![Print in place pcb holder. With compliant mechanism. Its printed in pla. Rings in tye middle act as spring. Check comments for project link. Printed using ender 3 pro without supports : Print in place pcb holder. With compliant mechanism. Its printed in pla. Rings in tye middle act as spring. Check comments for project link. Printed using ender 3 pro without supports :](https://external-preview.redd.it/8zPEah4-H7DSuHmovwdFMe508lKm6k5Mn57NXbJR-SU.png?format=pjpg&auto=webp&s=92aad2060c5e3b69dd1a5c262f78682b6b94d800)
Print in place pcb holder. With compliant mechanism. Its printed in pla. Rings in tye middle act as spring. Check comments for project link. Printed using ender 3 pro without supports :
![Three compliant mechanisms. From left to right; gripper configuration... | Download Scientific Diagram Three compliant mechanisms. From left to right; gripper configuration... | Download Scientific Diagram](https://www.researchgate.net/publication/270754312/figure/fig6/AS:294995107041323@1447343722891/Three-compliant-mechanisms-From-left-to-right-gripper-configuration-1-gripper.png)
Three compliant mechanisms. From left to right; gripper configuration... | Download Scientific Diagram
![Design for Additive Manufactured Compliant Mechanisms – pd|z Product Development Group Zurich | ETH Zurich Design for Additive Manufactured Compliant Mechanisms – pd|z Product Development Group Zurich | ETH Zurich](https://pdz.ethz.ch/research/dnt/variable-impedance-elements/_jcr_content/par/fullwidthimage_1551130908/image.imageformat.lightbox.1047315275.jpg)
Design for Additive Manufactured Compliant Mechanisms – pd|z Product Development Group Zurich | ETH Zurich
![Design for Additive Manufactured Compliant Mechanisms – pd|z Product Development Group Zurich | ETH Zurich Design for Additive Manufactured Compliant Mechanisms – pd|z Product Development Group Zurich | ETH Zurich](https://pdz.ethz.ch/research/dnt/variable-impedance-elements/_jcr_content/par/fullwidthimage/image.imageformat.lightbox.444238075.jpg)
Design for Additive Manufactured Compliant Mechanisms – pd|z Product Development Group Zurich | ETH Zurich
![Exploded view of the compliant mechanism. The springs are preloaded and... | Download Scientific Diagram Exploded view of the compliant mechanism. The springs are preloaded and... | Download Scientific Diagram](https://www.researchgate.net/publication/324471897/figure/fig5/AS:614439933972487@1523505304885/Exploded-view-of-the-compliant-mechanism-The-springs-are-preloaded-and-force-feedback-is.png)
Exploded view of the compliant mechanism. The springs are preloaded and... | Download Scientific Diagram
![Figure 3 from Exploratory design of a compliant mechanism for a dynamic hand orthosis: Lessons learned | Semantic Scholar Figure 3 from Exploratory design of a compliant mechanism for a dynamic hand orthosis: Lessons learned | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/213a85b98130108a71cfb580c41e9a6a5bf3121b/6-Figure3-1.png)
Figure 3 from Exploratory design of a compliant mechanism for a dynamic hand orthosis: Lessons learned | Semantic Scholar
![Design of compliant mechanism-based variable camber morphing wing with nonlinear large deformation - Yaqing Zhang, Wenjie Ge, Ziang Zhang, Xiaojuan Mo, Yonghong Zhang, 2019 Design of compliant mechanism-based variable camber morphing wing with nonlinear large deformation - Yaqing Zhang, Wenjie Ge, Ziang Zhang, Xiaojuan Mo, Yonghong Zhang, 2019](https://journals.sagepub.com/cms/10.1177/1729881419886740/asset/images/large/10.1177_1729881419886740-fig5.jpeg)
Design of compliant mechanism-based variable camber morphing wing with nonlinear large deformation - Yaqing Zhang, Wenjie Ge, Ziang Zhang, Xiaojuan Mo, Yonghong Zhang, 2019
![A new method to design compliant mechanisms based on the inverse beam finite element model - ScienceDirect A new method to design compliant mechanisms based on the inverse beam finite element model - ScienceDirect](https://ars.els-cdn.com/content/image/1-s2.0-S0094114X13000463-gr6.jpg)