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    • 4. 发明授权
    • Chill tube
    • 冷却管
    • US07198092B2
    • 2007-04-03
    • US10931766
    • 2004-09-01
    • Roland HauriRaimund Eichholz-BoldtDietmar KolbeckGerhard Hugenschütt
    • Roland HauriRaimund Eichholz-BoldtDietmar KolbeckGerhard Hugenschütt
    • B22D11/00B22D11/124
    • B22D11/0406
    • A chill tube (1) having a double T-shaped inner and outer cross section in beam blank format is encased in a water-guiding jacket (12) adapted to its outer contour while forming a water gap (14). The wall thickness (D) of chill tube (1) in the rounded transition regions (2) from middle crosspieces (4), which face each other head to head and are drawn in towards longitudinal axis (3), to the neighboring crosswise positioned flanges (5) is dimensioned at least partially smaller than in the remaining wall sections (6, 7). The reduction in wall thickness is implemented by longitudinal hollow recesses (8). These recesses (8) extend only in the height range of the bath level. Into the cross sectional regions which are formed by the outer contour of chill tube (1) as well as the inner contour of water-guiding jacket (12), filler pieces (17) are incorporated, adapted to this cross section.
    • 具有横梁坯料形式的双T形内外横截面的冷却管(1)被封装在适于其外轮廓的导水套(12)中,同时形成水隙(14)。 从中间挡块(4)的圆形过渡区域(2)中的冷却管(1)的壁厚(D),其相对头对头并且朝向纵向轴线(3)被拉伸到相邻的横向定位 凸缘(5)的尺寸至少部分地小于剩余的壁部分(6,7)中的尺寸。 壁厚的减小由纵向中空凹槽(8)实现。 这些凹槽(8)仅在浴液面的高度范围内延伸。 在由冷却管(1)的外轮廓以及导水套(12)的内轮廓形成的横截面区域中,加入填充片(17),适用于该横截面。
    • 5. 发明申请
    • Chill tube
    • 冷却管
    • US20050028960A1
    • 2005-02-10
    • US10931766
    • 2004-09-01
    • Roland HauriRaimund Eichholz-BoldtDietmar KolbeckGerhard Hugenschutt
    • Roland HauriRaimund Eichholz-BoldtDietmar KolbeckGerhard Hugenschutt
    • B22D11/00B22D11/04B67D5/62F25D3/08F25D11/00
    • B22D11/0406
    • A chill tube (1) having a double T-shaped inner and outer cross section in beam blank format is encased in a water-guiding jacket (12) adapted to its outer contour while forming a water gap (14). The wall thickness (D) of chill tube (1) in the rounded transition regions (2) from middle crosspieces (4), which face each other head to head and are drawn in towards longitudinal axis (3), to the neighboring crosswise positioned flanges (5) is dimensioned at least partially smaller than in the remaining wall sections (6, 7). The reduction in wall thickness is implemented by longitudinal hollow recesses (8). These recesses (8) extend only in the height range of the bath level. Into the cross sectional regions which are formed by the outer contour of chill tube (1) as well as the inner contour of water-guiding jacket (12), filler pieces (17) are incorporated, adapted to this cross section.
    • 具有横梁坯料形式的双T形内外横截面的冷却管(1)被封装在适于其外轮廓的导水套(12)中,同时形成水隙(14)。 从中间挡块(4)的圆形过渡区域(2)中的冷却管(1)的壁厚(D),其相对头对头并且朝向纵向轴线(3)被拉伸到相邻的横向定位 凸缘(5)的尺寸至少部分地小于其余的壁部分(6,7)中的尺寸。 壁厚的减小由纵向中空凹槽(8)实现。 这些凹槽(8)仅在浴液面的高度范围内延伸。 在由冷却管(1)的外轮廓以及导水套(12)的内轮廓形成的横截面区域中,加入填充片(17),适用于该横截面。
    • 6. 发明授权
    • Chill tube
    • 冷却管
    • US06918428B2
    • 2005-07-19
    • US10646403
    • 2003-08-22
    • Roland Hauri
    • Roland Hauri
    • B22D11/04B22D11/041B22D11/059B22D11/12B22D11/22B22D11/00
    • B22D11/041
    • A chill tube made of copper for the continuous casting of metals has a multi-corner inner and outer cross section and a nominal wall thickness which amounts to 8% to 10% of the separation distance of the inner surfaces lying frontally opposite each other at the tube opening. The inner surfaces are placed indirectly under the heat-removing influence of a cooling medium suppliable from the outside to the tube wall. In the height range of the bath level of the liquid metal, the wall thickness is reduced over the entire circumference by 10% to 40% of the nominal wall thickness.
    • 用于连续铸造金属的铜制成的冷却管具有多角内外横截面和标称壁厚,这相当于其内表面的间隔距离的8%至10% 管开口。 内表面间接地放置在从外部供应到管壁的冷却介质的除热影响之下。 在液体金属的液面高度范围内,壁厚在整个圆周上减小标称壁厚的10%至40%。
    • 7. 发明授权
    • Method for the blasting calibration of a chill mold
    • 冷却模具爆破校准方法
    • US06827127B2
    • 2004-12-07
    • US10305928
    • 2002-11-27
    • Roland Hauri
    • Roland Hauri
    • B22D1104
    • B21D26/08B22D11/057
    • A method for blasting calibrating a chill mold (1) is provided. A calibrating mandrel is inserted into chill mold (1), thereafter an explosive material is placed on the outer surface (4) of chill mold (1) and is ignited. The inner side (3) of chill mold (1) is pressed against the calibrating mandrel by the explosive force, and brought to the setpoint measure. In the mold wall (2), chill mold (1) has bores (5) for cooling means and for measuring elements, which extend in the longitudinal direction (LR) of chill mold (1) and exit at the end faces (6, 7) of mold wall (2). Before the blasting calibration, the bores (5) are filled up with a free-flowing material and tightly closed. The free-flowing material is preferably an incompressible fluid and/or a bulk material.
    • 提供了一种用于喷砂校准冷模(1)的方法。 将校准芯棒插入冷却模具(1)中,然后将炸药材料放置在冷却模具(1)的外表面(4)上并点燃。 冷却模具(1)的内侧(3)通过爆炸力压靠在校准心轴上,并进入设定点测量。 在模具壁(2)中,冷却模具(1)具有用于冷却装置的孔(5)和用于测量元件,其在冷却模具(1)的纵向(LR)上延伸并且在端面(6, 7)模具壁(2)。 在爆破校准之前,孔(5)填充有自由流动的材料并紧密封闭。 自由流动的材料优选是不可压缩的流体和/或散装材料。