On uneven roads, stretchers can shake and bump due to terrain changes, making it difficult for rescuers and potentially causing secondary injuries to patients.
I've designed a handheld stabilizer to address this issue. It can be attached to existing stretcher handles and uses a balance stabilization system to counter and reduce external bumps and vibrations. This helps patients on stretchers maintain stability during movement, reducing the risk of additional injuries during transfer.
The product features an internal balance stabilization system similar to a handheld gimbal. It comprises two parts: a momentum balance system to suppress rotational shaking and a spring balance system to suppress linear shaking. This structure effectively mitigates minor bumps caused by road unevenness and rescuer walking, significantly reducing the chances of secondary injuries to patients.
The body of the product is fabricated from aluminum-magnesium alloy material, which is both lightweight and robust. The surface is treated with Teflon coating to increase roughness and offer corrosion resistance, effectively enhancing friction, preventing hand slippage caused by sweat or other liquids, and improving stability during transportation
