会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 3. 发明授权
    • Device and method for lateral guidance of a rolled strip transported on a roller bed
    • 用于在辊床上运输的轧制带的横向引导的装置和方法
    • US09266156B2
    • 2016-02-23
    • US13126629
    • 2009-10-27
    • Olaf Norman JepsenPeter SudauChristian Mengel
    • Olaf Norman JepsenPeter SudauChristian Mengel
    • B21B37/68B21B39/14B21C47/34B21D43/02
    • B21B37/68B21B39/14B21B2273/04B21C47/34B21C47/3416B21D43/023
    • The invention relates to a device for lateral guidance of a rolled strip transported on a roller bed, particularly a hot rolled strip in front of a winding device (3), having parallel first and second side guides provided on both sides of the rolled strip, said side guides being movable toward or away from one another by adjusting means that are adjustable independently of one another; the invention is characterized in that a control device (14, 15, 16), to which operating forces and/or positions of the side guides and/or of the rolled strip can be fed as output values in the guidance of the rolled strip, is provided for damping the periodic deviation of the rolled strip, and in that the control device (14, 15, 16) controls the positions of the side guides and/or forces that the side guides exert on the rolled strip based on the measured output values.
    • 本发明涉及一种用于在辊床上,特别是卷绕装置(3)前面的热轧带材上运送的轧制带材的横向引导装置,其具有设置在轧制带材两侧的平行的第一和第二侧向导板, 所述侧引导件可以通过彼此独立地调节的调节装置相互移动或彼此远离; 本发明的特征在于:一个控制装置(14,15,16),其中可以在轧制带材的引导下将侧向引导件和/或轧制带材的操作力和/或位置作为输出值输入, 被设置用于阻尼轧制带的周期性偏差,并且控制装置(14,15,16)基于所测量的输出来控制侧导板和/或侧导板施加在轧制带上的力的位置 价值观。
    • 5. 发明申请
    • METHOD AND DEVICE FOR PRODUCING A METAL STRIP BY CONTINUOUS CASTING
    • 通过连续铸造生产金属条的方法和装置
    • US20090165986A1
    • 2009-07-02
    • US12302326
    • 2007-05-23
    • Jürgen SeidelPeter Sudau
    • Jürgen SeidelPeter Sudau
    • B22D11/16B22D11/00B22D2/00
    • B22D11/1206B21B1/463
    • The invention relates to a method for producing a metal strip (1) by continuous casting. According to said method, a slab (3), preferably a thin slab, is initially cast in a casting machine (2), said slab being deviated from a vertical direction (V) into a horizontal direction (H), and in the direction of transport (F) of the slab (3) arranged behind the casting machine (2), the slab (3) is subjected to a milling operation in the milling machine (4), in which at least one surface of the slab (3), preferably two surfaces which are opposite to each other, are milled. In order to obtain a high economic viability and improved machining parameters when the strips are rolled, the slab (3) is milled as a first mechanical machining step after the slab (3) is deviated in the horizontal direction (H). The slab (3) is cast with a thickness (d) of at least 50 mm and the slab (3) is cast with a mass flow, which is the product of the casting speed and the slab thickness (v×d), of at least 350 m/min×mm. The invention also relates to a device for producing a metal strip by continuous casting.
    • 本发明涉及通过连续铸造制造金属条(1)的方法。 根据上述方法,首先将铸坯(3)(优选薄板坯)铸造在铸造机(2)中,所述板坯从垂直方向(V)向水平方向(H)偏离,并沿着方向 在铸造机(2)后面的板坯(3)的输送(F)中,板坯(3)在铣床(4)中进行铣削操作,其中板坯(3)的至少一个表面 ),优选彼此相对的两个表面被研磨。 为了获得高的经济可行性,并且当轧制轧制时获得了改善的加工参数,板坯(3)在水平方向(H)偏离之后,将板坯(3)作为第一机械加工步骤进行研磨。 板坯(3)以至少50mm的厚度(d)铸造,并且板坯(3)以质量流量(即铸造速度和板坯厚度(vxd)的乘积)至少铸造 350米/分钟 本发明还涉及通过连续铸造制造金属带的装置。
    • 7. 发明申请
    • CYLINDRICAL CUTTER
    • 圆柱切割机
    • US20110044773A1
    • 2011-02-24
    • US12532045
    • 2008-02-11
    • Jürgen SeidelPeter SudauJürgen MerzMatthias Kipping
    • Jürgen SeidelPeter SudauJürgen MerzMatthias Kipping
    • B23C5/04B23C5/20
    • B23C5/04B23C2210/0407B23C2210/0428B23C2210/045B23C2210/0492B23C2210/244B27G13/04Y10T407/1902Y10T407/1934Y10T407/27
    • The invention is directed to a cylindrical milling cutter whose cylindrical body is provided with grooves which extend along its length at a distance from one another and at an angle to the longitudinal axis, and indexable cutting inserts, particularly coated carbide cutting inserts, are arranged in these grooves. For substantially preventing axial forces acting on the milling cutter or on the material to be machined, it is proposed either that the grooves and therefore the knife edges of the indexable cutting inserts are portionally oriented at different angles, these angles being selected such that the axial forces occurring in one portion during the machining process are neutralized or reduced in a defined manner by the axial forces occurring in the adjacent portion, or that the indexable cutting inserts are alternately arranged or oriented in the grooves in such a way that the axial force caused by one indexable cutting insert during the machining process is neutralized by the axial force caused by the adjacent indexable cutting insert.
    • 本发明涉及一种圆柱形铣刀,其圆柱形主体设置有沿其长度彼此间隔一定距离并且与纵向轴线成一定角度延伸的凹槽,并且可转位的切削刀片,特别是涂覆的硬质合金切削刀片被布置在 这些凹槽。 为了基本上防止作用在铣刀或待加工材料上的轴向力,建议可将可转位的切削刀片的槽和因此的刀刃以不同的角度方向定位,这些角度被选择为使得轴向 在加工过程中一部分发生的力通过相邻部分中产生的轴向力以规定的方式被中和或者可转位切削刀片交替地布置或定向在凹槽中,使得轴向力 在加工过程中通过一个可转位的切削刀片被由相邻的可转位切削刀片引起的轴向力中和。
    • 8. 发明申请
    • Device and Method for Producing a Metal Strip by Continuous Casting
    • 通过连续铸造生产金属带的装置和方法
    • US20090139681A1
    • 2009-06-04
    • US12227556
    • 2007-05-23
    • Jurgen SeidelPeter SudauJurgen MerzMatthias Kipping
    • Jurgen SeidelPeter SudauJurgen MerzMatthias Kipping
    • B22D11/126
    • B22D11/12
    • The invention relates to a device for producing a metal strip (1) by continuous casting, using a casting machine (2) in which a slab (3), preferably a thin slab, is cast. At least one milling machine (4) is arranged in the direction of transport (F) of the slab (3) behind the casting machine (2). At least one surface of the slab (3), preferably two surfaces which are opposite to each other, can be milled in said milling device. According to the invention, in order to keep the temperature loss to a minimum when the slab is machined and/or processed, at least one milling cutter (5, 6) of the milling machine (4), preferably the entire milling machine (4), is arranged in a displaceable machine in the direction (Q) perpendicular to the direction of transport (F) of the slab (3). The invention also relates to a method for producing a metal strip.
    • 本发明涉及一种使用铸造机(2)通过连续铸造制造金属带(1)的装置,其中铸造板坯(3),优选薄板坯。 至少一个铣床(4)沿铸造机器(2)后面的板坯(3)的运输方向(F)布置。 板坯(3)的至少一个表面,优选地彼此相对的两个表面可以在所述铣削装置中铣削。 根据本发明,为了在将板坯加工和/或加工时将温度损失保持在最小值,铣床(4)的至少一个铣刀(5,6),优选整个铣床(4) )沿垂直于板坯(3)的运输方向(F)的方向(Q)布置在可移动的机器中。 本发明还涉及一种生产金属条的方法。
    • 9. 发明授权
    • Steckel hot rolling mill
    • 斯特克尔热轧机
    • US06378346B1
    • 2002-04-30
    • US09673691
    • 2001-02-05
    • Peter SudauOlaf Norman Jepsen
    • Peter SudauOlaf Norman Jepsen
    • B21B3748
    • B21B37/54B21B1/34B21B37/50B21B37/56
    • The invention relates to a Steckel hot rolling mill comprising at least one reversing roll stand (1) as well as coilers (6,7) which are positioned upstream and downstream and present torque-controlled drives. The aim of the invention is to improve such a hot rolling mill in such a way that it optimally counteracts variations in tension and/or mass flow caused by changes in process parameters and allows for high quality hot rolling, especially of very thin hot rolled strips. To this end the invention provides for a looper (8,9) to be positioned between both the coilers (6,7) and the reversible roll stand (1), which supplies actual values for adjusting tension and mass flow.
    • 本发明涉及一种包括至少一个反转辊架(1)的Steckel热轧机以及位于上游和下游的卷取机(6,7),并且存在转矩控制的驱动装置。 本发明的目的是改进这种热轧机,使得其最佳地抵消由于工艺参数变化而引起的张力和/或质量流动的变化,并允许高质量的热轧,特别是非常薄的热轧带材 。 为此,本发明提供了一种定位在两个卷取机(6,7)和可逆辊架(1)之间的弯针(8,9),其提供用于调节张力和质量流量的实际值。
    • 10. 发明授权
    • Descaling method for a metal strip and a descaling arrangement therefor
    • 金属带的除鳞方法及其除垢装置
    • US06295852B1
    • 2001-10-02
    • US09585142
    • 2000-06-01
    • Matthias KippingPeter Sudau
    • Matthias KippingPeter Sudau
    • B21B4504
    • B21B45/08B21B39/08
    • In a method and a device for descaling a metal strip, the metal strip is guided in a transport direction from a first roll stand to a second roll stand. A descaling device is positioned between the first and second roll stands. A descaling liquid is sprayed onto the metal strip from a working distance relative to the metal strip via the descaling device. The metal strip is moved at the location of the descaling device by a forced deflection amount in a direction transverse to the transport direction via an advancing element. A position of the descaling device is adjusted based on the forced deflection amount such that the working distance stays the same.
    • 在用于对金属带进行除鳞的方法和装置中,金属带在输送方向上从第一辊架引导到第二辊架。 除锈装置位于第一和第二辊架之间。 通过除垢装置,将相对于金属条的工作距离将除垢液喷射到金属条上。 金属带通过前进元件在与输送方向相反的方向上通过强制偏转量在除垢装置的位置移动。 基于强制偏转量调节除垢装置的位置,使得工作距离保持不变。