Spine Optics is a company that offers a range of frames that come with a unique self-closing hinge mechanism. Inspired by the human backbone, this setup ensures that glasses are firmly held in place on your face, and even offers extra flexibility in order to fit heads of different sizes. and shapes.
The system is modeled after the human spine in that it comprises a series of vertebrae in such a way that nothing pivots on a screw, and none of the individual pieces need to rotate any more than 18 degrees. The contraption is held securely together by a wire cable that is kept under constant tension by a dual-spring mechanism that ensures that the glasses close up when they're not being held open.
Eyeglass frames have evolved a fair bit already, but Spine Optics' mechanism is 'threatening' to initiate a quantum leap in eyeglass frame design.
Self-Hinging Eyeglass Frames
The Spine Optics Hinges Hold Your Glasses Firmly In Place
Trend Themes
1. Self-closing Hinges - Eyeglass frames with self-closing hinges offer disruptive innovation opportunities in the eyewear industry by providing greater stability and flexibility to fit heads of different sizes and shapes.
2. Backbone-inspired Design - The trend of designing products inspired by the human anatomy can lead to disruptive innovation opportunities in various industries, including fashion and product design.
3. Tension-spring Mechanisms - The use of tension-spring mechanisms in product design offers disruptive innovation opportunities in industries like automotive and engineering for creating products with greater durability and stability.
Industry Implications
1. Eyewear - The eyewear industry can benefit from incorporating self-closing hinges in their frame designs to offer greater stability and a better fit for their customers.
2. Fashion - The fashion industry can explore the trend of designing anatomically inspired products, like Spine Optics' frames, to create unique and functional fashion accessories.
3. Product Design - The use of tension-spring mechanisms can be applied in various industries, like automotive and engineering, to improve the durability and stability of products.