JPS61123451A - Continuous casting device of strip consisting of metal and particularly steel - Google Patents

Continuous casting device of strip consisting of metal and particularly steel

Info

Publication number
JPS61123451A
JPS61123451A JP24672485A JP24672485A JPS61123451A JP S61123451 A JPS61123451 A JP S61123451A JP 24672485 A JP24672485 A JP 24672485A JP 24672485 A JP24672485 A JP 24672485A JP S61123451 A JPS61123451 A JP S61123451A
Authority
JP
Japan
Prior art keywords
strip
molten metal
casting
mold
bodies
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.)
Pending
Application number
JP24672485A
Other languages
Japanese (ja)
Inventor
Beetaa Pureshiuteyunitsuhi Furitsutsu
フリツツーベーター プレシウテユニツヒ
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
NICHIDOKU JUKOGYO KK
Original Assignee
NICHIDOKU JUKOGYO KK
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by NICHIDOKU JUKOGYO KK filed Critical NICHIDOKU JUKOGYO KK
Publication of JPS61123451A publication Critical patent/JPS61123451A/en
Pending legal-status Critical Current

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B22CASTING; POWDER METALLURGY
    • B22DCASTING OF METALS; CASTING OF OTHER SUBSTANCES BY THE SAME PROCESSES OR DEVICES
    • B22D11/00Continuous casting of metals, i.e. casting in indefinite lengths
    • B22D11/06Continuous casting of metals, i.e. casting in indefinite lengths into moulds with travelling walls, e.g. with rolls, plates, belts, caterpillars

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Continuous Casting (AREA)

Abstract

PURPOSE:To prevent the deterioration of a cast strip by exerting pressure on a molten metal in a partially closed molten metal reserving tank and disposing cooled guide bodies and endless belt-like bodies. CONSTITUTION:The molten metal reserving tank 1 communicates with a pressure chamber 4 and the controllable pressure is exerted on the molten metal 2. A casting mold 3 is constituted of the upper and lower endless bodies 6, the upper and lower guide bodies 10 and a driving device for said bodies. The molten metal 2 on which the pressure higher than atmospheric pressure is exerted is extruded into the mold 3 by passing through a space outlet 5 between upper and lower nozzle plates 5a and 5b. The respective bodies 10 are cooled by the internal cooling water and move at the same speed as the moving speed of the cast strip 9. The bodies 6 do not adhere to the strip 9 and prevent the oscillation of the mold 3. The molten metal 3 is substantially supplied to the mold 3 by the above-mentioned method and therefore the deterioration of the quality of the cast strip is prevented.

Description

【発明の詳細な説明】 産業上の利用分野 本発明は、圧力下にある金属溶湯が連通管の原理に従い
湯留タンクから鋳型の中へ輸送できる。
DETAILED DESCRIPTION OF THE INVENTION Industrial Application The present invention allows molten metal under pressure to be transported from a sump tank into a mold according to the principle of a communicating tube.

金属溶湯、特に鋼溶湯の帯板連続鋳造のための装置に関
する。
The present invention relates to an apparatus for continuous strip casting of molten metal, especially molten steel.

この種の装置は、金属溶湯が湯留タンクと湯口から位置
固定の(振動しない)連続鋳造鋳型の中へ制御して導入
され、さらに連続鋳造物が制御して引き出され、鋳造時
に連続的にそれぞれ1枚の耐熱性無端帯状体が、少なく
とも鋳造物の一方の面で連続鋳造物の引出し速度で移動
されることによって行われる。
This type of equipment involves the controlled introduction of molten metal from a sump tank and sprue into a stationary (non-vibrating) continuous casting mold, and the controlled withdrawal of the continuous casting into a continuous casting mold. This is carried out by moving one heat-resistant endless strip in each case on at least one side of the casting at the withdrawal speed of the continuous casting.

鋳造帯板生産のための新しい技術の開発は、圧延帯板に
要求される材質特性t3回以上の最小限の圧延回数によ
シ原材料から製作できる物理的技術的可能性に基づいて
いる。例えば、古^的方式ラインであるスラブ(例えば
厚さ約200〜300闘)二 の鋳造ライン(前ライン、中間ラインおよび仕、げライ
ンから成る)は30以上の圧延回数き有している。とこ
ろで、形管、シームレス管、厚板のような生産ラインの
圧延回数は、現在、既に3〜lOの範囲内となっている
。このように30回以上の圧延回数t−3回以上に減少
するということは、上記鋳造ラインの一部を省略できる
ことを意味し、従って帯板の生産コストを大幅に低下さ
せることにつながる。
The development of new technologies for the production of cast strips is based on the physical-technical possibility of producing rolled strips from raw materials with a minimum number of rolling steps of at least t3 times, which are more than the material properties required for rolled strips. For example, a slab casting line (consisting of a front line, an intermediate line, and a finishing line) for slabs (for example, about 200 to 300 mm thick), which is an old-fashioned line, has more than 30 rolling cycles. By the way, the rolling number of production lines for shaped pipes, seamless pipes, and thick plates is currently within the range of 3 to 1O. Reducing the number of rolling steps from 30 or more to t-3 or more means that a part of the casting line can be omitted, which leads to a significant reduction in the production cost of the strip.

従来の技術 従来、帯板を連続鋳造により製造する装置として、ぺμ
ト式又はローラ式の移動鋳型が使用されると共に、この
移動鋳型内には溶鋼が重力によシ注入されてい友。
Conventional technology Conventionally, as a device for producing strips by continuous casting,
A hand-type or roller-type moving mold is used, and molten steel is injected into the moving mold by gravity.

発明が解決しようとする問題点 ところで、上記の鋳型の隙間幅は、非常に狭く、te溶
鋼の鋳型への供給は、重力の作用により行なわれている
ため、鋳型への溶鋼供給は十分に行なわれておらず、従
って鋳造物の品質が劣下するという問題があった。
Problems to be Solved by the Invention By the way, the width of the gap in the mold described above is very narrow, and the supply of molten steel to the mold is carried out by the action of gravity, so the molten steel cannot be sufficiently supplied to the mold. Therefore, there was a problem that the quality of the cast product deteriorated.

そこで、本発明は、帯板連続鋳造の際に生じる困難、即
ち極めて狭い間隙鋳型への溶鋼の不十分な供給を避ける
ことを目的とする。
The object of the invention is therefore to avoid the difficulties that arise during continuous strip casting, namely the insufficient supply of molten steel to the very narrow gap molds.

問題を解決するための手段 上記問題を解決するため、本発明の金属、特に鋼の帯板
連続鋳造装置は、圧力下にある金属溶湯が連通管の原理
に従い湯留タンクから鋳型へと輸送できる、金属溶湯、
特に鋼溶湯の帯板連続鋳造のための装置であって、高く
した圧力の下で少なくとも部分的に閉鎖された湯留タン
ク(1)の中にある金属溶湯(2)が湯留タンク(1)
の上部領vt、TIc設けられている間隙出口(5)を
通って導入することができること、閉鎖されt鋳造断面
(7)の少なくとも一側面(3a)を無端帯状体(6)
がそれぞれの鋳造側の行程に鋳造速度で導入することが
できること、無端帯状体(6)と鋳造帯板(9)が無端
帯状体(6)または鋳造帯板(9)のための冷却され九
案内体αqの上に載っているように構成しtものである
Means for Solving the Problems In order to solve the above problems, the continuous metal, especially steel, strip casting apparatus of the present invention is characterized in that the molten metal under pressure can be transported from the molten metal tank to the mold according to the principle of a communicating pipe. , molten metal,
Apparatus, in particular for the continuous casting of molten steel strips, in which the molten metal (2) is placed in an at least partially closed smelt tank (1) under elevated pressure. )
The upper region of the endless strip (6) can be introduced through a gap outlet (5) provided with a closed t cast section (7) on at least one side (3a) of the endless strip (6).
can be introduced at the casting speed into the respective casting side stroke, and the endless strip (6) and the casting strip (9) can be cooled for the endless strip (6) or the casting strip (9). It is constructed so that it rests on the guide body αq.

作用 上記構成によると、金属溶湯が圧力によって鋳型内に十
分供給されるため、鋳造帯板の品質に好影響を与える。
Effect: According to the above configuration, the molten metal is sufficiently supplied into the mold by pressure, which has a positive effect on the quality of the cast strip.

まt、場合により空気遮断のもとに金属量の正確な配置
を可能とするため、所定の引出し速度を守ることができ
る。まt、圧力は冷却された案内体への鋳造帯板の密層
度を調節する働きをする。さらに、無端帯状体は特別の
振動装置を必要としない。無端帯状体は、この他、冷却
された案内体に熱を伝える働きをする。
Furthermore, it is possible to maintain a predetermined withdrawal speed, since it allows a precise placement of the metal mass, possibly with air exclusion. The pressure also serves to adjust the degree of densification of the cast strip to the cooled guide body. Furthermore, endless strips do not require special vibration equipment. In addition, the endless strip serves to transfer heat to the cooled guide body.

本発明の有利な構成形態は、間隙出口が案内体上の水平
面に配置されたオーバーフロ一部と鋳造帯板移動方向に
駆動できる冷却ローラから構成されていることにある。
An advantageous embodiment of the invention consists in that the gap outlet consists of an overflow section arranged in a horizontal plane on the guide and a cooling roller that can be driven in the direction of movement of the casting strip.

課せられた課題はさらに次のようにして解決される。す
なわち高くした圧力において上部の閉鎖された湯留タン
クの中にある金属溶湯が間隙出口を通シ垂直にプレート
連続鋳造鋳型の中へ導入され、その際、スリット入口と
冷却されたプレート連続鋳造鋳型との間の少なくとも二
つの対向する幅側において、箔がそれぞれの鋳造側の行
程に鋳造速度で導入されるのである。正確な配量、改善
された鋳造帯板厚さおよび有利な熱排出の他に、この、
構成は薄い鋳造帯板の円弧をなした鋳造を可能とし、こ
れは鋳造物の後の巻取り過程において極めて僅かな変形
しか受けないことを意味する。
The problem posed is further solved as follows. That is, at increased pressure, the molten metal in the upper closed smelting tank is introduced vertically through the gap outlet into the plate continuous casting mold, with the slit inlet and the cooled plate continuous casting mold being introduced vertically into the plate continuous casting mold. At least two opposite width sides between the foils are introduced into the respective casting side strokes at casting speed. In addition to accurate metering, improved cast strip thickness and advantageous heat dissipation, this
The configuration allows arc-shaped casting of thin casting strips, which means that the casting undergoes only very small deformations during the subsequent winding process.

本発明の別の改善は、無端帯状体がオーバーフロ一部と
冷却された案内体との間を通されることにある。その利
点は振動を避けること、最大限の鋳造速度および鋳型プ
レート中へ妨げのない熱伝達にある。
A further improvement of the invention consists in that the endless strip is passed between the overflow part and the cooled guide body. Its advantages lie in avoiding vibrations, maximizing casting speed and unhindered heat transfer into the mold plate.

別の発明により提案されるのは、金属溶湯のための湯留
タンクに隣接して圧力室が配置されており、これが隔壁
の底領域の開口部を通じて湯留タンクと連結している。
Another invention proposes that a pressure chamber is arranged adjacent to the sump tank for the molten metal, which is connected to the sump tank through an opening in the bottom region of the partition.

本発明の別の改善は、オーバーフロ一部に鋳造帯板厚さ
に調節されたまたは調節可能な少なくとも一つの冷却ロ
ーラが鋳型の一部として設けられている点にある。この
冷却ローラは、鋳造帯板の無端帯状体とは反対側の面に
対応して設けられると共に、鋳造帯板の厚み方向におい
て位置調節が可能にされている。また、@造帯板の収縮
は、冷却ローラの後に別の冷却ローラが鋳造帯板移動方
向に配置されており、これら冷却ローラの周りに無端帯
状体が巻き付いており、″1友少なくとも1本の冷却ロ
ーラが鋳造帯板速度で回転駆動できることにより調整で
きるのが有利である。このような構成の利点は、前後の
配置で同じ高さに配置する必要のない冷却ローラの調整
可能性にある。
A further improvement of the invention consists in that at least one cooling roller, which is adjusted or adjustable to the casting strip thickness, is provided in the overflow part as part of the mold. This cooling roller is provided corresponding to the surface of the casting strip opposite to the endless strip, and its position can be adjusted in the thickness direction of the casting strip. In addition, in order to reduce the shrinkage of the casting strip, another cooling roller is placed after the cooling roller in the direction of movement of the casting strip, and an endless strip is wrapped around these cooling rollers. It is advantageous that the cooling rollers of the casting strip can be adjusted by being rotatably driven at the casting strip speed.The advantage of such an arrangement consists in the possibility of adjusting the cooling rollers, which do not have to be arranged at the same height in the front-to-back arrangement. .

鋳造帯板のための側面限界は、冷却ローラの末端が鋳造
帯板幅の間隔をおいてそれぞれ7ランジ盤を備えている
ことにより有利に達することができる。
The lateral limits for the cast strip can advantageously be reached in that the ends of the cooling rollers are each provided with seven plungers at a distance of the width of the cast strip.

本発明はその他、湯留タンクに所属する圧力室が不活性
ガスを受けることにより、鋳造時に生じる金属溶湯の再
酸化を避は得る。
Another advantage of the invention is that the pressure chamber belonging to the distillation tank receives an inert gas, thereby avoiding reoxidation of the molten metal that occurs during casting.

実施例 以下1本発明の一実施例を図面に基づき説明する。Example An embodiment of the present invention will be described below based on the drawings.

第1図による帯板連続鋳造のための装置は、湯留タンク
(1)を備え、ここから金属溶湯(2)(液体鋼)が鋳
型(3)の中に輸送される。金属溶湯(2)は制御可能
な圧力(dp/dt)によシ圧力室(4)から搬出され
る。湯留タンク(1)は、第1図に示すように、圧力室
(4)と連通しており、上部ノズル板(5a)および下
部ノズル板(5b)により形成されt一つの水平方向の
間隙出口(5)を備えている。上記鋳型(3)は、餌 この間隙出口(5)の上部ノズル板(5a)K対して設
けへ られt上部無端帯状体(以下、単に上帯状体という)(
6)と、下部無端帯状体(以下、単に下、帯状体という
)(6)と、この両帯状体(6)(6)間の間隙を所定
厚さに案内する上下の案内体α□QCIと、これら案内
体QOQQと各ノズル板(5a)(5b)間のスリット
入口から各案内体QOを鋳造帯板(9)の移動速度と同
一速度で引出し前方に移動させるtめの駆動装置(図示
せず)とから構成されている。なお、鋳造帯板(9)の
幅は図示しない壁体(例えば第3図における側壁(8a
)(8b) Kより制限されている。上記各案内体QQ
は、例えば内部に冷却水が通されて冷却されておシ、各
帯状体(6)を介して金属溶湯(2)から熱(dQ /
dt) lc奪うようにしている。上記帯状体(6)は
種々な材質から構成でき1例えばアルミニュク、鋼が使
用される。また、帯状体(6)は、高い熱伝導性をもつ
もの1例えば厚みが0.1 tmのセラミック箔であっ
てもよい。さらに、帯状体(6)の材質としてガラス繊
維筒、炭素フリース、C単結晶からなるクイスカ箔が考
えられる。この帯状体(6)に上記の材質からなる混合
形態も使用できることは勿論である。上記の材質は温度
変化に強く、比較的高い熱伝導性を有している。この他
、帯状体(6)が、金属製の帯状本体に上記の材質のも
のを薄く貼付は友ものでもよい。この場合、帯状本体は
金属溶湯(2)ま九は鋳造帯板(9)の外側凝固部とは
直接接触することはなく、従って鋳造帯板との接着が防
止される。上記帯状体(6)は、鋳型(3)を振動させ
ることなく、金属溶湯(2)を鋳型(3)内に供給する
のに役立っている。約1500℃の温度(鋼溶湯)をも
つ金属溶湯(2)を狭い鋳型(3)の中に持ち込むとい
う問題は、この場合、大気圧に比して高い圧力N(4)
の中の圧力と連通した間隙出口(5)によって解決され
る。
The apparatus for continuous casting of strips according to FIG. 1 comprises a molten metal tank (1) from which molten metal (2) (liquid steel) is transported into a mold (3). The molten metal (2) is discharged from the pressure chamber (4) with controllable pressure (dp/dt). As shown in Fig. 1, the molten water tank (1) communicates with the pressure chamber (4), and is formed by an upper nozzle plate (5a) and a lower nozzle plate (5b), and has one horizontal gap. It is equipped with an exit (5). The mold (3) is provided to the upper nozzle plate (5a) K of the gap outlet (5) of the bait.
6), a lower endless strip (hereinafter simply referred to as the lower strip) (6), and an upper and lower guide body α□QCI that guides the gap between the two strips (6) (6) to a predetermined thickness. and a t-th drive device (t) that moves each guide QO forward from the slit entrance between these guides QOQQ and each nozzle plate (5a) (5b) at the same speed as the moving speed of the casting strip plate (9). (not shown). Note that the width of the cast strip (9) is determined by the width of the wall (not shown) (for example, the side wall (8a) in FIG. 3).
) (8b) is more restricted than K. Each of the above guides QQ
are cooled by, for example, cooling water passing through them, and heat (dQ /
dt) I am trying to steal lc. The strip (6) can be made of various materials, such as aluminum or steel. Further, the strip (6) may be made of a material having high thermal conductivity, for example, a ceramic foil having a thickness of 0.1 tm. Further, as the material of the band-shaped body (6), glass fiber cylinder, carbon fleece, and Quisca foil made of C single crystal can be considered. Of course, a mixture of the above-mentioned materials can also be used for this strip (6). The above materials are resistant to temperature changes and have relatively high thermal conductivity. In addition, the strip (6) may be made of the above-mentioned material and thinly pasted onto a metal strip main body. In this case, the strip body does not come into direct contact with the molten metal (2) or the outer solidified portion of the casting strip (9), thus preventing adhesion to the casting strip. The strip (6) serves to feed the molten metal (2) into the mold (3) without vibrating the mold (3). The problem of bringing a molten metal (2) with a temperature of about 1500°C (molten steel) into a narrow mold (3) is in this case a high pressure N (4) compared to atmospheric pressure.
by means of a gap outlet (5) in communication with the pressure within.

第2の実施例(第2図と第3図)によれば1間隙出口(
5)はオーバーフロ一部(ロ)から形成されており、ま
た鋳型(3)は下帯状体(6)と下案内体αq並びにこ
れらの上方に且つ水平方向で配置された冷却ローラα4
とから構成されている。上記冷却ローラμsは、回転自
在にされると共に鋳造帯板厚さの調節のため矢印Q4方
向に調整可能に支承されている1、従って、ここでは間
隙出口(5)は冷却された下案内体Qlまたは下帯状体
(6)によシ冷却ローラ(2)と共に形成されることに
なる。なお、オーバーフロ一部(2)は金属溶湯流れの
予備配量のような働きをする。まt、冷却は冷却ローラ
(2)が案内体(10のように冷却されている究め、間
隙出口(5)で始まる。
According to the second embodiment (Figs. 2 and 3), one gap outlet (
5) is formed from an overflow part (b), and the mold (3) is formed by a lower strip body (6), a lower guide body αq, and a cooling roller α4 arranged horizontally above these.
It is composed of. The cooling roller μs is made rotatable and is supported so as to be adjustable in the direction of the arrow Q4 in order to adjust the thickness of the casting strip 1. Therefore, here the gap outlet (5) is connected to the cooled lower guide member. The Ql or lower strip (6) will be formed together with the cooling roller (2). Note that the overflow part (2) acts like a pre-dispensing portion of the molten metal flow. Cooling begins at the gap outlet (5) where the cooling roller (2) is cooled like the guide body (10).

別の実施例(第4図)によれば、間隙出口(5)は鋳造
帯板が垂直方向に移動(dm/dt)する場合に適用さ
れている。この場合、鋳型(3)は、間隙出口(5)に
対向する前後のプレート連続鋳造鋳型(以下。
According to another embodiment (FIG. 4), the gap outlet (5) is applied when the casting strip moves vertically (dm/dt). In this case, the mold (3) is a continuous casting mold (hereinafter referred to as a front and rear plate continuous casting mold) facing the gap outlet (5).

プレート鋳型という)(案内体の一例)(至)と、これ
らプレート鋳型(ト)(至)の表面を上から下に向って
鋳造速度CVg)で移動する前後の無端帯状体(6) 
(6)と。
(referred to as a plate mold) (an example of a guide body) (to), and an endless strip (6) that moves from top to bottom on the surface of these plate molds (g) (to) at a casting speed CVg)
(6) and.

これら帯状体(6) (6)t−移動させる上下の駆動
ローラ(至)QQとから構成されている。なお、間隙出
口(5)と各プレート鋳型(至)(至)との間には、帯
状体(6) (6)案内用のスリット入口αGが形成さ
れている。また、上記各プレート鋳型(ト)は、銅によ
り構成されると共に、冷却されている。さらに、各帯状
体(6)t−通じて放出される* (dQ/ dt )
は主として冷却装置αηから取出される。
These belt-shaped bodies (6) (6) are composed of upper and lower drive rollers (to) QQ that move them. Note that a slit inlet αG for guiding the strip (6) (6) is formed between the gap outlet (5) and each plate mold (to) (to). Furthermore, each of the plate molds (g) is made of copper and is cooled. Additionally, each band (6) is released through t-*(dQ/dt)
is mainly taken out from the cooling device αη.

なお、すべての場合において、金属溶湯(2)は、隔H
1四によフ生じる底領域■υの開口部−を通じ圧力室(
4)から供給される。
In addition, in all cases, the molten metal (2) is
The pressure chamber (
4).

本発明はその他の変形で実現することができる。The invention can be implemented in other variants.

すなわち第2図による実施例は、冷却ローラ(2)の後
に、いま一つの冷却ローラ(至)を鋳造帯板移動力。
That is, in the embodiment according to FIG. 2, after the cooling roller (2), another cooling roller (to) is connected to the casting strip moving force.

向(9a)K:!a置することを可能とし、その際、冷
却ローラーの周りに無端帯状体(6)が巻き付けられる
Direction (9a) K:! a cooling roller, an endless strip (6) being wrapped around the cooling roller.

冷却ローラ(2)の一つはその場合鋳造速度Vgで駆動
される。鋳造速度Vgは鋳造帯板速度と等しくしなけれ
ばならない。
One of the cooling rollers (2) is then driven at the casting speed Vg. The casting speed Vg must be equal to the casting strip speed.

鋳造帯板(9)の友めの側方限界は、側壁(8a)(8
b)(第3図)による他、鋳造帯板幅に調節できるフラ
ンジ!!@(第3図)によっても形成することができる
。その他塔1.2.4図につき記載したと類似の案内を
もつ別の無端帯状体(6)も用いることができる。この
ような例は第5図から明らかとなる。側方の無端帯状体
は、ここでは(6a)および(6b)で示されている。
The friend lateral limit of the cast strip (9) is the side wall (8a) (8
b) In addition to (Fig. 3), the flange can be adjusted to the width of the casting strip! ! It can also be formed by @ (Fig. 3). Other endless strips (6) with guides similar to those described for column 1.2.4 can also be used. Such an example becomes clear from FIG. The lateral endless bands are shown here at (6a) and (6b).

第4図はいま一つの実施例を含んでいる。湯留タンク(
1) t;1:ここでは間隙出口(5)まで延びておシ
、しかも(図の左半分)金属溶湯(2)は温度降下なし
に分離1Ik(財)を通じて急激に鋳造断面(7)に導
かれ、ここで同じく急激に冷却される。これと選択肢と
なるのが第4図の右半分であり、この場合、貯蔵タンク
(1)は金属溶湯(2)t−垂直な壁部分四を通して鋳
造断面(7)に導く。
FIG. 4 includes another embodiment. Hot water tank (
1) t; 1: Here, the molten metal (2) extends to the gap outlet (5) and (left half of the figure) rapidly passes through the separation 1Ik (Foundation) to the casting section (7) without a temperature drop. where it is also rapidly cooled. An alternative to this is the right half of FIG. 4, in which the storage tank (1) leads the molten metal (2) through a vertical wall section 4 to the casting section (7).

ここで、本発明及び好ましい実施態様を記載する。The invention and preferred embodiments will now be described.

ん 圧力下にある金属溶湯が連通管の原理に従い湯留タ
ンクから鋳型へと輸送できる、金属溶湯。
A molten metal under pressure that can be transported from a molten tank to a mold according to the principle of a communicating pipe.

特に鋼溶湯の帯板連続鋳造のための装置であって、高く
した圧力の下で少なくとも部分的に閉鎖された湯留タン
ク(1)の中にある金属溶湯(2)が湯留タンク(1)
の上部領域に設けられている間隙出口(5ンを通って導
入することができること、閉鎖された鋳造断面(7)の
少なくとも一側面(3a)f、無端帯状体(6)がそれ
ぞれの鋳造側の行程に鋳造速度で導入することができる
こと、無端帯状体(6)と鋳造帯板(9)が無端帯状体
(6)まtは鋳造帯板(9)のための冷却された案内体
(10)の上に載っていることを特徴とする金属、特に
鋼の帯板連続鋳造装置。
Apparatus, in particular for the continuous casting of molten steel strips, in which the molten metal (2) is placed in an at least partially closed smelt tank (1) under elevated pressure. )
It is possible to introduce through the gap outlet (5) provided in the upper region of at least one side (3a)f of the closed casting section (7), with an endless strip (6) on each casting side. The endless strip (6) and the cast strip (9) can be introduced at casting speed into the stroke of the endless strip (6) or the cooled guide body (for the cast strip (9)). 10) An apparatus for continuous casting of metal, in particular steel, strips, characterized in that it rests on the metal, in particular steel, strip casting apparatus.

B0間隙出口(5)が案内体叫の水平面(2)の上1c
配置され次オーバーフロ一部(ロ)と鋳・造帯板移動方
向に騙勧できる冷却ローラ(至)とから形成されている
ことを特徴とする上記A項に、記載の装置。
B0 gap exit (5) is 1c above the horizontal plane (2) of the guide body
The device according to item A above, characterized in that it is formed by an overflow part (b) arranged and a cooling roller (to) which can be guided in the direction of movement of the casting strip.

C0圧力下にある溶湯が連通管の原理に従い貯蔵タンク
から鋳型へと輸送できる。金属溶湯、特に鋼溶湯の帯板
連続鋳造の之めの装置であって、高くした圧力の下で上
部閉鎖した湯留タンク(1)の中にある金属溶湯(2)
が間隙出口(5)を通って垂直にプレート連続鋳造鋳型
(ト)の中に導入され、しかもスリット入口αGと冷却
され几プレート連続鋳造鋳型αOの1川の対向する少な
くとも二つの幅側において、無端帯状体(6)がそれぞ
れの鋳造側の行程に鋳造速度で導入できることを特徴と
する装置。
The molten metal under C0 pressure can be transported from the storage tank to the mold according to the principle of a communicating pipe. Apparatus for continuous strip casting of molten metal, especially molten steel, in which the molten metal (2) is placed in a sump tank (1) closed at the top under elevated pressure
is introduced vertically into the plate continuous casting mold (G) through the gap outlet (5), and is cooled at the slit entrance αG and at least two opposite width sides of the plate continuous casting mold αO, Device characterized in that an endless strip (6) can be introduced into each casting side stroke at the casting speed.

D、無端帯状体(6)がオーバーフロ一部(ロ)と冷却
され九案内体叫の闇を案内されていることを特徴とする
上記A項またはB項に記載の装置。
D. The apparatus according to item A or B above, characterized in that the endless strip (6) is cooled with an overflow part (b) and guided through the darkness of the nine guiding body.

E、金属溶湯(2)のための湯留タンク(1)に隣接し
て圧力室(4)が配置されており、これが隔壁翰の底領
域(2)にある関口部@き通して湯留タンク(1)と連
結していることを特徴とする上記A項ないしD項のいず
れかに記載の装置。
E. A pressure chamber (4) is arranged adjacent to the molten metal tank (1) for the molten metal (2), which passes through the barrier in the bottom area of the bulkhead (2) to the molten metal tank (1). The device according to any one of the above items A to D, characterized in that it is connected to a tank (1).

F、オーバーフロ一部Ql)K鋳造帯板厚さに調節した
または調節可能な少なくとも1本の冷却ローラ(2)が
パ鋳型(3)として所属していることを特徴とする上記
A項、B項及びD項のいずれかに記載の装置。
F. Overflow part Ql) K Item A above, characterized in that at least one cooling roller (2) adjusted or adjustable to the casting strip thickness is assigned as a mold (3), The device according to any of Items B and D.

G、冷却ローラ(至)の後に少なくともいま1本の冷却
ローラ(至)が鋳造帯板移動方向(9a)に配置されて
いること、冷却ローラ四の周囲に無端帯状体(6)が巻
き付いて訃り、冷却ローラ(財)の少なくとも1本が鋳
造帯板の速度で回転駆動できることを特徴とする上記F
項に記載の装置。
G. At least one cooling roller (to) is arranged in the casting strip movement direction (9a) after the cooling roller (to), and the endless strip (6) is wrapped around the cooling roller (4). The above F, characterized in that at least one of the cooling rollers can be driven to rotate at the speed of the casting strip.
Equipment described in Section.

H0冷却ローラ備の末端が鋳造帯板幅の間隔をおいてそ
れぞれフランジ1M(至)tmえていること?特徴とす
る上記A項ないしG項のいずれかに記載の装置。
The ends of the H0 cooling roller have flanges of 1M (to) tm spaced apart by the width of the casting strip. The apparatus according to any one of the above features A to G.

■、湯渇望ンク(1)に所属する圧力室(4)が不活性
ガスを受けることを特徴とする上記A項ないしH項のい
ずれかに記載の装置。
(2) The device according to any one of items A to H above, characterized in that the pressure chamber (4) belonging to the hot water tank (1) receives an inert gas.

発明の効果 上記本発明の構成によると、渇望タンク内の金属溶湯が
圧力の下で間隙出口より鋳型側に押出されるので、従来
の重力による供給とは異なり、金属溶湯が鋳型内に十分
供給でき、従って鋳造帯板の品質劣下を防止することが
できる。
Effects of the Invention According to the above configuration of the present invention, the molten metal in the thirst tank is pushed out under pressure from the gap outlet toward the mold, so unlike the conventional supply by gravity, the molten metal is sufficiently supplied into the mold. Therefore, deterioration in the quality of the cast strip can be prevented.

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

第1図は本発明の一実施例の断面を示す斜視図。 第2図は別の冥施例の断面を示す斜視図、第3図は第2
図の正面図、84図はさらに別の実施例の断面を示す斜
視図、第5図は纂4図のv−v矢視図である。 (1)・・・渇望タンク、(2)−・・金属溶湯、(3
)・・・鋳型、(4)・・・圧力室、(5)・・・間隙
出口、(5a)・・・上部ノズル板。 (5b)・・・下部ノズル板、(6)・・・無端帯状体
、(7)・・・鋳造断面、(9)・・・鋳造帯板、αq
・・・案内体代理人   森  本  義  弘 第1図
FIG. 1 is a perspective view showing a cross section of an embodiment of the present invention. Fig. 2 is a perspective view showing a cross section of another example of the underlayment, and Fig. 3 is a perspective view showing the cross section of another example.
FIG. 84 is a front view, FIG. 84 is a perspective view showing a cross section of still another embodiment, and FIG. 5 is a v-v arrow view of FIG. (1) ... craving tank, (2) - ... molten metal, (3
)...Mold, (4)...Pressure chamber, (5)...Gap outlet, (5a)...Upper nozzle plate. (5b)...lower nozzle plate, (6)...endless strip, (7)...cast cross section, (9)...cast strip plate, αq
... Guide agent Yoshihiro Morimoto Figure 1

Claims (1)

【特許請求の範囲】[Claims] 1、圧力下にある金属溶湯が連通管の原理に従い湯留タ
ンクから鋳型へと輸送できる、金属溶湯、特に鋼溶湯の
帯板連続鋳造のための装置であって、高くした圧力の下
で少なくとも部分的に閉鎖された湯留タンク(1)の中
にある金属溶湯(2)が湯留タンク(1)の上部領域に
設けられている間隙出口(5)を通って導入することが
できること、閉鎖された鋳造断面(7)の少なくとも一
側面(3a)を無端帯状体(6)がそれぞれの鋳造側の
行程に鋳造速度で導入することができること、無端帯状
体(6)と鋳造帯板(9)が無端帯状体(6)または鋳
造帯板(9)のための冷却された案内体(10)の上に
載っていることを特徴とする金属、特に鋼の帯板連続鋳
造装置。
1. A device for continuous strip casting of molten metal, in particular molten steel, in which the molten metal under pressure can be transported from the molten metal tank to the mold according to the principle of a communicating pipe, which at least that the molten metal (2) present in the partially closed sump tank (1) can be introduced through a gap outlet (5) provided in the upper region of the sump tank (1); The fact that at least one side (3a) of the closed casting section (7) allows the endless strip (6) to be introduced into the respective casting side stroke at the casting speed, the endless strip (6) and the casting strip ( Apparatus for continuous casting of metal, in particular steel, strips, characterized in that 9) rests on a cooled guide body (10) for the endless strip (6) or for the cast strip (9).
JP24672485A 1984-11-03 1985-11-02 Continuous casting device of strip consisting of metal and particularly steel Pending JPS61123451A (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE3440237.8 1984-11-03
DE19843440237 DE3440237C2 (en) 1984-11-03 1984-11-03 Device for continuous strip casting of metals, in particular steel

Publications (1)

Publication Number Publication Date
JPS61123451A true JPS61123451A (en) 1986-06-11

Family

ID=6249444

Family Applications (1)

Application Number Title Priority Date Filing Date
JP24672485A Pending JPS61123451A (en) 1984-11-03 1985-11-02 Continuous casting device of strip consisting of metal and particularly steel

Country Status (4)

Country Link
EP (1) EP0181567A1 (en)
JP (1) JPS61123451A (en)
CN (1) CN85106442A (en)
DE (1) DE3440237C2 (en)

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Publication number Priority date Publication date Assignee Title
CN104722726A (en) * 2013-12-23 2015-06-24 鞍钢股份有限公司 Continuous casting production method of high-silicon electrical steel

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Publication number Priority date Publication date Assignee Title
DE3810302A1 (en) * 1988-03-24 1989-10-12 Mannesmann Ag CASTING DEVICE FOR THE CONTINUOUS PRODUCTION OF METAL STRIP
DE4218587C1 (en) * 1991-09-27 1993-11-04 Wieland Werke Ag METHOD AND DEVICE FOR PRODUCING A METAL STRIP NEAR DIMENSIONS
DE4344953C2 (en) * 1993-12-27 1996-10-02 Mannesmann Ag Method and device for casting a metal strip close to its final dimensions
DE19815007C2 (en) * 1998-01-23 2000-07-06 Sms Demag Ag Casting process for a metal strand
DE19811434C2 (en) * 1998-03-17 2002-05-16 Mannesmann Ag Method and device for uniformizing a molten metal film
DE19828773C2 (en) * 1998-06-27 2000-09-14 Sms Demag Ag Belt casting machine for metal belt
DE102006057858A1 (en) 2006-12-08 2008-08-21 Vladimir Volchkov Continuous casting method for steels which are highly alloyed and have high carbon content comprises casting melt on to strip of unalloyed, low-carbon steel whose edges are brought together around it and welded together
CN102836975A (en) * 2011-06-24 2012-12-26 北京有色金属研究总院 Zinc alloy horizontal continuous casting system solidified under pressure and vibration
DE102012017682A1 (en) 2012-08-31 2014-03-06 Vladimir Volchkov Continuous casting of non-ferrous metals involves pouring melt of non-ferrous metal in continuously formed movable metallic sheath, forming continuous cast block, and continuously welding edge strips in controlled protective atmosphere
DE102012017684A1 (en) 2012-08-31 2014-03-06 Vladimir Volchkov Continuous casting of non-ferrous metals, comprises casting a melt of non-ferrous metal on movable metallic sheath, which is made of band, subjecting band edges to continuous welding to form melt, and wrapping continuous cast block
CN115415488A (en) * 2022-07-27 2022-12-02 上海交通大学 Horizontal continuous casting preparation process for ultra-high quality single crystal copper

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US2348178A (en) * 1937-11-03 1944-05-02 Joseph M Merle Method of making metallic products of sheetlike form
FR66280E (en) * 1954-05-10 1956-06-28 Device for continuous casting of metal or liquid alloy in strips
CH426114A (en) * 1964-12-11 1966-12-15 Alusuisse Method for casting strip-shaped wide metal plates and machine therefor
FR1435936A (en) * 1965-03-08 1966-04-22 Siderurgie Fse Inst Rech Method and device for the continuous casting of liquid products
US3810564A (en) * 1973-06-18 1974-05-14 Midland Ross Corp Air pressure discharge furnace having protective atmosphere inlet and outlet
JPS57142748A (en) * 1981-02-27 1982-09-03 Hitachi Ltd Molding device for thin plate

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Publication number Priority date Publication date Assignee Title
CN104722726A (en) * 2013-12-23 2015-06-24 鞍钢股份有限公司 Continuous casting production method of high-silicon electrical steel

Also Published As

Publication number Publication date
CN85106442A (en) 1987-02-25
DE3440237C2 (en) 1986-11-06
EP0181567A1 (en) 1986-05-21
DE3440237A1 (en) 1986-05-22

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