JP2869066B2 - Continuous sheet manufacturing equipment - Google Patents
Continuous sheet manufacturing equipmentInfo
- Publication number
- JP2869066B2 JP2869066B2 JP63001561A JP156188A JP2869066B2 JP 2869066 B2 JP2869066 B2 JP 2869066B2 JP 63001561 A JP63001561 A JP 63001561A JP 156188 A JP156188 A JP 156188A JP 2869066 B2 JP2869066 B2 JP 2869066B2
- Authority
- JP
- Japan
- Prior art keywords
- container
- metal slurry
- semi
- stirrer
- solid metal
- 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.)
- Expired - Fee Related
Links
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21B—ROLLING OF METAL
- B21B1/00—Metal-rolling methods or mills for making semi-finished products of solid or profiled cross-section; Sequence of operations in milling trains; Layout of rolling-mill plant, e.g. grouping of stands; Succession of passes or of sectional pass alternations
- B21B1/46—Metal-rolling methods or mills for making semi-finished products of solid or profiled cross-section; Sequence of operations in milling trains; Layout of rolling-mill plant, e.g. grouping of stands; Succession of passes or of sectional pass alternations for rolling metal immediately subsequent to continuous casting
- B21B1/463—Metal-rolling methods or mills for making semi-finished products of solid or profiled cross-section; Sequence of operations in milling trains; Layout of rolling-mill plant, e.g. grouping of stands; Succession of passes or of sectional pass alternations for rolling metal immediately subsequent to continuous casting in a continuous process, i.e. the cast not being cut before rolling
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Metal Rolling (AREA)
- Continuous Casting (AREA)
Description
【発明の詳細な説明】 [産業上の利用分野] 本発明は、半凝固金属スラリーから薄板を連続的に製
造し得るようにした連続薄板製造設備に関するものであ
る。Description: BACKGROUND OF THE INVENTION The present invention relates to a continuous sheet manufacturing facility capable of continuously manufacturing sheets from semi-solid metal slurries.
[従来の技術] 溶融金属を冷却、固化して薄板を連続的に製造する装
置が近年種々提案されている(例えば特公昭60−24929
号公報)。[Related Art] In recent years, various devices for continuously manufacturing thin plates by cooling and solidifying a molten metal have been proposed (for example, Japanese Patent Publication No. 60-24929).
No.).
一方、均質性の高い変形加工を可能とするために、固
液共存状態の合金材料に機械的な回転撹拌を加えること
によりデンドライト形態を破壊して、溶融金属中に微細
球状結晶粒を多量に存在させた半凝固金属スラリーを造
り、該金属スラリーから固体金属を製造することが種々
検討されている。On the other hand, in order to enable deformation processing with high homogeneity, the dendrite morphology is destroyed by applying mechanical rotary stirring to the alloy material in the solid-liquid coexistence state, and a large amount of fine spherical crystal grains are present in the molten metal. Various studies have been made to produce a semi-solid metal slurry in the presence and to produce a solid metal from the metal slurry.
[発明が解決しようとする問題点] しかしながら、これまでに提案された設備は溶湯から
薄板を連続的に製造する設備であり、種々の問題をかか
えていた。[Problems to be Solved by the Invention] However, the facilities proposed so far are facilities for continuously producing thin plates from a molten metal, and have various problems.
本発明は上述の実情に鑑み、半凝固金属スラリーから
薄板を連続的に製造することのできる設備を提供するこ
とを目的としてなしたものである。The present invention has been made in view of the above circumstances, and has as its object to provide equipment capable of continuously manufacturing thin plates from semi-solid metal slurry.
[問題点を解決するための手段] 本発明は、半凝固金属スラリーを形成する金属スラリ
ー製造装置と、該金属スラリー製造装置から一対のロー
ル間に形成された湯溜りへ供給された半凝固金属スラリ
ーを冷却させ鋳片として引抜く双ロール式連鋳機と、該
双ロール式連鋳機で鋳造された鋳片を圧延する圧延装置
と、該圧延装置で圧延された板を巻取る巻取機とを、ラ
イン上流側から下流側へ向けて順次連続的に配置し、前
記金属スラリー製造装置は、内部に溶融金属を収納し得
るようにした第1の容器と、該第1の容器内に供給され
た溶融金属を撹拌しデンドライト形態を破壊して半凝固
金属スラリーとする回転自在で且つ昇降自在なスタラー
と、上端面が前記第1の容器の内部空間に対向すると共
に下端出口の水平断面形状が前記双ロール式連鋳機のロ
ール軸線方向へ長い矩形状に形成され、しかも前記スタ
ラーが上昇した際には前記上端面と前記スタラー下端と
の間に半凝固金属スラリーが流出するための隙間が形成
されるよう、前記第1の容器の下部に配設された第2の
容器と、該第2の容器内に突出するよう前記スタラーの
下端に固定され且つ前記第1の容器内から前記隙間を通
って排出される半凝固金属スラリーを案内する螺旋状の
案内溝が外周に形成された案内部材と、前記第1の容器
内のガスを吸引、排気するための手段を設けたことを特
徴とする連続薄板製造設備に係るものである。[Means for Solving the Problems] The present invention relates to a metal slurry manufacturing apparatus for forming a semi-solid metal slurry, and a semi-solid metal supplied from the metal slurry manufacturing apparatus to a pool formed between a pair of rolls. A twin-roll continuous caster for cooling the slurry and drawing it out as a slab, a rolling device for rolling slabs cast by the twin-roll continuous caster, and a winding device for winding a plate rolled by the rolling device And a metal slurry manufacturing apparatus, wherein a first container is arranged so as to be able to store molten metal therein, and a first container in the first container is arranged inside the first container. A rotatable and vertically movable stirrer that agitates the molten metal supplied to the container to break the dendrite form into a semi-solid metal slurry, and has a top end surface facing the internal space of the first container and a horizontal bottom end outlet. The cross-sectional shape is the twin roll The continuous caster is formed in a long rectangular shape in the roll axis direction, and when the stirrer rises, a gap is formed between the upper end surface and the lower end of the stirrer for the semi-solid metal slurry to flow out. A second container disposed at a lower portion of the first container, and fixed to a lower end of the stirrer so as to protrude into the second container, and from the first container through the gap. A continuous member provided with a guide member having a spiral guide groove formed on an outer periphery thereof for guiding the discharged semi-solid metal slurry, and means for sucking and exhausting gas in the first container. It relates to thin plate manufacturing equipment.
[作用] 金属スラリー製造装置の第1の容器内では、回転する
スタラーにより溶融金属に撹拌剪断力が与えられ、デン
ドライト組織が破砕されて半凝固金属スラリーが形成さ
れ、形成された半凝固金属スラリーは、スタラー下端と
第2の容器の上端面との間の隙間を通って第2の容器へ
流出し、第2の容器において、双ロール式連鋳機のロー
ル軸線方向へ均一に広がって水平断面形状が略矩形状の
状態で双ロール式連鋳機へ供給され、双ロール式連鋳機
で冷却されて鋳片が形成され、該鋳片は双ロール式連鋳
機から引抜かれた後、圧延されて所定の幅及び厚さの板
となり、巻取機に巻取られる。[Operation] In the first container of the metal slurry manufacturing apparatus, a stirring shear force is applied to the molten metal by the rotating stirrer, the dendrite structure is crushed to form a semi-solid metal slurry, and the formed semi-solid metal slurry is formed. Flows out to the second container through a gap between the lower end of the stirrer and the upper end surface of the second container, and spreads uniformly in the roll axis direction of the twin-roll continuous caster in the second container. The cross-sectional shape is supplied to a twin-roll continuous caster in a substantially rectangular state, cooled by the twin-roll continuous caster to form a slab, and the slab is drawn from the twin-roll continuous caster. Is rolled into a plate having a predetermined width and thickness, and is wound by a winder.
本発明では、半凝固金属スラリーは、連続的に鋳片に
されたうえ連続的に圧延されて薄板となり、巻取機に巻
取られる。このため、本発明では、製品として種々の板
厚の薄板を連続的に能率良く製造することができる。In the present invention, the semi-solid metal slurry is continuously formed into a slab and then continuously rolled into a thin plate, which is wound up by a winder. For this reason, according to the present invention, thin plates having various thicknesses can be continuously and efficiently manufactured as products.
第1の容器内のガスは、外部へ排出することができる
ため、半凝固金属スラリー内にガスが混入せず、従って
得られた薄板の品質は良好になる。Since the gas in the first container can be discharged to the outside, the gas is not mixed into the semi-solid metal slurry, so that the quality of the obtained thin plate is improved.
又、半凝固金属スラリーは、案内部材により円滑に第
2の容器内へ排出され、第2の容器内で双ロール式連鋳
機のロール軸線方向へ水平断面形状が略矩形状になるよ
う、均一に広がった状態で双ロール式連鋳機に供給され
るため、この点からも得られた薄板の品質は良好にな
る。In addition, the semi-solid metal slurry is smoothly discharged into the second container by the guide member, and the horizontal cross-sectional shape becomes substantially rectangular in the roll axis direction of the twin-roll continuous caster in the second container. Since the sheet is supplied to the twin-roll continuous caster in a state of being uniformly spread, the quality of the obtained thin plate is improved in this respect as well.
[実 施 例] 以下、本発明の一実施例を添付図面に基いて説明す
る。Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.
第1図は本発明の連続薄板製造設備の一実施例を示
し、図中1は取鍋2から溶融金属供給管3を介して供給
された溶融金属の温度制御を行うと共にスタラー(撹拌
棒)を回転させ、半凝固金属スラリーを製造する金属ス
ラリー製造装置である。FIG. 1 shows an embodiment of the continuous sheet manufacturing equipment of the present invention. In FIG. 1, reference numeral 1 denotes a stirrer (stirrer bar) for controlling the temperature of molten metal supplied from a ladle 2 via a molten metal supply pipe 3. Is a metal slurry manufacturing apparatus that manufactures a semi-solid metal slurry by rotating.
金属スラリー製造装置1の詳細は第2図〜第4図に示
されている。すなわち外部を鉄皮4により被覆され内部
に耐火材5を設けた中空円筒状の第1の容器6をケーシ
ング7に装着すると共に、容器6上側部に、外方から溶
融金属を容器6内に供給する溶融金属供給管3を固着
し、容器6の鉄皮4と耐火材5との間に、溶融金属加熱
用の熱媒体を循環させる熱媒体供給管9と溶融金属冷却
用の冷却媒体を循環させる冷却媒体供給管10を配設す
る。Details of the metal slurry manufacturing apparatus 1 are shown in FIGS. That is, a hollow cylindrical first container 6 in which the outside is covered with a steel shell 4 and a refractory material 5 is provided inside is attached to a casing 7, and molten metal is externally put into the container 6 on the upper part of the container 6. The molten metal supply pipe 3 to be supplied is fixed, and a heat medium supply pipe 9 for circulating a heat medium for heating the molten metal and a cooling medium for cooling the molten metal are provided between the iron shell 4 of the container 6 and the refractory material 5. A circulating cooling medium supply pipe 10 is provided.
容器6の下部に、鉄皮11及び耐火材12から成る半凝固
金属スラリー排出用の第2の容器13を取付け、鉄皮11と
耐火材12との間に半凝固金属スラリー加熱用の熱媒体を
循環させる熱媒体供給管14を配設する。At the lower part of the container 6, a second container 13 for discharging a semi-solid metal slurry comprising a steel shell 11 and a refractory material 12 is attached, and a heating medium for heating the semi-solid metal slurry between the steel shell 11 and the refractory material 12 is provided. A heat medium supply pipe 14 for circulating the heat is provided.
容器13中空部上方の水平断面形状は第3図に示すよう
に円形をしていると共に、その径は容器6中空部下端の
径より小径に形成されている。又容器13の両側は上方か
ら下方に向けて徐々に偏平となって水平方向へ広がり、
その下端出口15の水平断面形状は、第4図に示すように
矩形状をしている。The horizontal sectional shape above the hollow portion of the container 13 is circular as shown in FIG. 3, and the diameter is smaller than the diameter of the lower end of the hollow portion of the container 6. Also, both sides of the container 13 gradually become flat from the upper side to the lower side and spread in the horizontal direction,
The horizontal cross-sectional shape of the lower end outlet 15 is rectangular as shown in FIG.
ケーシング7の上部に別のケーシング16を設置し、該
ケーシング16に取付けた軸受17に、駆動装置により回転
させ得るようにした竪軸18を嵌合、支持させ、該竪軸18
の下端フランジ部18aに竪向きの流体圧シリンダ19を配
設し、竪軸18の下端に例えばセラミック製のスタラー20
を配設して前記流体圧シリンダ19のピストンロッド19a
下端を竪軸18の上端フランジ部20aに係合させ、又竪軸1
8からスタラー20に動力の伝達が可能になるよう、フラ
ンジ部18aと20aの間にキー21を介在せしめる。Another casing 16 is installed on the upper part of the casing 7, and a vertical shaft 18, which can be rotated by a driving device, is fitted and supported on a bearing 17 mounted on the casing 16.
A vertical fluid pressure cylinder 19 is disposed at the lower end flange portion 18a of the
The piston rod 19a of the fluid pressure cylinder 19
The lower end is engaged with the upper flange 20a of the vertical shaft 18 and
A key 21 is interposed between the flange portions 18a and 20a so that power can be transmitted from the stirrer 8 to the stirrer 20.
スタラー20の溶融金属撹拌部の断面形状を多角形状若
しくは円柱形状とすると共に、スタラー20の溶融金属撹
拌部の内部に、加熱手段として誘導電流を生じせしめる
例えば螺旋状の鉄片22を埋込み、スタラー20より小径で
容器13内に位置するセラミック製の案内部材23を、前記
スタラー20下端に一体的に固着し、案内部材23の外周に
螺旋状の案内溝23aを刻設する。The molten metal stirring section of the stirrer 20 has a polygonal or columnar cross-sectional shape, and, for example, a helical iron piece 22 for generating an induced current as a heating means is embedded inside the molten metal stirring section of the stirrer 20. A ceramic guide member 23 having a smaller diameter and located in the container 13 is integrally fixed to the lower end of the stirrer 20, and a spiral guide groove 23a is engraved on the outer periphery of the guide member 23.
なお、第2図中24はケーシング16に設けたガス排出用
の管、25は溶融金属である。In FIG. 2, reference numeral 24 denotes a gas exhaust pipe provided in the casing 16, and reference numeral 25 denotes a molten metal.
金属スラリー製造装置1の下方には、第1図に示すよ
うに水平且つ平行に配設された2本の冷却ロール26a及
び冷却ロール26a上に形成された湯溜り26bを有する双ロ
ール式連鋳機26を配設する。冷却ロール26aの軸線方向
は前記金属スラリー製造装置1の下端出口15の長手方向
へ延びている。As shown in FIG. 1, a twin-roll type continuous casting having two cooling rolls 26a disposed horizontally and in parallel and a pool 26b formed on the cooling rolls 26a is provided below the metal slurry manufacturing apparatus 1. Machine 26 is installed. The axial direction of the cooling roll 26a extends in the longitudinal direction of the lower end outlet 15 of the metal slurry manufacturing apparatus 1.
双ロール式連鋳機26の下方には、垂直方向へ下降する
鋳片27を水平方向へ送るガイドロール群28を配設し、ガ
イドロール群28の下流側には、クロップシャ29、エッジ
ヒータ30、複数のエッジャー31及び水平圧延機32から成
る圧延装置33、ピンチロール34、巻取機35を上流から下
流へ向けて順次配設する。Below the twin-roll continuous caster 26, there is disposed a guide roll group 28 for horizontally feeding a slab 27 descending in the vertical direction, and on the downstream side of the guide roll group 28, a cropper 29, an edge heater A rolling device 33 including a plurality of edgers 31 and a horizontal rolling mill 32, a pinch roll 34, and a winder 35 are sequentially arranged from upstream to downstream.
半凝固スラリーから薄板を製造する場合には、金属ス
ラリー製造装置1の流体圧シリンダ19によりスタラー20
を下降させ、スタラー20下端と容器13の耐火材12上面と
の間の隙間を極く小さくし、竪軸18を駆動してスタラー
20を回転させ、管24より容器6内のガスを吸引、排気
し、鉄片22に通電を行って誘導電流を発生させ、熱媒体
供給管9,14に熱媒体を循環させる。このため、スタラー
20は誘導電流により、又容器6,13の耐火材5,12壁面は熱
媒体により、夫々所望の温度まで加熱される。When a thin plate is manufactured from semi-solidified slurry, the stirrer 20 is formed by the fluid pressure cylinder 19 of the metal slurry manufacturing apparatus 1.
Is lowered, and the gap between the lower end of the stirrer 20 and the upper surface of the refractory material 12 of the container 13 is made extremely small.
By rotating 20, the gas in the container 6 is sucked and exhausted from the pipe 24, the iron piece 22 is energized to generate an induced current, and the heat medium is circulated through the heat medium supply pipes 9 and 14. For this reason, Stirrer
20 is heated to a desired temperature by an induced current, and the walls of the refractory materials 5 and 12 of the containers 6 and 13 are heated to a desired temperature by a heat medium.
スタラー20及び耐火材5,12が所定の温度まで加熱され
たら、取鍋2より溶融金属供給管3を介して容器6内に
溶融金属25を供給し、必要に応じ熱媒体供給管9に熱媒
体を、又冷却媒体供給管10に冷却媒体を供給し、更にス
タラー20の誘導電流による加熱を続行するか或いは中止
し、溶融金属の温度制御を行いつつスタラー20により溶
融金属に撹拌剪断力を与え、成長するデンドライト結晶
組織を破砕させて溶融金属中に均一な微細球状結晶粒を
混在させ、半凝固金属スラリーを製造する。溶融金属の
供給開始時においても、スタラー20及び耐火材5は所定
の温度に加熱されているため、溶融金属がスタラー20や
耐火材5により冷却されず、従って凝固殻の発生を防止
できる。When the stirrer 20 and the refractory materials 5 and 12 are heated to a predetermined temperature, the molten metal 25 is supplied from the ladle 2 into the vessel 6 via the molten metal supply pipe 3 and, if necessary, the heat medium supply pipe 9 is heated. The medium and the cooling medium are supplied to the cooling medium supply pipe 10, and the heating by the induction current of the stirrer 20 is continued or stopped, and the stirring shear force is applied to the molten metal by the stirrer 20 while controlling the temperature of the molten metal. The resulting dendrite crystal structure is crushed to mix homogeneous fine spherical crystal grains in the molten metal to produce a semi-solid metal slurry. Even when the supply of the molten metal is started, the stirrer 20 and the refractory material 5 are heated to a predetermined temperature, so that the molten metal is not cooled by the stirrer 20 and the refractory material 5, so that the formation of a solidified shell can be prevented.
所定の半凝固金属スラリーが形成されたら、流体圧シ
リンダ19によりスタラー20を上昇させ、スタラー20下端
と容器13の耐火材12の上面との間に略Xの隙間を形成さ
せ、半凝固金属スラリーを、容器6から容器13の下端出
口15を経て双ロール式連鋳機26の湯溜り26bへ供給す
る。When the predetermined semi-solid metal slurry is formed, the stirrer 20 is raised by the fluid pressure cylinder 19 to form a substantially X gap between the lower end of the stirrer 20 and the upper surface of the refractory material 12 of the container 13, and the semi-solid metal slurry is formed. Is supplied from the container 6 to the pool 26b of the twin-roll continuous caster 26 through the lower end outlet 15 of the container 13.
この際、半凝固金属スラリーは、回転している案内部
材23の案内溝23aに沿い案内されつつ微細化されて排出
されるため、半凝固金属スラリーは、容器13内へ円滑に
排出される。又半凝固金属スラリーは、容器13内で長手
方向へ均一に広がるため、双ロール式連鋳機26へは、冷
却ロール26a軸線方向へ延びる水平断面矩形状の状態で
供給される。At this time, the semi-solid metal slurry is finely discharged while being guided along the guide groove 23a of the rotating guide member 23, so that the semi-solid metal slurry is smoothly discharged into the container 13. Since the semi-solid metal slurry is uniformly spread in the longitudinal direction in the container 13, the semi-solid metal slurry is supplied to the twin-roll continuous caster 26 in a state of a rectangular cross section extending in the axial direction of the cooling roll 26a.
双ロール式連鋳機26の湯溜り26bへ供給された半凝固
金属スラリーは、矢印方向へ回転している冷却ロール26
aに接触して冷却され、凝固殻が生成され、成長した凝
固殻は鋳片27として冷却ロール26a,26a間から引抜か
れ、ガイドロール群28に案内されてクロップシャ29を通
り、先端クロップを切断され、エッジヒータ30でエッジ
部を加熱されて圧延装置33へ送られ、所定の幅及び厚さ
に圧延されて薄板となり、巻取機35へ巻き取られる。The semi-solid metal slurry supplied to the pool 26b of the twin roll continuous caster 26 is cooled by the cooling roll 26 rotating in the direction of the arrow.
The solidified shell is cooled by contact with a, the grown solidified shell is drawn out as a slab 27 from between the cooling rolls 26a, 26a, guided by the guide roll group 28, passed through the cropper 29, and cut into the tip crop. After being cut, the edge portion is heated by the edge heater 30 and sent to the rolling device 33 where it is rolled to a predetermined width and thickness to form a thin plate, which is wound up by the winder 35.
上述のように半凝固金属スラリーから鋳片27を鋳造す
ることにより、良質な種々の厚さの薄板を連続的に能率
良く製造することができる。By casting the slab 27 from the semi-solid metal slurry as described above, thin plates of various thicknesses of good quality can be continuously and efficiently produced.
なお、本発明は上述の実施例に限定されることなく、
本発明の要旨を逸脱しない範囲内で種々変更を加え得る
こと、等は勿論である。It should be noted that the present invention is not limited to the above-described embodiment,
It goes without saying that various changes can be made without departing from the spirit of the present invention.
[発明の効果] 本発明の連続薄板製造設備によれば、下記のごとき種
々の優れた効果を奏し得る。[Effects of the Invention] According to the continuous thin plate manufacturing equipment of the present invention, various excellent effects as described below can be obtained.
I) 製品として種々の板厚の薄板を連続的に能率良く
製造することができる。I) Thin plates of various thicknesses can be continuously and efficiently manufactured as products.
II) 半凝固金属スラリーにはガスが混入せず、又半凝
固金属スラリーは、微細化されると共に双ロール式連鋳
機のロール軸線方向へ水平断面形状が略矩形状になるよ
う、均一に広がった状態で双ロール式連鋳機に供給され
る。このため、薄板の品質は良好になる。II) No gas is mixed into the semi-solid metal slurry, and the semi-solid metal slurry is uniformly refined and uniform so that the horizontal cross-sectional shape becomes substantially rectangular in the roll axis direction of the twin-roll continuous caster. It is supplied to the twin-roll continuous caster in the spread state. For this reason, the quality of the thin plate becomes good.
第1図は本発明の連続薄板製造設備の一実施例の説明
図、第2図は第1図の設備のうちの金属スラリー製造装
置の詳細図、第3図は第2図のIII−III方向矢視図、第
4図は第2図のIV−IV方向矢視図である。 図中、1は金属スラリー製造装置、6は第1の容器、13
は第2の容器、15は下端出口、20はスタラー、23は案内
部材、23aは案内溝、24はガス排出用の管、25は溶融金
属、26は双ロール式連鋳機、26aは冷却ロール、26bは湯
溜り、33は圧延装置、35は巻取機を示す。FIG. 1 is an explanatory view of one embodiment of a continuous sheet manufacturing equipment of the present invention, FIG. 2 is a detailed view of a metal slurry manufacturing apparatus in the equipment of FIG. 1, and FIG. 3 is III-III of FIG. FIG. 4 is a view taken in the direction of arrows IV-IV in FIG. In the figure, 1 is a metal slurry production apparatus, 6 is a first container, 13
Is a second container, 15 is a lower end outlet, 20 is a stirrer, 23 is a guide member, 23a is a guide groove, 24 is a gas discharge tube, 25 is a molten metal, 26 is a twin-roll continuous caster, and 26a is cooling A roll, 26b is a pool, 33 is a rolling device, and 35 is a winder.
フロントページの続き (56)参考文献 特開 昭58−218359(JP,A) 特開 昭55−70466(JP,A) 特開 昭56−119607(JP,A) 特開 昭61−186106(JP,A) 特開 昭61−186108(JP,A) 特開 平1−170548(JP,A) 特公 昭56−20944(JP,B2)Continuation of front page (56) References JP-A-58-218359 (JP, A) JP-A-55-70466 (JP, A) JP-A-56-119607 (JP, A) JP-A-61-186106 (JP) JP-A-61-186108 (JP, A) JP-A-1-170548 (JP, A) JP-B-56-20944 (JP, B2)
Claims (1)
ー製造装置と、該金属スラリー製造装置から一対のロー
ル間に形成された湯溜りへ供給された半凝固金属スラリ
ーを冷却させ鋳片として引抜く双ロール式連鋳機と、該
双ロール式連鋳機で鋳造された鋳片を圧延する圧延装置
と、該圧延装置で圧延された板を巻取る巻取機とを、ラ
イン上流側から下流側へ向けて順次連続的に配置し、前
記金属スラリー製造装置は、内部に溶融金属を収納し得
るようにした第1の容器と、該第1の容器内に供給され
た溶融金属を撹拌しデンドライト形態を破壊して半凝固
金属スラリーとする回転自在で且つ昇降自在なスタラー
と、上端面が前記第1の容器の内部空間に対向すると共
に下端出口の水平断面形状が前記双ロール式連鋳機のロ
ール軸線方向へ長い矩形状に形成され、しかも前記スタ
ラーが上昇した際には前記上端面と前記スタラー下端と
の間に半凝固金属スラリーが流出するための隙間が形成
されるよう、前記第1の容器の下部に配設された第2の
容器と、該第2の容器内に突出するよう前記スタラーの
下端に固定され且つ前記第1の容器内から前記隙間を通
って排出される半凝固金属スラリーを案内する螺旋状の
案内溝が外周に形成された案内部材と、前記第1の容器
内のガラスを吸引、排気するための手段を設けたことを
特徴とする連続薄板製造設備。1. A metal slurry producing apparatus for forming a semi-solid metal slurry, and a semi-solid metal slurry supplied from the metal slurry producing apparatus to a pool formed between a pair of rolls is cooled and drawn as a slab. A twin-roll continuous caster, a rolling device that rolls a slab cast by the twin-roll continuous caster, and a winding machine that winds a plate rolled by the rolling device, from a line upstream to a downstream. Placed side by side continuously, the metal slurry producing apparatus stirs a first container capable of storing the molten metal therein, and the molten metal supplied into the first container. A rotatable and vertically movable stirrer that breaks the dendrite form into a semi-solid metal slurry, and has a horizontal cross-sectional shape at the lower end outlet of the twin-roll continuous casting, the upper end surface of which faces the internal space of the first container. Long in the machine roll axis direction It is formed in a rectangular shape, and when the stirrer rises, a gap is formed between the upper end surface and the lower end of the stirrer so that a semi-solid metal slurry flows out. A second container disposed therein and a semi-solid metal slurry fixed to a lower end of the stirrer so as to protrude into the second container and discharged from the first container through the gap. A continuous sheet manufacturing facility, comprising: a guide member having a spiral guide groove formed on an outer periphery thereof; and means for sucking and exhausting the glass in the first container.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP63001561A JP2869066B2 (en) | 1988-01-07 | 1988-01-07 | Continuous sheet manufacturing equipment |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP63001561A JP2869066B2 (en) | 1988-01-07 | 1988-01-07 | Continuous sheet manufacturing equipment |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH01178303A JPH01178303A (en) | 1989-07-14 |
JP2869066B2 true JP2869066B2 (en) | 1999-03-10 |
Family
ID=11504936
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP63001561A Expired - Fee Related JP2869066B2 (en) | 1988-01-07 | 1988-01-07 | Continuous sheet manufacturing equipment |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP2869066B2 (en) |
Families Citing this family (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US6500284B1 (en) * | 1998-06-10 | 2002-12-31 | Suraltech, Inc. | Processes for continuously producing fine grained metal compositions and for semi-solid forming of shaped articles |
JP3867769B2 (en) * | 2001-03-26 | 2007-01-10 | 徹一 茂木 | Method and apparatus for manufacturing plate metal material |
CN1295036C (en) * | 2004-07-30 | 2007-01-17 | 南京钢铁联合有限公司 | Semi-solid-state milling technology of cast iron plate material |
CN104624989A (en) * | 2013-11-11 | 2015-05-20 | 谢兆宗 | Continuous casting formation machining device and method used for metal |
Family Cites Families (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS5570466A (en) * | 1978-11-22 | 1980-05-27 | Hitachi Ltd | Alloy slurry producing device |
JPS5620944A (en) * | 1979-07-27 | 1981-02-27 | Toshiba Corp | Air conditioner |
JPS58218359A (en) * | 1982-06-14 | 1983-12-19 | Sumitomo Metal Ind Ltd | Production of thin metallic plate |
-
1988
- 1988-01-07 JP JP63001561A patent/JP2869066B2/en not_active Expired - Fee Related
Also Published As
Publication number | Publication date |
---|---|
JPH01178303A (en) | 1989-07-14 |
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