7-axes colLaborative robot arm
A range of products that adapt to any situation.
The elegant king of reach.
The impressive combination of high payload, reach and speed.
The compact powerhouse for particularly heavy loads.
The multi-tool with a large reach and a small footprint.
The flexible all-rounder with a large reach.
The elegant king of reach.
Our full range.
Our 7-axes cobot offers a greater range of motion, increased payload capacity, and improved precision. It can access hard-to-reach areas with ease, handle heavier objects, and perform delicate tasks with greater accuracy, making it an ideal solution for a wide range of industrial tasks.
Safety is our
Our cobots are equipped with sensors that detect overload, ensuring that they can operate safely in shared workspaces without the need for special safety measures. This expands the range of possible applications, including repetitive, dangerous, and dirty tasks, making our cobots an efficient and versatile solution for a variety of industrial applications. Risk assessment analyze has to be done before anything.
Intuitive user interface
The key feature of our robots. The modern-tablet based interface is using all benefits of the powerful Android System to help user build their applications.
Easy integration of various peripherals, grippers, vision systems or function extensions is backed by the modular infrastructure. Capability bundles (Cbuns) are our elementary building blocks available for specific solutions and application realisation.
You can move the robot freely while holding the drive button on the back of the teach pendant. You can also save position into your program tree.
Compatible with high variety of tools, and has an integrated backdrive to facilitate positionning and programming the robot.
Made of aluminium which makes it robust. Only 4 different sizes needed for 5 models, which facilitates the replacement of each parts of the robot. Fast, strong, simple.
This is where the 7th axis is based. The additionnal axes allowing the robot to reach around the corner and undertake the most demanding manufacturing tasks.
Having seven axis allows the cobot to have infinite positions of elbow for given position of the end effector. This allows the cobot to easily reach into tight spaces and behind obstacles.
Some common types of tools that cobot arms can support include grippers and vacuum cups for manipulating and holding objects, as well as specialized end-effectors for tasks such as welding, painting, and assembly. The choice of tool depends on the application and the requirements of the task
Our robots were thought, designed and continue to be produced in Copenhagen. Our production is located in our HeadQuarter based in Kastrup.
To program a 7th axis cobot arm, you need to familiarize yourself with the programming software and teach the arm the desired movements. This can be done through manual teaching, where the operator moves the arm to specific positions or throught the software. Once the movements are programmed, they can be saved and executed on demand.
Human-robot collaboration offers increased productivity, improved safety, and reduced costs. By working together, humans can focus on tasks requiring human skills while robots handle repetitive or physically demanding tasks, resulting in faster production times and higher output. Collaborative robots can work alongside humans safely and flexibly, reducing the need for additional safety equipment and floor space, resulting in cost savings.
The cost of a cobot arm can vary depending on several factors, such as the manufacturer, size, payload capacity, and features. It is recommended to consult your local partner to determine the best cobot arm for your needs and to get a detailed cost estimate based on your specific requirements.
A 7th axis cobot arm can be integrated with other robotic systems to create a fully automated manufacturing system.
7th axis cobot arms are highly reliable and require minimal maintenance. Regular checks and cleaning of the arm and track are recommended to ensure optimal performance.
Yes, to use teachpendant with a different controller, they need to have a matching tablet app version.
Collisions are detected by two independent subsystems : at RC level ,by calculating torques that are expected on all joints. And at Joint level, by a control loop that controls position using torque, if the torque requested by the control loop differs from the static torque more then a threshold, robot goes to emergency stop and an error is shown.
Interested in our solution?
Contact our sales to get more information about our cobot series and request a personalised demo.
Our technology in use.
applications and industries.