What are collaborative robots & their Uses | Six axis collaborative robot in delhi


Collaborative robots are a form of the robotic automation built to work safely alongside human workers in a shared, collaborative workspace. In most applications, a collaborative robot is responsible for repetitive, menial tasks while a human worker completes more complex and thought-intensive tasks. The accuracy, uptime and repeatability of collaborative robots are designed to complement the intelligence and problem-solving skills of a human worker. Precimotion is a leading six axis collaborative robot provider in Delhi and also provides engineering and technical support recognized for their efficiency and reliability. From gearbox to robotic industry (servo planetary, strainwave, AGV, pick & place gantry), high-precision solutions allow us to work with clients in many industries. Six axis collaborative robot in delhi

 

Their designs differ greatly from their industrial robot counterparts. Featuring rounded edges, force limitations, and light weights, collaborative robots are first and foremost designed for safety. Most collaborative robots are equipped with a series of the sensors to avoid the collisions with human workers, as well as safety protocols to shut down if any form of unplanned contact occurs.

 

The ability to work collaboratively with humans greatly expands the potential applications of robotic automation. The market for collaborative robots is expected to experience the exponential growth as more and more industries realize the profits to be gained from this technology. With major market potential in a number of industries inside and outside of the factory setting, the collaborative robots will be an exciting technology to keep an eye on as it becomes a prominent form of robotic automation.

 

Collaborative robots can be deployed in a wide range of the environments and bring many different benefits when compared to traditional industrial robots. Typically, a robot user chooses a collaborative robot when they need to prioritize the safety, flexibility, low cost deployment, and the fast ROI.

 

Safety:

They are designed to minimize the risk of accidents and injuries in the workplace. For applications that require the robot and the human input, a collaborative robot is equipped with sensors to avoid collisions, force limitations, smooth designs, overcurrent protections, and passive compliance in the event of unplanned contact. Improved safety boosts the productivity and reduces the operating costs for robot users – two almost immediate benefits collaborative robots deliver.

 

Flexibility:

These robots can be easily programmed, even by workers with no knowledge of robot programming. In some instances, robots can be shown how to complete a task by physically moving the robot arm to the correct places. This allows for the collaborative robots to automate several different tasks with quick changeover times. This flexibility lowers the initial cost of automation and directly contributes to ROI and productivity.

 

Low Cost Deployment:

The ease of programming a collaborative robot reduces the time and resources required for the integration, which lowers the automation investment. Collaborative robots come equipped with safety features and do not require fences or other industrial safety equipment, which further lowers costs while reducing integration time. The low cost of deploying a collaborative robot, at least in comparison to industrial robots, makes them far more accessible to a wider customer base.

 

Fast ROI:

These robots have proven their ability to deliver faster ROI than their industrial counterparts. This is primarily due to the fact that upfront costs are significantly lower, more tasks can be automated per robot, and collaborative robots contribute to strong productivity. For those who cannot risk too much on an automation investment, the collaborative robots provide reliable ROI, usually within just a few months.

The flexibility of collaborative robots, as well as their financial accessibility, makes them an ideal solution in a wide range of industries and applications. Some of the most common industries that use collaborative robots today include:

 

  • Automotive
  • Electronics
  • General manufacturing
  • Metal fabrication
  • Packaging and co-packing
  • Plastics
  • Food and agriculture
  • Furniture and equipment
  • Pharmaceutical and chemical
  • Scientific research

 

Collaborative robots can be deployed in many different ways. As collaborative robot technology advances so more industries realize the productivity benefits of these types of robots, sales volumes will accelerate.

Comments

Popular posts from this blog

Difference between Industrial Robots and Cobots I Robotic Automation in delhi