Latest News

Top 10 Industrial Robot Applications for Smart Manufacturers in 2023

Meghmala

In this article, we elaborate the top 10 innovative industrial robot applications in 2023

Intro:

A factory robot system is referred to as an industrial robot. Industrial robots have three or more axes of motion, are automated, and may be programmed. Different robots have different levels of autonomy. Certain robots are trained to accurately and faithfully perform predetermined tasks repeatedly (repetitive tasks) with little change. The direction, acceleration, velocity, deceleration, and distance of a series of coordinated motions are specified by coded routines that control these operations. Some robots are far more adaptable when it comes to the object's orientation or the task that needs to be completed on the object itself, which the robot may even need to identify. Robots, for instance, frequently have machine vision sub-systems that serve as their visual sensors and are connected to sophisticated computers or controllers for more precise guidance. The modern industrial robot is increasingly dependent on artificial intelligence. Robots are typically used for tasks like welding, painting, assembly, disassembly, pick-and-place operations for printed circuit boards, packaging and labeling, palletizing, product inspection, and testing. All of these tasks are completed by robots with high levels of endurance, speed, and accuracy. They can help with handling materials. According to the International Federation of Robotics, 1.64 million industrial robots are expected to be in use worldwide by 2020 (IFR).

  1. One of the earliest industries to use industrial robots for assembly was the auto industry. Currently, uses for assembly robots extend far beyond the automotive industry. Small-part assembly with robots at high speed is becoming more and more necessary. Robotic assembly frequently achieves higher throughput and more precision than human labor because of its accuracy and speed.

  2. Adhesives and sealants are applied by a dispensing robot in a variety of applications. They may include using fasteners to join the components, covering the pieces with sealant, and many more techniques. Smaller tasks like distributing adhesive and epoxy demand a fast, portable robot. A heavier payload robot is used in larger applications, which are frequently encountered in the automotive industry.

  3. Handling and picking robots include those that move objects about a warehouse or take items out of a tote and put them in a shipping container. Robots that can pick and fill orders are in high demand due to the growth of e-commerce.

  4. Smaller carts are also considered autonomous mobile robots (AMRs), in addition to bigger autonomous vehicles like forklifts. An AMR in a warehouse is frequently used to move items from an order picker to a packing station. Transporting things inside a facility has traditionally been accomplished utilizing conveyor systems that use revolving cylinders or moving belts. Yet, because of their limited flexibility, conveyor systems are sometimes highly expensive and time-consuming to modify.

  5. Pipetting can take laboratory and medical technicians hours each day. It's a manual, repetitive procedure where mistakes are simple to make. To make eye drops, nasal sprays, and a wide range of other liquid pharmaceuticals, pharmaceutical companies must precisely discharge liquids into containers. Automating these procedures with liquid-handling robots will increase throughput, increase accuracy, and improve traceability.

  6. Robots that pick and place items are maybe the most frequently used in manufacturing. These robots can load and unload processing equipment, remove components off a conveyor belt and place them in totes or shipping containers, and sort components from an unorganized state to an organized one. This type of robot is typically utilized when there are few variables. For instance, the same kind of part needs to be arranged, stacked, or placed into a tray as it moves down an assembly line.

  7. Robots used for machine tending place workpieces inside machine tools and remove them once an operation is finished. During a typical cycle, a robot arm will take a blank part off of a tray, place it into the machine, wait for the process to be finished, and then remove the finished part and place it on the same tray or possibly a new one.

  8. By enabling automated tool changing and unsupervised operation, milling robots advance CNC automation. By using robotics to complete the milling, it is possible to increase the operation's precision and flexibility, lower the number of defective products, and increase worker safety. Improving the working environment can aid in keeping employees.

  9. Drilling by hand is laborious and frequently dangerous. Compared to hand drilling, robotic drilling delivers greater precision and repeatability. Increased productivity frees up workers to concentrate on more fulfilling jobs. Both milling and drilling use End of Arm Tooling (EoAT), which rotates and cuts material from a workpiece, making them identical operations. Hence, the two tasks are occasionally merged into a single robot. The robot arm can autonomously switch between milling and drilling tools.

  10. Robots with dexterity offer a manufacturing option that is otherwise extremely challenging to automate. An illustration of this is the creation of muscular implants, like knee and hip joints. A robot can buff and polish a hip joint in just a few minutes, whereas hand buffing and polishing typically take 45-90 minutes.

Join our WhatsApp Channel to get the latest news, exclusives and videos on WhatsApp

                                                                                                       _____________                                             

Disclaimer: Analytics Insight does not provide financial advice or guidance. Also note that the cryptocurrencies mentioned/listed on the website could potentially be scams, i.e. designed to induce you to invest financial resources that may be lost forever and not be recoverable once investments are made. You are responsible for conducting your own research (DYOR) before making any investments. Read more here.

The Benefits of Multi-Chain NFTs

Solana Price Prediction: When $1000? Big Investors Target SOL, Dogecoin (DOGE) and Rexas Finance (RXS) in Post-Election Buying Spree

The Leading Crypto Hot Wallets of 2024: A Comparative Review

Crypto Trader Predicts $125000 for Bitcoin and $500 for Solana in 2024, Backs Rival Token to Outperform Both

Plus Wallet’s 15-Minute Token Listings Amplify Interest, While Crypto Trading Stabilizes & Zodia Launches New Wallet