"SPIN is a foldable bicycle helmet designed to address the practical limitations associated with conventional helmet use in urban environments. Developed by designer Krittika Bhekasut, the project combines a compact folding mechanism with visual references drawn from vintage cycling equipment, positioning the helmet between protective gear and personal accessory."
"The design responds to the difficulty of carrying and storing rigid helmets during everyday commuting. SPIN introduces a segmented shell structure that allows the helmet to collapse into a reduced-volume form, making it easier to transport in bags, under seats, or within compact storage spaces. When expanded, the shell returns to its full protective geometry through a controlled articulation system integrated into the structure."
"The folding mechanism is organized around a series of engineered segments connected along predefined axes. This configuration enables repeated transformation between open and collapsed states while maintaining structural stability during use. The transition process is designed to require minimal physical adjustment, supporting integration into daily mobility routines."
"Material selection by designer Krittika Bhekasut balances impact resistance, weight reduction, and durability. The outer shell is developed as a lightweight protective surface, paired with an internal support structure designed for comfort and stability. Attention is also given to tactile and visual qualities, with the helmet's finish and proportions referencing the formal language of vintage cycling accessories."
SPIN is a foldable bicycle helmet created to solve storage and carrying challenges of rigid helmets in urban commuting. The helmet uses a segmented shell that collapses into a reduced-volume form for easier transport in bags, under seats, or other compact spaces. When unfolded, the shell returns to full protective geometry through a controlled articulation system built into the structure. The folding mechanism relies on engineered segments connected along predefined axes to enable repeated transformations while maintaining stability during use. Material choices balance impact resistance, weight reduction, and durability, combining a lightweight outer protective surface with an internal support structure for comfort and stability. The design also considers tactile and visual qualities, referencing vintage cycling accessory aesthetics, and supports repeatable manufacturing and efficient assembly.
Read at designboom | architecture & design magazine
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