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JP5040485B2 - Disc forging manufacturing equipment - Google Patents

Disc forging manufacturing equipment Download PDF

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JP5040485B2
JP5040485B2 JP2007178354A JP2007178354A JP5040485B2 JP 5040485 B2 JP5040485 B2 JP 5040485B2 JP 2007178354 A JP2007178354 A JP 2007178354A JP 2007178354 A JP2007178354 A JP 2007178354A JP 5040485 B2 JP5040485 B2 JP 5040485B2
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forging
central axis
forged
pressing
shaped
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JP2009012059A (en
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浩士 池田
英男 瀧澤
武史 池田
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Mitsubishi Materials Corp
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21JFORGING; HAMMERING; PRESSING METAL; RIVETING; FORGE FURNACES
    • B21J5/00Methods for forging, hammering, or pressing; Special equipment or accessories therefor
    • B21J5/008Incremental forging

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  • Mechanical Engineering (AREA)
  • Forging (AREA)

Description

本発明は、ディスク状鍛造物の製造装置に関する。 The present invention relates to a manufacturing apparatus for disc-shaped forging.

従来、ディスク状鍛造物を製造する方法としては、所謂回転鍛造と呼ばれるものが知られている。回転鍛造を行うには、まず予め、円柱状のビレットを据込鍛造用の上下金敷の間に配置し据込鍛造して高さの低い円柱状に形成し、必要に応じて、この据込鍛造したものに外周鍛造を施して、被鍛造物を製作する。次に、この被鍛造物を回転鍛造用の上下金敷の間に配置し、その中心軸を中心として間欠回転させながら、被鍛造物の周縁上方に配置される小型の上金敷を用いてこの被鍛造物を周方向に順次押圧しながら鍛造する。そして被鍛造物の全周を鍛造し終えた後に、その中心軸近傍の未鍛造部分を押圧する。また、必要に応じてこの被鍛造物の上下面を反転して、裏面も同様にして押圧・鍛造を行って、ディスク状鍛造物を製造するようになっている。   Conventionally, what is called rotary forging is known as a method for manufacturing a disk-shaped forged product. In order to perform rotary forging, a cylindrical billet is first placed between the upper and lower anvils for upsetting forging and formed into a low-profile column by upsetting forging. The forged product is manufactured by subjecting the forged product to peripheral forging. Next, the forging is placed between the upper and lower anvils for rotary forging, and is rotated using a small upper anvil placed above the periphery of the forging while intermittently rotating around the central axis. Forging is performed while sequentially pressing the forging in the circumferential direction. And after forging the whole periphery of a to-be-forged material, the unforged part of the center axis vicinity is pressed. Further, if necessary, the upper and lower surfaces of the forged product are reversed and the back surface is similarly pressed and forged to produce a disk-shaped forged product.

この回転鍛造の方法によれば、被鍛造物を間欠回転させながら少しずつ繰り返し押圧し鍛造するので、小さい能力の製造装置でも比較的外径の大きな被鍛造物を鍛造することができるとともに、製造されるディスク状鍛造物は、その鍛錬されないデッドゾーンが少ない。   According to this rotary forging method, the forging is repeatedly pressed and forged while intermittently rotating the forging, so that a forging having a relatively large outer diameter can be forged even with a small-capacity manufacturing apparatus. The disk-shaped forged product has few dead zones that are not trained.

また、特許文献1には、被鍛造物の表面を、凹凸を有する治工具を用いて押圧・鍛造し、その後、上平金敷によりこの被鍛造物を押圧・鍛造することによって、回転鍛造によらずに、ディスク状鍛造物を製造する方法が開示されている。この方法によれば、その鍛造時間を短縮することができる。
特開2001−340938号公報
Further, in Patent Document 1, the surface of a forged object is pressed / forged using a jig having unevenness, and then the forged object is pressed / forged with an upper flat anvil. A method for producing a disk-shaped forging is disclosed. According to this method, the forging time can be shortened.
JP 2001-340938 A

しかしながら、前述の回転鍛造による方法では、その押圧回数が多く必要であり、製造時間が長くかかるとともに、鍛造時にこの被鍛造物はその周縁の一部を少しずつ周方向にずらしながら繰り返し押圧されて鍛造されていくため、その内部の歪みは、この被鍛造物の中心軸を中心としてその一方側と他方側とで均等に与えられておらず、材料の組成を均一に形成させることが難しいという課題があった。   However, in the above-described method using rotary forging, the number of times of pressing is necessary and it takes a long time to manufacture, and at the time of forging, the to-be-forged object is repeatedly pressed while gradually shifting a part of the periphery in the circumferential direction. Since the forging is continued, the internal strain is not evenly given on one side and the other side around the central axis of the forged product, and it is difficult to form a uniform composition of the material. There was a problem.

また、特許文献1の鍛造による方法では、被鍛造物の中心軸近傍の材料は押圧された際の逃げ方向が与えられにくく、材料が内部で流動しにくく歪みが入りにくいとともに、凹凸を有する治工具の鍛造と上平金敷の鍛造との夫々の加工工程には時間差があり、その時間差に起因する温度差によって歪みが均等に与えられにくく、材料の組成を均一に形成させることが難しいという課題があった。   Further, in the method by forging in Patent Document 1, the material in the vicinity of the central axis of the forged object is not easily given a relief direction when pressed, the material does not easily flow inside, is not easily distorted, and has unevenness. There is a time difference between the forging of the tool and the forging of the upper flat anvil, and there is a problem that it is difficult to uniformly apply the strain due to the temperature difference caused by the time difference and it is difficult to form the material composition uniformly. was there.

本発明は、このような事情を考慮してなされたもので、被鍛造物の全体に均等に歪みを与えることができるとともに、材料の組成を均一に形成させることができるディスク状鍛造物の製造装置を提供することを目的とする。 The present invention has been made in consideration of such circumstances, and can produce a disc-shaped forged product that can uniformly strain the entire forged product and can uniformly form the composition of the material . An object is to provide a manufacturing apparatus.

前記目的を達成するために、本発明は以下の手段を提案している。すなわち本発明は、円柱状の被鍛造物を下金敷と上金敷との間に配置し、前記被鍛造物と上金敷とを相対的に間欠回転させながら鍛造し、ディスク状鍛造物を得るための製造装置であって、前記上金敷は、前記下金敷の中心軸を通り、この中心軸に直交する半径方向に延びる複数の押圧面を有し、前記複数の押圧面は、前記中心軸から放射状に配置されているとともに、前記中心軸から半径方向に延びる3個または4個の押圧面からなり、前記中心軸を中心に夫々の前記押圧面同士の間に形成される角度が、均等にされていることを特徴とする In order to achieve the above object, the present invention proposes the following means. That is, the present invention provides a disk-shaped forging by arranging a column-shaped forged object between a lower anvil and an upper anvil and forging while relatively intermittently rotating the forged object and the upper anvil. The upper anvil has a plurality of pressing surfaces that extend in a radial direction perpendicular to the central axis through the central axis of the lower anvil, and the plurality of pressing surfaces are separated from the central axis. together are radially arranged, consists of three or four pressing surface extending radially from said central axis, the angle formed between the pressing surfaces of the respective centering on the central axis, equally characterized in that it is.

この発明に係るディスク状鍛造物の製造装置によれば、下金敷の中心軸を通り、この中心軸に直交する半径方向に延びる複数の押圧面を有する上金敷で被鍛造物を押圧・鍛造するので、この上金敷は、被鍛造物の中心軸近傍を良好に押圧することができる。よって、被鍛造物の中心軸近傍の材料は押圧により塑性流動されやすく、歪みを与えられやすくなる。また、前記複数の押圧面が、中心軸に直交する半径方向に一方側とそれ以外の側とに延びて配置されており、被鍛造物を複数個所同時に均等に押圧しながら鍛造するので、この被鍛造物はその全体に均等に歪みを与えられるようになされている。よって製造するディスク状鍛造物の材料の組成を均一に形成させることができる。
また、上金敷によって被鍛造物を押圧する一回あたりの面積が、被鍛造物の全体を押圧するのに比べ少なくて済むので、小さい能力の製造装置でも比較的外径の大きな被鍛造物を鍛造することが可能となる。また、前記押圧面を平面状に形成することにより、この鍛造後に、製造されたディスク状鍛造物の表面をあらためて平らに加工するための矯正或いは鍛造の工程が不要となり、仕上げのための設備費用が低減されるとともに、生産効率を向上させることができる。
また、この上金敷の形状を前記押圧面の形状に合わせた形状として極力小さく形成すれば、上金敷の製作費用及び設備費用を低減することができる。
そして、前記複数の押圧面が中心軸を中心として放射状に均等角度に4個備えられた場合は、被鍛造物が一回に押圧される押圧面は、例えば中心軸から180°反対方向に二つの押圧面が配置されたものと比べ、より広い範囲に配置されるので、少ない回数で全体に均等に歪みを与えることができる。よって、製造されるディスク状鍛造物の材料の組成を均一に形成させることができるとともに、押圧回数が低減されるので、鍛造にかかる時間をより少なくすることができる。
According to the manufacturing apparatus for a disk-shaped forged product according to the present invention, the forged product is pressed and forged with an upper anvil having a plurality of pressing surfaces extending in a radial direction perpendicular to the central axis of the lower anvil. Therefore, this upper anvil can press well the vicinity of the central axis of the forged product. Therefore, the material in the vicinity of the central axis of the to-be-forged product is easily plastically flowed by pressing, and is easily strained. Further, the plurality of pressing surfaces are arranged to extend in one direction and the other side in the radial direction orthogonal to the central axis, and forging while simultaneously pressing a plurality of workpieces at the same time. The to-be-forged object is made to give the distortion equally to the whole. Therefore, the composition of the material of the disc-shaped forged product to be manufactured can be formed uniformly.
In addition, since the area for pressing the forged object with the upper anvil is less than that for pressing the entire forged object, a forged object having a relatively large outer diameter can be obtained even with a manufacturing apparatus with a small capacity. It becomes possible to forge. Further, by forming the pressing surface into a flat shape, there is no need for a correction or forging process for processing the surface of the manufactured disk-shaped forged product again after this forging, and the equipment cost for finishing Can be reduced and the production efficiency can be improved.
In addition, if the shape of the upper anvil is formed as small as possible in accordance with the shape of the pressing surface, the manufacturing cost and the equipment cost of the upper anvil can be reduced.
When four of the plurality of pressing surfaces are provided at equal angles radially around the central axis, the pressing surfaces against which the forged object is pressed at a time are, for example , two in the opposite direction 180 ° from the central axis. Since it is arranged in a wider range as compared with the case where the two pressing surfaces are arranged, the whole can be evenly distorted with a small number of times. Therefore, the composition of the material of the disc-shaped forged product to be manufactured can be formed uniformly, and the number of pressings is reduced, so that the time required for forging can be reduced.

また前記複数の押圧面が中心軸を中心として放射状に均等角度に3個備えられた場合は、前述の180°反対方向に二つの押圧面が配置されたものと放射状に均等角度に4個備えられたものとの中間の特徴を有した鍛造を行うことができるので、これら上金敷を種々選択することによって、様々な用途に対応した鍛造を行うことが可能となる。   In addition, when three of the plurality of pressing surfaces are provided radially at an equal angle with the central axis as the center, four pressing surfaces are provided at an equal angle radially with the two pressing surfaces arranged in the opposite direction of 180 °. Since forging having characteristics intermediate to those obtained can be performed, forging corresponding to various applications can be performed by variously selecting these upper anvils.

また本発明のディスク状鍛造物の製造装置は、前記押圧面の前記中心軸近傍の幅が、前記押圧面の半径方向外側の端部の幅よりも狭く形成されていることとしてもよい。これによれば、この上金敷が被鍛造物を押圧する際、この被鍛造物の前記中心軸近傍は、押圧・圧縮された際の材料の逃げ方向が与えられやすくなり、塑性流動しやすくなって、良好に歪みが与えられる。また、被鍛造物の表面の、押圧される面積の割合が径方向中央の側と外方の側とで全体的に近似されるため、より均等に歪みを与えられ、製造されるディスク状鍛造物の材料の組成を均一に形成させることができる。 Moreover, the manufacturing apparatus of the disc-shaped forged product of the present invention may be configured such that the width of the pressing surface near the central axis is narrower than the width of the end portion on the radially outer side of the pressing surface. According to this, when the upper anvil presses the forged article, the vicinity of the central axis of the forged article is likely to be given the direction of escape of the material when pressed and compressed, and the plastic flow tends to occur. Therefore, distortion is given well. In addition, since the ratio of the pressed area of the surface of the forged object is approximated as a whole between the central side in the radial direction and the outer side, the disk-shaped forging that is more evenly distorted and manufactured. The composition of the material of the product can be formed uniformly.

本発明に係るディスク状鍛造物の製造装置によれば、被鍛造物の全体に均等に歪みを与えることができるとともに、材料の組成を均一に形成させることができる。 According to the manufacturing apparatus of the disc-shaped forging according to the present invention, it is possible to provide a strain evenly across the object forging, can be uniformly formed the composition of the material.

以下、図面を参照し、この発明の実施の形態について説明する。
図1、図2は本発明の一実施形態及び参考例に係るディスク状鍛造物の製造装置の要部を示す縦断面図、図3は参考例のディスク状鍛造物の製造装置の要部を示す平面図、図4、図5は本発明の一実施形態に係る上金敷を示す平面図である。
Embodiments of the present invention will be described below with reference to the drawings.
1 and 2 are longitudinal sectional views showing the main part of a disc-shaped forged product manufacturing apparatus according to an embodiment of the present invention and a reference example , and FIG. 3 shows the main part of the disc-shaped forged product manufacturing apparatus of the reference example . plan view of FIG. 4, FIG. 5 is a plan view showing an upper insole according to one embodiment of the present invention.

本発明に係るディスク状鍛造物を製造するには、まず予め、円柱状のビレットを据込鍛造用の上下金敷の間に配置して据込鍛造し、この据込鍛造したものに必要に応じて外周鍛造を施して、高さの低い円柱状の被鍛造物Wを製作する。そして、図1に示すように、この被鍛造物Wを回転鍛造用の製造装置に支持される円盤状の下金敷1の上面に載置する。   In order to manufacture the disk-shaped forged product according to the present invention, first, a columnar billet is placed between upper and lower anvils for upsetting forging, and upsetting forging is performed as necessary. The outer peripheral forging is performed to produce a forged article W having a low height. And as shown in FIG. 1, this to-be-forged material W is mounted in the upper surface of the disk-shaped lower anvil 1 supported by the manufacturing apparatus for rotary forging.

図1に示すように、下金敷1は、その表面が、中央近傍は平らな底部とされ、またこの底部から径方向外方へ向かうに従い漸次上方へ傾斜するすり鉢状の傾斜面を備えており、前記底部から傾斜面へと滑らかに繋がるようにして、浅い凹状に形成されている。そして、被鍛造物Wはこの下金敷1の中心軸O上にその中心がくるようにして載置される。   As shown in FIG. 1, the lower anvil 1 has a mortar-shaped inclined surface whose surface has a flat bottom in the vicinity of the center and which gradually inclines upward as it goes radially outward from the bottom. A shallow concave shape is formed so as to smoothly connect the bottom portion to the inclined surface. And the to-be-forged object W is mounted so that the center may come on the central axis O of this lower anvil.

また、被鍛造物Wの上方には、上金敷2が配置されている。この上金敷2は、角棒状の形状を有しており、その長手方向を下金敷1の中心軸Oと直交する方向に延ばして、この製造装置に支持されている。図3に示される参考例の上金敷2は、その被鍛造物Wに対向される面が連続した二つの押圧面2aから形成されており、これら押圧面2aは、中心軸Oを中心として一方側とその180°反対側とに夫々延びて配置されている。これら押圧面2aは、中心軸Oを中心として互いに対称形に形成されている。
図4、図5に示される本実施形態の上金敷2は、複数の押圧面2aが中心軸O周りに均等角度に放射状に配置されて、Y字形或いはX字形になるよう配設されている。
Further, an upper anvil 2 is disposed above the forged object W. The upper anvil 2 has a rectangular bar shape, and its longitudinal direction extends in a direction perpendicular to the central axis O of the lower anvil 1 and is supported by the manufacturing apparatus. The upper anvil 2 of the reference example shown in FIG. 3 is formed of two pressing surfaces 2a that are continuous with the surface to be forged W. These pressing surfaces 2a are centered on the central axis O. Side and 180 ° opposite to each other. These pressing surfaces 2a are formed symmetrically with respect to the central axis O.
4 and 5, the upper anvil 2 according to the present embodiment is arranged such that a plurality of pressing surfaces 2 a are radially arranged around the central axis O at an equal angle so as to be Y-shaped or X-shaped. .

図1に示すように、またこれら押圧面2aは、中心軸O近傍から端部近傍に到るまでの面がこの中心軸Oに直交する平面で形成されており、端部近傍においては、端部へ向け漸次下方へ傾斜する平面で形成されている。そして、夫々の平面が滑らかに繋がるようにして形成されている。
また、図1に示すように、その縦断面の形状が下金敷1の縦断面の表面側の形状と対称形に形成されている。また、この上金敷2は、中心軸Oを中心として間欠回転可能とされるとともに、中心軸O方向に往復直線運動可能とされ、被鍛造物Wに近接離反可能に配設されている。
As shown in FIG. 1, these pressing surfaces 2 a are formed by a plane perpendicular to the central axis O from the vicinity of the central axis O to the vicinity of the end portion. It is formed of a plane that gradually inclines downward toward the part. And each plane is formed so that it may connect smoothly.
Moreover, as shown in FIG. 1, the shape of the longitudinal section is formed symmetrically with the shape on the surface side of the longitudinal section of the lower anvil 1. In addition, the upper anvil 2 can be intermittently rotated about the central axis O, can be reciprocated linearly in the direction of the central axis O, and can be moved close to and away from the forged object W.

また、図3に示すように、この上金敷2は、その短手方向の両側部に、中心軸Oと平行な平面で形成される側面2bが夫々備えられており、上金敷2を挟んで向かい合うこれら側面2b同士に形成される幅の寸法は、中心軸O近傍においては狭く、長手方向の端部に向かうに連れ漸次広くなるようにして形成されている。   Further, as shown in FIG. 3, the upper anvil 2 is provided with side surfaces 2 b formed on a plane parallel to the central axis O on both sides in the short direction, with the upper anvil 2 sandwiched therebetween. The width dimension formed between the side surfaces 2b facing each other is narrow in the vicinity of the central axis O, and gradually increases toward the end in the longitudinal direction.

そして、この上金敷2を、中心軸Oを中心として間欠回転させながら、押圧面2aを被鍛造物Wに向け近接離反させ、押圧し、鍛造を行う。この押圧の順序としては、例えば、図3に示すように、まず図の左右方向を長手方向として配置される上金敷2(実線)により被鍛造物Wを押圧し、次に、この上金敷2の長手方向が図3の上下方向(2点鎖線)を向くように間欠回転させて配置し、押圧する。そして、上金敷2の長手方向が前述の上下方向と左右方向との間の45度の方向を向くようにして配置し、押圧する。さらに、前述の上下方向、左右方向、45度方向以外の方向の、これらの間隙を埋める角度となるように上金敷2を配置し、押圧する。このようにして、上金敷2を間欠回転させながら押圧を繰り返し、被鍛造物Wの表面を満遍なく押圧していく。   Then, while the upper anvil 2 is intermittently rotated about the central axis O, the pressing surface 2a is moved toward and away from the forged object W, pressed, and forged. As the order of pressing, for example, as shown in FIG. 3, first, the forging W is pressed by the upper anvil 2 (solid line) arranged with the left-right direction in the drawing as the longitudinal direction, and then the upper anvil 2 Are arranged so as to be intermittently rotated so that the longitudinal direction thereof is directed in the vertical direction (two-dot chain line) in FIG. And it arrange | positions so that the longitudinal direction of the upper anvil 2 may face the direction of 45 degree | times between the above-mentioned up-down direction and the left-right direction, and it presses. Further, the upper anvil 2 is arranged and pressed so as to fill the gaps in directions other than the above-described vertical direction, horizontal direction, and 45 degree direction. In this way, pressing is repeated while intermittently rotating the upper anvil 2 to press the surface of the forged product W evenly.

被鍛造物Wの表面を満遍なく押圧し、これを数回繰り返した後、この被鍛造物Wの上下面を反転させ、裏面も同様にして押圧・鍛造を繰り返すことにより、被鍛造物Wは、表面側及び裏面側から漸次潰されるようにして、図2に示すようなディスク状へとその形状を変化させていく。そして、目的とする形状のディスク状鍛造物Waが得られるようになっている。   By pressing the surface of the forged product W evenly and repeating this several times, the upper and lower surfaces of the forged product W are reversed, and the back surface is similarly pressed and forged, The shape is changed into a disk shape as shown in FIG. 2 so as to be gradually crushed from the front surface side and the back surface side. And the disk-shaped forging Wa of the target shape is obtained.

この参考例に係るディスク状鍛造物Waの製造方法及び製造装置によれば、下金敷1の中心軸Oを通り、この中心軸Oに直交する半径方向の一方側と他方側とに夫々延びる連続した二つの押圧面2aを有する上金敷2で被鍛造物Wを押圧・鍛造するので、この上金敷2は、被鍛造物Wの中心軸近傍を良好に押圧することができる。よって、被鍛造物Wの中心軸近傍の材料は押圧により塑性流動されやすく、歪みを与えられやすくなる。また、二つの押圧面2aが、中心軸を中心としてこの被鍛造物Wの一方側と他方側とを同時に均等に押圧しながら鍛造するので、この被鍛造物Wは均等に歪みを与えられながら鍛造されるようになされている。
そして、本実施形態において、押圧面2aのなす形状が前記X字形となるように、中心軸O周りに均等角度に4個配置した場合には、被鍛造物Wが一回に押圧される押圧面は中心軸Oを中心として前述の参考例よりも広い範囲に放射状に配置されるので、少ない回数でより全体的に均等に歪みを与えながら鍛造を行うことができる。よって、製造するディスク状鍛造物Waの材料の組成を均一に形成させることができるとともに、押圧回数が低減されるので、鍛造にかかる時間を極力少なくすることができる。
また押圧面2aのなす形状が前記Y字形となるように、中心軸O周りに均等角度に3個配置した場合には、前述の参考例とX字形との中間の特徴を有した鍛造を行うことができるので、これら上金敷2を種々選択することによって、様々な用途に対応した鍛造を行うことが可能となる。
According to the manufacturing method and the manufacturing apparatus of the disk-shaped forged product Wa according to this reference example , the continuous extending through the central axis O of the lower anvil 1 and extending to one side and the other side in the radial direction perpendicular to the central axis O. Since the to-be-forged object W is pressed and forged by the upper anvil 2 having the two pressing surfaces 2a, the upper anvil 2 can press the vicinity of the center axis of the to-be-forged object W satisfactorily. Therefore, the material in the vicinity of the central axis of the to-be-forged object W is easily plastically flowed by pressing, and is easily strained. Further, since the two pressing surfaces 2a are forged while uniformly pressing one side and the other side of the forged product W around the central axis at the same time, the forged product W is uniformly strained. It is designed to be forged.
And in this embodiment, when four pieces are arranged at an equal angle around the central axis O so that the shape formed by the pressing surface 2a is the X-shape, the pressing for pressing the forged object W at a time. Since the surface is radially arranged in a wider range than the above-described reference example with the central axis O as the center, forging can be performed while applying a strain more evenly in a smaller number of times. Therefore, the composition of the material of the disc-shaped forged product Wa to be manufactured can be formed uniformly, and the number of times of pressing is reduced, so that the time required for forging can be reduced as much as possible.
Further, when three pieces are arranged at an equal angle around the central axis O so that the shape formed by the pressing surface 2a becomes the Y-shape, forging having characteristics intermediate between the above-described reference example and the X-shape is performed. Therefore, forging corresponding to various uses can be performed by selecting these upper anvils 2 in various ways.

また、上金敷2の押圧は、その順序が、中心軸Oを中心として、直前の押圧位置とその前の押圧位置とがなす間隙を埋めるようにして、周方向にバランスよく配置されながら順次行われるので、被鍛造物Wの内部に歪みをより均等に与えられ、よって、製造するディスク状鍛造物Waの材料の組成を全体的に均一に形成させることができ、さらに、その形状を円形に保つことができる。   Further, the pressing of the upper anvil 2 is sequentially performed while being arranged in a balanced manner in the circumferential direction so as to fill the gap formed by the immediately preceding pressing position and the preceding pressing position with the center axis O as the center. Therefore, the inside of the to-be-forged product W is more evenly distorted, so that the composition of the material of the disc-shaped forged product Wa to be manufactured can be uniformly formed as a whole, and the shape thereof is made circular. Can keep.

また、上金敷2によって被鍛造物Wを押圧する一回あたりの面積が、被鍛造物W全体を押圧するのに比べ少なくて済むので、小さい能力の製造装置でも比較的外径の大きな被鍛造物Wを鍛造することが可能となる。また、前記押圧面2aを平面で形成することにより、この鍛造後に、製造されたディスク状鍛造物Waの表面をあらためて平らに加工するための矯正或いは鍛造の工程が不要となり、仕上げのための設備費用が低減されるとともに、生産効率を向上させることができる。   Moreover, since the area per one time which presses the to-be-forged material W with the upper anvil 2 is small compared with pressing the whole to-be-forged material W, forging to-be-made with a comparatively large outer diameter also with a manufacturing apparatus with small capacity. The object W can be forged. In addition, by forming the pressing surface 2a as a flat surface, after this forging, there is no need for a correction or forging process for processing the surface of the manufactured disk-shaped forged product Wa to be flat again. Costs can be reduced and production efficiency can be improved.

また、上金敷2の形状が、押圧面2aの形状に合わせた角棒状とされ、極力小さく形成されているので、この上金敷2の製作費用及び設備費用を低減することができる。   Moreover, since the shape of the upper anvil 2 is a square bar shape that matches the shape of the pressing surface 2a and is formed as small as possible, the manufacturing cost and equipment cost of the upper anvil 2 can be reduced.

また、押圧面2aの中心軸O近傍の幅が、この押圧面2aの端部の幅よりも狭く形成されているので、上金敷2が被鍛造物Wを押圧する際、この被鍛造物Wの中心軸O近傍は、押圧・圧縮された際の材料の逃げ方向が与えられやすくなり、塑性流動しやすくなって、良好に歪みが与えられる。また、被鍛造物Wの表面の、押圧される面積の割合が径方向中央の側と外方の側とで全体的に近似されるため、より均等に歪みを与えられ、製造するディスク状鍛造物Waの材料の組成を均一に形成させることができる。   Moreover, since the width | variety of the central axis O vicinity of the press surface 2a is formed narrower than the width | variety of the edge part of this press surface 2a, when the upper anvil 2 presses the to-be-forged material W, this to-be-forged material W In the vicinity of the central axis O, the direction of escape of the material when pressed / compressed is likely to be given, and plastic flow tends to be easily imparted, resulting in good distortion. Moreover, since the ratio of the pressed area of the surface of the to-be-forged object W is approximated as a whole between the central side in the radial direction and the outer side, the disk-shaped forging that is more evenly distorted and manufactured. The composition of the material of the object Wa can be formed uniformly.

なお、本発明は前記実施の形態に限定されるものではなく、本発明の趣旨を逸脱しない範囲において種々の変更を加えることが可能である The present invention is not limited to the above embodiment, and various modifications can be made without departing from the spirit of the present invention .

また、本実施形態及び参考例では上金敷2の押圧面2aは、その端部近傍に、端部へ向け漸次下方へ傾斜する平面を設けることとしたが、この傾斜は製造される種々のディスク状鍛造物の用途に合わせて、角度や長さを変えて形成することとしてもよい。また、この傾斜する平面を設けずに、この押圧面2aを中心軸Oと直交する平らな面のみで形成してもよい。また或いは、押圧面2aを平面で形成させず、凸面の形状として曲面状に形成してもよい。 In the present embodiment and the reference example , the pressing surface 2a of the upper anvil 2 is provided with a flat surface in the vicinity of the end portion, which gradually inclines downward toward the end portion. It is good also as changing and forming an angle and length according to the use of a shape forging. Further, the pressing surface 2a may be formed only by a flat surface orthogonal to the central axis O without providing the inclined plane. Alternatively, the pressing surface 2a may be formed in a curved surface as a convex shape without being formed as a flat surface.

本発明の一実施形態及び参考例に係るディスク状鍛造物の製造装置の要部を示す縦断面図である。It is a longitudinal cross-sectional view which shows the principal part of the manufacturing apparatus of the disk-shaped forging which concerns on one Embodiment and reference example of this invention. 本発明の一実施形態及び参考例に係るディスク状鍛造物の製造装置の要部を示す縦断面図である。It is a longitudinal cross-sectional view which shows the principal part of the manufacturing apparatus of the disk-shaped forging which concerns on one Embodiment and reference example of this invention. 本発明の参考例に係るディスク状鍛造物の製造装置の要部を示す平面図である。It is a top view which shows the principal part of the manufacturing apparatus of the disk-shaped forging based on the reference example of this invention. 本実施形態の上金敷を示す平面図である。Is a plan view showing the upper insole of the present embodiment. 本実施形態の上金敷を示す平面図である。Is a plan view showing the upper insole of the present embodiment.

符号の説明Explanation of symbols

1 下金敷
2 上金敷
2a 押圧面
O 中心軸
W 被鍛造物
Wa ディスク状鍛造物
DESCRIPTION OF SYMBOLS 1 Lower anvil 2 Upper anvil 2a Press surface O Center axis W Forging thing Wa Disc-shaped forging

Claims (2)

円柱状の被鍛造物を下金敷と上金敷との間に配置し、前記被鍛造物と上金敷とを相対的に間欠回転させながら鍛造し、ディスク状鍛造物を得るための製造装置であって、
前記上金敷は、前記下金敷の中心軸を通り、この中心軸に直交する半径方向に延びる複数の押圧面を有し、
前記複数の押圧面は、前記中心軸から放射状に配置されているとともに、前記中心軸から半径方向に延びる3個または4個の押圧面からなり、
前記中心軸を中心に夫々の前記押圧面同士の間に形成される角度が、均等にされていることを特徴とするディスク状鍛造物の製造装置。
This is a manufacturing apparatus for obtaining a disk-shaped forging by forging a column-shaped forging between a lower anvil and an upper anvil, and forging while rotating the forging and the upper anvil relatively intermittently. And
The upper anvil has a plurality of pressing surfaces extending in a radial direction perpendicular to the central axis through the central axis of the lower anvil,
The plurality of pressing surfaces are arranged radially from the central axis and include three or four pressing surfaces extending in a radial direction from the central axis,
An apparatus for producing a disk-shaped forged product, characterized in that angles formed between the respective pressing surfaces around the central axis are made uniform .
請求項1に記載のディスク状鍛造物の製造装置であって、
前記押圧面の前記中心軸近傍の幅が、前記押圧面の半径方向外側の端部の幅よりも狭く形成されていることを特徴とするディスク状鍛造物の製造装置。
An apparatus for producing a disk-shaped forging according to claim 1,
The disc-shaped forging manufacturing apparatus according to claim 1, wherein a width of the pressing surface in the vicinity of the central axis is formed narrower than a width of an end portion on the radially outer side of the pressing surface.
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