Patents by Inventor Lutz Kuemmel
Lutz Kuemmel has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20240102124Abstract: Method for thermally treating a scrolling steel strip (5), said method comprising the following steps: heating the strip (5) in a zone for heating with a direct flame (10); temperature homogenisation of the strip (5) in a homogenisation chamber (20) comprising at least one radiant heating tube (25), so as to homogenise the strip (5) in temperature after the passing thereof into the zone for heating with a direct flame (10) of the preceding step; oxidation of the strip (5) in an oxidation chamber (30) with an oxidising atmosphere having an oxygen volume concentration greater than 1%; reduction of the strip (5) in a reduction zone (40).Type: ApplicationFiled: December 7, 2023Publication date: March 28, 2024Applicant: DREVER INTERNATIONALInventors: Jean-Pierre Crutzen, Lutz Kümmel, Frank Maschler, Michel Renard
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Patent number: 11850634Abstract: A method for rinsing an overflow chamber at the bath-side end of a snout of a device for hot-dip coating a metal strip is presented. The snout guides the metal strip in a protective gas atmosphere before the metal strip is coated with a metal melt. A rinsing cycle is carried out in the overflow chamber of the snout by feeding metal melt from the molten bath into the overflow chamber and at the same time, sucking and pumping said melt out of the overflow chamber back into the molten bath. This rinsing cycle can be performed even when the snout has been retracted from the melt by supplying the melt from the molten bath to the overflow chamber with a delivery pump.Type: GrantFiled: July 23, 2019Date of Patent: December 26, 2023Assignees: SMS group GmbH, Fa. SeverstalInventors: Lutz Kümmel, Jegor Bergen, Jean-Pierre Crutzen, Otto Schanderl
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Patent number: 11814722Abstract: A method and a vacuum-coating system (10) for coating a strip-shaped material (11), in particular made of metal, are disclosed. Thereby, the strip-shaped material (11) is moved over a conveying section (12) in a transport direction (T) and vacuum-coated within a coating chamber (14) in which a vacuum is applied. When viewed in the transport direction (T) of the strip-shaped material (11), at least one trimming shear (38) is arranged upstream of the coating chamber (14), with which the strip-shaped material (11) is trimmed at at least one strip edge, preferably at both strip edges, in order to produce a constant width for the strip-shaped material (11) over its longitudinal extension.Type: GrantFiled: May 28, 2019Date of Patent: November 14, 2023Assignee: SMS group GmbHInventors: Lutz Kümmel, Thomas Daube
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Publication number: 20230251639Abstract: The invention relates to a system (1) for controlling a production plant (3) consisting of a plurality of plant parts (2), in particular a metallurgical production plant for producing industrial goods such as metal semi-finished products and/or metal end products, wherein each plant part (2) has an input quality window (4), an output quality window (5) and a process window (6), wherein the input quality window (4) of a plant part (2) defines the quality characteristics of the input product that are required by the plant part (2) and the output quality window (5) of a plant part (2) defines the quality characteristics of the output product that are allowed by the plant part (2) after processing the input product, wherein, in a production plant (3) consisting of the plurality of plant parts (2), the output quality window (5) of an upstream plant part (2) corresponds to the input quality window (4) of the downstream plant part (2), wherein the process window (6) defines the setting values (7) that can be implType: ApplicationFiled: May 20, 2021Publication date: August 10, 2023Applicant: SMS group GmbHInventors: Thomas DAUBE, Holger BEHRENS, Lutz KÜMMEL, Ulrich SOMMERS
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Publication number: 20230193442Abstract: Method for the preoxidation of high-strength strip steel. The invention relates to an improved method for the preoxidation of high-strength strip steel in a reaction chamber arranged in a furnace chamber.Type: ApplicationFiled: November 6, 2018Publication date: June 22, 2023Inventors: Frank MASCHLER, Lutz KUEMMEL, Jean-Pierre CRUTZEN
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Publication number: 20230049065Abstract: A butt joint deep penetration laser welding method is used for joining facing end sections of flat steel products, each having a carbon content CS<0.02%. In order to improve such a method such that an improved weld quality in terms of geometry and strength is achievable with it, at least one carbon-containing carrier material is inserted into a butt joint gap between the end sections, the carbon content of which is CT?20·CS, preferably CT?100·CS, and/or carbon is inserted into the butt joint gap or applied to at least one end section, such that the volume of the carbon inserted into the butt joint gap corresponds to 1% to 20% of the volume of a melt produced by a butt joint deep penetration laser welding process.Type: ApplicationFiled: December 18, 2020Publication date: February 16, 2023Applicant: SMS group GmbHInventors: Jens ARTEL, Sebastian SEEGERS, Christian DORNSCHEIDT, Lutz KÜMMEL, Jens SZONN
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Publication number: 20220316050Abstract: A method for coating a metal strip by means of a metallic substrate in a strip coating system, wherein the coating is carried out according to the principle of physical vapor deposition and the layer thickness is set via the parameters of the strip speed and the vaporization rate. It is provided according to the invention that in the event of a layer thickness change and/or a width change of the metal strip, the vaporization rate and the strip speed are changed simultaneously, so that the layer thickness change can be implemented directly independently of the thermal vaporization process.Type: ApplicationFiled: April 22, 2020Publication date: October 6, 2022Applicant: SMS group GmbHInventors: Lutz KÜMMEL, Thomas DAUBE
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Publication number: 20220213582Abstract: A method for rinsing an overflow chamber at the bath-side end of a snout of a device for hot-dip coating a metal strip is presented. The snout guides the metal strip in a protective gas atmosphere before the metal strip is coated with a metal melt. A rinsing cycle is carried out in the overflow chamber of the snout by feeding metal melt from the molten bath into the overflow chamber and at the same time, sucking and pumping said melt out of the overflow chamber back into the molten bath. This rinsing cycle can be performed even when the snout has been retracted from the melt by supplying the melt from the molten bath to the overflow chamber with a delivery pump.Type: ApplicationFiled: July 23, 2019Publication date: July 7, 2022Applicants: SMS group GmbH, Fa. SeverstalInventors: Lutz KÜMMEL, Jegor BERGEN, Jean-Pierre CRUTZEN, Otto SCHANDERL
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Patent number: 11319611Abstract: The invention relates to a method for rolling a metal product (1), wherein the metal product is subjected to a rolling operation at a first station (2), which rolling operation is controlled by a control device (3), wherein the product (1) is subject to a measurement at a second station (4), wherein the product (1) is subjected to a further processing operation at a third station (6), and wherein the product (1) is in a specified quality at a fourth station (7).Type: GrantFiled: March 3, 2017Date of Patent: May 3, 2022Assignee: SMS GROUP GMBHInventors: Mostafa Biglari, Holger Behrens, Carsten Andreas Klein, Christian Klinkenberg, Lutz Kuemmel, Ulrich Sommers
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Patent number: 11255009Abstract: The invention relates to a method for coating a metal strip with the aid of a coating device. Within the coating device, the strip first runs through a coating container with a liquid coating agent and then a stripping nozzle device for stripping off excess coating agent from the surface of the strip. After the stripping nozzle device, the strip typically runs through a strip stabilizing device with a plurality of magnets on both broad sides of the strip. A form control deviation is determined as the difference between a determined actual form of the strip and a specified desired form of the strip and this form control deviation is used for activating the magnets of the strip stabilizing device in order to transform the actual form of the strip into the desired form.Type: GrantFiled: August 17, 2017Date of Patent: February 22, 2022Assignee: Fontaine Engineering und Maschinen GmbHInventors: Holger Behrens, Lutz Kümmel, Thomas Daube, Gernot Richter, Babak Taleb-Araghi, Pascal Fontaine, Michael Zielenbach
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Publication number: 20220049339Abstract: Within a coating device, a metal strip first runs through a coating container with a liquid coating agent and then a stripping nozzle device for stripping off excess coating agent from the surface of the strip. After the stripping nozzle device, the strip runs through a strip stabilizing device with a plurality of magnets on both broad sides of the strip. A form control deviation is determined as the difference between an actual form of the strip and a desired form of the strip and this form control deviation is used for activating the magnets in order to transform the actual form of the strip into the desired form. The magnets of the strip stabilizing device may be moved in the widthwise direction of the strip into a traversing position in relation to the magnets on the respectively opposite broad side of the strip.Type: ApplicationFiled: October 29, 2021Publication date: February 17, 2022Applicant: Fontaine Engineering und Maschinen GmbHInventors: Holger Behrens, Lutz KÜMMEL, Thomas DAUBE, Gernot Richter, Babak Taleb-Araghi, Pascal Fontaine, Michael ZIELENBACH
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Patent number: 11241710Abstract: A device for coating a metal strip substrate includes a guiding apparatus for guiding the strip substrate along a movement path. A first coating apparatus coats a first main side of the strip substrate with an electrostatically charged coating powder which is in a fluidized state. The first coating apparatus is arranged under a first path section of the movement path. A second coating apparatus coats a second main side of the strip substrate with an electrostatically charged coating powder which is in a fluidized state. A redirecting unit redirects the strip substrate between the first and the second coating apparatus in such a way that the strip substrate in a second path section travels oppositely to the strip substrate in the first path section. The second coating apparatus is arranged at least partly geodetically under the second path section.Type: GrantFiled: July 11, 2018Date of Patent: February 8, 2022Assignee: SMS group GmbHInventors: Henry Görtz, Matthias Kretschmer, Lutz Kümmel
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Patent number: 11230749Abstract: A method for operating an annealing furnace to anneal a metal strip provides that, initially, at least one target material property (MPTarget) is specified for a point or a section of the metal strip after passing through the annealing furnace. In addition, information (E) on the metal strip is provided before or in the annealing furnace. A calculation of a target temperature distribution (TTarget) and/or a target speed (VTarget) of the metal strip in the annealing furnace is then carried out with the assistance of a computer-aided model as a function of the target material properties and the specified information. The target temperature distribution and/or target speed calculated in this manner is/are subsequently set in the annealing furnace in order to transfer the material property of the metal strip behind the annealing furnace to the desired target material property MPTarget.Type: GrantFiled: June 5, 2018Date of Patent: January 25, 2022Assignee: SMS group GmbHInventors: Thomas Daube, Markus Jaenecke, Lutz Kümmel, Ulrich Sommers, Alexandre Lhoest
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Publication number: 20210238726Abstract: The invention relates to a method and a vacuum-coating system (10) for coating a band-type material (11), in particular made of metal. For this, the band-type material (11) is moved, via a conveying section (12), in a transport direction (T) and is vacuum-coated within a coating chamber (14), in which a vacuum is applied. As seen in the transport direction (T) of the band-type material (11), at least one flatness optimization device (39) is arranged upstream of the coating chamber (14), through which flatness optimization device the band-type material (11) can be guided. In this way, a desired flatness is generated for the band-type material (11).Type: ApplicationFiled: April 18, 2019Publication date: August 5, 2021Applicant: SMS group GMBHInventors: Lutz KÜMMEL, Thomas DAUBE
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Publication number: 20210207262Abstract: A method and a vacuum-coating system (10) for coating a strip-shaped material (11), in particular made of metal, are disclosed. Thereby, the strip-shaped material (11) is moved over a conveying section (12) in a transport direction (T) and vacuum-coated within a coating chamber (14) in which a vacuum is applied. When viewed in the transport direction (T) of the strip-shaped material (11), at least one trimming shear (38) is arranged upstream of the coating chamber (14), with which the strip-shaped material (11) is trimmed at at least one strip edge, preferably at both strip edges, in order to produce a constant width for the strip-shaped material (11) over its longitudinal extension.Type: ApplicationFiled: May 28, 2019Publication date: July 8, 2021Applicant: SMS group GmbHInventors: Lutz KÜMMEL, Thomas DAUBE
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Publication number: 20210207264Abstract: A method and a vacuum-coating system for coating a band-type material, in particular made of metal. For this, the band-type material is moved, via a conveying section, in a transport direction and is vacuum-coated within a coating chamber, in which a vacuum is applied. A position of the band-type material is adjusted and/or aligned as relates to a center of the conveying section by means of at least one band position control device, which is arranged within the coating chamber.Type: ApplicationFiled: April 18, 2019Publication date: July 8, 2021Applicant: SMS group GMBHInventors: Lutz KÜMMEL, Thomas DAUBE
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Patent number: 10982307Abstract: A method for operating a coating device for coating a metal strip. The corresponding coating device has an electromagnetic strip-stabilizing device having a plurality of electromagnetic actuators or coils for applying forces to the metal strip. In order to ensure that the strip-stabilizing device is operated only within the operating limits thereof, the magnitudes of the set currents for the actuators or the coils are compared with a specified current threshold value or the forces applied to the metal strip by the actuators are compared with a specified force threshold value and the correction roller is moved into such an adjustment position that the magnitudes of the set currents are below the current threshold value or the magnitudes of the forces are below the force threshold value.Type: GrantFiled: January 13, 2017Date of Patent: April 20, 2021Assignee: FONTAINE ENGINEERING UND MASCHINEN GMBHInventors: Lutz Kümmel, Thomas Daube, Holger Behrens, Dominique Fontaine, Michael Zielenbach
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Publication number: 20200238330Abstract: A device for coating a metal strip substrate includes a guiding apparatus for guiding the strip substrate along a movement path. A first coating apparatus coats a first main side of the strip substrate with an electrostatically charged coating powder which is in a fluidized state. The first coating apparatus is arranged under a first path section of the movement path. A second coating apparatus coats a second main side of the strip substrate with an electrostatically charged coating powder which is in a fluidized state. A redirecting unit redirects the strip substrate between the first and the second coating apparatus in such a way that the strip substrate in a second path section travels oppositely to the strip substrate in the first path section. The second coating apparatus is arranged at least partly geodetically under the second path section.Type: ApplicationFiled: July 11, 2018Publication date: July 30, 2020Applicant: SMS group GmbHInventors: Henry GÖRTZ, Matthias KRETSCHMER, Lutz KÜMMEL
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Publication number: 20200232063Abstract: Method for thermally treating a scrolling steel strip (5), said method comprising the following steps: heating the strip (5) in a zone for heating with a direct flame (10); temperature homogenisation of the strip (5) in a homogenisation chamber (20) comprising at least one radiant heating tube (25), so as to homogenise the strip (5) in temperature after the passing thereof into the zone for heating with a direct flame (10) of the preceding step; oxidation of the strip (5) in an oxidation chamber (30) with an oxidising atmosphere having an oxygen volume concentration greater than 1%; reduction of the strip (5) in a reduction zone (40).Type: ApplicationFiled: December 20, 2019Publication date: July 23, 2020Applicant: DREVER INTERNATIONALInventors: Jean-Pierre Crutzen, Lutz Kümmel, Frank Maschler, Michel Renard
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Publication number: 20200131599Abstract: A method for operating an annealing furnace to anneal a metal strip provides that, initially, at least one target material property (MPTarget) is specified for a point or a section of the metal strip after passing through the annealing furnace. In addition, information (E) on the metal strip is provided before or in the annealing furnace. A calculation of a target temperature distribution (TTarget) and/or a target speed (VTarget) of the metal strip in the annealing furnace is then carried out with the assistance of a computer-aided model as a function of the target material properties and the specified information. The target temperature distribution and/or target speed calculated in this manner is/are subsequently set in the annealing furnace in order to transfer the material property of the metal strip behind the annealing furnace to the desired target material property MPTarget.Type: ApplicationFiled: June 5, 2018Publication date: April 30, 2020Inventors: Thomas Daube, Markus Jaenecke, Lutz Kümmel, Ulrich Sommers, Alexandre Lhoest