JP2001057268A - Mounting structure of coaxial connector - Google Patents
Mounting structure of coaxial connectorInfo
- Publication number
- JP2001057268A JP2001057268A JP11231715A JP23171599A JP2001057268A JP 2001057268 A JP2001057268 A JP 2001057268A JP 11231715 A JP11231715 A JP 11231715A JP 23171599 A JP23171599 A JP 23171599A JP 2001057268 A JP2001057268 A JP 2001057268A
- Authority
- JP
- Japan
- Prior art keywords
- connector
- female connector
- male connector
- side chassis
- chassis
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Landscapes
- Coupling Device And Connection With Printed Circuit (AREA)
- Details Of Connecting Devices For Male And Female Coupling (AREA)
Abstract
Description
【0001】[0001]
【発明の属する技術分野】本発明は高周波同軸ケーブル
等の接続に用いられる同軸コネクタの取付け構造に関す
るものである。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mounting structure for a coaxial connector used for connecting a high-frequency coaxial cable or the like.
【0002】[0002]
【従来の技術】同軸コネクタは雄コネクタと雌コネクタ
から成り、両コネクタを嵌合することで同軸ケーブルの
芯線、シールド線が接続される様になっている。同軸コ
ネクタにより同軸ケーブルを接続する態様として、雌コ
ネクタがシャーシに固定され、雄コネクタが自由状態の
ケーブル先端に取付けられる場合と、雄コネクタ、雌コ
ネクタが共に別のシャーシに取付けられる場合がある。
以下、雄コネクタ、雌コネクタが別のシャーシに取付け
られる場合についての従来の同軸コネクタの取付け構造
を説明する。2. Description of the Related Art A coaxial connector is composed of a male connector and a female connector, and a core wire and a shield wire of a coaxial cable are connected by fitting both connectors. As a mode of connecting the coaxial cable by the coaxial connector, there are a case where the female connector is fixed to the chassis and the male connector is attached to the free end of the cable, and a case where both the male connector and the female connector are attached to another chassis.
Hereinafter, a conventional coaxial connector mounting structure when a male connector and a female connector are mounted on different chassis will be described.
【0003】図4、図5中、1は雄コネクタ側シャーシ
であり、該雄コネクタ側シャーシ1に雄コネクタ2が取
付けられて、該雄コネクタ2に雄コネクタ側シャーシ1
内部の同軸ケーブル(図示せず)が接続されている。3
は雌コネクタ側シャーシ3であり、該雌コネクタ側シャ
ーシ3に雌コネクタ4が取付けられ、該雌コネクタ4に
は雌コネクタ側シャーシ3内部の同軸ケーブル(図示せ
ず)が接続されている。該雌コネクタ4と前記雄コネク
タ2とは同心軸上に位置する様にそれぞれ前記雄コネク
タ側シャーシ1、雌コネクタ側シャーシ3に取付けられ
ている。In FIGS. 4 and 5, reference numeral 1 denotes a male connector-side chassis. A male connector 2 is attached to the male connector-side chassis 1, and the male connector-side chassis 1 is attached to the male connector 2.
An internal coaxial cable (not shown) is connected. Three
Denotes a female connector-side chassis 3, a female connector 4 is attached to the female connector-side chassis 3, and a coaxial cable (not shown) inside the female connector-side chassis 3 is connected to the female connector 4. The female connector 4 and the male connector 2 are mounted on the male connector-side chassis 1 and the female connector-side chassis 3, respectively, so as to be located on concentric axes.
【0004】前記雌コネクタ側シャーシ3は装置の構造
部材、例えばフレームに固定されており、前記雄コネク
タ側シャーシ1はフレームにスライド可能に支持され、
前記雌コネクタ側シャーシ3に対して近接離反可能とな
っている。The female connector side chassis 3 is fixed to a structural member of the apparatus, for example, a frame, and the male connector side chassis 1 is slidably supported by the frame.
The female connector-side chassis 3 can approach and separate from the female connector-side chassis 3.
【0005】前記雄コネクタ2と前記雌コネクタ4と
は、前記雄コネクタ側シャーシ1を雌コネクタ側シャー
シ3に対して近接させることで、前記両コネクタ2,4
が嵌合する様になっている。該両コネクタ2,4が嵌合
後に前記雄コネクタ側シャーシ1は螺子等所要の係止具
により、フレームに固定される。The male connector 2 and the female connector 4 are brought closer to the female connector side chassis 3 by bringing the male connector side chassis 1 closer to the female connector side chassis 3.
Are fitted. After the two connectors 2 and 4 are fitted, the male connector side chassis 1 is fixed to the frame by a required locking tool such as a screw.
【0006】上述した様に、雄コネクタ、雌コネクタが
別のシャーシに取付けられる場合、両コネクタの位置関
係は雄コネクタ側シャーシ1、雌コネクタ側シャーシ3
のフレームへの取付け位置で決定される。この為、雄コ
ネクタ側シャーシ1、雌コネクタ側シャーシ3のフレー
ムに対する取付け誤差、雄コネクタ2、雌コネクタ4の
雄コネクタ側シャーシ1、雌コネクタ側シャーシ3に対
する取付け誤差等があり、雄コネクタ側シャーシ1と雌
コネクタ側シャーシ3とをフレームに固定した場合に、
前記雄コネクタ2と雌コネクタ4とを完全に同心とする
ことは極めて困難である。As described above, when the male connector and the female connector are mounted on different chassis, the positional relationship between the two connectors is the male connector side chassis 1 and the female connector side chassis 3.
Is determined by the mounting position on the frame. Therefore, there are mounting errors of the male connector side chassis 1 and the female connector side chassis 3 with respect to the frame, mounting errors of the male connector 2 and the female connector 4 with respect to the male connector side chassis 1 and the female connector side chassis 3, and the like. 1 and the female connector side chassis 3 are fixed to the frame,
It is extremely difficult to make the male connector 2 and the female connector 4 completely concentric.
【0007】従って、一般的には雄コネクタ2と雌コネ
クタ4のずれか一方を変位可能に支持し、雄コネクタ2
と雌コネクタ4との間に多少の誤差があったとしても支
障なく嵌合ができる様になっている。図4、図5で示す
従来例では、雌コネクタ側シャーシ3が変位可能に支持
されている。Therefore, generally, either the male connector 2 or the female connector 4 is displaceably supported, and the male connector 2
Even if there is some error between the female connector 4 and the female connector 4, the fitting can be performed without any trouble. In the conventional example shown in FIGS. 4 and 5, the female connector side chassis 3 is supported so as to be displaceable.
【0008】前記雄コネクタ2は前記雌コネクタ4に嵌
合する軸状の嵌入部6と該嵌入部6の基部に形成された
固定フランジ7を有する形状となっており、該固定フラ
ンジ7を螺子8により前記雄コネクタ側シャーシ1に固
定することで前記雄コネクタ2が前記雄コネクタ側シャ
ーシ1に取付けられる様になっいる。The male connector 2 has a shape having an axial fitting portion 6 fitted to the female connector 4 and a fixing flange 7 formed at the base of the fitting portion 6. The male connector 2 is fixed to the male connector side chassis 1 by 8 so that the male connector 2 is attached to the male connector side chassis 1.
【0009】前記雌コネクタ4は前記嵌入部6が嵌合す
る筒状の嵌受部10と該嵌受部10の基部に形成された
円形のスライドフランジ11及び前記嵌受部10とスラ
イドフランジ11の境界部に形成された溝12を有する
形状となっている。尚、前記嵌受部10の先端内縁部は
面取りがなされている。前記雌コネクタ4の雌コネクタ
側シャーシ3への取付けは、フローティング金具13を
介して行われる。The female connector 4 has a cylindrical fitting portion 10 into which the fitting portion 6 is fitted, a circular slide flange 11 formed at the base of the fitting portion 10, and the fitting receiving portion 10 and the slide flange 11. Has a groove 12 formed at the boundary portion of. The inner edge of the front end of the fitting portion 10 is chamfered. The attachment of the female connector 4 to the female connector side chassis 3 is performed via a floating fitting 13.
【0010】該フローティング金具13は図6で示す様
に、矩形の外形を有し、中心に段付孔14が穿設されて
いる。該段付孔14は内鍔部15と該内鍔部15に連続
する大径部17を有し、該大径部17に対して前記スラ
イドフランジ11は誤差を吸収するだけの遊びがあり、
又前記大径部17の深さは前記スライドフランジ11が
自在に摺動できる余裕があり、又内鍔部15の内径は前
記スライドフランジ11の直径よりは小さく、又前記嵌
受部10の直径よりは大きくなっている。前記フローテ
ィング金具13に前記雌コネクタ4を嵌入した状態で
は、前記大径部17に前記スライドフランジ11が収納
され、前記内鍔部15は前記溝12に遊嵌する。As shown in FIG. 6, the floating fitting 13 has a rectangular outer shape, and a stepped hole 14 is formed at the center. The stepped hole 14 has an inner flange portion 15 and a large-diameter portion 17 continuous with the inner flange portion 15, and the slide flange 11 has a play enough to absorb an error with respect to the large-diameter portion 17,
The depth of the large-diameter portion 17 has room to allow the slide flange 11 to slide freely, the inner diameter of the inner flange portion 15 is smaller than the diameter of the slide flange 11, and the diameter of the fitting portion 10. Is bigger than. When the female connector 4 is fitted into the floating metal fitting 13, the slide flange 11 is housed in the large diameter portion 17, and the inner flange portion 15 is loosely fitted in the groove 12.
【0011】前記フローティング金具13を前記螺子1
6により、前記雌コネクタ側シャーシ3に固定すること
で、前記雌コネクタ4を雌コネクタ側シャーシ3に固定
することができ、前記スライドフランジ11と大径部1
7間の遊びだけ半径方向に変位可能となっている。The floating fitting 13 is connected to the screw 1
6, the female connector 4 can be fixed to the female connector side chassis 3 by being fixed to the female connector side chassis 3, and the slide flange 11 and the large diameter portion 1 can be fixed.
It is possible to displace in the radial direction only by the play between the seven.
【0012】前記嵌入部6が嵌受部10に嵌合する場
合、両者間で芯ずれがある場合は、該嵌受部10の面取
りにより芯ずれが矯正され、前記嵌入部6と嵌受部10
が嵌合する。When the fitting portion 6 is fitted in the fitting receiving portion 10 and there is a misalignment between the two, the misalignment is corrected by chamfering the fitting receiving portion 10 and the fitting portion 6 and the fitting receiving portion are corrected. 10
Are fitted.
【0013】[0013]
【発明が解決しようとする課題】上記した従来例では、
雌コネクタ4が軸心に対して直角方向(半径方向)に変
位可能に支持されているので、雄コネクタ2と雌コネク
タ4の半径方向の誤差に対しては対応できるが、軸心方
向の誤差には対応できない構造となっている。In the above conventional example,
Since the female connector 4 is supported so as to be displaceable in a direction perpendicular to the axis (radial direction), it is possible to cope with an error in the radial direction between the male connector 2 and the female connector 4. Has a structure that cannot be used.
【0014】図5で示される様に、前記雄コネクタ2と
雌コネクタ4とが完全に嵌合する為には該雄コネクタ2
と雌コネクタ4間の距離がA寸法となることが要求さ
れ、このA寸法は前記雄コネクタ側シャーシ1と雌コネ
クタ側シャーシ3との距離、B寸法によって一義的に決
定される。即ち、B寸法の誤差はそのままA寸法の誤差
となって現れる構造となっている。従って、現状では雄
コネクタ側シャーシ1と雌コネクタ側シャーシ3との相
関位置が許容誤差の範囲となる様、雄コネクタ側シャー
シ1、雌コネクタ側シャーシ3の取付け位置が調整され
ていた。As shown in FIG. 5, in order for the male connector 2 and the female connector 4 to be completely fitted, the male connector 2
The distance between the female connector 4 and the female connector 4 is required to be an A dimension, and the A dimension is uniquely determined by the distance between the male connector side chassis 1 and the female connector side chassis 3 and the B dimension. That is, the structure is such that the error of the dimension B appears as the error of the dimension A as it is. Therefore, at present, the mounting positions of the male connector-side chassis 1 and the female connector-side chassis 3 are adjusted so that the correlation position between the male connector-side chassis 1 and the female connector-side chassis 3 is within an allowable error range.
【0015】この為、従来例では雄コネクタ側シャーシ
1、雌コネクタ側シャーシ3の部品精度、フレーム等へ
の取付け精度が要求され、製作コストが低減できないと
共に作業性が悪いという問題を有していた。For this reason, in the conventional example, the component accuracy of the male connector side chassis 1 and the female connector side chassis 3 and the mounting accuracy to the frame or the like are required, and there is a problem that the manufacturing cost cannot be reduced and the workability is poor. Was.
【0016】本発明は斯かる実情に鑑み、同軸コネクタ
の取付け構造に於いて軸心方向の誤差も吸収可能とし
て、製作コストの低減、作業性の向上を図るものであ
る。The present invention has been made in view of the above circumstances, and aims at reducing the manufacturing cost and improving the workability by making it possible to absorb the error in the axial direction in the mounting structure of the coaxial connector.
【0017】[0017]
【課題を解決するための手段】本発明は、一方のシャー
シに同軸コネクタの雌コネクタを取付け、他方のシャー
シに雄コネクタを取付け、雌コネクタ、雄コネクタのい
ずれか一方のコネクタをフローティング金具を介してシ
ャーシに取付けると共に該一方のコネクタとシャーシと
の間にバネを介在させ該一方のコネクタを軸心方向に変
位可能とした同軸コネクタの取付け構造に係り、コネク
タに嵌合力以上の力が作用すると前記バネが撓んで前記
一方のコネクタが軸心方向に変位し、雌コネクタ、雄コ
ネクタ間の相対誤差が吸収される。According to the present invention, a female connector of a coaxial connector is mounted on one chassis, a male connector is mounted on the other chassis, and one of the female connector and the male connector is connected via a floating metal fitting. To a coaxial connector mounting structure in which a spring is interposed between the one connector and the chassis and the one connector can be displaced in the axial direction, and a force greater than the fitting force acts on the connector. The spring bends to displace the one connector in the axial direction, thereby absorbing a relative error between the female connector and the male connector.
【0018】[0018]
【発明の実施の形態】以下、図面を参照しつつ本発明の
実施の形態を説明する。Embodiments of the present invention will be described below with reference to the drawings.
【0019】図1、図2に於いて図4で示したものと同
様のものには同符号を付してある。1 and 2, the same components as those shown in FIG. 4 are denoted by the same reference numerals.
【0020】雄コネクタ側シャーシ1に雄コネクタ2が
取付けられ、雌コネクタ側シャーシ3に雌コネクタ4が
取付けられて、前記雌コネクタ側シャーシ3は装置の構
造部材、例えばフレームに固定されており、前記雄コネ
クタ側シャーシ1はフレームにスライド可能に支持さ
れ、前記雌コネクタ側シャーシ3に対して近接離反可能
となっている。前記雄コネクタ側シャーシ1を雌コネク
タ側シャーシ3に対して近接させることで、前記雄コネ
クタ2と前記雌コネクタ4が嵌合し、嵌合後前記雄コネ
クタ側シャーシ1は螺子等所要の係止具により、フレー
ムに固定される。A male connector 2 is mounted on a male connector side chassis 1, a female connector 4 is mounted on a female connector side chassis 3, and the female connector side chassis 3 is fixed to a structural member of the apparatus, for example, a frame. The male connector side chassis 1 is slidably supported by a frame, and can approach and separate from the female connector side chassis 3. By bringing the male connector side chassis 1 close to the female connector side chassis 3, the male connector 2 and the female connector 4 are fitted, and after the fitting, the male connector side chassis 1 is engaged with a required lock such as a screw. It is fixed to the frame by the tool.
【0021】雄コネクタ2、雌コネクタ4の形状、雄コ
ネクタ2の雄コネクタ側シャーシ1への取付けについて
は前述した従来例と同様であるので説明を省略する。The shapes of the male connector 2 and the female connector 4 and the attachment of the male connector 2 to the male connector-side chassis 1 are the same as those in the above-described conventional example, and a description thereof will be omitted.
【0022】前記雌コネクタ4の雌コネクタ側シャーシ
3への取付けは、フローティング金具13を介して行わ
れる。The female connector 4 is attached to the female connector side chassis 3 via a floating fitting 13.
【0023】該フローティング金具13は矩形の外形を
有し、中心に段付孔14が穿設されている。該段付孔1
4の大径部20は前記スライドフランジ11に対して半
径方向の誤差を吸収するだけの孔径となっている。前記
大径部20には前記スライドフランジ11及び皿バネ2
1が収納され、前記大径部20は前記スライドフランジ
11の厚みに前記皿バネ21の自由状態の厚みを加えた
ものより若干深くなっており、前記スライドフランジ1
1が前記フローティング金具13内で半径方向に自在に
摺動できる様になっている。内鍔部15の内径は前記ス
ライドフランジ11の直径よりは小さく、又嵌受部10
の直径よりは大きくなっている。The floating bracket 13 has a rectangular outer shape, and a stepped hole 14 is formed at the center. Stepped hole 1
The large diameter portion 20 has a hole diameter enough to absorb a radial error with respect to the slide flange 11. The large diameter portion 20 includes the slide flange 11 and the disc spring 2.
The large-diameter portion 20 is slightly deeper than the sum of the thickness of the slide flange 11 and the thickness of the disc spring 21 in the free state.
1 can slide freely in the radial direction within the floating fitting 13. The inner diameter of the inner flange portion 15 is smaller than the diameter of the slide flange 11, and
Is larger than the diameter.
【0024】前記雌コネクタ4の取付けは、前記段付孔
14に前記嵌受部10を貫通し、前記スライドフランジ
11と前記雌コネクタ側シャーシ3間に皿バネ21を介
在させた状態で螺子16により前記フローティング金具
13を雌コネクタ側シャーシ3に固着する。前記雌コネ
クタ側シャーシ3との間で前記スライドフランジ11及
び前記皿バネ21が挾持される。前記皿バネ21の軸心
方向の反発力は前記雄コネクタ2と雌コネクタ4との嵌
合力より大きく設定している。The female connector 4 is attached by inserting the screw 16 into the stepped hole 14 with the disc spring 21 interposed between the slide flange 11 and the female connector side chassis 3. Thereby, the floating fitting 13 is fixed to the female connector side chassis 3. The slide flange 11 and the disc spring 21 are held between the female connector side chassis 3 and the female connector side chassis 3. The repulsive force in the axial direction of the disc spring 21 is set larger than the fitting force between the male connector 2 and the female connector 4.
【0025】而して、該雌コネクタ4は前記フローティ
ング金具13により半径方向には自在に変位可能に又軸
心方向にはガタツキがない様に取付けられる。The female connector 4 is attached by the floating fitting 13 so as to be freely displaceable in the radial direction and to have no backlash in the axial direction.
【0026】図3(A)(B)により本実施の形態の作
用を説明する。The operation of the present embodiment will be described with reference to FIGS.
【0027】前記嵌入部6が嵌受部10に嵌合する場
合、両者間で芯ずれがある場合は、嵌受部10内縁の面
取りにより芯ずれが矯正され、前記嵌入部6と嵌受部1
0が嵌合する。又、前記皿バネ21の反発力は前記雄コ
ネクタ2と雌コネクタ4の嵌合力より大きく設定してい
るので、前記皿バネ21の存在により前記雄コネクタ2
と雌コネクタ4との嵌合が影響されることがない。When the fitting portion 6 is fitted to the fitting portion 10 and there is misalignment between the two, the misalignment is corrected by chamfering the inner edge of the fitting portion 10, and the fitting portion 6 and the fitting portion are fitted. 1
0 is fitted. Further, since the repulsive force of the disc spring 21 is set to be larger than the fitting force of the male connector 2 and the female connector 4, the presence of the disc spring 21
And the female connector 4 is not affected.
【0028】前記雄コネクタ2の挿入力が雄コネクタ2
の反発力より小さい時は、前記皿バネ21は撓まず図3
(A)の状態であり、挿入力が雄コネクタ2の反発力よ
り大きい時は、前記皿バネ21は撓んで図3(B)の状
態となる。即ち、雄コネクタ2と雌コネクタ4との嵌合
力以上の挿入力で、更に挿入力の大きさに対応して、図
3(A)の状態から図3(B)の状態迄で前記雌コネク
タ4は軸心方向に変位する。The insertion force of the male connector 2 is
When the spring force is smaller than the repulsion force of FIG.
In the state shown in FIG. 3A, when the insertion force is larger than the repulsion force of the male connector 2, the disc spring 21 bends to the state shown in FIG. That is, the insertion force is equal to or greater than the engagement force between the male connector 2 and the female connector 4, and the female connector is changed from the state shown in FIG. 3A to the state shown in FIG. 4 is displaced in the axial direction.
【0029】尚、前記雄コネクタ2と雌コネクタ4との
基準嵌合状態は、前記雄コネクタ2と雌コネクタ4とが
完全に嵌合し、更に前記皿バネ21を若干撓ませた状態
とする。該皿バネ21の撓み量は該皿バネ21の最大撓
みδの半分程度が好ましい。Incidentally, the standard fitting state of the male connector 2 and the female connector 4 is such that the male connector 2 and the female connector 4 are completely fitted and the disc spring 21 is slightly bent. . The amount of deflection of the disc spring 21 is preferably about half of the maximum deflection δ of the disc spring 21.
【0030】本実施の形態によれば、前記雄コネクタ側
シャーシ1と雌コネクタ側シャーシ3間の寸法Bに+の
誤差が生じた場合、前記皿バネ21が更に撓み+誤差を
吸収し、又寸法Bに−の誤差が生じた場合には前記皿バ
ネ21が復元して−誤差を吸収する。而して、前記雄コ
ネクタ側シャーシ1、雌コネクタ側シャーシ3の製作、
組付けの精度を落としても、前記雄コネクタ2と雌コネ
クタ4とは良好な嵌合状態が得られ、更に前記皿バネ2
1により前記雄コネクタ2と雌コネクタ4間には嵌合方
向への力が作用しているので、嵌合状態が安定する。According to the present embodiment, when a + error occurs in the dimension B between the male connector side chassis 1 and the female connector side chassis 3, the disc spring 21 further absorbs the + error, and When an error of-occurs in the dimension B, the disc spring 21 restores and absorbs the error. The production of the male connector side chassis 1 and the female connector side chassis 3
Even if the accuracy of assembly is reduced, a good fitting state between the male connector 2 and the female connector 4 can be obtained.
1, the force in the fitting direction is acting between the male connector 2 and the female connector 4, so that the fitting state is stabilized.
【0031】尚、上記実施の形態では皿バネを使用した
が、巻数を少なくしたコイルバネ、或は高弾性のリング
ゴムであってもよい。又、雌コネクタ4を固定とし雄コ
ネクタ2を軸心方向に変位可能としてもよい。In the above embodiment, a disc spring is used, but a coil spring with a reduced number of turns or a highly elastic ring rubber may be used. Further, the female connector 4 may be fixed and the male connector 2 may be displaceable in the axial direction.
【0032】[0032]
【発明の効果】以上述べた如く本発明によれば、同軸コ
ネクタの取付け構造に於いて雄コネクタ、雌コネクタの
いずれか一方を軸心方向に変位可能に支持したので、部
品精度、組立て精度を厳しくすることなく確実に雄コネ
クタ、雌コネクタの嵌合が可能となり、製作コストの低
減、作業性の向上が図れるという優れた効果を発揮す
る。As described above, according to the present invention, in the mounting structure of the coaxial connector, one of the male connector and the female connector is supported so as to be displaceable in the axial direction. The male connector and the female connector can be securely mated without being strict, and the excellent effects of reducing manufacturing costs and improving workability are exhibited.
【図1】本発明の実施の形態を示す一部を断面した正面
図である。FIG. 1 is a partially sectional front view showing an embodiment of the present invention.
【図2】該実施の形態に於ける雌コネクタ側の分解斜視
図である。FIG. 2 is an exploded perspective view of the female connector according to the embodiment.
【図3】(A)(B)は雌コネクタの軸心方向の変位を
示す説明図である。FIGS. 3A and 3B are explanatory diagrams showing displacement of a female connector in an axial direction.
【図4】従来例を示す一部を断面した正面図である。FIG. 4 is a partially sectional front view showing a conventional example.
【図5】従来例の雄コネクタ、雌コネクタの嵌合状態示
す説明図である。FIG. 5 is an explanatory view showing a fitted state of a conventional male connector and female connector.
【図6】従来例に於けるフローティング金具の側面図で
ある。FIG. 6 is a side view of a floating fitting in a conventional example.
2 雄コネクタ 4 雌コネクタ 11 スライドフランジ 12 溝 13 フローティング金具 15 内鍔部 21 皿バネ 2 Male connector 4 Female connector 11 Slide flange 12 Groove 13 Floating bracket 15 Inner flange 21 Disc spring
Claims (1)
クタを取付け、他方のシャーシに雄コネクタを取付け、
雌コネクタ、雄コネクタのいずれか一方のコネクタをフ
ローティング金具を介してシャーシに取付けると共に該
一方のコネクタとシャーシとの間にバネを介在させ該一
方のコネクタを軸心方向に変位可能としたことを特徴と
する同軸コネクタの取付け構造。1. A coaxial connector female connector is attached to one chassis, and a male connector is attached to the other chassis.
One of the female connector and the male connector is attached to the chassis via a floating metal fitting, and a spring is interposed between the one connector and the chassis so that the one connector can be displaced in the axial direction. Characteristic coaxial connector mounting structure.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP11231715A JP2001057268A (en) | 1999-08-18 | 1999-08-18 | Mounting structure of coaxial connector |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP11231715A JP2001057268A (en) | 1999-08-18 | 1999-08-18 | Mounting structure of coaxial connector |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| JP2001057268A true JP2001057268A (en) | 2001-02-27 |
Family
ID=16927890
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP11231715A Pending JP2001057268A (en) | 1999-08-18 | 1999-08-18 | Mounting structure of coaxial connector |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP2001057268A (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US7422456B1 (en) | 2007-04-10 | 2008-09-09 | Hirose Electric Co., Ltd. | Coaxial connector |
| JP2010257678A (en) * | 2009-04-23 | 2010-11-11 | Hitachi Kokusai Electric Inc | Connector structure of coaxial feeding pipe |
-
1999
- 1999-08-18 JP JP11231715A patent/JP2001057268A/en active Pending
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US7422456B1 (en) | 2007-04-10 | 2008-09-09 | Hirose Electric Co., Ltd. | Coaxial connector |
| JP2010257678A (en) * | 2009-04-23 | 2010-11-11 | Hitachi Kokusai Electric Inc | Connector structure of coaxial feeding pipe |
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