HITBOT Z-Arm 1832 Alternatives & Competitors
Ranked Nr. 272 of 218 Cobots
Top 10 Z-Arm 1832 Alternatives
- Elephant Robotics mechArm 270-Pi
- Elephant Robotics myBuddy 280
- Elephant Robotics All-In-One Suite
- Brooks Automation DIRECT DRIVE 6-AXIS
- HITBOT Z-Arm 2442
- F&P ROBOTICS P-Rob Eco
- Brooks Automation PreciseFlex DD4 6-axis
- Brooks Automation PAVS6
Elephant Robotics mechArm 270-Pi
Payload 0.25kg | Reach 270mmThe MechArm 270-Pi is a six-axis collaborative robotic arm that is designed to be compact and powered by a Raspberry Pi. This robotic arm is a DIY kit that allows users to build their own robotic arm and program it to perform various tasks.
The MechArm 270-Pi is one of the most compact six-axis collaborative robotic arms on the market. It has a reach of 270mm and a payload capacity of 0.25kgs, which makes it ideal for small-scale automation tasks. The arm is designed to be collaborative, which means it can work safely alongside humans without causing any harm.
The robotic arm is powered by a Raspberry Pi, which is a popular single-board computer that can be programmed using a variety of programming languages. The Raspberry Pi provides a user-friendly interface for programming the arm, and it also allows the arm to be integrated with other devices and systems.
The MechArm 270-Pi is a DIY kit, which means that users need to assemble the arm themselves. The kit includes all the necessary components, including the motors, the controller, and the Raspberry Pi. The assembly process is straightforward and can be completed in a few hours.
Once the arm is assembled, users can program it to perform various tasks using Python or other programming languages. The robotic arm can be used for a wide range of applications, such as pick-and-place tasks, machine tending, and quality control.
Elephant Robotics myBuddy 280
Payload 0.25kg | Reach 280mmmyBuddy 280 by Elephant Robotics is a 13 DoF collaborative robot, and a double-arm robot that is considered as the most cost-effective dual-arm robot powered by Raspberry Pi. Each arm of the robot has a payload of 500g, a reach of 280mm, and 6 axes.
The robot's design allows it to work collaboratively with humans, making it ideal for a wide range of applications in small and medium-sized enterprises. The robot's high degree of flexibility and adaptability, along with its low cost, makes it an excellent choice for various tasks such as machine tending, packaging, pick-and-place, and assembly.
The robot is also equipped with a visual programming interface, allowing even those with no prior programming experience to operate it. Its compact size and lightweight make it easy to integrate into existing workflows, and its safety features, such as collision detection and force sensing, ensure safe operation around humans.
Elephant Robotics All-In-One Suite
The Elephant Robotics myCobot 320 All-In-One Suite is a comprehensive package that includes the myCobot 320 robotic arm and a variety of end-effectors that can be used for different tasks. The myCobot 320 is a six-axis collaborative robotic arm that is designed to be compact and easy to use. It is suitable for a wide range of applications, including manufacturing, research, and education.
The All-In-One Suite includes several different end-effectors that can be used with the myCobot 320 robotic arm, including:
1. Suction Cups: The suction cups can be used to pick up and place small objects, such as electronic components, without damaging them.
2. Adaptive Gripper: The adaptive gripper is a versatile end-effector that can be used to grip and manipulate a wide range of objects, including irregularly shaped objects.
3. Soft Gripper: The soft gripper is designed to handle delicate objects, such as food or biological samples. It has a soft, compliant material that can conform to the shape of the object being gripped.
4. Air Compressor: The air compressor is used to power the air parallel gripper. It provides a source of compressed air that can be used to actuate the gripper.
5. Air Parallel Gripper: The air parallel gripper is a powerful end-effector that can be used to grip and manipulate heavy objects. It uses compressed air to actuate the gripper jaws, which can exert a significant amount of force.
The myCobot 320 robotic arm is designed to be easy to use and program. It can be programmed using a variety of programming languages, including Python and Blockly. It also includes an intuitive graphical user interface that makes it easy to control the arm and its end-effectors.
Brooks Automation DIRECT DRIVE 6-AXIS
The Brooks Automation Direct Drive 6-Axis is a robotic arm designed for use in a variety of industrial automation applications. It has six degrees of freedom, allowing for complex movements and positioning. The direct drive technology in the robot provides high precision, speed, and accuracy in its motion control, making it well-suited for tasks such as material handling, assembly, and inspection.
HITBOT Z-Arm 2442
Payload 3kgThe Hitbot Z-Arm 2442 is a collaborative robotic arm designed for various industrial applications. This lightweight robotic arm weighs only 19kg and has a compact design, making it easy to install and use in confined spaces. The robot has a built-in motion controller, with 24 I/O ports for extensibility and adding one more arm.
The robot has four axes, with a maximum payload of 3kg and a rated payload of 2kg. The robot arm has a reach of 220mm for the J1 axis, 200mm for the J2 axis, and 240mm for the Z-axis. The rotation range for the J1 axis is ±90°, for the J2 axis is ±164°, and for the R-axis (optional) is ±1080°. The maximum average linear velocity of the robot arm is 1255.45mm/s (with a 1.5kg payload) and 1023.79mm/s (with a 2kg payload). The repeatability of the robot arm is ±0.03mm.
The robot arm supports HITBOT grippers such as Z-EFG-8S, Z-EFG-12, Z-EFG-20, Z-EFG-20S, Z-EFG-30, and Z-EFG-50. Additionally, the robot arm has optional accessories such as grippers, a 5th axis, a 485 board, and a 3D printing kit. The robot arm has a customizable Z-axis height ranging from 0.1-1 meter and supports drag-to-teach programming.
The robot arm has a voltage of 220V/110V 50-60Hz DC24V and power of 500W. The robot arm communicates through Ethernet and has a working temperature range of 0-55℃ with RH85 humidity. The robot arm has digital input (isolated) with 9+3 arm extensibility and digital output (isolated) with 9+3 extensibility for one more arm. The robot arm has collision detection technology, making it safe to operate in human-machine collaboration scenarios.
Overall, the Hitbot Z-Arm 2442 is a high-performance and versatile robotic arm that can be used in various industrial applications, including pick-and-place, assembly, and packaging. With its lightweight and compact design, customizable height, and extensibility, it is an excellent choice for industries looking for cost-effective and efficient automation solutions.
F&P ROBOTICS P-Rob Eco
Payload 5kg | Reach 900mmP-Rob Eco is a collaborative robotic arm designed from scratch for industrial applica- tions. The six-axis robot arm is particularly easy to operate with the myP software and can comfortably be integrated into automation processes.
Particularly simple and fast setup, programming and operation
No wiring required on the outside of the arm
Numerous access options, including remote access
New application possibilities thanks to the endlessly rotating 6th axis
Easy cleaning
Excellent compatibility with external software
Control box can be configured with a second PC, valves, relays, etc.
High safety thanks to collision detection and safe speed reduction
Ideal for mobile applications due to its light-weight design and high energy efficiency
Brooks Automation PreciseFlex DD4 6-axis
Payload 6kg | Reach 896mmThe Brooks Automation PreciseFlex DD4 6-axis is a collaborative robot that offers the precision and repeatability of traditional robots with the ease of use of popular collaborative robots. With direct-drive motors in the base and elbow and a gear belt drive for the Z axis, the PreciseFlexTM offers the benefits of both traditional and collaborative robots. The patented design allows the robots to move at speeds similar to human movement while still adhering to ISO collaborative robot standards for safety.
The cylindrical working volume of these robots requires a smaller footprint in the factory and the design allows for higher tool speed motions with lower kinetic energy. The controls and power supplies are located inside the robot, making it ideal for mobile applications with a reduced overhanging moment. Soft foam covers are also included to cushion collisions and protect operators.
Brooks Automation PAVS6
Payload 7kg | Reach 770mmThe Brooks Automation PAVS6 is a robotic arm designed for use in the semiconductor and electronics manufacturing industries. It is a 6-axis robot that provides high precision and accuracy in its motion control, making it well-suited for tasks such as material handling, assembly, and inspection. The PAVS6 is designed for use in cleanroom environments, making it ideal for handling delicate and sensitive components in the semiconductor and electronics industries. It is typically used in applications such as wafer handling, material transfer, and other similar tasks in the semiconductor manufacturing process.