Small robot arms programmable in Python, C++, Blockly (ROS, SDK)
Why should I used a robot arm in my project?
Articulated robotic arms are essential in any project that involves item grasping:
- Pick and place (moving an object to a specific spot)
- Sample gathering
- Tool handling (e.g. welding robots)
- Product testing (e.g. multiple taps on a smartphone screen or on buttons)
- Etc
What types of robot arms are available for sale at Generation Robots?
Generation Robots supplies two main types of robotic arms:
- Collaborative robots (cobots)
- Desktop robotic arms
What is a cobot?
A cobot, or collaborative robot, is equipped with many sensors which make them aware of their immediate surroundings in real time. This means that the robot can perform its tasks next to a human, without hurting him by accident. These are usually tall robotic arms, programmed to stop working instantly if it detects a worker in its "safety zone".
What is a desktop robotic arm?
As their name suggests, desktop robotic arms are smaller than cobots, allowing them to be mounted on a desk, a workbench, or any work surface.
Is the number of axes a key factor?
A robot with 6 axes can reach any point in space, with any given orientation. 6 axes robot are perfect for performing a great number of tasks.
For example:
- Grab the bottom of a tool (screwdriver, hammer), turning it over, and put it back at its spot
- Writing on a desk or wall
- For applications that require a high degree of accuracy (especially in industry), but not intricate movements, a 6-axis robot may be oversized, and a 4-axis arm will do a fine job.
Most robotic arms have 6 axes, but it is possible to have more. In a space with obstructions, a 7 or 8 axis arm will be more suitable than a 6 axis.
A 7-axis arm will go around the obstacles in its pathway and perform its tasks (welding, picking up objects).
Which robotic arms are Arduino-based?
In our catalog, the robotic arms based on Arduino are the following: the Trossen Robotics range, including the ViperX, WidowX, PincherX arms, can be programmed in the Arduino environment (Arduino IDE).
Some robots from the Niryo Robotics brand are Arduino-compatible and they are all equipped with a Raspberry Pi board. The arms can be controlled from an master Arduino board.
The Ned3 Pro is a 6-axis robotic arm designed to automate low added-value professional tasks.
This gripper is equipped with 3D-printed jaws, screwed onto the end-effector. For maximum flexibility, we provide STL files so you can 3D-print and adjust the jaws according to your specific use case!
Benefit from a tailored setup and installation, suitable for both small and large classrooms. Access robots and a comprehensive range of accessories to create multidisciplinary learning experiences, with advanced support through Niryo Studio and Niryo Academy.
The Bundle Discovery is the ideal solution for teaching with a plug & play setup and a complete ecosystem, offering countless exploration possibilities. This innovative and versatile tool enriches the educational experience while unlocking limitless creative potential.
Niryo has also chosen to equip its Ned2 robot arm with a vision set, for colour object detection and recognition.
This Niryo Ned 2 compatible conveyor belt is a robot arm accessory you can use to design your next industrial production line or improve your robotics programming education.
This Niryo accessory enables the Ned2 6-axis robotic arm to lift and move objects with flat, smooth, non-porous surfaces that are too thin to be picked up by any other means
This adaptive gripper for the Niryo Ned2 6-axis robot arm adapts perfectly to handling of more complex objects: round items, pens, eggs, etc.
With this large gripper for the Niryo Ned2 6-axis robot arm, you can grab larger objects than with the custom gripper supplied.
You’ll find additional uses for your Niryo Ned2 6-axis robot arm thanks to this electromagnet, a tool designed to catch everything the other grippers won’t.
Ned2 is Niryo’s new 6-axis robot arm. It’s robust, can be customised and is suitable for many research, teaching and industrial development applications.
PincherX 150 is the new robot arm by Trossen Robotics, designed to showcase the Dynamixel (X-Series) servo technology in a sleek, customisable machine.
The Robotis RH-P12-RN-UR Hand is an industrial gripper designed to adapt to the UR e-Series collaborative robot arms. It combines strength, a light weight, precision and adaptability for use in many robotic and industrial settings.
The base plate for OpenManipulator-Pro robotic arm is used to easily fix your articulated arm to a table or any flat surface.
The Base Plate-02 for OpenManipulator is used for fixing your TurtleBot3 accessory securely on a flat surface.
The OpenManipulator RM-X52 kit shown here includes servos. It allows you to equip your TurtleBot3 Waffle or Waffle Pi robotised platform with new functions.
Want to design a OpenManipulator robotic arm (similar to the RM-X52 model) for your TurtleBot3 robot? This set includes all the tools and mechanical parts you need to build this ROS compatible robot arm.
Some robots can have a particularly strong grip... With the Robotis RH-P12-RN hand, your robot now belongs to the club!
The ROBOTIS Manipulator-Pro robotic arm robotic arm will impress you with its strength and robustness but also its accuracy and dexterity. It allows you to control its actions with the highest level of precision, and offers a very comprehensive programming environment. This robot arm is ROS compatible.
Operating with five intelligent Dynamixel servomotors, the WidowX robot arm offers some great opportunity.