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JP2002026592A - Mounting device and mounting method for electronic part - Google Patents

Mounting device and mounting method for electronic part

Info

Publication number
JP2002026592A
JP2002026592A JP2000209427A JP2000209427A JP2002026592A JP 2002026592 A JP2002026592 A JP 2002026592A JP 2000209427 A JP2000209427 A JP 2000209427A JP 2000209427 A JP2000209427 A JP 2000209427A JP 2002026592 A JP2002026592 A JP 2002026592A
Authority
JP
Japan
Prior art keywords
electronic component
component
transfer head
electronic
electronic components
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
JP2000209427A
Other languages
Japanese (ja)
Other versions
JP3888042B2 (en
Inventor
Hiroyuki Sakaguchi
博幸 坂口
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.)
Panasonic Holdings Corp
Original Assignee
Matsushita Electric Industrial 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 Matsushita Electric Industrial Co Ltd filed Critical Matsushita Electric Industrial Co Ltd
Priority to JP2000209427A priority Critical patent/JP3888042B2/en
Publication of JP2002026592A publication Critical patent/JP2002026592A/en
Application granted granted Critical
Publication of JP3888042B2 publication Critical patent/JP3888042B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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Abstract

PROBLEM TO BE SOLVED: To provide a mounting device and mounting method for electronic parts capable of enlarging an application scope of a concurrent transfer of a plurality of parts to enhance mounting efficiency. SOLUTION: In a mounting method for electronic parts for concurrently picking up electronic parts P1, P2 by a transfer head provided with a plurality of nozzles 6b from a supply part of electronic parts to transfer them to a substrate, a pitch difference ΔP between a nozzle pitch Pn and a part pitch Pp is weighted based on allowable offset values d1, d2 indicating a position slippage amount allowable for each electronic part and is distributed to ΔP1, ΔP2, and then the transfer head is positioned. Thus, the pitch difference can rationally be distributed based on the allowable offset value of each part, and an application scope of a concurrent transfer of a plurality of parts can be enlarged.

Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【発明の属する技術分野】本発明は、電子部品を基板に
実装する電子部品の実装装置および実装方法に関するも
のである。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electronic component mounting apparatus and method for mounting electronic components on a substrate.

【0002】[0002]

【従来の技術】電子部品の実装装置においては、電子部
品をテーピング状態で収納するテープフィーダや電子部
品を平面上に多数格納したトレイなどが配列された電子
部品の供給部から移載ヘッドによって電子部品をピック
アップし、基板へ移送搭載する。近年実装効率の向上の
要請から、移載ヘッドに吸着ノズルなどの部品保持部を
複数備え、移載ヘッドが供給部と基板との間を1往復す
る1実装ターン動作において複数の電子部品を同時に移
送する方法が用いられるようになっている。この方法に
おいては、供給部における電子部品の配列ピッチ(以
下、「部品ピッチ」と略称)と移載ヘッドのノズルなど
の部品保持部の配列ピッチ(以下、「ノズルピッチ」と
略称)が一致している必要がある。
2. Description of the Related Art In an electronic component mounting apparatus, a transfer head is used to transfer electronic components from an electronic component supply unit in which a tape feeder for storing the electronic components in a taped state and a tray in which a large number of electronic components are stored on a plane are arranged. The components are picked up and transferred to the board. In recent years, due to a demand for improvement of mounting efficiency, a transfer head is provided with a plurality of component holding units such as suction nozzles, and a plurality of electronic components are simultaneously mounted in one mounting turn operation in which the transfer head makes one reciprocation between a supply unit and a substrate. Transport methods have been used. In this method, the arrangement pitch of the electronic components in the supply unit (hereinafter abbreviated as “component pitch”) and the arrangement pitch of the component holding units such as the nozzles of the transfer head (hereinafter abbreviated as “nozzle pitch”) match. Need to be.

【0003】しかしながら多種類の電子部品を実装対象
とする汎用型の実装装置では、必ずしもこれらの部品ピ
ッチとノズルピッチは完全には一致しない場合が多いた
め、ピックアップ動作に支障を来さない程度の多少のピ
ッチの相違は許容範囲とみなし、ノズルと電子部品とを
完全に位置あわせしない状態でピックアップする場合が
ある。そしてこの場合には、従来はピッチ差を無視して
1つの電子部品を基準にして移載ヘッドを位置あわせし
たり、ピッチ差を各電子部品に等分に振り分けて位置を
補正した上で移載ヘッドによるピックアップを行うなど
の方法が用いられていた。
However, in a general-purpose mounting apparatus for mounting various types of electronic components, the component pitch and the nozzle pitch often do not always completely match, so that the pickup operation is not hindered. A slight difference in pitch may be regarded as an allowable range, and the nozzle and the electronic component may be picked up without being completely aligned. In this case, conventionally, the transfer head is aligned with respect to one electronic component ignoring the pitch difference, or the position is corrected after equally distributing the pitch difference to each electronic component to correct the position. A method of performing pickup by a mounting head has been used.

【0004】[0004]

【発明が解決しようとする課題】しかしながら上記従来
の方法では、以下に説明するような不都合が発生してい
た。すなわち同時移送される電子部品は必ずしも同一種
類であるとは限らず、異なる種類の電子部品を並列状態
でピックアップする場合がある。そして電子部品の種類
が異なる場合には、ピックアップ動作時に許容されるピ
ッチ差の値も異なる。このため、前述のように一方の電
子部品を基準として位置あわせした場合には、他方の電
子部品に全てピッチ差が振り分けられる結果、許容値以
上のピッチ差となってピックアップが不安定となり、ま
たピッチ差を等分に振り分けた場合には、許容値が厳し
い方の電子部品のピックアップが不安定となっていた。
このように従来は、ピッチ差に起因して複数部品同時移
送を断念せざるを得ない場合が多く、適用範囲が限定さ
れていた。
However, the above-described conventional method has the following disadvantages. That is, the electronic components that are simultaneously transferred are not necessarily the same type, and electronic components of different types may be picked up in a parallel state. If the type of electronic component is different, the value of the pitch difference allowed during the pickup operation is also different. For this reason, when the positioning is performed with one electronic component as a reference as described above, the pitch difference is allotted to the other electronic component. When the pitch difference is equally divided, the pickup of the electronic component having the stricter tolerance is unstable.
As described above, heretofore, in many cases, the simultaneous transfer of a plurality of parts has to be abandoned due to the pitch difference in many cases, and the application range is limited.

【0005】そこで本発明は、複数部品同時移送の適用
範囲を拡大し実装効率を向上させることができる電子部
品の実装装置および実装方法を提供することを目的とす
る。
SUMMARY OF THE INVENTION It is an object of the present invention to provide an electronic component mounting apparatus and a mounting method capable of expanding the applicable range of simultaneous transfer of a plurality of components and improving mounting efficiency.

【0006】[0006]

【課題を解決するための手段】請求項1記載の電子部品
の実装装置は、電子部品の供給部から移載ヘッドの部品
保持部によって電子部品をピックアップして保持し基板
に実装する電子部品の実装装置であって、複数の電子部
品を並置状態で前記移載ヘッドのピックアップ位置に供
給する供給部と、電子部品を保持する部品保持部を複数
備え前記供給部から複数の電子部品を同時にピックアッ
プして保持する移載ヘッドと、前記ピックアップ位置に
おける電子部品の配列ピッチのデータと前記部品保持部
の配列ピッチのデータを示すピッチデータを記憶するピ
ッチ記憶部と、前記部品保持部によるピックアップ動作
における部品保持部と電子部品との許容位置ずれ量を示
す許容オフセットデータを各電子部品ごとに記憶するオ
フセットデータ記憶部と、前記ピッチデータと許容オフ
セットデータに基づいて電子部品ピックアップ時の移載
ヘッドの位置を制御する制御手段とを備えた。
According to a first aspect of the present invention, there is provided an electronic component mounting apparatus for picking up and holding an electronic component from an electronic component supply unit by a component holding unit of a transfer head, and mounting the electronic component on a substrate. A mounting apparatus, comprising: a supply unit that supplies a plurality of electronic components in a juxtaposed state to a pickup position of the transfer head; and a plurality of component holding units that hold the electronic components, and a plurality of electronic components are simultaneously picked up from the supply unit. A transfer head for holding the electronic component at the pickup position, a pitch storage unit for storing pitch data indicating data of an arrangement pitch of the electronic components at the pickup position, and data of an arrangement pitch of the component holding unit, and a pick-up operation performed by the component holding unit. Offset data recording that stores permissible offset data indicating the permissible displacement between the component holder and the electronic component for each electronic component. And parts, and control means for controlling the position of the transfer head when the electronic component pick-up on the basis of the allowable offset data and the pitch data.

【0007】請求項2記載の電子部品の実装方法は、電
子部品の供給部から移載ヘッドの部品保持部によって電
子部品をピックアップして保持し基板に実装する電子部
品の実装方法であって、前記供給部において複数の電子
部品を並置状態で前記移載ヘッドのピックアップ位置に
供給する工程と、複数の部品保持部を備えた移載ヘッド
によって前記供給部のピックアップ位置から複数の電子
部品を同時にピックアップして保持する工程と、移載ヘ
ッドを移動させて複数の電子部品を基板に移載する工程
とを含み、前記部品保持部による電子部品のピックアッ
プ動作において、前記ピックアップ位置における電子部
品の配列ピッチおよび移載ヘッドにおける部品保持部の
配列ピッチのデータと、部品保持部と電子部品との許容
位置ずれ量を示す許容オフセットデータとに基づいて電
子部品ピックアップ時の移載ヘッドの位置を制御するよ
うにした。
According to a second aspect of the present invention, there is provided a method of mounting an electronic component, wherein the electronic component is picked up from a supply section of the electronic component by a component holding section of a transfer head, held, and mounted on a substrate. A step of supplying a plurality of electronic components to the pickup position of the transfer head in a side-by-side state in the supply unit; and a step of simultaneously transferring the plurality of electronic components from the pickup position of the supply unit by a transfer head including a plurality of component holding units. Picking up and holding, and moving a transfer head to transfer a plurality of electronic components to a substrate, wherein in the pick-up operation of the electronic components by the component holding unit, the arrangement of the electronic components at the pickup position The data of the pitch and the arrangement pitch of the component holding units in the transfer head, and the allowable displacement between the component holding unit and the electronic component are shown. And to control the position of the transfer head when the electronic component pick-up on the basis of the volume offset data.

【0008】本発明によれば、部品保持部による電子部
品のピックアップ動作において、ピックアップ位置にお
ける電子部品の配列ピッチおよび移載ヘッドにおける部
品保持部の配列ピッチのデータと、部品保持部と電子部
品との許容位置ずれ量を示す許容オフセットデータとに
基づいて電子部品ピックアップ時の移載ヘッドの位置を
制御することにより、ピッチ差を各部品の許容オフセッ
ト値に基づいて合理的に配分することができ、複数部品
同時移送の適用範囲を拡大することができる。
According to the present invention, in the pick-up operation of the electronic component by the component holding unit, data of the arrangement pitch of the electronic component at the pickup position and the arrangement pitch of the component holding unit in the transfer head, the component holding unit and the electronic component, The pitch difference can be rationally distributed based on the allowable offset value of each component by controlling the position of the transfer head at the time of picking up the electronic component based on the allowable offset data indicating the allowable displacement of the component. Thus, the applicable range of simultaneous transfer of a plurality of parts can be expanded.

【0009】[0009]

【発明の実施の形態】次に本発明の実施の形態を図面を
参照して説明する。図1は本発明の一実施の形態の電子
部品の実装装置の平面図、図2は本発明の一実施の形態
の電子部品の実装装置の部分断面図、図3は本発明の一
実施の形態の電子部品の実装装置の制御系の構成を示す
ブロック図、図4は本発明の一実施の形態の電子部品実
装方法のピックアップ動作の説明図である。
Embodiments of the present invention will now be described with reference to the drawings. FIG. 1 is a plan view of an electronic component mounting apparatus according to one embodiment of the present invention, FIG. 2 is a partial cross-sectional view of an electronic component mounting apparatus according to one embodiment of the present invention, and FIG. FIG. 4 is a block diagram showing a configuration of a control system of the electronic component mounting apparatus according to the embodiment, and FIG. 4 is an explanatory diagram of a pickup operation of the electronic component mounting method according to one embodiment of the present invention.

【0010】まず図1を参照して電子部品実装装置の構
造について説明する。図1において基台1の中央には、
搬送路2が配設されている。搬送路2は基板3を搬送
し、電子部品実装位置にて基板3を位置決めする。搬送
路2の両側には、電子部品の供給部4が設けられてい
る。供給部4にはテープフィーダ5が多数台並設されて
いる。テープフィーダ5は電子部品をピックアップ位置
5aまで供給する。すなわち、供給部4においては、複
数の電子部品が並置状態で移載ヘッドのピックアップ位
置に供給される。
First, the structure of the electronic component mounting apparatus will be described with reference to FIG. In the center of the base 1 in FIG.
A transport path 2 is provided. The transport path 2 transports the substrate 3 and positions the substrate 3 at the electronic component mounting position. On both sides of the transport path 2, supply units 4 for electronic components are provided. A large number of tape feeders 5 are arranged in the supply section 4. The tape feeder 5 supplies the electronic component to the pickup position 5a. That is, in the supply unit 4, a plurality of electronic components are supplied to the pickup position of the transfer head in a juxtaposed state.

【0011】基台1の上面の両側端には、Y軸テーブル
8A、8Bが並列に配設されており、Y軸テーブル8
A、8Bには、X軸テーブル7が架設されている。X軸
テーブル7には移載ヘッド6が装着されており、X軸テ
ーブル7およびY軸テーブル8A,8Bを駆動すること
により移載ヘッド6は水平移動し、テープフィーダ5の
ピックアップ位置5aからチップをピックアップし、基
板3上に実装する。このピックアップから実装までの動
作途中において、移載ヘッド6のノズルに保持されたチ
ップは、カメラ9によって下方から撮像され、移載ヘッ
ド6のノズルに対する位置ずれ量が検出される。
On both side ends of the upper surface of the base 1, Y-axis tables 8A and 8B are arranged in parallel.
An X-axis table 7 is installed on A and 8B. A transfer head 6 is mounted on the X-axis table 7, and by driving the X-axis table 7 and the Y-axis tables 8A and 8B, the transfer head 6 moves horizontally, and the chip moves from the pickup position 5a of the tape feeder 5 to the chip. Is picked up and mounted on the substrate 3. During the operation from the pickup to the mounting, the chip held by the nozzles of the transfer head 6 is imaged from below by the camera 9, and the amount of displacement of the transfer head 6 with respect to the nozzles is detected.

【0012】図2に示すように、移載ヘッド6は複数
(本実施の形態では2個)の単位移載ヘッド6aを備え
たマルチタイプの移載ヘッドである。各単位移載ヘッド
6aのノズル6bは、電子部品を吸着して保持する。し
たがって、単位移載ヘッド6aのノズル6bは部品保持
部となっており、移載ヘッド6は供給部4から複数の電
子部品を同時にピックアップして保持する。
As shown in FIG. 2, the transfer head 6 is a multi-type transfer head provided with a plurality (two in this embodiment) of unit transfer heads 6a. The nozzle 6b of each unit transfer head 6a sucks and holds an electronic component. Therefore, the nozzle 6b of the unit transfer head 6a serves as a component holding unit, and the transfer head 6 picks up and holds a plurality of electronic components from the supply unit 4 at the same time.

【0013】ここで単位移載ヘッド6aのノズル6bの
配列ピッチPnは、テープフィーダ5の配列ピッチPp
とは一致しておらず、移載ヘッド6によって複数の電子
部品をピックアップする場合には、移載ヘッド6のノズ
ル6bと電子部品との間には位置ずれが生じる。
Here, the arrangement pitch Pn of the nozzles 6b of the unit transfer head 6a is equal to the arrangement pitch Pp of the tape feeder 5.
When the transfer head 6 picks up a plurality of electronic components, a displacement occurs between the nozzle 6b of the transfer head 6 and the electronic components.

【0014】次に図3を参照して制御系について説明す
る。図3において、CPU10は全体制御部であり、プ
ログラム記憶部11に記憶された各種のプログラムに従
って以下に説明する各部の動作制御や演算を行う。プロ
グラム記憶部11は各種動作や処理に必要なプログラム
を記憶する。データ記憶部12は、実装対象の基板3上
に実装されるチップの種類や実装座標データなどの実装
データを記憶するほか、ピッチ記憶部12aとオフセッ
トデータ記憶部12bとを備えている。ピッチ記憶部1
2aは、ピックアップ位置における電子部品の配列ピッ
チのデータと移載ヘッド6における各単位移載ヘッド6
aのノズル6bの配列ピッチのデータを示すピッチデー
タを記憶する。オフセットデータ記憶部12bは、単位
移載ヘッド6aのノズル6bによるピックアップ動作に
おけるノズル6bと電子部品との許容位置ずれ量を示す
許容オフセットデータを各電子部品ごとに記憶する。
Next, the control system will be described with reference to FIG. In FIG. 3, a CPU 10 is an overall control unit, and performs operation control and calculation of each unit described below according to various programs stored in a program storage unit 11. The program storage unit 11 stores programs necessary for various operations and processes. The data storage unit 12 stores mounting data such as the type of chip mounted on the substrate 3 to be mounted and mounting coordinate data, and also includes a pitch storage unit 12a and an offset data storage unit 12b. Pitch storage unit 1
2a is the data of the arrangement pitch of the electronic components at the pickup position and each unit transfer head 6 in the transfer head 6.
The pitch data indicating the data of the arrangement pitch of the nozzles 6b is stored. The offset data storage unit 12b stores, for each electronic component, allowable offset data indicating an allowable displacement between the nozzle 6b and the electronic component in the pickup operation by the nozzle 6b of the unit transfer head 6a.

【0015】モータ駆動部13は、X軸テーブル7、Y
軸テーブル8Aおよび移載ヘッド6の上下動テーブル
(図示せず)に備えられたX軸モータ16、Y軸モータ
17およびZ軸モータ18を駆動する。画像認識部14
はカメラ9によって撮像された画像データを画像処理す
ることにより、移載ヘッド6のノズル6bに保持された
状態の電子部品の位置を検出し、ノズル6bに対する電
子部品の相対的な位置ずれ量を求める。
The motor drive unit 13 includes the X-axis table 7,
The X-axis motor 16, the Y-axis motor 17, and the Z-axis motor 18 provided on the axis table 8A and the vertical movement table (not shown) of the transfer head 6 are driven. Image recognition unit 14
Detects the position of the electronic component held by the nozzle 6b of the transfer head 6 by performing image processing on the image data captured by the camera 9, and determines the relative displacement of the electronic component with respect to the nozzle 6b. Ask.

【0016】補正量算出部15は、ピッチ記憶部12a
とオフセットデータ記憶部12bに記憶されたピッチデ
ータ、オフセットデータに基づいて、ノズルピッチと部
品ピッチとの差によって発生する位置ずれを、各電子部
品に適正に振り分けるための位置合わせ補正量を算出す
る。電子部品のピックアップ時においては、CPU10
はこの位置合わせ補正量に基づいて移載ヘッドの位置合
わせを行う。すなわち補正量算出部15およびCPU1
0は、ピッチデータと許容オフセットデータに基づいて
電子部品ピックアップ時の移載ヘッドの位置を制御する
制御手段となっている。
The correction amount calculating section 15 includes a pitch storing section 12a.
Based on the pitch data and the offset data stored in the offset data storage unit 12b and the offset data, an alignment correction amount for appropriately distributing the positional deviation caused by the difference between the nozzle pitch and the component pitch to each electronic component is calculated. . When picking up electronic components, the CPU 10
Performs the positioning of the transfer head based on the positioning correction amount. That is, the correction amount calculation unit 15 and the CPU 1
Numeral 0 is control means for controlling the position of the transfer head at the time of picking up the electronic component based on the pitch data and the allowable offset data.

【0017】この電子部品の実装装置は上記の様に構成
されており、以下動作について各図を参照して説明す
る。図1において、供給部4には異なる2種類の電子部
品P1,P2を供給するテープフィーダ5が隣接して配
置されており、電子部品P1,P2はピックアップ位置
5aに並置状態で供給されている(図4参照)。この
後、実装動作シーケンスに従って実装動作が開始され
る。実装動作開始後には、これらの電子部品P1,P2
は移載ヘッド6の2つのノズル6bによって同時にピッ
クアップされ、基板3へ移送される。
The electronic component mounting apparatus is configured as described above, and the operation will be described below with reference to the drawings. In FIG. 1, a tape feeder 5 that supplies two different types of electronic components P1 and P2 is arranged adjacent to a supply unit 4, and the electronic components P1 and P2 are supplied in a side-by-side state at a pickup position 5a. (See FIG. 4). Thereafter, the mounting operation is started according to the mounting operation sequence. After the mounting operation starts, these electronic components P1, P2
Are simultaneously picked up by the two nozzles 6 b of the transfer head 6 and transferred to the substrate 3.

【0018】このピックアップ動作に先立って、補正量
算出部15によって位置合わせ補正量が算出される。す
なわち、ピッチ記憶部12aおよびオフセットデータ記
憶部12bからピッチデータおよびオフセットデータを
読み込み、以下に示す方法で位置合わせ補正量を算出し
た上で、ピックアップ動作が行われる。
Prior to the pickup operation, the correction amount calculating section 15 calculates a position correction amount. That is, the pitch data and the offset data are read from the pitch storage unit 12a and the offset data storage unit 12b, the position correction amount is calculated by the following method, and then the pickup operation is performed.

【0019】この位置合わせ補正について、図4を参照
して説明する。図4は、並置された相隣接する2つの異
なる電子部品P1,P2を、2つの単位移載ヘッド6a
のノズル6bによって同時にピックアップする状態を示
している。図4(a)は、1つのノズル6bを電子部品
P1に位置合わせした状態を示しており、部品ピッチP
pとノズルピッチPnとの間には、ピッチ差ΔP(|P
p−Pn|)が存在している。
This alignment correction will be described with reference to FIG. FIG. 4 shows two different electronic components P1 and P2 which are arranged next to each other and which are connected to two unit transfer heads 6a.
3 shows a state in which pickup is performed simultaneously by the nozzle 6b. FIG. 4A shows a state in which one nozzle 6b is aligned with the electronic component P1, and the component pitch P
p and the nozzle pitch Pn, the pitch difference ΔP (| P
p-Pn |).

【0020】このようなピッチ差ΔPが存在する場合に
おける移載ヘッド6と各電子部品P1,P2との位置合
わせについて説明する。図4(b)は、ピッチ差ΔPを
2つの位置ずれ量ΔP1,ΔP2に振り分けた状態を示
しており、ここでは振り分けの基準として許容位置ずれ
量を示す許容オフセット値に基づいて重み付け係数を求
め、ピッチ差にこの重み付け係数を乗じて振り分け量を
求める。すなわち、ピッチ差|Pp−Pn|を分割して
2つの電子部品に振り分ける際に、位置ずれが許容され
る程度が大きい種類の電子部品にはその分だけ多くピッ
チ差を振り分けるものである。
The positioning of the transfer head 6 and the electronic components P1 and P2 when such a pitch difference ΔP exists will be described. FIG. 4B shows a state in which the pitch difference ΔP is divided into two positional deviation amounts ΔP1 and ΔP2. Here, a weighting coefficient is calculated based on an allowable offset value indicating an allowable positional deviation amount as a reference for distribution. , The pitch difference is multiplied by this weighting coefficient to determine the distribution amount. That is, when the pitch difference | Pp-Pn | is divided and assigned to two electronic components, the pitch difference is assigned to the electronic components of a type in which the positional deviation is allowed to be large to that extent.

【0021】次にここで用いられる重み付け係数の計算
例を示す。各電子部品P1,P2についての許容オフセ
ット値をd1,d2とすれば、電子部品P1,P2につ
いての重み付け係数n1,n2は、それぞれd1/(d
1+d2)、d2/(d1+d2)で表される。そし
て、これらの重み付け係数をピッチ差に乗じた量が、そ
れぞれの電子部品に振り分けられる位置ずれ量ΔP1,
ΔP2に相当する。もちろん、このようにして求められ
た位置ずれ量ΔP1,ΔP2が、それぞれの許容オフセ
ット値d1,d2よりも小さいことが、同時ピックアッ
プが可能となる条件である。
Next, a calculation example of the weighting coefficient used here will be described. Assuming that the allowable offset values for the electronic components P1 and P2 are d1 and d2, the weighting factors n1 and n2 for the electronic components P1 and P2 are d1 / (d
1 + d2) and d2 / (d1 + d2). The amount obtained by multiplying these weighting factors by the pitch difference is used as the positional deviation amount ΔP1,
It corresponds to ΔP2. Of course, the condition that the simultaneous pickup is possible is that the displacement amounts ΔP1 and ΔP2 obtained in this way are smaller than the respective allowable offset values d1 and d2.

【0022】そしてこれらの電子部品P1,P2をピッ
クアップする際には、各ノズル6bと電子部品P1,P
2との位置ずれが、求められた位置ずれ量ΔP1,ΔP
2となるように、CPU10によってX軸テーブル7お
よびY軸テーブル8A,8Bを制御する。
When picking up these electronic components P1 and P2, each nozzle 6b and electronic components P1 and P2 are picked up.
2 is the calculated positional deviation amount ΔP1, ΔP
The X-axis table 7 and the Y-axis tables 8A and 8B are controlled by the CPU 10 so as to be 2.

【0023】すなわち、上記方法によればノズル6bと
電子部品のピッチ差が各電子部品の許容位置ずれ量を超
えてピックアップ時の不具合が発生する確率を最小に抑
えることができ、言い換えれば複数部品の同時移送適用
範囲を拡大することができる。なお本実施の形態では、
供給部4に並列に配置されたテープフィーダ5から並置
状態の電子部品をピックアップする例を示しているが、
供給部の形態はこれに限定されず、複数部品が並置状態
で供給される形態であればよい。
That is, according to the above-described method, the probability that the pitch difference between the nozzle 6b and the electronic component exceeds the allowable positional deviation amount of each electronic component and the occurrence of a malfunction at the time of pickup can be minimized. Can be applied simultaneously. In the present embodiment,
Although an example in which electronic components in a juxtaposed state are picked up from a tape feeder 5 arranged in parallel with the supply unit 4 is shown,
The form of the supply unit is not limited to this, and any form may be used as long as a plurality of parts are supplied in a juxtaposed state.

【0024】また、上記実施の形態では部品ピッチPp
を一定として扱っているが、現実には同一種類のテープ
フィーダを並列配置した場合にあっても、それぞれのテ
ープフィーダの固有の器差によって図面上の配列ピッチ
と、実際のピックアップ位置との間には誤差が発生す
る。そしてこの誤差は同一のテープフィーダについては
固有値として扱えることから、各テープフィーダごとに
この固有の位置ずれ量を記憶させておき、移載ヘッド6
の位置合わせに際してこの位置ずれ量を加味した位置補
正を行うようにすれば、さらに高精度の位置合わせが可
能となりピックアップ時の不具合をさらに減少させるこ
とができる。
In the above embodiment, the component pitch Pp
However, in reality, even when tape feeders of the same type are arranged in parallel, there is a gap between the arrangement pitch on the drawing and the actual pickup position due to the unique instrumental difference of each tape feeder. Causes an error. Since this error can be handled as a unique value for the same tape feeder, this unique positional deviation amount is stored for each tape feeder, and the transfer head 6
If the position correction taking into account the amount of positional deviation is performed at the time of the position adjustment, the position adjustment can be performed with higher accuracy, and the trouble at the time of pickup can be further reduced.

【0025】さらに、上記実施の形態では電子部品を保
持する部品保持部として真空吸着により電子部品を吸着
保持するノズル6bの例を示しているが、機械的なチャ
ッキングによって部品を保持するものであってもよい。
この場合にあっても、チャッキング時の位置ずれ量が許
容範囲内に収められることにより、ピックアップミスの
発生を減少させることができる。
Further, in the above embodiment, the example of the nozzle 6b for sucking and holding the electronic component by vacuum suction is shown as the component holding unit for holding the electronic component, but the component is held by mechanical chucking. There may be.
Even in this case, the occurrence of a pick-up error can be reduced by keeping the amount of displacement during chucking within the allowable range.

【0026】[0026]

【発明の効果】本発明によれば、部品保持部による電子
部品のピックアップ動作において、ピックアップ位置に
おける電子部品の配列ピッチおよび移載ヘッドにおける
部品保持部の配列ピッチのデータと、部品保持部と電子
部品との許容位置ずれ量を示す許容オフセットデータと
に基づいて電子部品ピックアップ時の移載ヘッドの位置
を制御するようにしたので、ピッチ差を各部品の許容オ
フセット値に基づいて合理的に配分することができ、複
数部品同時移送の適用範囲を拡大することができる。
According to the present invention, in the pick-up operation of the electronic component by the component holding unit, the data of the arrangement pitch of the electronic component at the pickup position and the arrangement pitch of the component holding unit in the transfer head, the component holding unit and the electronic device. Since the position of the transfer head at the time of electronic component pickup is controlled based on the allowable offset data indicating the allowable positional deviation amount with the component, the pitch difference is rationally distributed based on the allowable offset value of each component. And the applicable range of simultaneous transfer of a plurality of parts can be expanded.

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

【図1】本発明の一実施の形態の電子部品の実装装置の
平面図
FIG. 1 is a plan view of an electronic component mounting apparatus according to an embodiment of the present invention.

【図2】本発明の一実施の形態の電子部品の実装装置の
部分断面図
FIG. 2 is a partial cross-sectional view of an electronic component mounting apparatus according to an embodiment of the present invention.

【図3】本発明の一実施の形態の電子部品の実装装置の
制御系の構成を示すブロック図
FIG. 3 is a block diagram showing a configuration of a control system of the electronic component mounting apparatus according to the embodiment of the present invention;

【図4】本発明の一実施の形態の電子部品実装方法のピ
ックアップ動作の説明図
FIG. 4 is an explanatory diagram of a pickup operation of the electronic component mounting method according to one embodiment of the present invention;

【符号の説明】[Explanation of symbols]

3 基板 4 供給部 5 テープフィーダ 6 移載ヘッド 6a 単位移載ヘッド 6b ノズル 10 CPU 12a ピッチ記憶部 12b オフセットデータ記憶部 15 補正量算出部 3 Substrate 4 Supply unit 5 Tape feeder 6 Transfer head 6a Unit transfer head 6b Nozzle 10 CPU 12a Pitch storage unit 12b Offset data storage unit 15 Correction amount calculation unit

Claims (2)

【特許請求の範囲】[Claims] 【請求項1】電子部品の供給部から移載ヘッドの部品保
持部によって電子部品をピックアップして保持し基板に
実装する電子部品の実装装置であって、複数の電子部品
を並置状態で前記移載ヘッドのピックアップ位置に供給
する供給部と、電子部品を保持する部品保持部を複数備
え前記供給部から複数の電子部品を同時にピックアップ
して保持する移載ヘッドと、前記ピックアップ位置にお
ける電子部品の配列ピッチのデータと前記部品保持部の
配列ピッチのデータを示すピッチデータを記憶するピッ
チ記憶部と、前記部品保持部によるピックアップ動作に
おける部品保持部と電子部品との許容位置ずれ量を示す
許容オフセットデータを各電子部品ごとに記憶するオフ
セットデータ記憶部と、前記ピッチデータと許容オフセ
ットデータに基づいて電子部品ピックアップ時の移載ヘ
ッドの位置を制御する制御手段とを備えたことを特徴と
する電子部品の実装装置。
An electronic component mounting apparatus for picking up an electronic component from a supply portion of the electronic component by a component holding portion of a transfer head, holding the electronic component, and mounting the electronic component on a substrate. A supply unit that supplies a pickup position of a mounting head, a transfer head that includes a plurality of component holding units that hold electronic components, and simultaneously picks up and holds a plurality of electronic components from the supply unit; A pitch storage unit that stores arrangement pitch data and pitch data indicating data of an arrangement pitch of the component holding unit, and an allowable offset indicating an allowable displacement between the component holding unit and the electronic component in a pick-up operation performed by the component holding unit. An offset data storage unit for storing data for each electronic component, and an offset data storage unit based on the pitch data and the allowable offset data. Mounting apparatus of electronic components, characterized in that a control means for controlling the position of the transfer head when the electronic component pick-up Te.
【請求項2】電子部品の供給部から移載ヘッドの部品保
持部によって電子部品をピックアップして保持し基板に
実装する電子部品の実装方法であって、前記供給部にお
いて複数の電子部品を並置状態で前記移載ヘッドのピッ
クアップ位置に供給する工程と、複数の部品保持部を備
えた移載ヘッドによって前記供給部のピックアップ位置
から複数の電子部品を同時にピックアップして保持する
工程と、移載ヘッドを移動させて複数の電子部品を基板
に移載する工程とを含み、前記部品保持部による電子部
品のピックアップ動作において、前記ピックアップ位置
における電子部品の配列ピッチおよび移載ヘッドにおけ
る部品保持部の配列ピッチのデータと、部品保持部と電
子部品との許容位置ずれ量を示す許容オフセットデータ
とに基づいて電子部品ピックアップ時の移載ヘッドの位
置を制御することを特徴とする電子部品の実装方法。
2. A method of mounting an electronic component, wherein the electronic component is picked up from a supply unit of the electronic component by a component holding unit of a transfer head, held, and mounted on a substrate, wherein a plurality of electronic components are juxtaposed in the supply unit. Supplying the electronic component to the pickup position of the transfer head in a state, picking up and holding a plurality of electronic components from the pickup position of the supply unit at the same time by using a transfer head having a plurality of component holding units; Moving the head to transfer a plurality of electronic components to the substrate, wherein in the pick-up operation of the electronic components by the component holding unit, the arrangement pitch of the electronic components at the pickup position and the component holding unit of the transfer head. Based on the arrangement pitch data and the allowable offset data indicating the allowable positional deviation amount between the component holding unit and the electronic component, Mounting method of electronic components and controlling the position of the transfer head when goods pickup.
JP2000209427A 2000-07-11 2000-07-11 Electronic component mounting apparatus and mounting method Expired - Fee Related JP3888042B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2000209427A JP3888042B2 (en) 2000-07-11 2000-07-11 Electronic component mounting apparatus and mounting method

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2000209427A JP3888042B2 (en) 2000-07-11 2000-07-11 Electronic component mounting apparatus and mounting method

Publications (2)

Publication Number Publication Date
JP2002026592A true JP2002026592A (en) 2002-01-25
JP3888042B2 JP3888042B2 (en) 2007-02-28

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Country Link
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US11388849B2 (en) 2017-01-30 2022-07-12 Fuji Corporation Component mounting machine, component suctioning method, nozzle disposing method and method for disposing component supplying device
JP2019121761A (en) * 2018-01-11 2019-07-22 ヤマハ発動機株式会社 Component mounting machine and component suction method
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