲可能に伸びて上記同軸ケーブルの外側導体との接続がなされるシェル部とを有したグラウンドコンタクト部材と、
上記コンタクト部材と上記グラウンドコンタクト部材とを相互絶縁状態をもって支持する絶縁ハウジング部材と、
を備えて構成され、
上記コンタクト部材が、固定部が設けられて該固定部により上記絶縁ハウジング部材に固定され、上記接触係合部が上記グラウンドコンタクト部材の環状嵌合部の内側に配されるとともに、上記中心導体接続部が上記グラウンドコンタクト部材の環状嵌合部の外側において上記接触係合部に近接して配されるものとされ、上記接触係合部が、上記固定部から相互対向して突出する一対の湾曲弾性腕状部を有し、該一対の湾曲弾性腕状部の夫々の自由端が相互係合せしめられて弾性変形可能な環状体を形成し、上記相手方同軸コネクタ装置の中心コンタクトに上記環状体を嵌合させて押圧接触することを特徴とする同軸コネクタ装置。 A contact member having a center conductor connection portion to be connected to the center conductor of the coaxial cable and a contact engagement portion to be contact-connected to the center contact of the counterpart coaxial connector device;
An annular fitting portion fitted and connected to an outer contact surrounding the central contact of the counterpart coaxial connector device, and a shell portion extending from the annular fitting portion so as to be bent and connected to the outer conductor of the coaxial cable; A ground contact member having
An insulating housing member that supports the contact member and the ground contact member in a mutually insulated state;
Configured with
The contact member is provided with a fixing portion, and is fixed to the insulating housing member by the fixing portion. The contact engagement portion is arranged inside the annular fitting portion of the ground contact member, and the center conductor connection And a pair of curves in which the contact engagement portion protrudes from the fixed portion so as to face each other, and is arranged near the contact engagement portion on the outer side of the annular fitting portion of the ground contact member. An annular body having an elastic arm-like portion, the free ends of the pair of curved elastic arm-like portions being mutually engaged to form an elastically deformable annular body, and the annular body at the center contact of the counterpart coaxial connector device The coaxial connector device is characterized by being pressed and contacted.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104916943A (en) * | 2014-07-21 | 2015-09-16 | 深圳市长盈精密技术股份有限公司 | Unibody-type radio-frequency connector |
CN104934743A (en) * | 2014-07-17 | 2015-09-23 | 深圳市长盈精密技术股份有限公司 | Line end RF connector |
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US5322453A (en) * | 1992-11-25 | 1994-06-21 | M/A-Com Omni Spectra, Inc. | RF connector jack and plug assembly |
JPH07326415A (en) * | 1994-05-27 | 1995-12-12 | Ryosei Denso Kk | Connector terminal |
JP2010080262A (en) * | 2008-09-26 | 2010-04-08 | Murata Mfg Co Ltd | L-shaped coaxial connector and method for manufacturing the same |
-
2011
- 2011-09-09 JP JP2011196629A patent/JP5754593B2/en not_active Expired - Fee Related
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US5322453A (en) * | 1992-11-25 | 1994-06-21 | M/A-Com Omni Spectra, Inc. | RF connector jack and plug assembly |
JPH07326415A (en) * | 1994-05-27 | 1995-12-12 | Ryosei Denso Kk | Connector terminal |
JP2010080262A (en) * | 2008-09-26 | 2010-04-08 | Murata Mfg Co Ltd | L-shaped coaxial connector and method for manufacturing the same |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104934743A (en) * | 2014-07-17 | 2015-09-23 | 深圳市长盈精密技术股份有限公司 | Line end RF connector |
CN104916943A (en) * | 2014-07-21 | 2015-09-16 | 深圳市长盈精密技术股份有限公司 | Unibody-type radio-frequency connector |
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