robotic blow

Portrait of the Artist as a Young Robot When it comes making art most of us operate under a set of rules we learned when drawing, writing or composing music. So what happens when you feed machines code for churning out art? Turns out plenty, and some of it can be construed as autonomously creative. And if creativity is the seat of the soul, what does that say about our uniqueness when a machine can create its own spark of originality? Join the conversation on how machines will alter the future of art. Plus, be sure to check out Studio 360's art section as well as my curiosity article "10 Ways Robots Could Replace Humans."
The company contacted Motion Controls Robotics to ask them to help develop a solution that would automate its bottle take out process and alleviate its safety and ergonomic issues due to repetitive stress injuries. They also wanted to create a solution that would reduce scrap, which ultimately would help increase sales without having to produce more product than it did in the past.
It combines the automatic feeder with the automatically moving electric screwdriver to realize the complementary supply of screws and the locking, which greatly improves the production efficiency and saves manpower. Once the screwdriver is lifted after locking the screw, the automatic feeder will send the other screw to the Escape of the automatic feeder. The screwdriver head absorbs the screw and the robot can automatically move according to the coordinate point and tighten it. This is particularly suitable for multi-station workpieces of the same specification. 
A national manufacturer of stock and custom plastic packaging solutions for the food packaging, chemical, automotive and household industries faced the challenge of improving its safety and ergonomics associated with its manual system of unloading its Nissei Bottle Making Machine at its manufacturing facility. The company also wanted to find a solution to reduce scrap and increase productivity.
The Motion Controls Robotic SUBTA has received a positive reception from the employees because of the ease of use and nearly flawless performance of these robots. To ward off any concerns from employees about potential layoffs within the plant, the company presented the new system as an opportunity to ramp up its technology and that new business was waiting for the company if the technology was added.
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Everything in the plant runs much more smoothly. More bottles are being produced, but the pace seems slower since there was a reduction in complexity in the system,” said the plant manager. “We have seen a reduction in the commotion and activity since employees can now work at a constant pace and succeed without as much physical effort. We also have a greater chance to understand the bottlenecks in the manufacturing process. We are reviewing to see where we can make an economic justification for adding automation,” said the plant manager. “We chose the ones that are simple to execute first that run one mold all day, as well as the systems with the highest stress strain or ergonomic safety issues. We are looking for future automation as soon as we can.
The plastics manufacturer had used its manual take out system for its entire history for nearly 20 years. This manual system had several pitfalls including a large amount of scrap, which in turn meant money down the drain in throwaway products. The manual system also lacked reliability and increased chances for injuries. The company brought technology into its facility to help increase the production of quality products while making the plant safer for its employees. The company also hoped to increase its sales by improving the manufacturing process efficiencies through automation. Prior to automation, the company had to turn away opportunities to increase its business due to capacity limitations.

The company contacted Motion Controls Robotics to ask them to help develop a solution that would automate its bottle take out process and alleviate its safety and ergonomic issues due to repetitive stress injuries. They also wanted to create a solution that would reduce scrap, which ultimately would help increase sales without having to produce more product than it did in the past.
The Model SD-185 Screwdriver head is equipped with placement jaws and a feed tube attachment. The feed tube conveys the fasteners from a vibratory feeder bowl to the placement jaws. A wide range of fastener types can be fed and driven by this screwdriver and the size of the feeder bowl is determined by the physical size of the chosen fastener. Fasteners can be driven into a workpiece to either a predetermined torque setting or to a specific depth setting. The screwdriver head has built-in sensing to confirm proper insertion of each fastener. This screwdriver may be purchased as a complete tooled system with controls and vibratory feed system.
The plastics manufacturer also considered a vendor with a fixed automation system that included a simple slide but decided that system wasn’t reliable enough for its needs. In addition, every time the mold tooling changed, the slide also had to be changed to accommodate the new product. This created a higher cost to change tooling that was not acceptable. The facility included one machine with a manufacturers fixed automation system, but they wanted to find a more flexible and reliable solution.
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