JPH0234452B2 - - Google Patents

Description

【発明の詳細な説明】 本発明は△型コンデンサの製造方法に関するも
のである。DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a method for manufacturing a Δ-type capacitor.

従来、雑音防止用としてフイルムコンデンサ等
を△状に結線したものが用いられているが、互い
に線材により溶接や半田付け等により接続する必
要があり、製造が困難な欠点があつた。 Conventionally, film capacitors or the like connected in a Δ-shape have been used for noise prevention, but they have to be connected to each other by welding, soldering, etc. using wire rods, which has the disadvantage that they are difficult to manufacture.

本発明は、以上の欠点を改良し、製造の容易な
△型コンデンサの製造方法の提供を目的とするも
のである。 The present invention aims to improve the above-mentioned drawbacks and provide a method for manufacturing a Δ-type capacitor that is easy to manufacture.

本発明は、上記の目的を達成するために、波状
部を有する第１線材に該波状部を挟持して第１コ
ンデンサ素子と第２コンデンサ素子の一端面を接
触する工程と、前記波状部の両端に電流を流して
前記第１線材を溶接する工程と、前記第１コンデ
ンサ素子と前記第２コンデンサ素子とに第３コン
デンサ素子を接触する工程と、前記第１コンデン
サ素子及び前記第３コンデンサ素子の一端面並び
に前記第２コンデンサ素子及び前記第３コンデン
サ素子の他端面に各々波状部を有する第２線材及
び第３線材の該波状部を接触する工程と、該第２
線材の波状部と該第３線材の波状部との間に電流
を流して前記第２線材及び前記第３線材を溶接す
る工程とを具備することを特徴とする△型コンデ
ンサの製造方法を提供するものである。 In order to achieve the above object, the present invention includes a step of sandwiching the wavy part between a first wire rod having a wavy part and bringing one end surface of a first capacitor element and a second capacitor element into contact with each other; a step of welding the first wire by passing a current through both ends; a step of bringing a third capacitor element into contact with the first capacitor element and the second capacitor element; and a step of contacting the first capacitor element and the third capacitor element. contacting the wavy portions of a second wire rod and a third wire rod having wavy portions on one end surface and the other end surfaces of the second capacitor element and the third capacitor element, respectively;
Provided is a method for manufacturing a Δ-type capacitor, comprising the step of welding the second wire and the third wire by passing a current between the wavy portion of the wire and the wavy portion of the third wire. It is something to do.

以下、本発明の実施例を図面に基づいて説明す
る。 Embodiments of the present invention will be described below based on the drawings.

第１図に示す通り、先ず、平行に配列している
第１線材１、第２線材２及び第３線材３を、先端
に互い違いに突起の設けられた上下のフオーミン
グブロツク４ａ及び４ｂにより挟持して、一部を
波状に成形する。次に、両端面にメタリコンが設
けられた第１コンデンサ素子５及び第２コンデン
サ素子６とを各々ベルト７及び８により搬送し、
末端で加圧プレツシヤーにより第１線材１に向つ
て送り、第１線材１に第１コンデンサ素子５及び
第２コンデンサ素子６の一端面を接触させる。そ
して第１線材１の波状部９の両端に溶接用電極１
０ａ及び１０ｂを接触し電流を流すことによつ
て、第１線材１を第１コンデンサ素子５及び第２
コンデンサ素子６の端面に溶接する。 As shown in FIG. 1, first, a first wire 1, a second wire 2, and a third wire 3, which are arranged in parallel, are held between upper and lower forming blocks 4a and 4b, which have projections alternately provided at their tips. Then, shape a part into a wavy shape. Next, the first capacitor element 5 and the second capacitor element 6, each of which has metallic contacts on both end surfaces, are conveyed by belts 7 and 8, respectively.
The ends are fed toward the first wire 1 by a pressurizer, and one end surfaces of the first capacitor element 5 and the second capacitor element 6 are brought into contact with the first wire 1. Welding electrodes 1 are attached to both ends of the wavy portion 9 of the first wire 1.
By contacting 0a and 10b and passing a current, the first wire 1 is connected to the first capacitor element 5 and the second capacitor element 5.
It is welded to the end face of the capacitor element 6.

次に、ベルト１１により搬送され加圧プツシヤ
ーにより素子搬送ブロツク１２に送られ収納され
た第３コンデンサ素子１３を、この素子搬送ブロ
ツク１２を移動させて第１コンデンサ素子５及び
第２コンデンサ素子６の下周側面に接触させる。
この工程後、第１コンデンサ素子５と第３コンデ
ンサ素子１３の一端面には第２線材２の波状部１
４を、そして第２コンデンサ素子６と第３コンデ
ンサ素子１３の他端面には第３線材３の波状部１
５を接触する。各波状部１４及び１５を接触後、
各々溶接用電極１６及び１７を押圧し、電流を流
して各線材２及び３を溶接し、第１コンデンサ素
子５と第３コンデンサ素子１３及び第２コンデン
サ素子６と第３コンデンサ素子１３とを接続す
る。その後、第１線材１、第２線材２及び第３線
材３を、例えば、スライザーデイスクやスライサ
ーブロツクを利用して任意の位置で切断する。こ
れにより第２図に示す通り、大きい第３コンデン
サ素子１３の上に第１コンデンサ素子５と第２コ
ンデンサ素子６が載り、第１コンデンサ素子５と
第２コンデンサ素子６とは第１線材１の波状部９
により互いに接続され、第１コンデンサ素子５と
第３コンデンサ素子１３とは第２線材２の波状部
１４により接続され、そして第２コンデンサ素子
６と第３コンデンサ素子１３とは第３線材３の波
状部１５により接続される。すなわち、第１コン
デンサ素子５と、第２コンデンサ素子６及び第３
コンデンサ素子１３は第１線材１、第２線材２及
び第３線材３により△型に接続される。 Next, the third capacitor element 13, which has been conveyed by the belt 11 and sent to and housed in the element conveyance block 12 by the pressure pusher, is moved to the element conveyance block 12 to separate the first capacitor element 5 and the second capacitor element 6. Make contact with the lower side surface.
After this step, the wavy portion 1 of the second wire 2 is formed on one end surface of the first capacitor element 5 and the third capacitor element 13.
4, and the wavy portion 1 of the third wire 3 is attached to the other end surfaces of the second capacitor element 6 and the third capacitor element 13.
Touch 5. After contacting each corrugated portion 14 and 15,
Press the welding electrodes 16 and 17, apply current to weld the wires 2 and 3, and connect the first capacitor element 5 and the third capacitor element 13, and the second capacitor element 6 and the third capacitor element 13. do. Thereafter, the first wire 1, the second wire 2, and the third wire 3 are cut at arbitrary positions using, for example, a slicer disk or a slicer block. As a result, as shown in FIG. 2, the first capacitor element 5 and the second capacitor element 6 are placed on the large third capacitor element 13. Wavy part 9
The first capacitor element 5 and the third capacitor element 13 are connected to each other by the wavy part 14 of the second wire 2, and the second capacitor element 6 and the third capacitor element 13 are connected to each other by the wavy part 14 of the third wire 3. It is connected by the section 15. That is, the first capacitor element 5, the second capacitor element 6 and the third capacitor element
The capacitor element 13 is connected by a first wire 1, a second wire 2, and a third wire 3 in a △ shape.

すなわち、本発明によれば、１回目の溶接工程
により、第１コンデンサ素子５と第２コンデンサ
素子６と第１線材１とを溶接でき、２回目の溶接
工程により、第１コンデンサ素子５と第３コンデ
ンサ素子１３と第２線材２及び第２コンデンサ素
子６と第３コンデンサ素子１３と第３線材３を接
続でき、接続工程が簡略化される。 That is, according to the present invention, the first capacitor element 5, the second capacitor element 6, and the first wire 1 can be welded together in the first welding process, and the first capacitor element 5 and the first wire rod 1 can be welded together in the second welding process. Three capacitor elements 13 and the second wire 2 and the second capacitor element 6, the third capacitor element 13 and the third wire 3 can be connected, and the connection process is simplified.

以上の通り、本発明によれば、線材とコンデン
サ素子等との接続が簡略化され、製造の容易な△
型コンデンサの製造方法が得られる。 As described above, according to the present invention, the connection between the wire and the capacitor element etc. is simplified, and the manufacturing is easy.
A method for manufacturing a type capacitor is obtained.

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

第１図は本発明の実施例に用いられる装置の概
略図、第２図は本発明の実施例により製造した△
型コンデンサの斜視図を示す。 １……第１線材、２……第２線材、３……第３
線材、５……第１コンデンサ素子、６……第２コ
ンデンサ素子、９，１４，１５……波状部、１３
……第３コンデンサ素子。 FIG. 1 is a schematic diagram of an apparatus used in an embodiment of the present invention, and FIG. 2 is a schematic diagram of a device manufactured according to an embodiment of the present invention.
1 shows a perspective view of a type capacitor. 1...First wire rod, 2...Second wire rod, 3...Third wire rod
Wire rod, 5... First capacitor element, 6... Second capacitor element, 9, 14, 15... Wavy portion, 13
...Third capacitor element.

Claims (1)

【特許請求の範囲】[Claims] １ 両端面にメタリコンが設けられた複数個のコ
ンデンサ素子を△状に結線した△型コンデンサの
製造方法において、波状部を有する第１線材に該
波状部を挟持して第１コンデンサ素子と第２コン
デンサ素子の一端面を接触する工程と、前記波状
部の両端に電流を流して前記第１線材を溶接する
工程と、前記第１コンデンサ素子と前記第２コン
デンサ素子とに第３コンデンサ素子を接触する工
程と、前記第１コンデンサ素子及び前記第３コン
デンサの一端面並びに前記第２コンデンサ素子及
び前記第３コンデンサ素子の他端面に各々波状部
を有する第２線材及び第３線材の該波状部を接触
する工程と、該第２線材の波状部と該第３線材の
波状部との間に電流を流して前記第２線材及び前
記第３線材を溶接する工程とを具備することを特
徴とする△型コンデンサの製造方法。1. In a method for manufacturing a △-type capacitor in which a plurality of capacitor elements each having a metallic contact on both end faces are connected in a △ shape, the wavy portion is sandwiched between a first wire having a wavy portion, and the first capacitor element and the second capacitor element are connected together. a step of contacting one end surface of a capacitor element; a step of welding the first wire by passing a current through both ends of the wavy portion; and a step of contacting a third capacitor element with the first capacitor element and the second capacitor element. a second wire rod and a third wire rod each having a corrugated portion on one end surface of the first capacitor element and the third capacitor element and on the other end surface of the second capacitor element and the third capacitor element. and a step of welding the second wire and the third wire by passing an electric current between the wavy portion of the second wire and the wavy portion of the third wire. △ type capacitor manufacturing method.