JPS5992189A - Production of steel plate frame - Google Patents

Abstract

PURPOSE:To produce a steel plate frame having high resistance to fatigue and bending stength at a high speed by irradiating laser light in the shape wherein an arc and a straight line are adequately combined in the stage of irradiating the laser light to two superposed main parts from the one main part and joining the two parts. CONSTITUTION:A steel plate 1 and a reinforcing frame 2 are superposed and is irradiated with laser light 4 from the side of the frame 2. A program is beforehand inputted to an NC control device 11 and an XY beam scanner 13 is moved to, for example, an S shape by the control of the device 11 whereby the weld zone 15 of the frame 2 and the plate 1 is formed to the S shape in the stage of irradiating the laser light 4. The S shape is made into an adequate shape wherein an arc and an arc, an arc and a straight line, a straight line and a straight line are made continuous. The steel plate frame having reliability in quality is thus formed.

Description

【発明の詳細な説明】 〔発明の技術分野〕 本発明は鋼板枠の製造に係り、特（二環板補強フレーム
を用いる鋼板枠の製造方法に関する。DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] The present invention relates to the manufacture of steel plate frames, and particularly to a method of manufacturing a steel plate frame using a two-ring plate reinforcement frame.

〔発明の従来技術〕[Prior art to the invention]

周知のようにＭ板の表面（二塩化ビニールシートや合成
樹脂板等の非金属杓料を接看した化粧鋼板、あるいは表
面を化学処理した鋼板、又は表面を研１１式加工した％
ｊ板はエレベータの扉や制御盤デスクの表面等外観を美
しくし、又尚耐汚染性製品として広く使用されている。As is well known, the surface of M plate (decorative steel plate that has been exposed to non-metallic materials such as vinyl dichloride sheet or synthetic resin plate, or steel plate whose surface has been chemically treated, or whose surface has been polished using Type 11 polishing)
J-board makes the appearance of elevator doors and control desks beautiful, and is widely used as a stain-resistant product.

これ等鋼板と補強フレームを接合して鋼板枠を製造する
には、銅板に補強フレームを仮止めし、抵抗溶接機又は
アーク溶接機により溶接を行ない接合することが普通で
あった。これらの方法によると、圧こんや溶接歪が生じ
ることが多く、このためこの缶を修正しなけ肚ばならな
い。このむ正作業には、熟練と多大な時間を要すし、又
圧こんについては、塗装時の前処理工程でパテ加工を要
して・いた。上記したように抵抗溶接又はアーク溶接機
よると、圧こんや溶接歪が生じる欠点があり、この欠点
を防ぐ方法として、第１図および第２図に示すように、
レーザな用いて銅板と補強フレームを接合する方法があ
る。即ち第１図に示すように、鋼板ｌと補強フレーム２
を重ね合せ、これに炭酸ガスレーデ装置３より発生する
レーザ光４を反射鏡５により屈折し、集光レンズ６によ
り集光して補強フレーム２の表面にＩＲ４射する。レー
ザ光４が補強フレーム２に照射されると、第２図に示す
よう（″−溶接部７が生じ鋼板１と補強フレーム２が接
合さオする。In order to manufacture a steel plate frame by joining these steel plates and reinforcing frames, it has been common practice to temporarily fasten the reinforcing frames to the copper plates and weld them using a resistance welder or an arc welder. These methods often result in dents and weld distortions, which require the can to be repaired. This manual work requires skill and a great deal of time, and the indentations require putty processing in the pretreatment process before painting. As mentioned above, resistance welding or arc welding machines have the disadvantage of causing indentation and welding distortion.As a way to prevent this disadvantage, as shown in Figs. 1 and 2,
There is a method of joining a copper plate and a reinforcing frame using a laser. That is, as shown in FIG. 1, a steel plate 1 and a reinforcing frame 2
A laser beam 4 generated by a carbon dioxide gas radar device 3 is refracted by a reflecting mirror 5, condensed by a condensing lens 6, and irradiated with IR4 onto the surface of the reinforcing frame 2. When the reinforcing frame 2 is irradiated with the laser beam 4, a weld 7 is formed and the steel plate 1 and the reinforcing frame 2 are joined together, as shown in FIG.

ところで、補強フレーム２と鋼板１の引張り強度は、補
強フレーム２と鋼板１の溶接断面積に比例するが、レー
ザ光等の高エネルギー密度熱源（二より溶接さｒた溶接
部の溶接と一ド幅Ｗは他のアーク溶接等のそれに比較し
て極端に小さい。そのため引張り強度を確保することに
ついては溶接長を増加させることにより解決できるが、
鋼板枠はエレベータや配電盤パネルなど非常に振動の多
い構造物に使用するため、この方法では充分な疲労強度
と剪断強度が得られない欠点がある。又充分な強度を曜
保するためビーム径を大きくして溶接ビード幅を大きく
することも考えられるが、溶接部が大きくなる等の他の
問題が発生する。By the way, the tensile strength of the reinforcing frame 2 and the steel plate 1 is proportional to the welded cross-sectional area of the reinforcing frame 2 and the steel plate 1. The width W is extremely small compared to that of other types of arc welding. Therefore, securing tensile strength can be solved by increasing the welding length.
Since steel plate frames are used in structures that experience high levels of vibration, such as elevators and switchboard panels, this method has the disadvantage that sufficient fatigue strength and shear strength cannot be obtained. It is also conceivable to increase the beam diameter to increase the weld bead width in order to maintain sufficient strength, but this may cause other problems such as the welding area becoming larger.

そこで第３図に示すように、溶接を２飼所又は七ね以上
の飼数溶接して強度を確保する方法もあるが、ビームの
シャッタの開閉やシールドガスの開閉の時間を増加した
り、ビームスキャナーを新しい溶接開始点まで移動させ
る時間や新しい段取時間など高速溶接を要求する涯密度
エネルギー溶接においては時間のロスとなり大きな欠点
である。Therefore, as shown in Fig. 3, there is a method of welding two or more welds to ensure strength, but this method requires increasing the time for opening and closing the beam shutter and shielding gas. This is a major drawback as it results in a loss of time in total density energy welding, which requires high-speed welding, such as the time required to move the beam scanner to a new welding start point and the time needed to make new setups.

〔発明の目的〕[Purpose of the invention]

本発明は上記の欠点に鑑みなされたもので、高速でかつ
充分な引張り強度疲労強度および剪断強度を消する鋼板
枠の製造方法を提供することを目的とするものである。The present invention has been made in view of the above-mentioned drawbacks, and an object of the present invention is to provide a method for manufacturing a steel plate frame at high speed and with sufficient tensile strength, fatigue strength, and shear strength.

〔発明の概要〕[Summary of the invention]

本発明は、高エネルギー密度を有するビームを、円弧と
円弧、円弧と直線、直線と直線の連らなった形状に照射
して溶接部を形成する点に特徴を有する。The present invention is characterized in that a welded portion is formed by irradiating a beam having a high energy density in a shape that is a series of arcs and arcs, arcs and straight lines, and straight lines.

〔発明の実施例〕[Embodiments of the invention]

以下、添附図面にしたがって、本発明の一実施例を説明
する。まず本発明に用いる溶接装置の概要を第４図につ
いて説明する。１１はＮＣ制御装置、１２はビームを水
平面内で直交するＸ、Ｙ方向に移動させるビームスキャ
ナー１３７！：　Ｎ　Ｃｊｌｉｌｌ　ｍｌ装置１１を接
続するケーブル、１４は垂直（Ｚ）方向に動くビーム伝
送装置である。次に本発明による溶接について説明する
。同図（＝示すよう（二、銅板ｌとイ＋ｕ　怖フレーム
２を重ね合せ、補強フレーム２の側からレーザー光４を
照射する。このレーザー光４を照射する時、あらかじめ
プログラムをＮＣ制御装置１１に入力しておき、ＮＣ制
御装置１１の制御によりＸＹビームスキャナー１３をＳ
字形に移動させることにより補強フレーム２と鋼板１と
の溶接部１５を第５図（−示すような形状とする。An embodiment of the present invention will be described below with reference to the accompanying drawings. First, the outline of the welding apparatus used in the present invention will be explained with reference to FIG. 11 is an NC control device, and 12 is a beam scanner 137 that moves the beam in orthogonal X and Y directions in a horizontal plane! A cable connecting the N Cjll ml device 11, 14 is a beam transmission device that moves in the vertical (Z) direction. Next, welding according to the present invention will be explained. As shown in the same figure (=(2. Copper plates l and i+u) The frame 2 is superimposed and the laser beam 4 is irradiated from the side of the reinforcing frame 2. When irradiating this laser beam 4, a program is written in advance to the NC controller 11. is input, and the XY beam scanner 13 is set to S under the control of the NC control device 11.
By moving it in the shape of a letter, the welded part 15 between the reinforcing frame 2 and the steel plate 1 is shaped as shown in FIG. 5 (-).

この溶接部７の形状は、第６図（ａｌに示す円又は楕円
、（ｂｌに示す田状、（Ｃ）に示す菖状その他任意の形
状としてもよいことは、いうまでもない。It goes without saying that the shape of the welded portion 7 may be a circle or an ellipse as shown in FIG.

本発明者等の実験（二よ肚ば、補強部組２の板厚３．２
ｊｌｌ＋、鋼板１の板厚２．３鮎の場合において、溶接
条件出力２５應、溶接速度１　ｍ　／　ｍｉｎでは曲げ
強度が１．２〜１．５倍となる結果を得た。又同一強度
を得る条件下においては、第４図に示す２本酵接ビード
とする場合と比較して、２０％以上、又１工程の時間が
短縮さｎる結果を得た。こｎは高速溶接を要求される鋼
板枠の製造において大きな利点である。Experiments by the present inventors (Secondly, the plate thickness of reinforcing part set 2 was 3.2
In the case of Jll+, steel plate 1 with a thickness of 2.3, the bending strength was 1.2 to 1.5 times higher under welding conditions of output 25 ㎜ and welding speed 1 m/min. Furthermore, under the conditions for obtaining the same strength, the time for one step was shortened by more than 20% compared to the case of two-ferment welding beads shown in FIG. 4. This is a great advantage in manufacturing steel plate frames that require high-speed welding.

〔発明の効果〕〔Effect of the invention〕

以上説明したように本発明によりは、鋼板と補強フレー
ムを接合する場合、高速でがっ疲労強度および曲げ強度
の高い信頼性のある鋼板枠を製造することが可能であり
、製作工程を短縮し信頼性を向上する等の実用上の効果
が大きい。As explained above, according to the present invention, when joining a steel plate and a reinforcing frame, it is possible to manufacture a reliable steel plate frame with high fatigue strength and bending strength at high speed, and the manufacturing process can be shortened. This has great practical effects such as improving reliability.

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

第１図は従来のレーザ溶接方法を示す説明図、第２図は
従来のレーザー溶接方法による溶接部の断面図、第３因
は従来のレーザー溶接方法を示す説明図、第４図は本発
明の一実施例に使用する装置の概要を示す説明図、第５
図は本発明の一実施例の溶接部を示す説明図、第６図（
ａ）　（ｂ）　ｆｃ）は本発明の他の実施例の溶接部を
示す説明図である。 １・・・鋼板、　　　　　　　２・・・補強フレーム４
・・・レーザ光　　　　　１５・・・溶接部（７３１７
）代理人　弁理士　則　近　憲　佑（ほか１名） 第１図 第２図 第３図 第５図 第６図Fig. 1 is an explanatory diagram showing a conventional laser welding method, Fig. 2 is a cross-sectional view of a welded part by a conventional laser welding method, the third factor is an explanatory diagram showing a conventional laser welding method, and Fig. 4 is an explanatory diagram showing the present invention. Explanatory diagram showing an outline of the apparatus used in one embodiment of the present invention, No. 5
The figure is an explanatory diagram showing a welded part in an embodiment of the present invention, and FIG.
a) (b) fc) are explanatory diagrams showing welded parts of other embodiments of the present invention. 1... Steel plate, 2... Reinforcement frame 4
... Laser light 15 ... Welding part (7317
)Representative Patent Attorney Kensuke Chika (and 1 other person) Figure 1 Figure 2 Figure 3 Figure 5 Figure 6

Claims (1)

【特許請求の範囲】[Claims] 接合する２個の主体部の一方の主体部から高エネルギー
密度を有するビームを照射して溶接を行なう鋼板枠の製
造方法において、前記高エネルギー密度を有するビーム
を連続した円弧と円弧、円弧と直線および直線と直線に
より構成された形状（二移動させて他方の主体部と溶接
することを特徴とする鋼板枠の製造方法。In a method of manufacturing a steel plate frame in which welding is performed by irradiating a beam having a high energy density from one of two main bodies to be joined, the beam having a high energy density is welded by a continuous arc and a continuous arc, and a circular arc and a straight line. and a method for manufacturing a steel plate frame, characterized in that the shape is composed of straight lines (the frame is moved twice and welded to the other main body part).