JP3162354B2 - Conductive material - Google Patents
Conductive materialInfo
- Publication number
- JP3162354B2 JP3162354B2 JP22751399A JP22751399A JP3162354B2 JP 3162354 B2 JP3162354 B2 JP 3162354B2 JP 22751399 A JP22751399 A JP 22751399A JP 22751399 A JP22751399 A JP 22751399A JP 3162354 B2 JP3162354 B2 JP 3162354B2
- Authority
- JP
- Japan
- Prior art keywords
- conductive member
- joining
- joint
- folded
- suction
- 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.)
- Expired - Fee Related
Links
Landscapes
- Coupling Device And Connection With Printed Circuit (AREA)
- Casings For Electric Apparatus (AREA)
- Multi-Conductor Connections (AREA)
Description
【0001】[0001]
【発明の属する技術分野】本発明は導電部材に係り、詳
しくは、配線板に表面実装された状態で接地導体に圧接
されて配線板上に形成された配線を接地導体に接地する
導電部材に関するものである。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a conductive member, and more particularly, to a conductive member which is surface-mounted on a wiring board and pressed against a ground conductor to ground a wiring formed on the wiring board to the ground conductor. Things.
【0002】[0002]
【従来の技術】従来より、プリント配線板に導電部材を
表面実装し、その状態で導電部材を接地導体に圧接させ
ることにより、導電部材を介してプリント配線を接地導
体に接地する技術が知られている。2. Description of the Related Art Conventionally, there has been known a technique in which a conductive member is surface-mounted on a printed wiring board, and the conductive member is pressed against a ground conductor in that state to ground the printed wiring to the ground conductor via the conductive member. ing.
【0003】図6は、このような従来の導電部材の使用
状態を示す平面図である。図7は、図6におけるA−A
線断面図である。導電部材100は、プリント配線板
(基板)200上に形成されたプリント配線(導電パタ
ーン)201に対して、半田202によって半田付けさ
れることにより表面実装されている。その状態で、導電
部材100は接地導体300に圧接され、導電部材10
0を介してプリント配線201は接地導体300に接地
されている。FIG. 6 is a plan view showing the state of use of such a conventional conductive member. FIG. 7 is a sectional view taken along line AA in FIG.
It is a line sectional view. The conductive member 100 is surface-mounted by soldering with a solder 202 to a printed wiring (conductive pattern) 201 formed on a printed wiring board (substrate) 200. In this state, the conductive member 100 is pressed against the ground conductor 300 and the conductive member 10
0, the printed wiring 201 is grounded to the ground conductor 300.
【0004】尚、図6においては、図面が煩雑になるの
を避けるため、接地導体300を図示していない。ま
た、導電部材100が接地導体300に圧接されていな
い状態を二点鎖線にて図示している。導電部材100
は、幅α(例えば、0.8mm)の薄板状の金属材料を
折り曲げて形成されており、長手方向の長さβ(例えば
3.5mm)の平坦な接合部101を有し、接合部10
1の下面側がプリント配線201に半田付けされる接合
面101aとなっている。また、接合部101の長手方
向両端部分は接合面101aの反対側に折り曲げられ、
接合面101aの一端側の折り返し部分γで折り返され
た部分は緩やかなカーブを成して接触部102を構成
し、接合面101aの他端側で折り返された部分は断面
コ字状を成し、その上面は平坦で且つ接合面101aと
平行な吸着面103を構成している。In FIG. 6, a ground conductor 300 is not shown to avoid complicating the drawing. The state where the conductive member 100 is not pressed against the ground conductor 300 is shown by a two-dot chain line. Conductive member 100
Is formed by bending a thin plate-like metal material having a width α (for example, 0.8 mm), and has a flat joining portion 101 having a longitudinal length β (for example, 3.5 mm).
The lower surface side of 1 is a bonding surface 101a to be soldered to the printed wiring 201. Further, both ends in the longitudinal direction of the joint portion 101 are bent to the opposite side of the joint surface 101a,
The portion folded at the folded portion γ at one end of the joining surface 101a forms a gentle curve to form the contact portion 102, and the portion folded at the other end of the joining surface 101a has a U-shaped cross section. The upper surface thereof forms a suction surface 103 which is flat and parallel to the bonding surface 101a.
【0005】このように構成された導電部材100を使
用するには、プリント配線板200に導電部材100を
表面実装し、その状態で、プリント配線板200に平板
状の接地導体300を対向させ、プリント配線板200
を接地導体300に近接配置する。すると、導電部材1
00の接触部102が接地導体300に当接し、接地導
体300からの押圧力により、導電部材100は折り返
し部分γを中心として弾性変形し、その弾性変形による
反発力により、接触部102の外側の面102aが接地
導体300に圧接される。その結果、導電部材100を
介して、接地導体300とプリント配線201とが導通
され、プリント配線201は接地導体300に対して確
実に接地される。In order to use the conductive member 100 configured as described above, the conductive member 100 is surface-mounted on a printed wiring board 200, and in this state, a flat ground conductor 300 is opposed to the printed wiring board 200. Printed wiring board 200
Are arranged close to the ground conductor 300. Then, the conductive member 1
00 contacts the grounding conductor 300, and the pressing force from the grounding conductor 300 elastically deforms the conductive member 100 around the folded portion γ. The surface 102a is pressed against the ground conductor 300. As a result, conduction between the ground conductor 300 and the printed wiring 201 is conducted via the conductive member 100, and the printed wiring 201 is reliably grounded to the ground conductor 300.
【0006】ところで、導電部材100をプリント配線
板200に表面実装する作業は、作業効率を高めるた
め、自動実装機により自動的に行われる。この自動実装
機(図示略)は、真空吸着装置と、当該真空吸着装置を
移動させる移動装置と、リフロー半田付け装置とを備え
ている。Incidentally, the work of surface-mounting the conductive member 100 on the printed wiring board 200 is automatically performed by an automatic mounting machine in order to increase work efficiency. The automatic mounting machine (not shown) includes a vacuum suction device, a moving device for moving the vacuum suction device, and a reflow soldering device.
【0007】そして、自動実装機は、まず、真空吸着装
置を用いて導電部材100の吸着面103を真空吸着し
て持ち上げ、次に、移動装置を用いて真空吸着装置ごと
導電部材100を移動させることにより、プリント配線
201の半田付け箇所上に導電部材100を移動させ、
その位置で真空吸着装置から導電部材100を離脱させ
て当該半田付け箇所に導電部材100を載置し、最後
に、リフロー半田付け装置を用いて導電部材100をプ
リント配線201に半田付けする。Then, the automatic mounting machine first vacuum-adsorbs and lifts the suction surface 103 of the conductive member 100 using a vacuum suction device, and then moves the conductive member 100 together with the vacuum suction device using a moving device. By doing so, the conductive member 100 is moved onto the soldered portion of the printed wiring 201,
At that position, the conductive member 100 is detached from the vacuum suction device, and the conductive member 100 is placed at the soldering location. Finally, the conductive member 100 is soldered to the printed wiring 201 using a reflow soldering device.
【0008】尚、リフロー半田付けを行う際には、プリ
ント配線201の半田付け箇所に予め適量の半田を供給
しておき、当該箇所に導電部材100を仮固定した状態
で、外部からの熱源により半田を溶融させる。When reflow soldering is performed, an appropriate amount of solder is supplied in advance to a soldering portion of the printed wiring 201, and the conductive member 100 is temporarily fixed to the soldering portion, and an external heat source is used. Melt the solder.
【0009】[0009]
【発明が解決しようとする課題】上記した従来の導電部
材100には以下の問題点があった。 (A)導電部材100の重心Gは、接触部102と吸着
面103との略中間位置にある。そのため、導電部材1
00の吸着面103を真空吸着装置で吸着して持ち上げ
た際に、接触部102側が下向きになって傾き、プリン
ト配線201の半田付け箇所に導電部材100を載置し
たとき、その載置位置が所望の位置からずれることがあ
った。The conventional conductive member 100 described above has the following problems. (A) The center of gravity G of the conductive member 100 is located at a substantially intermediate position between the contact portion 102 and the suction surface 103. Therefore, the conductive member 1
When the suction surface 103 is sucked and lifted by a vacuum suction device, the contact portion 102 is tilted downward, and when the conductive member 100 is mounted on the soldering position of the printed wiring 201, the mounting position is In some cases, the desired position was deviated.
【0010】この問題を回避するには、吸着面103を
大きく形成し、導電部材100の重心Gが吸着面103
の近傍に位置するようにすればよい。このようにすれ
ば、導電部材100の吸着面103を真空吸着装置で吸
着して持ち上げた際に、接合部101が水平になるた
め、プリント配線201の半田付け箇所に導電部材10
0を載置したとき、その載置位置が所望の位置からずれ
るのを防止できる。To avoid this problem, the suction surface 103 is formed large, and the center of gravity G of the conductive member 100 is
May be located in the vicinity of. With this configuration, when the suction surface 103 of the conductive member 100 is suctioned and lifted by the vacuum suction device, the bonding portion 101 becomes horizontal.
When 0 is placed, the placement position can be prevented from deviating from a desired position.
【0011】しかし、吸着面103を大きくすると、導
電部材100の外形寸法が大型化し、電子機器の小型化
に伴い近年益々高まる導電部材100の小型化の要求を
満足することができない。 (B)導電部材100の長手方向に対して横方向から外
力が加わった場合、接触部102が当該横方向に永久変
形し、導電部材100の機能が阻害されることがあっ
た。このような接触部102の永久変形が導電部材10
0の製品輸送時に起こった場合には、その接触部102
が永久変形した不良な導電部材100を取り除き、優良
な導電部材100のみを選別して表面実装を行わねばな
らず、作業効率の低下を招くことになる。また、接触部
102の永久変形がプリント配線板200への表面実装
後に起こった場合には、接触部102がプリント配線板
200上の他の電子部品に接触して短絡故障を引き起こ
すおそれがある。However, when the suction surface 103 is enlarged, the outer dimensions of the conductive member 100 become large, and it is not possible to satisfy the demand for miniaturization of the conductive member 100 which has been increasing in recent years with the miniaturization of electronic equipment. (B) When an external force is applied from the lateral direction to the longitudinal direction of the conductive member 100, the contact portion 102 is permanently deformed in the lateral direction, and the function of the conductive member 100 may be hindered. Such permanent deformation of the contact portion 102 may cause the conductive member 10
0, the contact portion 102
However, the defective conductive member 100 that has been permanently deformed must be removed, and only the excellent conductive member 100 must be selected and surface-mounted, resulting in a reduction in work efficiency. Further, when the permanent deformation of the contact portion 102 occurs after surface mounting on the printed wiring board 200, the contact portion 102 may come into contact with other electronic components on the printed wiring board 200 to cause a short circuit failure.
【0012】本発明は上記問題点を解決するためになさ
れたものであって、その目的は、配線板上に形成された
所定の配線のみを接地導体に対して確実に設置すること
が可能な導電部材を提供すると共に、その導電部材をプ
リント配線板に表面実装する時、およびこの表面実装さ
れた後にプリント配線板が搬送される時などに、規制部
の先端が何かに引っ掛かるのを防止することにある。SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to ensure that only predetermined wirings formed on a wiring board are securely installed on a ground conductor. A conductive member is provided , and the conductive member is
When mounting on a lint wiring board and when
When the printed wiring board is transported after
To prevent the tip of the device from being caught on something .
【0013】[0013]
【課題を解決するための手段および発明の効果】かかる
目的を達成するためになされた請求項1に記載の発明
は、配線板上に形成された配線に半田付けされる接合面
を有した長尺状の接合部と、当該接合部から前記接合面
の反対側に折り返された折り返し部と、当該折り返し部
に連接された支持部と、当該支持部の先端側に連接され
た接触部と、前記接合部から前記接合面の反対側に立設
されると共に、前記支持部の側方に配設された壁部とを
備えた導電部材であって、前記接合部と前記折り返し部
と前記支持部と前記接触部とにより構成され、導電性を
有した折り曲げ加工バネと、該折り曲げ加工バネが前記
折り返し部を中心に所定量だけ弾性変形すると前記接合
部に当接して前記折り曲げ加工バネの弾性変形を規制す
るものであって、前記接触部において前記支持部の反対
側に形成された規制部と、前記接合部における前記折り
返し部とは反対側の端部から前記接合面の反対側に立設
されて前記規制部を保護する保護部とを備え、当該導電
部材を前記保護部側から見た状態において、前記保護部
の上端部と前記規制部の下端部とが重なり合うようにな
っていることをその要旨とする。Means for Solving the Problems and Effects of the Invention According to the first aspect of the present invention, which has been made to achieve the above object, there is provided a long cable having a joint surface to be soldered to a wiring formed on a wiring board. A scale-shaped joint, a folded part folded from the joint to the opposite side of the joint surface, a support connected to the folded part, and a contact joined to the distal end of the support, A conductive member provided on the opposite side of the joining surface from the joining portion and having a wall disposed on a side of the support portion, wherein the joining portion, the folded portion, and the support A bending spring having conductivity, which is constituted by a portion and the contact portion, and the joining is performed when the bending spring is elastically deformed by a predetermined amount around the folded portion.
A contact portion for restricting elastic deformation of the bending spring , wherein the contact portion is opposite to the support portion;
A regulating portion formed on the side, and a protection portion standing upright from the end of the joining portion opposite to the folded portion on the side opposite to the joining surface to protect the regulating portion, the conductive member When viewed from the side of the protection unit, the gist is that the upper end of the protection unit and the lower end of the regulation unit overlap each other.
【0014】請求項1の発明による導電部材を使用する
には、まず、配線板上に形成された配線に対して接合面
を半田付けすることにより、導電部材を配線板に表面実
装する。そして、導電部材を配線板に表面実装した状態
で、配線板に接地導体を対向させ、配線板を接地導体に
近接配置する。すると、導電部材の接触部が接地導体に
当接し、接地導体からの押圧力により、導電部材の折り
返し部を中心として、前記薄板折り曲げ加工バネが弾性
変形し、その弾性変形による反発力(バネ力)により、
接触部が接地導体に圧接される。その結果、導電部材を
介して、接地導体と配線とが導通され、配線は接地導体
に対して確実に接地される。To use the conductive member according to the first aspect of the present invention, first, the conductive member is surface-mounted on the wiring board by soldering a bonding surface to a wiring formed on the wiring board. Then, with the conductive member mounted on the surface of the wiring board, the ground conductor is opposed to the wiring board, and the wiring board is arranged close to the ground conductor. Then, the contact portion of the conductive member contacts the ground conductor, and the pressing force from the ground conductor causes the thin plate bending spring to be elastically deformed around the folded portion of the conductive member, and a repulsive force (spring force) due to the elastic deformation. )
The contact portion is pressed against the ground conductor. As a result, the ground conductor is electrically connected to the wiring via the conductive member, and the wiring is reliably grounded to the ground conductor.
【0015】請求項1の発明では、接合部から接合面の
反対側に立設されると共に、支持部の側方に配設された
壁部が設けられている。そのため、導電部材の長手方向
に対して横方向から外力が加わった場合、その外力は壁
部に作用することになる。その結果、導電部材の横方向
から加えられた外力は壁部により妨げられ、当該外力が
支持部に印加されないため、当該外力によって支持部が
変形するのを確実に防止することができる。従って、前
記(B)の問題点を解決することが可能になり、前記し
た作業効率の低下や短絡故障の発生を防止することがで
きる。そして前記折り返し部を中心に前記折り曲げ加工
バネが所定量だけ弾性変形すると、前記接合部に当接し
て前記折り曲げ加工バネの弾性変形を規制する規制部を
備えている。従って、接地導体から接触部に押圧力が印
加され、折り返し部を中心に前記薄板折り曲げ加工バネ
が所定量だけ弾性変形すると、前記薄板折り曲げ加工バ
ネの弾性変形量が規制部により規制される。ここで、前
記薄板折り曲げ加工バネの弾性変形する前記所定量は、
前記薄板折り曲げ加工バネに発生する応力(特に折り返
し部に発生する応力)が弾性限度を越えないような弾性
変形量である。従って、接地導体から接触部に大きな押
圧力が作用した場合でも、前記薄板折り曲げ加工バネを
構成する各部材(特に折り返し部)が永久変形するのを
防止することができる。また、前記接合部における前記
折り返し部とは反対側の端部から前記接合面の反対側に
立設されて前記規制部を保護する保護部を備え、更に、
規制部の下端部と保護部の上端部とを、保護部方向から
見て重なり合うように配置している。これにより、規制
部が保護部により保護され、導電部材の配線板への表面
実装時や、導電部材が表面実装された配線板の搬送時な
どにおいて、規制部の特に先端部分が何かに引っかかる
のを防止することができる。According to the first aspect of the present invention, the wall is provided on the opposite side of the joining surface from the joining portion, and is provided on the side of the supporting portion. Therefore, when an external force is applied from the lateral direction to the longitudinal direction of the conductive member, the external force acts on the wall. As a result, the external force applied from the lateral direction of the conductive member is hindered by the wall portion, and the external force is not applied to the support portion. Therefore, it is possible to reliably prevent the support portion from being deformed by the external force. Therefore, it is possible to solve the problem (B), and it is possible to prevent the reduction in the work efficiency and the occurrence of the short-circuit failure. And said bent spring around the folded portion is when only elastically deformed a predetermined amount, and a regulating portion for regulating the elastic deformation of abutting said bending springs to the junction. Therefore, when a pressing force is applied to the contact portion from the ground conductor and the thin plate bending spring is elastically deformed by a predetermined amount around the folded portion, the amount of elastic deformation of the thin plate bending spring is regulated by the restricting portion. Here, the predetermined amount of elastic deformation of the thin plate bending spring is:
The amount of elastic deformation is such that the stress generated in the thin plate bending spring (particularly the stress generated in the folded portion) does not exceed the elastic limit. Therefore, even when a large pressing force acts on the contact portion from the ground conductor, it is possible to prevent the members (particularly, the folded portion) constituting the thin plate bending spring from being permanently deformed . Further, a protection portion is provided upright on an opposite side of the joining surface from an end of the joining portion opposite to the folded portion to protect the regulating portion,
The lower end portion of the regulating portion and the upper end portion of the protection portion are arranged so as to overlap when viewed from the protection portion direction. Thereby, the restricting portion is protected by the protective portion, and when the conductive member is surface-mounted on the wiring board or when the wiring board on which the conductive member is surface-mounted is conveyed, the tip portion of the restricting portion is particularly caught on something. Can be prevented.
【0016】次に、請求項2に記載の発明は、請求項1
に記載の導電部材において、前記壁部の上端部に接続さ
れると共に、前記接合面に対して平行に配設された平坦
な吸着面を有する吸着部を備え、前記導電部材の重心が
当該吸着面と前記接合面との間に位置することをその要
旨とする。Next, a second aspect of the present invention is the first aspect.
3. The conductive member according to claim 1, further comprising: a suction portion connected to an upper end portion of the wall portion and having a flat suction surface disposed in parallel with the joining surface, wherein a center of gravity of the conductive member is set to the suction position. The gist is to be located between the surface and the joining surface.
【0017】ここで、導電部材を配線板に表面実装する
作業は、作業効率を高めるため、自動実装機により自動
的に行われる。この自動実装機は、真空吸着装置と、当
該真空吸着装置を移動させる移動装置と、リフロー半田
付け装置とを備えている。そして、自動実装機は、ま
ず、真空吸着装置を用いて導電部材の吸着面を真空吸着
して持ち上げ、次に、移動装置を用いて真空吸着装置ご
と導電部材を移動させることにより、配線の半田付け箇
所上に導電部材を移動させ、その位置で真空吸着装置か
ら導電部材を離脱させて当該半田付け箇所に導電部材を
載置し、最後に、リフロー半田付け装置を用いて導電部
材を配線に半田付けする。尚、リフロー半田付けを行う
際には、配線の半田付け箇所に予め適量の半田を供給し
ておき、当該箇所に導電部材を仮固定した状態で、外部
からの熱源により半田を溶融させる。Here, the work of surface-mounting the conductive member on the wiring board is automatically performed by an automatic mounting machine in order to improve work efficiency. This automatic mounting machine includes a vacuum suction device, a moving device for moving the vacuum suction device, and a reflow soldering device. Then, the automatic mounting machine first vacuum-adsorbs and lifts the suction surface of the conductive member using a vacuum suction device, and then moves the conductive member together with the vacuum suction device using a moving device, thereby soldering the wiring. The conductive member is moved to the mounting position, the conductive member is detached from the vacuum suction device at that position, the conductive member is placed at the soldering position, and finally, the conductive member is connected to the wiring using a reflow soldering device. Solder. When performing the reflow soldering, an appropriate amount of solder is supplied in advance to the soldering location of the wiring, and the solder is melted by an external heat source while the conductive member is temporarily fixed to the location.
【0018】請求項2に記載の発明では、導電部材の重
心が吸着面と接合面との間に位置している。そのため、
導電部材の吸着面を真空吸着装置で吸着して持ち上げた
際に、接合部を水平に保持することが可能になる。従っ
て、配線の半田付け箇所に導電部材を載置したとき、そ
の載置位置が所望の位置からずれるのを確実に防止する
ことができる。また、吸着部は導電部材の略中央部に配
設されることになるため、吸着部を設けることにより導
電部材の外形寸法が大型化することはない。従って、前
記(A)の問題点を解決することが可能になり、配線に
対する導電部材の位置決めを正確に行うと共に、電子機
器の小型化に伴い近年益々高まる導電部材の小型化の要
求を満足することができる。According to the second aspect of the invention, the center of gravity of the conductive member is located between the suction surface and the bonding surface. for that reason,
When the suction surface of the conductive member is suctioned and lifted by the vacuum suction device, the joining portion can be held horizontally. Therefore, when the conductive member is placed on the soldered portion of the wiring, it is possible to reliably prevent the placement position from deviating from a desired position. In addition, since the suction portion is disposed substantially at the center of the conductive member, the provision of the suction portion does not increase the outer dimensions of the conductive member. Therefore, the problem (A) can be solved, and the position of the conductive member with respect to the wiring can be accurately determined, and the demand for miniaturization of the conductive member, which has been increasing in recent years with the miniaturization of electronic devices, is satisfied. be able to.
【0019】加えて、壁部の上端部は吸着部に接続さ
れ、壁部の下端部は接合部に接続されているため、接合
部と壁部と吸着部とにより断面矩形状の箱部が形成さ
れ、壁部に横方向から外力が作用しても、当該断面矩形
状の箱部は容易には変形せず、壁部が変形するのを防止
することができる。従って、本発明によれば、請求項1
に記載の発明の作用・効果をより確実に得ることができ
る。In addition, since the upper end of the wall is connected to the suction portion and the lower end of the wall is connected to the joint, the box having a rectangular cross section is formed by the joint, the wall, and the suction portion. Even if an external force acts on the wall portion from the lateral direction, the rectangular box portion is not easily deformed, and the wall portion can be prevented from being deformed. Therefore, according to the present invention, claim 1
The operation and effect of the invention described in (1) can be more reliably obtained.
【0020】次に、請求項3に記載の発明は、請求項2
に記載の導電部材において、前記支持部は、前記接合部
と前記吸着部との間を通るように配設されたことをその
要旨とする。従って、請求項3に記載の発明において、
支持部は、接合部と壁部と吸着部とによって囲まれた箱
部の内部空間を斜めに通るように配設されることにな
る。そのため、導電部材の外形寸法を小型化しても支持
部の長さを十分に確保することが可能になり、前記薄板
折り曲げ加工バネのバネ性を高めることができる。その
結果、導電部材を小型化した場合でも、前記した接地導
体に対する接触部の圧接力を高めることが可能になり、
導電部材を介した配線の接地をより確実に行うことがで
きる。Next, the invention according to claim 3 is based on claim 2
In the conductive member according to (1), the gist is that the support portion is disposed so as to pass between the joining portion and the suction portion. Therefore, in the invention described in claim 3,
The support portion is disposed so as to pass obliquely through the internal space of the box portion surrounded by the joining portion, the wall portion, and the suction portion. Therefore, even if the external dimensions of the conductive member are reduced, the length of the support portion can be sufficiently ensured, and the spring property of the thin plate bending spring can be improved. As a result, even when the size of the conductive member is reduced, it is possible to increase the pressure contact force of the contact portion with the ground conductor,
The grounding of the wiring via the conductive member can be performed more reliably.
【0021】[0021]
【0022】[0022]
【0023】[0023]
【0024】[0024]
【0025】[0025]
【発明の実施の形態】以下、本発明を具体化した一実施
形態を図面と共に説明する。図1は、本実施形態の導電
部材1の正面図である。図2は、導電部材1の背面図で
ある。図3は、導電部材1の下面図である。図4は、導
電部材1の使用状態を示す平面図である。図5は、図4
におけるA−A線断面図である。DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a front view of the conductive member 1 of the present embodiment. FIG. 2 is a rear view of the conductive member 1. FIG. 3 is a bottom view of the conductive member 1. FIG. 4 is a plan view showing a use state of the conductive member 1. FIG.
3 is a sectional view taken along line AA in FIG.
【0026】導電部材1は、薄板状(例えば、板厚:
0.12mm)の金属材料を折り曲げて形成されてお
り、接合部2、下面2a、接合面3a〜3c、保護部
4、折り返し部5、支持部6、接触部7、規制部8、壁
部9a〜9d、吸着部10、吸着面10a、接続部1
1、箱部12から構成されている。The conductive member 1 has a thin plate shape (for example, a plate thickness:
It is formed by bending a metal material (0.12 mm), and has a joint portion 2, a lower surface 2a, joint surfaces 3a to 3c, a protection portion 4, a folded portion 5, a support portion 6, a contact portion 7, a contact portion 7, a regulation portion 8, and a wall portion. 9a to 9d, suction unit 10, suction surface 10a, connection unit 1
1, a box section 12.
【0027】長手方向の長さβ(例えば、4.3mm)
の長尺状の平坦な接合部2の下面2aには、プリント配
線に半田付けされる3つの接合面3a〜3cが設けられ
ている。各接合面3a,3cは接合部2の長手方向の両
端部分に設けられ、接合面3bは接合部2の略中央部分
に設けられ、各接合面3a〜3cの幅α(例えば、0.
8mm)は、接合部2の下面2aの他の部分に比べて幅
広に形成されている。The length β in the longitudinal direction (for example, 4.3 mm)
On the lower surface 2a of the long flat joining portion 2, there are provided three joining surfaces 3a to 3c to be soldered to the printed wiring. The joining surfaces 3a and 3c are provided at both ends in the longitudinal direction of the joining portion 2, the joining surface 3b is provided at a substantially central portion of the joining portion 2, and the width α of each joining surface 3a to 3c (for example, 0.
8 mm) is formed wider than other portions of the lower surface 2a of the joint 2.
【0028】接合部2の長手方向両端部分は下面2aの
反対側へ略垂直に折り曲げられ、下面2aの一端側(接
合面3a側)で折り返された部分は高さh(例えば、
1.0mm)の保護部4を構成し、下面2aの他端側
(接合面3c側)で折り返された部分は半径R(例え
ば、0.4mm)のアールを成した折り返し部5に連接
されている。つまり、保護部4は、接合部2の一端側
(接合面3a側)に立設されている。Both ends in the longitudinal direction of the joining portion 2 are bent substantially perpendicularly to the opposite side of the lower surface 2a, and the portion folded at one end (the joining surface 3a side) of the lower surface 2a has a height h (for example,
1.0 mm) of the protection portion 4, and the portion folded back at the other end side (the joining surface 3 c side) of the lower surface 2 a is connected to the folded portion 5 having a radius R (for example, 0.4 mm). ing. That is, the protection part 4 is provided upright on one end side (the bonding surface 3a side) of the bonding part 2.
【0029】折り返し部5における接合部2の反対側
は、接合部2に対して鋭角を成して延出された支持部6
に連接されている。尚、支持部6は、接合部2に対して
鋭角を成している必要はなく、接合部2と略平行に配設
されていてもよい。支持部6における折り返し部5の反
対側(先端側)は、接合部2の反対方向に立ち上げられ
た接触部7に連接されている。接触部7における支持部
6の反対側は、接合部2の方向に半径r(例えば、0.
25mm)のアールを成して折り返され、その折り返さ
れた部分は接合部2と略垂直を成す規制部8を構成して
いる。The opposite side of the joint 2 in the folded portion 5 is a support 6 extending at an acute angle to the joint 2.
Is linked to Note that the support portion 6 does not need to form an acute angle with the joint portion 2 and may be disposed substantially parallel to the joint portion 2. The opposite side (tip side) of the folded part 5 in the support part 6 is connected to the contact part 7 raised in the opposite direction of the joint part 2. The opposite side of the support portion 6 at the contact portion 7 has a radius r (for example, 0.
25 mm), and the folded portion constitutes a regulating portion 8 which is substantially perpendicular to the joining portion 2.
【0030】接合部2における各接合面3a,3b間の
幅方向両端部分はそれぞれ、下面2aの反対側へ略垂直
に折り曲げられて各壁部9a,9bを形成している。ま
た、接合部2における各接合面3b,3c間の幅方向両
端部分はそれぞれ、下面2aの反対側へ略垂直に折り曲
げられて各壁部9c,9dを形成している。つまり、各
壁部9a〜9dは、接合部2から下面2aの反対側に立
設されると共に、支持部6の側方に配設されている。Both end portions in the width direction between the joint surfaces 3a and 3b in the joint portion 2 are bent substantially perpendicularly to the opposite side of the lower surface 2a to form respective wall portions 9a and 9b. Further, both end portions in the width direction between the joint surfaces 3b and 3c in the joint portion 2 are each bent substantially perpendicularly to the opposite side of the lower surface 2a to form the respective wall portions 9c and 9d. That is, each of the wall portions 9 a to 9 d is erected on the opposite side of the lower surface 2 a from the joint portion 2 and is arranged on the side of the support portion 6.
【0031】そして、各壁部9a,9cにおける接合部
2の反対側は、接合部2と平行に折り曲げられて平坦な
吸着部10を形成している。吸着部10の上面は、真空
吸着装置にて吸着される吸着面10aを構成している。
また、各壁部9b,9dにおける接合部2の反対側は接
続されて接続部11を形成し、接続部11の上端部は吸
着部10の下面側(吸着面10aの反対面側)に接続さ
れている。そして、接合部2,各壁部9a〜9d,吸着
部10,接続部11により、断面矩形状で変形不能な箱
部12が構成されている。The opposite side of the wall 9a, 9c from the joint 2 is bent parallel to the joint 2 to form a flat suction portion 10. The upper surface of the suction unit 10 forms a suction surface 10a to be suctioned by the vacuum suction device.
The opposite sides of the joints 2 in the wall portions 9b and 9d are connected to form a connection portion 11, and the upper end of the connection portion 11 is connected to the lower surface side of the suction portion 10 (the side opposite to the suction surface 10a). Have been. The joint portion 2, the respective wall portions 9 a to 9 d, the suction portion 10, and the connection portion 11 constitute a non-deformable box portion 12 having a rectangular cross section.
【0032】尚、支持部6は、接合部2,各壁部9a〜
9d,吸着部10,接続部11によって囲まれた箱部1
2の内部空間を斜めに通るように配設されている。そし
て、折り曲げ形成された接合部2,折り返し部5,支持
部6,接触部7により、薄板折り曲げ加工バネが構成さ
れている。The supporting portion 6 is composed of the joining portion 2 and each of the wall portions 9a to 9a.
9d, box part 1 surrounded by suction part 10, connection part 11
2 is disposed so as to pass obliquely through the internal space. The joining portion 2, the folded portion 5, the support portion 6, and the contact portion 7 formed by bending form a thin plate bending spring.
【0033】また、導電部材1の重心Gは、箱部12内
における吸着面10aの略中央部下方に位置し、吸着面
10aと接合部2の下面2aとの間に位置している。そ
して、図1における導電部材1を右側方から見た状態に
おいて、保護部4の上端部と規制部8の下端部とがわず
かに重なり合うようになっている。The center of gravity G of the conductive member 1 is located substantially below the center of the suction surface 10 a in the box portion 12, and is located between the suction surface 10 a and the lower surface 2 a of the joint 2. When the conductive member 1 in FIG. 1 is viewed from the right side, the upper end of the protection part 4 and the lower end of the restriction part 8 slightly overlap each other.
【0034】次に、上記のように構成された導電部材1
の製造方法について説明する。導電部材1を製造するに
は、まず、薄板状の金属材料を導電部材1を平面展開し
た形状に打ち抜き形成し、次に、保護部4,折り返し部
5,支持部6,接触部7,規制部8をそれぞれ折り曲げ
形成し、続いて、各壁部9a〜9dを折り曲げ形成し、
最後に、支持部6が箱部12内を通るように吸着部10
を折り曲げ形成することにより、導電部材1が完成す
る。Next, the conductive member 1 configured as described above
A method of manufacturing the device will be described. In order to manufacture the conductive member 1, first, a thin plate-shaped metal material is punched and formed into a shape obtained by expanding the conductive member 1 on a plane, and then, the protection portion 4, the folded portion 5, the support portion 6, the contact portion 7, the regulation Each of the portions 8 is formed by bending, and then each of the wall portions 9a to 9d is formed by bending.
Finally, the suction section 10 is moved so that the support section 6 passes through the inside of the box section 12.
Is formed to complete the conductive member 1.
【0035】このように、薄板状の金属材料の打ち抜き
加工(プレス加工)および折り曲げ加工を用いることに
より、導電部材1を簡単かつ容易に製造することができ
る。尚、導電部材1を形成するための薄板状の金属材料
としては、高いバネ性を有する金属(例えば、ベリリウ
ム銅、燐青銅、鋼など)の薄板材に、接触導電性,耐錆
性,半田濡れ性などを高めるためのメッキ処理(例え
ば、ニッケルメッキを下地とする金メッキ、ロジウムメ
ッキ、スズメッキなど)を施したものを使用すればよ
い。As described above, the conductive member 1 can be easily and easily manufactured by using the punching process (pressing process) and the bending process of a thin metal material. In addition, as a thin metal material for forming the conductive member 1, a thin metal material having a high spring property (for example, beryllium copper, phosphor bronze, steel, or the like) may be used. A plated material (for example, gold plating with nickel plating as a base, rhodium plating, tin plating, or the like) for enhancing wettability may be used.
【0036】次に、導電部材1の使用方法について説明
する。図4および図5に示すように、導電部材1は、プ
リント配線板(基板)200上に形成されたプリント配
線(導電パターン)201に対して、各半田202a〜
202cによって各接合面3a〜3cがそれぞれ半田付
けされることにより表面実装される。Next, a method of using the conductive member 1 will be described. As shown in FIG. 4 and FIG. 5, the conductive member 1 is connected to a printed wiring (conductive pattern) 201 formed on a printed wiring board (substrate) 200 by solders 202 a to 202 a.
Each of the bonding surfaces 3a to 3c is soldered by 202c to be surface-mounted.
【0037】ここで、各接合面3a〜3cは接合部2の
長手方向の両端部および略中央部に配置されているた
め、導電部材1をプリント配線201に対して確実に固
定することができる。また、各接合面3a〜3cは幅広
に形成されているため、各半田202a〜202cとの
十分な接触面積を得ることが可能になり、導電部材1と
プリント配線201との確実な導通を得ることができ
る。Here, since the joining surfaces 3a to 3c are arranged at both ends and substantially at the center in the longitudinal direction of the joining portion 2, the conductive member 1 can be securely fixed to the printed wiring 201. . In addition, since each of the joining surfaces 3a to 3c is formed to be wide, it is possible to obtain a sufficient contact area with each of the solders 202a to 202c, and to obtain reliable conduction between the conductive member 1 and the printed wiring 201. be able to.
【0038】そして、導電部材1をプリント配線板20
0に表面実装した状態で、プリント配線板200に平板
状の接地導体300を対向させ、プリント配線板200
を接地導体300に近接配置する。すると、導電部材1
の接触部7が接地導体300に当接し、接地導体300
からの押圧力により、導電部材1の折り返し部5を中心
として、前記薄板折り曲げ加工バネが弾性変形し、その
弾性変形による反発力(バネ力)により、接触部7が接
地導体300に圧接される。その結果、導電部材1を介
して、接地導体300とプリント配線201とが導通さ
れ、プリント配線201は接地導体300に対して確実
に接地される。Then, the conductive member 1 is connected to the printed wiring board 20.
0, the flat ground conductor 300 is opposed to the printed wiring board 200 in a state where the printed wiring board 200 is mounted on the printed wiring board 200.
Are arranged close to the ground conductor 300. Then, the conductive member 1
Contact portion 7 abuts on the ground conductor 300 and the ground conductor 300
The thin plate bending spring is elastically deformed around the folded portion 5 of the conductive member 1 by the pressing force from the contact member 7, and the contact portion 7 is pressed against the ground conductor 300 by the repulsive force (spring force) due to the elastic deformation. . As a result, the ground conductor 300 is electrically connected to the printed wiring 201 via the conductive member 1, and the printed wiring 201 is reliably grounded to the ground conductor 300.
【0039】ところで、接地導体300は、例えば、プ
リント配線板200を覆うシールドケースや、プリント
配線板200が収容された電子機器の筺体などから構成
される。尚、図4においては、図面が煩雑になるのを避
けるため、接地導体300を図示していない。また、導
電部材1が接地導体300に圧接されていない状態を二
点鎖線にて図示している。Incidentally, the ground conductor 300 is composed of, for example, a shield case that covers the printed wiring board 200, a housing of an electronic device in which the printed wiring board 200 is housed, and the like. In FIG. 4, the ground conductor 300 is not shown in order to avoid complicating the drawing. The state where the conductive member 1 is not pressed against the ground conductor 300 is shown by a two-dot chain line.
【0040】次に、本実施形態の作用・効果について説
明する。 (1)導電部材1をプリント配線板200に表面実装す
る作業は、作業効率を高めるため、自動実装機により自
動的に行われる。この自動実装機(図示略)は、真空吸
着装置と、当該真空吸着装置を移動させる移動装置と、
リフロー半田付け装置とを備えている。Next, the operation and effect of this embodiment will be described. (1) The work of surface mounting the conductive member 1 on the printed wiring board 200 is automatically performed by an automatic mounting machine in order to increase work efficiency. The automatic mounting machine (not shown) includes a vacuum suction device, a moving device for moving the vacuum suction device,
And a reflow soldering device.
【0041】そして、自動実装機は、まず、真空吸着装
置を用いて導電部材1の吸着面10aを真空吸着して持
ち上げ、次に、移動装置を用いて真空吸着装置ごと導電
部材1を移動させることにより、プリント配線201の
半田付け箇所上に導電部材1を移動させ、その位置で真
空吸着装置から導電部材1を離脱させて当該半田付け箇
所に導電部材1を載置し、最後に、リフロー半田付け装
置を用いて導電部材1をプリント配線201に半田付け
する。The automatic mounting machine first vacuum-adsorbs and lifts the suction surface 10a of the conductive member 1 using a vacuum suction device, and then moves the conductive member 1 together with the vacuum suction device using a moving device. Thereby, the conductive member 1 is moved to the soldering position of the printed wiring 201, the conductive member 1 is detached from the vacuum suction device at that position, and the conductive member 1 is placed at the soldering position. The conductive member 1 is soldered to the printed wiring 201 using a soldering device.
【0042】尚、リフロー半田付けを行う際には、プリ
ント配線201の半田付け箇所に予め適量の半田202
a〜202cを供給しておき、当該箇所に導電部材1を
仮固定した状態で、外部からの熱源により半田202a
〜202cを溶融させる。ここで、半田202a〜20
2cとして、半田粉末とビークルを混合してペースト状
としたクリーム半田を使用すれば、クリーム半田の粘着
性を利用して導電部材1の仮固定を確実に行うことがで
きる。When reflow soldering is performed, an appropriate amount of solder
a to 202c are supplied, and the conductive member 1 is temporarily fixed to the corresponding portions, and the solder 202a is supplied by an external heat source.
To 202c are melted. Here, the solders 202a to 202a
If cream solder is used as paste by mixing the solder powder and the vehicle as 2c, the temporary fixing of the conductive member 1 can be reliably performed by utilizing the adhesiveness of the cream solder.
【0043】また、リフロー半田付け装置には各種方式
(全加熱方式(例えば、赤外線加熱、気化潜熱加熱、熱
風循環式、ホットプレートなど)、局部加熱方式(例え
ば、加熱ツール、光ビーム、レーザ、エアヒータな
ど))があるが、どのような方式を使用してもよい。ま
た、リフロー半田付けの作用については、周知であるた
めここでは説明を省略する。The reflow soldering apparatus includes various methods (for example, a total heating method (for example, infrared heating, vaporization latent heat heating, hot air circulation method, hot plate, etc.) and a local heating method (for example, heating tool, light beam, laser, Air heater, etc.), but any method may be used. The operation of the reflow soldering is well known, and the description is omitted here.
【0044】本実施形態において、導電部材1の重心G
は、吸着面10aと接合部2の下面2aとの間に位置
し、箱部12内における吸着面10aの略中央部下方に
位置している。そのため、導電部材1の吸着面10aを
真空吸着装置で吸着して持ち上げた際に、接合部2を水
平に保持することが可能になる。従って、プリント配線
201の半田付け箇所に導電部材1を載置したとき、そ
の載置位置が所望の位置からずれるのを確実に防止する
ことができる。In this embodiment, the center of gravity G of the conductive member 1 is
Is located between the suction surface 10a and the lower surface 2a of the joint portion 2, and is located substantially below the center of the suction surface 10a in the box portion 12. Therefore, when the suction surface 10a of the conductive member 1 is suctioned and lifted by the vacuum suction device, the bonding portion 2 can be held horizontally. Therefore, when the conductive member 1 is placed on the soldered portion of the printed wiring 201, it is possible to reliably prevent the placement position from deviating from a desired position.
【0045】また、箱部12は導電部材1の略中央部に
配設されているため、箱部12を設けることにより導電
部材1の外形寸法が大型化することはない。従って、前
記(A)の問題点を解決することが可能になり、プリン
ト配線201に対する導電部材1の位置決めを正確に行
うと共に、電子機器の小型化に伴い近年益々高まる導電
部材1の小型化の要求を満足することができる。Further, since the box portion 12 is disposed substantially at the center of the conductive member 1, the provision of the box portion 12 does not increase the outer dimensions of the conductive member 1. Therefore, it is possible to solve the problem (A), accurately position the conductive member 1 with respect to the printed wiring 201, and reduce the size of the conductive member 1 which has been increasing in recent years with the miniaturization of electronic devices. Can meet your requirements.
【0046】(2)支持部6は、接合部2,各壁部9a
〜9d,吸着部10,接続部11によって囲まれた箱部
12の内部空間を斜めに通るように配設されている。そ
のため、導電部材1の長手方向に対して横方向から外力
が加わった場合、その外力は各壁部9a〜9dに作用す
ることになる。ここで、各壁部9a〜9dの上端部は吸
着部10に接続され、各壁部9a〜9dの下端部は接合
部2に接続されているため、各壁部9a〜9dに横方向
から外力が作用しても、断面矩形状の箱部12は容易に
は変形せず、各壁部9a〜9dが変形するのを防止する
ことができる。その結果、導電部材1の横方向から加え
られた外力は各壁部9a〜9dにより妨げられ、当該外
力が支持部6に印加されないため、当該外力によって支
持部6が変形するのを確実に防止することができる。(2) The support portion 6 includes the joint portion 2 and each wall portion 9a.
9 d, the suction section 10, and the connection section 11 are disposed so as to pass obliquely through the internal space of the box section 12. Therefore, when an external force is applied from the lateral direction to the longitudinal direction of the conductive member 1, the external force acts on each of the wall portions 9a to 9d. Here, since the upper ends of the walls 9a to 9d are connected to the suction unit 10, and the lower ends of the walls 9a to 9d are connected to the joint 2, the walls 9a to 9d are laterally connected to the walls 9a to 9d. Even if an external force acts, the box portion 12 having a rectangular cross section is not easily deformed, so that the wall portions 9a to 9d can be prevented from being deformed. As a result, the external force applied from the lateral direction of the conductive member 1 is hindered by the walls 9a to 9d, and the external force is not applied to the support portion 6, so that the support portion 6 is surely prevented from being deformed by the external force. can do.
【0047】従って、前記(B)の問題点を解決するこ
とが可能になり、前記した作業効率の低下や短絡故障の
発生を防止することができる。 (3)支持部6は、接合部2,各壁部9a〜9d,吸着
部10,接続部11によって囲まれた箱部12の内部空
間を斜めに通るように配設されている。そして、折り曲
げ形成された接合部2,折り返し部5,支持部6,接触
部7により、薄板折り曲げ加工バネが構成されている。
そのため、導電部材1の外形寸法を小型化しても支持部
6の長さを十分に確保することが可能になり、前記薄板
折り曲げ加工バネのバネ性を高めることができる。従っ
て、導電部材1を小型化した場合でも、前記した接地導
体300に対する接触部7の圧接力を高めることが可能
になり、導電部材1を介したプリント配線201の接地
をより確実に行うことができる。Therefore, it is possible to solve the problem (B), and it is possible to prevent the above-mentioned reduction in work efficiency and occurrence of short-circuit failure. (3) The support part 6 is disposed so as to pass obliquely through the internal space of the box part 12 surrounded by the joint part 2, each of the wall parts 9a to 9d, the suction part 10, and the connection part 11. The joining portion 2, the folded portion 5, the support portion 6, and the contact portion 7 formed by bending form a thin plate bending spring.
Therefore, even if the outer dimensions of the conductive member 1 are reduced, the length of the support portion 6 can be sufficiently secured, and the spring property of the thin plate bending spring can be improved. Therefore, even when the conductive member 1 is downsized, the pressing force of the contact portion 7 against the ground conductor 300 can be increased, and the grounding of the printed wiring 201 via the conductive member 1 can be performed more reliably. it can.
【0048】(4)接触部7における支持部6の反対側
は接合部2の方向に折り返され、その折り返された部分
は接合部2と略垂直を成す規制部8を構成している。そ
のため、接地導体300から接触部7に押圧力が印加さ
れ、折り返し部5を中心に前記薄板折り曲げ加工バネが
所定量だけ弾性変形すると、規制部8の先端部分は接合
部2における下面2aの反対側の面に当接し、前記薄板
折り曲げ加工バネの弾性変形量を規制する。ここで、前
記薄板折り曲げ加工バネの弾性変形する前記所定量は、
前記薄板折り曲げ加工バネに発生する応力(特に折り返
し部5に発生する応力)が弾性限度を越えないような弾
性変形量である。従って、接地導体300から接触部7
に大きな押圧力が作用した場合でも、前記薄板折り曲げ
加工バネを構成する各部材(特に折り返し部5)が永久
変形するのを防止することができる。(4) The opposite side of the contact part 7 from the support part 6 is folded in the direction of the joint part 2, and the folded part constitutes a regulating part 8 which is substantially perpendicular to the joint part 2. Therefore, when a pressing force is applied to the contact portion 7 from the ground conductor 300 and the thin plate bending spring is elastically deformed by a predetermined amount around the folded portion 5, the tip portion of the regulating portion 8 is opposite to the lower surface 2 a of the joint portion 2. And restricts the amount of elastic deformation of the thin plate bending spring. Here, the predetermined amount of elastic deformation of the thin plate bending spring is:
The elastic deformation is such that the stress generated in the thin plate bending spring (particularly the stress generated in the folded portion 5) does not exceed the elastic limit. Therefore, from the ground conductor 300 to the contact portion 7
Even when a large pressing force is applied to each member, it is possible to prevent each member (particularly, the folded portion 5) constituting the thin plate bending spring from being permanently deformed.
【0049】 (5)図1における導電部材1を左側方か
ら見た状態において、保護部4の上端部と規制部8の下
端部とがわずかに重なり合うようになっている。また、
図5に示すように、接地導体300から接触部7に押圧
力が印加され、規制部8の先端部分が接合部2における
下面2aの反対側の面に近づけられた状態において、規
制部8は保護部4に重なり合うようになっている。その
ため、導電部材1のプリント配線板200への表面実装
時や、導電部材1が表面実装されたプリント配線板20
0の搬送時などにおいて、規制部8の先端部分は保護部
4により保護されるため、規制部8の先端部分が何かに
引っかかるのを防止することができる。[0049] (5) Whether the conductive member 1 in FIG.
From the upper end of the protection part 4 and below the restriction part 8
The edges are slightly overlapped. Also,
As shown in FIG. 5, pressing is performed from the ground conductor 300 to the contact portion 7.
A force is applied, and the tip of the regulating portion 8 is
In a state where it is close to the surface opposite to the lower surface 2a,
The control unit 8 overlaps the protection unit 4. That
Therefore, surface mounting of the conductive member 1 on the printed wiring board 200
Or printed wiring board 20 on which conductive member 1 is surface-mounted.
For example, in the case of transporting the zero, the tip of the regulating part 8 is a protective part.
4 is protected by the
It can be prevented from getting stuck.
【0050】尚、保護部4の高さhは、規制部8の先端
部分が接合部2における下面2aの反対側の面に当接し
た状態でも、接触部7が保護部4の上端部から突出する
ように設定されている。これにより、接触部7と接地導
体300との接触が、保護部4により阻害されるのを防
止することができる。The height h of the protection portion 4 is set such that the contact portion 7 is kept from the upper end of the protection portion 4 even when the tip portion of the regulation portion 8 is in contact with the surface of the joining portion 2 opposite to the lower surface 2a. It is set to protrude. Thereby, the contact between the contact portion 7 and the ground conductor 300 can be prevented from being hindered by the protection portion 4.
【0051】(6)接触部7における支持部6の反対側
は、接合部2の方向に半径rのアールを成して折り返さ
れている。そのため、当該半径rを適宜設定することに
より、前記した接地導体300に対する接触部7の圧接
力を高めることが可能になり、導電部材1を介したプリ
ント配線201の接地をより確実に行うことができる。(6) The opposite side of the contact portion 7 from the support portion 6 is bent in a radius r in the direction of the joint 2. Therefore, by appropriately setting the radius r, it is possible to increase the pressure contact force of the contact portion 7 with the ground conductor 300, and it is possible to more reliably ground the printed wiring 201 via the conductive member 1. it can.
【0052】(7)折り返し部5は半径Rのアールを成
している。そのため、当該半径Rを適宜設定することに
より、前記薄板折り曲げ加工バネのバネ力を調節して、
前記した接地導体300に対する接触部7の圧接力を適
宜設定することが可能になり、導電部材1を介したプリ
ント配線201の接地をより確実に行うことができる。(7) The folded portion 5 has a radius R. Therefore, by appropriately setting the radius R, the spring force of the thin plate bending spring is adjusted,
The press-contact force of the contact portion 7 to the ground conductor 300 can be appropriately set, and the grounding of the printed wiring 201 via the conductive member 1 can be performed more reliably.
【0053】以上詳述したように、本実施形態によれ
ば、プリント配線板200上に形成された所定のプリン
ト配線201のみを接地導体300に対して確実に接地
することが可能な導電部材1を得ることができる。尚、
本発明は上記実施形態に限定されるものではなく、本発
明の主旨を逸脱しない範囲において適宜変更を加えても
よく、例えば、各壁部9a〜9d,吸着部10,接続部
11を接合部2とは別部材にて形成した後に接合部2に
取り付けるようにしてもよい。また、保護部4を接合部
2とは別部材にて形成した後に接合部2に取り付けるよ
うにしてもよい。As described in detail above, according to the present embodiment, the conductive member 1 can reliably ground only the predetermined printed wiring 201 formed on the printed wiring board 200 to the ground conductor 300. Can be obtained. still,
The present invention is not limited to the above-described embodiment, and may be appropriately changed without departing from the gist of the present invention. For example, each of the walls 9a to 9d, the suction unit 10, and the connection unit 11 may be connected to each other. Alternatively, it may be attached to the joint 2 after being formed as a member different from the member 2. Further, the protection section 4 may be formed of a member different from the joining section 2 and then attached to the joining section 2.
【図1】本発明を具体化した一実施形態の導電部材の正
面図。FIG. 1 is a front view of a conductive member according to an embodiment of the present invention.
【図2】一実施形態の導電部材の背面図。FIG. 2 is a rear view of the conductive member according to the embodiment;
【図3】一実施形態の導電部材の下面図。FIG. 3 is a bottom view of the conductive member according to the embodiment;
【図4】一実施形態の導電部材の使用状態を示す平面
図。FIG. 4 is a plan view showing a use state of the conductive member according to the embodiment.
【図5】図4におけるA−A線断面図。FIG. 5 is a sectional view taken along line AA in FIG. 4;
【図6】従来の導電部材の使用状態を示す平面図。FIG. 6 is a plan view showing a usage state of a conventional conductive member.
【図7】図6におけるA−A線断面図。FIG. 7 is a sectional view taken along line AA in FIG. 6;
1…導電部材 2…接合部 2a…下面 3a〜
3c…接合面 4…保護部 5…折り返し部 6…支持部 7…
接触部 8…規制部 9a〜9d…壁部 10…吸着部 10a…吸着面 200…プリント配線板 201…プリント配線
300…接地導体DESCRIPTION OF SYMBOLS 1 ... Conductive member 2 ... Joint part 2a ... Lower surface 3a-
3c: joining surface 4: protective part 5: folded part 6: support part 7:
Contact part 8 ... Control part 9a-9d ... Wall part 10 ... Suction part 10a ... Suction surface 200 ... Printed wiring board 201 ... Printed wiring
300… ground conductor
フロントページの続き (58)調査した分野(Int.Cl.7,DB名) H05K 5/02 H01R 4/48 H01R 13/24 Continuation of the front page (58) Field surveyed (Int.Cl. 7 , DB name) H05K 5/02 H01R 4/48 H01R 13/24
Claims (3)
れる接合面を有した長尺状の接合部と、 当該接合部から前記接合面の反対側に折り返された折り
返し部と、 当該折り返し部に連接された支持部と、 当該支持部の先端側に連接された接触部と、 前記接合部から前記接合面の反対側に立設されると共
に、前記支持部の側方に配設された壁部とを備えた導電
部材であって、 前記接合部と前記折り返し部と前記支持部と前記接触部
とにより構成され、導電性を有した折り曲げ加工バネ
と、 該折り曲げ加工バネが前記折り返し部を中心に所定量だ
け弾性変形すると、前記接合部に当接して前記折り曲げ
加工バネの弾性変形を規制するものであって、前記接触
部において前記支持部の反対側に形成された規制部と、 前記接合部における前記折り返し部とは反対側の端部か
ら前記接合面の反対側に立設されて前記規制部を保護す
る保護部とを備え、当該導電部材を前記保護部側から見
た状態において、前記保護部の上端部と前記規制部の下
端部とが重なり合うようになっていることを特徴とする
導電部材。An elongated joint having a joint surface to be soldered to a wiring formed on a wiring board; a folded portion folded from the joint to an opposite side of the joint surface; A support portion connected to the folded portion; a contact portion connected to the distal end side of the support portion; and a standing portion erected from the joint portion on the side opposite to the joint surface, and disposed on a side of the support portion. A conductive member having a wall portion, wherein the bent portion spring is formed by the joining portion, the folded portion, the support portion, and the contact portion, and has a conductivity. When elastically deforming by a predetermined amount around the folded portion, the elastically deformable spring is brought into contact with the joining portion to regulate the elastic deformation of the bending spring.
A regulating portion formed on the opposite side of the support portion in the portion, and a protection portion that stands upright on the opposite side of the joining surface from an end of the joining portion opposite to the folded portion to protect the regulating portion. Wherein the upper end portion of the protection portion and the lower end portion of the regulating portion overlap each other when the conductive member is viewed from the protection portion side.
して平行に配設された平坦な吸着面を有する吸着部を備
え、前記導電部材の重心が当該吸着面と前記接合面との
間に位置することを特徴とする導電部材。2. The conductive member according to claim 1, further comprising: a suction portion connected to an upper end portion of the wall portion and having a flat suction surface disposed parallel to the joining surface. A conductive member, wherein a center of gravity of the conductive member is located between the suction surface and the bonding surface.
うに配設されたことを特徴とする導電部材。 3. The conductive member according to claim 2, wherein the support portion is disposed so as to pass between the joining portion and the suction portion .
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP22751399A JP3162354B2 (en) | 1999-08-11 | 1999-08-11 | Conductive material |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP22751399A JP3162354B2 (en) | 1999-08-11 | 1999-08-11 | Conductive material |
Publications (2)
Publication Number | Publication Date |
---|---|
JP2001053457A JP2001053457A (en) | 2001-02-23 |
JP3162354B2 true JP3162354B2 (en) | 2001-04-25 |
Family
ID=16862088
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP22751399A Expired - Fee Related JP3162354B2 (en) | 1999-08-11 | 1999-08-11 | Conductive material |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP3162354B2 (en) |
Families Citing this family (17)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP3847227B2 (en) * | 2001-10-02 | 2006-11-22 | 日本碍子株式会社 | Contact sheet |
GB2390755A (en) * | 2002-07-11 | 2004-01-14 | Itt Mfg Enterprises Inc | Spring terminal |
JPWO2006093155A1 (en) * | 2005-03-01 | 2008-08-07 | 松下電器産業株式会社 | Board-to-board connector and circuit board device using board-to-board connector |
JP5124789B2 (en) * | 2008-05-09 | 2013-01-23 | 北川工業株式会社 | Surface mount contact |
JP5246806B2 (en) * | 2009-11-16 | 2013-07-24 | 北川工業株式会社 | contact |
CN101728682A (en) * | 2010-01-04 | 2010-06-09 | 深圳市信维通信股份有限公司 | Multi-channel connector |
EP2363919B1 (en) * | 2010-02-22 | 2012-07-04 | Tyco Electronics Nederland B.V. | Contact member for electrical connectors |
JP5626874B2 (en) * | 2010-09-30 | 2014-11-19 | 日本航空電子工業株式会社 | Connector and lighting device |
WO2012144326A1 (en) * | 2011-04-20 | 2012-10-26 | タイコエレクトロニクスジャパン合同会社 | Connector and method for manufacturing connector |
JP6177043B2 (en) * | 2013-08-02 | 2017-08-09 | 富士通コンポーネント株式会社 | Contact material |
KR101499187B1 (en) * | 2013-12-24 | 2015-03-09 | 조인셋 주식회사 | Elastic electric contact terminal |
JP6603229B2 (en) * | 2014-09-26 | 2019-11-06 | 株式会社T・P・S・クリエーションズ | Conductive element, plate member for conductive element, and method of manufacturing conductive element |
KR101540088B1 (en) * | 2014-10-22 | 2015-07-29 | 케이에이치일렉트로닉스 주식회사 | Method for manufacturing elastic electric contact terminal |
JP6684419B2 (en) * | 2016-03-02 | 2020-04-22 | 北川工業株式会社 | contact |
JP6732172B2 (en) | 2016-06-02 | 2020-07-29 | 北川工業株式会社 | contact |
WO2017209291A1 (en) * | 2016-06-02 | 2017-12-07 | 北川工業株式会社 | Contact |
JP2018060986A (en) * | 2016-10-07 | 2018-04-12 | 株式会社ジェイデバイス | Semiconductor device |
-
1999
- 1999-08-11 JP JP22751399A patent/JP3162354B2/en not_active Expired - Fee Related
Also Published As
Publication number | Publication date |
---|---|
JP2001053457A (en) | 2001-02-23 |
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