How do customized Grain Color Colour Sorter products work
The customized Grain Color Sorter products use optical sensors, computer vision, and advanced algorithm technology to sort grains. Its working principle can be briefly described as the following steps:
Feeding and Distribution: Grain enters the customized Grain Color Colour Sorter products through a conveyor belt or vibrator system, and is evenly distributed on the sorting channel. This ensures that grain passes through the sorter at a constant, steady rate, ready for optical inspection and sorting.
Optical detection: When the grains pass through the sorting channel of the customized Grain Color Colour Sorter products, they are scanned and photographed by the optical sensor at high speed. Optical sensors capture images of the grains and analyze them for characteristics such as color, shape, size, and quality.Image processing and analysis: Through the computer vision system of the customized Grain Color Colour Sorter products, the grain image is sent to the algorithm system for processing and analysis. The algorithmic system uses pre-set standards and rules to compare and evaluate each grain. Through image processing and analysis, grains that do not meet the specified requirements are identified.
Sorting and jetting: Once the grain is analyzed as unqualified, the customized Grain Color Colour Sorter products' powerful jetting device will apply jetting force to the unqualified grain in a very short time, separating it from the normal grain flow. The speed and angle of spraying are precisely controlled to ensure that only unqualified grains are rejected.
Collect qualified grains: the unqualified grains separated by the customized Grain Color Colour Sorter products are introduced to the waste collection area, while the qualified grains pass through the sorting channel smoothly and enter the collector or subsequent processing stage.
The customized Grain Color Colour Sorter products improve sorting efficiency and product quality consistency by quickly and accurately detecting and sorting grain. The combination of its optical technology and algorithm system makes the grain sorting process more intelligent and automatic, reduces labor costs and error rates, and improves production efficiency and economic benefits.