20240025121. METHOD FOR PREVENTING DEPOSITS ON A NOZZLE PLATE simplified abstract (Ivoclar Vivadent AG)
Jump to navigation
Jump to search
Contents
METHOD FOR PREVENTING DEPOSITS ON A NOZZLE PLATE
Organization Name
Inventor(s)
Nicola Bitar of Montlingen (CH)
METHOD FOR PREVENTING DEPOSITS ON A NOZZLE PLATE - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240025121 titled 'METHOD FOR PREVENTING DEPOSITS ON A NOZZLE PLATE
Simplified Explanation
The abstract of this patent application describes a method for preventing deposits of a printing liquid at a nozzle plate of a 3D printer. The method involves increasing the saturation level of a carrier liquid of the printing liquid in the air in front of the nozzle plate.
- The method aims to prevent deposits of printing liquid at the nozzle plate of a 3D printer.
- It involves increasing the saturation level of the carrier liquid in the air in front of the nozzle plate.
- By increasing the saturation level, the method prevents the printing liquid from depositing and clogging the nozzle plate.
Potential Applications:
- This technology can be applied in 3D printers to prevent clogging and improve printing quality.
- It can be used in various industries that utilize 3D printing, such as manufacturing, prototyping, and healthcare.
Problems Solved:
- Deposits of printing liquid at the nozzle plate can lead to clogging and affect the printing process.
- Clogging can result in poor print quality, failed prints, and increased maintenance requirements.
- This technology solves the problem of nozzle plate clogging by increasing the saturation level of the carrier liquid, preventing deposits from forming.
Benefits:
- Improved printing quality and reliability by preventing nozzle plate clogging.
- Reduced maintenance requirements and downtime due to clogs.
- Enhanced productivity and efficiency in 3D printing processes.
- Cost savings by minimizing material waste and rework.
Original Abstract Submitted
a method for preventing deposits of a printing liquid at a nozzle plate () of a print head within a 3d printer (), including the step of increasing a saturation level of a carrier liquid () of the printing liquid in the air in front of the nozzle plate ().