An improved system and method for bracing, transporting, assembling, and disassembly of drilling equipment at oil and gas land-based well sites. The system has a substructure with side boxes support bracing that are in a scissor jack (or grand plié) style bracing with telescoping tension link(s), linking pins, and vertical hydraulic cylinders. These linking pins are set after raising the substructure and secure the telescoping tension link, support arms, and support bracing in place to maintain the integrity of the substructure. Alternatively the system has a substructure with side boxes support bracing that are in a scissor jack (or grand plié) style bracing with screw jacks and a means of stabilization during substructure raising. The substructure bracing reduces the overall length, reduces the upper and lower box spans, and balances the raising loads, subsequently lowering the transport weight of the side box such that a commercial walking system may be integrated into the side box and remain there during transport while maximizing the operating drill floor height while minimizing the transport height.

Provided is a system and method for positioning a load including an apparatus having a plurality of columns. Each column has a first support and a motor adapted to move the first support along an axis of the column. A second support is connected to at least two of the first supports and a track member for receiving a portion of a vehicle is connected to the second support. Load and position sensors are coupled to the apparatus for transmitting load and position signals. A controller is in communication with the columns and receives the load and position signals to compare the load and position signals to generate at least one control signal that is sent to at least one of said motors for controlling the position of at least one of said first supports.

A lifting apparatus and controller therefore, where the lifting apparatus includes independently driven lifting columns and independently driven wheels that are controlled by a controller having a number of sensors such as limit sensors, position sensors, rotation sensors, laser sensors, torque sensors and the like. The independent motors for lifting and driving may also be removed easily to provide for improved servicing and maintenance. The various sensor signals are used to calculate, coordinate and calibrate the apparatus for precise and safe movement by the motors in order to perform lifting and positioning operations, for example rail car repair and service.

A lifting device for mounting to a vehicle includes a lifting surface having dimensions that fit a cargo area of the vehicle, the lifting surface being configured to carry a cargo; a telescoping assembly coupled to the vehicle and configured to horizontally extend by telescoping further than the vehicle; a lifting mechanism coupled to the telescoping assembly and to the lifting surface, the lifting mechanism being configured to move the lifting surface vertically to lift or lower the lifting surface. The lifting device further includes an actuating assembly in communication with the telescoping assembly and the lifting mechanism, the actuating assembly being configured to actuate the telescoping assembly to move horizontally in and out of the cargo area of the vehicle and to actuate the lifting mechanism to move vertically down to a loading surface and up to the cargo area of the vehicle.

A lifting device for mounting to a vehicle includes a lifting surface having dimensions that fit a cargo area of the vehicle, the lifting surface being configured to carry a cargo; a telescoping assembly coupled to the vehicle and configured to horizontally extend by telescoping further than the vehicle; a lifting mechanism coupled to the telescoping assembly and to the lifting surface, the lifting mechanism being configured to move the lifting surface vertically to lift or lower the lifting surface. The lifting device further includes an actuating assembly in communication with the telescoping assembly and the lifting mechanism, the actuating assembly being configured to actuate the telescoping assembly to move horizontally in and out of the cargo area of the vehicle and to actuate the lifting mechanism to move vertically down to a loading surface and up to the cargo area of the vehicle.

A lifting apparatus and controller therefore, where the lifting apparatus includes independently driven lifting columns and independently driven wheels that are controlled by a controller having a number of sensors such as limit sensors, position sensors, rotation sensors, laser sensors, torque sensors and the like. The independent motors for lifting and driving may also be removed easily to provide for improved servicing and maintenance. The various sensor signals are used to calculate, coordinate and calibrate the apparatus for precise and safe movement by the motors in order to perform lifting and positioning operations, for example rail car repair and service.

A locking mechanism comprises a main body, an ejector rod, a guide rod assembly, a carrier plate and a fixing assembly. The carrier plate comprises a center hole and a plurality of annular strip holes. The fixing assembly comprises a rotary disc. The center hole and the annular strip holes can lock the rotary disc in different rotation angles. The guide rod assembly limits the rotation tolerance of the carrier plate, and makes the carrier plate move up and down in the vertical direction. The rotary disc with limited rotational freedom is fixedly connected with the ejector rod, so that the locking mechanism can not only realize the linear lifting motion of the ejector rod, but also reduce the rotation angle error between the carrier plate and the ejector rod. A rotating lifting platform is also provided.

A locking mechanism comprises a main body, an ejector rod, a guide rod assembly, a carrier plate and a fixing assembly. The carrier plate comprises a center hole and a plurality of annular strip holes. The fixing assembly comprises a rotary disc. The center hole and the annular strip holes can lock the rotary disc in different rotation angles. The guide rod assembly limits the rotation tolerance of the carrier plate, and makes the carrier plate move up and down in the vertical direction. The rotary disc with limited rotational freedom is fixedly connected with the ejector rod, so that the locking mechanism can not only realize the linear lifting motion of the ejector rod, but also reduce the rotation angle error between the carrier plate and the ejector rod. A rotating lifting platform is also provided.

A support system for for supporting a work surface, such as a floating roof during maintenance of the associated tank. More particularly, the present disclosure is directed to providing a system composed on elements which can be transported without constrictive spaces, assembled within work area, and employed to provide support to a structure above and to provide a safe working environment therein. . The support system includes four support members, each having a jack, a lower, and a cap, eight connectors which fix the support members in relation to one another and provide rigidity, and may include two connecting shafts to permit simultaneous adjustment of two jacks on a side of the support system.

A support system for for supporting a work surface, such as a floating roof during maintenance of the associated tank. More particularly, the present disclosure is directed to providing a system composed on elements which can be transported without constrictive spaces, assembled within work area, and employed to provide support to a structure above and to provide a safe working environment therein. . The support system includes four support members, each having a jack, a lower, and a cap, eight connectors which fix the support members in relation to one another and provide rigidity, and may include two connecting shafts to permit simultaneous adjustment of two jacks on a side of the support system.