18472884. REMOVAL METHOD OF WELD BEAD simplified abstract (TOYOTA JIDOSHA KABUSHIKI KAISHA)
Contents
REMOVAL METHOD OF WELD BEAD
Organization Name
TOYOTA JIDOSHA KABUSHIKI KAISHA
Inventor(s)
REMOVAL METHOD OF WELD BEAD - A simplified explanation of the abstract
This abstract first appeared for US patent application 18472884 titled 'REMOVAL METHOD OF WELD BEAD
The method for removing a weld bead involves preparing a scraper with a higher melting point than the base metal and welding rod, heating the base metal and welding rod to a temperature lower than the scraper's melting point to create a molten pool, and moving the scraper along the surface to discharge the weld bead.
- Scraper with higher melting point than base metal and welding rod
- Heating base metal and welding rod to lower temperature than scraper's melting point
- Moving scraper along surface to discharge weld bead
Potential Applications: - Welding industry - Metal fabrication - Construction
Problems Solved: - Efficient weld bead removal - Minimizing damage to base metal
Benefits: - Improved weld quality - Cost-effective solution - Time-saving process
Commercial Applications: Title: Innovative Weld Bead Removal Method for Welding Industry This technology can be used in welding workshops, metal fabrication plants, and construction sites to streamline the weld bead removal process, leading to increased productivity and cost savings.
Questions about Weld Bead Removal: 1. How does the scraper's melting point affect the efficiency of the weld bead removal process? The scraper's higher melting point ensures that it remains intact while removing the weld bead, enhancing the effectiveness of the process.
2. What are the advantages of using a scraper with a higher melting point in weld bead removal? A scraper with a higher melting point can withstand the heat generated during the weld bead removal process, resulting in a more durable and efficient tool.
Original Abstract Submitted
The method for removing a weld bead includes (a) the steps of preparing a scraper having a higher melting point than the melting points of the base metal and the welding rod; (b) heating the base metal and the welding rod to a temperature lower than the melting points of the scrapers to form a molten pool in which the base metal and the welding rod are fused together; (d) moving the at least part along a second surface of the scraper opposite to the first surface facing the base material, thereby discharging the at least part backward, opposite to the forward movement direction of the scraper in step (c).