Patent application number | Description | Published |
20080308251 | Method and Device for Determining the Position of the Solidification Point - A method of and a device for determining the position of the solidification point ( | 12-18-2008 |
20090107648 | Roll for Metal Processing, in Particular a Continuous Casting Roll, and Method of Producing Such a Roll - The invention relates to a roll ( | 04-30-2009 |
20090159232 | Method and Device for Positioning at Least One Roll Segment of a Strand Guiding Unit Against a Strand - The invention relates to a strand guiding unit and a method for positioning at least one roll segment of a strand guiding unit against a strand, the roll segment ( | 06-25-2009 |
20100032125 | STRAND GUIDING DEVICE AND METHOD OF OPERATING IT - The invention relates to a device and a method for supporting and guiding a cast strand in a strand guiding device ( | 02-11-2010 |
20100044000 | METHOD AND CONTROL DEVICE FOR CONTROLLING THE HEAT REMOVAL FROM A SIDE PLATE OF A MOLD - The invention concerns a method and a control device for automatically controlling the heat dissipation {dot over (q)} in a mold | 02-25-2010 |
20100132908 | POSITION-CONTROLLED OR PRESSURE-CONTROLLED DEVICE FOR THE HYDRAULIC POSITIONING OF COMPONENTS - A device for the hydraulic positioning of structural component parts, in particular rollers of strand guide segments of a continuous casting installation, with hydraulic cylinders, each of which is divided into a cylinder space and an annular cylinder space by a piston having a piston rod. The cylinder spaces can be connected to a pressure source by control members. Hydraulic connection lines are reduced or components used are reduced. Either the annular cylinder space is acted upon by a pressure which is adjustable but which then remains constant, while the pressure applied to the piston in the cylinder space is position-controlled or pressure-controlled, or the cylinder space is acted upon by a pressure which is adjustable but which then remains constant, while the pressure applied to the piston in the annular cylinder space is position-controlled or pressure-controlled. | 06-03-2010 |
20100307710 | STRAND GUIDE, IN PARTICULAR FOR A CONTINUOUS STEEL SLAB CASTING INSTALLATION - The present invention relates to a strand guide ( | 12-09-2010 |
20110056803 | STRAND GUIDE, IN PARTICULAR FOR A CONTINUOUS CASTING INSTALLATION FOR STEEL SLABS - The invention relates to a strand guide ( | 03-10-2011 |
20110162817 | ELECTROMAGNETIC BRAKING DEVICE ON CONTINUOUS CASTING MOLDS - To bring about a direct effect on the fluid streams exiting the mould dip tube ( | 07-07-2011 |
20110214835 | METHOD AND DEVICE FOR POSITIONING AT LEAST ONE ROLL SEGMENT OF A STRAND GUIDING UNIT AGAINST A STRAND - A method for adjusting a roll segment of a strand guide of a slab-casting installation against a strand, wherein the roll segment has an upper and a lower roll support that each have an adjusting element for adjusting the two roll supports relative to each other. The method includes individual control of the individual adjusting elements, wherein the actual profile of the strand, including the heights of the right and left lateral edges of the strand, is detected and compared with a set profile that includes a predetermined set height, which is the same for the right and left lateral edges, and the individual adjusting elements of the roll segment are individually controlled based on the control deviation that results from the comparison so that the actual profile is adapted to the set profile, including equalization of the heights of the right and left lateral edges of the strand. | 09-08-2011 |
20110220315 | METHOD AND DEVICE FOR POSITIONING AT LEAST ONE ROLL SEGMENT OF A STRAND GUIDING UNIT AGAINST A STRAND - A method for adjusting a roll segment of a strand guide of a slab-casting installation against a strand, wherein the roll segment has an upper and a lower roll support that each have an adjusting element for adjusting the two roll supports relative to each other. The method includes individual control of the individual adjusting elements, wherein the actual profile of the strand, including the heights of the right and left lateral edges of the strand, is detected and compared with a set profile that includes a predetermined set height, which is the same for the right and left lateral edges, and the individual adjusting elements of the roll segment are individually controlled based on the control deviation that results from the comparison so that the actual profile is adapted to the set profile, including equalization of the heights of the right and left lateral edges of the strand. | 09-15-2011 |