Patents by Inventor Dennis André Borsting
Dennis André Borsting 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: 11858227Abstract: A method of manufacturing a wind turbine blade shell part is described. Fibre mats and a root end insert are laid up in a mould part in a layup procedure by use of an automated layup system. The fibre mats are laid up by use of a buffer so that the fibre mats may continuously be laid up on the mould surface, also during a cutting procedure. The root end insert is prepared in advance and mounted on a mounting plate. The root end insert is lowered onto the mould by use of the mounting plate and a lowering mechanism. After the wind turbine blade shell has been moulded, the mounting plate is removed.Type: GrantFiled: December 28, 2021Date of Patent: January 2, 2024Assignee: LM WP PATENT HOLDING A/SInventors: Dennis Andre Borsting, Ivan Engmark Mortensen, Lars Fuglsang, Per Kjaer Christiansen
-
Publication number: 20220118726Abstract: A method of manufacturing a wind turbine blade shell part is described. Fibre mats and a root end insert are laid up in a mould part in a layup procedure by use of an automated layup system. The fibre mats are laid up by use of a buffer so that the fibre mats may continuously be laid up on the mould surface, also during a cutting procedure. The root end insert is prepared in advance and mounted on a mounting plate. The root end insert is lowered onto the mould by use of the mounting plate and a lowering mechanism. After the wind turbine blade shell has been moulded, the mounting plate is removed.Type: ApplicationFiled: December 28, 2021Publication date: April 21, 2022Inventors: Dennis Andre BORSTING, Ivan Engmark MORTENSEN, Lars FUGLSANG, Per Kjaer CHRISTIANSEN
-
Patent number: 11260610Abstract: A method of manufacturing a wind turbine blade shell part is described. Fibre mats and a root end insert are laid up in a mould part in a layup procedure by use of an automated layup system. The fibre mats are laid up by use of a buffer so that the fibre mats may continuously be laid up on the mould surface, also during a cutting procedure. The root end insert is prepared in advance and mounted on a mounting plate. The root end insert is lowered onto the mould by use of the mounting plate and a lowering mechanism. After the wind turbine blade shell has been moulded, the mounting plate is removed.Type: GrantFiled: September 27, 2018Date of Patent: March 1, 2022Assignee: LM WP PATENT HOLDING A/SInventors: Dennis Andre Borsting, Ivan Engmark Mortensen, Lars Fuglsang, Per Kjaer Christiansen
-
Patent number: 11241847Abstract: A method of manufacturing a wind turbine blade shell part is described. Fibre mats and a root end insert are laid up in a mould part in a layup procedure by use of an automated layup system. The fibre mats are laid up by use of a buffer so that the fibre mats may continuously be laid up on the mould surface, also during a cutting procedure. The root end insert is prepared in advance and mounted on a mounting plate. The root end insert is lowered onto the mould by use of the mounting plate and a lowering mechanism. After the wind turbine blade shell has been moulded, the mounting plate is removed.Type: GrantFiled: September 27, 2018Date of Patent: February 8, 2022Assignee: LM WP PATENT HOLDING A/SInventors: Dennis Andre Borsting, Ivan Engmark Mortensen, Lars Fuglsang, Per Kjaer Christiansen
-
Publication number: 20190022960Abstract: A method of manufacturing a wind turbine blade shell part is described. Fibre mats and a root end insert are laid up in a mould part in a layup procedure by use of an automated layup system. The fibre mats are laid up by use of a buffer so that the fibre mats may continuously be laid up on the mould surface, also during a cutting procedure. The root end insert is prepared in advance and mounted on a mounting plate. The root end insert is lowered onto the mould by use of the mounting plate and a lowering mechanism. After the wind turbine blade shell has been moulded, the mounting plate is removed.Type: ApplicationFiled: September 27, 2018Publication date: January 24, 2019Inventors: Dennis Andre BORSTING, Ivan Engmark MORTENSEN, Lars FUGLSANG, Per Kjaer CHRISTIANSEN
-
Publication number: 20190022959Abstract: A method of manufacturing a wind turbine blade shell part is described. Fibre mats and a root end insert are laid up in a mould part in a layup procedure by use of an automated layup system. The fibre mats are laid up by use of a buffer so that the fibre mats may continuously be laid up on the mould surface, also during a cutting procedure. The root end insert is prepared in advance and mounted on a mounting plate. The root end insert is lowered onto the mould by use of the mounting plate and a lowering mechanism. After the wind turbine blade shell has been moulded, the mounting plate is removed.Type: ApplicationFiled: September 27, 2018Publication date: January 24, 2019Inventors: Dennis Andre BORSTING, Ivan Engmark MORTENSEN, Lars FUGLSANG, Per Kjaer CHRISTIANSEN
-
Patent number: 10118352Abstract: A method of manufacturing a wind turbine blade shell part is described. Fiber mats and a root end insert are laid up in a mould part in a layup procedure by use of an automated layup system. The fiber mats are laid up by use of a buffer so that the fiber mats may continuously be laid up on the mould surface, also during a cutting procedure. The root end insert is prepared in advance and mounted on a mounting plate. The root end insert is lowered onto the mould by use of the mounting plate and a lowering mechanism. After the wind turbine blade shell has been moulded, the mounting plate is removed.Type: GrantFiled: May 31, 2013Date of Patent: November 6, 2018Assignee: LM WP Patent Holdings A/SInventors: Dennis Andre Borsting, Ivan Engmark Mortensen, Lars Fuglsang, Per Kjaer Christiansen
-
Patent number: 9381705Abstract: A method of manufacturing fiber-reinforced parts, such as blades, for wind power plants, whereby a number of layers (10) of material comprising fiber, such as glass fiber mats, are arranged on a curved surface (5) of an elongated (5) open mold (1) wherein each layer (10) of material is arranged on said curved surface (5) as pre-shaped mats (10) having a form substantially corresponding to an intended area of application such that any need for further modification of or cutting in said material is substantially eliminated.Type: GrantFiled: November 11, 2009Date of Patent: July 5, 2016Assignee: LM GLASFIBER A/SInventors: Dennis André Børsting, Qinyin Zhou, Jacobus Johannes Van Der Zee
-
Publication number: 20160176127Abstract: A method of manufacturing a wind turbine blade shell part is described. Fibre mats and a root end insert are laid up in a mould part in a layup procedure by use of an automated layup system. The fibre mats are laid up by use of a buffer so that the fibre mats may continuously be laid up on the mould surface, also during a cutting procedure. The root end insert is prepared in advance and mounted on a mounting plate. The root end insert is lowered onto the mould by use of the mounting plate and a lowering mechanism. After the wind turbine blade shell has been moulded, the mounting plate is removed.Type: ApplicationFiled: May 31, 2013Publication date: June 23, 2016Inventors: Dennis Andre BORSTING, Ivan Engmark MORTENSEN, Lars FUGLSANG, Per Kjaer CHRISTIANSEN
-
Patent number: 9293861Abstract: The present subject matter concerns a method and an apparatus for cutting fiber mats where the cutting is effected with a mechanical automatic tool, where cutting of the fiber mat is effected so that the cut surface on the fiber mat can be varied from an angle greater than 0° to an angle less than 180° in relation to both surfaces on the fiber mat, where it is the variable position of the fiber mat relative to the direction of movement and cutting of the cutting tool that determines the angle of the cut. A fiber mat may be cut with a cut which is particularly adapted to the specific piece of fiber mat which is cut. It is thus possible to have a production where various requirements to cut faces in the fiber mats can be met.Type: GrantFiled: January 16, 2008Date of Patent: March 22, 2016Assignee: LM Glasfiber A/SInventor: Dennis André Børsting
-
Patent number: 9283725Abstract: Manufacturing line for manufacturing wind turbine blades having a composite shell structure comprising a matrix material and a fiber reinforcement material by use of a resin transfer molding process is used to assemble wind turbine blades formed in a number of molds, including at least a first mold part having a first mold cavity. A gantry moves along the manufacturing line, in which the manufacture includes a) arranging fiber reinforcement material in the first mold cavity of a first mold using the gantry means, b) moving the gantry means along the manufacturing line to a second mold, c) supplying curable matrix material into the first mold cavity of the first mold, while substantially simultaneously arranging fiber reinforcement material in the first mold cavity of a second mold using the gantry means. The manufacturing line comprises a plurality of molds for forming wind turbine blades.Type: GrantFiled: November 22, 2013Date of Patent: March 15, 2016Assignee: LM GLASFIBER A/SInventors: Dennis Andre Borsting, Quinyin Zhou, Jacobus Johannes Van Der Zee
-
Patent number: 8617338Abstract: A method and a manufacturing line for manufacturing wind turbine blades having a composite shell structure comprising a matrix material and a fiber reinforcement material by use of a resin transfer moulding process. The method comprises a manufacturing line, where wind turbine blades are formed in a number of moulds. Each number of moulds comprising at least a first mould part comprising a first mould cavity. The manufacturing line further comprises a gantry means movable along the manufacturing line. The method comprises the following steps: a) arranging fiber reinforcement material in the first mould cavity of a first mould using the gantry means, b) moving the gantry means along the manufacturing line to a second mould, c) supplying curable matrix material into the first mould cavity of the first mould, while substantially simultaneously arranging fiber reinforcement material in the first mould cavity of a second mould using the gantry means.Type: GrantFiled: March 5, 2010Date of Patent: December 31, 2013Assignee: LM Glasfiber A/SInventors: Dennis André Børsting, Qinyin Zhou, Jacobus Johannes van der Zee
-
Publication number: 20110277929Abstract: A method of manufacturing fibre-reinforced parts, such as blades, for wind power plants, whereby a number of layers (10) of material comprising fibre, such as glass fibre mats, are arranged on a curved surface (5) of an elongated (5) open mould (1) wherein each layer (10) of material is arranged on said curved surface (5) as pre-shaped mats (10) having a form substantially corresponding to an intended area of application such that any need for further modification of or cutting in said material is substantially eliminated.Type: ApplicationFiled: November 11, 2009Publication date: November 17, 2011Applicant: LM GLASFIBER A/SInventors: Dennis André Børsting, Qinyin Zhou, Jacobus Johannes Van Der Zee
-
Publication number: 20110259511Abstract: A method for monitoring and controlling that a plurality of layers (2) of material comprising fibre for the manufacturing of a part are located correctly in a mould (1) for said part and/or correctly relative to each other in said mould, comprises determining the position in the mould of each marking (7) on each layer (2) of fibre material and/or the positions of the markings on different layers of fibre material relative to each other, comparing the determined position in the mould (1) of each marking (7) on each layer (2) of fibre material and/or the positions of the markings on said different layers of fibre material relative to each other with predetermined reference positions for said markings for the part to be manufactured, and performing correction of the position of that or those layers (2) of fibre material for which the determined positions for the markings (7) thereon and the predetermined reference positions for said markings do not correspond with each other.Type: ApplicationFiled: November 11, 2009Publication date: October 27, 2011Applicant: LM GLASFIBER A/SInventors: Dennis André Børsting, Qinyin Zhou, Jacobus Johannes Van Der Zee
-
Publication number: 20100058904Abstract: The present invention concerns a method and an apparatus for cutting fibre mats, preferably from a roll, where the cutting is effected with a mechanical automatic tool, where cutting of the fibre mat is effected so that the cut surface on the fibre mat can be varied from an angle greater than 0° to an angle less than 180° in relation to both surfaces on the fibre mat, where it is the variable position of the fibre mat relative to the direction of movement and cutting of the cutting tool that determines the angle of the cut. By a method or an apparatus according to the above, a fibre mat may be cut with a cut which is particularly adapted to the specific piece of fibre mat which is cut. It is thus possible to have a production where various requirements to cut faces in the fibre mats can be met.Type: ApplicationFiled: January 16, 2008Publication date: March 11, 2010Applicant: LM GLASFIBER A/SInventor: Dennis André Borsting