Patents by Inventor Soren P. Jensen
Soren P. Jensen 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: 20220112881Abstract: A method of forming a wind turbine foundation includes providing an anchor cage in an excavation pit, the anchor cage including an upper flange, a lower flange, and a plurality of anchor bolts extending therebetween. A first cementitious material is directed into the excavation pit so that the anchor cage becomes at least partially embedded in the material, which is allowed to cure to form a rigid body. A connecting element is selectively engaged with the upper flange and an actuating element is positioned in operative relation with the connecting element, the connecting and actuating elements positioned in non-contact relation with the anchor bolts. The actuating element is actuated relative to the connecting element to raise the upper flange from the rigid body into a leveled position. A second cementitious material is directed into a space beneath the raised upper flange and is allowed to cure to form a support layer.Type: ApplicationFiled: December 20, 2021Publication date: April 14, 2022Inventors: Anders Brohm, Søren P. Jensen, Børge Øllgaard
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Patent number: 11236727Abstract: A method of forming a wind turbine foundation includes providing an anchor cage in an excavation pit, the anchor cage including an upper flange, a lower flange, and a plurality of anchor bolts extending therebetween. A first cementitious material is directed into the excavation pit so that the anchor cage becomes at least partially embedded in the material, which is allowed to cure to form a rigid body. A connecting element is selectively engaged with the upper flange and an actuating element is positioned in operative relation with the connecting element, the connecting and actuating elements positioned in non-contact relation with the anchor bolts. The actuating element is actuated relative to the connecting element to raise the upper flange from the rigid body into a leveled position. A second cementitious material is directed into a space beneath the raised upper flange and is allowed to cure to form a support layer.Type: GrantFiled: November 25, 2016Date of Patent: February 1, 2022Assignee: Vestas Wind Systems A/SInventors: Anders Brohm, Søren P. Jensen, Børge Øllgaard
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Publication number: 20200200149Abstract: A wind turbine tower is tethered by a number of cables, each cable extending between a first end anchored to an anchoring element and a second end attached to the tower at an attachment element. Two cables extending from two different anchoring elements are attached to the tower such that projection lines from the second ends of the two cables converge at a point which lies inside the tower wall thickness or within a distance of three wall thicknesses from the wall inner surface. A method of erecting a wind turbine tower includes positioning a first tower section, attaching at least some tethering cables to a second tower section while the second tower section is on the ground, lifting the second tower section with the attached cables onto the first tower section, and joining the second tower section to the first.Type: ApplicationFiled: March 4, 2020Publication date: June 25, 2020Inventors: Gunnar K. Storgaard Pedersen, Børge Øllgaard, Søren P. Jensen, Casper Lyngsø
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Patent number: 10598154Abstract: A wind turbine tower configured to support a wind turbine nacelle and a rotor, and with a tower wall of an inner surface and an outer surface. The tower is tethered by a number of cables, each cable extending between a first end anchored to an anchoring element and an opposite, second end attached to the tower at an attachment element. Two cables extending from two different anchoring elements are attached to the tower such that longitudinal projection lines from the second ends of the two cables converge at a convergence point, which lies at a location at a certain height and inside the tower wall thickness. Alternatively, the convergence point lies inside the tower within a distance of three wall thicknesses from the wall inner surface as measured at the height and in a direction perpendicular to the central longitudinal axis of the tower.Type: GrantFiled: December 16, 2015Date of Patent: March 24, 2020Assignee: Vestas Wind Systems A/SInventors: Gunnar K. Storgaard Pedersen, Borge Øllgaard, Soren P. Jensen, Casper Lyngsø
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Patent number: 10422323Abstract: A method of replacing an anchor bolt used to support a wind turbine to a foundation. The method includes providing the wind turbine and the foundation supporting the wind turbine. The foundation includes a lower base flange, at least one anchor bolt extending between the lower base flange and a lower tower flange of the wind turbine, and a rigid body at least partially formed around the at least one anchor bolt. The method further includes drilling a core in the lower tower flange and the rigid body circumferentially around the anchor bolt and removing the anchor bolt and the core to create a cavity. The method further includes inserting a replacement anchor bolt into the cavity and coupling the replacement anchor bolt to the lower base flange. The replacement anchor bolt may then be tensioned.Type: GrantFiled: February 2, 2017Date of Patent: September 24, 2019Assignee: Vestas Wind Systems A/SInventors: Ingemann Hvas Sandvad, Søren P. Jensen
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Publication number: 20180355851Abstract: A method of forming a wind turbine foundation includes providing an anchor cage in an excavation pit, the anchor cage including an upper flange, a lower flange, and a plurality of anchor bolts extending therebetween. A first cementitious material is directed into the excavation pit so that the anchor cage becomes at least partially embedded in the material, which is allowed to cure to form a rigid body. A connecting element is selectively engaged with the upper flange and an actuating element is positioned in operative relation with the connecting element, the connecting and actuating elements positioned in non-contact relation with the anchor bolts. The actuating element is actuated relative to the connecting element to raise the upper flange from the rigid body into a leveled position. A second cementitious material is directed into a space beneath the raised upper flange and is allowed to cure to form a support layer.Type: ApplicationFiled: November 25, 2016Publication date: December 13, 2018Applicant: Vestas Wind Systems A/SInventors: Anders BROHM, Søren P. JENSEN, Børge ØLLGAARD
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Publication number: 20180355853Abstract: A method of replacing an anchor bolt used to support a wind turbine to a foundation. The method includes providing the wind turbine and the foundation supporting the wind turbine. The foundation includes a lower base flange, at least one anchor bolt extending between the lower base flange and a lower tower flange of the wind turbine, and a rigid body at least partially formed around the at least one anchor bolt. The method further includes drilling a core in the lower tower flange and the rigid body circumferentially around the anchor bolt and removing the anchor bolt and the core to create a cavity. The method further includes inserting a replacement anchor bolt into the cavity and coupling the replacement anchor bolt to the lower base flange. The replacement anchor bolt may then be tensioned.Type: ApplicationFiled: February 2, 2017Publication date: December 13, 2018Inventors: Ingemann Hvas Sandvad, Søren P. Jensen
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Publication number: 20180003158Abstract: A wind turbine tower configured to support a wind turbine nacelle and a rotor, and with a tower wall of an inner surface and an outer surface. The tower is tethered by a number of cables, each cable extending between a first end anchored to an anchoring element and an opposite, second end attached to the tower at an attachment element. Two cables extending from two different anchoring elements are attached to the tower such that longitudinal projection lines from the second ends of the two cables converge at a convergence point, which lies at a location at a certain height and inside the tower wall thickness. Alternatively, the convergence point lies inside the tower within a distance of three wall thicknesses from the wall inner surface as measured at the height and in a direction perpendicular to the central longitudinal axis of the tower.Type: ApplicationFiled: December 16, 2015Publication date: January 4, 2018Inventors: Gunnar K. Storgaard Pedersen, Borge Øllgaard, Soren P. Jensen, Casper Lyngsø
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Patent number: 9683556Abstract: A method of damping oscillations in a wind turbine tower comprises connecting a bag of material or liquid to a tower component at a first lateral distance away from a tower wall. The bag is also suspended from the tower component by a first vertical distance. The height of the tower component is known such that the first vertical distance corresponds to a particular height within the tower. The first lateral distance, first vertical distance, and mass of the bag are such that the bag is configured to hit said tower wall during oscillations in said wind turbine tower, in order to damp said oscillations in said wind turbine tower.Type: GrantFiled: October 20, 2014Date of Patent: June 20, 2017Assignee: Vestas Wind Systems A/SInventors: Borge Ollgaard, Soren P. Jensen
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Patent number: 9657717Abstract: The present invention relates to wind turbine towers and in particular to such towers having a damper for use when erecting the tower and prior to installing a nacelle on the top of the tower. The invention also relates to a method for damping wind turbine towers.Type: GrantFiled: June 11, 2014Date of Patent: May 23, 2017Assignee: Vestas Wind Systems A/SInventors: Borge Ollgaard, Soren P. Jensen
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Publication number: 20160252079Abstract: A method of damping oscillations in a wind turbine tower comprises connecting a bag of material or liquid to a tower component at a first lateral distance away from a tower wall. The bag is also suspended from the tower component by a first vertical distance. The height of the tower component is known such that the first vertical distance corresponds to a particular height within the tower. The first lateral distance, first vertical distance, and mass of the bag are such that the bag is configured to hit said tower wall during oscillations in said wind turbine tower, in order to damp said oscillations in said wind turbine tower.Type: ApplicationFiled: October 20, 2014Publication date: September 1, 2016Inventors: Borge Ollgaard, Soren P. Jensen
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Publication number: 20160123303Abstract: The present invention relates to wind turbine towers and in particular to such towers having a damper for use when erecting the tower and prior to installing a nacelle on the top of the tower. The invention also relates to a method for damping wind turbine towers. One aspect of the invention involves a wind turbine tower (2) with an upper tower structure (24) and a damper (5) comprising, —a liquidless damper housing (7,8) fixed to the upper structure, —a cylindrical interior surface of the damper housing, and—a damper mass having a horizontal extent which is less than a horizontal extent of the cylindrical interior surface of the damper housing, and—at least one shock absorbing structure, where the damper mass is arranged to, when the tower oscillates, essentially stay in a standstill location, whereby a relative movement between the tower and the damper mass may cause an impact with between the tower mass and the shock absorbing structure dependent on the magnitude of the amplitude of the tower oscillation.Type: ApplicationFiled: June 11, 2014Publication date: May 5, 2016Applicants: Vestas Wind Systems A/S, Vestas Wind Systems A/SInventors: Borge Ollgaard, Soren P. Jensen
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Patent number: 7963740Abstract: A wind energy converter includes a wind turbine, a wind turbine foundation including a strengthening structure, and a temperature control mechanism for controlling the temperature of one or more areas of the wind turbine. The wind energy converter is characterized in that at least a part of the temperature control mechanism adjoins the strengthening structure. Also contemplated is a wind turbine foundation including a strengthening structure. The wind turbine foundation is characterized in that the foundation includes at least a part of a temperature control mechanism for heat exchanging with one or more areas of a wind turbine and in that at least a part of the temperature control mechanism adjoins the strengthening structure. Even further contemplated is a method for controlling the temperature of one or more areas of a wind turbine and use of a wind turbine foundation.Type: GrantFiled: May 4, 2009Date of Patent: June 21, 2011Assignee: Vestas Wind Systems A/SInventors: Gerner Larsen, Niels Martin Henriksen, Jan Bjerre Christensen, Søren P. Jensen
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Patent number: 7802412Abstract: In order to transport large size windmill towers, the invention suggests a steel tower (1) for a windmill, comprising a number of cylindrical or tapered tower sections (2), at least the wider sections (2) of which being subdivided into two or more elongated shell segments (3), which combine into a complete tower section (2) by means of vertical flanges (6) tightened together, e.g., by bolts (10), said shells being also provided with upper and lower horizontal flanges (4), respectively, to allow interconnection of tower sections (2) one on top of the other.Type: GrantFiled: March 19, 2003Date of Patent: September 28, 2010Assignee: Vestas Wind Systems A/SInventor: Søren P. Jensen
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Publication number: 20100008776Abstract: A wind energy converter includes a wind turbine, a wind turbine foundation and a temperature control mechanism for controlling the temperature of one or more areas of the wind turbine. The temperature control mechanism including a mechanism for exchanging heat. The wind energy converter is characterized in that the mechanism for exchanging heat is positioned in the ground outside the foundation. Also contemplated is a method for controlling the temperature of one or more areas of a wind energy converter and use thereof.Type: ApplicationFiled: May 1, 2009Publication date: January 14, 2010Inventors: Gerner Larsen, Niels Martin Henriksen, Jan Bjerre Christensen, Soren P. Jensen
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Publication number: 20090212575Abstract: A wind energy converter includes a wind turbine, a wind turbine foundation including a strengthening structure, and a temperature control mechanism for controlling the temperature of one or more areas of the wind turbine. The wind energy converter is characterized in that at least a part of the temperature control mechanism adjoins the strengthening structure. Also contemplated is a wind turbine foundation including a strengthening structure. The wind turbine foundation is characterized in that the foundation includes at least a part of a temperature control mechanism for heat exchanging with one or more areas of a wind turbine and in that at least a part of the temperature control mechanism adjoins the strengthening structure. Even further contemplated is a method for controlling the temperature of one or more areas of a wind turbine and use of a wind turbine foundation.Type: ApplicationFiled: May 4, 2009Publication date: August 27, 2009Inventors: Gerner Larsen, Niels Martin Henriksen, Jan Bjerre Christensen, Soren P. Jensen