CINCINNATI MACHINE, LLC Patent applications |
Patent application number | Title | Published |
20120036977 | CUTTER AND ANVIL ARRANGEMENT FOR A FIBER PLACEMENT HEAD - A motorized head for applying fiber composite material to an application surface includes a drive roll assembly for applying fiber composite material to an application surface. The drive roll assembly includes a drive roll and a backup roll and a drive roll nip formed between the drive roll and the backup roll. At least one cutter is mounted on the drive roll for cutting fiber composite material, and an anvil is mounted on the backup roll to provide a shear surface for the cutter blade. | 02-16-2012 |
20110315324 | TOW EJECTOR FOOT FOR A FIBER PLACEMENT HEAD - A motorized head for applying fiber composite material to an application surface includes a drive roll assembly for applying fiber composite material to an application surface. The drive roll assembly includes a drive roll and a backup roll and a drive roll nip formed between the drive roll and the backup roll. At least one cutter is mounted on the drive roll for cutting fiber composite material, and an ejector mechanism is mounted on the drive roll behind the cutter mechanism. The ejector mechanism positively displaces the leading end of the cut tow material away from the surface of the drive roll to ensure that the cut tow material does not misfeed as it approaches the fiber path chute downstream from the cutter. | 12-29-2011 |
20110277935 | ROBOTIC BASED FIBER PLACEMENT CELL WITH STATIONARY DISPENSING HEAD AND CREEL - A system for applying composite fiber to a lay-up tool has a fixed creel for supplying fiber to the fiber placement dispensing head and a fixed arm having a first end attached to the creel and having a second end attached to the dispensing head. The dispensing head is fixed on the end of the arm. A robot having a first and second pivot axis and at least a first wrist supports the lay-up tool. The robot manipulates the tool for application of fiber from the head to the tool. Manipulating the tool instead of the dispensing head allows the path length for the fiber between the creel and head to be fixed in length and orientation during application of fiber to the tool. | 11-17-2011 |
20110011199 | DAMPED ROTARY ENCODER - A tuned damped absorber arrangement is used to attenuate the response of an encoder. A vibration problem occurs on rotary axis heads which are used in machining operations. When using long slender tools, a vibration can be created which causes the encoder to lose its position. The device uses a tuned damped absorber that is attached to the input shaft of the encoder to dampen unwanted vibration. | 01-20-2011 |
20100276087 | ROTARY CLAMP MECHANISM FOR A FIBER PLACEMENT HEAD - A rotary clamp mechanism for a fiber placement head comprises a one-way bearing and a freewheeling roller mounted upstream of the restart mechanism. An actuating mechanism brings the freewheeling roller and the one-way bearing into contact with the fiber tow and allows the tow to be fed through the head from the upstream to the downstream end, but prevents the fiber tow from traveling in the reverse direction through the head. The rotary clamp is put into contact with the fiber tow prior to cutting the tow, and remains in contact with the tow until the restart mechanism has advanced the cut tow to the delivery end of the head. The rotary clamp eliminates the need for precise timing between the cutting and clamping mechanisms, and increases the application rate of fiber tow by the head. | 11-04-2010 |
20100063609 | Multi-Spindle Phase Controlled Machining - A method of controlling a multiple spindle machine includes measuring the motor currents provided to a first spindle and a second spindle over a period of time, establishing an amount of time between impacts on a workpiece of a cutting tooth of the first spindle relative to a cutting tooth of the second spindle based on the measured motor currents of the first spindle and the second spindle, determining an angle to shift the second spindle relative to the first spindle, and increasing or decreasing the amount of time between impacts to obtain the determined shift angle for the second spindle. | 03-11-2010 |