Triastek, Inc. (20240316864). HIGH-PRECISION ADDITIVE MANUFACTURING DEVICE AND HIGH-THROUGHPUT ADDITIVE MANUFACTURING SYSTEM simplified abstract
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HIGH-PRECISION ADDITIVE MANUFACTURING DEVICE AND HIGH-THROUGHPUT ADDITIVE MANUFACTURING SYSTEM
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HIGH-PRECISION ADDITIVE MANUFACTURING DEVICE AND HIGH-THROUGHPUT ADDITIVE MANUFACTURING SYSTEM - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240316864 titled 'HIGH-PRECISION ADDITIVE MANUFACTURING DEVICE AND HIGH-THROUGHPUT ADDITIVE MANUFACTURING SYSTEM
The present disclosure pertains to an additive manufacturing system that includes a material supply module, a micro-screw printing head, and a driving module.
- Material supply module for melting and pressurizing printing material
- Micro-screw printing head with a threaded stem portion and a conical head portion
- Nozzle with a conical inner surface and an outlet port for dispensing print material
- Driving module with a rotation motor and an actuator for controlling the motion of the micro-screw
Potential Applications: - 3D printing - Prototyping - Custom manufacturing
Problems Solved: - Precise control over material dispensing - Improved printing accuracy - Enhanced efficiency in additive manufacturing processes
Benefits: - Higher quality prints - Increased productivity - Cost-effective manufacturing solutions
Commercial Applications: Title: Advanced Additive Manufacturing System for Precision Printing This technology can be used in industries such as aerospace, automotive, and healthcare for producing complex parts with high accuracy and efficiency.
Questions about the technology: 1. How does the micro-screw printing head improve the precision of additive manufacturing? 2. What are the advantages of using a conical inner surface in the nozzle for material dispensing?
Frequently Updated Research: Stay updated on the latest advancements in additive manufacturing systems and materials to enhance the capabilities of this technology.
Original Abstract Submitted
the present disclosure generally relates to an additive manufacturing system. the system can comprise a material supply module for melting and pressurizing a printing material; a micro-screw printing head comprising: a micro-screw comprising a threaded stem portion and a conical head portion, wherein the threaded stem portion is threaded throughout its length for volume measurement; a sleeve, and a nozzle, wherein a distal end of the nozzle comprises: a conical inner surface, and an outlet port for dispensing the print material, wherein the conical inner surface of the nozzle is configured to be in contact with the conical head portion of the micro-screw to stop dispensing the printing material at the nozzle when the micro-screw printing head is in a closed position; a driving module comprising: a rotation motor for driving a rotating motion of the micro-screw, and an actuator for driving a vertical motion of the micro-screw.
