Toyota jidosha kabushiki kaisha (20240307950). MANUFACTURING METHOD FOR FASTENING STRUCTURE simplified abstract
Contents
MANUFACTURING METHOD FOR FASTENING STRUCTURE
Organization Name
toyota jidosha kabushiki kaisha
Inventor(s)
Shinya Nagashima of Kriya-shi (JP)
Toshiyuki Dobashi of Nagoya-shi (JP)
Nobuyuki Shinohara of Tajimi-shi (JP)
Mayumi Nakanishi of Okazaki-shi (JP)
Reona Takagishi of Tajimi-shi (JP)
MANUFACTURING METHOD FOR FASTENING STRUCTURE - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240307950 titled 'MANUFACTURING METHOD FOR FASTENING STRUCTURE
Simplified Explanation:
The patent application describes a structure where a thickened part is formed in the first member, with a protruded part that is convex on one side. The second member overlaps a part of the first member that includes the thickened part, and a self-piercing rivet is used to fasten the two members together.
- The first member has a thickened part with a protruded convex part.
- The second member overlaps the thickened part of the first member.
- A self-piercing rivet is used to fasten the two members together.
Potential Applications:
This technology could be used in various industries such as automotive, construction, and aerospace for joining different components together securely.
Problems Solved:
This technology provides a reliable and efficient way to fasten two members together, ensuring a strong and durable connection.
Benefits:
The benefits of this technology include improved structural integrity, ease of assembly, and enhanced overall performance of the joined components.
Commercial Applications:
This technology could be applied in the manufacturing of vehicles, buildings, and aircraft, offering a cost-effective and reliable solution for joining components.
Prior Art:
Prior art related to this technology may include patents or research on self-piercing rivets, fastening techniques, and structural joining methods.
Frequently Updated Research:
Researchers may be exploring advancements in self-piercing rivet technology, materials science for improved fastening methods, and applications of structural joining in various industries.
Questions about the Technology: 1. What are the potential environmental impacts of using self-piercing rivets in manufacturing processes? 2. How does the thickness of the thickened part affect the overall strength of the joint?
Original Abstract Submitted
a thickened part is formed in the first member. the thickened part has a protruded part that is convex on one side in the thickness direction of the first member, so that the thick portion is set thicker than the general portion as the other portion. at least a part of the second member overlaps a part of the first member that includes the thickened part from another side of the first member in the plate thickness direction, and the self-piercing rivet is driven into a fastening overlapped part that is a part that the second member overlaps the thickened part from a second member side, so as to fasten the first member and the second member.
