Patents by Inventor Norbert Demarczyk

Norbert Demarczyk 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).

  • Patent number: 12275063
    Abstract: The disclosure provides for cleaning three-dimensional (3D) components printed in a powder bed from adhering powder particles. The 3D-printed components are cleaned with a negative pressure-induced volumetric flow. The 3D-printed components are first removed from the powder bed after their manufacture, then positioned on a feed device and moved together with the feed device into a pressure-tight sealable chamber. In the interior of the chamber negative pressure is subsequently built up and a fluid volumetric flow is applied to the 3D-printed component to be cleaned which results in the powder particles being detached from the 3D-printed component. The powder particles are removed from the sealed chamber in a pressure tight manner via at least one channel conduit which is subjected to negative pressure and are fed to a separation device. The chamber is subsequently released of pressure and then opened for removal of the cleaned 3D-printed component.
    Type: Grant
    Filed: March 23, 2021
    Date of Patent: April 15, 2025
    Assignee: ACTECH GmbH
    Inventors: Jens Fischer, Norbert Demarczyk, Hana Kästner Maxová
  • Publication number: 20230135966
    Abstract: The disclosure provides for cleaning three-dimensional (3D) components printed in a powder bed from adhering powder particles. The 3D-printed components are cleaned with a negative pressure-induced volumetric flow. The 3D-printed components are first removed from the powder bed after their manufacture, then positioned on a feed device and moved together with the feed device into a pressure-tight sealable chamber. In the interior of the chamber negative pressure is subsequently built up and a fluid volumetric flow is applied to the 3D-printed component to be cleaned which results in the powder particles being detached from the 3D-printed component. The powder particles are removed from the sealed chamber in a pressure tight manner via at least one channel conduit which is subjected to negative pressure and are fed to a separation device. The chamber is subsequently released of pressure and then opened for removal of the cleaned 3D-printed component.
    Type: Application
    Filed: March 23, 2021
    Publication date: May 4, 2023
    Inventors: Jens FISCHER, Norbert DEMARCZYK, Hana KÄSTNER MAXOVÁ
  • Patent number: 6666254
    Abstract: A method is described for uphill casting in sand molds with high-resin casting cores or especially casting cores containing binders, and with directed solidification of metallic castings that have at least one cavity. In particular, these are prototypes of engine blocks or cylinder heads, for example for internal combustion engines that are provided with a cavity through which coolant water flows. To provide for low-turbulence flow of the liquid molten metal during the deaeration of the casting mold, the casting mold is provided with at least one feeder head that is connected through a casting system to an infeed funnel, and the molten metal it contains is displaced by gravity through the casting system into the casting mold, with the cavity in the molten metal being subjected after the filling to reduced pressure that is greater than the pressure of the core gases formed in the core. This eliminates the hindrance to filling the mold from air pockets in the mold.
    Type: Grant
    Filed: September 26, 2002
    Date of Patent: December 23, 2003
    Assignee: ACTech GmbH Advanced Casting Technologies Giessereitechnologie
    Inventors: Heiko Voigt, Norbert Demarczyk
  • Publication number: 20030102100
    Abstract: The invention relates to a method for the uphill casting of cast pieces in sand dies with resinous, or, in particular, binder-containing cast cores and controlled solidification of metallic cast pieces, comprising at least one cavity. Said pieces are, in particular, prototypes of engine blocks, or cylinder heads, for example, for internal combustion engines, with a cavity for the throughflow of cooling water. In order to guarantee a low-turbulence flow of fluid metal melt on ventilating the cast mould, the cast mould (1), with at least one feed (24), is connected to a sprue cup (24) by means of a casting system (22) and the metal melt contained therein forced into the cast mould (1) through the casting system (22) by gravity. After filling the cavity (11′) a vacuum is created in the metal melt, greater than the pressure of core gases generated in the core.
    Type: Application
    Filed: September 26, 2002
    Publication date: June 5, 2003
    Inventors: Heiko Voigt, Norbert Demarczyk
  • Patent number: 6564852
    Abstract: The invention is directed to a method for directly producing a lost mold by machining a sand mold made with curable binders. The invention is intended in particular to decrease tool wear and to increase dimensional accuracy and exactness in the reproduction of the mold, in that a mold blank (1) to be machined is constructed by means of a pattern set (4) with the use of a variable or fixed molding box (2) and includes in its volume the desired contours of the casting mold and a machining allowance for the milling of the mold material. After filling of the molding box (2) with curable foundry mold materials, curing, and removal from the mold, the mold blank (1) is transformed into the casting mold by removal of the machining allowance by high-speed machining, milling or 3-D machining of freeform surfaces. The invention concerns lost molds for metal castings and the fabrication of casting prototypes and odd parts in the range of small-and medium-sized articles and production runs.
    Type: Grant
    Filed: December 6, 2000
    Date of Patent: May 20, 2003
    Assignee: Actech GmbH - Advanced Casting Technologies Giessereitechnologie
    Inventors: Florian Wendt, Norbert Demarczyk, Rüdiger Hauschild