Patents by Inventor Scott Lawrence Peters
Scott Lawrence Peters 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: 12012309Abstract: An intuitive control system for lifting equipment is described. The intuitive control system translates user defined inputs into machine expressions of movement that are in turn used to control a construction lift or similar piece of construction equipment. Orientation and relative position sensors may be incorporated into the translation and control system for correct user control of the lifting equipment in various operating conditions.Type: GrantFiled: November 22, 2020Date of Patent: June 18, 2024Assignee: Construction Robotics, LLCInventors: Scott Lawrence Peters, Glenn Dayton White
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Patent number: 12006188Abstract: A Building Element Lift Enhancer is described. The Building Element Lift Enhancer provides for the movement and precise placement of building elements such as blocks or sheet products by one worker. The Building Element Lift Enhancer senses the force applied by a user to the building element and converts that user applied force to mechanically assisted force from the Building Element Lift Enhancer, allowing the user to precisely move and handle large, heavy or bulky building elements by direct interaction with the building element.Type: GrantFiled: August 18, 2018Date of Patent: June 11, 2024Assignee: Construction Robotics, LLCInventors: Scott Lawrence Peters, Andrew Walter Beckmann, Glenn Dayton White, Timothy Riley Voorheis, Kimchua Heng
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Publication number: 20230304524Abstract: A self engaging and disengaging coupler is disclosed with a male coupler half and a female coupler half that uses magnetic elements in combination with structural guide and retention elements on each coupler half to engage and releasably lock the self engaging and disengaging coupler. These structural elements in combination with the magnetic elements also allow the self engaging and disengaging coupler to release through one or more quick tugs on the strap, rope or connecting element that is attached to the self engaging and disengaging coupler. This ability to engage and release the self engaging and disengaging coupler allows for easy one-handed operation.Type: ApplicationFiled: March 20, 2023Publication date: September 28, 2023Applicant: DNS Designs, LLCInventors: Scott Lawrence Peters, David Whitney Lyndaker
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Publication number: 20230076909Abstract: An Enhanced Lift Assist Device is described. The device allows a user to lift and manipulate large, heavy or bulky items by applying force to the item as opposed to traditional control methods such as buttons. This force based system provides ease of movement of the item, making it appear much lighter than it actually is. The Enhanced Lift Assist Device also includes an adjustable base that allows for change of orientation of the device that may include leveling or self-leveling functionality, allowing the device to be operated in non-traditional environments that require leveling or operational adjustments for proper functioning.Type: ApplicationFiled: February 14, 2021Publication date: March 9, 2023Applicant: Construction Robotics, LLCInventors: Andrew Walter Beckmann, Scott Lawrence Peters, Glenn Dayton White, David Wesley Lombardo, Greg Brulo, Ji Hong Hao, Matthew Ian Gilbride, David Whitney Lyndaker, Charles Alfred Streb, IV, William Lewis Martz
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Publication number: 20210154833Abstract: An intuitive control system for lifting equipment is described. The intuitive control system translates user defined inputs into machine expressions of movement that are in turn used to control a construction lift or similar piece of construction equipment. Orientation and relative position sensors may be incorporated into the translation and control system for correct user control of the lifting equipment in various operating conditions.Type: ApplicationFiled: November 22, 2020Publication date: May 27, 2021Applicant: Construction Robotics, LLCInventors: Scott Lawrence Peters, Glenn Dayton White
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Publication number: 20200369494Abstract: A Building Element Lift Enhancer is described. The Building Element Lift Enhancer provides for the movement and precise placement of building elements such as blocks or sheet products by one worker. The Building Element Lift Enhancer senses the force applied by a user to the building element and converts that user applied force to mechanically assisted force from the Building Element Lift Enhancer, allowing the user to precisely move and handle large, heavy or bulky building elements by direct interaction with the building element.Type: ApplicationFiled: August 18, 2018Publication date: November 26, 2020Applicant: Construction Robotics, LLCInventors: Scott Lawrence Peters, Andrew Walter Beckmann, Glenn Dayton White, Timothy Riley Voorheis, Kimchua Heng
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Patent number: 10759087Abstract: A Mortar Delivery System is described. The Mortar Delivery System provides precise control of the delivery and application of mortar in addition to the mixing and tempering of mortar. Such control eliminates the use of a hand trowel in brick, block and stone laying applications. Sensing and control are integrated with the Mortar Delivery System to make it an important element of a robotic brick laying system. The Mortar Delivery System contains sensors to measure mortar viscosity and workability, mortar flow rate, and mortar nozzle pressure. The data from the Mortar Delivery System sensors can be used to change the rotational speed of the shear blades, change the amount of water being used for mixing or tempering, and change the delivery speed of the mortar. Such changes result in precise control of mortar that is in turn suitable for automated or semi-automated building processes.Type: GrantFiled: May 1, 2015Date of Patent: September 1, 2020Assignee: Construction Robotics, LLCInventors: Scott Lawrence Peters, Timothy Riley Voorheis, Michael John Oklevitch, Rockwell Najeeb Yarid, Kerry Evan Lipp, Erwin Ludwig Allmann
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Patent number: 10240949Abstract: A laser positioning system is described. The laser positioning system provides a positioning and guidance system that is suitable for environments that have external disturbances such as those caused by wind, equipment movement, vibration, and the like. The laser positioning system of the present invention uses at novel laser line beacon positioning system in optical communication with a novel laser line receiver to achieve accurate positioning in environments with external disturbances, something that has previously not been attainable. In some embodiments, a target or series of targets are used to create a reference by which the laser line receiver and an associated moveable assembly such as a robotic arm assembly are able to accurately place building elements such as bricks. Exemplary applications of the laser positioning system include, but are not limited to, accurate positioning of bricks in a wall under construction by a robotic brick laying system.Type: GrantFiled: January 29, 2016Date of Patent: March 26, 2019Assignee: Construction Robotics, LLCInventors: Scott Lawrence Peters, Glenn Dayton White, Rockwell Najeeb Yarid, Erwin Ludwig Allmann, Timothy Riley Voorheis
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Publication number: 20170254102Abstract: A brick laying system where an operator such as a mason works proximate a moveable platform having a robotic arm assembly, a mortar applicator with a mortar transfer device, and a brick transfer device to build structures. The robotically assisted brick laying system may also contain a stabilizer having a disturbance sensing and a disturbance correcting component that provides compensation for disturbances caused by load shifting, movement of the platform, wind, operator movement, and the like. In addition, the robotically assisted brick laying system has a sensing and positioning component for controlling placement of the moveable platform and robotic arm assembly. The interoperability of the system with a mason or skilled operator removes much of the manual labor component of brick laying, allowing the mason more time to focus on craftsmanship and quality, thus improving the end product and the overall working conditions of the mason.Type: ApplicationFiled: April 11, 2017Publication date: September 7, 2017Applicant: Construction Robotics, LLCInventors: Scott Lawrence Peters, Nathan Podkaminer, Thomas Charles Coller
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Publication number: 20170066157Abstract: A Mortar Delivery System is described. The Mortar Delivery System provides precise control of the delivery and application of mortar in addition to the mixing and tempering of mortar. Such control eliminates the use of a hand trowel in brick, block and stone laying applications. Sensing and control are integrated with the Mortar Delivery System to make it an important element of a robotic brick laying system. The Mortar Delivery System contains sensors to measure mortar viscosity and workability, mortar flow rate, and mortar nozzle pressure. The data from the Mortar Delivery System sensors can be used to change the rotational speed of the shear blades, change the amount of water being used for mixing or tempering, and change the delivery speed of the mortar. Such changes result in precise control of mortar that is in turn suitable for automated or semi-automated building processes.Type: ApplicationFiled: May 1, 2015Publication date: March 9, 2017Applicant: CONSTRUCTION ROBOTICS, LLCInventors: Scott Lawrence PETERS, Timothy Riley VOORHEIS, Michael John OKLEVITCH, Rockwell Najeeb YARID, Kerry Evan LIPP, Erwin Ludwig ALLMANN
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Publication number: 20160223364Abstract: A laser positioning system is described. The laser positioning system provides a positioning and guidance system that is suitable for environments that have external disturbances such as those caused by wind, equipment movement, vibration, and the like. The laser positioning system of the present invention uses at novel laser line beacon positioning system in optical communication with a novel laser line receiver to achieve accurate positioning in environments with external disturbances, something that has previously not been attainable. In some embodiments, a target or series of targets are used to create a reference by which the laser line receiver and an associated moveable assembly such as a robotic arm assembly are able to accurately place building elements such as bricks. Exemplary applications of the laser positioning system include, but are not limited to, accurate positioning of bricks in a wall under construction by a robotic brick laying system.Type: ApplicationFiled: January 29, 2016Publication date: August 4, 2016Applicant: Construction Robotics, LLCInventors: Scott Lawrence Peters, Glenn Dayton White, Rockwell Najeeb Yarid, Erwin Ludwig Allmann, Timothy Riley Voorheis
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Patent number: 9027210Abstract: A Self-Aligning Zipper is disclosed that allows for one handed operation by anyone who would, otherwise use a zipper or use of the Self-Aligning Zipper by those with physical and developmental limitations or equipment such, as cold weather gloves or mittens. The proper alignment of each half of the Self-Aligning Zipper is accomplished by way of magnets of opposite polarity along with structural guide elements to ensure proper alignment and operation of the zipper.Type: GrantFiled: September 10, 2012Date of Patent: May 12, 2015Assignee: DNS Designs, LLCInventors: Scott Lawrence Peters, David Whitney Lyndaker, Nancy Elizabeth Peters
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Publication number: 20150082740Abstract: A brick laying system where an operator such as a mason works proximate a moveable platform having a robotic arm assembly, a mortar applicator with a mortar transfer device, and a brick transfer device to build structures. The robotically assisted brick laying system may also contain a stabilizer having a disturbance sensing and a disturbance correcting component that provides compensation for disturbances caused by load shifting, movement of the platform, wind, operator movement, and the like. In addition, the robotically assisted brick laying system has a sensing and positioning component for controlling placement of the moveable platform and robotic arm assembly. The interoperability of the system with a mason or skilled operator removes much of the manual labor component of brick laying, allowing the mason more time to focus on craftsmanship and quality, thus improving the end product and the overall working conditions of the mason.Type: ApplicationFiled: December 1, 2014Publication date: March 26, 2015Inventors: Scott Lawrence Peters, Nathan Podkaminer, Thomas Charles Coller
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Patent number: 8965571Abstract: A brick laying system where an operator such as a mason works proximate a moveable platform having a robotic arm assembly, a mortar applicator with a mortar transfer device, and a brick transfer device to build structures. The robotically assisted brick laying system may also contain a stabilizer having a disturbance sensing and a disturbance correcting component that provides compensation for disturbances caused by load shifting, movement of the platform, wind, operator movement, and the like. In addition, the robotically assisted brick laying system has a sensing and positioning component for controlling placement of the moveable platform and robotic arm assembly. The interoperability of the system with a mason or skilled operator removes much of the manual labor component of brick laying, allowing the mason more time to focus on craftsmanship and quality, thus improving the end product and the overall working conditions of the mason.Type: GrantFiled: August 10, 2011Date of Patent: February 24, 2015Assignee: Construction Robotics, LLCInventors: Scott Lawrence Peters, Nathan Podkaminer, Thomas Charles Coller
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Patent number: 8959726Abstract: A fastening device that provides for ease of alignment and operation. The fastening device has a first locking body having a first magnet, a second locking body having a second magnet, a slider body slidably connected to a first zipper track, the first locking body affixed to the first zipper track, and the second locking body affixed to a second zipper track. The first and second locking bodies reversibly form a single element while in use through the attractive force of the first and second magnets.Type: GrantFiled: February 27, 2012Date of Patent: February 24, 2015Assignee: DNS Designs, LLCInventors: Scott Lawrence Peters, David Whitney Lyndaker, Nancy Elizabeth Peters
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Publication number: 20130061436Abstract: A Self-Aligning Zipper is disclosed that allows for one handed operation by anyone who would, otherwise use a zipper or use of the Self-Aligning Zipper by those with physical and developmental limitations or equipment such, as cold weather gloves or mittens. The proper alignment of each half of the Self-Aligning Zipper is accomplished by way of magnets of opposite polarity along with structural guide elements to ensure proper alignment and operation of the zipper.Type: ApplicationFiled: September 10, 2012Publication date: March 14, 2013Applicant: DNS Designs, LLCInventors: Scott Lawrence Peters, Nancy Elizabeth Peters, David Whitney Lyndaker
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Publication number: 20120174283Abstract: A fastening device that provides for ease of alignment and operation. The fastening device has a first locking body having a first magnet, a second locking body having a second magnet, a slider body slidably connected to a first zipper track, the first locking body affixed to the first zipper track, and the second locking body affixed to a second zipper track. The first and second locking bodies reversibly form a single element while in use through the attractive force of the first and second magnets.Type: ApplicationFiled: February 27, 2012Publication date: July 12, 2012Applicant: DNS DESIGNS, LLCInventors: Scott Lawrence Peters, David Whitney Lyndaker, Nancy Elizabeth Peters
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Publication number: 20120053726Abstract: A brick laying system where an operator such as a mason works proximate a moveable platform having a robotic arm assembly, a mortar applicator with a mortar transfer device, and a brick transfer device to build structures. The robotically assisted brick laying system may also contain a stabilizer having a disturbance sensing and a disturbance correcting component that provides compensation for disturbances caused by load shifting, movement of the platform, wind, operator movement, and the like. In addition, the robotically assisted brick laying system has a sensing and positioning component for controlling placement of the moveable platform and robotic arm assembly. The interoperability of the system with a mason or skilled operator removes much of the manual labor component of brick laying, allowing the mason more time to focus on craftsmanship and quality, thus improving the end product and the overall working conditions of the mason.Type: ApplicationFiled: August 10, 2011Publication date: March 1, 2012Inventors: Scott Lawrence Peters, Nathan Podkaminer, Stephen Jeffrey Rock, Raymond Henry Puffer, JR., Michael Robert Kleinigger, Justin Daniel Gullotta, Thomas Charles Coller