Samsung E&A Co., Ltd. (20240326287). NOZZLE OF AUTO-AGITATING TYPE 3D PRINTER FOR CONSTRUCTION simplified abstract
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NOZZLE OF AUTO-AGITATING TYPE 3D PRINTER FOR CONSTRUCTION
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NOZZLE OF AUTO-AGITATING TYPE 3D PRINTER FOR CONSTRUCTION - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240326287 titled 'NOZZLE OF AUTO-AGITATING TYPE 3D PRINTER FOR CONSTRUCTION
The present disclosure relates to a 3D printer for construction that uses agitating blades capable of auto-rotation inside a nozzle to enable the agitation of a fluid printing material such as concrete or mortar.
- Agitating blades with auto-rotation mounted inside the printing material-dispensing nozzle
- Enables agitation of fluid printing material inside the nozzle
- Specifically designed for printing and forming various structures in construction
- Uses printing materials like concrete or mortar
- Enhances the printing process by ensuring proper mixing and consistency of the material
Potential Applications: - Construction industry for building structures - Architectural firms for creating intricate designs - Civil engineering projects for customized components
Problems Solved: - Ensures proper mixing of printing materials - Improves the quality and strength of printed structures - Enhances efficiency in construction processes
Benefits: - Increased precision in printing structures - Cost-effective construction methods - Reduced material wastage - Faster construction timelines
Commercial Applications: - Construction companies looking to adopt 3D printing technology - Architectural firms seeking innovative construction methods - Civil engineering projects requiring customized components
Questions about the technology: 1. How does the auto-rotation feature of the agitating blades improve the printing process? 2. What are the specific benefits of using concrete or mortar as printing materials in construction applications?
Frequently Updated Research: - Stay updated on advancements in 3D printing technology for construction applications - Monitor developments in material science for improved printing materials and processes.
Original Abstract Submitted
the present disclosure relates to a 3d printer for construction for printing and forming various structures, in which agitating blades capable of auto-rotation are mounted inside a nozzle discharging a printing material such as concrete or mortar, to thereby enable agitation of a fluid printing material inside the nozzle
