A METHOD FOR PRODUCING A SHELL-LIKE OR PLATE LIKE SUPPORTING STRUCTURE

Organization Name

Unknown Organization

Inventor(s)

Francesco Belvisi of Pantelleria (IT)

Alessandro Buscemi of Altavilla Milicia (IT)

Antonio Mangiapane of Palermo (IT)

A METHOD FOR PRODUCING A SHELL-LIKE OR PLATE LIKE SUPPORTING STRUCTURE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240017479 titled 'A METHOD FOR PRODUCING A SHELL-LIKE OR PLATE LIKE SUPPORTING STRUCTURE

Simplified Explanation

The patent application describes a method for creating shell-like or plate-like supporting structures using fused deposition modelling technology. These structures are formed by creating panels with a lattice of hollow stiffening ribs on at least one face. The ribs are formed simultaneously with the panel by moving a dispensing head that dispenses a continuous thread of material in a closed-loop path or a back-and-forth path between two opposite ends.

• The panels are formed using fused deposition modelling technology.
• The panels have a lattice of hollow stiffening ribs on at least one face.
• The stiffening ribs are formed simultaneously with the panel by moving a dispensing head that dispenses a continuous thread of material.
• The continuous thread of material is dispensed in a closed-loop path or a back-and-forth path between two opposite ends.
• The ribs have loop-shaped stretches that define the hollow cavities.
• The cavities of the ribs can be filled with additional reinforcement material.

Potential Applications:

• Construction industry: These shell-like or plate-like supporting structures can be used in construction for creating lightweight but strong components such as walls, floors, and roofs.
• Automotive industry: The technology can be applied in the automotive industry for manufacturing lightweight and durable parts like car body panels and interior components.
• Aerospace industry: The structures can find applications in the aerospace industry for creating lightweight and strong components for aircraft and spacecraft.

Problems Solved:

• Weight reduction: The technology allows for the creation of lightweight structures without compromising strength and durability.
• Design flexibility: The lattice structure of the panels provides design flexibility, allowing for the creation of complex shapes and geometries.
• Cost-effective manufacturing: Fused deposition modelling technology is a relatively cost-effective method for producing these structures compared to traditional manufacturing processes.

Benefits:

• Lightweight: The structures are lightweight, making them suitable for applications where weight reduction is important.
• Strength and durability: The lattice of stiffening ribs enhances the strength and durability of the panels.
• Design flexibility: The technology allows for the creation of complex shapes and geometries, providing design flexibility.
• Cost-effective manufacturing: Fused deposition modelling technology is a cost-effective method for producing these structures, reducing manufacturing costs.

Original Abstract Submitted

shell-like or plate-like supporting structures, are obtained by forming one or more panels using fused deposition modelling technology to obtain panels with a lattice of stiffening ribs on at least one face of the panels. the stiffening ribs are hollow and are formed simultaneously with forming of the panel, by moving a dispensing head) that dispenses a continuous thread of material according to a closed-loop path to form each layer, or else according to a path between two opposite ends that is followed back and forth in the two directions to obtain different layers of the panel and that includes loop-shaped stretches to define the aforesaid hollow ribs. the cavities of the ribs can be filled with additional reinforcement material.