JPH0270325A - Hemming machine - Google Patents

Hemming machine

Info

Publication number
JPH0270325A
JPH0270325A JP22385188A JP22385188A JPH0270325A JP H0270325 A JPH0270325 A JP H0270325A JP 22385188 A JP22385188 A JP 22385188A JP 22385188 A JP22385188 A JP 22385188A JP H0270325 A JPH0270325 A JP H0270325A
Authority
JP
Japan
Prior art keywords
forming
head
roller
hemming
mold
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
JP22385188A
Other languages
Japanese (ja)
Other versions
JP2675347B2 (en
Inventor
Kazuji Hirata
和司 平田
Yasuo Koishi
小石 康夫
Takeshi Tamada
玉田 剛
Takahisa Ogawa
貴久 小川
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.)
Mazda Motor Corp
Original Assignee
Mazda Motor Corp
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 Mazda Motor Corp filed Critical Mazda Motor Corp
Priority to JP63223851A priority Critical patent/JP2675347B2/en
Publication of JPH0270325A publication Critical patent/JPH0270325A/en
Application granted granted Critical
Publication of JP2675347B2 publication Critical patent/JP2675347B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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Abstract

PURPOSE:To simplify operation and manipulation by setting a forming roller composed of a preliminary bending roller and a main bending roller to a head and traveling the forming roller under pressure along a working position of the work without changing the posture of the head to the work. CONSTITUTION:The work 1 composed of an inner panel 1a and an outer panel 1b is mounted on a jig 2 and a conveyor 3 is arranged on the outside of the jig 2 and they are mounted on a robot 4. The head 7 to which forming rollers 6 are pivotally attached is set on the twist 5, and the forming rollers 6 are traveled under pressure and controlled nearly along the straight line part. On the outsides of the four corners of the jig 2 is arranged a die driving means 9 to drive a forming die 8 to form the corner part of a small radius of curvature of the work 1. To form the straight line part, each roller 10 - 12 of the forming rollers 6 is supported pivotally by the head 7 running in the direction of an arrow (e) to the work in the working sequence at a fixed angle to bend the straight line part. By this method, the operation can be manipulated easily without changing the posture of the head.

Description

【発明の詳細な説明】 〔産業上の利用分野〕 本発明はヘミング成形装置に係り、詳しくは自動車のド
アなどを構成するインナパネルとアウタパネルの両端部
を一体化させるヘミング成形装置に関する。
DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a hemming forming device, and more particularly to a hemming forming device that integrates both ends of an inner panel and an outer panel constituting an automobile door or the like.

〔従来の技術〕[Conventional technology]

従来のヘミング成形装置としては、例えば実開昭59−
124622号公報に記載されているように成形型を具
備したものがある。すなわち、このような装置では、予
備曲げをおこなうプリヘミング刃および本曲げをおこな
うヘミング刃等のプレス成形型により、インナパネルの
端部に対してアウタパネル折曲端を内側に抱込み状に折
曲げ加工シていた。しかし、プレス成形型のみでヘミン
グ加工する場合は、ワークの種類が多くなると型費が高
くなり、また現場での型の取替えに少なからぬ手間を要
するなどの問題があった。
As a conventional hemming forming device, for example,
There is one equipped with a mold as described in Japanese Patent No. 124622. In other words, in such a device, the bent end of the outer panel is folded inward against the end of the inner panel using a press molding tool such as a pre-hemming blade that performs preliminary bending and a hemming blade that performs final bending. It was processed. However, when hemming is performed using only a press molding die, there are problems such as the die cost increases as the number of types of workpieces increases, and it requires considerable effort to replace the die on site.

〔発明が解決しようとする課題〕[Problem to be solved by the invention]

このようなことから、たとえばワークに対して成形ロー
ラを押圧走行させることにより、多種のワークに対応で
きるようにしたヘミング成形装置の採用が考えられる。
For this reason, it is conceivable to adopt a hemming forming apparatus that can handle various types of workpieces by, for example, moving a forming roller under pressure against the workpieces.

しかし、成形ローラによる場合、予備曲げと本曲げでは
ワークに対する成形ローラの対応角が異なるため、成形
ローラを支持するヘッドの姿勢を変化させる必要があり
、その操作もしくは制御が煩瑣になるという難点がある
However, when using forming rollers, the corresponding angle of the forming roller with respect to the workpiece is different between preliminary bending and final bending, so it is necessary to change the posture of the head that supports the forming roller, making the operation and control complicated. be.

本発明はこのような事情を考慮してなされ、上記ヘッド
の操作を容易にして、それを作動させるロボットなどの
可動手段における制御を簡略化できるようにしたヘミン
グ成形装置を提供することを課題としている。
The present invention has been made in consideration of these circumstances, and an object of the present invention is to provide a hemming forming device that facilitates the operation of the head and simplifies the control of movable means such as a robot that operates the head. There is.

〔課題を解決するための手段〕[Means to solve the problem]

本発明は、二枚のパネルよりなるワークのうちノ一方の
パネル端部に対して、他方のパネルの折曲端を内側へ抱
込み状に折曲げるヘミング成形装置にあって、上記ワー
クに対する姿勢を維持したまま押圧走行し、上記他方の
パネルの折曲端を予備曲げする予備曲げ成形面と本曲げ
する本曲げ成形面とを備えた成形ローラを設け、その成
形ロラが前記ワークの加工部位に沿うように、上記成形
ローラを取り付けたヘッドを移動させる可動手段を設け
ている。
The present invention relates to a hemming forming apparatus for folding the bent end of one panel of a workpiece consisting of two panels inwardly into an embrace shape with respect to the end of one panel, and the present invention relates to a hemming forming apparatus that folds the bent end of the other panel inwardly in a hugging manner. A forming roller is provided, which is provided with a preliminary bending surface for pre-bending the bent end of the other panel and a main bending surface for final bending, and the forming roller presses and travels while maintaining the above-mentioned bending edge of the other panel. A movable means is provided for moving the head to which the forming roller is attached so as to follow the shape.

〔作   用〕[For production]

たとえば、予備曲げ成形面を有する予備曲げ用ローラと
本曲げ成形面を有する本曲げ用ローラよりなる成形ロー
ラをヘッドに取付けるに際し、ワタに対する上記各ロー
ラの対応角が個々に所定の角度となるように、かつ各ロ
ーラを加工順に配列構成した場合、上記ワークに対する
上記ヘッドの姿勢を変化させることなく、上記成形ロー
ラを上記ワークの加工部位に沿うように、押圧走行させ
ることにより、予備曲げと本曲げをおこなうことができ
る。
For example, when attaching a forming roller consisting of a preliminary bending roller having a preliminary bending surface and a main bending roller having a final bending surface to the head, the corresponding angle of each of the rollers with respect to the cotton should be set at a predetermined angle. and when the rollers are arranged in the order of processing, the forming roller can be pressed and run along the processing area of the workpiece without changing the attitude of the head relative to the workpiece, thereby performing preliminary bending and final bending. Can be bent.

〔発明の効果〕〔Effect of the invention〕

本発明のヘミング成形装置は、ワークに対する姿勢を維
持したまま押圧走行し、パネルの折曲端を予備曲げする
予備曲げ成形面と本曲げする本曲げ成形面とを備えた成
形ローラを設け、その成形ローラが前記ワークの加工部
位に沿うように、上記成形ローラを取り付けたヘッドを
移動させる可動手段を設けているので、ヘッドの姿勢を
変化させる必要がなくなり、その作動操作が容易となる
The hemming forming device of the present invention is provided with a forming roller that travels under pressure while maintaining its posture with respect to the workpiece, and is provided with a preliminary bending surface that pre-bends the bent end of the panel and a main bending surface that performs the final bending. Since a movable means is provided for moving the head to which the forming roller is attached so that the forming roller follows the processing area of the workpiece, there is no need to change the attitude of the head, and its operation becomes easy.

〔実 施 例〕〔Example〕

以下に本発明のヘミング成形装置を実施例に基づいて詳
細に説明する。
EMBODIMENT OF THE INVENTION Below, the hemming forming apparatus of this invention is demonstrated in detail based on an Example.

本実施例に示すヘミング成形装置は、インナパネル端部
に対してアウタパネル折曲端を内側に抱込み状に折曲げ
るヘミング成形をおこなうもので、多種のワークに能率
よ(対応できるように、次のように構成される。
The hemming forming device shown in this embodiment performs hemming forming by folding the bent end of the outer panel inward to the end of the inner panel. It is configured as follows.

第3図は装置全体を示し、インナパネル1aとアウタパ
ネル1bよりなるワーク1を上載させる治具2の一側外
方にコンベア3が配置され、その上に可動手段であるロ
ボット4が乗載されている。
FIG. 3 shows the entire apparatus, in which a conveyor 3 is arranged outside one side of a jig 2 on which a workpiece 1 consisting of an inner panel 1a and an outer panel 1b is placed, and a robot 4 as a movable means is mounted on the conveyor 3. ing.

そのロボット4の手首5には、成形ローラ6を枢支する
ヘッド7が取付けられ、成形ローラ6がワクlの曲率半
径の大きい略直線部に沿って押圧走行制御されるように
なっている。一方、治具2の四隅外側には、ワークlの
曲率半径の小さいコーナ部を成形するための成形型8を
駆動する型駆動手段9が配置されている。すなわち、ワ
ーク3の略直線部は成形ローラ6の上方からの加圧と水
平移動により、円弧状のコーナ部は成形型8の加圧によ
り、それぞれヘミング成形するべく構成されている。
A head 7 for pivotally supporting a forming roller 6 is attached to the wrist 5 of the robot 4, so that the forming roller 6 is controlled to press and travel along a substantially straight line portion of the work l having a large radius of curvature. On the other hand, mold driving means 9 are arranged outside the four corners of the jig 2 to drive a mold 8 for molding a corner portion of the work l with a small radius of curvature. That is, the substantially straight portion of the workpiece 3 is hemmed by pressure from above and horizontal movement of the forming roller 6, and the arcuate corner portion is hemmed by pressure from the mold 8.

各部の構造等について説明すると、ワーク1の略直線部
の成形がおこなわれている状態を表わす第1図に示すよ
うに、成形ローラ6は予備曲げ成形面を有する第1予備
曲げローラlO1第2予備曲げローラ11および本曲げ
成形面を有する本曲げローラ12よりなり、各ローラ1
0〜12がワク1に対して加工順に個々に所定の角度で
対応するように、矢印e方向に走行するヘッド7に枢支
されている。
To explain the structure of each part, as shown in FIG. 1, which shows a state in which a substantially straight portion of the workpiece 1 is being formed, the forming roller 6 is a first pre-bending roller lO1 having a pre-bending forming surface. Consisting of a preliminary bending roller 11 and a main bending roller 12 having a main bending surface, each roller 1
0 to 12 are pivotally supported on a head 7 that runs in the direction of arrow e so that they correspond to each other at a predetermined angle with respect to the workpiece 1 in the order of processing.

第1予備曲げローラlOは、第2図(a)に示されるよ
うに、予め略直角に折曲げ加工されたアウタパネル1b
の折曲端に対応できるように、第2図(b)に示す如く
、水平に対して大きく傾斜して枢支され、第2予備曲げ
ローラ11は、第2図(C)に示すように、第1予備曲
げローラ10の略半分程度同方向に傾斜して設けられて
いる。
As shown in FIG. 2(a), the first preliminary bending roller 10 is used to bend an outer panel 1b at a substantially right angle in advance.
As shown in FIG. 2(b), the second preliminary bending roller 11 is pivoted at a large inclination with respect to the horizontal, as shown in FIG. 2(c). , approximately half of the first pre-bending roller 10 is inclined in the same direction.

本曲げローラ12は、第2図(d)に示すように、水平
に枢支されている。
The main bending roller 12 is horizontally supported as shown in FIG. 2(d).

このような構成によって、第2図(a)に示すように、
平らなインナパネル1aを上載させたアウタパネル1b
の折曲端が、ロボット4によって駆動される上記各ロー
ラ10〜12の押圧走行により、第2図(b)、(c)
に示すように、順次段階的かつ連続的に内側へ折り曲げ
加工され、ついには、第2図(d)に示すように、平ら
なインナパネル1aの端部がアウタパネルlbの折曲端
によって抱込まれるように挟着・一体化される。
With this configuration, as shown in FIG. 2(a),
Outer panel 1b on which flat inner panel 1a is placed
2(b) and (c) due to the pressing movement of each of the rollers 10 to 12 driven by the robot 4.
As shown in Figure 2(d), the flat inner panel 1a is bent inward in a stepwise and continuous manner, and finally, as shown in Figure 2(d), the end of the flat inner panel 1a is held in place by the bent end of the outer panel lb. They are sandwiched and integrated so that they can be held together.

このとき、ヘッド7は水平に配置されたワーク1に対し
て垂直な姿勢を維持したままで、各ローラ10−12を
、アウタパネル1bの折曲端に対して下方に押圧し、か
つ水平に走行させるという比較的簡単な移動動作をおこ
なう。したがって、単一のへラド7を介して成形ローラ
6を操作するロボット4には、比較的簡単な教示をすれ
ばよく、精度の高い成形加工を能率よくおこなうことが
できる。
At this time, the head 7 presses each roller 10-12 downward against the bent end of the outer panel 1b while maintaining a vertical posture with respect to the horizontally arranged workpiece 1, and runs horizontally. This is a relatively simple movement. Therefore, the robot 4 that operates the forming roller 6 via a single spatula 7 only needs to be given relatively simple instructions, and can efficiently perform highly accurate forming processing.

第4図乃至第6図(e)はワークlのコーナ部を成形す
るための成形型8および型駆動手段9を示し、上述の成
形型8の平面形状をコーナ部と対応する円弧状に形成す
ると共に、第6図(a)〜(e)に示すように、成形型
8には第1予備曲げ面8aと第2予備曲げ面8bと本曲
げ面8cとを形成し、これらの各曲げ面13a、3b、
3cでアウタパネル1bの折曲端を順次加圧することで
、コーナ部のヘミング加工を段階的におこなう。
4 to 6(e) show a mold 8 and mold driving means 9 for molding the corner portion of the work l, and the planar shape of the mold 8 described above is formed into an arc shape corresponding to the corner portion. At the same time, as shown in FIGS. 6(a) to 6(e), a first preliminary bending surface 8a, a second preliminary bending surface 8b, and a main bending surface 8c are formed on the mold 8, and each of these bending surfaces is formed. Surfaces 13a, 3b,
By sequentially applying pressure to the bent ends of the outer panel 1b in step 3c, the corner portion is hemmed in stages.

上述の成形型8の背面には、第4図および第5図に示す
ように、型駆動手段9として、スライダ13を固定し、
このスライダ13の一側面にはラック14を形成する一
方、他側面には凹状の摺動ガイド溝15を形成し、この
スライダ13を昇降ブロック16の溝17内に前後動可
能に挿通している。上述の昇降ブロック16はスクリュ
18の駆動によりスライダ13を伴って左右のガイドブ
ロック19.20に沿って上下動する。
As shown in FIGS. 4 and 5, a slider 13 is fixed to the back surface of the mold 8 as a mold driving means 9.
A rack 14 is formed on one side of the slider 13, and a concave sliding guide groove 15 is formed on the other side, and the slider 13 is inserted into the groove 17 of the lifting block 16 so as to be movable back and forth. . The above-mentioned lifting block 16 moves up and down along the left and right guide blocks 19 and 20 together with the slider 13 by driving the screw 18.

また、上述の左右のガイドブロック19.20間に取付
けた基板21と上坂22との間には、上述のスクリュ1
8およびピニオン23が可回動に軸架されている。この
ピニオン23が上述のラック14に噛合されてスライダ
13を介して前述の成形型8が前後動させられる。そし
て、スクリュ18の回転により昇降ブロック16を介し
て上述の成形型8が上下動されるように構成している。
Further, between the base plate 21 and the upper slope 22 installed between the left and right guide blocks 19 and 20, there is a screw 1 as described above.
8 and a pinion 23 are rotatably mounted on an axis. This pinion 23 is engaged with the rack 14 described above, and the mold 8 described above is moved back and forth via the slider 13. The mold 8 is configured to be moved up and down by the rotation of the screw 18 via the lifting block 16.

さらに上述のスライダ13の摺動ガイド溝15には昇降
ブロック16側に固定した摺動案内用のキ24を配設し
ている。
Further, in the sliding guide groove 15 of the slider 13 described above, a sliding guiding key 24 fixed to the lifting block 16 side is provided.

前述した成形ローラ6と上記成形型8を併用する本装置
のヘミング成形は以下のようにおこなわれる。
Hemming forming using the present apparatus which uses the above-mentioned forming roller 6 and the above-mentioned forming die 8 is performed as follows.

まず、第3図に示すように、治具2にアウタパネル1b
を上載させ、その上にインナパネル1aを配置する。そ
して、成形ローラ6をアウタパネル1bの略直線部の一
端側の折曲端に対応させて、コンベア3とロボット4の
駆動制御により他端側まで押圧走行させ、第1図および
第2図(a)〜第2図(d)に示すように、段階的かつ
連続的にヘミング成形をおこなう。
First, as shown in FIG. 3, the outer panel 1b is placed on the jig 2.
is placed on top, and the inner panel 1a is placed thereon. Then, the forming roller 6 is made to correspond to the bent end on one end side of the substantially straight part of the outer panel 1b, and is pressed and driven to the other end side under the drive control of the conveyor 3 and the robot 4, and as shown in FIGS. ) to FIG. 2(d), hemming is performed stepwise and continuously.

次いで、コーナ部を、型駆動手段9によって駆動される
成形型8によって第6図(a)〜(e)に示すように、
段階的にヘミング成形をおこなう。
Next, as shown in FIGS. 6(a) to 6(e), the corner portion is shaped by the mold 8 driven by the mold driving means 9.
Hemming is performed in stages.

すなわち、まず、型駆動手段9を作動させてスライダ1
3を前進させ、第6図(b)に示すように成形型8の第
1予備曲げ面8aでコーナ部におけるアウタパネル1b
の折曲端を60度前後にプリヘミング加工する。そして
、第6図(C)に示すように、スライダ13をさらに前
進させ、その加工面を成形型8の第2予備曲げ面8bで
40度前後に再度プリヘミング加工する。次に、成形型
8を一旦上昇・前進させ、その第6図(d)に示すよう
に、プリヘミング加工されたコーナ部の折曲端に対して
本曲げ面8cを対応させる。しかる後に、スクリュ18
(第4図、第5図参照)を回転駆動させて成形型8を下
降させ、第6図(6)に示すように、プリヘミング加工
された折曲端を本曲げ面8Cでインナパネル1aの端部
に対して完全に折曲げ、ヘミング成形加工を完了する。
That is, first, the mold driving means 9 is operated to move the slider 1.
3 is advanced, and as shown in FIG.
Pre-hem the bent end at around 60 degrees. Then, as shown in FIG. 6(C), the slider 13 is further advanced, and the processed surface is again prehemmed at about 40 degrees with the second preliminary bending surface 8b of the mold 8. Next, the mold 8 is once raised and advanced, and as shown in FIG. 6(d), the main bending surface 8c is made to correspond to the bent end of the prehemmed corner. After that, screw 18
(see Figures 4 and 5) to lower the mold 8, and as shown in Figure 6 (6), the prehemmed bent end is aligned with the main bending surface 8C of the inner panel 1a. Completely bend the end of the hem and complete the hemming process.

このように、アウタパネルlbとインナパネルlaとを
ヘミング成形するにあたり、略直線部は成形ローラ6で
、またコーナ部は成形型8でそれぞれ分担して成形する
ので、従来のようにワークの種類に応じて型全体を取替
える必要がなく、コナ部の成形型のみを交換すれば多種
のワークに対応できる。したがって、型費および設備費
の大幅な低減を図ることができ、かつ段取り替えが容易
となり、作業コストを低減することもできる。
In this way, when forming the outer panel lb and the inner panel la by hemming, the substantially straight part is formed by the forming roller 6, and the corner part is formed by the forming die 8. There is no need to replace the entire mold, and it is possible to handle a wide variety of workpieces by simply replacing the corner mold. Therefore, it is possible to significantly reduce mold costs and equipment costs, and it is also possible to change setups easily, thereby reducing work costs.

とりわけ、略直線部の加工においては、単一のへソド7
に取り付けられた成形ローラ6の姿勢を維持したままで
一回の押圧走行をおこなうことにより、ヘミング成形加
工を完了することができるので、ロボット4の制御動作
が著しく簡略化され、作業能率および加工精度が著しく
向上される。
In particular, when machining approximately straight parts, a single hem 7 is required.
The hemming forming process can be completed by performing one press run while maintaining the posture of the forming roller 6 attached to the robot 4, which greatly simplifies the control operation of the robot 4, improving work efficiency and processing. Accuracy is significantly improved.

第7図(a)〜(C)は、略直線部の成形をおこなう成
形ローラの他の実施例を示し、単一の成形ローラ25に
、第1予備曲げ面25a1第2予備曲げ面25bおよび
本曲げ面25Cを同軸段列状に形成したもので、前実施
例の装置における成形ローラ6に代えて使用される。な
お、図中、26はヘッドで、ロボット4の手首5に取付
けられる。
FIGS. 7(a) to (C) show another embodiment of a forming roller for forming a substantially straight section, in which a single forming roller 25 has a first pre-bending surface 25a, a second pre-bending surface 25b and The main bending surface 25C is formed in a coaxial stepped row shape, and is used in place of the forming roller 6 in the apparatus of the previous embodiment. In addition, in the figure, 26 is a head, which is attached to the wrist 5 of the robot 4.

このような成形ローラ25を用いる場合、まず第7図(
a)に示すように、第1予備曲げ面25aによってアウ
タパネルlbの略直線部の折曲端を60度前後にプリヘ
ミング加工した後、第6図(b)に示すように、成形型
8の第1予備曲げ面8aでコーナ部の折曲端を60度前
後にプリヘミング加工する。次に、第7図(b)に示す
ように、プリヘミング加工された略直線部の折曲端を成
形ローラ25の第2予備曲げ面25bによってさらに4
0度前後に再度プリヘミング加工した後、第6図(C)
に示すように、プリヘミング加工されたコーナ部の折曲
端を成形型8の第2予備曲げ面8bでさらに40度前後
に再度プリヘミング加工する。そして、第7図(C)に
示すように、プリヘミング加工された略直線部の折曲端
を、成形ロラ25の本曲げ面25cによって、インナパ
ネル1aの端部に対して完全に折曲げヘミング加工する
。その後、成形型8を一旦上昇、前進させ、第6図(d
)に示すように、プリヘミング加工されたコーナ部の折
曲端に本曲げ面8Cを対応させる。次いで、成形型8を
下降させ、第6図(e)に示すように、プリヘミング加
工されたアウタパネル1bのコーナ部の折曲端を本曲げ
面8cでインナパネル1aの端部に対して完全に折曲げ
てヘミング成形加工を完了する。
When using such a forming roller 25, first, as shown in FIG.
As shown in FIG. 6(b), after pre-hemming the bent end of the substantially straight portion of the outer panel lb to around 60 degrees using the first preliminary bending surface 25a, as shown in FIG. 6(b), The bent end of the corner portion is prehemmed to about 60 degrees on the first preliminary bending surface 8a. Next, as shown in FIG. 7(b), the bent end of the prehemmed substantially straight section is further bent by the second preliminary bending surface 25b of the forming roller 25.
After pre-hemming again around 0 degrees, Figure 6 (C)
As shown in FIG. 2, the bent end of the prehemmed corner portion is further prehemmed at about 40 degrees using the second preliminary bending surface 8b of the mold 8. Then, as shown in FIG. 7(C), the bent end of the prehemmed substantially straight section is completely bent against the end of the inner panel 1a by the final bending surface 25c of the forming roller 25. Perform hemming. After that, the mold 8 is once raised and moved forward, and as shown in FIG.
), the main bending surface 8C is made to correspond to the bent end of the prehemmed corner part. Next, the mold 8 is lowered, and as shown in FIG. 6(e), the bent end of the corner portion of the prehemmed outer panel 1b is completely aligned with the end of the inner panel 1a at the final bent surface 8c. Complete the hemming process by bending it.

この実施例においても、前実施例と同様にワクlの略直
線部を成形ローラ25で、またコーナ部を成形型8でそ
れぞれ分担して成形するので、従来のようにワークの種
類に応じて型全体を取替える必要がなく、コーナ部の成
形型のみを交換すれば多種のワークに対応できる。した
がって、型費および設備費の大幅な低減を図ることがで
き、かつ段取り替えが容易となり、作業コストを低減す
ることもできる。
In this embodiment as well, as in the previous embodiment, the approximately linear part of the workpiece l is formed by the forming roller 25, and the corner part is formed by the forming die 8, so that the molding process can be performed according to the type of the workpiece, as in the past. There is no need to replace the entire mold, and it is possible to handle a wide variety of workpieces by simply replacing the corner mold. Therefore, it is possible to significantly reduce mold costs and equipment costs, and it is also possible to change setups easily, thereby reducing work costs.

略直線部の加工においては、前実施例と同様にヘッド7
の姿勢を変化させることなく、アウタパネル1bの折曲
端に沿わせて成形ローラ25を押圧走行させることによ
りヘミング成形をおこなえるので、ロボット4の制御動
作が簡略化され、作業能率および加工精度が著しく向上
される。また、略直線部とコーナ部を交互に段階的に加
工するのでコーナ部にしわ等が生じることなく、全体の
仕上がりが良好となり製品品質が向上される。
When machining a substantially straight section, the head 7 is used as in the previous embodiment.
Since hemming can be performed by pressing and running the forming roller 25 along the bent edge of the outer panel 1b without changing the posture of the outer panel 1b, the control operation of the robot 4 is simplified, and work efficiency and processing accuracy are significantly improved. Improved. Furthermore, since the approximately straight portions and corner portions are processed in stages alternately, wrinkles and the like do not occur at the corner portions, resulting in a good overall finish and improved product quality.

第8図はワーク1に対して成形ローラ6を相対移動させ
る可動手段としてのロボットの他の実施例を示し、左右
のガイドレール31.32に沿って前後動するスライド
基盤33の上に、上述の治具2および型駆動手段9を配
設すると共に、左右のガイドレール31.32間には門
形の架構34を取付け、その架構34からワーク1側へ
向けて下方に延びるロボットアーム35を具備する所謂
NCタイプのX−Yロボット36を設けている。
FIG. 8 shows another embodiment of the robot as a movable means for moving the forming roller 6 relative to the workpiece 1. In addition to disposing the jig 2 and the die driving means 9, a gate-shaped frame 34 is installed between the left and right guide rails 31 and 32, and a robot arm 35 extending downward from the frame 34 toward the workpiece 1 side is installed. A so-called NC type XY robot 36 is provided.

そのロボットアーム35の先端にヘッド7を介して成形
ローラ6が取付けられ、NC制御によりヘッド7が同図
の矢印f、g方向に、スライド基盤33が矢印り方向に
移動制御されるように構成している。このような構成に
よって、前記実施例と同様に、曲率半径の大きい略直線
部はX−Yロボット36により成形ローラ6を上方から
押圧して走行させることにより、円弧状のコーナ部は型
駆動手段9による成形型8の加圧により、それぞれヘミ
ング成形がおこなわれる。
A forming roller 6 is attached to the tip of the robot arm 35 via a head 7, and the configuration is such that the head 7 is controlled to move in the directions of arrows f and g in the figure, and the slide base 33 is controlled to move in the direction of the arrow. are doing. With this configuration, similarly to the embodiment described above, the X-Y robot 36 presses and runs the forming roller 6 from above for a substantially straight section with a large radius of curvature, and the arcuate corner section is moved by the mold driving means. Hemming is performed by pressurizing the mold 8 by the mold 9.

第9図および第10図はヘミング成形装置の別の実施例
を示し、成形ローラ25の可動手段は先の実施例または
前実施例のものと同様であるが、成形型8の型駆動手段
41を次のように構成している。すなわち、L字状のペ
ースブロック42上端にヒンジ43を介してU字状アー
ム44の基端を枢着し、このU字状アーム44の遊端に
成形型8を取付ける一方、上述のベースブロック42の
下部と、U字状アーム44の中間部背面との間にそれぞ
れヒンジ45,46を介して加圧プレス用の油圧シリン
ダ47を張架している。なお、図中、48はピストンロ
ンドである。
9 and 10 show another embodiment of the hemming forming device, in which the movable means of the forming roller 25 are similar to those of the previous or previous embodiment, but the mold drive means 41 of the forming mold 8 is configured as follows. That is, the base end of a U-shaped arm 44 is pivotally attached to the upper end of the L-shaped pace block 42 via a hinge 43, and the mold 8 is attached to the free end of this U-shaped arm 44, while the above-mentioned base block A hydraulic cylinder 47 for pressure press is stretched between the lower part of the U-shaped arm 42 and the back surface of the middle part of the U-shaped arm 44 via hinges 45 and 46, respectively. In addition, in the figure, 48 is a piston rond.

このヘミング成形装置によるヘミング成形は以下のよう
におこなわれる。まず、第9図に示すように、上述の治
具2にアウタパネル1bを上載し、その上にインナパネ
ル1aを配設する。次に成形ローラ25の第1予備曲げ
面25aをアウタパネル1bの折曲端に対応させ、ロボ
ット4もしくはXY−ロボット36の駆動制御により、
成形ロラ25を矢印j、に方向に押圧走行させ、第1予
備曲げ面25aでワークlの略直線部およびコナ部を所
定角度にプリヘミング加工する(第7図(a)参照)。
Hemming by this hemming forming apparatus is performed as follows. First, as shown in FIG. 9, the outer panel 1b is placed on the jig 2 described above, and the inner panel 1a is placed thereon. Next, the first pre-bending surface 25a of the forming roller 25 is made to correspond to the bent end of the outer panel 1b, and under drive control of the robot 4 or the XY-robot 36,
The forming roller 25 is pressed and moved in the direction of arrow j, and the substantially straight and corner portions of the workpiece 1 are prehemmed at a predetermined angle using the first preliminary bending surface 25a (see FIG. 7(a)).

そして、成形ローラ25の第2予備曲げ面25bをプリ
ヘミング加工面に対応させ、前述と同様に、第9図の矢
印j、に方向に押圧走行させ、ワークlの略直線部およ
びコーナ部を所定角度に再度プリヘミング加工する(第
7図(b)参照)。
Then, the second pre-bending surface 25b of the forming roller 25 is made to correspond to the pre-hemming surface, and as described above, it is pressed and run in the direction of the arrow j in FIG. Pre-hemming is performed again at a predetermined angle (see FIG. 7(b)).

次いで、成形ローラ25の本曲げ面25cをプリヘミン
グされた加工面に対応させて、成形ロラ25をロボット
4もしくはXY−ロボット36の制御により、略直線部
に沿って押圧走行させ、アウタパネル1bの折曲端をイ
ンナパネルlaの端部に完全に折曲げて略直線部をヘミ
ング加工する(第7図(C)参照)。しかる後に、第1
0図に示すように、型駆動手段41における油圧シリン
ダ47を往動させ、U字状アーム44を介して成形型8
を下方に加圧することにより、アウタパネルlbのプリ
ヘミングされたコーナ部の折曲端をインナパネル1aの
端部に完全に折曲げ、ヘミング成形加工を完了する。
Next, the forming roller 25 is pressed and moved along a substantially straight line section under the control of the robot 4 or the XY-robot 36, with the main bending surface 25c of the forming roller 25 corresponding to the prehemmed processing surface, thereby forming the outer panel 1b. The bent end is completely bent to the end of the inner panel la, and the substantially straight portion is hemmed (see FIG. 7(C)). After that, the first
As shown in Figure 0, the hydraulic cylinder 47 in the mold drive means 41 is moved forward, and the mold 8
By applying pressure downward, the bent end of the prehemmed corner of the outer panel lb is completely bent to the end of the inner panel 1a, and the hemming process is completed.

このように、ワークlの略直線部およびコーナ部の予備
曲げを成形ローラ25で行なう一方、本曲げ時には上述
の略直線部を成形ローラ25で、またコーナ部を成形型
8でそれぞれ成形するように構成すると、成形型8は単
一もしくは単一成形面を有するものでよく、この成形型
8の構造およびその操作を簡略化をすることができる。
In this way, while the pre-bending of the substantially straight portions and corner portions of the work l is performed by the forming roller 25, during the final bending, the above-mentioned substantially straight portions are formed by the forming roller 25, and the corner portions are formed by the forming die 8. With this configuration, the mold 8 may have a single molding surface or a single molding surface, and the structure and operation of the mold 8 can be simplified.

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

図面は本発明の実施例を示し、第1図は成形ロラにより
ワークの略直線部をヘミング成形している状態を示す模
式図、第2図(a)〜(d)は第1図におけるA−A、
B−B、C−C,I)−D線矢視断面図、第3図はヘミ
ング成形装置の斜視図、第4図はコーナ部の成形型およ
び型駆動手段の断面図、第5図はコーナ部の成形型およ
び型駆動手段の斜視図、第6図(a)は第4図のVl−
VI線矢視断面図、第6図(b)は成形型による第1の
予備曲げ工程を示す断面図、第6図(C)は第2の予備
曲げ工程を示す断面図、第6図(d)は本曲げ準備工程
を示す断面図、第6図(e)は本曲げ工程を示す断面図
、第7図(a)は成形ロラの他の実施例による第1の予
備曲げ工程を示す断面図、第7図(b)は第2予備曲げ
工程を示す断面図、第7図(C)は本曲げ工程を示す断
面図、第8図は可動手段の他の実施例を示す斜視図、第
9図はヘミング成形装置の別の実施例における加工工程
を説明するための斜視図、第10図は別の実施例におけ
る型駆動手段の斜視図である。 1−ワーク、1a−・−パネル(インナパネル)、1b
−パネル(アウタパネル)、4.36−可動手段(ロボ
ット、X−Yロボット)、6.25成形ローラ、7.2
6− ヘッド。 特許出願人   マ ツ ダ 株式会社代理人 弁理士
 吉相 勝俊(ほか1名)9、 第 図 (a) 第 図 (d)
The drawings show an embodiment of the present invention, and FIG. 1 is a schematic diagram showing a state in which a substantially straight part of a workpiece is hemmed by a forming roller, and FIGS. 2(a) to 2(d) are A in FIG. 1. -A,
BB, C-C, I)-D line arrow sectional view, FIG. 3 is a perspective view of the hemming forming device, FIG. 4 is a sectional view of the corner mold and die driving means, and FIG. A perspective view of the corner molding die and die driving means, FIG. 6(a) is the Vl-
6(b) is a sectional view showing the first preliminary bending process using the mold, FIG. 6(C) is a sectional view showing the second preliminary bending process, FIG. d) is a cross-sectional view showing the main bending preparation step, FIG. 6(e) is a cross-sectional view showing the main bending step, and FIG. 7(a) is a first preliminary bending step using another embodiment of the forming roller. 7(b) is a sectional view showing the second preliminary bending process, FIG. 7(C) is a sectional view showing the main bending process, and FIG. 8 is a perspective view showing another embodiment of the movable means. , FIG. 9 is a perspective view for explaining the processing steps in another embodiment of the hemming forming apparatus, and FIG. 10 is a perspective view of the die driving means in another embodiment. 1-Work, 1a--Panel (inner panel), 1b
- Panel (outer panel), 4.36 - Movable means (robot, X-Y robot), 6.25 Forming roller, 7.2
6- Head. Patent applicant Mazda Corporation Agent Patent attorney Katsutoshi Yoshiso (and one other person) 9, Figure (a) Figure (d)

Claims (1)

【特許請求の範囲】[Claims] (1)二枚のパネルよりなるワークのうちの一方のパネ
ル端部に対して、他方のパネルの折曲端を内側へ抱込み
状に折曲げるヘミング成形装置において、 上記ワークに対する姿勢を維持したまま押圧走行し、上
記他方のパネルの折曲端を予備曲げする予備曲げ成形面
と本曲げする本曲げ成形面とを備えた成形ローラが設け
られ、 その成形ローラが前記ワークの加工部位に沿うように、
上記成形ローラを取り付けたヘッドを移動させる可動手
段が設けられていることを特徴とするヘミング成形装置
(1) In a hemming forming device that folds the folded end of one panel of a workpiece consisting of two panels inward to the end of the other panel, the above-mentioned attitude toward the workpiece is maintained. A forming roller is provided which is provided with a preliminary bending surface for pre-bending the folded end of the other panel and a final bending surface for final bending the folded end of the other panel, and the forming roller runs along the processing area of the workpiece. like,
A hemming forming apparatus characterized in that a movable means for moving the head to which the forming roller is attached is provided.
JP63223851A 1988-09-06 1988-09-06 Hemming molding equipment Expired - Lifetime JP2675347B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP63223851A JP2675347B2 (en) 1988-09-06 1988-09-06 Hemming molding equipment

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP63223851A JP2675347B2 (en) 1988-09-06 1988-09-06 Hemming molding equipment

Publications (2)

Publication Number Publication Date
JPH0270325A true JPH0270325A (en) 1990-03-09
JP2675347B2 JP2675347B2 (en) 1997-11-12

Family

ID=16804711

Family Applications (1)

Application Number Title Priority Date Filing Date
JP63223851A Expired - Lifetime JP2675347B2 (en) 1988-09-06 1988-09-06 Hemming molding equipment

Country Status (1)

Country Link
JP (1) JP2675347B2 (en)

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US5012029A (en) * 1989-10-16 1991-04-30 Mobil Oil Corp. Conversion of methane
US5015798A (en) * 1989-12-21 1991-05-14 Mobil Oil Corporation Conversion of methane
JPH04253524A (en) * 1991-01-29 1992-09-09 Mitsubishi Motors Corp Method and tool for hemming
US5224253A (en) * 1991-08-01 1993-07-06 Triengineering Co., Ltd. Apparatus for hemming a workpiece having an upturned edge
US5228190A (en) * 1992-07-09 1993-07-20 Triengineering Company, Ltd. Roller type hemming apparatus
US5267387A (en) * 1991-08-01 1993-12-07 Triengineering Co., Ltd. Method for hemming a workpiece having an upturned edge
JPH06154891A (en) * 1992-11-19 1994-06-03 Sanyo Mach Works Ltd Method and device for hemming
JPH07116743A (en) * 1993-10-25 1995-05-09 Torai Eng Kk Roller type hemming device
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US20190255585A1 (en) * 2018-02-19 2019-08-22 Faurecia Systemes D'echappement Assembly for manufacturing a metal part and use of such an assembly

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Cited By (44)

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Publication number Priority date Publication date Assignee Title
US5012029A (en) * 1989-10-16 1991-04-30 Mobil Oil Corp. Conversion of methane
US5015798A (en) * 1989-12-21 1991-05-14 Mobil Oil Corporation Conversion of methane
JPH04253524A (en) * 1991-01-29 1992-09-09 Mitsubishi Motors Corp Method and tool for hemming
US5224253A (en) * 1991-08-01 1993-07-06 Triengineering Co., Ltd. Apparatus for hemming a workpiece having an upturned edge
US5267387A (en) * 1991-08-01 1993-12-07 Triengineering Co., Ltd. Method for hemming a workpiece having an upturned edge
US5228190A (en) * 1992-07-09 1993-07-20 Triengineering Company, Ltd. Roller type hemming apparatus
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