Abstract: A method and system is provided for laser piercing of thick plate material that allows for rapid transition to a cutting operation that can reliably produce a piercing hole and complete a cutting operation of the intended shape in a short time, while improving the cutting quality of the cutting after switching from the piercing operation. The cutting nozzle has a centrally located laser. The piercing operation applies a laser beam to the cut work while axially supplied pure oxygen gas is applied towards the cutting work. Additionally, a direction controlled nozzle adjacent the main cutting port provides a discharge of high pressure compressed air non-axially relative to the cutting operation to clear excess molten metal and debris from the kerf thereby increasing the efficiency of the piercing and shortening the cycle time.
Type:
Grant
Filed:
January 12, 2021
Date of Patent:
October 31, 2023
Assignee:
Prima Power Laserdyne, LLC
Inventors:
Chris Rasmussen, Mohammed Naeem, Jacob Williams, Terence Schmidt
Abstract: A method and system is provided for laser piercing of thick plate material that allows for rapid transition to a cutting operation that can reliably produce a piercing hole and complete a cutting operation of the intended shape in a short time, while improving the cutting quality of the cutting after switching from the piercing operation. The cutting nozzle has a centrally located laser. The piercing operation applies a laser beam to the cut work while axially supplied pure oxygen gas is applied towards the cutting work. Additionally, a direction controlled nozzle adjacent the main cutting port provides a discharge of high pressure compressed air non-axially relative to the cutting operation to clear excess molten metal and debris from the kerf thereby increasing the efficiency of the piercing and shortening the cycle time.
Type:
Grant
Filed:
October 24, 2017
Date of Patent:
February 23, 2021
Assignee:
Prima Power Laserdyne, LLC
Inventors:
Chris Rasmussen, Mohammed Naeem, Jacob Williams, Terrence Schmidt
Abstract: A compact nozzle for laser welding is provided that includes an air knife cross-jet to protect the laser optic, coaxially supplied process shield gas and active air cooling in a singular and compact nozzle. Generally, the nozzle includes a mounting interface at a first end to connect to the laser processing device. An air knife section is positioned adjacent the mounting interface and the optical output of the laser so that the air knife flow can protect the optic from plasma and spatter damage. Further the air flow in the air knife is directed through the nozzle for direct cooling. Adjacent the air knife is the process gas shield that is isolated from the air knife such that the process gas is not contaminated by flow from the air knife.