JPH08185946A - Surface mounting ic socket - Google Patents
Surface mounting ic socketInfo
- Publication number
- JPH08185946A JPH08185946A JP6339973A JP33997394A JPH08185946A JP H08185946 A JPH08185946 A JP H08185946A JP 6339973 A JP6339973 A JP 6339973A JP 33997394 A JP33997394 A JP 33997394A JP H08185946 A JPH08185946 A JP H08185946A
- Authority
- JP
- Japan
- Prior art keywords
- contact piece
- horizontal
- lead
- piece
- contact
- 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
- Connecting Device With Holders (AREA)
- Multi-Conductor Connections (AREA)
- Coupling Device And Connection With Printed Circuit (AREA)
Abstract
Description
【0001】[0001]
【産業上の利用分野】この発明はICパッケージを配線
基板に表面実装する表面実装用ICソケットに関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a surface mounting IC socket for surface mounting an IC package on a wiring board.
【0002】[0002]
【従来の技術】先行例として特開平5−3064号公報
に開示された表面実装用ICソケットは、図6(A)に
示すように条板を横U字形曲げして横U字形曲げ部30
aより横方向へ略平行に上下に対向して持ち出された上
部接片30bと下部接片30cとを形成したコンタクト
30がソケット本体31の側縁に沿って並列して植装さ
れており、ソケット本体31にICパッケージ32を搭
載してコンタクト30の上部接片30bにICリード3
3を載接し、押えカバー34の押し下げにてコンタクト
30の横U字形曲げ部30aを支点として上部接片30
bを下方変位させその反力によりICリード33との加
圧接触を図り、下部接片30cを配線基板35表面の導
電パターンにハンダ付けするように構成されている。2. Description of the Related Art In a surface mounting IC socket disclosed in Japanese Patent Laid-Open No. 5-3064 as a prior art example, a horizontal U-shaped bent portion 30 is formed by bending a strip horizontally as shown in FIG. 6 (A).
A contact 30 having an upper contact piece 30b and a lower contact piece 30c, which are vertically and substantially parallel to each other and are brought out in parallel with each other in a direction, is planted in parallel along a side edge of the socket body 31. The IC package 32 is mounted on the socket body 31, and the IC lead 3 is attached to the upper contact piece 30b of the contact 30.
3 is placed on the upper contact piece 30 by pushing down the presser cover 34 with the lateral U-shaped bent portion 30a of the contact 30 as a fulcrum.
It is configured such that b is displaced downward and pressure reaction with the IC lead 33 is achieved by its reaction force, and the lower contact piece 30c is soldered to the conductive pattern on the surface of the wiring board 35.
【0003】上記ICソケットにおいてはICパッケー
ジ32の本体下面がソケット本体31のIC搭載部36
に当接し且つ横U字曲げコンタクト30の横U字形曲げ
部30a上側が同ICパッケージ32の本体下面と当接
した時点で上部接片30bの下方変位が完了してICリ
ード33との加圧接触を果たすものであり、この横U字
曲げコンタクト30の横U字形曲げ部30aの高さ、即
ち、同曲げ部30aの曲率によってソケット本体31の
上記IC搭載部36及びICソケットの高さが決まる。In the above IC socket, the lower surface of the body of the IC package 32 is the IC mounting portion 36 of the socket body 31.
When the upper side of the horizontal U-shaped bent portion 30a of the horizontal U-shaped bent contact 30 contacts the lower surface of the main body of the IC package 32, the downward displacement of the upper contact piece 30b is completed and the IC lead 33 is pressed. The horizontal U-shaped bent portion 30a of the horizontal U-shaped bent contact 30, that is, the height of the IC mounting portion 36 of the socket body 31 and the height of the IC socket are determined by the curvature of the bent U-shaped bent portion 30a. Decided.
【0004】[0004]
【発明が解決しようとする問題点】業界においては、抵
抗、コンデンサ等の電子素子は配線基板への実装高さが
2mm程度になっているため、ICパッケージ実装用の
ICソケットの実装高さを現状の4mm程度から可及的
に2mm程度に近づけることが要請されている。In the industry, since the mounting height of electronic elements such as resistors and capacitors on a wiring board is about 2 mm, the mounting height of an IC socket for mounting an IC package is reduced. It is required to approach the current size of about 4 mm to about 2 mm as much as possible.
【0005】然しながら上記先行例のコンタクトにおい
ては図6(B)、(C)に示すように、横U字形曲げ部
30aの繰り返し曲げ荷重によるへたりを防止するため
に、曲げ径を小さくするには限界があり、横U字形曲げ
部30a高さH2が大となることから、ソケット本体も
嵩高になり、その高さは4〜5mm程度になっており、
結局は上記2mm程度に抑えるとの要請に応えられない
現状にある。しかも現実にはこの横U字形曲げ部30a
がコンタクトの高さH1の略4分の3を占めて上部接片
30bの変位量H3が4分の1程度しか採れずにリード
との加圧接触にも信頼性を欠く。又横U字形曲げ部30
aの曲率の誤差による上部接片30bの接触レベルのバ
ラツキが大きく、これによりICリードとの接触圧もリ
ード間において不均一となる。However, as shown in FIGS. 6 (B) and 6 (C), in the contact of the above-mentioned prior art, the bending diameter is made small in order to prevent the lateral U-shaped bending portion 30a from being settled due to repeated bending loads. Has a limit, and the height H2 of the horizontal U-shaped bent portion 30a is large, the bulk of the socket body is also bulky, and its height is about 4 to 5 mm.
In the end, it is not possible to meet the above-mentioned demand for reducing the thickness to about 2 mm. Moreover, in reality, this horizontal U-shaped bent portion 30a
Occupies approximately three-fourths of the contact height H1, and the displacement amount H3 of the upper contact piece 30b can be only about one-fourth, and pressure contact with the lead is also unreliable. Horizontal U-shaped bent portion 30
There is a large variation in the contact level of the upper contact piece 30b due to the error in the curvature of a, and the contact pressure with the IC leads is also uneven between leads.
【0006】更に近年益々微小ピッチ化するICリード
に対応するためにコンタクトの板巾を更に狭くする必要
があり、従来の如き横U字形曲げ部を上部接片の変位支
点とするコンタクトでは横U字形曲げ部に繰り返し変位
による過酷なストレスが集中しこれが蓄積して曲げ部に
へたりを生じてICリードとの接点レベルが変わりるば
かりかコンタクトが永久変形する問題も内在している。Further, in order to cope with IC leads which are becoming finer and finer in recent years, it is necessary to further narrow the plate width of the contact, and in the conventional contact in which the lateral U-shaped bent portion serves as the displacement fulcrum of the upper contact piece, the lateral U Severe stress due to repeated displacement concentrates on the bent portion of the character and accumulates to cause fatigue in the bent portion, which not only changes the contact level with the IC lead but also permanently deforms the contact.
【0007】これら問題の解決策として曲げ部をソケッ
トの外域に配することも検討されたがプリント基板に対
するICソケットの専有面積が大となるため実施化が難
しい状況にある。As a solution to these problems, it has been considered to dispose the bent portion in the outer region of the socket, but it is difficult to put it into practice because the area occupied by the IC socket with respect to the printed circuit board becomes large.
【0008】この発明は上記先行例が有する問題を解決
して、ICリードとの加圧接触が高信頼に行え且つ実装
高さを略2mm程度とすることが可能な表面実装用IC
ソケットを提供して前記要請に応えるようにしたもので
ある。The present invention solves the problems of the above-mentioned prior art, and can perform pressure contact with the IC lead with high reliability, and the mounting height can be set to about 2 mm.
A socket is provided to meet the above request.
【0009】[0009]
【問題点を解決するための手段】その手段として、上記
条片を略横U字形に折曲して形成したコンタクトの上記
上部接触片の基部を下方へ向け屈曲して屈曲支持部を形
成し、この屈曲支持部の頂部下面を上記下部接触片の基
部内面に当接状態にして、該屈曲支持部が上記上部接触
片の弾性に抗する下方変位時における変位支点を形成す
るようにしたICソケットを提供する。[Means for Solving the Problems] As a means thereof, the base portion of the upper contact piece of the contact formed by bending the strip into a substantially horizontal U shape is bent downward to form a bending support portion. An IC in which the lower surface of the top of the bending support portion is brought into contact with the inner surface of the base portion of the lower contact piece so that the bending support portion forms a displacement fulcrum at the time of downward displacement against the elasticity of the upper contact piece. Providing a socket.
【0010】又上記屈曲支持部の頂部下面と上記下部接
触片の基部内面との間に間隙を形成し、上記横U字形曲
げ部が上部接触片の前段の下方変位時における第1変位
支点を形成すると共に、該前段の下方変位にて上記屈曲
支持部の頂部下面を下部接触片の内面に当接させ、該当
接以降に上記屈曲支持部が上部接触片の後段の下方変位
時における第2変位支点を形成するようにしたICソケ
ットを提供する。A gap is formed between the lower surface of the top portion of the bending support portion and the inner surface of the base portion of the lower contact piece, and the horizontal U-shaped bent portion serves as a first displacement fulcrum when the upper contact piece is displaced downward in the preceding stage. While being formed, the lower surface of the top portion of the bending support portion is brought into contact with the inner surface of the lower contact piece by the downward displacement of the front stage, and after the contact, the bending support portion is displaced downward at the rear stage of the upper contact piece. Provided is an IC socket configured to form a displacement fulcrum.
【0011】[0011]
【作用】この発明によれば、横U字形曲げ部に隣接する
上部接触片の基部に形成した屈曲支持部を下部接触片に
当接して下方変位支点を形成しているので、上部接触片
のバネ長を短くして上部接触片のバネ定数を大にし、コ
ンタクトが微細であっても大きな接圧を得ることができ
る。According to the present invention, the bending support portion formed on the base portion of the upper contact piece adjacent to the horizontal U-shaped bent portion is brought into contact with the lower contact piece to form the downward displacement fulcrum. By shortening the spring length and increasing the spring constant of the upper contact piece, a large contact pressure can be obtained even if the contact is minute.
【0012】又屈曲支持部の下部接触片の当接位置を基
準にして上部接触片のリード載接片のレベル設定が行え
るので、同リード載接片のレベルのバラツキを可及的に
解消してリードとの接圧を均一にすることができる。Further, since the level of the lead mounting piece of the upper contact piece can be set on the basis of the contact position of the lower contact piece of the bending support part, the level variation of the lead mounting piece can be eliminated as much as possible. The contact pressure with the lead can be made uniform.
【0013】又上部接触片の下方変位支点を、殊にバネ
圧が高まる後段に向かう時の変位支点を、従来の如く横
U字形曲げ部に負担させずにこれに隣接した上記屈曲支
持部に移行させたことにより、上部接触片の繰り返し変
位によって横U字形曲げ部に集中して蓄積されるストレ
スの問題を解消し横U字形曲げ部のへたり等を防止する
ことができる。Further, the downward displacement fulcrum of the upper contact piece, particularly the displacement fulcrum when the spring pressure increases toward the latter stage, is not applied to the horizontal U-shaped bent portion as in the conventional case, but is provided on the bending support portion adjacent thereto. By shifting, it is possible to solve the problem of stress accumulated and accumulated in the horizontal U-shaped bent portion due to repeated displacement of the upper contact piece, and prevent the lateral U-shaped bent portion from being settled.
【0014】又上記のように横U字形曲げ部を少なくと
も最も弾力が高まる後段の変位ストロークにおいて、下
方変位支点としないことから上部接触片の弾力は横U字
形曲げ部の曲率に左右されず、よって横U字形曲げ部の
曲率を大にして曲げ部の高さを低くでき、ひいては上部
接触片の変位量が多く採れるコンタクトを形成できると
同時に、横U字曲げコンタクトを植設せるICソケット
本体の小嵩化(薄形化)が図れ、これにより総体的にI
Cソケットの実装高さを小嵩にすることができる。Further, as described above, since the horizontal U-shaped bent portion is not used as a downward displacement fulcrum at least in the subsequent displacement stroke where the elasticity is maximized, the elasticity of the upper contact piece is not influenced by the curvature of the horizontal U-shaped bent portion. Therefore, the curvature of the horizontal U-shaped bent portion can be increased and the height of the bent portion can be reduced, and thus a contact can be formed in which a large amount of displacement of the upper contact piece can be formed, and at the same time, the horizontal U-shaped bent contact can be implanted. Can be made smaller (thinner), and as a result, the overall I
The mounting height of the C socket can be made small.
【0015】[0015]
【実施例】以下、この発明の実施例を図1乃至図5に基
き詳述する。Embodiments of the present invention will be described in detail below with reference to FIGS.
【0016】図1において、1はICソケット本体、2
はIC押えカバー、3はコンタクト、4はICパッケー
ジを各々示す。In FIG. 1, 1 is an IC socket main body, 2
Indicates an IC pressing cover, 3 indicates a contact, and 4 indicates an IC package.
【0017】ソケット本体1は中央にICパッケージ4
の本体4aの下面を支持する載台5を形成し、図2に示
すようにソケット本体1の側縁において開口するコンタ
クト植設溝6をこの載台5の両側に沿い等間隔で並設
し、互いに隣接するコンタクト植設溝6、6間の仕切壁
7の外端を立上げて仕切壁7aを形成し、隣接する仕切
壁7a、7aにてICリード挿入溝8を画成して上記コ
ンタクト植設溝6と連続させる。The socket body 1 has an IC package 4 at the center.
2. A mounting table 5 for supporting the lower surface of the main body 4a is formed, and as shown in FIG. 2, contact implantation grooves 6 opening at the side edge of the socket main body 1 are arranged in parallel on both sides of the mounting table 5 at equal intervals. The partition wall 7a is formed by raising the outer end of the partition wall 7 between the contact planting grooves 6, 6 adjacent to each other, and the IC lead insertion groove 8 is defined by the adjacent partition walls 7a, 7a. It is continuous with the contact implantation groove 6.
【0018】又この仕切壁7aの立上げ端に上記IC押
えカバー2をソケット本体1に係合止する爪7′を設
け、ソケット本体1に搭載したICパッケージ4を押え
るIC押えカバー2による押し下げ状態、即ちICパッ
ケージ4のリード4bとコンタクト3との加圧接触状態
を確保する。Further, a claw 7'for stopping the engagement of the IC pressing cover 2 with the socket body 1 is provided at the rising end of the partition wall 7a, and the IC pressing cover 2 for pressing the IC package 4 mounted on the socket body 1 is pushed down. The state, that is, the pressure contact state between the lead 4b of the IC package 4 and the contact 3 is secured.
【0019】図3乃至図5に示すように上記コンタクト
3はベリリウムカッパー(BeCu)等の弾性に富む金
属の板材より打抜き成形した細長の条片を横U字形に曲
げて上部曲げ条片にて上部接触片9を形成し、下部曲げ
条片にて下部接触片10を形成して横U字形曲げ部11
を介し上部接触片9と下部接触片10とを横方向に延在
し且つ上下に対向させる。As shown in FIGS. 3 to 5, the contact 3 is an upper bent strip formed by bending an elongated strip punched and formed from a metal plate material having high elasticity such as beryllium copper (BeCu) into a horizontal U shape. The upper contact piece 9 is formed, the lower contact strip 10 is formed by the lower bent strip, and the lateral U-shaped bent portion 11 is formed.
The upper contact piece 9 and the lower contact piece 10 extend in the lateral direction and face each other vertically.
【0020】上記横U字形曲げ部11はその内径Rが上
部、下部接触片9、10の板圧t以下となるよう横U字
形曲げして高さH2を小嵩に形成し、上部接触片9の自
由端にICパッケージ4のリード4bを載接するリード
載接片12を同ICリード4bと対向して連設し、他方
下部接触片10の自由端に配線基板13の導電パターン
にハンダ付けされる表面実装用接片14を連設する。The horizontal U-shaped bent portion 11 is bent in the horizontal U-shape so that the inner diameter R thereof is equal to or less than the plate pressure t of the upper and lower contact pieces 9 and 10, and the height H2 is formed to be small. A lead mounting piece 12 for mounting the lead 4b of the IC package 4 on the free end of 9 is continuously provided so as to face the IC lead 4b, while the free end of the lower contact piece 10 is soldered to the conductive pattern of the wiring board 13. The surface mounting contact pieces 14 to be formed are continuously provided.
【0021】更に上部接触片9の基部を下方へ向け略逆
Vの字形に屈曲して屈曲支持部15を形成し、この屈曲
支持部15の頂部下面16を図3及び図4に示すように
上記下部接触片10の基部内面17に当接状態にする。
上部接触片9の自由端側(リード載接片12側)と横U
字曲げ部11側とを互いに屈曲支持部15から上り勾配
に傾斜させ、両傾斜辺の谷部に屈曲支持部15を形成し
ており、この屈曲支持部15の頂部下面16を下部接触
片の基部内面17に当接状態に支持させてICリード4
bとの加圧接触において屈曲支持部15が上記上部接触
片9の弾性に抗する下方変位時における変位支点Pと成
るように形成する。Further, the base portion of the upper contact piece 9 is bent downward in a substantially inverted V shape to form a bending support portion 15, and the top lower surface 16 of the bending support portion 15 is formed as shown in FIGS. 3 and 4. The lower contact piece 10 is brought into contact with the inner surface 17 of the base portion.
Free end side of the upper contact piece 9 (lead mounting contact piece 12 side) and side U
The bent portion 11 side is inclined upward from the bending support portion 15 with each other, and the bending support portions 15 are formed in the valley portions of both inclined sides. The top surface 16 of the bending support portion 15 is formed on the lower contact piece. The IC lead 4 is supported by being abutted against the inner surface 17 of the base.
The bending support portion 15 is formed so as to become the displacement fulcrum P at the time of downward displacement against the elasticity of the upper contact piece 9 in the pressure contact with b.
【0022】つまり上部接触片9は屈曲支持部15の当
接させた下部接触片10の内面を基準として上り勾配に
傾斜し、前記横U字形曲げ部11の上側面と上部接触片
9のリード載接片12先端との間に上部接触片9の下方
変位を許容する高さH3を形成する。この上部接触片9
の下方変位許容量H3は横U字形曲げ部11の高さH2
と略同等即ち、コンタクト3の高さH1の約2分の1程
度にし得る。横U字形曲げ部11は支点として関与しな
い構造であるから、その曲率を塑性変形の限界を超える
小径にし小嵩にできる。In other words, the upper contact piece 9 is inclined upward with respect to the inner surface of the lower contact piece 10 with which the bending support portion 15 abuts, and the upper side surface of the horizontal U-shaped bent portion 11 and the lead of the upper contact piece 9. A height H3 is formed between the tip of the mounting piece 12 and the upper contact piece 9 to allow the downward displacement. This upper contact piece 9
The downward displacement allowance H3 of is the height H2 of the horizontal U-shaped bent portion 11
Can be made approximately equal to, that is, about ½ of the height H1 of the contact 3. Since the lateral U-shaped bent portion 11 has a structure that does not participate as a fulcrum, the curvature can be made small in diameter and small in volume, which exceeds the limit of plastic deformation.
【0023】これにより、図4に示す如くリード載接片
12を押し下げると上記横U字曲げコンタクト3の上部
接触片9は屈曲支持部15を変位支点Pとして下方変位
し、又屈曲支持部15及びこれを当接せる下部接触片1
0の基部内面17に下方変位時の応力荷重を担わせて上
部接触片9の弾性に抗する下方変位を行う。As a result, when the lead mounting piece 12 is pushed down as shown in FIG. 4, the upper contact piece 9 of the lateral U-shaped bending contact 3 is displaced downward with the bending supporting portion 15 as the displacement fulcrum P, and the bending supporting portion 15 is also moved. And a lower contact piece 1 for abutting this
The base inner surface 17 of 0 bears the stress load at the time of downward displacement, and the downward displacement against the elasticity of the upper contact piece 9 is performed.
【0024】この下方変位における上部接触片9のバネ
定数は変位支点Pと上部接触片9のリード載接片12の
自由端間のバネ長に反比例し、変位支点P即ち、屈曲支
持部15をリード載接片12の自由端に接近してバネ長
を短くできるので上部接触片9のバネ定数を大にするこ
とができる。即ち、ICリードの微小ピッチ化に対応す
るようコンタクト3の条板巾を巾狭とした場合、屈曲支
持部15を支点として形成することにより充分に大きな
接触圧が確保できる。The spring constant of the upper contact piece 9 in this downward displacement is inversely proportional to the spring length between the displacement fulcrum P and the free end of the lead mounting piece 12 of the upper contact piece 9, and the displacement fulcrum P, that is, the bending support portion 15, is Since the spring length can be shortened by approaching the free end of the lead mounting piece 12, the spring constant of the upper contact piece 9 can be increased. That is, when the strip width of the contact 3 is made narrow so as to correspond to the fine pitch of the IC leads, a sufficiently large contact pressure can be secured by forming the bending support portion 15 as a fulcrum.
【0025】又他例として図5(A)に示すように横U
字曲げコンタクト3の上記屈曲支持部15をその頂部下
面16が下部接触片10の基部内面17との間に横U字
曲げコンタクト3の板圧以下の間隙18を存するように
形成する。従ってICリード4bの押し下げによる上部
接触片9の弾性に抗する弾力が弱い前段の下方変位時に
上記横U字形曲げ部11にて第1変位支点P1を形成
し、該前段の下方変位にて同図(B)に示すように上記
屈曲支持部15の頂部下面16を下部接触片10の基部
内面17に当接させ、該当接以降に同図(C)に示すよ
うに上記屈曲支持部15にて上部接触片9の弾力が急激
に高まる後段の下方変位時における第2変位支点P2を
形成する。As another example, as shown in FIG.
The bending support portion 15 of the U-shaped bending contact 3 is formed such that the top lower surface 16 thereof and the base inner surface 17 of the lower contact piece 10 have a gap 18 equal to or less than the plate pressure of the lateral U-shaped bending contact 3. Therefore, when the IC lead 4b is pushed down, the elastic force against the elasticity of the upper contact piece 9 is weak, and the first displacement fulcrum P1 is formed by the lateral U-shaped bent portion 11 when the former displacement is made. As shown in FIG. 3B, the top lower surface 16 of the bending support portion 15 is brought into contact with the inner surface 17 of the base of the lower contact piece 10, and after that contact, the bending support portion 15 is attached to the bending support portion 15 as shown in FIG. Forming a second displacement fulcrum P2 at the time of the downward displacement in the subsequent stage where the elasticity of the upper contact piece 9 sharply increases.
【0026】つまりリード載接片12の押し下げにて横
U字形曲げ部11を第1変位支点P1として上部接触片
11の前段の下方変位を行って、上記屈曲支持部15を
下部接触片10の基部内面17に当接させ、該当接後の
屈曲支持部15を第2変位支点Pとして上部接触片11
の後段の下方変位を行わせる。即ち横U時曲げ部11の
第1変位支点P1から屈曲支持部15の第2変位支点P
2に移行させることにより、第2変位支点P2と上部接
触片11のリード載接片15先端間のバネ長を短く設定
して上部接触片11の弾力を高め、同時にこの下方変位
時の荷重を下部接触片10の内面に担わせる。That is, by pushing down the lead mounting piece 12, the horizontal U-shaped bent portion 11 is used as the first displacement fulcrum P1 to perform downward displacement of the upper contact piece 11 in the preceding stage, and the bending support portion 15 of the lower contact piece 10 is moved. The upper contact piece 11 is brought into contact with the inner surface 17 of the base, and the bending support portion 15 after the contact is used as the second displacement fulcrum P.
The lower displacement of the latter stage is performed. That is, from the first displacement fulcrum P1 of the bending portion 11 at the horizontal U to the second displacement fulcrum P of the bending support portion 15
By shifting to the second position, the spring length between the second displacement fulcrum P2 and the tip of the lead mounting piece 15 of the upper contact piece 11 is set short to increase the elasticity of the upper contact piece 11, and at the same time, the load at the time of downward displacement is increased. It is carried on the inner surface of the lower contact piece 10.
【0027】上記両実施例においてはICリードとの最
終接圧を得る上部接触片9の後段の下方変位時において
上部接触片9の変位支点P、又はP2を下部接触片10
の基部内面17に当接せる上記屈曲支持部15にて形成
することによって、上部接触片9の弾力を高めてICリ
ード4bとの高信頼の加圧接触を果たすものである。又
屈曲支持部15を変位支点P又は第2変位支点P2とす
ることにより、上部接触片9のリード載接片12とIC
リード4bとの載接点及び接触圧のバラツキが殆ど無視
できる範囲に吸収され、これによりICリード4b群と
コンタクト3群との最終接圧を均一とすることができ
る。In both of the above-mentioned embodiments, the displacement fulcrum P or P2 of the upper contact piece 9 is set to the lower contact piece 10 at the time of downward displacement of the upper contact piece 9 to obtain the final contact pressure with the IC lead.
By forming the bending support portion 15 which is brought into contact with the inner surface 17 of the base portion, the elasticity of the upper contact piece 9 is enhanced to achieve highly reliable pressure contact with the IC lead 4b. By setting the bending support portion 15 as the displacement fulcrum P or the second displacement fulcrum P2, the lead mounting contact piece 12 of the upper contact piece 9 and the IC
The variations in the contact points and contact pressure with the leads 4b are absorbed to a negligible range, whereby the final contact pressure between the IC lead 4b group and the contact 3 group can be made uniform.
【0028】上記横U字曲げコンタクト3は前記ソケッ
ト本体1の載台5の両側に沿い横U字形曲げ部11を配
し上部、下部接触片9、10のリード載接片12、表面
実装片14をソケット本体1の側縁より突出して配して
下部接触片10をコンタクト挿入溝6に圧入等して植設
する。この時上記屈曲支持部15即ち変位支点P、P2
はこの圧入領域内に存する。The horizontal U-shaped bending contact 3 has horizontal U-shaped bending portions 11 along both sides of the mounting base 5 of the socket body 1, and the lead mounting contact piece 12 of the upper and lower contact pieces 9 and 10 and the surface mounting piece. 14 is provided so as to project from the side edge of the socket body 1, and the lower contact piece 10 is pressed into the contact insertion groove 6 or the like to be planted. At this time, the bending support portion 15, that is, the displacement fulcrums P and P2
Exists within this press-fitting area.
【0029】横U字形曲げ部11の高さ、即ち外径を塑
性変形の限界近くまで縮小してソケット本体1の高さを
小嵩にできる。The height of the horizontal U-shaped bent portion 11, that is, the outer diameter can be reduced to near the limit of plastic deformation to make the height of the socket body 1 small.
【0030】上記ソケット本体1に植設した横U字曲げ
コンタクト3は下部接触片10の表面実装用接片14を
配線基板13の導電パターンにハンダ付けした後、IC
パッケージ4を搭載してICリード4bをコンタクト3
のリード載接片12に載接し、押えカバー2を被着して
同カバー2の押圧部2′をICリード4bに載接する。The horizontal U-shaped bent contact 3 planted in the socket body 1 is soldered to the conductive pattern of the wiring board 13 after soldering the surface mounting contact piece 14 of the lower contact piece 10.
Mount the package 4 and contact the IC lead 4b 3
Then, the pressing cover 2 is attached and the pressing portion 2'of the cover 2 is mounted on the IC lead 4b.
【0031】この押えカバー2にてICリード4bを押
し下げると、横U字曲げコンタクト3は下部接触片10
の基部内面に当接せる屈曲支持部15を変位支点P,P
2として上部接触片9が弾性に抗し下方変位し、ICパ
ッケージ4の本体4a下面がソケット本体1の載台5上
面に当接し、又は同ICパッケージ4の本体4a下面が
横U字曲げコンタクト3の横U字曲げ部11の上側面に
当接した時点で上部接触片9の下方変位が完了して最終
接圧が得られる。When the IC lead 4b is pushed down by the presser cover 2, the lateral U-shaped bent contact 3 becomes lower contact piece 10.
The bending support portion 15 that comes into contact with the inner surface of the base of the displacement fulcrum P, P
2, the upper contact piece 9 is displaced downward against elasticity, the lower surface of the body 4a of the IC package 4 contacts the upper surface of the mounting table 5 of the socket body 1, or the lower surface of the body 4a of the IC package 4 is a horizontal U-shaped contact. When the upper contact piece 9 comes into contact with the upper side surface of the lateral U-shaped bent portion 3 of 3, the downward displacement of the upper contact piece 9 is completed, and the final contact pressure is obtained.
【0032】[0032]
【発明の効果】この発明によれば、屈曲支持部から延設
せる上部接触片のバネ長を短くして上部接触片のバネ定
数を大にし、屈曲支持部を支点として微細であっても大
きな接圧を得ることができる。According to the present invention, the spring length of the upper contact piece extending from the bending support portion is shortened to increase the spring constant of the upper contact piece, and even if the bending support portion is a fulcrum, it is large. Contact pressure can be obtained.
【0033】又屈曲支持部の下部接触片の当接位置を基
準にして上部接触片のリード載接片のレベル設定が行え
るので、同リード載接片のレベルのバラツキを可及的に
解消してリードとの接圧を均一にすることができる。Further, since the level of the lead mounting piece of the upper contact piece can be set on the basis of the contact position of the lower contact piece of the bending support part, the level variation of the lead mounting piece can be eliminated as much as possible. The contact pressure with the lead can be made uniform.
【0034】又上部接触片の下方変位支点を、殊にバネ
圧が高まる後段に向かう時の変位支点を、従来の如く横
U字形曲げ部に負担させずにこれに隣接した上記屈曲支
持部に移行させたことにより、上部接触片の繰り返し変
位によって横U字形曲げ部に集中して蓄積されるストレ
スの問題を解消し横U字形曲げ部のへたり等を防止する
ことができる。Further, the downward displacement fulcrum of the upper contact piece, especially the displacement fulcrum when the spring pressure increases toward the latter stage, is not applied to the horizontal U-shaped bent portion as in the conventional case, but is provided on the bending support portion adjacent thereto. By shifting, it is possible to solve the problem of stress accumulated and accumulated in the horizontal U-shaped bent portion due to repeated displacement of the upper contact piece, and prevent the lateral U-shaped bent portion from being settled.
【0035】又上記のように横U字形曲げ部を最も弾力
が高まる後段の変位ストロークにおいて、下方変位支点
としない構造であることから、横U字形曲げ部はその曲
率を塑性変形の限界付近まで、又は限界を超える小径に
し小嵩にすることができる。ひいては上部接触片の変位
量が多く採れるコンタクトを形成できると同時に、横U
字曲げコンタクトを植設せるICソケット本体の小嵩化
(薄形化)が図れ、これにより総体的にICソケットの
実装高さを小嵩にすることができる。Further, as described above, since the horizontal U-shaped bent portion has a structure in which the downward displacement fulcrum is not used in the subsequent displacement stroke where the elasticity is maximized, the horizontal U-shaped bent portion has its curvature up to the limit of plastic deformation. Alternatively, the diameter can be made smaller than the limit and the volume can be made small. As a result, it is possible to form a contact in which the displacement amount of the upper contact piece is large, and at the same time, the lateral U
The IC socket main body on which the bent contact is implanted can be made smaller (thinner), and as a result, the mounting height of the IC socket can be made smaller as a whole.
【図1】この発明の実施例を示す表面実装用ICソケッ
トを示す断面図であり、(A)乃至(D)は同ソケット
に搭載したICパッケージの加圧接触過程を示す断面
図。FIG. 1 is a sectional view showing an IC socket for surface mounting showing an embodiment of the present invention, and FIGS. 1A to 1D are sectional views showing a pressure contact process of an IC package mounted in the socket.
【図2】図1に示す表面実装用ICソケットの本体部を
示し、(A)はICソケット本体の平面図、(B)は同
正面図(C)は同側面図である。2 shows a main body of the surface mounting IC socket shown in FIG. 1, (A) is a plan view of the IC socket main body, (B) is a front view thereof, and (C) is a side view thereof.
【図3】表面実装用ICソケット本体に植設する横U字
曲げコンタクトを示す斜視図である。FIG. 3 is a perspective view showing a horizontal U-shaped bent contact to be embedded in the surface mounting IC socket body.
【図4】(A)乃至(D)は図3に示す横U字曲げコン
タクトの上部接触片の下方変位過程を示す図である。4A to 4D are diagrams showing a downward displacement process of an upper contact piece of the horizontal U-shaped bent contact shown in FIG.
【図5】横U字曲げコンタクトの他例を示し、(A)乃
至(D)はICリードを載接した上部接触片の下方変位
過程を示す図である。FIG. 5 shows another example of a horizontal U-shaped bent contact, and FIGS. 5A to 5D are diagrams showing a downward displacement process of an upper contact piece on which an IC lead is mounted.
【図6】(A)は従来例を示す表面実装用ICソケット
の断面図、(B)はこのソケットに植設せる横U字曲げ
コンタクトの斜視図、(C)は側面図である。FIG. 6A is a cross-sectional view of a surface mounting IC socket showing a conventional example, FIG. 6B is a perspective view of a lateral U-shaped bent contact to be implanted in this socket, and FIG. 6C is a side view.
1 ICソケット本体 2 IC押えカバー 3 横I字曲げコンタクト 4 ICパッケージ 4a ICパッケージ本体 4b ICリード 9 上部接触片 10 下部接触片 11 横U字形曲げ部 12 リード載接片 13 配線基盤 14 表面実装用接片 15 屈曲支持部 18 間隙 P 変位支点 P1 第1変位支点 P2 第2変位支点 1 IC Socket Main Body 2 IC Press Cover 3 Horizontal I-shaped Bent Contact 4 IC Package 4a IC Package Body 4b IC Lead 9 Upper Contact Piece 10 Lower Contact Piece 11 Horizontal U-shaped Bent Section 12 Lead Mounting Piece 13 Wiring Board 14 Surface Mount Contact piece 15 Bending support 18 Gap P Displacement fulcrum P1 1st displacement fulcrum P2 2nd displacement fulcrum
Claims (3)
曲げ部を介し横方向に延在し且つ上下に対向する上部接
触片と下部接触片とを有するコンタクトを形成し、該コ
ンタクトは上記横U字形曲げ部が内側となるようICソ
ケット本体の下縁に沿い並列配置して植設し、下部接触
片の自由端に配線基板の導電パターン表面にハンダ付け
する表面実装用接片を形成し、上部接触片の自由端にI
Cパッケージのリードを載接するリード載接片を形成
し、該リード載接片を上部接触片の弾性に抗し下方へ変
位させてICリードと加圧接触させるようにした表面実
装用ICソケットにおいて、上記上部接触片の基部を下
方へ向け屈曲して屈曲支持部を形成し、該屈曲支持部の
頂部下面を上記下部接触片の基部内面に当接状態にし、
該屈曲支持部が上記上部接触片の弾性に抗する下方変位
時における変位支点を形成する構成としたことを特徴と
する表面実装用ICソケット。1. A contact is formed by bending a strip into a substantially horizontal U-shape and extending in the horizontal direction through the horizontal U-shaped bent portion and having an upper contact piece and a lower contact piece that are vertically opposed to each other. , The contacts are arranged in parallel along the lower edge of the IC socket main body so that the horizontal U-shaped bent portion is on the inside, and the free end of the lower contact piece is soldered to the conductive pattern surface of the wiring board. Forming a contact piece for the upper contact piece and I
A surface mounting IC socket in which a lead mounting piece for mounting a lead of a C package is formed, and the lead mounting piece is displaced downward against the elasticity of the upper contact piece to make pressure contact with the IC lead. , The base portion of the upper contact piece is bent downward to form a bending support portion, and the lower surface of the top of the bending support portion is brought into contact with the inner surface of the base portion of the lower contact piece,
A surface mounting IC socket, characterized in that the bending support portion forms a displacement fulcrum at the time of downward displacement against the elasticity of the upper contact piece.
曲げ部を介し横方向に延在し且つ上下に対向する上部接
触片と下部接触片とを有するコンタクトを形成し、該コ
ンタクトは上記横U字形曲げ部が内側となるようICソ
ケット本体の下縁に沿い並列配置して植設し、下部接触
片の自由端に配線基板の導電パターン表面にハンダ付け
する表面実装用接片を形成し、上部接触片の自由端にI
Cパッケージのリードを載接するリード載接片を形成
し、該リード載接片を上部接触片の弾性に抗し下方へ変
位させてICリードと加圧接触させるようにした表面実
装用ICソケットにおいて、上記上部接触片の基部を下
方へ向け屈曲して屈曲支持部を形成し、該屈曲支持部の
頂部下面と上記下部接触片の基部内面との間に間隙を形
成し、上記横U字形曲げ部が上部接触片の前段の下方変
位時における第1変位支点を形成すると共に、該前段の
下方変位にて上記屈曲支持部の頂部下面を下部接触片の
内面に当接させ、該当接以降に上記屈曲支持部が上部接
触片の後段の下方変位時における第2変位支点を形成す
る構成としたことを特徴とする表面実装用ICソケッ
ト。2. A contact is formed by bending a strip into a substantially horizontal U-shape and extending in the horizontal direction through the horizontal U-shaped bent portion and having an upper contact piece and a lower contact piece that are vertically opposed to each other. , The contacts are arranged in parallel along the lower edge of the IC socket main body so that the horizontal U-shaped bent portion is on the inside, and the free end of the lower contact piece is soldered to the conductive pattern surface of the wiring board. Forming a contact piece for the upper contact piece and I
A surface mounting IC socket in which a lead mounting piece for mounting a lead of a C package is formed, and the lead mounting piece is displaced downward against the elasticity of the upper contact piece to make pressure contact with the IC lead. Bending the base portion of the upper contact piece downward to form a bending support portion, and forming a gap between the lower surface of the top portion of the bending support portion and the inner surface of the base portion of the lower contact piece to form the horizontal U-shaped bend. Part forms a first displacement fulcrum at the time of downward displacement of the front part of the upper contact piece, and the lower surface of the top of the bending support part is brought into contact with the inner surface of the lower contact piece by the downward displacement of the front part. A surface mounting IC socket, characterized in that the bending support portion forms a second displacement fulcrum when the upper contact piece is displaced downward in the subsequent stage.
触片の板厚以下に形成されていることを特徴とする請求
項1、請求項2記載の表面実装用ICソケット。3. The surface mounting IC socket according to claim 1, wherein the inner diameter of the horizontal U-shaped bent portion is formed to be equal to or less than the plate thickness of the upper and lower contact pieces.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP6339973A JPH08185946A (en) | 1994-12-29 | 1994-12-29 | Surface mounting ic socket |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP6339973A JPH08185946A (en) | 1994-12-29 | 1994-12-29 | Surface mounting ic socket |
Publications (1)
Publication Number | Publication Date |
---|---|
JPH08185946A true JPH08185946A (en) | 1996-07-16 |
Family
ID=18332530
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP6339973A Pending JPH08185946A (en) | 1994-12-29 | 1994-12-29 | Surface mounting ic socket |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPH08185946A (en) |
Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP4102189B2 (en) * | 2000-12-21 | 2008-06-18 | イネオス フラウアー ホールデイングス リミテッド | Method for purifying fluoromethylhexafluoroisopropyl ether |
-
1994
- 1994-12-29 JP JP6339973A patent/JPH08185946A/en active Pending
Patent Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP4102189B2 (en) * | 2000-12-21 | 2008-06-18 | イネオス フラウアー ホールデイングス リミテッド | Method for purifying fluoromethylhexafluoroisopropyl ether |
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