With an estimated average of 3 million industrial robots in use by the end of 2020, it is clear that more and more businesses are continuously embracing robots within their processes. With the dynamic technological advancements on the rise, we only anticipate even more use of robotic kits both for simple and complex functions.
Welding is a fabrication process in which materials such as metals or thermoplastics are joined. It uses heat to melt the joints of the desired parts. The cooling that ensues causes fusion. Welding is different from brazing or soldering where the base material does not melt. There are different types of welding. All of which can be clubbed under two broad categories such as Manual welding and Robotic welding.
According to an Allied Market Research report, the global market for packaging robots is set to reach $4,649 million by 2023. Clearly, packaging is an important aspect of the manufacturing industry.  Apart from protecting the product, packaging also improves the marketing of the product itself and its company.
Sometimes it’s better to break down complex words to understand their meaning. Let’s do that with the word: Machine-Tending. The first part of the term is Machine. We probably all know what the definition of a machine is. As for the second part of the term, tending refers to the act of carefully providing for someone or something. So, those two words together and in the context of industrial automation, refer to the loading or unloading of parts or material on a machine.
Industrial robots streamline workflow by accelerating cycle times and eliminating bottlenecks. Task automation gets more straightforward with every successive generation of robots. End-users no longer need a degree in computer science to configure the robot’s features. The newest models boast unparalleled levels of user-friendliness with negligible backend-programming requirements. So, with the entire robotics industry booming, it’s essential to know what distinguishes one type of robot from another. In this article, we’re going to look at Cartesian robots, where you might find one, and what makes them an excellent choice for some companies.
Articulated robots are the iconic mechanical denizens of the futuristic factory-floor. What are the benefits provided by articulated robots? Why do so many factories choose to rely on this classic, iconic workhorse?
As the world becomes more and more futuristic, industries have been upgrading their machine floors to become more efficient and productive. Automation is seen throughout the manufacturing world and is essential for any business to be on track with Industry 4.0. Many factory processes incorporate automation, one of which includes inspection installations. Automated inspection installations come in different forms, each with their own advantages and disadvantages. The most common inspection technologies include vision systems, measurement sensors, and optical comparators.
There are different technologies available for automated measuring/inspection installations. Each of them with its own advantages and disadvantages based on the environment they are subject to. It is important to understand that the technology chosen is dependant on the material/object under inspection. Below is a list of the most commonly used inspection technologies.
Robotic cutting is an automated process of shaping or removing material. This process is high in accuracy, speed efficient, and quite cost-effective. This is why industries have been evolving their workplaces to involve these robots and their applications. It provides the necessary criteria to increase overall efficiency and helps eliminate any hazards workers are subject to when near cutting installations.
Automation has become one of the essential building blocks for any manufacturing company. It saves money and helps eliminate hazards within the workspace. One of the most common practices which should incorporate automation is cutting installations. Automated cutting installations provide a high accuracy, cost-effective way to cut and shape materials without subjecting workers to dangerous components.