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JP2006192448A - Method for manufacturing flat ring member - Google Patents

Method for manufacturing flat ring member Download PDF

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Publication number
JP2006192448A
JP2006192448A JP2005004428A JP2005004428A JP2006192448A JP 2006192448 A JP2006192448 A JP 2006192448A JP 2005004428 A JP2005004428 A JP 2005004428A JP 2005004428 A JP2005004428 A JP 2005004428A JP 2006192448 A JP2006192448 A JP 2006192448A
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strip
steel material
ring member
flat ring
shaped steel
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Akihiro Yamanaka
章裕 山中
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HIROSE TECHNOLOGY KK
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HIROSE TECHNOLOGY KK
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Abstract

<P>PROBLEM TO BE SOLVED: To provide a manufacturing method of a flat ring member which is advantageous to the cost. <P>SOLUTION: Belt-shaped steel W1 which is formed having a taper-like unequal thickness so that one side is thick and the other side is thin between a receiving member 21 having a concave curved surface 23 and a hammer 22 which is arranged oppositely to the concave curved surface 23 is continuously fed so that the thick side is along the concave curved surface 23 and coiling formation is performed while flattening the belt-like steel W1 is flattened into equal thickness by continuously striking the thin thickness side of the belt-like steel W1 with the hammer 22. The flat ring member having an end shape is cut out by cutting the coiled belt-like steel W1 into every approximately one roll. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

本発明は、例えば自動車のドライブプレートやリングギア等の扁平リング部材を製造する過程で得られる扁平リング部材の製造方法に関するものである。   The present invention relates to a method for manufacturing a flat ring member obtained in the process of manufacturing a flat ring member such as a drive plate or a ring gear of an automobile.

自動車のドライブプレートやリングギア等の扁平リング部材は、例えば鋼板をプレス機でリング状に打抜くか、または、扁平リング部材ほぼ一個分の帯状鋼材を幅広面が同一平面に位置するようにロール成形し、その後、重なり合った部分を切断して切断端部同士を溶接することによって製造されている。   Flat ring members such as drive plates and ring gears for automobiles can be rolled, for example, by punching steel plates into a ring shape with a press, or by rolling a strip of steel material for approximately one flat ring member so that the wide surfaces are on the same plane. It is manufactured by molding, and then cutting the overlapping parts and welding the cut ends.

鋼板をプレスによってリング状に打抜く方法は多くの端材が発生するため、材料のロスが多くコスト的に不利である。また、ほぼ一個分の帯状鋼材をロール成形して溶接する方法も、帯状鋼材の両端部を所望の曲率にロール成形することが困難で、かかる両端部を切断する必要があることから多くの端材が発生する。   The method of punching a steel sheet into a ring shape by a press generates many offcuts, which is disadvantageous in terms of cost because of many material losses. Also, the method of roll forming approximately one strip of steel is also difficult because it is difficult to roll form both ends of the strip steel to a desired curvature, and it is necessary to cut both ends. Material is generated.

かかる事情に鑑み、従来は、断面円形の鋼線材をリング状に湾曲する工程と、前記鋼線材を一巻回単位長さごとに切断する工程と、前記リング状の鋼線材の両端部を溶接して断面円形のリング線材を得る工程と、前記リング線材を巻回軸方向にプレスして所定肉厚のリング状プレート素材を得る工程と、前記リング状プレート素材の内径部及び/又は外径部を打ち抜き加工して所定形状のリング状プレート部材(以下、扁平リング部材という。)を得る工程とを含む方法が提案されている(例えば特許文献1参照)。   In view of such circumstances, conventionally, a step of bending a steel wire with a circular cross section into a ring shape, a step of cutting the steel wire material for each winding unit length, and welding both ends of the ring-shaped steel wire material A step of obtaining a ring wire having a circular cross section, a step of pressing the ring wire in the winding axis direction to obtain a ring-shaped plate material having a predetermined thickness, and an inner diameter portion and / or an outer diameter of the ring-shaped plate material. And a step of obtaining a ring-shaped plate member having a predetermined shape (hereinafter referred to as a flat ring member) by punching a portion (see, for example, Patent Document 1).

特開2000−042647号公報Japanese Patent Laid-Open No. 2000-042647

特許文献1に記載の方法は、断面円形の鋼線材をリング状に湾曲させ、一巻回単位長さごとに切断しているので、鋼線材の切断部分が所望の曲率にロール成形される。この方法では、ひとつのリング状素材を得るのに、鋼線材の両端のみが端材となり、鋼線材の切断部分に端材が生じない。しかし、リング素材から扁平リング部材を得るのに、さらにプレス工程と打抜き工程を要し、しかも打抜き工程で端材が生じる。   In the method described in Patent Document 1, a steel wire having a circular cross section is curved in a ring shape and cut for each winding unit length, so that the cut portion of the steel wire is roll-formed to a desired curvature. In this method, in order to obtain one ring-shaped material, only both ends of the steel wire become end material, and no end material is generated at the cut portion of the steel wire. However, in order to obtain a flat ring member from a ring material, a pressing process and a punching process are further required, and an end material is generated in the punching process.

本発明は斯かる実情に鑑み創案されたものであって、その目的は、工数及び端材を減少させることでコスト的に有利な扁平リング部材の製造方法を提供することにある。   The present invention has been devised in view of such circumstances, and an object thereof is to provide a method of manufacturing a flat ring member that is advantageous in terms of cost by reducing the number of man-hours and end materials.

本発明に係る扁平リング部材の製造方法は、上記目的を達成するため、凹曲面を有する受け部材と、前記凹曲面と対向配置したハンマとの間に、片側が肉厚で反対側が肉薄となるようテーパー状不等厚に形成された帯状鋼材を、その肉厚側が前記凹曲面に沿うように連続供給し、帯状鋼材の肉薄側を前記ハンマで連続的に打撃して前記帯状鋼材を等厚扁平化させながらコイリング成形する工程と、コイリングされた帯状鋼材をほぼ一巻分ごとに切断して有端状の扁平リング部材を切り出す工程とを含むことを特徴としている。   In order to achieve the above object, a method for manufacturing a flat ring member according to the present invention is such that one side is thick and the other side is thin between a receiving member having a concave curved surface and a hammer arranged opposite to the concave curved surface. The strip-shaped steel material formed in such a taper-like unequal thickness is continuously supplied so that the thickness side is along the concave curved surface, and the thin-wall side of the strip-shaped steel material is continuously hit with the hammer to make the strip-shaped steel material the same thickness. It includes a step of coiling while flattening, and a step of cutting the coiled strip-shaped steel material approximately every turn to cut an end-shaped flat ring member.

受け部材の凹曲面は、帯状鋼材の供給方向の断面輪郭が凹曲線状をなし、帯状鋼材の供給方向と直交する方向の断面輪郭がストレート状をなす。断面テーパー状の帯状鋼材を、その肉厚側が受け部材の凹曲面に沿うように受け部材とハンマの間に連続供給し、帯状鋼材の肉薄側をハンマで連続的に打撃すると、帯状鋼材の肉厚側が展延により減肉する一方、肉薄側が圧縮により増肉する。これにより、断面テーパ状の帯状鋼材は、等厚扁平化されながらコイリング成形される。また、帯状鋼材の肉厚側は受け部材の凹曲面に押し当てられることにより、肉薄側はハンマで叩かれることにより、厚み方向の断面輪郭がストレート状に成形され、又は維持される。したがって、帯状鋼材は、上記コイリング成形により断面テーパー状から断面略長方形状又は断面略正方形状に成形される。コイリングされた帯状鋼材をほぼ一巻分ごとに切断すると、有端状の扁平リング部材が得られる。有端状の扁平リング部材の端部はコイリング成形により所望の曲率に成形されているので、有端状の扁平リング部材から端材が生じない。また、有端状の扁平リング部材はコイリング成形により既に扁平化されているので、その両端部を接合することで扁平リング部材が得られる。この扁平リング部材は、帯状鋼材のコイリング成形時に外周部及び内周部の厚み方向がストレート状に成形されるので、外周部及び/又は内周部の打抜きが不要である。   In the concave curved surface of the receiving member, the cross-sectional contour in the supply direction of the strip-shaped steel material is a concave curve, and the cross-sectional contour in the direction orthogonal to the supply direction of the strip-shaped steel material is straight. When a strip-shaped steel material having a tapered cross section is continuously supplied between the receiving member and the hammer so that the thick side of the steel strip is along the concave curved surface of the receiving member, and the thin side of the strip-shaped steel material is continuously hit with a hammer, The thick side is thinned by spreading, while the thin side is thickened by compression. Thus, the strip-shaped steel material having a tapered cross section is coiled while being flattened to an equal thickness. Moreover, the cross-sectional contour in the thickness direction is formed or maintained in a straight shape by pressing the thick side of the strip steel material against the concave curved surface of the receiving member and hitting the thin side with a hammer. Therefore, the strip-shaped steel material is formed from a tapered cross section into a substantially rectangular section or a substantially square section by the coiling. When the coiled steel strip is cut almost every turn, an end-shaped flat ring member is obtained. Since the end of the end-like flat ring member is formed to have a desired curvature by coiling, no end material is generated from the end-like flat ring member. Moreover, since the flat flat ring member with an end is already flattened by coiling molding, the flat ring member can be obtained by joining both ends thereof. Since this flat ring member is formed so that the thickness direction of the outer peripheral portion and the inner peripheral portion is straight when coiling the strip-shaped steel material, punching of the outer peripheral portion and / or the inner peripheral portion is unnecessary.

本発明は前述の如く、断面テーパー状の帯状鋼材をコイリング成形する際に扁平化することで、プレスや打抜きが不要になり、また、打抜きを不要にすることで、打抜き時に生じていた端材が発生しなくなる。したがって、工数及び端材を減らして扁平リング部材の製造コストを低減させることができる。   As described above, the present invention eliminates the need for pressing or punching by flattening the strip-shaped steel material having a tapered cross-section, and eliminates the need for punching, and the end material generated at the time of punching. Will not occur. Therefore, the manufacturing cost of the flat ring member can be reduced by reducing the number of man-hours and the end material.

以下、図面を参照しつつ本発明の一実施形態について説明する。   Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

図1に断面テーパー状の帯状鋼材W1を示す。この帯状鋼材W1は、幅方向の片側W1aが肉厚で反対側W1bが肉薄に成形された断面台形状の長尺な線材である。帯状鋼材W1は、断面円形状の線材を圧延して成形するという製造上の理由とその運搬上の理由から、図示の如く幅方向をロール軸1の軸方向とほぼ同じ方向にしてロール状に巻回された状態で提供される。以下、帯状鋼材W1の幅方向片側を肉厚側W1a、反対側を肉薄側W1bという。   FIG. 1 shows a strip-shaped steel material W1 having a tapered cross section. This strip-shaped steel material W1 is a long wire having a trapezoidal cross section in which one side W1a in the width direction is thick and the opposite side W1b is thin. The strip-shaped steel material W1 is formed into a roll shape with the width direction being substantially the same as the axial direction of the roll shaft 1 as shown in the figure for the manufacturing reason of rolling and forming a wire having a circular cross section and the transportation reason. Provided in a wound state. Hereinafter, one side in the width direction of the strip-shaped steel material W1 is referred to as a thick side W1a, and the opposite side is referred to as a thin side W1b.

図2に、本発明方法を適用した扁平リング部材の製造装置の一例を示す。同図において、符号10はローラレベラ、符号20は帯状鋼材W1の曲げ治具、符号30はカッターである。   FIG. 2 shows an example of a flat ring member manufacturing apparatus to which the method of the present invention is applied. In the figure, reference numeral 10 is a roller leveler, reference numeral 20 is a bending jig for the strip steel W1, and reference numeral 30 is a cutter.

ローラレベラ10は、ロール状に巻回された帯状鋼材W1を引き出してその曲げひずみを矯正する工程で使用される。ローラレベラ10は、図2に示すように、千鳥状に配置した複数個のローラ11,12で構成される。帯状鋼材W1の上面側に配置されるローラ11と、下面側に配置されるローラ12との間隔は、ローラレベラ10の始端側(図示上右端側)から終端側(図示上左端側)に向かうにつれて徐々に広がっている。   The roller leveler 10 is used in a process of pulling out the strip-shaped steel material W1 wound in a roll shape and correcting the bending strain. As shown in FIG. 2, the roller leveler 10 includes a plurality of rollers 11 and 12 arranged in a staggered manner. The distance between the roller 11 disposed on the upper surface side of the strip-shaped steel W1 and the roller 12 disposed on the lower surface side increases from the start end side (upper right end side in the drawing) of the roller leveler 10 toward the end side (upper left end side in the drawing). It is gradually spreading.

ロール状に巻回された帯状鋼材W1を引き出すと、残留ひずみにより帯状鋼材W1に曲げが生じる。図示上は、引き出された帯状鋼材W1に張力が作用しているので曲がっていないが、かかる張力を解除すると、残留ひずみにより曲げが生じる。ローラレベラ10を構成するローラ11,12間に帯状鋼材W1を連続的に供給すると、帯状鋼材W1は、ローラレベラ10の始端側で大きく波打ち、終端側に向かって徐々に波打ち幅が小さくなり、終端側から真直ぐに伸びた状態で排出され、曲げひずみが矯正される。   When the strip-shaped steel material W1 wound in a roll shape is pulled out, the strip-shaped steel material W1 is bent due to residual strain. In the drawing, since the tension is applied to the drawn strip steel material W1, it is not bent, but when the tension is released, bending occurs due to residual strain. When the strip-shaped steel material W1 is continuously supplied between the rollers 11 and 12 constituting the roller leveler 10, the strip-shaped steel material W1 has a large undulation at the start end side of the roller leveler 10, and the undulation width gradually decreases toward the end side. It is discharged in a state of extending straight from, and the bending strain is corrected.

曲げ治具20は、受け部材21とハンマ22を主要な構成要素として備え、帯状鋼材W1を幅方向に屈曲させて螺旋状に成形する工程に使用される。受け部材21は、図3に示すように、ローラレベラ10から供給される帯状鋼材W1の肉厚側W1aを案内する凹曲面23を有する。凹曲面23は帯状鋼材W1の供給方向断面である横断面の輪郭が凹曲線状をなし、縦断面輪郭がストレート状をなす。この実施形態では、凹曲面23を部分円筒面状とする。ハンマ22は、ローラレベラ10から流送される帯状鋼材W1の肉薄側W1bを打撃し、肉厚側W1aが凹曲面23に接触するように帯状鋼材W1を変形させる。この実施形態では、ハンマ22を受け部材21の凹曲面23と対向する位置で偏心軸を中心として連続回転可能な円筒状偏心ローラで構成してある。ハンマ22は、図示外のモータにより帯状鋼材W1の流送方向と同じ向きに連続回転するようになっており、1回転ごとに打撃部24を帯状鋼材W1の肉薄側W1bに衝突させて、帯状鋼材W1を幅方向に屈曲させる。   The bending jig 20 includes a receiving member 21 and a hammer 22 as main components, and is used in a process of bending the strip-shaped steel material W1 in the width direction to form a spiral shape. As shown in FIG. 3, the receiving member 21 has a concave curved surface 23 that guides the thick side W <b> 1 a of the strip-shaped steel material W <b> 1 supplied from the roller leveler 10. In the concave curved surface 23, the cross-sectional contour which is a cross section in the supply direction of the strip-shaped steel material W1 has a concave curved shape, and the vertical sectional contour has a straight shape. In this embodiment, the concave curved surface 23 is a partial cylindrical surface. The hammer 22 strikes the thin side W1b of the strip-shaped steel material W1 fed from the roller leveler 10 and deforms the strip-shaped steel material W1 so that the thick-side W1a contacts the concave curved surface 23. In this embodiment, the hammer 22 is constituted by a cylindrical eccentric roller that can continuously rotate around the eccentric shaft at a position facing the concave curved surface 23 of the receiving member 21. The hammer 22 continuously rotates in the same direction as the flow direction of the strip steel material W1 by a motor (not shown), and the hammering portion 24 collides with the thin side W1b of the strip steel material W1 for each rotation. The steel material W1 is bent in the width direction.

帯状鋼材W1は、ハンマ22を回転させながら、曲げ治具20に連続供給することでコイリング成形される。コイリング成形時に、帯状鋼材W1の肉厚側W1aは円周方向に展延して薄くなり、肉薄側W1bは円周方向に圧縮して厚くなる。また、帯状鋼材W1の肉厚側W1aは受け部材21の凹曲面23に押し当てられ、肉薄側W1bはハンマ22の円筒面で叩かれることにより、厚み方向の断面輪郭がストレート状に維持される。このコイリング成形により、帯状鋼材W1は、図4に示すように、肉厚側W1a及び肉薄側W1bの肉厚差が減少して、断面テーパー状から断面略長方形状に扁平化される。   The strip steel W1 is coiled by being continuously supplied to the bending jig 20 while rotating the hammer 22. At the time of coiling, the thick side W1a of the strip-shaped steel material W1 extends in the circumferential direction and becomes thin, and the thin side W1b becomes compressed and thick in the circumferential direction. Further, the thick side W1a of the strip-shaped steel material W1 is pressed against the concave curved surface 23 of the receiving member 21, and the thin side W1b is hit by the cylindrical surface of the hammer 22, so that the cross-sectional profile in the thickness direction is maintained in a straight shape. . By this coiling forming, as shown in FIG. 4, the strip-shaped steel material W1 is flattened from a taper-shaped cross section to a substantially rectangular cross-section with a reduced thickness difference between the thick side W1a and the thin side W1b.

カッター30は、曲げ治具20によってコイリングされた帯状鋼材W1を一巻き分ごとに切断して有端状の扁平リング部材を切り出す工程に使用される。この実施形態では、帯状鋼材W1の下面側を台座31で支持し、カッター30を帯状鋼材W1の上方から降下させて帯状鋼材W1を切断する。また、カッター30は、ローラレベラ10を構成する複数個のローラ11,12のうち少なくともひとつの回転数をエンコーダ32で検出し、当該ローラの回転数が所定数に達した段階で作動する。詳しくは、エンコーダ32の検出結果から帯状鋼材W1の送り長さが一巻き分の長さに達したか否かを図示外の制御装置で判定し、一巻き分の長さに達した段階でカッター30を作動させる。なお、カッター30は、帯状鋼材W1の流送経路でハンマ22よりも下流位置に配置すればよいので、この実施形態では受け部材21の凹曲面23の終端位置近傍に配置してある。コイリングされた帯状鋼材W1を一巻き分ごとに切断すると、図5に示すように、有端状の扁平リング部材W2が得られる。   The cutter 30 is used in a step of cutting the strip-shaped steel material W1 coiled by the bending jig 20 for each turn to cut an end-shaped flat ring member. In this embodiment, the lower surface side of the strip steel material W1 is supported by the pedestal 31, and the cutter 30 is lowered from above the strip steel material W1 to cut the strip steel material W1. The cutter 30 detects at least one rotation number of the plurality of rollers 11 and 12 constituting the roller leveler 10 with the encoder 32, and operates when the rotation number of the roller reaches a predetermined number. Specifically, from the detection result of the encoder 32, whether or not the feed length of the strip steel material W1 has reached the length of one turn is determined by a control device (not shown), and at the stage where the length of one turn has been reached. The cutter 30 is operated. In addition, since the cutter 30 should just be arrange | positioned in the downstream position rather than the hammer 22 in the flow path of the strip | belt-shaped steel materials W1, in this embodiment, it is arrange | positioned in the terminal position vicinity of the concave curved surface 23 of the receiving member 21. When the coiled strip-shaped steel material W1 is cut for every turn, an end-shaped flat ring member W2 is obtained as shown in FIG.

有端状の扁平リング部材W2の両端部を図5に示すように接合すると、自動車のドライブプレートやリングギア等に加工される無端状の扁平リング部材W3が得られる。有端状の扁平リング部材W2の両端部を接合する工程には、例えば図6に示すようなフラッシュバット溶接装置40が使用される。このフラッシュバット溶接装置40は、有端状のリング部材W2の両端部相互間の隙間を挟んで対向配置された一対のチャック41,42と、一対のチャック41,42に取付けた有端状の扁平リング部材W2に電圧を印加する電圧印加手段43と、一方のチャック41(以下、可動チャック41という。)を所定位置に据え置かれた他方のチャック42(以下、固定チャック42という。)に対して接近離間させる駆動手段44とを主要な構成要素として備える。   When both end portions of the end-like flat ring member W2 are joined as shown in FIG. 5, an endless flat ring member W3 processed into a drive plate, a ring gear or the like of an automobile is obtained. For example, a flash butt welding apparatus 40 as shown in FIG. 6 is used in the step of joining both end portions of the end-shaped flat ring member W2. The flash butt welding apparatus 40 includes a pair of chucks 41 and 42 disposed to face each other with a gap between both ends of the end-shaped ring member W2, and an end-like shape attached to the pair of chucks 41 and 42. A voltage applying means 43 for applying a voltage to the flat ring member W2 and one chuck 41 (hereinafter referred to as a movable chuck 41) with respect to the other chuck 42 (hereinafter referred to as a fixed chuck 42) placed at a predetermined position. And a driving means 44 for approaching and moving away as a main component.

一対のチャック41,42に取付けた有端状の扁平リング部材W2に対して電圧を印加しつつ、互いに向かい合った有端状の扁平リング部材W2の端部同士を当接させたのち引き離すと、有端状の扁平リング部材W2の端部相互間にフラッシュ(アーク放電)が発生する。フラッシュを持続させるために、駆動手段44によって可動チャック41をストロークさせ、有端状の扁平リング部材W2の端部同士を接近離間させる。有端状の扁平リング部材W2の両端部がフラッシュにより加熱溶融されたのち有端状の扁平リング部材W2の端部同士を圧接することで、有端状の扁平リング部材W2の端部同士が接合され、図5に示すような扁平リング部材W3が得られる。   While applying a voltage to the end-like flat ring member W2 attached to the pair of chucks 41, 42, the end portions of the end-like flat ring member W2 facing each other are brought into contact with each other and then pulled apart. Flash (arc discharge) occurs between the ends of the flat end ring member W2. In order to maintain the flash, the movable chuck 41 is stroked by the driving means 44, and the ends of the flat ring member W2 having an end shape are moved closer to and away from each other. After the both ends of the end-shaped flat ring member W2 are heated and melted by flash, the ends of the end-shaped flat ring member W2 are brought into pressure contact with each other so that the ends of the end-shaped flat ring member W2 are brought into contact with each other. By joining, a flat ring member W3 as shown in FIG. 5 is obtained.

上記実施形態によれば、断面テーパー状の帯状鋼材W1をロール成形する際に等厚扁平化し、一巻き分ごとに切断することで、有端状の扁平リング部材W2が得られ、有端状の扁平リング部材W2の端部同士を溶接することで、扁平リング部材W3が得られるから、プレスや打抜きが不要である。また、打抜きを不要にすることで、打抜き時に生じていた端材が発生しなくなる。   According to the said embodiment, when carrying out roll forming of the strip | belt-shaped steel material W1 with a cross-section taper shape, it is flattened by equal thickness, and it is cut for every turn, The end-shaped flat ring member W2 is obtained, and end-shaped Since the flat ring member W3 is obtained by welding the ends of the flat ring member W2, no pressing or punching is required. Further, by eliminating the need for punching, the end material generated at the time of punching is not generated.

以上、本発明の一実施形態につき説明したが、本発明は上記実施形態に限定されることなく種々の変形が可能であって、例えば、原材料である帯状鋼材W1は、肉厚側W1a及び肉薄側W1bの厚み方向の断面輪郭がストレート状である断面台形状でなくてもよい。肉厚側W1a及び肉薄側W1bの厚み方向の断面輪郭が曲線であっても、部分円筒面等の凹曲面23に肉厚側W1aを沿わせながら、外径面が円筒面であるハンマ22でもって肉薄側W1bを打撃することで、厚み方向の断面輪郭がストレート状に成形される。   Although one embodiment of the present invention has been described above, the present invention is not limited to the above-described embodiment, and various modifications are possible. For example, the strip-shaped steel material W1, which is a raw material, has a thick side W1a and a thin thickness. The cross-sectional outline of the side W1b in the thickness direction may not be a trapezoidal cross-section with a straight shape. Even if the cross-sectional contours in the thickness direction of the thick side W1a and the thin side W1b are curved, the hammer 22 whose outer diameter surface is a cylindrical surface while keeping the thick side W1a along the concave curved surface 23 such as a partial cylindrical surface. Thus, by hitting the thin side W1b, the cross-sectional contour in the thickness direction is formed into a straight shape.

また、上記実施形態の各工程で使用される加工装置の構成は適宜変更可能である。例えば曲げ治具20を構成する受け部材21は、帯状鋼材W1の案内経路として横溝(図示略)を設け、この横溝の奥部に凹曲面23を形成してあってもよい。溝深さは帯状鋼材W1の幅寸法よりも浅く、溝幅は帯状鋼材W1の肉厚側W1aの厚み程度とする。   Moreover, the structure of the processing apparatus used at each process of the said embodiment can be changed suitably. For example, the receiving member 21 constituting the bending jig 20 may be provided with a horizontal groove (not shown) as a guide path for the strip-shaped steel material W1, and a concave curved surface 23 may be formed at the back of the horizontal groove. The groove depth is shallower than the width dimension of the strip-shaped steel material W1, and the groove width is about the thickness of the thick side W1a of the strip-shaped steel material W1.

また、上記実施形態では、曲げ治具20のハンマ22を連続回転可能な偏心ローラで構成してあるが、ハンマ22は、揺動又は進退移動することで帯状鋼材W1の肉薄側W1bを打撃する構成としてもよい。ハンマ22を揺動又は進退移動する構成とした場合、帯状鋼材W1の供給方向に連続回転する偏心ローラに比べて、帯状鋼材W1を打撃した際に生じる摩擦力が大きくなり、帯状鋼材W1の加工精度が低下する。   Moreover, in the said embodiment, although the hammer 22 of the bending jig 20 is comprised with the eccentric roller which can be rotated continuously, the hammer 22 strikes the thin side W1b of the strip | belt-shaped steel material W1 by rocking | fluctuating or moving back and forth. It is good also as a structure. When the hammer 22 is configured to swing or move back and forth, the frictional force generated when the strip steel W1 is struck is greater than that of the eccentric roller that continuously rotates in the supply direction of the strip steel W1, and the processing of the strip steel W1 is increased. Accuracy is reduced.

また、上記実施形態では、ロール状に巻回された状態で提供される帯状鋼材W1から多数個の無端状の扁平リング部材W3を得るための各工程について説明しているが、真直ぐに伸ばされた状態で提供される帯状鋼材W1から多数個の扁平リング部材W3が得られる場合には、ローラレベラ10による帯状鋼材W1の曲げひずみを矯正する工程は不要である。   Moreover, in the said embodiment, although each process for obtaining many endless flat ring members W3 from the strip | belt-shaped steel material W1 provided in the state wound by roll shape is demonstrated, it is extended straightly. When a large number of flat ring members W3 are obtained from the strip-shaped steel material W1 provided in a state of being removed, the step of correcting the bending strain of the strip-shaped steel material W1 by the roller leveler 10 is not necessary.

ロール状に巻回された断面テーパー状の帯状鋼材を示す図である。It is a figure which shows the strip | belt-shaped steel material of the cross-section taper shape wound by roll shape. 帯状鋼材の曲げひずみを矯正する工程、帯状鋼材をコイリングする工程、および、帯状鋼材を切断する工程で使用される装置の一例を示す正面図である。It is a front view which shows an example of the apparatus used at the process of correcting the bending distortion of a strip-shaped steel material, the process of coiling a strip-shaped steel material, and the process of cutting a strip-shaped steel material. 帯状鋼材の曲げひずみを矯正する工程、帯状鋼材をコイリングする工程、および、帯状鋼材を切断する工程で使用される装置を示す平面図である。It is a top view which shows the apparatus used at the process of correcting the bending distortion of a strip-shaped steel material, the process of coiling a strip-shaped steel material, and the process of cutting a strip-shaped steel material. コイリング成形前の帯状鋼材の断面と、コイリング成形後の帯状鋼材の断面を示す図である。It is a figure which shows the cross section of the strip shaped steel material before coiling shaping | molding, and the cross section of the strip shaped steel material after coiling shaping | molding. 有端状の扁平リング部材とその両端同士を接合して得られる無端状の扁平リング部材を示す図である。It is a figure which shows an endless flat ring member and the endless flat ring member obtained by joining the both ends. 有端状の扁平リング部材の両端部同士を接合する工程に使用される装置の一例を示す図である。It is a figure which shows an example of the apparatus used for the process of joining the both ends of a flat ring member with ends.

符号の説明Explanation of symbols

1 ロール軸
10 ローラレベラ
11,12 ローラ
20 曲げ治具
21 受け部材
22 ハンマ
23 凹曲面
24 打撃部
30 カッター
31 台座
32 エンコーダ
40 フラッシュバット溶接装置
41 可動チャック
42 固定チャック
43 電圧印加手段
44 駆動手段
W1 帯状鋼材
W1a 肉厚側
W1b 肉薄側
W2 有端状の扁平リング部材
W3 扁平リング部材
DESCRIPTION OF SYMBOLS 1 Roll axis | shaft 10 Roller levelers 11, 12 Roller 20 Bending jig 21 Receiving member 22 Hammer 23 Concave surface 24 Strike part 30 Cutter 31 Base 32 Encoder 40 Flash butt welding apparatus 41 Movable chuck 42 Fixed chuck 43 Voltage application means 44 Drive means W1 Band shape Steel material W1a Thick side W1b Thin side W2 Ended flat ring member W3 Flat ring member

Claims (3)

凹曲面を有する受け部材と、前記凹曲面と対向配置したハンマとの間に、片側が肉厚で反対側が肉薄となるようテーパー状不等厚に形成された帯状鋼材を、その肉厚側が前記凹曲面に沿うように連続供給し、帯状鋼材の肉薄側を前記ハンマで連続的に打撃して前記帯状鋼材を等厚扁平化させながらコイリング成形する工程と、コイリングされた帯状鋼材をほぼ一巻分ごとに切断して有端状の扁平リング部材を切り出す工程とを含む扁平リング部材の製造方法。   Between the receiving member having a concave curved surface and a hammer arranged opposite to the concave curved surface, a strip-shaped steel material formed with a taper unequal thickness so that one side is thick and the opposite side is thin, Continuously feeding along the concave curved surface, continuously striking the thin side of the strip steel material with the hammer and coiling while making the strip steel material flattened to an equal thickness, and almost one roll of the coiled strip steel material A method for producing a flat ring member, including a step of cutting every minute to cut out an end-shaped flat ring member. 前記凹曲面と対向する位置で偏心軸を中心として回転可能な円筒状偏心ローラで構成されたハンマを連続回転させて、帯状鋼材の肉薄側を連続的に打撃するようにした請求項1に記載の扁平リング部材の製造方法。   The hammer formed of a cylindrical eccentric roller that can rotate about an eccentric shaft at a position facing the concave curved surface is continuously rotated to continuously hit the thin side of the strip-shaped steel material. Manufacturing method of flat ring member. 帯状鋼材をほぼ一巻き分コイリングした段階で切断するようにした請求項1に記載の扁平リング部材の製造方法。   The method for producing a flat ring member according to claim 1, wherein the strip-shaped steel material is cut at a stage where it is coiled by approximately one turn.
JP2005004428A 2005-01-11 2005-01-11 Method for manufacturing flat ring member Withdrawn JP2006192448A (en)

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102825429A (en) * 2012-09-06 2012-12-19 浙江科朗汽车配件有限公司 Automatic punching machine for steel strip
CN103738784A (en) * 2014-01-02 2014-04-23 上海大学 Lead wire looping machine
CN105396989A (en) * 2015-12-17 2016-03-16 乐山晟嘉电气股份有限公司 Surrounding mechanism for heart-shaped ring
CN105905670A (en) * 2016-06-17 2016-08-31 常州市拓源电缆成套有限公司 Cable winder
CN110614299A (en) * 2019-10-09 2019-12-27 张家港派恩信精密配件制造有限公司 Rolling device for annular connecting buckle of automobile pipeline and using method of rolling device

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102825429A (en) * 2012-09-06 2012-12-19 浙江科朗汽车配件有限公司 Automatic punching machine for steel strip
CN103738784A (en) * 2014-01-02 2014-04-23 上海大学 Lead wire looping machine
CN105396989A (en) * 2015-12-17 2016-03-16 乐山晟嘉电气股份有限公司 Surrounding mechanism for heart-shaped ring
CN105905670A (en) * 2016-06-17 2016-08-31 常州市拓源电缆成套有限公司 Cable winder
CN110614299A (en) * 2019-10-09 2019-12-27 张家港派恩信精密配件制造有限公司 Rolling device for annular connecting buckle of automobile pipeline and using method of rolling device
CN110614299B (en) * 2019-10-09 2023-11-28 张家港派赛格汽车部件有限公司 Rolling device of annular connecting buckle of automobile pipeline and use method of rolling device

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