- International Journal of 3D Printing Technologies and Digital Industry
- Cilt: 9 Sayı: 3
- DEVELOPMENT OF A 4-DOF LOW-COST ROBOTIC ARM WITH INTEGRATED CONTROL SYSTEMS AND 3D-PRINTED MECHANICA...
DEVELOPMENT OF A 4-DOF LOW-COST ROBOTIC ARM WITH INTEGRATED CONTROL SYSTEMS AND 3D-PRINTED MECHANICAL DESIGN FOR EDUCATIONAL PURPOSES
Authors : Mohammad Yaman Habra, İsmail Cantürk
Pages : 612-623
Doi:10.46519/ij3dptdi.1758356
View : 81 | Download : 397
Publication Date : 2025-12-28
Article Type : Research Paper
Abstract :This study presents the design and development of a compact, low-cost 4-degree-of-freedom (4-DOF) robotic arm that integrates 3D-printed mechanical structures, a custom PCB-based control system, and Denavit–Hartenberg (D–H) kinematic modeling. The system achieves precise multi-joint motion using stepper-servo actuation and real-time analog joystick control. MATLAB-based simulations with Robotics Toolbox, Simscape, and Inverse Kinematics Designer validated the arm’s kinematic accuracy and workspace performance. A custom-designed planetary gearbox enables each joint motor to deliver up to 3.8 N·m of torque, enhancing the arm’s lifting capability and motion stability. The final prototype achieved a positioning accuracy of ±2.5 mm, a workspace volume of 1.13 m3, and a total build cost below $100 USD. The entire system was fabricated using FDM 3D printing and open-source electronics, enabling full reproducibility for educational and research purposes. Compared with existing open-source arms, the proposed design provides an improved torque-to-cost ratio and modular structure, making it suitable for instructional use in mechatronics and robotics courses.Keywords : Robotic Arm, DOF, Stepper Motor, Servo Motor, Kinematics, PCB, 3D Printing, Educational.
ORIGINAL ARTICLE URL