Unbound Bionix
Hardware- 5 Devlogs
- 7 Total hours
An Affordable Prosthetic Arm
devlog 5 or 4 i honestly dont remember lol: I am done with the Palm!!!! and I also assembled the fingers to check !!! yes lets goo!! Printing the index finger tomorrow
Devlog 4: I was already done with 2 fingers earlier, I made the 3rd one today and I used Ai to build the pinky and thumb finger as it was just copying the dimensions editing the sketch and fixing the hole problem
What I set out to build:
I wanted to complete the fingers in this session which I did achieve + I am done with palm’s basic layout and structure planning, In next session I will be improving and finalising the palm assembling all of it together for once to check it all fits then work on the forearm
Devlog 3 : Bionix
Ring finger design has been done and assembled in a sepearate folder I did not face any problems while making this design, Only pinky finger and thumb are left then I will start with palm and forearm respectively!
Devlog2 : Unbound bionix,
Update: last devlog I was finished with the index finger dimensions well I just printed index finger to confirm movement and it’s moving as expected, I also Made the middle finger design by editing sketch of index finger but fixing the hole sliding issue,
failures: I encountered multiple failures planning the design of index finger, but I did make it work and I am really happy for that,
what is left?
designing all fingers and thumb according to their dimensions and then designing the palm and forearm respectively and then moving on to the electronics part
session pic:
here is one session pic where I show the assembled middle finger design, for the middle finger the proximal phalange is 5 cm long, the distal phalange is 2 cm and the middle phalange is 3 cm!
Everyday tasks such as holding a bottle, typing on a keyboard, opening a door, or picking up a pen are actions most of us perform without thinking. For millions of people living with upper-limb loss, these simple activities can become significant challenges that affect independence, confidence, and quality of life.
While modern prosthetic technology has advanced considerably, many solutions remain prohibitively expensive, difficult to customize, or inaccessible to students, researchers, and people in developing regions. Devices that offer advanced functionality often cost thousands of dollars, creating a gap between innovation and accessibility.
Prosthetic Arm V1 is an attempt to bridge that gap.
The goal of this project is to design a lightweight, modular, and affordable prosthetic arm that can be manufactured using 3D printing and standard electronic components. Rather than focusing solely on appearance, the design prioritizes practical functionality, durability, and ease of maintenance.
Current Objectives
Design an anatomically inspired finger and joint mechanism.
Develop smooth and reliable tendon-driven motion.
Create a modular structure that allows individual parts to be replaced or upgraded.
Keep manufacturing costs as low as possible without sacrificing functionality.
Build a foundation for future versions with improved dexterity and sensor integration.
Progress
Today, I completed the initial CAD model for one of the fingers and started testing the joint geometry. The focus is on achieving a balance between strength, range of motion, and ease of assembly before moving on to full-hand integration.
This is only Version 1, and there is still a long way to go, but every iteration brings the project one step closer to creating an accessible prosthetic solution that anyone can build, improve, and use.
Next milestone: Complete the middle finger and begin integrating the tendon routing system.
