Abstract: An intelligent deck apparatus and method for serially moving workpieces moving side-by-side on a conveyor system to a processing system. The intelligent deck is comprised of an edge detector system having at least one sensor, a shift mechanism, and a lift arm system having at least one lift arm. The intelligent deck apparatus also has a computer system operatively connected to the working parts of the intelligent deck and the processing system. The intelligent deck distinguishes between workpieces by shifting the leading workpiece to distinguish it from subsequent workpieces.
Type:
Grant
Filed:
January 23, 2002
Date of Patent:
March 9, 2004
Assignee:
The Koskovich Company
Inventors:
Jerome E. Koskovich, James E. McKeon, Danny R. Nelson, Trevor S. Scrabeck
Abstract: In preferred embodiments the invention includes a transverse board conveyor, a board extrusion portion, a marking station a sawing portion, and one or more board feeding portions, all of which are controlled by a process controller. In such, preferred embodiments, one or more stacks of boards are serially fed onto the transverse board conveyor and are conveyed in a direction transverse to the length of the boards. The boards are individually deposited into an elongate receiver of a board extrusion portion to be conveyed longitudinally. A carriage in the receiver transports the boards past an end detection station, past a marking station, and to a sawing station. The carriage has a moveable clamping member which pinches the board between a wall of the receiver and the clamping member. The carriage moves down the receiver with the board clamped thereto conveying the board in a longitudinal direction to position the board in a desired position for sawing the board.
Abstract: In preferred embodiments the invention includes a transverse board conveyor, a board extrusion portion, a marking station a sawing portion, and one or more board feeding portions, all of which are controlled by a process controller. In such, preferred embodiments, one or more stacks of boards are serially fed onto the transverse board conveyor and are conveyed in a direction transverse to the length of the boards. The boards are individually deposited into an elongate receiver of a board extrusion portion to be conveyed longitudinally. A carriage in the receiver transports the boards past an end detection station, past a marking station, and to a sawing station. The carriage has a moveable clamping member which pinches the board between a wall of the receiver and the clamping member. The carriage moves down the receiver with the board clamped thereto conveying the board in a longitudinal direction to position the board in a desired position for sawing the board.