High arches, flat feet, out-toeing, foot eversion, bunions, X/O-shaped legs… these foot problems not only affect daily walking and athletic performance, but may also cause discomfort in the knees, hips, and overall body posture. Just as glasses can correct vision, corrective insoles can provide scientific support for different foot types, and a 3D laser foot scanner can accurately measure the plantar shape, providing a reliable basis for the custom making of corrective insoles.
One, precise measurement of the plantar shape
Comprehensive scanning of the foot
The 3D laser foot scanner can obtain complete three-dimensional plantar data in a short time, including arch height, distance between toes, and foot contours. For patients with high arches, the scanner can accurately depict the protruding areas of the arch and the curves of the foot, providing precise reference for insole design.
Two, personalized customization of insoles
- Different foot types
Each person’s foot shape and gait are different, so corrective insoles must be custom-made based on precise measurement results. The data provided by the scanner can be used to design support, cushioning, and stabilizing structures for the arch, allowing the insole to fit the foot perfectly, ensuring comfort and functionality.
- Adaptable to different age stages
Children, adolescents, and people whose foot shape changes due to injury or illness may exhibit different characteristics at different times. The personalized custom insole can be designed and adjusted according to foot development or recovery, ensuring continuous and stable support, suitable for long-term use.
Three, high-quality materials and technology
- Material selection
Common polymer materials for corrective insoles include EVA, TPU, and PP, which have both elasticity and durability. For patients with high arches, the mid-arch support area of the insole is usually made of medium-hardness material, while cushioning areas are made of soft, elastic material to achieve both support and comfort.
- Precise craftsmanship
This utility model uses advanced cutting, forming, and bonding processes to ensure the insole’s shape closely matches the scan data. Smooth edges prevent irritation of the skin and also ensure the insole does not easily deform or delaminate during long-term use, making it firm and durable.
Four, comfort and adaptability
- Comfortable fit
Custom insoles need to provide scientific support for the arch while ensuring wearing comfort. The data provided by the scanner allows the insole to perfectly match the shoe’s internal space, avoiding sliding or curling and giving a stable and comfortable wearing experience.
- Easy adaptation
Scientifically designed insoles allow users to adapt quickly without affecting normal walking and activity. When supporting the arch, the insole mimics the feel of a regular insole as much as possible, enabling patients with high arches to gradually improve daily gait issues, making walking easier and more natural.
Five, promoting foot health and improving quality of life
This utility model uses a 3D laser foot scanner to accurately measure foot shape and, combined with personalized corrective insoles, can effectively relieve discomfort caused by high arches, allowing users to walk, exercise, or stand for long periods with ease and comfort. Whether in daily life or athletic training, users can experience a stable and comfortable walking sensation.
The 3D laser foot scanner combined with customized corrective insoles provides a scientific, precise, and comfortable foot improvement plan for people with high arches, making every step stable and confident.
