Designing outdoor trash cans to withstand damage from rollators equipped with thermoelectric modules requires a combination of robust materials, strategic placement, and innovative engineering. Here are key strategies to achieve this:

1. Durable Materials: Use high-density polyethylene (HDPE) or powder-coated steel for the trash can body. These materials resist dents, scratches, and corrosion, making them ideal for high-traffic areas.

2. Reinforced Base: Incorporate a weighted or anchored base to prevent tipping. Rollators with thermoelectric modules may exert additional force, so a stable foundation is crucial.

3. Protective Barriers: Install low-profile metal or rubber bumpers around the trash can’s lower section. These act as shock absorbers, minimizing impact damage from rollators.

4. Thermoelectric Module Integration: Design trash cans with recessed or shielded thermoelectric modules to prevent direct contact with rollators. This protects both the trash can and the rollator’s components.

5. Ergonomic Height and Shape: Opt for a cylindrical or rounded design to deflect impacts. A height of 30-36 inches ensures accessibility while reducing collision risks.

6. Urban Placement: Position trash cans away from high-traffic rollator pathways or near seating areas to minimize accidental collisions.

By implementing these design principles, outdoor trash cans can remain functional and aesthetically pleasing while resisting damage from rollators with thermoelectric modules. This approach enhances urban infrastructure longevity and user convenience.