JPS6057413B2 - Double-end open mold for continuous metal casting - Google Patents
Double-end open mold for continuous metal castingInfo
- Publication number
- JPS6057413B2 JPS6057413B2 JP351478A JP351478A JPS6057413B2 JP S6057413 B2 JPS6057413 B2 JP S6057413B2 JP 351478 A JP351478 A JP 351478A JP 351478 A JP351478 A JP 351478A JP S6057413 B2 JPS6057413 B2 JP S6057413B2
- Authority
- JP
- Japan
- Prior art keywords
- mold
- vibration
- frequency
- double
- end open
- 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
Links
Landscapes
- Continuous Casting (AREA)
Description
【発明の詳細な説明】
本発明は溶融金属を連続的に鋳造するための鋳型にお
いて、鋳型に高周波振動を与える場合における鋳型への
振動発生装置の取付け方の改善に関するものである。DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an improvement in the method of attaching a vibration generator to a mold for applying high frequency vibrations to the mold in a mold for continuously casting molten metal.
従来、溶融金属を連続的に鋳造するに際して鋳型と凝
固金属の接する面における焼き付きを防止し、もしくは
潤滑を促進するために、鋳型を毎分数10目〜100数
10目、数−〜m数−の振巾で往復動を行なわせる方法
(以下往復振動法と云う)が一般的に実施されている。Conventionally, when continuously casting molten metal, in order to prevent seizing on the contact surface between the mold and solidified metal or to promote lubrication, the mold was cast at a rate of several tens to hundreds of meters per minute. A method of performing reciprocating motion with an amplitude of (hereinafter referred to as the reciprocating vibration method) is generally practiced.
また、鋳片と交叉する方向、すなわち、丸鋳塊における
円周方向に往復動する方法(以下ロッキング法と云う、
西独特許896988; 195奔)もある。 さらに
、鋳型に5〜30サイクル/秒の振動を与える方法(以
下振動法と云う)も最近になつて開発された。In addition, there is a method of reciprocating in the direction intersecting the slab, that is, the circumferential direction of the round ingot (hereinafter referred to as the rocking method).
There is also a West German patent 896988; 195 yen). Furthermore, a method of applying vibration to the mold at a rate of 5 to 30 cycles/second (hereinafter referred to as the "vibration method") has recently been developed.
一方、本発明者等は、鋳型に5〜50KHzの高サイク
ルの高周波振動を与えることによつて潤滑を促進する方
法をさきに考案した。 さて、このような方法における
得失は以下のようである。 まず、往復振動法において
は、凝固した金属塊の表面に鋳型往復振動による縞模様
(通常オツシレーシヨンマークと云う)が生じ表面疵の
原因となる。On the other hand, the present inventors have previously devised a method of promoting lubrication by applying high frequency vibration of 5 to 50 KHz to the mold. Now, the advantages and disadvantages of such a method are as follows. First, in the reciprocating vibration method, striped patterns (usually referred to as oscillation marks) are formed on the surface of the solidified metal lump due to the reciprocating vibration of the mold, causing surface defects.
しかし、この方法は容易に実施出来、かつ、扁平型鋳型
や丸型鋳型に対しても採用できるため、広く実施されて
いる。また、ロッキング法は、用途が丸型鋳型に限られ
るため一般性がない。振動法は、鋳片も一緒に振動する
という難点がある、そのため鋳片品質に影響が及び、用
途に限界がある。また、前述の鋳型に5〜50KHzの
高周波振動を与える方法においては従来冷却箱や、冷却
配管等の附属部分を含めて全体に振動エネルギーが付与
されていたため大きな入射エネルギーが必要であつた。
本発明は、これらの問題点を解決すべくなされたもの
で、鋳片のオツシレーシヨンマークを軽備にし、表面疵
を少なくし、かつ、多様な鋳型形状に適用することがで
き、しかも入射エネルギー量を少なくしうる鋳型を提供
するものである。However, this method is widely practiced because it is easy to implement and can be applied to flat molds and round molds. Furthermore, the locking method is not general because its application is limited to round molds. The vibration method has the disadvantage that the slab also vibrates, which affects the quality of the slab and limits its applications. Furthermore, in the method of applying high-frequency vibrations of 5 to 50 KHz to the mold, conventionally, vibration energy was applied to the entire mold including the cooling box and attached parts such as cooling piping, so a large amount of incident energy was required.
The present invention was made to solve these problems, and it makes the oscillation mark on the slab lighter, reduces surface flaws, can be applied to a variety of mold shapes, and is This provides a mold that can reduce the amount of energy.
即ち本発明は、溶融金属を連続的に鋳造するための両
端開放型の鋳型において、被鋳造金属に接する鋳型の部
分(以下鋳型稼動部と云う)をそれにつながる他の部分
から分離し、両者を高周波振動的に遮断する結合手段に
よつて連結する構造とし、この鋳型稼動部に周波数5〜
50KHz)振幅100μm以下の振動を与えるように
した、金属鋳造用鋳型に係るものである。以下、図面を
用いて本発明を詳細に説明する。That is, the present invention, in a mold with both ends open for continuously casting molten metal, separates the part of the mold that comes into contact with the metal to be cast (hereinafter referred to as the mold moving part) from the other part connected to it, and separates both parts. The structure is such that they are connected by a coupling means that blocks high-frequency vibrations, and the mold moving part has a frequency of 5 to
This relates to a metal casting mold which is designed to apply vibrations with an amplitude of 100 μm or less (50 KHz). Hereinafter, the present invention will be explained in detail using the drawings.
第1図は、本発明者らの発明になる従来の高周波振動鋳
型てあつて、高周波振動発生機電気設備3から、発振さ
れた高周波電気を振動子1が受けて振動し、この振動を
振動連結棒2を介して、溶融金属鋳造用鋳型6に振動を
付与する。この場合、鋳型の冷却箱と鋳型稼動部とは高
周波振動的に、一体構造をしており、入射された高周波
振動エネルギーは、鋳型稼動部以外の冷却箱にも伝わる
。入射エネルギーを、できるだけ鋳型稼動部に伝えるた
め本発明は第2図のようにする。第2図において、鋳型
稼動部4を冷却箱5とバッキング9によつて、高周波振
動的に分離された構造とする。FIG. 1 shows a conventional high-frequency vibration mold invented by the present inventors. Vibration is applied to the molten metal casting mold 6 via the connecting rod 2. In this case, the cooling box of the mold and the mold moving part have an integral structure in terms of high frequency vibration, and the incident high frequency vibration energy is transmitted to the cooling box other than the mold moving part. In order to transmit the incident energy to the mold moving part as much as possible, the present invention is constructed as shown in FIG. In FIG. 2, the mold operating section 4 is separated by a cooling box 5 and a backing 9 in terms of high frequency vibration.
高周波振動は振動連結棒2を介して、鋳型稼動部4に伝
えられる。本発明においては鋳型稼動部に付与される高
周波振動の振動数を、5〜50KHZ1振幅100pm
以下の範囲にすることが必要である。The high frequency vibrations are transmitted to the mold operating section 4 via the vibration connecting rod 2. In the present invention, the frequency of high-frequency vibration applied to the mold moving part is set to 5 to 50 KHz, 100 pm amplitude,
It is necessary to keep it within the following range.
これは鋳型内壁の摩擦係数を必要な大きさまで低下させ
、かつ、鋳型稼動部と水冷却箱との間の水封機構に障害
を生じさせない条件である。また、5K比未満の少ない
振動数領域では、可聰音の発生となり、作業環境上使用
できないし50KHzを超える振動数領域では、機械的
振動として働かず鋳型と鋳片−との間の摩擦を軽減させ
ることができない。振幅についても、100pmを超え
ると、振動的遮断手段、たとえばOリング域はバッキン
グ材の使用が不可能となり、水洩れといつた障害を惹起
する。次に本発明の実施例を説明する。第1図、第2図
に示す各方式によつて、水冷銅鋳型(第1図の鋳型総重
量30kg、第2図の鋳型稼動部の重量5kg)にく高
周波振動発生機から振動子、振動連結棒を経て、電力2
KW1振動数18KHZ1振動連結棒の振動振幅40μ
mの高周波!振動を入射した。This is a condition that reduces the friction coefficient of the inner wall of the mold to a required level and does not cause any trouble to the water seal mechanism between the mold moving part and the water cooling box. In addition, in the low frequency range of less than 5K ratio, it will generate a loud noise and cannot be used in the working environment, and in the frequency range of more than 50KHz, it will not work as mechanical vibration and will reduce the friction between the mold and the slab. cannot be reduced. If the amplitude exceeds 100 pm, it becomes impossible to use a backing material in the vibration isolation means, such as the O-ring area, causing problems such as water leakage. Next, examples of the present invention will be described. By each method shown in Figs. 1 and 2, a water-cooled copper mold (the total weight of the mold in Fig. 1 is 30 kg, the weight of the mold moving part in Fig. 2 is 5 kg) is used, and Power 2 via the connecting rod
KW1 vibration frequency 18KHZ1 vibration amplitude of connecting rod 40μ
m high frequency! Vibration was applied.
振動子一振動連結棒一鋳型への接続はすべて、ねじによ
る締め付けによつた。また、振動連結棒は40Tsnφ
であつた。鋳型は鋳型引抜き方向にそつて、振幅5w!
tで上下往復振動をさせた。この鋳型に普通炭素鋼を鋳
造しつつ、80Twt角鋼材を3m/Minの引抜速度
で鋳造した。この鋳造において、鋳型の上下振動ロッド
にかかる力を測定して、第1図、第2図に示した鋳型の
影響を調査したところ、第3図のような結果を得た。゛
即ち、高周波振動の振動動力を増加するとロッドにかか
る力は減少し、かつ、この減少の程度は第1図に示す鋳
型Aによるよりは、第2図に示す鋳型Bによる方が、大
きいことがわかる。即ち本発明によれば小さい動力て鋳
型と鋳片間の摩擦力を小さくさせることができる。なお
本発明は潤滑剤の使用、鋳型の往復振動の併用もできる
ことは云うまでもない。All connections between the vibrator, the vibrating connecting rod, and the mold were tightened with screws. Also, the vibration connecting rod is 40Tsnφ
It was hot. The mold has an amplitude of 5w along the mold pulling direction!
Vertical reciprocating vibration was performed at t. While ordinary carbon steel was being cast into this mold, an 80 Twt square steel material was cast at a drawing speed of 3 m/min. In this casting, the force applied to the vertically vibrating rod of the mold was measured to investigate the influence of the mold shown in FIGS. 1 and 2, and the results shown in FIG. 3 were obtained. In other words, when the vibration power of high-frequency vibration is increased, the force applied to the rod decreases, and the degree of this decrease is greater with mold B shown in Figure 2 than with mold A shown in Figure 1. I understand. That is, according to the present invention, the frictional force between the mold and the slab can be reduced with a small amount of power. It goes without saying that the present invention can also be used in combination with the use of a lubricant and the reciprocating vibration of the mold.
また連続鋳造用鋳型の素材、形状、に制限なく振動棒の
連続手段は溶接、ねじ止め、等何れも採用できるし、振
動棒は鋳型に対して直交する方向と鋳片の引抜き方向に
そつた方向、の二方向からの接続の場合がある。さらに
長方形の鋳型に対しては、相対する2面もしくは4面に
それぞれ高周波振動を付与することができる。但し、付
与する高周波振動の周波数ならびに位相を同じくする必
要がある。In addition, there are no restrictions on the material or shape of the continuous casting mold, and the continuous means of the vibrating rod can be welded, screwed, etc., and the vibrating rod can be used in a direction perpendicular to the mold and in the direction of drawing out the slab. There are cases where connections can be made from two directions. Furthermore, for a rectangular mold, high-frequency vibrations can be applied to two or four opposing sides. However, it is necessary to make the frequency and phase of the applied high-frequency vibrations the same.
第1図は、従来の高周波振動付与鋳型、第2図は本発明
の鋳型を示す。
1・・・振動子、2・・・振動連結棒、3・・・高周波
振動発生器電気設備、4・・・鋳型稼動部、5・・・冷
却箱、6・・・鋳型、7・・・冷却水入口、8・・・冷
却水出口、9・・・バッキング、10・・・上下振動ロ
ッドである。FIG. 1 shows a conventional high-frequency vibration imparting mold, and FIG. 2 shows a mold according to the present invention. DESCRIPTION OF SYMBOLS 1... Vibrator, 2... Vibration connecting rod, 3... High frequency vibration generator electrical equipment, 4... Mold operating part, 5... Cooling box, 6... Mold, 7... - Cooling water inlet, 8... Cooling water outlet, 9... Backing, 10... Vertical vibration rod.
Claims (1)
属に接する鋳型部分(鋳型稼動部)とそれにつながる他
の鋳型部分とからなり、前記被鋳造金属に接する鋳型部
分には周波数5〜50KHz、振幅100μm以下の高
周波振動発生装置を設けてなる金属の連続鋳造用両端開
放型鋳型。1 Consists of a mold part (mold moving part) in contact with the metal to be cast and another mold part connected to it, which are connected with means for vibration isolation, and the mold part in contact with the metal to be cast has a frequency of 5 to 50 KHz. , a double-end open mold for continuous casting of metal, which is equipped with a high-frequency vibration generator with an amplitude of 100 μm or less.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP351478A JPS6057413B2 (en) | 1978-01-17 | 1978-01-17 | Double-end open mold for continuous metal casting |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP351478A JPS6057413B2 (en) | 1978-01-17 | 1978-01-17 | Double-end open mold for continuous metal casting |
Publications (2)
Publication Number | Publication Date |
---|---|
JPS5496431A JPS5496431A (en) | 1979-07-30 |
JPS6057413B2 true JPS6057413B2 (en) | 1985-12-14 |
Family
ID=11559461
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP351478A Expired JPS6057413B2 (en) | 1978-01-17 | 1978-01-17 | Double-end open mold for continuous metal casting |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPS6057413B2 (en) |
Families Citing this family (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH03210942A (en) * | 1990-01-11 | 1991-09-13 | Sumitomo Metal Ind Ltd | Method for continuously casting steel |
JPH084880B2 (en) * | 1990-03-20 | 1996-01-24 | 住友金属工業株式会社 | Continuous casting lubrication method for wide and thin slabs |
JPH0417953A (en) * | 1990-05-11 | 1992-01-22 | Sumitomo Metal Ind Ltd | High frequency oscillating mold for continuous casting |
-
1978
- 1978-01-17 JP JP351478A patent/JPS6057413B2/en not_active Expired
Also Published As
Publication number | Publication date |
---|---|
JPS5496431A (en) | 1979-07-30 |
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