THREE DIMENSIONAL MOLDING DEVICE

Organization Name

seiko epson corporation

Inventor(s)

Atsushi Majima of ASAHI-MURA (JP)

THREE DIMENSIONAL MOLDING DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240109253 titled 'THREE DIMENSIONAL MOLDING DEVICE

Simplified Explanation

The three-dimensional molding device described in the patent application includes a plasticizing section with a screw that generates plasticized material by rotating the screw and plasticizing a material. It also has a nozzle for ejecting the plasticized material, an ejection adjustment section in the flow path to adjust the ejecting amount, and a control section to control the rotation speed of the screw based on the opening area of the flow path.

• Plasticizing section with a screw and groove for plasticizing material
• Nozzle for ejecting plasticized material
• Ejection adjustment section to adjust ejecting amount
• Control section to control rotation speed of the screw based on opening area of flow path

Potential Applications

The technology described in this patent application could be used in various industries such as manufacturing, 3D printing, and prototyping for creating three-dimensional objects with precision and control.

Problems Solved

This technology solves the problem of controlling the ejection amount of plasticized material from a molding device, allowing for more accurate and efficient production of three-dimensional objects.

Benefits

The benefits of this technology include improved precision in molding, increased efficiency in production processes, and the ability to customize the ejection amount of material for different applications.

Potential Commercial Applications

The potential commercial applications of this technology include 3D printing services, manufacturing companies, and prototyping businesses looking to enhance their production capabilities with more control over the molding process.

Possible Prior Art

One possible prior art for this technology could be similar molding devices with ejection adjustment features, but without the specific control section to adjust the rotation speed of the screw based on the opening area of the flow path.

Unanswered Questions

How does this technology compare to traditional molding devices in terms of efficiency and precision?

This article does not provide a direct comparison between this technology and traditional molding devices in terms of efficiency and precision. Further research and testing would be needed to determine the specific advantages of this technology over traditional methods.

What materials can be used with this three-dimensional molding device?

The article does not specify the types of materials that can be used with this three-dimensional molding device. Understanding the compatibility of different materials with this technology would be important for potential users looking to utilize it for various applications.

Original Abstract Submitted

this three dimensional molding device includes a plasticizing section having a screw in which a groove is formed and generating a plasticized material by plasticizing a material by rotating the screw; a nozzle having a nozzle opening and ejecting the plasticized material; an ejection adjustment section provided in a flow path, which communicates with the nozzle opening, and adjusting an ejecting amount of the plasticized material from the nozzle by adjusting an opening area of the flow path; and a control section, wherein the control section controls a rotation speed of the screw at a first rotation speed when the opening area is a first opening area and controls the rotation speed of the screw at a second rotation speed that is faster than the first rotation speed when the opening area is a second opening area that is larger than the first opening area.