3D PRINTING IN A CONFINED SPACE

Organization Name

INTERNATIONAL BUSINESS MACHINES CORPORATION

Inventor(s)

Sarbajit K. Rakshit of Kolkata (IN)

3D PRINTING IN A CONFINED SPACE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240036548 titled '3D PRINTING IN A CONFINED SPACE

Simplified Explanation

The abstract of the patent application describes a 3D printing system that consists of an extendable body, a material delivery system, a first wall adhesion device, and a second wall adhesion device.

• The extendable body allows for the expansion and contraction of the printing system, enabling it to accommodate different sizes and shapes of objects.
• The material delivery system is responsible for supplying the printing material to the system, ensuring a continuous flow during the printing process.
• The first wall adhesion device is designed to ensure proper adhesion of the printed object to the printing surface, preventing any detachment or distortion.
• The second wall adhesion device serves a similar purpose as the first one, providing additional support and stability to the printed object.

Potential applications of this technology:

• Manufacturing and prototyping: The 3D printing system can be used in various industries for rapid prototyping and small-scale manufacturing of customized products.
• Construction: The extendable body and wall adhesion devices can be utilized to 3D print structures and architectural components with enhanced stability and precision.
• Medical field: This technology can be applied in the production of personalized medical devices, implants, and prosthetics.

Problems solved by this technology:

• Adhesion issues: The wall adhesion devices address the problem of poor adhesion between the printed object and the printing surface, ensuring a secure and stable build.
• Size limitations: The extendable body allows for the printing of objects of different sizes, overcoming the constraint of fixed build volumes in traditional 3D printers.
• Structural integrity: The combination of the extendable body and wall adhesion devices improves the structural integrity of the printed objects, reducing the risk of deformation or collapse.

Benefits of this technology:

• Versatility: The extendable body and adjustable printing parameters enable the printing of objects with varying sizes and complexities.
• Enhanced adhesion: The wall adhesion devices ensure strong adhesion between the printed object and the printing surface, resulting in better print quality and reliability.
• Improved structural stability: The combination of the extendable body and wall adhesion devices enhances the stability and strength of the printed objects, making them more durable and reliable.

Original Abstract Submitted

a 3d printing system comprising, an extendable body, a material delivery system, a first wall adhesion device, and a second wall adhesion device.