JPH0837048A - Connector - Google Patents

Abstract

PURPOSE:To provide a connector capable of preventing the deterioration of the connecting property between the support section of the connector and a board due to the bending elasticity of an elastic terminal section. CONSTITUTION:An elastic terminal member 12 is pressed to a contact conductor section 40 on the inner periphery of a through hole 4 by the bending elasticity of the elastic terminal member 12 inserted into the through hole 4, and they are electrically connected. The force of the bending elasticity is applied in the direction nearly parallel with the principal plane of a board 2, i.e., in the direction nearly perpendicular to the inner periphery of the through hole 4. Even if the contact resistance of the electric connection is reduced by the force of the strong bending elasticity, no reaction is applied to a close contact (adhesion) section between a support member 11 and the board 2 in the peeling direction of the close contact (adhesion), and the durability of the close contact can be improved.

Description

【発明の詳細な説明】Detailed Description of the Invention

【０００１】[0001]

【産業上の利用分野】本発明は、弾性端子部材の曲げ弾
性を利用して弾性端子部材の一端を基板の接触導体部に
接触させるコネクタに関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a connector which utilizes the bending elasticity of an elastic terminal member to bring one end of the elastic terminal member into contact with a contact conductor portion of a substrate.

【０００２】[0002]

【従来技術】基板にコネクタを取り付ける従来構造の一
例を図１１に示す。コネクタ１は、樹脂成形されたブロ
ックからなる支持部材１１と、支持部材１１に固定され
た弾性端子部材１２とからなり、コネクタ１の底面は基
板２の主面上に接着されている。2. Description of the Related Art An example of a conventional structure for attaching a connector to a board is shown in FIG. The connector 1 includes a support member 11 formed of a resin-molded block and an elastic terminal member 12 fixed to the support member 11, and the bottom surface of the connector 1 is bonded to the main surface of the substrate 2.

【０００３】弾性端子部材１２は、支持部材１１に埋め
込まれた埋め込み部１２０と、外部のコネクタ（図示せ
ず）の各端子に接続するための外部接続側端子部１２１
と、埋め込み部１２０から外部接続端子１２１に対して
反対側に突出するばね部１２２と、ばね部１２２の先端
をなす基板接続側端子部１２３とからなり、弾性を有す
る導電部材たとえばりん青銅などを素材として形成され
ている。The elastic terminal member 12 has an embedded portion 120 embedded in the support member 11 and an external connection side terminal portion 121 for connecting to each terminal of an external connector (not shown).
And a spring portion 122 projecting from the embedded portion 120 to the opposite side to the external connection terminal 121, and a board connection side terminal portion 123 forming the tip of the spring portion 122. An elastic conductive member such as phosphor bronze is used. It is formed as a material.

【０００４】ばね部１２２は、自由状態においてそれぞ
れ図中、下方へもっと曲がっており、支持部材１１を基
板２上に接着することにより、ばね部１２２は図中、横
方向に強制的に曲げられ、これにより、基板接続側端子
部１２３は、基板２の主面上に配設される薄層導体から
なる接触導体部３の上面に押圧されて、両者が電気的に
接続される。In the free state, the spring portion 122 is bent further downward in the drawing, and by adhering the support member 11 onto the substrate 2, the spring portion 122 is forced to bend laterally in the drawing. As a result, the board-connection-side terminal portion 123 is pressed against the upper surface of the contact conductor portion 3 made of a thin-layer conductor arranged on the main surface of the board 2, and the two are electrically connected.

【０００５】[0005]

【発明が解決しようとする課題】上記コネクタはろう付
けや半田付けなどの固体接合方式に比較して弾性端子部
材１２の曲げ弾性により接触を確保するので、接続が簡
単であり、又、熱ストレスに対する耐久性にも優れる。
しかしながら、上記従来の弾性押圧式の端子接続方式で
は、弾性端子部材１２が基板２の接触導体部３に押し付
けられる分、支持部材１１には基板２から剥離する方向
に付勢されることになり、例えば数十個の弾性端子部材
１２が設けられる場合、その合計の力は相当大きくな
り、その結果として支持部材１１と基板２との接着部分
の耐久性に不安が生じた。In the above connector, the contact is secured by the bending elasticity of the elastic terminal member 12 as compared with the solid joining method such as brazing or soldering, so that the connection is simple and the thermal stress is high. Also has excellent durability against.
However, in the above-described conventional elastic pressing type terminal connection method, since the elastic terminal member 12 is pressed against the contact conductor portion 3 of the substrate 2, the supporting member 11 is urged in the direction of peeling from the substrate 2. For example, when several tens of elastic terminal members 12 are provided, the total force becomes considerably large, and as a result, the durability of the bonded portion between the support member 11 and the substrate 2 becomes uncertain.

【０００６】本発明は上記問題点に鑑みなされたもので
あり、弾性端子部材の曲げ弾性によるコネクタの支持部
材と基板との接合性の悪化を防止可能なコネクタを提供
することを、その目的としている。The present invention has been made in view of the above problems, and it is an object of the present invention to provide a connector capable of preventing deterioration of bondability between a supporting member of a connector and a substrate due to bending elasticity of an elastic terminal member. There is.

【０００７】[0007]

【課題を解決するための手段】第１発明のコネクタは、
基板の主面に密着される支持部材と、前記支持部材に固
定される弾性端子部材とを備え、前記弾性端子部材が自
己の曲げ弾性により前記基板の接触導体部に密着される
コネクタにおいて、前記基板には前記接触導体部が被着
されたスルーホールが設けられており、前記弾性端子部
材は、前記スルーホールに挿入され、前記曲げ弾性の方
向が前記スルーホール内の前記接触導体部を押圧する方
向であることを特徴としている。The connector of the first invention comprises:
A connector comprising: a support member that is in close contact with the main surface of a substrate; and an elastic terminal member that is fixed to the support member, wherein the elastic terminal member is in close contact with the contact conductor portion of the substrate by its bending elasticity. The substrate is provided with a through hole to which the contact conductor portion is attached, the elastic terminal member is inserted into the through hole, and the direction of the bending elasticity presses the contact conductor portion in the through hole. The feature is that it is the direction to do.

【０００８】第２発明のコネクタは、基板の表主面に密
着される電気絶縁性の支持部材と、前記支持部材に固定
される弾性端子部材とを備え、前記弾性端子部材が自己
の曲げ弾性により前記基板の接触導体部に密着されるコ
ネクタにおいて、前記弾性端子部材は、前記基板の裏主
面に配設された前記接触導体部に接触し、前記曲げ弾性
の方向が、前記基板と前記支持部材との密着を強化する
方向であるとともに、前記弾性端子部材と前記接触導体
部との接触を強化する方向であることを特徴としてい
る。A connector according to a second aspect of the present invention comprises an electrically insulating support member that is in close contact with the front main surface of the substrate, and an elastic terminal member that is fixed to the support member, and the elastic terminal member has its own bending elasticity. In the connector which is closely attached to the contact conductor portion of the substrate by the elastic terminal member, the elastic terminal member contacts the contact conductor portion provided on the back main surface of the substrate, and the direction of the bending elasticity is the same as that of the substrate. It is characterized in that it is in the direction of strengthening the close contact with the support member and in the direction of strengthening the contact between the elastic terminal member and the contact conductor portion.

【０００９】なお、コネクタの支持部材は基板に接着材
により接着されてもよく、又は、上記弾性端子部材の曲
げ弾性により両者を密着させてもよい。The support member of the connector may be adhered to the substrate with an adhesive material, or the both may be brought into close contact with each other by the bending elasticity of the elastic terminal member.

【００１０】[0010]

【作用及び発明の効果】第１発明では、スルーホールに
挿入された弾性端子部材の曲げ弾性により弾性端子部材
はスルーホールの内周面の接触導体部に押圧されて両者
が電気接続される。 このようにすれば、上記曲げ弾性
の力は基板の主面に略平行な方向すなわちスルーホール
の内周面に略直角な方向に働くこととなり、強力な曲げ
弾性の力により上記電気接続の接触抵抗の低下を図って
も、支持部材と基板との間の密着（接着）部に上記密着
（接着）を剥離する方向（すなわち、密着（接着）面に
向かう方向とは反対の方向）に反力が働くことがなく、
上記密着の耐久性を向上することができる。 なお、支
持部材の両側へ個別に延設された一対の弾性端子部材を
それぞれスルーホールに嵌めた場合、両弾性端子部材に
働く基板の主面と平行な力は打ち消しあい、上記接合
（接着）の耐久性を一層、向上することができる。According to the first aspect of the invention, the elastic terminal member is pressed by the contact conductor portion on the inner peripheral surface of the through hole by the bending elasticity of the elastic terminal member inserted into the through hole to electrically connect them. By doing so, the bending elastic force acts in a direction substantially parallel to the main surface of the substrate, that is, a direction substantially perpendicular to the inner peripheral surface of the through hole, and the strong bending elastic force causes the contact of the electrical connection. Even if the resistance is reduced, the adhesion (adhesion) portion between the support member and the substrate is opposite to the direction of peeling the adhesion (adhesion) (that is, the direction opposite to the direction toward the adhesion (adhesion) surface). Power is not working,
The durability of the adhesion can be improved. When a pair of elastic terminal members individually extended to both sides of the support member are fitted into the through holes, the forces acting on both elastic terminal members and parallel to the main surface of the substrate cancel each other out, and the above-mentioned joining (adhesion) The durability of can be further improved.

【００１１】第２発明では、基板の表主面に密着された
支持部材から基板の裏主面側に湾曲する弾性端子部材
は、自己の曲げ弾性により基板の裏主面に配設された接
触導体部に押圧されるので、弾性端子部材と接触導体部
との接触を強化すれば、同時に基板と支持部材との密着
を強化することができる。According to the second aspect of the invention, the elastic terminal member curved from the support member closely attached to the front main surface of the substrate to the back main surface side of the substrate is in contact with the back main surface of the substrate due to its own bending elasticity. Since the conductor portion is pressed, if the contact between the elastic terminal member and the contact conductor portion is strengthened, the adhesion between the substrate and the supporting member can be strengthened at the same time.

【００１２】[0012]

【実施例】【Example】

（実施例１）本発明の弾性加圧接触式のコネクタの一例
を図１を参照して説明する。コネクタ１は、樹脂成形さ
れたブロックからなる支持部材１１と、支持部材１１に
固定された弾性端子部材１２とからなり、コネクタ１の
底面は基板２の主面上に接着あるいは載置されている。(Embodiment 1) An example of the elastic pressure contact type connector of the present invention will be described with reference to FIG. The connector 1 includes a support member 11 formed of a resin-molded block and an elastic terminal member 12 fixed to the support member 11. The bottom surface of the connector 1 is bonded or placed on the main surface of the substrate 2. .

【００１３】弾性端子部材１２は、支持部材１１に埋め
込まれた埋め込み部１２０と、外部のコネクタ（図示せ
ず）の各端子に接続するための外部接続側端子部１２１
と、埋め込み部１２０から外部接続端子１２１に対して
反対側に突出するばね部１２２と、ばね部１２２の先端
をなす基板接続側端子部１２３とからなり、弾性を有す
る導電部材たとえばりん青銅などを素材として形成され
ている。The elastic terminal member 12 has an embedded portion 120 embedded in the support member 11 and an external connection side terminal portion 121 for connecting to each terminal of an external connector (not shown).
And a spring portion 122 projecting from the embedded portion 120 to the opposite side to the external connection terminal 121, and a board connection side terminal portion 123 forming the tip of the spring portion 122. An elastic conductive member such as phosphor bronze is used. It is formed as a material.

【００１４】ばね部１２２は、自由状態において図２に
示すようにそれぞれ図中、略横方向へ伸びている。一
方、基板２にはスルーホール４が複数（図では２個）開
口されており、スルーホール４には、印刷及びメッキに
よりスルーホール導体（本発明でいう接触導体部）４０
が形成されている。両スルーホール４は基板２に接着さ
れた支持部材１１を挟んで左右両側に開口されており、
両弾性端子部材１２のばね部１２２及び基板接続側端子
部１２３は支持部材１１から左右両側に突出している。
そして、両弾性端子部材１２のばね部１２２を図中、下
方に湾曲させることにより両弾性端子部材１２の基板接
続側端子部１２３はそれぞれ両スルーホール４に個別に
挿入されている。In the free state, the spring portions 122 extend in a substantially lateral direction in the drawing as shown in FIG. On the other hand, a plurality of (two in the figure) through holes 4 are opened in the substrate 2, and through holes 4 (contact conductor portions in the present invention) 40 are formed in the through holes 4 by printing and plating.
Are formed. Both through holes 4 are opened on both left and right sides with the support member 11 adhered to the substrate 2 interposed therebetween,
The spring portion 122 and the board connection side terminal portion 123 of both elastic terminal members 12 project from the support member 11 to the left and right sides.
By bending the spring portions 122 of both elastic terminal members 12 downward in the drawing, the board connection side terminal portions 123 of both elastic terminal members 12 are individually inserted into both through holes 4.

【００１５】このようにすれば、ばね部１２２の基端を
支点としてばね部１２２の曲げ弾性により基板接続側端
子部１２３はスルーホール４内のスルーホール導体４０
に強く押圧され、これにより両者の良好な電気接続が行
われる。また、両ばね部１２２の曲げ弾性により支持部
材１１に作用する反発力は互いに反対方向となるので、
基板２に対して支持部材１１を相対変位させる力は相殺
され、かつ、基板２に対する支持部材１１の相対変位は
規制される。更に、ばね部１２２の曲げ弾性により生じ
る一部の分力は支持部材１１を基板２に押し付ける作用
も行うので、支持部材１１と基板２との間の接着力を補
強でき、場合によっては支持部材１１と基板２との間に
接着剤を介在させることを省略することができる。With this configuration, the board connecting side terminal portion 123 is provided in the through hole conductor 40 in the through hole 4 due to the bending elasticity of the spring portion 122 with the base end of the spring portion 122 as a fulcrum.
Is strongly pressed against, which results in a good electrical connection between the two. Further, since the repulsive forces acting on the support member 11 due to the bending elasticity of both spring portions 122 are in opposite directions,
The force that relatively displaces the support member 11 with respect to the substrate 2 is offset, and the relative displacement of the support member 11 with respect to the substrate 2 is restricted. Furthermore, since a part of the component force generated by the bending elasticity of the spring portion 122 also acts to press the supporting member 11 against the substrate 2, the adhesive force between the supporting member 11 and the substrate 2 can be reinforced, and in some cases, the supporting member 11 The interposition of the adhesive between 11 and the substrate 2 can be omitted.

【００１６】図３に弾性端子部材１２の基板接続側端子
部１２３をスルーホール４に挿入する方法を示す。図示
しない一対のエアシリンダなどの直動アクチエータのピ
ストンロッド５の先端に取り付けられた押圧板５０は支
持部材１１の両側に配置されており、両押圧板５０を互
いに接近させることにより、押圧板５０により弾性端子
部材１２のばね部１２２をその基端を支点として下方に
湾曲させ、ばね部１２２の先端である基板接続側端子部
１２３をスルーホール４の上方に位置させる。この姿勢
で、直動アクチエータ及びコネクタ１を基板２に向けて
垂下すれば、基板接続側端子部１２３はスルーホール４
内に挿入される。その後、上記ピストンロッド５を退動
させて、作業は完了する。FIG. 3 shows a method of inserting the board connecting side terminal portion 123 of the elastic terminal member 12 into the through hole 4. The pressing plates 50 attached to the ends of the piston rods 5 of linear motion actuators such as a pair of air cylinders (not shown) are arranged on both sides of the support member 11, and the pressing plates 50 are brought close to each other. Thus, the spring portion 122 of the elastic terminal member 12 is bent downward with its base end as a fulcrum, and the board connection side terminal portion 123, which is the tip end of the spring portion 122, is positioned above the through hole 4. In this posture, if the linear actuator and the connector 1 are hung down toward the board 2, the board connecting side terminal portion 123 will have the through hole 4
Is inserted into. After that, the piston rod 5 is retracted, and the work is completed.

【００１７】（実施例２）本発明の弾性加圧接触式のコ
ネクタの他実施例を図４を参照して説明する。この実施
例では、図１の弾性端子部材１２の先端部である基板接
続側端子部１２３は、Ｖ字状に折り返されて返し部１２
３ａとなっている。このようにすれば、基板接続側端子
部１２３をスルーホール４に挿通した後、ばね部１２２
の曲げ弾性は全体として基板接続側端子部１２３をスル
ーホール４から引き抜く方向及びスルーホール４の内面
のスルーホール導体（図示せず）に押し付けられる方向
に作用し、更に返し部１２３ａが基板２の裏面に引っ掛
かるので、弾性端子部材１２とスルーホール導体（接触
導体部）との接続が良好となり、しかも、支持部材１１
が基板２に強く押圧されるので両者の接着を省略するこ
とができる。(Embodiment 2) Another embodiment of the elastic pressure contact type connector of the present invention will be described with reference to FIG. In this embodiment, the board connection side terminal portion 123, which is the tip end portion of the elastic terminal member 12 of FIG.
3a. With this configuration, after the board connecting side terminal portion 123 is inserted into the through hole 4, the spring portion 122 is formed.
The bending elasticity of the whole acts on the direction in which the board connecting side terminal portion 123 is pulled out from the through hole 4 and the direction in which it is pressed against the through hole conductor (not shown) on the inner surface of the through hole 4, and the return portion 123a of the board 2 is further attached. Since it is hooked on the back surface, the connection between the elastic terminal member 12 and the through-hole conductor (contact conductor portion) becomes good, and moreover, the support member 11
Is strongly pressed against the substrate 2, so that the bonding of the two can be omitted.

【００１８】（実施例３）本発明の弾性加圧接触式のコ
ネクタの他実施例を図５を参照して説明する。この実施
例では、接触導体部３は基板２の裏主面に配設されてお
り、支持部材１１は基板２の表主面、特に基板２を挟ん
で接触導体部３に隣接配置されている。 弾性端子部材
１２のばね部１２２はＵ字状に形成されており、ばね部
１２２の先端から延在する基板接続側端子部１２３はば
ね部１２２の基板２を挟む方向の曲げ弾性により接触導
体部３に押し付けられて、良好な電気接続を図られてい
る。 更に、この実施例によれば、ばね部１２２の上記
基板挟持力により、支持部材１１が基板２に押圧、固定
されるので、両者を接着剤により接着する必要がなく、
コネクタ１を基板２から取り外すことも可能となる。(Embodiment 3) Another embodiment of the elastic pressure contact type connector of the present invention will be described with reference to FIG. In this embodiment, the contact conductor portion 3 is arranged on the back main surface of the substrate 2, and the supporting member 11 is arranged adjacent to the front main surface of the substrate 2, particularly the contact conductor portion 3 with the substrate 2 interposed therebetween. . The spring portion 122 of the elastic terminal member 12 is formed in a U-shape, and the board connecting side terminal portion 123 extending from the tip of the spring portion 122 is a contact conductor portion due to bending elasticity of the spring portion 122 in the direction of sandwiching the board 2. It has been pressed against 3 to make a good electrical connection. Furthermore, according to this embodiment, since the support member 11 is pressed and fixed to the substrate 2 by the substrate clamping force of the spring portion 122, it is not necessary to bond the two with an adhesive,
It is also possible to detach the connector 1 from the board 2.

【００１９】（実施例４）本発明の弾性加圧接触式のコ
ネクタの他実施例を図６を参照して説明する。この実施
例では、支持部材１１は基板２に接着されており、そし
て、ばね部１２２はＵ字状に形成されており、ばね部１
２２の先端から延在する基板接続側端子部１２３は基板
２に開口されたスルーホール４に挿入されている。スル
ーホールには実施例１と同様にスルーホール導体からな
る接触導体部（図示せず）が配設されており、基板接続
側端子部１２３はばね部１２２の曲げ弾性（略基板主面
方向）によりこの接触導体部３に押し付けられている。(Embodiment 4) Another embodiment of the elastic pressure contact type connector of the present invention will be described with reference to FIG. In this embodiment, the support member 11 is adhered to the substrate 2, and the spring portion 122 is U-shaped.
The board connecting side terminal portion 123 extending from the tip of 22 is inserted into the through hole 4 opened in the board 2. A contact conductor portion (not shown) made of a through-hole conductor is arranged in the through hole as in the first embodiment, and the board connecting side terminal portion 123 has the bending elasticity of the spring portion 122 (generally in the main surface direction of the board). Is pressed against the contact conductor portion 3.

【００２０】このようにすれば、実施例１と同様の効果
を奏することができる。 （実施例５）本発明の弾性加圧接触式のコネクタの他実
施例を図７〜図９を参照して説明する。この実施例で
は、支持部材１１は図９に示すように、上端開口の角箱
形状を有しており、その底板部が基板２に密着（又は接
着）されている。With this configuration, the same effect as that of the first embodiment can be obtained. (Embodiment 5) Another embodiment of the elastic pressure contact type connector of the present invention will be described with reference to FIGS. In this embodiment, as shown in FIG. 9, the support member 11 has a rectangular box shape with an opening at the upper end, and the bottom plate portion thereof is adhered (or adhered) to the substrate 2.

【００２１】弾性端子部材１２はＬ字状を有しており、
そのばね部１２２が基板２に開口された複数のスルーホ
ール４に個別に挿入されている。スルーホール４にスル
ーホール導体４０が配設されているのは実施例１と同じ
である。この実施例では、弾性端子部材１２のばね部１
２２がその曲げ弾性によりスルーホール４内のスルーホ
ール導体４０に押し付けられて、両者が電気的に接続さ
れている。The elastic terminal member 12 has an L shape,
The spring portions 122 are individually inserted into the plurality of through holes 4 opened in the substrate 2. As in the first embodiment, the through-hole conductor 40 is provided in the through-hole 4. In this embodiment, the spring portion 1 of the elastic terminal member 12 is
22 is pressed against the through-hole conductor 40 in the through-hole 4 by its bending elasticity, and both are electrically connected.

【００２２】図７は、コネクタ１を基板２に固定する前
の状態を示し、ばね部１２２は互いに離れる方向に曲げ
られている。図８は、弾性端子部材１２をスルーホール
４に挿入する方法を示す。一対の弾性端子部材１２のば
ね部１２２は上記したように最初その尖った先端に向か
うにつれ互いに遠ざかる方向に曲がっており、押圧板７
によりばね部１２２の基端部を弾性変形させて、弾性端
子部材１２の先端をスルーホール４の直上に合わせ、こ
の状態で支持部材１１を基板２に降下させるか、又は、
基板２を上昇させて、弾性端子部材１２をスルーホール
４に挿入する。その後、押圧板７を除去すれば、弾性端
子部材１２のばね部１２２の復元力によりばね部１２２
はスルーホール４内のスルーホール導体４０に押し付け
られ、これにより両者が低接触抵抗で接続されるととも
に、支持部材１１が基板２からはずれるのも防止され
る。FIG. 7 shows a state before fixing the connector 1 to the substrate 2, in which the spring portions 122 are bent in directions away from each other. FIG. 8 shows a method of inserting the elastic terminal member 12 into the through hole 4. As described above, the spring portions 122 of the pair of elastic terminal members 12 are bent so as to move away from each other toward the pointed tip first, as described above.
By elastically deforming the base end portion of the spring portion 122 so that the tip end of the elastic terminal member 12 is directly above the through hole 4 and the supporting member 11 is lowered onto the substrate 2 in this state, or
The substrate 2 is raised and the elastic terminal member 12 is inserted into the through hole 4. After that, if the pressing plate 7 is removed, the spring portion 122 is restored by the restoring force of the spring portion 122 of the elastic terminal member 12.
Are pressed against the through-hole conductors 40 in the through-holes 4, so that they are connected with low contact resistance and the supporting member 11 is prevented from coming off the substrate 2.

【００２３】なお、ばね部１２２の曲げ方向は、上記方
向の他、例えば互いに近づく方向など、適宜選択可能で
ある。 （実施例６）本発明の弾性加圧接触式のコネクタの他実
施例を図１０を参照して説明する。この実施例は、図５
の実施例において、弾性端子部材１２のばね部１２２及
び基板接続側端子部１２３を支持部材１１により囲覆し
たものであって、このようにすれば、弾性端子部材１２
の電気絶縁が良好になる。The bending direction of the spring portion 122 can be appropriately selected in addition to the above-mentioned directions, for example, directions toward each other. (Embodiment 6) Another embodiment of the elastic pressure contact type connector of the present invention will be described with reference to FIG. This embodiment is shown in FIG.
In this embodiment, the spring portion 122 and the board connection side terminal portion 123 of the elastic terminal member 12 are surrounded by the support member 11. By doing so, the elastic terminal member 12 can be formed.
Good electrical insulation.

【図面の簡単な説明】[Brief description of drawings]

【図１】本発明の実施例１のコネクタを示す縦断面図で
ある。FIG. 1 is a vertical sectional view showing a connector according to a first embodiment of the present invention.

【図２】図１のコネクタの基板固定前の状態を示す縦断
面図である。FIG. 2 is a vertical cross-sectional view showing a state of the connector of FIG. 1 before being fixed to a board.

【図３】図１のコネクタの弾性端子部材１２をスルーホ
ール４に挿入する直前の状態を示す縦断面図である。3 is a longitudinal sectional view showing a state immediately before the elastic terminal member 12 of the connector of FIG. 1 is inserted into the through hole 4. FIG.

【図４】本発明の実施例２のコネクタを示す縦断面図で
ある。FIG. 4 is a vertical sectional view showing a connector according to a second embodiment of the present invention.

【図５】本発明の実施例３のコネクタを示す縦断面図で
ある。FIG. 5 is a vertical sectional view showing a connector according to a third embodiment of the present invention.

【図６】本発明の実施例４のコネクタを示す縦断面図で
ある。FIG. 6 is a vertical sectional view showing a connector according to a fourth embodiment of the present invention.

【図７】本発明の実施例５のコネクタを示す縦断面図で
ある。FIG. 7 is a vertical sectional view showing a connector according to a fifth embodiment of the present invention.

【図８】実施例５において、弾性端子部材１２をスルー
ホール４に挿入する方法を示す縦断面図である。FIG. 8 is a vertical cross-sectional view showing a method of inserting the elastic terminal member 12 into the through hole 4 in the fifth embodiment.

【図９】図７のコネクタの弾性端子部材１２をスルーホ
ール４に挿入する直前の状態を示す縦断面図である。9 is a longitudinal sectional view showing a state immediately before inserting the elastic terminal member 12 of the connector of FIG. 7 into the through hole 4. FIG.

【図１０】本発明の実施例６のコネクタを示す縦断面図
である。FIG. 10 is a vertical sectional view showing a connector according to a sixth embodiment of the present invention.

【図１１】従来のコネクタを示す縦断面図である。FIG. 11 is a vertical sectional view showing a conventional connector.

【符号の説明】[Explanation of symbols]

１はコネクタ、２は基板、４はスルーホール、１１は支
持部材、１２は弾性端子部材、４０はスルーホール導体
（接触導体部）。1 is a connector, 2 is a board, 4 is a through hole, 11 is a supporting member, 12 is an elastic terminal member, and 40 is a through hole conductor (contact conductor portion).

Claims (2)

【特許請求の範囲】[Claims] 【請求項１】基板の主面に密着される支持部材と、前記
支持部材に固定される弾性端子部材とを備え、前記弾性
端子部材が自己の曲げ弾性により前記基板の接触導体部
に密着されるコネクタにおいて、 前記基板には前記接触導体部が被着されたスルーホール
が設けられており、 前記弾性端子部材は、前記スルーホールに挿入され、前
記曲げ弾性の方向が前記スルーホール内の前記接触導体
部を押圧する方向であることを特徴とするコネクタ。1. A support member, which is in close contact with the main surface of a substrate, and an elastic terminal member, which is fixed to the support member, wherein the elastic terminal member is in close contact with the contact conductor portion of the substrate due to its own bending elasticity. In the connector, the substrate is provided with a through hole to which the contact conductor portion is adhered, the elastic terminal member is inserted into the through hole, and the direction of the bending elasticity is within the through hole. A connector characterized in that the contact conductor portion is pressed. 【請求項２】基板の表主面に密着される電気絶縁性の支
持部材と、前記支持部材に固定される弾性端子部材とを
備え、前記弾性端子部材が自己の曲げ弾性により前記基
板の接触導体部に密着されるコネクタにおいて、 前記弾性端子部材は、前記基板の裏主面に配設された前
記接触導体部に接触し、前記曲げ弾性の方向が、前記基
板と前記支持部材との密着を強化する方向であるととも
に、前記弾性端子部材と前記接触導体部との接触を強化
する方向であることを特徴とするコネクタ。2. An electrically insulating support member that is in close contact with the main surface of the substrate, and an elastic terminal member that is fixed to the support member, wherein the elastic terminal member contacts the substrate by its own bending elasticity. In the connector closely attached to the conductor portion, the elastic terminal member is in contact with the contact conductor portion provided on the back main surface of the substrate, and the direction of the bending elasticity is closely attached to the substrate and the support member. And a direction in which the contact between the elastic terminal member and the contact conductor portion is strengthened.