Securing Fragile Cargo in Modern Electric Vehicle Storage Space - FrunkFlex
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Date
2025-03
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Abstract
As electric vehicles (EVs) become more prominent in the automotive market, manufacturers are introducing front trunks, or "frunks," as additional storage solutions. However, many existing vehicle storage options are bulky, aesthetically unappealing, and primarily offered by third-party retailers. My project, FrunkFlex, addresses this gap by developing a retractable strap system that secures items in the frunk while maintaining flexibility, ease of use, and integration with the vehicle's design. The goal is to increase the functionality of this unique cargo space while ensuring items remain secure during transport.
To explore potential design solutions, I conducted primary and secondary research, including interviews with potential users and market analysis of existing storage solutions. My initial focus was on artists transporting fragile and expensive supplies, but the project evolved to accommodate a broader audience. Prototyping helped refine the design, ensuring it was intuitive and effective. The final prototype was developed using flexible and cushioned materials to balance durability with adaptability.
Through formative assessments, I tested how different storage solutions affected organizational speed and efficiency. I found that users prioritized container size over color-coding when organizing items. These insights informed the final FrunkFlex design, which offers a streamlined, space-efficient storage method. The project was further refined through industry feedback from our partners at Honda Research and Development, ensuring it aligns with both user needs and manufacturer requirements.
FrunkFlex reimagines storage in EVs by providing a secure, adaptable, and integrated solution for frunk storage. While the initial design prioritized a niche audience, market research led to a more universal approach. This project highlights the balance between user-centered design and market viability, emphasizing the need for innovative solutions as EV adoption grows. Future iterations could explore modularity and additional material advancements to further enhance usability.
Description
Human Experience (The Ohio State University Denman Undergraduate Research Forum)
Keywords
Storage, Vehicles, Electric Vehicles, Organization, Product Design, Car Design