| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 414814000 | Of loading or unloading elevator or hoist and including loading or unloading means therefor | 9 |
| 20120201648 | METHOD AND DEVICE FOR BRINGING AN ELONGATED BODY BELONGING TO A SUBSEA STRUCTURE TO THE SURFACE - An elongated body belonging to a subsea structure may be moved to the surface. A lifting beam may be lowered to the body and then may be pivoted until the lifting beam is substantially parallel to the body. Grippers connected to the lifting beam may rotate to encircle the body and/or connect the body to the lifting beam. After the body has been released from the subsea structure, the body may be turned until the body is in a substantially upright position, and then the lifting beam may move the body through a splash zone to the surface. | 08-09-2012 |
| 20120207582 | Rock Grasping and Removal Apparatus - A manually deployed grasping apparatus may be utilized for retrieving objects, such as rocks, concrete chunks and other debris, from vertical excavations such as potholes, boreholes, drilled shafts, etc. Unlike backhoes and other articulated arm machinery, the disclosed grasping apparatus is manually lowered into the excavation by the user. Once the apparatus is adjacent to the object to be retrieved, the opposite facing jaw members of the apparatus are placed into an open position to receive the object. Once the object has been received by the opposite facing jaw members, the jaw members are closed to capture the object. The jaw members are then manually withdrawn from the vertical excavation to retrieve the object. | 08-16-2012 |
| 20100111665 | INTERNAL YAW DRIVE EXCHANGE FOR A WIND TURBINE TOWER - A method for removing and replacing an article of wind turbine equipment, such as a yaw drive, internal to a nacelle of a wind turbine tower without use of an external windfarm site crane or external rigging on the wind tower. External rigging of wind turbine tower components may expose workers and the equipment inside the nacelle to outside weather and hazardous wind conditions. The yaw drive is internally rigged with an internal support crane within the nacelle to an internal winch capable of supporting the yaw drive during a lift to the base of the wind turbine tower. | 05-06-2010 |
| 20090304491 | Device and Process for Transferring Packaged Material to a Packaged Material Transport System or to a Storage Device - The device for transferring items to a transport system or to a storage unit has a feed unit for conveying a plurality of items in three parallel feeding lines. Further, is has a transfer station for receiving the items from the feed unit and for transferring the items to the transport system or to the storage device. The transfer station includes three temporary storage lines arranged in parallel. The items are provided by the feed unit in a manner that the items in each of the temporary storage lines are arranged offset from the items in the other temporary storage lines with respect to a first direction. A pusher in the transfer station pushes the items in a second direction perpendicular to the first direction to a single temporary storage line. | 12-10-2009 |
| 20090232633 | CART FOR A TRAILER HITCH - A sturdy attractive cart with an upper portion, a lower portion, wheels, and steering suitable for both maneuvering while in a store, and on more rugged terrain. The cart may be carried suspended from a trailer hitch behind a motor vehicle. The cart has a vertical positioner to raise and lower the upper portion and lower portion relative to the other. The cart may be used as an off-road utility trailer, being towed by a vehicle. | 09-17-2009 |
| 20090110535 | REMOTELY OPERATED SINGLE JOINT ELEVATOR - A remotely operated joint elevator for use in handling a tubular is provided. The single joint elevator including a housing having an access opening configured to receive the tubular. The single joint elevator further including at least one closure member connected to the housing via a hinge pin. Additionally, the single joint elevator including a power assembly configured to rotate at least one closure member around the hinge pin to selectively open and close the access opening. In another aspect, a method of handling a tubular using a remotely operated joint elevator is provided. In yet a further aspect, a remotely operated joint elevator for use in handling a tubular. | 04-30-2009 |
| 20090003985 | Hub and distribution system - A hub and distribution system ( | 01-01-2009 |
| 20110097187 | VEHICLE GUIDANCE SYSTEM FOR AUTOMOTIVE LIFTS - A vehicle lift system comprises a vehicle lift and one or more laser modules. The vehicle lift includes one or more lifting members that are operable to selectively raise and lower a vehicle. The laser modules are operable to emit at least one laser beam to provide a visual indicator on a vehicle positioned relative to the one or more lifting members. The vehicle lift may include any type of lift. The visual indicator may include a line, crosshairs, target, dot, or anything else, including combinations and patterns. The visual indicator may flash or remain solid. The visual indicator may be any color (e.g., green). One or more sensors may provide activation and/or de-activation of the laser modules in response to sensing the presence of a vehicle. An operator may view the visual indicator on the vehicle to confirm proper positioning of the vehicle relative to the lifting members. | 04-28-2011 |
| 20090208320 | METHOD OF SEPARATING A NUMBER OF VIALS FROM A PLURALITY OF VIALS DISPOSED IN SEVERAL ROWS AND APPARATUS THEREFOR - A method of separating a number of vials from a plurality of vials disposed in several rows is disclosed. The vials being at first caused to move onto one transfer plane and being then caused to move further beyond the transfer plane in order for the vials intended to be separated to reach a surface adjoining the transfer plane, via the transfer plane, and that the remaining vials remain on the transfer plane. Providing a method of the type mentioned herein above, ensures that the vials are evacuated properly and completely without discrete vials toppling. This is achieved in that the vials still standing on the transfer plane adjacent the surface are next lifted or that the surface is lowered in order for the vials remaining on the transfer plane not to touch the surface. | 08-20-2009 |
