
Developed modular chassis framing solutions for the UBC-Snowbots/Chassis repository, delivering production-ready CAD assemblies and rapid prototyping options using SOLIDWORKS and CAD design skills. Built scalable frame libraries and aluminum prototypes, introduced 3-way joint variants to improve manufacturability, and finalized frame assemblies with enhanced rigidity and mounting capabilities. Implemented disciplined version control and documentation practices, enabling traceable hardware iterations and reducing integration risk for downstream subsystems. Addressed hardware fit issues through configuration updates, ensuring reliable assembly and minimizing rework. The work emphasized mechanical engineering fundamentals, standardized component libraries, and streamlined hardware validation, supporting faster iteration and maintainability across the chassis platform.
March 2025: Hardware/configuration refinement for UBC-Snowbots/Chassis. Delivered a binary/configuration update to fix the URC Frame Assembly arm plate fit issue (2025). No software logic changes; change controlled via Git for traceability. Result: improved assembly reliability and production readiness with reduced post-assembly rework.
March 2025: Hardware/configuration refinement for UBC-Snowbots/Chassis. Delivered a binary/configuration update to fix the URC Frame Assembly arm plate fit issue (2025). No software logic changes; change controlled via Git for traceability. Result: improved assembly reliability and production readiness with reduced post-assembly rework.
January 2025: Delivered a rapid prototyping option for Final Frame 2025 in the UBC-Snowbots/Chassis repository by introducing a temporary alternative frame design using 1/8" L-angles. The change duplicates existing frame components to enable quick testing while preserving the original frame design. No major bugs fixed this month. This work reduces risk and accelerates validation, and it demonstrates disciplined iteration with clear version control and documentation.
January 2025: Delivered a rapid prototyping option for Final Frame 2025 in the UBC-Snowbots/Chassis repository by introducing a temporary alternative frame design using 1/8" L-angles. The change duplicates existing frame components to enable quick testing while preserving the original frame design. No major bugs fixed this month. This work reduces risk and accelerates validation, and it demonstrates disciplined iteration with clear version control and documentation.
December 2024 monthly summary for UBC-Snowbots/Chassis: Delivered a production-ready, modular frame by finalizing the main frame assembly with bracket and extrusion components and expanding mounting capabilities. Implemented new parts and fasteners to strengthen the frame, enabling easier integration of downstream subsystems and improved maintainability.
December 2024 monthly summary for UBC-Snowbots/Chassis: Delivered a production-ready, modular frame by finalizing the main frame assembly with bracket and extrusion components and expanding mounting capabilities. Implemented new parts and fasteners to strengthen the frame, enabling easier integration of downstream subsystems and improved maintainability.
November 2024: Delivered a scalable chassis framing CAD library and an aluminum frame prototype for UBC-Snowbots/Chassis, plus design exploration for a 3-way joint in Al_Frame_V2. Key deliverables include SolidWorks parts and assemblies for frame variants (165mm, 178mm, 564mm, 584mm), a base plate, and a full frame assembly, plus an aluminum frame prototype with L-shaped brackets and a manufacturing-quote assembly, with updates to refine drawings. Implemented 3-Way Joint options in Al_Frame_V2 with new SolidWorks files and an assembly to improve manufacturability and design feasibility. These assets enable faster iteration, standardized components, and more accurate quotes; demonstrated SolidWorks prowess, CAD data management, and version-controlled documentation.
November 2024: Delivered a scalable chassis framing CAD library and an aluminum frame prototype for UBC-Snowbots/Chassis, plus design exploration for a 3-way joint in Al_Frame_V2. Key deliverables include SolidWorks parts and assemblies for frame variants (165mm, 178mm, 564mm, 584mm), a base plate, and a full frame assembly, plus an aluminum frame prototype with L-shaped brackets and a manufacturing-quote assembly, with updates to refine drawings. Implemented 3-Way Joint options in Al_Frame_V2 with new SolidWorks files and an assembly to improve manufacturability and design feasibility. These assets enable faster iteration, standardized components, and more accurate quotes; demonstrated SolidWorks prowess, CAD data management, and version-controlled documentation.

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