Three-Dimensional Shaped Object Manufacturing Method And Information Processing Device

Organization Name

SEIKO EPSON CORPORATION

Inventor(s)

Shigeru Yamazaki of Shiojiri (JP)

Three-Dimensional Shaped Object Manufacturing Method And Information Processing Device - A simplified explanation of the abstract

This abstract first appeared for US patent application 18520969 titled 'Three-Dimensional Shaped Object Manufacturing Method And Information Processing Device

Simplified Explanation

The patent application describes a method for manufacturing three-dimensional shaped objects with a support structure that includes contact and non-contact layers. The method involves generating shaping data, specifying regions for shaping the contact and non-contact layers, and generating path data based on specified conditions.

• The method involves generating shaping data, including path data, for manufacturing three-dimensional shaped objects and support structures.
• The support structure includes contact and non-contact layers in at least one layer, with the contact layer in contact with the shaped object and the non-contact layer adjacent to it.
• The shaping data generation process involves specifying regions for shaping the contact and non-contact layers based on shape data of the shaped object, and generating path data in these regions.
• If the width of the specified region for the contact layer is insufficient, it is expanded to the adjacent region for the non-contact layer to generate the path data.

Potential Applications

This technology can be applied in various industries such as manufacturing, prototyping, and product design where three-dimensional objects need to be produced with complex support structures.

Problems Solved

1. Efficient manufacturing of three-dimensional shaped objects with intricate support structures. 2. Improved accuracy and stability during the shaping process.

Benefits

1. Enhanced precision in shaping complex objects. 2. Reduction in material wastage. 3. Increased efficiency in manufacturing processes.

Potential Commercial Applications

Optimizing 3D printing processes for industries such as aerospace, automotive, and medical devices.

Possible Prior Art

Prior art may include patents related to 3D printing methods, support structures, and shaping data generation techniques.

Unanswered Questions

How does this method compare to traditional support structure manufacturing techniques?

The article does not provide a direct comparison between this method and traditional support structure manufacturing techniques. Further research or experimentation may be needed to evaluate the advantages and limitations of this method over traditional techniques.

What are the specific path generation conditions used in this method?

The article mentions generating path data based on path generation conditions but does not specify what these conditions entail. Understanding the specific parameters and criteria for path generation could provide insights into the effectiveness of this method.

Original Abstract Submitted

A three-dimensional shaped object manufacturing method includes: generating shaping data including path data; and shaping, based on the shaping data, a shaped object and a support structure. In at least one layer of the support structure, a contact layer in contact with the shaped object above or below the shaped object and a non-contact layer different from the contact layer are disposed adjacent to each other. The generating the shaping data includes a specifying step of specifying, based on shape data of the shaped object, a first region for shaping the contact layer and a second region for shaping the non-contact layer, as a support region, and a data generation step of generating the path data in the support region based on a path generation condition. In the data generation step, when a width of the specified first region is insufficient to generate the path data based on the path generation condition, the first region is expanded to the second region adjacent thereto to generate the path data in the first region.