JPS59147785A - Resistance welding method - Google Patents

Abstract

PURPOSE:To improve productivity by holding a cap with a clamping device and positioning an electronic part when the lead wires of a base are inserted into the lead wire inserting port of the lead wires of a lower electrode while the welding part of the electronic part is brought into contact with the base. CONSTITUTION:When lead wires 5 are inserted into the lead wire inserting port 9 of lower electrode 2 while the welding point of a base 4 is brought into contact with the welding point of a cap 6, a clamping device 10 operates to hold the cap 6 of a crystal vibrator 3 thereby positioning the vibrator 3. Then an upper electrode 1 lowers and at the same time, the cap 6 is inserted into the cap inserting port 11 formed to the electrode 1. The device 10 detaches from the cap 6 in succession and the base 4 of the vibrator 3 and the cap 6 are welded.

Description

【発明の詳細な説明】 本発明は電子部品のベースとキャップとを溶接する抵抗
溶接方法に関する− 従来、電子部品例えば水晶発振素子のベースとキャップ
とを溶接する場合には、第１図に示すように上部電極１
と下部電極２との間隔を水晶発振素子６０ペース４に設
けられたリード＃５の長さよりも短かくシ、先ずベース
４の溶接個所とキャップ６の溶接個所と全接触させなが
らリード線５を上部を極１に形成これたリード線挿入ロ
アへ挿入し、その後水晶発振素子６のキャップ６を下部
電極に形成謬れたキャンプ挿入口８へ挿入して水晶発振
素子６を固定し、その後上部電極１會下降尽せて上部電
極１と下部電極２とで上記水晶発振素子食加圧し溶接を
行っていた。DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a resistance welding method for welding the base and cap of an electronic component. Conventionally, when welding the base and cap of an electronic component such as a crystal oscillation element, the method shown in FIG. upper electrode 1
Make the distance between the lead wire 5 and the lower electrode 2 shorter than the length of the lead #5 provided on the crystal oscillation element 60 pace 4, and first connect the lead wire 5 with the welded parts of the base 4 and the welded parts of the cap 6. Insert the upper part into the lead wire insertion lower formed in the pole 1, then insert the cap 6 of the crystal oscillation element 6 into the camp insertion hole 8 formed in the lower electrode to fix the crystal oscillation element 6, and then After one electrode was lowered, upper electrode 1 and lower electrode 2 were used to apply pressure to the crystal oscillator element and weld.

しかし、この従来の溶接方法ではリード線５が曲ってい
る場合等に、該リード線５金上記リード線挿入ロアへ挿
入するのに手間取シ非常に能率の悪いものであった。However, in this conventional welding method, when the lead wire 5 is bent, it takes time and effort to insert the lead wire 5 into the lead wire insertion lower, which is very inefficient.

本発明は以上の欠点全全て除去する新規々抵抗溶接方法
を提供するものである。The present invention provides a novel resistance welding method that eliminates all of the above drawbacks.

第２図は本発明の一実施例全説明する為の図である。同
図において、上部側１と下部電極２との間隔全水晶発振
素子６のキャップの長婆よりも充分長くしておく。先ず
ベース４の溶接個所とキャップ６の浴接個所と全接触ζ
せながらリード線５を下部７１１２に形成場れたリード
線挿入口９へ挿入すると、クランプ装置１０が動作して
水晶発振素子６のキャップ６を把持して、水晶発振素子
３の位置決めをする。次に上部を極１が動作して下降し
始め、やがて上部電極１に形成されたキャップ挿入口１
１に水晶発振素子６のキャンプ６が挿入され始め、該キ
ャップ６が上記キャップ挿入口１１の中程まで挿入され
たところで保護回路（図示せず）が動作して上記クラン
プ装置１０が水晶発振素子６から離れる。次に上部電極
１と下部電極２とで上記水晶発振素子３を加圧してベー
ス４とキャップ６と全溶接する。このように本発明の抵
抗溶接方法では水晶発振素子６を下部電極２０所定個所
へ位置決めするのが極めて容易とカリ、水晶発振素子ろ
の位置決め後は所定の溶接が自動的に行われるので能率
が非常によくなシ溶接作業に要する時間が短縮はれ、生
産性の向上を図ることができる。特に、従来のように水
晶発振素子６金上部電極１及び下部電極２０両者に挿入
する必要がなく、下部電極２に挿入する丈で良いので、
ターンテーブル型自動溶接機等の加圧受電極部に付加す
れば電極構造全簡略化することができる。FIG. 2 is a diagram for fully explaining one embodiment of the present invention. In the figure, the distance between the upper side 1 and the lower electrode 2 is set to be sufficiently longer than the length of the cap of the all-crystal oscillation element 6. First, the welding part of the base 4 and the bath contact part of the cap 6 and all contacts ζ
When the lead wire 5 is inserted into the lead wire insertion opening 9 formed in the lower part 7112 while holding the lead wire 5, the clamp device 10 operates to grip the cap 6 of the crystal oscillation element 6 and position the crystal oscillation element 3. Next, the pole 1 moves on the upper part and begins to descend, and eventually the cap insertion opening 1 formed in the upper electrode 1
The camp 6 of the crystal oscillation element 6 begins to be inserted into the cap 1, and when the cap 6 is inserted halfway into the cap insertion opening 11, a protection circuit (not shown) operates and the clamp device 10 closes the crystal oscillation element. Stay away from 6. Next, the crystal oscillation element 3 is pressurized by the upper electrode 1 and the lower electrode 2 to completely weld the base 4 and the cap 6 together. In this way, in the resistance welding method of the present invention, it is extremely easy to position the crystal oscillation element 6 to the predetermined location of the lower electrode 20, and the predetermined welding is automatically performed after positioning the crystal oscillation element, thereby increasing efficiency. The time required for very good welding work can be shortened and productivity can be improved. In particular, it is not necessary to insert the crystal oscillation element 6 into both the gold upper electrode 1 and the lower electrode 20 as in the conventional case, and the length is sufficient to insert it into the lower electrode 2.
By adding it to the pressure-receiving electrode part of a turntable type automatic welding machine, etc., the electrode structure can be completely simplified.

尚、以上の実施例では被溶接物である電子部品として水
晶発振素子について述べたが、他の電子部品についても
同様に実施することができる。In the above embodiments, a crystal oscillation element was described as an electronic component to be welded, but the same method can be applied to other electronic components.

以上述べたように本発明は電子部品のベースとキャップ
とを溶接する抵抗溶接方法において、上記電子部品の溶
接個所全接触させながら上記ベースのリード線を下部電
極に形成されたリード線挿入口へ挿入すると、先ずクラ
ンプ装置が上記キャップを把持して上記電子部品の位置
決めをし、次いで上部電極が下降すると共に該上部電極
に形成されたキャップ挿入口に上記キャップが挿入され
、続いて上記クランプ装置が上記キャップから離れ、電
子部品のベースとキャップと全溶接する０と會特徴とす
る抵抗溶接方法である。本発明はこのような特徴全有す
るので電子部品全下部電極の所定個所へ位置決めするの
が極めて容易となり能率が非常に良くなり生産性の向上
を図ることができる。As described above, the present invention provides a resistance welding method for welding the base and cap of an electronic component, in which the lead wire of the base is inserted into the lead wire insertion hole formed in the lower electrode while contacting all the welding points of the electronic component. When inserted, the clamp device first grasps the cap and positions the electronic component, then the upper electrode is lowered and the cap is inserted into the cap insertion opening formed in the upper electrode, and then the clamp device This is a resistance welding method characterized in that the base of the electronic component is completely welded to the cap while the base of the electronic component is separated from the cap. Since the present invention has all of these features, it is extremely easy to position all the lower electrodes of the electronic component at predetermined locations, and efficiency is greatly improved, making it possible to improve productivity.

特にター・テＮイ型自動溶接機等の加圧受電極部に付加
すれば電極構造全簡略化する０とができる。In particular, if it is added to the pressure-receiving electrode part of a T-N type automatic welding machine, etc., the electrode structure can be completely simplified.

【図面の簡単な説明】[Brief explanation of the drawing]

第１図は従来の抵抗浴接方法上説明する為の図、第２図
は本発明の一実施例を説明する為の図である。 １４２．上部電極　　　　　２・・・下部電極６・・・
水晶発振素子　　　４・・・ベース５・・・！Ｊ−ド８
６・・・キャップ ７．９・・・リード線挿入口 ８．１１・・・キャップ挿入口 １０・・・クランプ装置 特許出願人　　オリジン電気株式会社 第　２　図 １　　図FIG. 1 is a diagram for explaining a conventional resistance bath welding method, and FIG. 2 is a diagram for explaining an embodiment of the present invention. 142. Upper electrode 2...lower electrode 6...
Crystal oscillation element 4...Base 5...! J-Do 8
6...Cap 7.9...Lead wire insertion port 8.11...Cap insertion port 10...Clamp device Patent applicant Origin Electric Co., Ltd. No. 2 Figure 1

Claims (1)

【特許請求の範囲】[Claims] 電子部品のベースとキャップとを溶接する抵抗溶接方法
において、上記電子部品の溶接個所を接触づせながら上
記ベースのリード線會下部電停に形成場れたリード線挿
入口へ挿入すると、先ずクランプ装置が上記キャップを
把持して上記電子部品の位置決め金し、次いで上部電極
が下降すると共に該上部電極に形成はれたキャップ挿入
口に上記キャップが挿入草れ、続いて上記クランプ装置
が上記キャップから離れ、電子部品のベースとキャップ
とを溶接することを特徴とする抵抗溶接方法。In the resistance welding method for welding the base and cap of an electronic component, when the electronic component is inserted into the lead wire insertion hole formed in the lower part of the lead wire assembly of the base while keeping the welded parts of the electronic component in contact with each other, the lead wire is first clamped. The device grips the cap and positions the electronic component, and then the upper electrode is lowered and the cap is inserted into the cap insertion opening formed in the upper electrode, and then the clamp device locks the electronic component in place. A resistance welding method characterized by welding the base and cap of an electronic component apart from each other.