An alignment and installation jig for a screw anchor driving machine. The alignment and installation jig includes a laser target that can be moved from an alignment position to a driving position. The jig may also include one or more automated crimping assemblies to form permanent connections between overlapping foundation components while the machine is correctly oriented to assembly a truss foundation. One crimping assembly device may effect crimp joints between a foundation component held by the jig and overlapping upper ends of a pair of adjacent foundation legs. Second crimping assemblies may telescope down each leg to effect respective crimp joints between the lower end of the leg and the upper end of a driven foundation component.

A robotics-assisted foundation installation system is provided in which data reporting the X, Y, and Z positions of foundation column tops are sent from a total surveying station to a grid control system. The grid control system receives the data and associates specific data with specific columns in an arraythe grid. The grid control system compares the actual positions of the columns in the grid to target positions that were determined based on the requirements of the structure to be supported. After determining differences between the actual positions and the target positions, the grid control system sends instructions to column positioning tools associated with the individual columns. Actuators in a column positioning tool are directed by the grid control system to adjust the position of the associated column. Once the live streamed data confirms that each column is in the proper position, the columns are fixed in place.

A robotics-assisted foundation installation system is provided in which data reporting the X, Y, and Z positions of foundation column tops are sent from a total surveying station to a grid control system. The grid control system receives the data and associates specific data with specific columns in an arraythe grid. The grid control system compares the actual positions of the columns in the grid to target positions that were determined based on the requirements of the structure to be supported. After determining differences between the actual positions and the target positions, the grid control system sends instructions to column positioning tools associated with the individual columns. Actuators in a column positioning tool are directed by the grid control system to adjust the position of the associated column. Once the live streamed data confirms that each column is in the proper position, the columns are fixed in place.

A civil engineering device, in particular a pile-driving or drilling device, has at least one positioner, in particular a working carriage for accommodating an implement, connected with a carrier device by relatively movable links within a kinematic chain and connected by joints and/or linear adjusters and with at least six actuators for changing their corresponding position and/or orientation, and with a control and regulation device for controlling them. The control and regulation device has an input module for specifying a positioner target position, and is connected with a computer module that determines at least one displacement path for moving the positioner from its current (starting) position to the target position, and, using inverse kinematics, the locations of the individual actuators required for implementing the path, and sends these locations to the control and regulation device to control the actuators. A method multi-dimensionally, free positions a civil engineering device positioner.

A civil engineering device, in particular a pile-driving or drilling device, has at least one positioner, in particular a working carriage for accommodating an implement, connected with a carrier device by relatively movable links within a kinematic chain and connected by joints and/or linear adjusters and with at least six actuators for changing their corresponding position and/or orientation, and with a control and regulation device for controlling them. The control and regulation device has an input module for specifying a positioner target position, and is connected with a computer module that determines at least one displacement path for moving the positioner from its current (starting) position to the target position, and, using inverse kinematics, the locations of the individual actuators required for implementing the path, and sends these locations to the control and regulation device to control the actuators. A method multi-dimensionally, free positions a civil engineering device positioner.

A pile guide frame is coupled with at least one rotatable arm and includes a plurality of leveling modules for compensating for differences in height of the seabed. The rotatable arm can be rotated along a supporting frame and thereby move a pile guide module to facilitate pile-driving operations.

A pile guide frame is coupled with at least one rotatable arm and includes a plurality of leveling modules for compensating for differences in height of the seabed. The rotatable arm can be rotated along a supporting frame and thereby move a pile guide module to facilitate pile-driving operations. A method for operating a pile guide frame coupled with at least one rotatable arm is also provided.

A pile guide frame is coupled with at least one rotatable arm and includes a plurality of leveling modules for compensating for differences in height of the seabed. The rotatable arm can be rotated along a supporting frame and thereby move a pile guide module to facilitate pile-driving operations. A method for operating a pile guide frame coupled with at least one rotatable arm is also provided.

A pile measuring system suitable for determining parameter(s) of a pile during an installation of the pile is disclosed. The pile measuring system comprises at least one positioning sensor and a parameter calculator. Each of the at least one positioning sensor is attached or attachable to a location on a sleeve and configured to measure position coordinates of the respective location on the sleeve. The parameter calculator is suitable for determining the parameter(s) of the pile from the position coordinates measured by the at least one positioning sensor.

A pile measuring system suitable for determining parameter(s) of a pile during an installation of the pile is disclosed. The pile measuring system comprises at least one positioning sensor and a parameter calculator. Each of the at least one positioning sensor is attached or attachable to a location on a sleeve and configured to measure position coordinates of the respective location on the sleeve. The parameter calculator is suitable for determining the parameter(s) of the pile from the position coordinates measured by the at least one positioning sensor.