| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 410044000 | Accommodation of article which is massive relative to freight carrier | 34 |
| 20090304475 | SYSTEM AND METHOD FOR TRANSPORTING WIND TURBINE TOWER SECTIONS ON A SHIPPING VESSEL - In a system and method for transporting wind turbine tower sections on a shipping vessel a pair of support members is secured to a first wind turbine tower section generally at opposite ends of the first tower section. Another pair of support members is secured to a second wind turbine tower section generally at opposite ends of the second tower section. A pair of elongate mounting members is secured on a support surface of the shipping vessel in spaced relationship with each other. One of the support members of the first tower section and one of the support members of the second tower section are secured to one of the elongate mounting members. The other one of the support members of the first tower section and the other one of the support members of the second tower section are secured to the other one of the elongate mounting members. | 12-10-2009 |
| 20100021256 | Transport and assembly vehicle for a component module - A transport and assembly vehicle for a component module such as an aircraft engine includes a mobile platform which includes support arm structures on which the component module is situated during conveyance and while maintenance work is performed, and which are movable relative to the platform in such a manner that they may assume at least two positions, namely an active position in which they hold the component module, and an inactive position in which they release the component module; the support arm structures of the movable platform include receiving adapters, and the receiving adapters are situated in such a manner that their position is changeable in the longitudinal and transverse directions of the movable platform, so that the transport and assembly vehicle may be used to transport component modules of highly diverse sizes. | 01-28-2010 |
| 20100111633 | Support System for a Wind Turbine Component, a Vehicle Transport System for a Wind Turbine Component and a Method for Operating a Support System - The invention relates to a support system for a wind turbine component with a rigid structure such as a wind turbine nacelle or a section of a wind turbine tower. The support system comprises a plurality of engagement mechanisms ( | 05-06-2010 |
| 20100143062 | APPARATUS AND METHOD FOR TRANSPORTING AND ALIGNING WIND TURBINE ROTOR BLADE - An apparatus and method to facilitate transporting and aligning a multiple piece wind turbine rotor blade including a root piece and a tip piece. The apparatus includes a first portion configured to support a first end portion of the root piece and a second portion pivotally coupled to the first portion. The second portion is configured to support a first end portion of the tip piece. | 06-10-2010 |
| 20100221084 | TRANSPORT VEHICLE FOR A ROTOR BLADE OF A WIND-ENERGY TURBINE - The invention is relative to a transport vehicle with a tractor and a trailer that are connected to one another during the transport of cargo by the cargo itself. The invention has the problem of making a transport vehicle available that also makes possible the transport on highways of very bulky material, especially such material that exceeds the usual profile height of underpasses and bridges (freeway bridges, etc.). A transport vehicle for a rotor blade of a wind power system with a tractor and a trailer that are connected to one another during the transport of the rotor blade by the rotor blade and that respectively comprise a holding device and/or receiving device for the rotor blade which holding device and/or receiving device is/are designed in such a manner that it/they permit(s) a rotation of the rotor blade about its longitudinal axis and that a drive for rotating the rotor blade is provided on the tractor and/or the trailer. | 09-02-2010 |
| 20110097171 | Large Tower Railroad Transportation System and Method - A system for transporting tower with a first end, a second end, and an elongated portion, using a railcar with a deck for carrying a load. The system includes a first support means for disposition between the railcar and the tower at a first location, and that is adapted to support the tower above the deck. The system also includes a first saddle assembly with a base for resting upon the deck of the railcar, and a saddle that conforms to the shape of a large tower. The saddle assembly is adapted to support the tower above the deck. The system also includes a spacer assembly, for disposition between the saddle of the first saddle assembly and a second location along the elongated portion of the tower, and that has a saddle rest that conforms to the shaped of the saddle, and that has a spacer saddle that conforms to the shape of the elongated portion of the tower at the second location. | 04-28-2011 |
| 20110129314 | CLAMP ASSEMBLY - A clamp assembly for supporting multiple elongate rails in a rail tie-down car utilizes spring-loaded, hydraulically actuated clamp assemblies to clamp individual rails to the tie-down car. Each clamp assembly incorporates at least two clamp members which act opposite one another to prevent the rail secured in place by the clamps from sliding in either longitudinal direction. | 06-02-2011 |
| 20110135417 | SYSTEM AND METHOD FOR ARRANGING WIND TURBINE BLADES - A system for arranging wind turbine blades includes first and second root cradles and a first support proximate to the second root cradle. A first tip cradle is rotatably connected to the first support, and a second tip cradle is proximate to the first root cradle. A method for arranging wind turbine blades includes transferring a first wind turbine blade proximate to a first root cradle and rotating the first wind turbine blade at least 90 degrees so that the first wind turbine blade is angled approximately 20 to 90 degrees with respect to a horizon. The method further includes transferring a second wind turbine blade proximate to a second root cradle and nesting the second wind turbine blade with the first wind turbine blade. | 06-09-2011 |
| 20110176882 | HEADER TRAILER - A trailer apparatus for transporting a harvest header has a main beam on wheels. A bed assembly is pivotally attached to the main beam above the main beam such that when one side of the bed assembly moves up, an opposite side moves down. The bed assembly is supported at a desired tilt angle by adjustable tilt. The bed assembly includes a movable side extension along one side that is movable through a range from an extended position to a retracted position and can be releasably locked in the range. The tilt angle can be adjusted independently of the position of the side extension. A middle portion of the main beam and bed assembly can be laterally offset to form a recess to accommodate lift arms of a self propelled swather when the swather header is loaded on the bed assembly. | 07-21-2011 |
| 20110293385 | VEHICLE ADAPTED TO CARRY ELONGATE CARGO - A vehicle adapted to carry elongate cargo includes, but is not limited to, a body having a cargo support surface having a first opening. A first support member is housed within the first opening and is configured to move inwardly and outwardly with respect to the first opening. A first restraining member is connected to the first support member and oriented generally transversely thereto. The first restraining member is configured to move towards and away from the cargo support surface as the first support member moves inwardly and outwardly with respect to the first opening, and to compress the elongate cargo against the cargo support surface. The body is configured to engage the first support member and to inhibit the first support member from moving away from the body. The first restraining member and the cargo support surface cooperate to restrain the elongate cargo. | 12-01-2011 |
| 20120114443 | TRANSPORT APPARATUS - The present disclosure concerns a transport apparatus for transporting a rotor blade of a wind power installation on a transport vehicle comprising a plurality of successively arranged and pivotably interconnected wagon elements. The transport apparatus may include a blade root carrier adapted to attach to a first wagon element for carrying the rotor blade in a region of a rotor blade root thereof on the first wagon element, a central carrier adapted to attach to a second wagon element for carrying the rotor blade in a central region thereof on the second wagon element, and a blade tip damper for making an elastic connection between a third wagon element and the rotor blade in a region of a rotor blade tip thereof for damping oscillations of the rotor blade tip. | 05-10-2012 |
| 20120148361 | ARRANGEMENT AND METHOD FOR TRANSPORTING A WIND TURBINE ROTOR - An arrangement for transporting a rotor of a wind turbine at sea is provided. The arrangement includes a vessel having a deck. Moreover, the arrangement includes at least one rotor including a hub and at least one blade affixed to the hub. The hub is positioned on the deck in such a way that the at least one blade is at least partially located above the sea surface and that the center axis of the hub is tilted in relation to the deck so as to increase the distance between the at least one blade and the sea surface. Furthermore, a method for transporting a wind turbine rotor at sea on a vessel having a deck is also provided. | 06-14-2012 |
| 20120148362 | Transport System for Heavy-Duty Equipment - A green transport system includes a bogie system having forwardly disposed and rearwardly disposed bogies in which the rearwardy disposed bogie includes a front bogie and a rear bogie interconnected to the front bogie by a telescopic beam assembly for selective incremental retractable extension so that the bogies are disposed in a plurality of transport modes for load bearing exceptionally high tonnage heavy-duty tracked equipment, particularly crushers without disassembly of the crusher; the exceptionally high tonnage crusher being transported as a single unit, with resultant fuel and energy conservation and greenhouse gas emission reduction, and the elimination of a pre-crushing operation. | 06-14-2012 |
| 20130121780 | TRANSPORT VEHICLE FOR ROTOR BLADES AND/OR TOWER SEGMENTS OF WIND POWER PLANTS AND TRANSPORT RACK FOR A TRANSPORT VEHICLE - There is provided a transport vehicle for transporting wind power installation rotor blades and/or pylon segments. The transport vehicle has a transport support structure having a main frame, a receiving frame fixedly connected to the main frame at a first angle, and a rotary displacement unit which is fixed with one end to the receiving frame and which at its second end has a blade adaptor for receiving a rotor blade or a pylon segment. The main frame spans a main plane. The rotary displacement unit has at least one first rotary mounting, wherein there is provided a second angle between the second rotary plane of the second rotary mounting. | 05-16-2013 |
| 20130142585 | SHIPPING SUPPORTS FOR TAPERED ELONGATED STRUCTURES - A support saddle ( | 06-06-2013 |
| 20130216325 | SHIPPING FIXTURE AND METHOD FOR TRANSPORTING ROTOR BLADES - A shipping fixture and method for transporting a rotor blade are disclosed. The shipping fixture is configured for stacking thereon of an adjacent shipping fixture. The shipping fixture includes a first frame comprising a first support member and a first nesting feature. The first frame is further configured for stacking thereon of the adjacent shipping fixture. The shipping fixture further includes a second frame comprising a second support member, a second nesting feature, and a mounting feature. The second nesting feature mates with the first nesting feature to removably nest the second frame to the first frame at least partially within the first frame. The mounting feature is configured for mounting of the rotor blade thereon. | 08-22-2013 |
| 20130236263 | RAIL AND TRUCK TOWER TRANSPORT SYSTEM - The presented embodiments provide a system ( | 09-12-2013 |
| 20130315685 | TRANSPORTATION OF WIND TURBINE BLADES, IN PARTICULAR ALONG CURVED ROADS - A system for supporting a blade for a wind turbine, in particular a wind turbine blade having a curved portion is described. The system includes a first support arrangement with (a) a root support element adapted to support a root portion of the blade such that the root portion is rotatable about a longitudinal axis of the blade, and (b) a root elevation element adapted to adjust a vertical position of the root support element. Further, a transport vehicle for transporting a blade for a wind turbine is provided. The transport vehicle includes (a) a front platform, (b) a rear platform, and (c) a system as described above, wherein the first support arrangement is mounted at the front platform and the second support arrangement is mounted at the rear platform. Furthermore, a method of transporting a wind turbine blade having a curved portion is described. | 11-28-2013 |
| 20140050547 | ROTOR BLADE TRANSPORTATION SYSTEM - A transportation system is disclosed for transporting a rotor blade having a first end and a second end defining a rotor blade length. The transportation system includes a truck configured to transport the rotor blade, the truck including a bed having a forward end and a distal end defining a bed length. The transportation system further includes a first fixture configured on the bed, the first fixture comprising a generally arcuate guide member and a support frame slidable along the guide member, the support frame configured to support the rotor blade. The transportation system further includes a second fixture configured on the bed for one of slidable support or rotatable support of the rotor blade. Movement of at least one of the first fixture or the second fixture rotates the rotor blade within a plane defined by the bed. | 02-20-2014 |
| 20140064870 | TRANSPORT SYSTEM FOR A WIND TURBINE BLADE - A transport system for a wind turbine blade is provided. The transport system is configured for increasing a curvature of the wind turbine blade in response to an obstacle during transport of the wind turbine blade. Further, a method for transporting a wind turbine blade in order to avoid obstacles is provided. | 03-06-2014 |
| 20140072382 | Transport System For Large Items - A transport system for transporting large items wherein the large items comprise at least three through going holes and said system comprises a frame to support the items. Said frame has a substantially rectangular shape and comprises two parallel longitudinal beams connected by two parallel transverse beams and further comprises at least two transverse support bars to support the items, which transverse support bars are located between the two parallel transverse beams. The transport system further comprises a first and a second rod to be mounted in two through going holes in the items where each end of the first and second rod can be connected to the longitudinal beams to secure the items to the frame in such a way that no part of the large items extends over the rectangle defined by the two parallel longitudinal beams and the two parallel transverse beams. | 03-13-2014 |
| 20140255119 | CLAMP ASSEMBLY - A clamp assembly for supporting multiple elongate rails in a rail tie-down car utilizes spring-loaded, hydraulically actuated clamp assemblies to clamp individual rails to the tie-down car. Each clamp assembly incorporates at least two clamp members which act opposite one another to prevent the rail secured in place by the clamps from sliding in either longitudinal direction. | 09-11-2014 |
| 20140348608 | Position-securing mechanism and device unit equipped therewith - A position-securing mechanism and a device unit equipped therewith for securing a working device to a trailer is designed to the working device is attachable to a working machine via a coupling device. The position-securing mechanism is formed with a sensor designed to detect a coupled state and a decoupled state of the coupling device, a receiving device having first and second functional sections provided on a first longitudinal side of the trailer or the working device, a locking device that is brought into a locked state in which this locking device prevents the release of the engagement of the functional sections and into an unlocked state in which this locking device permits the release of this engagement and a drive device connected to the sensor and driven thereby. | 11-27-2014 |
| 20150037112 | PROTECTIVE CAP FOR A ROTOR BLADE - A protective cap for a trailing edge of a rotor blade of a wind turbine for use during transportation, handling, or maintenance of the rotor blade is disclosed. The protective cap includes a body having a first leg, a second leg, and a cap member. The cap member connects the first and second legs. Further, the cap member may be configured to cover at least a portion of a trailing edge of the rotor blade and may be configured to provide a gap between an inner surface of the protective cap and the trailing edge. In addition, the first and second legs may resiliently engage the rotor blade. | 02-05-2015 |
| 20150337799 | BLADE TIP CLAMP ARRANGEMENT - A blade tip clamp arrangement configured to support a wind turbine rotor blade, including at least a tip clamp assembly configured to hold the rotor blade along an airfoil portion of the rotor blade, and a pivot connection interface configured to pivotably connect the tip clamp assembly to a wheeled transport means, is provided. A rotor blade transport and storage arrangement configured for the storage and transport of a wind turbine rotor blade, and a method of handling a wind turbine rotor blade during transport and storage is also provided. | 11-26-2015 |
| 20160201644 | DEVICE AND METHOD FOR TRANSPORTING AND STORING A WIND TURBINE BLADE | 07-14-2016 |
| 410045000 | Stowed as bridge between trucks or across cars or on drop-center (schnabel type) car | 8 |
| 20090274529 | Blade transportation - Transportation tooling of the type that borders the blade at its root and at an intermediate point. This tooling is used in combination with platforms placed on the transportation elements and said platforms can move transversely and turn or rotate with respect to the means of transportation without affecting blade integrity. A method for blade transportation with the point of one blade facing the point of the adjacent blade so as to use the minimum space on the means of transportation. The rail tooling takes into account the maximum corner radius that the train will encounter while absorbing the bending and torsion stress acting on the blades. | 11-05-2009 |
| 20130343827 | APPARATUS FOR RAILROAD TRANSPORTATION OF WIND TURBINE BLADES - An apparatus ( | 12-26-2013 |
| 20140169903 | System and Method for Modularization of a Schnabel Car - A system and method for modularization of a Schnabel car is disclosed herein. Specifically disclosed is a modular Schnabel car comprising two Schnabel sections, each connectable to and capable of supporting a load. The Schnabel sections can comprise a Schnabel arm comprising an arm base and arm end, in which the end is connectable to the load. Furthermore, the Schnabel sections can comprise a load spreader having a spreader apex and a plurality of spreader bases and a first quick connect system that connects the arm base to a spreader apex. The load spreader can comprise a span bolster. The first quick connect system can comprise a first connector connected to the arm base and a second connector attached to a spreader apex. The first connector can be mateable with the second connector. | 06-19-2014 |
| 20140169904 | System and Method for Modularization of a Schnabel Car - An improved Schnabel car is described herein. Specifically disclosed is an improved Schnabel car comprising two Schnabel sections connectable to and capable of supporting a load. The Schnabel sections can comprise said Schnabel a Schnabel arm comprising an arm base and an arm end connectable to a load. The improved Schnabel car can also additionally comprise a load spreader having a spreader apex and a plurality of spreader bases, where the spreader apex connects the arm base to the spreader apex. Furthermore, the improved Schnabel car can comprise span bolsters having a bolster apex, each of which can be connected to at least one of the spreader bases, and bolster bases, each of which can be connected to bolster rail cars with bolster rails together comprising more than 36 axles. | 06-19-2014 |
| 20140286723 | Wind Turbine Blade Railroad Transportation System and Method - A system for transporting an airfoil over a railroad utilizing a first railcar coupled to a second railcar. The system includes a root bracket that supports a root end of the airfoil on the first railcar, and is oriented to align a tip end of the airfoil toward the second railcar. A blade support is fixed to the second railcar and is disposed to support the airfoil along its midsection. A weight is hung from a tension member on the second railcar such that the force of gravity induces tension forces along the tension member. An urging member is disposed on the second railcar and oriented to engage the airfoil between the blade support and the tip end of the airfoil. The urging member is coupled to the tension member such that the tension forces are transferred to the urging member to induce lateral forces against the airfoil. | 09-25-2014 |
| 20140369779 | METHOD FOR TRANSPORTING A CURVED WIND TURBINE BLADE AND ASSOCIATED TRANSPORTATION DEVICE - A method of transporting a wind turbine blade with a curved central longitudinal axis includes loading the wind turbine blade onto a transportation device including first and second support bearings. The wind turbine blade is loaded in a first orientation in which the curved central longitudinal axis is located in a generally vertical plane. When the transportation device is preparing to turn, the wind turbine blade is rotated to a second orientation before or during turning such that the curved central longitudinal axis is located in a generally horizontal plane and bends around the turn. As a result, the curved wind turbine blade and transportation device can traverse tighter curves and turns during travel to an assembly site or quayside. | 12-18-2014 |
| 20150321596 | METHOD FOR TRANSPORTING A CURVED WIND TURBINE BLADE AND ASSOCIATED TRANSPORTATION DEVICE - A method of transporting a wind turbine blade with a curved central longitudinal axis includes loading the wind turbine blade onto a transportation device including first and second support bearings. The wind turbine blade is loaded in a first orientation in which the curved central longitudinal axis is located in a generally vertical plane. When the transportation device is preparing to turn, the wind turbine blade is rotated to a second orientation before or during turning such that the curved central longitudinal axis is located in a generally horizontal plane and bends around the turn. As a result, the curved wind turbine blade and transportation device can traverse tighter curves and turns during travel to an assembly site or quayside. | 11-12-2015 |
| 20160017861 | Systems and Methods for Transporting Wind Turbine Blades - A system for transporting a wind turbine blade includes a first support subsystem disposed on a first movable platform, which allows a first point on the wind turbine blade to pivot in response to the first movable platform traversing a curve. A second support subsystem is disposed on a second movable platform spaced, which allows a second point of the wind turbine blade to move laterally in response to the pivoting of the first point on the wind turbine blade on the first movable platform. | 01-21-2016 |
