JPH03114297A - Method and apparatus for connecting of insulating board to continuous chainlike terminal - Google Patents

Method and apparatus for connecting of insulating board to continuous chainlike terminal

Info

Publication number
JPH03114297A
JPH03114297A JP1251575A JP25157589A JPH03114297A JP H03114297 A JPH03114297 A JP H03114297A JP 1251575 A JP1251575 A JP 1251575A JP 25157589 A JP25157589 A JP 25157589A JP H03114297 A JPH03114297 A JP H03114297A
Authority
JP
Japan
Prior art keywords
terminal
terminals
chained
insulating substrate
electrode
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.)
Granted
Application number
JP1251575A
Other languages
Japanese (ja)
Other versions
JP2686832B2 (en
Inventor
Shozo Takano
高野 章三
Eizo Kikuchi
菊地 栄蔵
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Tokyo Cosmos Electric Co Ltd
Original Assignee
Tokyo Cosmos Electric Co Ltd
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Tokyo Cosmos Electric Co Ltd filed Critical Tokyo Cosmos Electric Co Ltd
Priority to JP1251575A priority Critical patent/JP2686832B2/en
Publication of JPH03114297A publication Critical patent/JPH03114297A/en
Application granted granted Critical
Publication of JP2686832B2 publication Critical patent/JP2686832B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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Abstract

PURPOSE:To obtain connections of constant quality by feeding a continuous chainlike terminal wound on a supply reel intermittently feeding it along a guide rail, positioning a connection terminal and an electrode, applying thermal energy thereto in a state that an insulating board is brought into contact with the terminal for predetermined time, and sequentially connecting the board. CONSTITUTION:A continuous chainlike terminal 15 is intermittently fed along a guide rail 31 by a feeder 32. A board feeder 34 is lifted, and electrodes formed on an insulating board 11 are brought into contact with connecting terminals 23-25. A positioning unit 42 provided in a connecting device 33 is moved down, a positioning pin 43 is inserted into the feeding holes 28 (29) of the terminal 15 temporarily stopped, and the terminals 23-25 are precisely positioned in feeding and lateral directions. A heating punch 17 is moved down, thermal energy is applied to the terminals 23-25, solder adhered in advance to the terminals 23-25 is melted to electrically and mechanically connect the electrodes 37-39 of the board 11.

Description

【発明の詳細な説明】 「産業上の利用分野J この発明は、連鎖状端子に電極が形成された絶縁基板を
接続する方法およびその装置に関する。DETAILED DESCRIPTION OF THE INVENTION INDUSTRIAL APPLICATION J This invention relates to a method and apparatus for connecting an insulating substrate on which electrodes are formed to chain terminals.

「従来の技術」 絶縁基板の電極に接続端子を接続するため従来において
は第12図に示すようにして行っていた。"Prior Art" In order to connect a connecting terminal to an electrode of an insulating substrate, the conventional method was as shown in FIG. 12.

先ず第12図に示すように一面上に電極が形成された絶
縁基板11をピンセット12でつまんで基板ホルダー1
3に搭載する。同図Bに示すように絶縁基板11の電極
面に筆14を用いて半田フラックスを塗布する。同図C
に示すように送り桟に連鎖状に接続端子を支持した連鎖
状端子15の送り孔を基板ホルダー13の位置決めピン
16に通し、絶縁基板11の電極上に接続端子を配置す
る。First, as shown in FIG. 12, the insulating substrate 11 with electrodes formed on one side is pinched with tweezers 12 and placed in the substrate holder 1.
Installed on 3. As shown in Figure B, solder flux is applied to the electrode surface of the insulating substrate 11 using a brush 14. Same figure C
As shown in FIG. 3, the feed holes of the chained terminals 15 supporting the connecting terminals in a chain on the feed bar are passed through the positioning pins 16 of the substrate holder 13, and the connecting terminals are placed on the electrodes of the insulating substrate 11.

同図りに示すようにピンセット12で接続端子を絶縁基
Fi11の電極面側に押しつけた状態で加熱ポンチ17
を接続端子に当接させて接続端子上の半田を溶融させる
。同図已に示すようにピンセット12を押しつけた状態
で加熱ポンチ17の当接を解除する。同図Fに示すよう
に接続端子が冷却してからピンセットI2の押しっけを
解除する。As shown in the figure, the heating punch 17 is pressed with the tweezers 12 to press the connection terminal against the electrode surface side of the insulating base Fi11.
Touch the connecting terminal to melt the solder on the connecting terminal. As shown in the figure, the contact with the heating punch 17 is released while the tweezers 12 are being pressed. As shown in FIG. F, after the connection terminal has cooled down, the force of the tweezers I2 is released.

以上の工程が手作業でなされ、連鎖状端子15の移送も
手作業で行われていた。The above steps were performed manually, and the chained terminals 15 were also transported manually.

「発明が解決しようとする課題」 以上のように従来は手作業で行われていたため、ピンセ
ット押圧力、その押圧時間、加熱ポンチの当接時間など
の接続条件が一定とならず、一定の接続強度が得られな
い。また工数が多く、作業時間が長くなり、かつ価格も
高くなる欠点があった。"Problems to be Solved by the Invention" As described above, since this was conventionally done manually, the connection conditions such as tweezers pressing force, pressing time, and heating punch contact time were not constant, resulting in a constant connection. Strength cannot be obtained. Further, there are disadvantages in that the number of man-hours is large, the working time is long, and the price is high.

この発明は前述の問題点を解決して、バラツキがなく一
定の接続強度が得られ、かつ短時間で、安価に行うこと
ができる接続方法およびその装置を提供することを目的
とする。SUMMARY OF THE INVENTION An object of the present invention is to solve the above-mentioned problems and provide a connection method and device that can provide a constant connection strength without variation, and can be performed in a short time and at low cost.

「課題を解決するための手段」 この発明の接続方法によれば、複数個を組として連鎖状
に接続端子が送り桟に支持された連鎖状端子を供給リー
ルから繰り出して移送し、その連鎖状端子を一時停止し
てその接続端子に、絶縁基板の一面に形成された電極を
当接させ、その電極が当接された接M’nA子に熱エネ
ルギーを与えてその接続端子と電極とを接続し、絶縁基
板が接続された連鎖状端子を巻き取りリールに巻き取る
``Means for Solving the Problems'' According to the connection method of the present invention, a plurality of connection terminals are connected in a chain in a set, and a chain-shaped terminal supported on a feed bar is fed out from a supply reel and transferred, and the chain-shaped terminal is transferred. The terminal is temporarily stopped and an electrode formed on one side of the insulating substrate is brought into contact with the connecting terminal, and thermal energy is applied to the contact M'nA with which the electrode is brought into contact to connect the connecting terminal and the electrode. The chained terminals connected to the insulating substrate are then wound onto a take-up reel.

この発明の接続装置によれば、複数個を組として接続端
子を送り桟に連鎖状に支持してなる連鎖状端子が供給リ
ールに巻き付けられ、その供給リールから繰り出された
連鎖状端子は室内レールで案内され、その連鎖状端子は
移送装置で間欠的に移送され、その間欠的移送による一
時停止した連鎖状端子の接続端子に、基板送給装置によ
り絶縁基板を支持してその電極が当接され、また−時停
止した連鎖状端子の接続端子の位置が位置決め装置で位
置決めされ、電極が当接された接続端子にエネルギー供
給装置から熱エネルギーが供給されてその電極および接
続端子が接続され、絶縁基板が接続された連鎖状端子は
巻き取りリールに巻き取られる。According to the connecting device of the present invention, the chained terminals formed by supporting a plurality of connecting terminals in a chain on the feed bar are wound around the supply reel, and the chained terminals fed out from the supply reel are attached to the indoor rail. The chained terminals are intermittently transferred by a transfer device, and the electrodes are brought into contact with the connecting terminals of the chained terminals that have been temporarily stopped due to the intermittent transfer while supporting the insulating substrate by the substrate feeding device. and the position of the connecting terminal of the chained terminals stopped at the time is determined by a positioning device, thermal energy is supplied from the energy supply device to the connecting terminal with which the electrode is in contact, and the electrode and the connecting terminal are connected, The chained terminal to which the insulating substrate is connected is wound onto a take-up reel.

「実施例」 この発明の実施例を第1図〜第11図を参照して従来例
と同じケ所には同じ符号を用いて説明する。Embodiment An embodiment of the present invention will be described with reference to FIGS. 1 to 11, using the same reference numerals for the same parts as in the conventional example.

第1図、第2図に示すように供給リール21がモータ2
2により回転されて、連鎖状端子15が繰り出される。As shown in FIGS. 1 and 2, the supply reel 21 is connected to the motor 2.
2, and the chained terminal 15 is drawn out.

連鎖状端子15は例えば第3図に示すように、3本の接
続端子23,24.25を組として2本の平行した送り
桟26.27間に連鎖状に支持されて構成される。送り
桟26.27には接続端子23,24.25の組ごとに
送り孔28.29が形成されている。接続端子23.2
4゜25の各間隔はそれぞれ予め決められてあり、この
例では接続端子23.25は両送り桟26.27間にわ
たって支持され、接続端子24は送り桟27に片持ち支
持されている。接続端子の組の間隔は所定値とされてい
る。このような連鎖状端子15ば帯状金属板のプレス加
工により作られる。For example, as shown in FIG. 3, the chain terminal 15 is constructed by supporting a set of three connecting terminals 23, 24, 25 in a chain between two parallel feed bars 26, 27. Feed holes 28.29 are formed in the feed bars 26.27 for each pair of connection terminals 23, 24.25. Connection terminal 23.2
Each interval of 4°25 is predetermined, and in this example, the connecting terminal 23.25 is supported across both feed bars 26,27, and the connecting terminal 24 is supported by the feed bar 27 in a cantilevered manner. The spacing between the sets of connection terminals is set to a predetermined value. Such a chain terminal 15 is made by pressing a band-shaped metal plate.

第1図、第2図で連鎖状端子15は案内レール31に沿
って移送装置32により間欠移送される。In FIGS. 1 and 2, the chained terminals 15 are intermittently transferred along a guide rail 31 by a transfer device 32. In FIG.

その送りのピッチは連鎖状端子15の送り孔28゜29
のピッチとされ、かつ間欠移送により一時停止したとき
、案内レール31.31間に設けられた接続装置33内
に一組の接続端子23〜25が位置するようにされる。The pitch of the feed is 28°29 through the feed holes of the chain terminal 15.
, and when stopped temporarily due to intermittent transfer, a set of connection terminals 23 to 25 are located in a connection device 33 provided between guide rails 31 and 31.

接続装置33内に位置した接続端子23〜25の下側に
、接続基板11を搭載した基板送給装置34を配置し、
その基板送給袋′1134を上昇させて絶縁基板11上
に形成された電極を接続端子23〜25に近接(対向し
て当接)させる。絶縁基板11は基板搭載装置35によ
り電極形成面を上向きにして基板送給装置34上に配置
される。A board feeding device 34 on which the connection board 11 is mounted is arranged below the connection terminals 23 to 25 located in the connection device 33,
The substrate feeding bag '1134 is raised to bring the electrodes formed on the insulating substrate 11 close to (opposed to and in contact with) the connection terminals 23 to 25. The insulating substrate 11 is placed on the substrate feeding device 34 by the substrate mounting device 35 with the electrode forming surface facing upward.

絶縁基板11は例えば第3図に示すように可変抵抗器用
の抵抗基板であって、方形絶縁基板11上に馬蹄形状の
抵抗素子36が形成され、その抵抗素子36の両端と接
続された電極37.39が絶縁基板11の両側縁に沿っ
てそれぞれ形成され、中心部の集電体に接続された電極
38が一端側に形成されている。接続端子23を電極3
7上に位置させると、接続端子24.25が電極38.
39上にそれぞれ位置するように、接続端子23〜25
と電極37〜39とが関係付けられている。従って、基
板送給装置34で絶縁基板11を接続端子23〜25に
近づけると第4図に示すように、電極37〜39がそれ
ぞれ接続端子23〜25に対向する。なお、第4図に示
すように接続装置33の両側の案内レール31.31を
連続させ、接続装置33の位置で案内レール31に方形
孔41を形成してもよい。The insulating substrate 11 is, for example, a resistance substrate for a variable resistor, as shown in FIG. .39 are formed along both side edges of the insulating substrate 11, and an electrode 38 connected to the current collector in the center is formed on one end side. Connecting terminal 23 to electrode 3
7, the connection terminals 24.25 connect to the electrodes 38.7.
Connecting terminals 23 to 25 are located above 39, respectively.
and the electrodes 37 to 39 are associated with each other. Therefore, when the insulating substrate 11 is brought close to the connection terminals 23 to 25 by the substrate feeding device 34, the electrodes 37 to 39 are opposed to the connection terminals 23 to 25, respectively, as shown in FIG. In addition, as shown in FIG. 4, the guide rails 31, 31 on both sides of the connecting device 33 may be made continuous, and a rectangular hole 41 may be formed in the guide rail 31 at the position of the connecting device 33.

第1図、第2図において接続装置33内に設けた位置決
め装置42が下降して第5図に示すように一時停止した
連鎖状端子15の送り孔28 (29)に位置決めピン
43を挿通して送り方向と幅方向とにおいて接続端子2
3〜25を精密位置決めするとともに、位置決めピン4
3が突出した押え部44は連鎖状端子15の送り桟26
.27および接続端子23〜25の一部を案内レール3
1に弾性的に押えて接続端子23〜25の一部分を絶縁
基板11の電極37〜39上に押しつける。In FIGS. 1 and 2, the positioning device 42 provided in the connecting device 33 is lowered and the positioning pin 43 is inserted into the feed hole 28 (29) of the chained terminal 15, which is temporarily stopped as shown in FIG. connection terminal 2 in the feed direction and width direction.
3 to 25, and positioning pin 4.
The holding part 44 from which 3 protrudes is the feeding bar 26 of the chained terminal 15.
.. 27 and a part of the connection terminals 23 to 25 on the guide rail 3
1 to press a portion of the connection terminals 23 to 25 onto the electrodes 37 to 39 of the insulating substrate 11.

位置決め装置42の中央に貫通孔45が形成され、この
貫通孔45内にエネルギー供給装置としての加熱ポンチ
17が上下動自在に配され、加熱ポンチ17を第6図に
示すように降下して接続端子23〜25に対接させて接
続端子23〜25に熱エネルギーを与えることにより、
接続端子23〜25に予め付けた半田を溶かして接続端
子23〜25と絶縁基板11の電極37〜39とをそれ
ぞれ電気的、m械的に接続する。接続端子23〜250
表面には予め半田メツキ皮膜が形成されてあり、また接
続装置33に入る直前で接続端子23〜25の下面に半
田フラックスを塗布する。A through hole 45 is formed in the center of the positioning device 42, and a heating punch 17 as an energy supply device is arranged in the through hole 45 so as to be movable up and down, and the heating punch 17 is lowered and connected as shown in FIG. By applying thermal energy to the connecting terminals 23 to 25 in contact with the terminals 23 to 25,
Solder applied to the connection terminals 23 to 25 in advance is melted to electrically and mechanically connect the connection terminals 23 to 25 and the electrodes 37 to 39 of the insulating substrate 11, respectively. Connection terminal 23-250
A solder plating film is previously formed on the surface, and solder flux is applied to the lower surfaces of the connection terminals 23 to 25 immediately before entering the connection device 33.

エネルギー供給装置としては加熱ポンチ17の他に第1
0図Aに示すように溶接手段、同図Bに示すようにレー
ザ光線手段、赤外線手段が用いられる。溶接手段は貫通
孔45を通じて三組の溶接チップ46を接続端子23〜
25にそれぞれ当接するまで下降させて抵抗溶接をする
。この場合、接続端子23〜25と電極37〜39との
間に銀ロウなどの溶接部材を配置して溶接すると極めて
高い溶接強度が得られるので好ましい。In addition to the heating punch 17, a first energy supply device is used as an energy supply device.
As shown in Figure 0A, a welding means is used, and as shown in Figure B, a laser beam means and an infrared ray means are used. The welding means connects three sets of welding tips 46 to the connecting terminals 23 through through holes 45.
25, and perform resistance welding. In this case, it is preferable to arrange and weld a welding member such as silver solder between the connection terminals 23 to 25 and the electrodes 37 to 39 because extremely high welding strength can be obtained.

レーザ光線手段、赤外線手段は位置決め装置42の貫通
孔45を通じてレーザ光または赤外線47を接続端子2
3〜25に照射して接続端子23〜25と電極37〜3
9とをそれぞれ半田付けする。The laser beam means and the infrared ray means transmit a laser beam or infrared ray 47 to the connecting terminal 2 through the through hole 45 of the positioning device 42.
3 to 25 and connect terminals 23 to 25 and electrodes 37 to 3.
9 and solder each.

この場合、レーザ光、赤外線をあびてはならない所には
マスクをする。そのマスクは押え部44で兼ねさせるこ
とができる。In this case, wear a mask in areas that should not be exposed to laser light or infrared rays. The holding portion 44 can also serve as the mask.

熱エネルギーの供給時間は0.3秒〜6秒の範囲でなさ
れる。接続端子23〜25に電極37〜39を接続した
後は第7図に示すように熱エネルギーを供給する加熱ポ
ンチ17(溶接チップ46)を上昇させる。またはレー
ザ光や赤外線の照射を停止させる。接続端子23〜25
と電極37〜39との間の半田がかたまった後、第8図
に示すように位置決め装置42が上昇して位置決めピン
43は送り孔2 B (29)から脱出し、連鎖状端子
15の移送が可能となる0次に第9図に示すように基板
送給装置34が下降する。その後、間欠移送装置32は
連鎖状端子15を送り孔28.29の1ピツチだけ第1
図、第2図で右方向に移送させて一時停止させる。The heat energy is supplied for a period of 0.3 seconds to 6 seconds. After connecting the electrodes 37 to 39 to the connection terminals 23 to 25, the heating punch 17 (welding tip 46) for supplying thermal energy is raised as shown in FIG. Or stop irradiation of laser light or infrared rays. Connection terminals 23-25
After the solder between the electrodes 37 to 39 hardens, the positioning device 42 moves up as shown in FIG. As shown in FIG. 9, the substrate feeding device 34 is lowered to the zeroth order. Thereafter, the intermittent transfer device 32 moves the chain terminal 15 one pitch into the feed hole 28, 29 in the first position.
In FIG. 2, it is moved to the right and temporarily stopped.

これは前述の絶縁基板11を接続した接続端子23〜2
5の隣の一組の接続端子23〜25を接続装置33内に
移送したことになる。この工程を繰り返すことにより連
鎖状端子15の接続端子23〜25の各組に連続的に絶
縁基板11が順次接続される。この絶縁基板11が接続
された連鎖状端子15は、モータ48で駆動される巻き
取りリール49に巻き取られる。なお、第2図に示すよ
うに供給リール21から繰り出された連鎖状端子15に
ループ(たるみ)51をもたせた方が間欠送りや接続工
程がうまく動作する。This is the connecting terminal 23 to 2 to which the insulating substrate 11 mentioned above is connected.
This means that a set of connection terminals 23 to 25 next to 5 have been transferred into the connection device 33. By repeating this process, the insulating substrate 11 is successively connected to each set of connection terminals 23 to 25 of the chain terminal 15. The chained terminal 15 to which the insulating substrate 11 is connected is wound onto a take-up reel 49 driven by a motor 48. Incidentally, as shown in FIG. 2, the intermittent feeding and connection process will work better if the chained terminals 15 fed out from the supply reel 21 have a loop (sag) 51.

巻き取りリール49に巻装された絶縁基板11を接続し
た連鎖状端子15は第11図に示すようにモールド成形
様52.53中に間欠移送され、絶縁基板11の底面と
周辺をかこうケース54が合成樹脂にて一体に成形され
る。その後、送り桟26.27から接続端子23〜25
が切り離されてポテンショメータに使用される。なお、
成形桟52.53への送りは巻き取りリール49から繰
り出して行う場合に限らず、第1図の移送装置32から
送り出される連鎖状端子15を巻き取りリールに巻き取
ることなく成形桟52.53へ供給してもよい。The chained terminal 15 connected to the insulating substrate 11 wound around the take-up reel 49 is intermittently transferred into a molding case 52, 53 as shown in FIG. are integrally molded from synthetic resin. After that, from the feed bar 26.27 to the connection terminals 23 to 25
is separated and used as a potentiometer. In addition,
The feeding to the forming crosspiece 52.53 is not limited to the case where the terminals 15 are fed from the take-up reel 49, and the chained terminals 15 sent out from the transfer device 32 in FIG. It may be supplied to

「発明の効果」 以上述べたように、この発明の方法によると、供給リー
ルに巻装した連鎖状端子を繰り出して案内レールに沿っ
て間欠移送し、接続端子と電極とを位置決めして絶縁基
板と接続端子を当接させた状態で熱エネルギーを所定の
時間加えて順次絶縁基板を接続するので品質が一定した
接続が得られる。"Effects of the Invention" As described above, according to the method of the present invention, the chained terminals wound around the supply reel are fed out and transported intermittently along the guide rail, the connection terminals and the electrodes are positioned, and the insulated substrate Since the insulating substrates are successively connected by applying thermal energy for a predetermined period of time with the connecting terminals in contact with each other, a connection with constant quality can be obtained.

また、この発明の装置は供給リールに巻装した連鎖状端
子を繰り出し、これに絶縁基板を順次接続した後、巻き
取りリールに巻装するので、従来の連鎖状端子よりもは
るかに長いil鎮状端子に絶縁基板を、確実にしかも迅
速に一定品質で接続することができる。In addition, the device of the present invention unwinds the chained terminals wound around the supply reel, connects the insulating substrates to them one after another, and then winds them around the take-up reel. It is possible to reliably and quickly connect an insulating substrate to a shaped terminal with constant quality.

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

第1図はこの発明の装置の一例を示す平面図、第2図は
第1図の側面図、第3図はこの発明に使用される連鎖状
端子と絶縁基板の各側を示す平面図、第4図は基板送給
装置を接続端子に上昇させた状態の平面図および断面図
、第5図乃至第9図はエネルギー供給装置として加熱ポ
ンチを用いた場合の各接続工程を示す断面図、第10図
はエネルギー供給装置の他の例を示す部分断面図、第1
1図はtIA縁基板基板続された連鎖状端子の利用例を
示す図、第12図は従来の接続方法の各工程を示す図で
ある。FIG. 1 is a plan view showing an example of the device of this invention, FIG. 2 is a side view of FIG. 1, and FIG. 3 is a plan view showing each side of the chain terminal and insulating substrate used in this invention. FIG. 4 is a plan view and a sectional view of the board feeding device raised to the connection terminal, FIGS. 5 to 9 are sectional views showing each connection process when a heating punch is used as the energy supply device, FIG. 10 is a partial sectional view showing another example of the energy supply device, the first
FIG. 1 is a diagram showing an example of the use of chained terminals connected to a tIA edge substrate, and FIG. 12 is a diagram showing each step of a conventional connection method.

Claims (2)

【特許請求の範囲】[Claims] (1)送り桟に複数個を組として連鎖状に接続端子が支
持された連鎖状端子を供給リールから繰り出して移送し
、 その連鎖状端子を一時停止してその接続端子に絶縁基板
の一面上に形成した電極を当接させ、その電極が当接さ
れた接続端子に熱エネルギーを与えてその接続端子と電
極とを接続し、前記絶縁基板が接続された前記連鎖状端
子を巻き取りリールに巻き取ることを特徴とする連鎖状
端子に絶縁基板を接続する方法。(1) Unwind the chained terminals in which multiple connecting terminals are supported in a chain on the feeding rail from the supply reel, temporarily stop the chained terminals, and place the connecting terminals on one side of the insulating substrate. The electrodes formed on the insulating substrate are brought into contact with each other, and thermal energy is applied to the connecting terminal with which the electrode is brought into contact to connect the connecting terminal and the electrode, and the chained terminal to which the insulating substrate is connected is taken up and placed on a reel. A method of connecting an insulating substrate to a chained terminal characterized by winding. (2)複数個を組として接続端子を送り桟に連鎖状に支
持してなる連鎖状端子が巻きつけられた供給リールと、 その供給リールから繰り出された前記連鎖状端子を案内
する案内レールと、 前記連鎖状端子を間欠的に移送する移送装置と、 その間欠移送にもとづき一時停止した連鎖状端子の接続
端子に、電極が形成された絶縁基板を支持してその電極
を当接させる基板送給装置と、 前記間欠移送にもとづき一時停止した連鎖状端子の接続
端子の位置を位置決めする位置決め装置と、 前記電極が当接された接続端子に熱エネルギーを供給し
てその電極および接続端子を互いに接続するためのエネ
ルギー供給装置と、 前記絶縁基板が接続された連鎖状端子を巻き取る巻き取
りリールとからなる連鎖状端子に絶縁基板を接続する装
置。(2) A supply reel around which chained terminals are wound, each of which is formed by supporting a plurality of connecting terminals in a chain on a feed bar; and a guide rail that guides the chained terminals unwound from the supply reel. , a transfer device that intermittently transfers the chained terminals, and a substrate transport that supports an insulating substrate on which an electrode is formed and brings the electrode into contact with a connecting terminal of the chained terminal that is temporarily stopped based on the intermittent transfer. a positioning device for positioning the connection terminal of the chained terminals that have been temporarily stopped based on the intermittent transfer; A device for connecting an insulating substrate to a chain terminal, comprising: an energy supply device for connection; and a take-up reel for winding up the chain terminal to which the insulating substrate is connected.
JP1251575A 1989-09-27 1989-09-27 Method and device for connecting an insulating substrate to a chain terminal Expired - Fee Related JP2686832B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP1251575A JP2686832B2 (en) 1989-09-27 1989-09-27 Method and device for connecting an insulating substrate to a chain terminal

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP1251575A JP2686832B2 (en) 1989-09-27 1989-09-27 Method and device for connecting an insulating substrate to a chain terminal

Publications (2)

Publication Number Publication Date
JPH03114297A true JPH03114297A (en) 1991-05-15
JP2686832B2 JP2686832B2 (en) 1997-12-08

Family

ID=17224857

Family Applications (1)

Application Number Title Priority Date Filing Date
JP1251575A Expired - Fee Related JP2686832B2 (en) 1989-09-27 1989-09-27 Method and device for connecting an insulating substrate to a chain terminal

Country Status (1)

Country Link
JP (1) JP2686832B2 (en)

Also Published As

Publication number Publication date
JP2686832B2 (en) 1997-12-08

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