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Welcome to Kollmorgen's Blog in Motion. We have been adding information and knowledge to the great web based world for many years - through white papers, technical documents, and even webinars. Kollmorgen enjoys sharing our knowledge with you, as well as identifying other motion related tidbits through our Twitter, Facebook, LinkedIn and YouTube feeds. Our newest source is Blog in Motion, covering a wide range of topics, as well as some interesting contributing authors with lots of Motion experience. If Motion Matters to you, stop by, follow, like, and sign up so you can stay tuned for what Kollmorgen has in store for you!
These 3 characteristics are crucial when sizing a motor for any application from military to industrial and beyond. In this day and age where everything seems to be getting smaller and more compact, we all want our toys to take up less space, but we don’t want to sacrifice any performance. Let’s use cars as an example. When someone is shopping for a sports car, they may be looking for things like high speed, quick acceleration, low center of gravity, small body, etc. These are all reasonable things to look for in a sports car. However, if someone was to say, “I need a two-door sports car with a top speed of 160mph, but I also need it to tow my 10,000 lb trailer”, we might have a problem. This is the same principle when we’re talking about motors. Just like cars, generally smaller motors have much higher speeds than larger motors. However, the large motors are the ones towing that 10,000 lb trailer, or in our case, exerting the most torque.
Automated guided vehicles work repetitively, never get tired and are easy for staff to get used to. An excellent way forward for any company that wants to improve safety at work – and as a bonus increase their productivity.
Automated guided vehicles minimize the need for manual labor in dirty, dangerous and demanding environments. In most conditions, they are resistant to or can be shielded against everything from magnetism and radiation to temperature changes, dirt and dust.
Trending in the automation world these days is the merging of the collaborative robot and the AGV, creating a mobile Cobot with the navigational capabilities of today’s AGV’s. This opens new opportunities in warehouse logistics that improves the entire supply chain. With additional power demands created by this combination, innovative motor and drive solutions become paramount.
Automation is not only about efficiency. It is also about safety. Moving things in a controlled way in manufacturing plants and warehouses contributes significantly to fewer injuries and less damage to goods, pallets and racks. Zero accidents is a vision within reach.
The trend is clear: more and more companies, large and small, are turning to solutions involving Automated Guided Vehicles (AGVs). The development of new vehicle types and technology break-throughs in fields like AI leads to more intelligence in AGV solutions, and is expanding the scope of what an AGV can do. The rapidly growing e-commerce sector and the paradigm shift in the automotive industry are other important driving factors.
Search the web for frameless or kit motors and you will find many offerings to choose from. When looking at the motor specifications, there are many important parameters to consider such as rated speed, rated current, peak current, etc. What do all these things mean and why is it important to understand how the values are being presented?
Most warehouse managers rely on manual movements of goods and parcels with lift trucks. Turning manual lift trucks into automated lift trucks frees up resources and improves safety.
The electronics engineer A. M. Barrett Jr. invented the first automated guided vehicle in the 1950s. Today, automated guided vehicles bring value to the most shifting applications.
Usually, in discussion about these terms, we tie in the word actuator – so more precisely, what is the difference between a linear actuator vs a rotary actuator?
Linear actuators, in essence, move something along a straight line, usually back and forth. Rotary actuators, on the other hand will turn something a number of degrees in a circle – it might be a limited number or an infinite number.
So, linear actuator – back and forth, Rotary actuator - round and round
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Automated Guided Vehicles