Patents by Inventor Christopher Boon
Christopher Boon 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: 20240191697Abstract: A system (50) for handling a structural member (44) of a blade (10) of a wind turbine (2), comprising a member support (52) configured for supporting the structural member (44), the member support (52) being configured to be mounted to a base (51), and a plurality of member turning devices (60) positioned along a longitudinal axis (54) of the member support (52), the plurality of member turning devices (60) being connected to the member support (52) and configured for turning the structural member (44).Type: ApplicationFiled: May 8, 2022Publication date: June 13, 2024Inventors: Christopher BOON, Søren Eg NIELSEN
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Publication number: 20230347612Abstract: A method of manufacturing a spar cap for a wind turbine blade part, comprise the steps of: providing a plurality of precured elongated fibre reinforced resin elements stacking the plurality of fibre reinforced elements, an interlayer of an elongated non-cured fibre material being arranged between successive fibre reinforced elements, thereby forming a stack of precured fibre reinforced elements, moving the stack of fibre reinforced elements to a spar cap mould comprising a mould bottom and mould side walls, arranging the stack of fibre reinforced elements in the cavity of the spar cap mould infusing resin into the stack of fibre reinforced elements in the mould allow the resin to cure and demould the stackType: ApplicationFiled: May 25, 2020Publication date: November 2, 2023Inventors: Kristen HANRAHAN, Justin HUNTER, Christopher BOON, Tanner KNOBLOCK, Jasper KNOBLOCK
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Patent number: 10919247Abstract: A method of making shear webs (16) for a wind turbine blade (10) is described. The method comprises providing an elongate male mould tool (32) having a longitudinally-extending upper mould surface (34) and a longitudinally-extending first side wall (36). A shim (40a) is provided adjacent and attached to the first side wall (36) of the mould tool (32). The shim (40a) has an inner surface (48) facing towards the first side wall (36), an outer surface (50) facing away from the first side wall (36), and an upper surface (56) defining an extension of the upper mould surface (34). A flange structure (74) is provided that comprises a flange portion and a projecting portion (78). The projecting portion (78) extends along the length of the flange portion and projects transversely from a surface of the flange portion. Fibrous reinforcing material is arranged on the upper mould surface (34).Type: GrantFiled: June 13, 2017Date of Patent: February 16, 2021Assignee: Vestas Wind Systems A/SInventors: Christopher Boon, Olav Davis
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Patent number: 10875287Abstract: A method of making a wind turbine blade having at least one pultruded strip of fibrous reinforcing material integrated with a shell of the blade is described. The method comprises the steps of: providing at a first location a feed apparatus for dispensing a pultruded strip of fibrous reinforcing material; supporting a coiled pultruded strip of fibrous reinforcing material for rotation in the feed apparatus; causing the coiled strip to rotate in the feed apparatus at the first location; and feeding a free end of the strip from the feed apparatus in a feed direction towards a second location remote from the first location. An associated feed apparatus for use in the method is also described.Type: GrantFiled: September 18, 2013Date of Patent: December 29, 2020Assignee: Vestas Wind Systems A/SInventor: Christopher Boon
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Publication number: 20190160773Abstract: A method of making shear webs (16) for a wind turbine blade (10) is described. The method comprises providing an elongate male mould tool (32) having a longitudinally-extending upper mould surface (34) and a longitudinally-extending first side wall (36). A shim (40a) is provided adjacent and attached to the first side wall (36) of the mould tool (32). The shim (40a) has an inner surface (48) facing towards the first side wall (36), an outer surface (50) facing away from the first side wall (36), and an upper surface (56) defining an extension of the upper mould surface (34). A flange structure (74) is provided that comprises a flange portion and a projecting portion (78). The projecting portion (78) extends along the length of the flange portion and projects transversely from a surface of the flange portion. Fibrous reinforcing material is arranged on the upper mould surface (34).Type: ApplicationFiled: June 13, 2017Publication date: May 30, 2019Inventors: Christopher Boon, Olav Davis
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Patent number: 10232528Abstract: A method of making a longitudinal reinforcing structure for a wind turbine blade. The method comprises a) providing an elongate master strip (62) of reinforcing material having substantially flat first and second surfaces, the distance between the first and second surfaces defining the thickness of the master strip; and b) dividing the master strip transversely to form a first strip and a shorter master strip, the respective strips being arranged end to end such that a trailing end of the first strip is located adjacent a new leading end of the master strip. The step of dividing the master strip comprises removing material from a dividing region extending through the entire thickness of the master strip, wherein the dividing region is shaped such that a chamfer (19c) at the trailing end (19b) of the first strip is created and a chamfer (63a) at the new leading end (63) of the master strip is created when the master strip is divided.Type: GrantFiled: November 10, 2014Date of Patent: March 19, 2019Assignee: Vestas Wind Systems A/SInventors: Christopher Boon, John Pedersen
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Patent number: 10160171Abstract: A method of making a wind turbine blade in a blade mould is described. The wind turbine blade comprises a plurality of elongate reinforcing structures each comprising a stack of strips of fibre-reinforced polymeric material, and the method comprises: stacking strips of fibre-reinforced polymeric material to form a plurality of stacks (40), each defining a longitudinal axis; aligning the stacks relative to one another in an alignment zone outside the blade mould; supporting the stacks to maintain their relative alignment; transferring the plurality of stacks into the blade mould simultaneously while maintaining the relative alignment of stacks as the stacks are transferred; and integrating the stacks with other blade materials forming the blade in the blade mould. An apparatus for use in the method is also described.Type: GrantFiled: November 10, 2014Date of Patent: December 25, 2018Assignee: Vestas Wind Systems A/SInventors: Anton Bech, Christopher Boon, Andrew Hedges, Anders Greve Bervang
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Publication number: 20160263843Abstract: A method of making a wind turbine blade in a blade mould is described. The wind turbine blade comprises a plurality of elongate reinforcing structures each comprising a stack of strips of fibre-reinforced polymeric material, and the method comprises: stacking strips of fibre-reinforced polymeric material to form a plurality of stacks (40), each defining a longitudinal axis; aligning the stacks relative to one another in an alignment zone outside the blade mould; supporting the stacks to maintain their relative alignment; transferring the plurality of stacks into the blade mould simultaneously while maintaining the relative alignment of stacks as the stacks are transferred; and integrating the stacks with other blade materials forming the blade in the blade mould. An apparatus for use in the method is also described.Type: ApplicationFiled: November 10, 2014Publication date: September 15, 2016Inventors: Anton Bech, Christopher Boon, Andrew Hedges, Anders Greve Bervang
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Publication number: 20160263775Abstract: A method of making a longitudinal reinforcing structure for a wind turbine blade. The method comprises a) providing an elongate master strip (62) of reinforcing material having substantially flat first and second surfaces, the distance between the first and second surfaces defining the thickness of the master strip; and b) dividing the master strip transversely to form a first strip and a shorter master strip, the respective strips being arranged end to end such that a trailing end of the first strip is located adjacent a new leading end of the master strip. The step of dividing the master strip comprises removing material from a dividing region extending through the entire thickness of the master strip, wherein the dividing region is shaped such that a chamfer (19c) at the trailing end (19b) of the first strip is created and a chamfer (63a) at the new leading end (63) of the master strip is created when the master strip is divided.Type: ApplicationFiled: November 10, 2014Publication date: September 15, 2016Applicant: Vestas Wind Systems A/SInventors: Christopher Boon, John Pedersen
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Publication number: 20150224759Abstract: A method of making a wind turbine blade having at least one pultruded strip of fibrous reinforcing material integrated with a shell of the blade is described. The method comprises the steps of: providing at a first location a feed apparatus for dispensing a pultruded strip of fibrous reinforcing material; supporting a coiled pultruded strip of fibrous reinforcing material for rotation in the feed apparatus; causing the coiled strip to rotate in the feed apparatus at the first location; and feeding a free end of the strip from the feed apparatus in a feed direction towards a second location remote from the first location. An associated feed apparatus for use in the method is also described.Type: ApplicationFiled: September 18, 2013Publication date: August 13, 2015Applicant: Vestas Wind Systems A/SInventor: Christopher Boon
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Publication number: 20040098265Abstract: A dialog management system has an incoming dialog manager (2) for receiving customer information. It automatically updates a profile database and passes data to a segmentation manager for (3) for dynamically determining a current customer segment. In real time, a segmentation decision is used by a feedback manager (10) to generate questions for the customer. Thus the managers (2, 3, 10) operate in a real time cycle involving the customer to gather data and assist the customer as if a personal service were being provided.Type: ApplicationFiled: November 5, 2003Publication date: May 20, 2004Inventors: Sean Kelly, Christopher Rogers, Murray Quarmby, Christopher Boon