JPH06285659A - Laser welding method - Google Patents

Laser welding method

Info

Publication number
JPH06285659A
JPH06285659A JP5080400A JP8040093A JPH06285659A JP H06285659 A JPH06285659 A JP H06285659A JP 5080400 A JP5080400 A JP 5080400A JP 8040093 A JP8040093 A JP 8040093A JP H06285659 A JPH06285659 A JP H06285659A
Authority
JP
Japan
Prior art keywords
laser welding
bent
welded
bent portion
sealant
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.)
Withdrawn
Application number
JP5080400A
Other languages
Japanese (ja)
Inventor
Atsushi Mori
敦 森
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.)
Fanuc Corp
Original Assignee
Fanuc 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 Fanuc Corp filed Critical Fanuc Corp
Priority to JP5080400A priority Critical patent/JPH06285659A/en
Publication of JPH06285659A publication Critical patent/JPH06285659A/en
Withdrawn legal-status Critical Current

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  • Laser Beam Processing (AREA)

Abstract

PURPOSE:To perform satisfactory laser welding to an after-hem part. CONSTITUTION:When welding two steel sheets 1 and 2, the edge part 11 of one steel sheet 1 is bent, the edge part 21 of another steel sheet 2 is covered and fixed by the bent edge 11, and the two steel sheets 1 and 2 are welded from the upside of an after-hem part 100 consisting of lapped three steel sheets. When forming this after-hem part 100, a width from the bent part 12 of the steel sheet 1 to the edge part 11, is widened, and a distance from the bent part 12 to a welded place 4, is lengthened. Consequently, a distance from the welded place 4 to sealant 3 is lengthened, and it can prevent that the sealant 3 in a bag-shaped part spreads itself into the welded part 4. It prevents the generation of a blowhole, caused by vaporization of the sealant 3 at the time of laser welding. Also, since a quantity of heat input by laser welding is small, a surface 13 which is on the opposite side to the welded place 4, is not influenced by heat. Therefore, satisfactory laser welding can be performed to the after-hem part 100.

Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【産業上の利用分野】本発明は重ね合わせた2枚の金属
板の内、一方の金属板の端部を折り曲げ3枚重ねになっ
た折り曲げ部にレーザビームを照射して行うレーザ溶接
方法に関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a laser welding method in which an end of one metal plate of two superposed metal plates is bent to irradiate a laser beam on a bent portion of three metal plates. .

【0002】[0002]

【従来の技術】従来、2枚の鋼板を溶接する際に、一方
の鋼板の端部を折り曲げ、その折り曲げた端部で他方の
鋼板の端部を覆って固定し、3枚重ねとなった部分の上
から2枚の鋼板を溶接する手法が、自動車産業などで多
く取られている。これをアフターヘム部の溶接という。
2. Description of the Related Art Conventionally, when welding two steel plates, one end of the steel plate is bent, and the other end of the steel plate is covered with the bent end to be fixed to form three plates. The method of welding two steel plates from the top of a portion is often used in the automobile industry and the like. This is called after-hem welding.

【0003】図6はアフターヘム部の溶接の説明図であ
り、(A)はアフターヘム部の全体図を、(B)は
(A)のX6−X6断面をそれぞれ示す。図において、
2枚の鋼板610及び620を溶接する際に、一方の鋼
板610の端部611を折り曲げ、その折り曲げた端部
611で他方の鋼板620の端部621を覆って固定
し、3枚重ねとなった部分の上から2枚の鋼板610及
び620を溶接する。この3枚重ねになった部分がアフ
ターヘム部101である。
6A and 6B are explanatory views of welding of the afterhem portion. FIG. 6A is an overall view of the afterhem portion, and FIG. 6B is a cross section taken along line X6-X6 of FIG. In the figure,
When welding the two steel plates 610 and 620, the end 611 of one steel plate 610 is bent, and the bent end 611 covers and fixes the end 621 of the other steel plate 620 to form a three-ply stack. The two steel plates 610 and 620 are welded from above the opened portion. The portion where the three sheets are stacked is the after hem portion 101.

【0004】ところで、アフターヘム部101の溶接箇
所64の反対側の面613は、自動車の外面となること
が多く、その反対側の面613に溶接の熱影響が出るこ
とは嫌われている。しかし、アフターヘム部101への
溶接は、従来から入熱量が多い炭酸ガス溶接やスポット
溶接によってなされているため、その熱影響を完全に除
去するのは困難であった。
By the way, the surface 613 of the after-hem portion 101 opposite to the welded portion 64 is often the outer surface of the automobile, and it is disliked that the opposite surface 613 is affected by the heat of welding. However, since welding to the after-hem portion 101 has been conventionally performed by carbon dioxide welding or spot welding, which has a large amount of heat input, it has been difficult to completely remove the heat effect.

【0005】一方、レーザ溶接は入熱量が小さく、溶接
箇所4の反対側の面613に熱影響を残すことが少な
い。このため、アフターヘム部101の溶接にはレーザ
溶接の導入が検討されつつある。
On the other hand, laser welding has a small amount of heat input and rarely leaves a heat effect on the surface 613 opposite to the welding spot 4. For this reason, introduction of laser welding is being considered for welding the after-hem portion 101.

【0006】[0006]

【発明が解決しようとする課題】しかし、アフターヘム
部101の袋状になった部分には、図6(B)に示すよ
うに、鋼板620のコバ(端部621)の錆を防ぐた
め、シーラント(シール剤)63が塗布される場合が多
い。このシーラント63は、折り曲げ時にそのプレス圧
力によって溶接箇所64まで回り込む場合があり、この
ような部分にレーザ溶接を行うとブローホールが起こり
やすくなり、シーラント63は気化して矢印Cで示すよ
うに、溶接箇所64から吹き出してしまう。これは溶接
時に鋼板610、620を溶融させる温度よりシーラン
ト63が気化する温度が低く、またその蒸発圧力も高い
ために、その気化したシーラント63が鋼板610、6
20の溶融した部分を吹き飛ばしてしまうためである。
このため、アフターヘム部101にレーザ溶接を行って
も、良好な溶接を得ることができなかった。
However, in the bag-shaped portion of the afterhem portion 101, as shown in FIG. 6B, in order to prevent the edge (end portion 621) of the steel plate 620 from rusting, A sealant (sealant) 63 is often applied. The sealant 63 may wrap around to the welded portion 64 due to the pressing pressure at the time of bending, and when laser welding is performed on such a portion, blowholes easily occur, and the sealant 63 vaporizes and, as shown by an arrow C, It blows out from the welding point 64. This is because the temperature at which the sealant 63 vaporizes is lower than the temperature at which the steel plates 610 and 620 are melted during welding, and the vaporization pressure thereof is also higher, so that the vaporized sealant 63 is at a higher temperature.
This is because the melted portion of 20 is blown off.
Therefore, even if the after-hem portion 101 is laser-welded, good welding cannot be obtained.

【0007】本発明はこのような点に鑑みてなされたも
のであり、アフターヘム部に良好なレーザ溶接を行うこ
とができるレーザ溶接方法を提供することを目的とす
る。
The present invention has been made in view of the above points, and an object thereof is to provide a laser welding method capable of performing favorable laser welding on an afterhem portion.

【0008】[0008]

【課題を解決するための手段】本発明では上記課題を解
決するために、重ね合わせた2枚の金属板の内、一方の
金属板の端部を折り曲げて3枚重ねになった折り曲げ部
にレーザビームを照射して行うレーザ溶接方法におい
て、前記一方の金属板の折り曲げ部の幅を広くとり、前
記折り曲げ部の折り曲げ屈曲部分から前記折り曲げ部の
溶接箇所までの距離を長くしたことを特徴とするレーザ
溶接方法が、提供される。
According to the present invention, in order to solve the above-mentioned problems, one of two metal plates that are superposed is bent to form a bent portion in which three metal plates are superposed. In the laser welding method performed by irradiating a laser beam, the width of the bent portion of the one metal plate is widened, and the distance from the bent portion of the bent portion to the welded portion of the bent portion is lengthened. A laser welding method is provided.

【0009】[0009]

【作用】アフターヘム部を形成する際に、一方の金属板
の折り曲げ部の幅を広くとり、その折り曲げ部の折り曲
げ屈曲部分から折り曲げ部の溶接箇所までの距離を長く
したので、溶接箇所からシーラントまでの距離も長くな
り、袋状になった部分のシーラントが溶接箇所まで回り
込むのを防止することができる。このため、レーザ溶接
時のシーラント気化によるブローホールの発生を防止す
ることができる。また、レーザ溶接による入熱量は小さ
いので、溶接箇所の反対側の面に熱影響を及ぼすことも
ない。
[Function] When forming the afterhem portion, the width of the bent portion of one metal plate is widened, and the distance from the bent portion of the bent portion to the welded portion of the bent portion is lengthened. It is possible to prevent the sealant in the bag-shaped part from wrapping around to the welded part. Therefore, it is possible to prevent the generation of blow holes due to vaporization of the sealant during laser welding. Further, since the heat input amount by the laser welding is small, the surface on the side opposite to the welded portion is not affected by heat.

【0010】[0010]

【実施例】以下、本発明の一実施例を図面に基づいて説
明する。図1は本発明によるアフターヘム部へのレーザ
溶接を示す図であり、(A)はアフターヘム部の平面図
を、(B)は(A)のX−X断面をそれぞれ示す。図に
おいて、2枚の鋼板1及び2を溶接する際に、一方の鋼
板1の端部11を折り曲げ、その折り曲げた端部11で
他方の鋼板2の端部21を覆って固定し、3枚重ねとな
ったアフターヘム部100の上から2枚の鋼板1及び2
を溶接する。
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. 1A and 1B are views showing laser welding to an afterhem portion according to the present invention. FIG. 1A is a plan view of the afterhem portion, and FIG. 1B is a sectional view taken along line XX of FIG. In the figure, when welding two steel plates 1 and 2, one end 11 of one steel plate 1 is bent, the end 21 of the other steel plate 2 is covered and fixed by the bent end 11, and Two steel plates 1 and 2 from the top of the overlapped after hem 100
To weld.

【0011】このアフターヘム部100を形成する際
に、鋼板1の屈曲部分12から端部11までの幅を広く
とり、その屈曲部分12から溶接箇所4までの距離も長
くした。このため、溶接箇所4からシーラント3までの
距離も長くなり、袋状になった部分のシーラント3が溶
接箇所4まで回り込むのを防止することができ、レーザ
溶接時のシーラント3の気化によるブローホールの発生
を防止することができる。また、レーザ溶接による入熱
量は小さいので、溶接箇所4の反対側の面13に熱影響
を及ぼすこともない。したがって、アフターヘム部10
0に良好なレーザ溶接を行うことができる。
When forming the after-hem portion 100, the width from the bent portion 12 to the end portion 11 of the steel plate 1 was widened, and the distance from the bent portion 12 to the welded portion 4 was also lengthened. Therefore, the distance from the welded portion 4 to the sealant 3 also becomes long, and the bag-shaped sealant 3 can be prevented from wrapping around to the welded portion 4, and the blowhole due to vaporization of the sealant 3 during laser welding can be prevented. Can be prevented. Further, since the amount of heat input by laser welding is small, the surface 13 on the opposite side of the welded portion 4 is not affected by heat. Therefore, the after hem section 10
Good laser welding can be performed.

【0012】図2は第2の実施例を示す図であり、
(A)はアフターヘム部の平面図を、(B)は(A)の
X1−X1断面をそれぞれ示す。この実施例では、アフ
ターヘム部100aを形成する際に、鋼板1a側で、鋼
板1aの端部11aの溶接箇所4aと屈曲部分12aと
の間に穴14aを設けている。このように、鋼板1aの
溶接箇所4aの近傍に穴14aを設けたので、シーラン
ト3aが溶接箇所4aに回り込んできても、そのシーラ
ント3aは穴14aから排出され、レーザ溶接時にその
シーラント3aが気化してもブローホールを引き起こす
ことはない。また、レーザ溶接による入熱量は小さいの
で、溶接箇所4aの反対側の面13aに熱影響を及ぼす
こともなく、アフターヘム部100aに良好なレーザ溶
接を行うことができる。
FIG. 2 is a diagram showing a second embodiment,
(A) is a plan view of the afterhem portion, and (B) is a cross section taken along line X1-X1 of (A). In this embodiment, when forming the after hem portion 100a, a hole 14a is provided on the steel plate 1a side between the welded portion 4a of the end portion 11a of the steel plate 1a and the bent portion 12a. Since the hole 14a is provided in the vicinity of the welded portion 4a of the steel plate 1a in this manner, even if the sealant 3a goes around the welded portion 4a, the sealant 3a is discharged from the hole 14a and the sealant 3a is laser-welded. Even if vaporized, it does not cause blowholes. Further, since the heat input amount by the laser welding is small, it is possible to perform favorable laser welding on the afterhem portion 100a without affecting the surface 13a on the opposite side of the welding portion 4a.

【0013】図3は第3の実施例を示す図であり、
(A)はアフターヘム部の平面図を、(B)は(A)の
X2−X2断面をそれぞれ示す。この実施例では、アフ
ターヘム部100bを形成する際に、鋼板1bを、鋼板
1bの端部11bの溶接箇所4bと屈曲部分12bとの
間で湾曲させて湾曲部分14bを設け、その内側に空洞
部分15bを設けている。このように、鋼板1bをその
溶接箇所4bの近傍で湾曲させてその内側に空洞部分1
5bを設けたので、シーラント3bが溶接箇所4bに回
り込んできても、そのシーラント3bは空洞部分15b
に溜まる。また、レーザ溶接時にそのシーラント3bが
気化しても空洞部分15bがあるため、そのガス圧力は
吸収されブローホールを引き起こすには至らない。さら
に、レーザ溶接による入熱量は小さいので、溶接箇所4
bの反対側の面13bに熱影響を及ぼすこともなく、ア
フターヘム部100bに良好なレーザ溶接を行うことが
できる。
FIG. 3 is a diagram showing a third embodiment,
(A) is a plan view of the afterhem portion, and (B) is a cross section taken along line X2-X2 of (A). In this embodiment, when the after-hem portion 100b is formed, the steel plate 1b is curved between the welded portion 4b of the end portion 11b of the steel plate 1b and the bent portion 12b to provide a curved portion 14b, and a cavity is formed inside thereof. A portion 15b is provided. Thus, the steel plate 1b is curved in the vicinity of the welded portion 4b and the hollow portion 1 is formed inside the curved portion.
Since the sealant 3b is provided, even if the sealant 3b wraps around the welding spot 4b, the sealant 3b still has a hollow portion 15b.
Accumulate in. Further, even if the sealant 3b is vaporized at the time of laser welding, since the hollow portion 15b exists, the gas pressure is not absorbed and does not cause a blow hole. Furthermore, since the heat input by laser welding is small, the welding point 4
Good laser welding can be performed on the after hem portion 100b without affecting the surface 13b on the opposite side of b from heat.

【0014】図4は第4の実施例を示す図であり、
(A)はアフターヘム部の平面図を、(B)は(A)の
X3−X3断面をそれぞれ示す。この実施例では、アフ
ターヘム部100cを形成する際に、3枚重ねの真ん中
に位置する鋼板2c側で、溶接箇所4cと鋼板2cの端
部21cとの間に穴22cを設けている。このように、
鋼板2cの溶接箇所4cの近傍に穴22cを設けたの
で、シーラント3cが溶接箇所4cに回り込んできて
も、そのシーラント3cは穴22cに溜まり、レーザ溶
接時にそのシーラント3cが気化しても穴22cがある
ため、そのガス圧力は吸収されブローホールを引き起こ
すには至らない。さらに、レーザ溶接による入熱量は小
さいので、溶接箇所4cの反対側の面13cに熱影響を
及ぼすこともなく、アフターヘム部100cに良好なレ
ーザ溶接を行うことができる。
FIG. 4 is a diagram showing a fourth embodiment,
(A) is a plan view of an afterhem part, (B) shows the X3-X3 cross section of (A), respectively. In this embodiment, when the after-hem portion 100c is formed, the hole 22c is provided between the welded portion 4c and the end portion 21c of the steel plate 2c on the steel plate 2c side located in the middle of the three-layer stack. in this way,
Since the hole 22c is provided in the vicinity of the welded portion 4c of the steel plate 2c, even if the sealant 3c wraps around the welded portion 4c, the sealant 3c remains in the hole 22c, and even if the sealant 3c vaporizes during laser welding Since there is 22c, the gas pressure is not absorbed and does not cause blowholes. Further, since the amount of heat input by the laser welding is small, it is possible to perform favorable laser welding on the afterhem portion 100c without affecting the surface 13c on the opposite side of the welding portion 4c.

【0015】図5は第5の実施例を示す図であり、
(A)はアフターヘム部の平面図を、(B)は(A)の
X4−X4断面をそれぞれ示す。この実施例では、アフ
ターヘム部100dを形成する際に、3枚重ねの真ん中
に位置する鋼板2d側において、溶接箇所4dの近傍で
屈曲部分12d側に切り欠き部分22dを設けている。
このように、鋼板2dの溶接箇所4dの近傍に切り欠き
部分22dを設けたので、シーラント3dが溶接箇所4
dに回り込んできても、そのシーラント3dは切り欠き
部分22dに溜まり、レーザ溶接時にそのシーラント3
dが気化しても切り欠き部分22dがあるため、そのガ
ス圧力は吸収されブローホールを引き起こすには至らな
い。さらに、レーザ溶接による入熱量は小さいので、溶
接箇所4dの反対側の面13dに熱影響を及ぼすことも
なく、アフターヘム部100dに良好なレーザ溶接を行
うことができる。
FIG. 5 is a diagram showing a fifth embodiment,
(A) is a plan view of the afterhem portion, and (B) is a cross section taken along line X4-X4 of (A). In this embodiment, when forming the after hem portion 100d, a cutout portion 22d is provided on the bent portion 12d side near the welded portion 4d on the side of the steel sheet 2d located in the middle of the stack of three sheets.
Since the cutout portion 22d is provided in the vicinity of the welded portion 4d of the steel plate 2d in this manner, the sealant 3d is welded to the welded portion 4d.
Even if the sealant 3d goes around, the sealant 3d collects in the notch 22d, and the sealant 3d is laser-welded.
Even if d is vaporized, since the cutout portion 22d exists, the gas pressure is not absorbed and does not cause a blowhole. Further, since the amount of heat input by the laser welding is small, it is possible to perform good laser welding on the afterhem portion 100d without affecting the surface 13d on the opposite side of the welding spot 4d.

【0016】[0016]

【発明の効果】以上説明したように本発明では、アフタ
ーヘム部を形成する際に、一方の金属板の折り曲げ部の
幅を広くとり、その折り曲げ部の折り曲げ屈曲部分から
折り曲げ部の溶接箇所までの距離を長くしたので、溶接
箇所からシーラントまでの距離も長くなり、袋状になっ
た部分のシーラントが溶接箇所まで回り込むのを防止す
ることができる。
As described above, according to the present invention, when the afterhem portion is formed, the width of the bent portion of one metal plate is widened, and the bent portion of the bent portion to the welded portion of the bent portion. Since the distance is increased, the distance from the welded portion to the sealant is also increased, and the sealant in the bag-shaped portion can be prevented from wrapping around to the welded portion.

【0017】このため、レーザ溶接時のシーラント気化
によるブローホールの発生を防止することができる。ま
た、レーザ溶接による入熱量は小さいので、溶接箇所の
反対側の面に熱影響を及ぼすこともない。
Therefore, it is possible to prevent the generation of blow holes due to vaporization of the sealant during laser welding. Further, since the heat input amount by the laser welding is small, the surface on the side opposite to the welded portion is not affected by heat.

【0018】したがって、アフターヘム部に良好なレー
ザ溶接を行うことができる。
Therefore, good laser welding can be performed on the afterhem portion.

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

【図1】本発明によるアフターヘム部へのレーザ溶接を
示す図であり、(A)はアフターヘム部の平面図を、
(B)は(A)のX−X断面をそれぞれ示す。
FIG. 1 is a diagram showing laser welding to an afterhem portion according to the present invention, (A) is a plan view of the afterhem portion,
(B) shows the XX cross section of (A), respectively.

【図2】第2の実施例を示す図であり、(A)はアフタ
ーヘム部の平面図を、(B)は(A)のX1−X1断面
をそれぞれ示す。
FIG. 2 is a diagram showing a second embodiment, (A) is a plan view of an afterhem portion, and (B) is a cross section taken along line X1-X1 of (A).

【図3】第3の実施例を示す図であり、(A)はアフタ
ーヘム部の平面図を、(B)は(A)のX2−X2断面
をそれぞれ示す。
3A and 3B are views showing a third embodiment, FIG. 3A is a plan view of an afterhem portion, and FIG. 3B is a sectional view taken along line X2-X2 of FIG. 3A.

【図4】第4の実施例を示す図であり、(A)はアフタ
ーヘム部の平面図を、(B)は(A)のX3−X3断面
をそれぞれ示す。
FIG. 4 is a view showing a fourth embodiment, (A) is a plan view of an afterhem portion, and (B) is a cross section taken along line X3-X3 of (A).

【図5】第5の実施例を示す図であり、(A)はアフタ
ーヘム部の平面図を、(B)は(A)のX4−X4断面
をそれぞれ示す。
FIG. 5 is a diagram showing a fifth embodiment, (A) is a plan view of an afterhem portion, and (B) is a cross section taken along line X4-X4 of (A).

【図6】アフターヘム部の溶接の説明図であり、(A)
はアフターヘム部の全体図を、(B)は(A)のX6−
X6断面をそれぞれ示す。
FIG. 6 is an explanatory view of welding of an after hem part, (A)
Is an overall view of the afterhem part, (B) is X6-of (A)
Each X6 cross section is shown.

【符号の説明】[Explanation of symbols]

1,1a,1b,1c,1d 鋼板 2,2a,2b,2c,2d 鋼板 3,3a,3b,3c,3d シーラント 4,4a,4b,4c,4d 溶接箇所 11,11a,11b,11c,11d 端部 12,12a,12b,12c,12d 屈曲部分 13,13a,13b,13c,13d 溶接箇所の反
対側の面 14a,22c 穴 14b 湾曲部分 15b 空洞部分 21,21c 端部 22d 切り欠き部分 100,100a,100b,100c,100d ア
フターヘム部
1, 1a, 1b, 1c, 1d Steel plate 2, 2a, 2b, 2c, 2d Steel plate 3, 3a, 3b, 3c, 3d Sealant 4, 4a, 4b, 4c, 4d Welding point 11, 11a, 11b, 11c, 11d Ends 12, 12a, 12b, 12c, 12d Bent parts 13, 13a, 13b, 13c, 13d Surfaces opposite to the welded parts 14a, 22c Holes 14b Curved parts 15b Cavity parts 21, 21c Ends 22d Notched parts 100, 100a, 100b, 100c, 100d After-hem part

Claims (5)

【特許請求の範囲】[Claims] 【請求項1】 重ね合わせた2枚の金属板の内、一方の
金属板の端部を折り曲げて3枚重ねになった折り曲げ部
にレーザビームを照射して行うレーザ溶接方法におい
て、 前記一方の金属板の折り曲げ部の幅を広くとり、前記折
り曲げ部の折り曲げ屈曲部分から前記折り曲げ部の溶接
箇所までの距離を長くしたことを特徴とするレーザ溶接
方法。
1. A laser welding method in which an end portion of one metal plate of two metal plates that are stacked is bent to irradiate a laser beam to a bent part where three metal plates are stacked. A laser welding method, characterized in that a width of a bent portion of a metal plate is widened and a distance from a bent portion of the bent portion to a welding portion of the bent portion is lengthened.
【請求項2】 重ね合わせた2枚の金属板の内、一方の
金属板の端部を折り曲げて3枚重ねになった折り曲げ部
にレーザビームを照射して行うレーザ溶接方法におい
て、 前記一方の金属板側で、前記折り曲げ部の溶接箇所と前
記折り曲げ部の折り曲げ屈曲部分との間に穴を設けたこ
とを特徴とする請求項1記載のレーザ溶接方法。
2. A laser welding method in which an end portion of one metal plate of two superposed metal plates is bent to irradiate a laser beam to a bent portion where three metal plates are superposed, The laser welding method according to claim 1, wherein a hole is provided between the welded portion of the bent portion and the bent portion of the bent portion on the metal plate side.
【請求項3】 重ね合わせた2枚の金属板の内、一方の
金属板の端部を折り曲げて3枚重ねになった折り曲げ部
にレーザビームを照射して行うレーザ溶接方法におい
て、 前記折り曲げ部の溶接箇所と前記折り曲げ部の折り曲げ
屈曲部分との間で、前記一方の金属板を湾曲させて空洞
部分を設けたことを特徴とする請求項1記載のレーザ溶
接方法。
3. A laser welding method in which an end portion of one metal plate of two superposed metal plates is bent to irradiate a laser beam to a bent portion of three superposed metal plates, wherein the bent portion is formed. 2. The laser welding method according to claim 1, wherein the one metal plate is curved to provide a hollow portion between the welded portion and the bent portion of the bent portion.
【請求項4】 重ね合わせた2枚の金属板の内、一方の
金属板の端部を折り曲げて3枚重ねになった折り曲げ部
にレーザビームを照射して行うレーザ溶接方法におい
て、 前記3枚重ねの真ん中に位置する他方の金属板側で、前
記折り曲げ部の溶接箇所と前記他方の金属板の端部との
間に位置する部分に穴を設けたことを特徴とするレーザ
溶接方法。
4. A laser welding method which comprises radiating a laser beam to a folded portion where three metal sheets are folded by bending an end portion of one of the two metal sheets that have been overlapped with each other. A laser welding method, characterized in that, on the side of the other metal plate located in the middle of the stack, a hole is provided in a portion located between the welded portion of the bent portion and the end of the other metal plate.
【請求項5】 重ね合わせた2枚の金属板の内、一方の
金属板の端部を折り曲げて3枚重ねになった折り曲げ部
にレーザビームを照射して行うレーザ溶接方法におい
て、 前記3枚重ねの真ん中に位置する他方の金属板側で、前
記折り曲げ部の溶接箇所の近傍で前記折り曲げ部の屈曲
部分側に切り欠き部分を設けたことを特徴とするレーザ
溶接方法。
5. A laser welding method which comprises radiating a laser beam to a bent portion where three metal sheets are folded by bending an end portion of one of the two metal sheets which are overlapped with each other. A laser welding method, characterized in that, on the side of the other metal plate located in the middle of the overlap, a cutout portion is provided on the bent portion side of the bent portion in the vicinity of the welded portion of the bent portion.
JP5080400A 1993-04-07 1993-04-07 Laser welding method Withdrawn JPH06285659A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP5080400A JPH06285659A (en) 1993-04-07 1993-04-07 Laser welding method

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP5080400A JPH06285659A (en) 1993-04-07 1993-04-07 Laser welding method

Publications (1)

Publication Number Publication Date
JPH06285659A true JPH06285659A (en) 1994-10-11

Family

ID=13717243

Family Applications (1)

Application Number Title Priority Date Filing Date
JP5080400A Withdrawn JPH06285659A (en) 1993-04-07 1993-04-07 Laser welding method

Country Status (1)

Country Link
JP (1) JPH06285659A (en)

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5897796A (en) * 1997-06-16 1999-04-27 Chrysler Corporation Method and apparatus for in-situ laser welding of hemmed joints
US6344626B1 (en) * 1999-05-06 2002-02-05 Progressive Tool & Industries Co. Apparatus and method for laser welding in a hemmer apparatus
JP2006000893A (en) * 2004-06-17 2006-01-05 Nissan Motor Co Ltd Laser welding method
JP2008307584A (en) * 2007-06-15 2008-12-25 Honda Motor Co Ltd Manufacturing method of edge-bending connection structure
US8042372B2 (en) * 2008-03-14 2011-10-25 GM Global Technology Operations LLC Method of making an automotive closure panel assembly
US20110271728A1 (en) * 2010-05-05 2011-11-10 Vanimisetti Sampath K Roller hemming with in-situ adhesive curing
JP2015174524A (en) * 2014-03-14 2015-10-05 スズキ株式会社 sash door structure

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5897796A (en) * 1997-06-16 1999-04-27 Chrysler Corporation Method and apparatus for in-situ laser welding of hemmed joints
US6344626B1 (en) * 1999-05-06 2002-02-05 Progressive Tool & Industries Co. Apparatus and method for laser welding in a hemmer apparatus
JP2006000893A (en) * 2004-06-17 2006-01-05 Nissan Motor Co Ltd Laser welding method
JP2008307584A (en) * 2007-06-15 2008-12-25 Honda Motor Co Ltd Manufacturing method of edge-bending connection structure
US8157943B2 (en) 2007-06-15 2012-04-17 Honda Motor Co., Ltd. Method for producing hemmed joint structure
US8042372B2 (en) * 2008-03-14 2011-10-25 GM Global Technology Operations LLC Method of making an automotive closure panel assembly
US20110271728A1 (en) * 2010-05-05 2011-11-10 Vanimisetti Sampath K Roller hemming with in-situ adhesive curing
US8341992B2 (en) * 2010-05-05 2013-01-01 GM Global Technology Operations LLC Roller hemming with in-situ adhesive curing
JP2015174524A (en) * 2014-03-14 2015-10-05 スズキ株式会社 sash door structure

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