Patents by Inventor Rainer Gaus
Rainer Gaus 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: 20240034677Abstract: An arrangement for producing a bulk material consisting substantially of foamed or blown mineral or oxide particles by thermal treatment of a bulk material of basic particles. The arrangement includes NIR halogen radiators for generating a NIR radiation field of radiation with an active component in a near infrared, NIR, range having a wavelength in a range between 0.8 ?m and 1.5 ?m and which has a power density of at least 50 kW/m2 for thermally treating the basic particles, a conveying device for transporting a layer or stream of the bed of basic particles through the radiation field, and a controller that controls heating of the bed of basic particles such that a maximum temperature in the layer or stream is in a temperature range between 600 and 1500° C.Type: ApplicationFiled: October 5, 2023Publication date: February 1, 2024Applicant: ThermPro TEC GmbHInventor: Rainer Gaus
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Patent number: 11814319Abstract: A method for producing a bulk material consisting substantially of foamed or blown mineral or oxide particles by thermal treatment of a bulk material of basic particles, characterized in that the thermal treatment includes transport of a transversely conveyed or horizontal layer or of a free flow of the bulk material through a radiation field, the substantial active component of which lies in the near infrared range (NIR), and which has a power density of at least 50 kW/m2.Type: GrantFiled: August 24, 2018Date of Patent: November 14, 2023Assignee: ThermProTEC GmbHInventor: Rainer Gaus
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Publication number: 20200277228Abstract: A method for producing a bulk material consisting substantially of foamed or blown mineral or oxide particles by thermal treatment of a bulk material of basic particles, characterized in that the thermal treatment includes transport of a transversely conveyed or horizontal layer or of a free flow of the bulk material through a radiation field, the substantial active component of which lies in the near infrared range (NIR), and which has a power density of at least 50 kW/m2.Type: ApplicationFiled: August 24, 2018Publication date: September 3, 2020Applicant: Thermprotec GmbHInventor: Rainer GAUS
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Patent number: 7820991Abstract: Radiation source for electromagnetic radiation the major effective component of which is in the near-infrared region, in particular in the wavelength region between 0.8 ?m and 1.5 ?m, to form an elongated irradiation zone, with an elongated halogen lamp comprising a glass body that has a tubular shape with bases at the ends and contains at least one spiral filament, and with an elongated reflector, such that the bases of the halogen lamp are disposed in the region of the reflector surface or behind it with reference to the position of the halogen lamp, wherein the ends of the halogen lamp are bent around toward the reflector and the spiral filaments or at least one of them is made thicker or is more densely wound in the bent region of the glass body, in such a way that the radiation flux density of the radiation source is substantially constant in the long direction of the source, between the outermost points of the bases.Type: GrantFiled: September 12, 2001Date of Patent: October 26, 2010Assignees: AdPhos Innovative Technologies GmbH, KHS Corpoplast GmbH & Co. KGInventors: K.O. Kai Bär, Rainer Gaus, Günther Gesell, Torsten Berge
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Patent number: 7692170Abstract: Disclosed is a radiation apparatus for technical uses, especially a UV crosslinking apparatus of a printing press, coating machine, or similar. Said radiation apparatus comprises at least one radiation source emitting a processing radiation, at least one controllable and particularly wavelength-selective reflector which is assigned to the radiation source and is used for selectively directing the processing radiation onto a substrate that is to be processed or away therefrom, a driving mechanism which is effectively connected to the reflector, and a housing accommodating at least the at least one radiation source and the at least one reflector. At least one first and second radiation source are provided between which the controllable reflector is disposed and which can be operated above all in a separate manner.Type: GrantFiled: May 4, 2005Date of Patent: April 6, 2010Assignee: Advanced Photonics Technologies AGInventors: Rainer Gaus, Wolfgang Mohr, Guenther Gesell, Thomas Klingenberg
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Publication number: 20070214986Abstract: Disclosed is a radiation apparatus for technical uses, especially a UV crosslinking apparatus of a printing press, coating machine, or similar. Said radiation apparatus comprises at least one radiation source emitting a processing radiation, at least one controllable and particularly wavelength-selective reflector which is assigned to the radiation source and is used for selectively directing the processing radiation onto a substrate that is to be processed or away therefrom, a driving mechanism which is effectively connected to the reflector, and a housing accommodating at least the at least one radiation source and the at least one reflector. At least one first and second radiation source are provided between which the controllable reflector is disposed and which can be operated above all in a separate manner.Type: ApplicationFiled: May 4, 2005Publication date: September 20, 2007Inventors: Rainer Gaus, Wolfgang Mohr, Guenther Gesell, Thomas Klingenberg
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Patent number: 7087453Abstract: Method of manufacturing a semiconducting organic laminated structure, for use in an electronic circuit, in particular a logic and/or memory circuit, wherein a substrate is coated with a solution or dispersion containing a small proportion of an organic composite and having a certain wet-layer thickness, which by drying is converted into an organic thin layer with semiconducting properties that adheres to the substrate and has a dry-layer thickness substantially less than the wet-layer thickness, in particular by an order of magnitude or more, the drying being accomplished by brief irradiation with electromagnetic radiation that has its main effective component in the near-infrared range, in particular in the region between 0.8 and 1.5 ?m.Type: GrantFiled: July 23, 2001Date of Patent: August 8, 2006Assignee: Advanced Photonics Technologies AGInventors: K. O. Kai Bär, Rainer Gaus, Thorsten Hülsmann, Rolf Wirth
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Patent number: 6940081Abstract: The invention relates to a method and a system for irradiating objects with infrared radiation, in particular in order to dry surface layers and/or fix them in place, wherein a radiation source (10) is moved by means of a robot (1) into one or several operating positions in which the particular target object is irradiated.Type: GrantFiled: March 29, 2000Date of Patent: September 6, 2005Assignee: Advanced Photonics Technologies AGInventors: Kai K. O. Bär, Rainer Gaus
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Patent number: 6858261Abstract: The invention relates to a method of drying coated and/or impregnated objects (5), in particular lacquered wood, wherein [drying of] a coating agent and/or impregnation agent applied to the surface of the object concerned is completed before a characteristic period of time has elapsed, by irradiating the coated or impregnated surface with infrared radiation. The characteristic period of time is determined by the time needed for components of the coating and/or impregnation agent (22) to migrate away, i.e. by penetrating into the object (5), so that the quality of the coating or impregnation is impaired. Alternatively or in addition, the characteristic period of time is determined by the fact that after it has elapsed, a solvent and/or dilution fluid that is contained in the coating and/or impregnation agent (22) and is to be driven out and/or bound during the heating process has caused fibers in the object (5) to be raised up, so that a secondary treatment of the surface is necessary or desirable.Type: GrantFiled: October 21, 1999Date of Patent: February 22, 2005Assignees: Advanced Photonics Technologies AG, Josef Schiele oHGInventors: Kai K. O. Bär, Rainer Gaus, Martin Sedlmeyr, Stefan Schiele
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Publication number: 20040241901Abstract: Method of manufacturing a semiconducting organic laminated structure, for use in an electronic circuit, in particular a logic and/or memory circuit, wherein a substrate is coated with a solution or dispersion containing a small proportion of an organic composite and having a certain wet-layer thickness, which by drying is converted into an organic thin layer with semiconducting properties that adheres to the substrate and has a dry-layer thickness substantially less than the wet-layer thickness, in particular by an order of magnitude or more, the drying being accomplished by brief irradiation with electromagnetic radiation that has its main effective component in the near-infrared range, in particular in the region between 0.8 and 1.5 &mgr;m.Type: ApplicationFiled: July 21, 2004Publication date: December 2, 2004Inventors: K.O. Kai Bar, Rainer Gaus, Thorsten Hulsmann, Rolf Wirth
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Patent number: 6684677Abstract: Method of removing dents from sheet-metal parts, in particular from lacquered parts of an automobile body, wherein the metal part (3) in the region of a dent (B) is warmed locally in a substantially non-contact manner, in such a way that a mechanical tension gradient produced by the local warming causes the dent to spring back so as to restore the original shape of the metal part.Type: GrantFiled: July 15, 2002Date of Patent: February 3, 2004Assignee: Advanced Photonics Technologies AGInventors: Kai K. O. Bär, Rainer Gaus, Frank Weckenmann
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Publication number: 20030183785Abstract: Radiation source (11) for electromagnetic radiation the major effective component of which is in the near-infrared region, in particular in the wavelength region between 0.8 &mgr;m and 1.5 &mgr;m, to form an elongated irradiation zone, with an elongated halogen lamp (11) comprising a glass body (14) that has a tubular shape with bases at the ends and contains at least one spiral filament (15), and with an elongated reflector (12), such that the bases (13) of the halogen lamp are disposed in the region of the reflector surface or behind it with reference to the position of the halogen lamp, wherein the ends of the halogen lamp are bent around toward the reflector and the spiral filaments or at least one of them is made thicker or is more densely wound in the bent region of the glass body, in such a way that the radiation flux density of the radiation source is substantially constant in the long direction of the source, between the outermost points of the bases.Type: ApplicationFiled: March 18, 2003Publication date: October 2, 2003Inventors: K.O. Kai Bar, Rainer Gaus, Gunther Gesell, Torsten Berge
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Publication number: 20030175412Abstract: Method of producing a thin laminated construction from a carrier in the form of a flexible, in particular quasi-endless band, with at least one functional coating that is firmly bonded to the carrier and has a thickness in particular of the same order of magnitude as the thickness of the carrier, with the steps:Type: ApplicationFiled: November 8, 2002Publication date: September 18, 2003Inventors: K O Kai Bar, Rainer Gaus
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Publication number: 20030020795Abstract: Method of drying an ink-jet print on a print-image carrier by means of infrared radiation, wherein the image carrier is transported through a strip-shaped irradiation zone and a radiation source is operated in such a way that radiation in the near-infrared region, in particular with a wavelength between 0.8 and 1.5 &mgr;m, acts on the ink-jet print substantially over the entire surface of the print image.Type: ApplicationFiled: July 16, 2002Publication date: January 30, 2003Inventors: Kai K O Br, Rainer Gaus, Rolf Wirth
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Patent number: 6471430Abstract: The invention proposes a system for manufacturing sheet-like printed products (3), in which sheet-like starting sections (2) are processed. These starting sections are transported through at least one printing station (13) by means of a transport device (4). The application of a printed image takes place in the printing station (13) with the aid of a printer (26) and a subsequently arranged dryer (32), with an electronic printed image specification device (43) making it possible to realize individual printed images on individual sheets.Type: GrantFiled: May 5, 2000Date of Patent: October 29, 2002Assignee: Industrieservis Gesellschaft fur Innovation, Technologie-Transfer und Consulting fur Thermische Prozessanlagen mbHInventors: Rainer Gaus, Gerhard Bach, Kai K. O. Bär
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Patent number: 6471819Abstract: Method and apparatus for coating the surface of an object, especially the surface of a car bumper (1) with a plastic film (2). During and/or after application of the plastic film to the surface, the coating is irradiated with infra-red radiation in order to heat at least parts of the coating and/or optionally residual moisture between the surface and the plastic film (2). This enables slight inequalities of the plastic film to be compensated, the adhesive coating is distributed in a homogeneous manner and the optionally residual moisture is collected in the form of bubbles following infrared radiation. Defects or irregularities in the coating can thus be identified during or shortly afterwards.Type: GrantFiled: September 29, 2000Date of Patent: October 29, 2002Assignee: Advanced Photonics Technologies AGInventors: Kai K. O. Bär, Rainer Gaus
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Patent number: 6401358Abstract: A method and an apparatus for drying a substance that is being rapidly conveyed in a conveyor apparatus, in particular for drying layers of printing ink on rapidly transported paper, wherein in a drying zone by means of incident electromagnetic radiation a moisture component, in particular a solvent, is separated from the substance to be dried. The separated moisture component is transported away from the drying zone by means of a transport gas current. Efficient and rapid drying of in particular printed newsprint or thermal printing paper is attained at high conveyor velocities.Type: GrantFiled: October 13, 2000Date of Patent: June 11, 2002Assignee: Advanced Photonics Technologies AGInventors: Kai K. O. Bär, Rainer Gaus
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Patent number: 5707146Abstract: The invention relates to a method and its implementation for the rapid calibration of thermoelements, preferably in the temperature range from 700.degree. C. to 1800.degree. C. The calibration apparatus consists of commercially available components, is therefore comparatively very economical, light and portable; the energy consumption is low, because the conventional heating chamber can be eliminated. Errors of the first and second kind associated with the thermoelements to be calibrated are detected.Type: GrantFiled: January 17, 1996Date of Patent: January 13, 1998Assignee: Industrieanlagen-Betriebsgesellschaft mbHInventors: Rainer Gaus, Michael Dienz, Kai K. O. Bar
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Patent number: 5699624Abstract: The invention relates to an apparatus for the one-dimensional, highly precise measurement of extension at the surfaces of hot specimens. The working range extends from normal temperature to about 1800.degree. C., but measurements are also possible up to 2300.degree. C. With respect to atmospheric pressure, the application range extends from vacuum up to pressures of several bar. The high-temperature extensometer in accordance with the invention is distinctly more cost-effective than previous extensometers for hot test specimens, despite its considerably larger measurement range.Type: GrantFiled: March 25, 1996Date of Patent: December 23, 1997Assignee: Industrieanlagen-Betriebsgesellschaft mbHInventors: Rainer Gaus, Stefan Zauner, Gunther Gesell