Design Development and Control of four degree of freedom robotic manipulator
The proposed project involve the design, development and control of four degree of freedom robotic manipulator . The robotic manipulator refers to the freedom of a rigid body in a three dimensional space. The project describe a mechanical system, design concept and prototype imp
Project Title
Design Development and Control of four degree of freedom robotic manipulator
Project Area of Specialization
Project Summary
The proposed project involve the design, development and control of four degree of freedom robotic manipulator . The robotic manipulator refers to the freedom of a rigid body in a three dimensional space. The project describe a mechanical system, design concept and prototype implementation of a four degree of freedom robotic manipulator. It performs various tasks such as pick and place of fragile objects. The robotic manipulator consist of base, shoulder, elbow, wrist rotation and a functional gripper which is being controlled by Arm Cortex M3 micro controller. The Gripper has been built as end-effector and is capable of grasping diverse objects within own workspace of the arm possible.
Project Objectives
The main objectives of the project are:
- Design of four degree of freedom robotic manipulator with three degree of freedom wrist joint.
- Calculation of forward and inverse kinematics of robotic manipulator.
- Implementation of four degree of freedom robotic manipulator in MATLAB Robotic Tool Box using above calculated kinematics.
- Fabrication of four degree of freedom robotic manipulator.
- Implementation of control mechanism for four degree of freedom robotic manipulator.
Project Implementation Method
The implementation methodology of this project involves the calculation of Forward and Inverse Kinematics of the four degree of freedom robotic manipulator. This project contains a Lab view based GUI which is connected with the Arm cortex M3 micro-controller.The Arm cortex M3 micro-controller is controlled by commands delivered by laptop/PC.The Arm cortex M3 micro-controller controls the direction and PWM of motors by using the dual H-bridge module and the feedback is given back to the Arm cortex M3 micro-controller. The motors contain quadratue encoder that reads the value of rotation by the motors and share the information with the Arm cortex M3 micro-controller . The Arm cortex M3 micro-controller execute the program and control the motor by controllling the PWM.
Benefits of the Project
Following are some major applications of our project:
- The four degree of freedom robotic manipulator is widely used in industries e.g Assembly line , Palletizing and Automatic production systems .
- Perform surgical tasks such as stitching.
- Used in hospitals e.g recovery of people with disabilities, increase in antibiotic-resistant bacteria.
- Used for agricultural purpose such as harvesting and picking ,weed control.
Technical Details of Final Deliverable
1- Arm Cortex M3 (micro controller):
Following are the specifications of Arm cortex M3 which includes:
- Operating voltage 3.3 volts.
- Low Power. 32-bit Cortex-M3 designed for low power operation.
- High Performance. Cortex-M3 delivering 1.25 DMIPS/MHz.
- Thumb-2 Instruction Set Architecture (ISA) .
- 3-stage Pipeline Core Based on Harvard Architecture.
- Reducing the 32-bit Footprint.
2- DC Geared Motor:
Following DC geared motors are being used in the manipulator.
TG 35L AM 60 C480 :
Technical Specifications are:
- Output Power (Mechanical)=30W
- Maximum Speed at Rated Voltage=139 RPM
- Rated Torque=10kg.cm
- Rated voltage=12 volts DC
- Rated Current=1.5A
- Weight=0.5 kg
- Encoder Resolution=360 CPR
Standard Servo-TowerPro SG-5010(180° Rotation):
Technical Specifications are:
- Model: SG5010.
- Weight: 39 gm.
- Operating voltage: 4.8V~ 6V.
- Servo Plug: JR.
- Stall torque @4.8V : 5.5kg-cm.
- Stall torque @6.6V : 6.5kg-cm.
3- L298N Dual H Bridge Motor Driver:
Technical Specifications are:
- Double H Bridge Drive Chip: L298N.
- Logical Voltage: 5V.
- Drive Voltage: 5V-35V.
- Logical Current: 0-36mA.
- Drive current: 2A (MAX single bridge).
- Max Power: 25W.
- Dimensions: 43 x 43 x 26mm.
- Weight: 26g.
4- Timing belts:
The belts used in manipulator are GT 2. GT2 belts have rounded teeth which reduces backlash.
- Length =1164mm (582 teeth on a 2mm tooth pitch).
- Width= 6mm.
5- Timing Pulleys:
Pulleys used in manipulator are GT 2 and the specifications are:
- Material = Aluminium.
- Pitch = 2mm.
- Width = 7 mm.
- Tooth number = 20.
- Bore = 6.35 mm .
Final Deliverable of the Project
Type of Industry
Technologies
Sustainable Development Goals
Required Resources
| Item Name | Type | No. of Units | Per Unit Cost (in Rs) | Total (in Rs) |
|---|---|---|---|---|
| Arm cortex M3(micro-controller) | Equipment | 1 | 800 | 800 |
| DC geared motors(C480, SG 5010) | Equipment | 4 | 6200 | 24800 |
| H-Bridges (L298N) | Equipment | 4 | 860 | 3440 |
| Timing pullyes and belts | Equipment | 11 | 300 | 3300 |
| Aluminium pullyes(motor) | Equipment | 4 | 250 | 1000 |
| Power supply and electronics | Equipment | 1 | 3400 | 3400 |
| Shafts | Equipment | 6 | 200 | 1200 |
| Acrylic Sheet(8mm) | Equipment | 3 | 2600 | 7800 |
| Overheads | Miscellaneous | 1 | 5000 | 5000 |
| Total in (Rs) | 50740 |
If you need this project, please contact me on contact@adikhanofficial.com
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