Continuous Fully Automatic Ultrasonic Vibration Screening Measurement Device Robot Shifter RPS-02
RPS-02
Always a step ahead in technology - Automatic sorting measurement device Robot Shifter
This is a new generation of continuous robot shifters that enables a significant reduction in continuous measurement time, thanks to precise position control, high-speed operation technology, and the newly developed high-speed sieving cleaning mechanism. It fully automates the processes from sample input, sieving measurement, weighing, calculation, to sieving cleaning. Up to 20 samples can be set at once. Since sieving is performed using ultrasonic technology, it can efficiently classify samples in a short time compared to vibration and rotary tapping methods. Weighing after sieving is done by the robot hand, and the calculation results are displayed on the operation panel, with output available to various printers. The robot shifter, now with added features, has become faster and easier to use. It is highly beneficial for process management, quality inspection, and streamlining operations.
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basic information
<Features> - High-speed robotic hand - Enhanced clogging prevention function - Adoption of a 7-inch touch panel - Consideration for data tampering prevention - Free power supply - Newly developed cleaning function - Capable of measuring multiple varieties - Efficiency in classification accuracy - Low noise - Improved durability of sieve mesh - Control of sound wave rise and fall - Adjustable sound wave frequency (40-90Hz) - Continuous sampler - Online capability *For more details, please feel free to contact us.
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Applications/Examples of results
Pharmaceuticals, food, electronic materials, construction, foundry sand, ceramics, resins, metals, minerals, catalysts, etc.
Detailed information
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Principle of Acoustic Sieving Only the air inside the sealed sieve is vibrated, and this vibration causes the powdered material (sample) inside the sieve to undergo periodic vertical motion. The powdered material (sample) bounces up from the top of the sieve every half cycle and returns to the top of the sieve in the next half cycle, separating into those that pass through the sieve mesh and those that remain on top of the sieve. The friction of the powdered material against the sieve is minimized to prevent wear, and additionally, pulses are applied from the bottom and sides of the sieve to prevent adhesion and clogging.
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Company information
To create high-quality products, powder technology is an essential foundational technology. Since our establishment in 1968, we have consistently strived to acquire high-level powder technology. In particular, our contract processing division has become our mainstay, having cultivated extensive experience and achievements. We have responded to a wide range of customer requests, handling the processing of many materials and refining various processing techniques such as crushing, classification, mixing, drying, coating, and compounding. The fine powder products developed using the processing technologies gained from our extensive contract processing experience are our original offerings. These products utilize our unique chemical grinding technology, enabling us to achieve a level of grinding that cannot be obtained through other grinding methods, as well as allowing for special processing such as compounding with inorganic materials, compounding between resins, and surface coating.
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