Patents by Inventor Havard HALVORSEN
Havard HALVORSEN 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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Patent number: 11986888Abstract: A robotic drilling apparatus is described which has been adapted for drilling holes in ceilings and walls on a construction site. The apparatus (100) comprises a robotic arm (110) mounted to a substructure (112), the substructure comprising a lifting mechanism arranged to lift the robotic arm to a working position, wherein the robotic arm has a base end (110a) and a movable end (110b), the base end being mounted to an upper surface (114) of the lifting mechanism and the movable end being capable of movement with respect to the base end in a three dimensional space, wherein the robotic drilling apparatus further comprises a mount (120) provided on the movable end for holding a drilling device (122) and a control unit (134) for controlling the operation of the robotic arm. The lifting mechanism preferably comprises a scissor-jack lifting platform. The robotic arm (110) and any support structure (134) for the robotic arm weighs less than 43 kg, and preferably individually weigh less than 23 kg.Type: GrantFiled: October 27, 2015Date of Patent: May 21, 2024Assignee: HILTI CORPORATIONInventors: Havard Halvorsen, Tom Asle Henninge, Konrad Fagertun
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Patent number: 11945036Abstract: A robotic drilling apparatus is described which has been adapted for drilling holes in ceilings and walls on a construction site. The apparatus (100) comprises a robotic arm (110) mounted to a substructure (112), the substructure comprising a lifting mechanism arranged to lift the robotic arm to a working position, wherein the robotic arm has a base end (110a) and a movable end (110b), the base end being mounted to an upper surface (114) of the lifting mechanism and the movable end being capable of movement with respect to the base end in a three dimensional space, wherein the robotic drilling apparatus further comprises a mount (120) provided on the movable end for holding a drilling device (122) and a control unit (134) for controlling the operation of the robotic arm. The lifting mechanism preferably comprises a scissor-jack lifting platform. The robotic arm (110) and any support structure (134) for the robotic arm weighs less than 43 kg, and preferably individually weigh less than 23 kg.Type: GrantFiled: August 24, 2021Date of Patent: April 2, 2024Assignee: HILTI CORPORATIONInventors: Havard Halvorsen, Tom Asle Henninge, Konrad Fagertun
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Patent number: 11919176Abstract: A method of operating a mobile construction robot includes placing an optical tracker on an architectural construction site and parking a driving platform of the robot on the site. An end effector of the robot is moved in first and second positions and the first and second positions of the end effector relative to the driving platform are measured. An optical marker mounted to the end effector is tracked in the first and second positions of the end effector with the optical tracker and the first and second positions of the optical marker relative to the optical tracker is measured with the optical tracker. A position and an orientation of the driving platform is determined based on the measured first and second position of the end effector relative to the driving platform and the measured first and second position of the optical marker relative to the optical tracker.Type: GrantFiled: August 13, 2019Date of Patent: March 5, 2024Assignee: Hilti AktiengesellschaftInventors: Håvard Halvorsen, Jørn Sandvik Nilsson
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Publication number: 20230256611Abstract: A smart drilling system that includes a controller, a drilling machine with an optical marker, and a tracker station at a fixed spot of a construction site. The drilling machine includes an optical marker. The tracker station acquires the location of the drilling machine and its drill through tracking the optical marker. The drilling machine is moved into positions of multiple different work regions. The tracker station sequentially acquires the location of the multiple different work regions and transmits the acquired location information to the controller, such that, by using the transmitted locations, the controller converts drilling machine coordinates into desired perforation coordinates and recognizes an orientation of the drilling machine. The controller also recognizes a perforable point at a current position of the drilling machine through the location information of the drilling machine.Type: ApplicationFiled: April 25, 2023Publication date: August 17, 2023Inventors: Håvard HALVORSEN, Jørn Sandvik NILSSON
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Publication number: 20220001461Abstract: A robotic drilling apparatus is described which has been adapted for drilling holes in ceilings and walls on a construction site. The apparatus (100) comprises a robotic arm (110) mounted to a substructure (112), the substructure comprising a lifting mechanism arranged to lift the robotic arm to a working position, wherein the robotic arm has a base end (110a) and a movable end (110b), the base end being mounted to an upper surface (114) of the lifting mechanism and the movable end being capable of movement with respect to the base end in a three dimensional space, wherein the robotic drilling apparatus further comprises a mount (120) provided on the movable end for holding a drilling device (122) and a control unit (134) for controlling the operation of the robotic arm. The lifting mechanism preferably comprises a scissor-jack lifting platform. The robotic arm (110) and any support structure (134) for the robotic arm weighs less than 43 kg, and preferably individually weigh less than 23 kg.Type: ApplicationFiled: August 24, 2021Publication date: January 6, 2022Applicant: HILTI CORPORATIONInventors: Havard HALVORSEN, Tom Asle HENNINGE, Konrad FAGERTUN
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Publication number: 20210323163Abstract: A method of operating a mobile construction robot includes placing an optical tracker on an architectural construction site and parking a driving platform of the robot on the site. An end effector of the robot is moved in first and second positions and the first and second positions of the end effector relative to the driving platform are measured. An optical marker mounted to the end effector is tracked in the first and second positions of the end effector with the optical tracker and the first and second positions of the optical marker relative to the optical tracker is measured with the optical tracker. A position and an orientation of the driving platform is determined based on the measured first and second position of the end effector relative to the driving platform and the measured first and second position of the optical marker relative to the optical tracker.Type: ApplicationFiled: August 13, 2019Publication date: October 21, 2021Applicant: Hilti AktiengesellschaftInventors: Håvard HALVORSEN, Jørn NILSSON
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Publication number: 20180326507Abstract: A robotic drilling apparatus is described which has been adapted for drilling holes in ceilings and walls on a construction site. The apparatus (100) comprises a robotic arm (110) mounted to a substructure (112), the substructure comprising a lifting mechanism arranged to lift the robotic arm to a working position, wherein the robotic arm has a base end (110a) and a movable end (110b), the base end being mounted to an upper surface (114) of the lifting mechanism and the movable end being capable of movement with respect to the base end in a three dimensional space, wherein the robotic drilling apparatus further comprises a mount (120) provided on the movable end for holding a drilling device (122) and a control unit (134) for controlling the operation of the robotic arm. The lifting mechanism preferably comprises a scissor-jack lifting platform. The robotic arm (110) and any support structure (134) for the robotic arm weighs less than 43 kg, and preferably individually weigh less than 23 kg.Type: ApplicationFiled: October 27, 2015Publication date: November 15, 2018Applicant: NLINK ASInventors: Havard HALVORSEN, Tom Asle HENNINGE, Konrad FAGERTUN