Our Products
ARTICULATED ROBOT ARM
The robot will be used to learn how to assemble a robot builder package (scaled down models of industrial robots used for handling, pick and place, welding, other applications) right from its inputs of PCB boards, servo and stepper motors forming the drive elements and then doing control programming on ROS.
One robot will be kept for assembly by students and the other one serves as a reference.
Student can get in-house industrial and assembly line exposure.
Student will be industry ready.
The student will be able to apply mathematical, algorithmic and control principles of robot arm manipulators.
It imparts Technical and Computer skills to the student.
Assembling of mechanical parts, Joint types, connecting structure and gears, fastening skills will be gained.
Software programming skills
ARTICULATED ROBOT ARM FOR PALLETIZING APPLICATIONS
The robot will be used to learn how to assemble a palletizing robot (four axis) right from its inputs of PCB boards, servo and stepper motors forming the drive elements and then doing control programming on ROS along with understanding of the vacuum circuit. Student will learn how palletizing robot requires a different application set of movements for the following:
Robotic Arm Schematics
Servo Motor Concepts
Robot Kinematics
Various controlling methods like app, Bluetooth, gesture, remote etc.
Assembling of mechanical parts, fastening skills
Circuit Wiring
Electronic PCB Manufacturing
Software programming skills
Computing skills
GESTURE CONTROL THROUGH ROBOT ARM & PALM
This robot arm will be used for Mechatronics, PCB learning and Servo motor Control Programming and Gesture control programming.
Students will learn:
3D CADD designing software
3D printing skills
Robotic Arm Schematics
Servo Motor Concepts
Robot Kinematics
Wireless communication, flex sensors, microcontrollers.
Assembling of mechanical parts, fastening skills
Circuit Wiring, Software programming skills
Computing skills
AUTOMATED AND BUTTON BASED ROBOT PALM FOR GESTURE CONTROL
This root arm will be used for Mechatronics, PCB learning and Servo motor Control Programming and Gesture control programming:
ARTICULATED ROBOT ARM (GESTURE CONTROLLED CELL)
The write up in this table is not part of the tender specifications – Just for our internal understanding and reference BRAL
The students can understand the basics of mounting and dressing of EOAT, gripper, cable dressing work along with the effect of gesture-based movements on a six-axis robot. They can understand tool frames, TCP based programming and integration with the gesture sensor. All students will be trained on communication protocol for multiple applications with common robot controller with focus on the gesture control The gesture-controlled robot cell will constitute an articulated robot arm with 6 axes along with controller and teach pendant. The robot will be mounted on a Pedestal and will be carrying a gripper which can be used to hold the objects.
The worktable for pick-up and place of components by robot gripper, shall be made of aluminum extrusions with proper covering by acrylic sheets.
The student will make the relevant gestures, which will be picked up and communicated to the robot controller. The robot controller will then request the robot to execute the relevant program.
The solution incorporates the following for the students:
Gesture based programming which allows them to study the algorithms and different type of interface between human and machine.
Useful for future advanced human interactive robots and smart systems.
Study and in-depth understanding of gestates and system control over the gesture actions.
Understanding handling and Welding application interfaces on robot controller
MULTIPURPOSE ROBOT
Service Robot: These robots are being developed using the latest technologies like SLAM, LIDAR, IOT, ROS etc and manufactured using the 3D Printing technologies for service industry like hospitality, security and defense. These robots are being increasingly developed for multiple applications/domains as provided below.
A. Hospitality Robot: 1 Nos The robot will be used to learn how to assemble PCB and Circuit designing, Mechatronics, Machine Learning & RFID Programming and Magne!c Land Mark Sensing Programming.
This will help students to learn on the following subjects:
Ideal platforms to introduce STEM related subjects such as Math's, Physics, Computer Science and Programming
Cross-curricular applications that connect theory with practice
Fully adaptable
Hands-on, project-based learning to encourage teamwork
Enhances creative problem-solving techniques
Promotes active learning
Introduction to Robot Kinematics
GROUND BASE DOM ROBOT
The write up in this table is not part of the tender specifications — Just for our internal understanding and reference design irobo
The robot is ground based model for multiple movement, different programming and sensors for studying DOM.
The robot will be used to learn how to assemble PCB and Circuit designing, learning servo motors, ultrasonic sensor and control programming:
Robot gives you a great chance to learn about robotic science.
Hexa robot kit gives you a platform to explore advanced robotics, kinematics, and programming. It makes complex robotics less costly.
Assembling of mechanical parts, fastening skills
Software programming skills
Computing skills
DOM (HEXA) ROBOT WITH AR
The robot is a hexa robot model for multiple movement, different programming and sensors
The robot will be used to learn how to assemble PCB and Circuit designing, learning servo motors, ultrasonic sensor and control programming. This is also additionally used for augmented reality programming.
This will help students learn the following:
Robot gives you a great chance to learn about robotic science.
Hexa robot kit gives you a platform to explore advanced robotics, kinematics, and programming. It makes complex robotics less costly.
Assembling of mechanical parts, fastening skills
Software programming skills
Computing
The write up in this table is not part of the tender specifications — Just for our internal understanding and reference design irobo
CG ROBOT (SERVICE ROBOT FOR MULTITASKING UTILITIES)
CG study Robots
The student will learn the following
Robot gives you a great chance to learn about robotic science.
Hexa robot kit gives you a platform to explore advanced robotics, kinematics, and programming. It makes complex robotics less costly.
Assembling of mechanical parts, fastening skills
Software programming skills
Computing skills
AI BASED ROBOTIC FACE
Al Based Robotic face
The robot is a Al based Robotic face for learning programming. This also has a voice component with voice assistance. The robot will be used to learn python based raspberry programming and 3D printing alongwith servo motors control programming. The Al based voice and reorganization programming is another area of learning. This robot will enable students to learn the following:
Voice responsive
Google Assistance
5 Degree of movement
Equipped with Eye movement, neck movement, head movement and jaw movement.
Python based programming.
CCTV LESS SURVEILLANCE ROBOT
Student will gain knowledge of:
Various parts of a car like disc brake, chassis, combustion system etc.
Principles of Center of Gravity, Weight, body dynamics, velocity etc.
Working of motors, microcontrollers (ATM EGA 128), motor drivers, decoders etc. will be learned.
Circuit Wiring, Software programming skills
Computing skills
WALK WITH ME ROBOT
This will help the student learn the following:
3D Printed Parts
Life liked robot design
Voice responsive
5 Degree of movement
Equipped with hand movement, neck movement, head movement and jaw movement.
Python based programming
GROUND BASE DOM ROBOT WITHOUT AR
The robot is a hexa robot model for multiple movement, different programming and sensors
The robot will be used to learn how to assemble PCB and Circuit designing, learning servo motors, ultrasonic sensor and control programming. This is also additionally used for augmented reality programming.
This will help students learn the following:
Robot gives you a great chance to learn about robotic science.
Hexa robot kit gives you a platform to explore advanced robotics, kinematics, and programming. It makes complex robotics less costly.
Assembling of mechanical parts, fastening skills
Software programming skills
Computing skills
The write up in this table is not part of the tender specifications — Just for our internal understandin: and reference desi n irobo
AERIAL DEMO EQUIPMENT
The students will learn the following:
Ideal platforms to introduce STEM related subjects such as Math's, Physics, Computer Science and Programming.
These are a useful tool for university researchers to test and evaluate new ideas in a number of different fields, including flight control theory, navigation, real time systems, and robotics.
They are relatively cheap, available in a variety of sizes and their simple mechanical design means that they can be built and maintained by amateurs.
CUT FEET HUMANOID ROBOT
This will help students learn the following:
Cross-curricular applications that connect theory with practice
Fully adaptable
Hands-on, project-based
learning to encourage teamwork
Enhances creative problem-solving techniques
Promotes active learning
Introduction to Robot Kinematics
Assembling of mechanical parts, fastening skills
Software programming skills
Computing skills
Robotics can teach students how to communicate across different technology platforms.
BIPOD ROBOT
The robot will enable students to learn the design and implementation methodologies for moving leg-based robots.
The robot can both walk forward or backward and crouch, stand up, turn, even can do a lot of forward roll and backward roll.
Arches punching, corner cutting to reduce weight, the hole can be attached with soles sensor to detect gait.
Structure: uses aluminum alloy + Acrylic board
Digital servo: all joints use high-precision digital servo.
It can walk forward or backwards and turn in place left or right with variable speed.
LINE FOLLOWER ROBOTS
These robots are utilized for learning programming and assembling of the following:
Line following programming for different patterns
Wall following programming for different patterns
A.App control programming
B. Line Follower Robot
A.App control programming
B. Line Follower Robot
The student will learn the following:
Line follower Robot is one of the first robots that beginners and students would get their first robotic experience with.
You will learn the line tracking, obstacle avoidance, Infrared remote control, Bluetooth remote control of the smart turtle car, you can also extend other functions on this robot platform.
Designing the mechanical part or the body of the robot
Defining the kinematics of the robots
Designing the control of the robot
WALL FOLLOWING ROBOT
A wall following robot is designed to move along a wall without hitting it. It has obstacle detection sensors mounted on the body which detects wall and drive DC motors attached to the wheels such that the robot keeps moving along the wall.
This Arduino development kit is designed based on the Arduino board, together with 2-channel & 16-channel servo shield board to drive the tank and 4WDcar
MOBILE APP ROBOT
The student will be able to under the following:
It is a mobile robot which detects the light (such as the light of a flashlight) and follows the light on the travelling path.
Mini tank robot is a learning application development system of microcontroller based on MCU.
It has functions such as ultrasonic obstacle avoidance, Bluetooth remote ® control.
This kit is designed to help you interestingly learn Aduino. You can learn MCU development ability while having fun.
MOBILITY CONTROL THROUGH SENSORS FOR AUTOMOTIVE
The student will be able to understand the control of the car driver elements (wheels and wheel shaft) with feedback through visual device i.e. camera
ROBOT MANUFACTURING EQUIPMENT'S AND MACHINES
Assembly Line for PCB
Assembly Line for Mounting the through hole Components of the PCB and other assembly work related things; PCB Making and Component Mounting. 4 Set both side(qty-2).
Testing Station-(Ammeter, Voltmeter, Digital Microscope etc
Testing station(Ammeter & Voltmeter) with all required testing tool for PCBcircuit, DSO (20 MHz or more, Dual Channel)
CNC Router
Size Dimension:
90cm *70cm*60cm
Weight: 56 Kg.
Axis : 3
Type of screw:
ball screw
Engraving area:
Engraving area:
Z-Axis Stroke: 68mm
Input Voltage: 220
Acceptable material thickness: less than 95mm
Arduino Kit
Various Type of Sensors
Arduino Robotic Ploter
Size - 55 × 45 × 15 cm
Weight – 5 KG
Input Voltage- 220 (12V SMPS)
Arduino UNO Controller,
3D Printer
Fused Filament Fabrication (FFF)
Printing Area 400x400x400 mm Printing, volume approx. 64 liters
capable material – PLA, ABS, HIPS, PET-G, Nylon etc
Print Resolution – 0.1 mm / 100 micron
Extruder : dual extruder
Minimum layer thickness: 0,05 mm (50 microns)
Nozzle type - Brass
Extruder maximum temperature: 260° C
Printing bed maximum temperature: 100° C
Connectivity – SD-card/USB/Wi-Fi (Optional)
Auto resume printing from top
Acrylic bending machine
Size Dimension (WxDxH)
1920*430*210mm
Weight: 35.5 KG
Input Voltage: 220V
Temperature adjustable during 0-600° C, (According to different thickness of sheet.)
Material / Metal Processed: Plastic
Raw Material:Sheet / Plate Rolling
Machine Type:Roller-Bending Machine
Supply Ability:500 Set/Sets per Day
3D Pen
Printing Technology: Fuse Filament, Fabrication (FFF)
Material: PLA
Nozzle Diameter: 0.8mm