Shenzhen Wesort Optoelectronics Co., Ltd.
Address:Building 29, Longwangmiao Industrial Zone, Fuyong street, Bao'an District, Shenzhen, Guangdong Province, China.
Phone:+86 199 2458 0075
How Red bean color sorter work?
The selected material enters the machine from the hopper, vibrates through the vibrator device, and the selected material enters the observation area of the sorting room along the channel, and passes between the CCD sensor and the background plate. Under the illumination of the light source, the CCD receives the synthesized optical signal to make the system generate an output signal, which is amplified and then sent to the computing processing system to convert the optical signal into an electrical signal. The control system issues instructions to drive the solenoid valve to blow out the particles of different colors to the waste area. OK, go ahead. Go down to the good material area to achieve the purpose of sorting.
What is a color sorter?
A color sorter is a highly advanced piece of machinery that uses optical technology to distinguish between different qualities and colors of materials. In the case of red beans, it is designed to identify and separate out beans that are discolored, damaged, or of inferior quality. By using a combination of cameras, sensors, and intelligent software, the color sorter can analyze each bean as it passes through the machine and make split-second decisions on whether to keep or reject it.
How does an optical sorter work?
Optical sorters operate on the principle of detecting differences in light reflection and absorption. As red beans move along a conveyor belt inside the sorter, high-resolution cameras take multiple images of each bean from different angles. These images are then processed by powerful software that analyzes the color, shape, and texture of the beans.
Based on pre-programmed criteria, the software determines which beans meet the desired quality standards and which ones need to be removed. When an unwanted bean is detected, a burst of air is directed at it, ejecting it from the stream of good beans.
How to use a color sorter?
Using a red bean color sorter is relatively straightforward. First, the operator needs to set up the machine according to the specific characteristics of the red beans being sorted. This includes adjusting parameters such as sensitivity, sorting speed, and rejection thresholds. Once the settings are optimized, the beans can be fed into the sorter. The machine will then automatically sort the beans, continuously monitoring and adjusting its performance as needed. Operators can also monitor the sorting process through a user-friendly interface, making any necessary adjustments on the fly.
In conclusion, the red bean color sorter is a powerful tool that can significantly enhance the quality and value of red beans. By understanding what it is, how it works, and how to use it effectively, bean processors can take their operations to the next level and ensure that only the highest quality red beans reach the market.
How Red bean color sorter work?
The selected material enters the machine from the hopper, vibrates through the vibrator device, and the selected material enters the observation area of the sorting room along the channel, and passes between the CCD sensor and the background plate. Under the illumination of the light source, the CCD receives the synthesized optical signal to make the system generate an output signal, which is amplified and then sent to the computing processing system to convert the optical signal into an electrical signal. The control system issues instructions to drive the solenoid valve to blow out the particles of different colors to the waste area. OK, go ahead. Go down to the good material area to achieve the purpose of sorting.
What is a color sorter?
A color sorter is a highly advanced piece of machinery that uses optical technology to distinguish between different qualities and colors of materials. In the case of red beans, it is designed to identify and separate out beans that are discolored, damaged, or of inferior quality. By using a combination of cameras, sensors, and intelligent software, the color sorter can analyze each bean as it passes through the machine and make split-second decisions on whether to keep or reject it.
How does an optical sorter work?
Optical sorters operate on the principle of detecting differences in light reflection and absorption. As red beans move along a conveyor belt inside the sorter, high-resolution cameras take multiple images of each bean from different angles. These images are then processed by powerful software that analyzes the color, shape, and texture of the beans.
Based on pre-programmed criteria, the software determines which beans meet the desired quality standards and which ones need to be removed. When an unwanted bean is detected, a burst of air is directed at it, ejecting it from the stream of good beans.
How to use a color sorter?
Using a red bean color sorter is relatively straightforward. First, the operator needs to set up the machine according to the specific characteristics of the red beans being sorted. This includes adjusting parameters such as sensitivity, sorting speed, and rejection thresholds. Once the settings are optimized, the beans can be fed into the sorter. The machine will then automatically sort the beans, continuously monitoring and adjusting its performance as needed. Operators can also monitor the sorting process through a user-friendly interface, making any necessary adjustments on the fly.
In conclusion, the red bean color sorter is a powerful tool that can significantly enhance the quality and value of red beans. By understanding what it is, how it works, and how to use it effectively, bean processors can take their operations to the next level and ensure that only the highest quality red beans reach the market.
Model 6SXZ-272 Power (KW) 4.2-4.6 Air source pressure (Mpa) 0.6-0.8 Air source consumption (L/min) <2000 Weight (Kg) 960 Parameter size (mm) 2010*1518*1700
Model 6SXZ-340 Power (KW) 5.3-6.2 Air source pressure (Mpa) 0.6-0.8 Air source consumption (L/min) <2500 Weight (Kg) 1070 Parameter size (mm) 2348*1518*2250
Model 6SXZ-476 Power (KW) 4.4-4.8 Air source pressure (Mpa) 0.4-0.6 Air source consumption (L/min) <3500 Weight (Kg) 1500 Parameter size (mm) 3319*1556*2212
Model 6SXZ-680 Power (KW) 6.2-6.6 Air source pressure (Mpa) 0.4-0.6 Air source consumption (L/min) <5000 Weight (Kg) 2310 Parameter size (mm) 4329*1556*2211
Model 6SXZ-204 Power (KW) 2.0-2.4 Air source pressure (Mpa) 0.4-0.6 Air source consumption (L/min) <1500 Weight (Kg) 440 Parameter size (mm) 1616*1563*1652
Model 6SXZ-476 Power (KW) 4.4-4.8 Air source pressure (Mpa) 0.4-0.6 Air source consumption (L/min) <3500 Weight (Kg) 1500 Parameter size (mm) 3319*1556*2212
Model 6SXZ-680 Power (KW) 6.2-6.6 Air source pressure (Mpa) 0.4-0.6 Air source consumption (L/min) <5000 Weight (Kg) 2310 Parameter size (mm) 4329*1556*2211
Model 6SXZ-340 Power (KW) 3.2-3.6 Air source pressure (Mpa) 0.4-0.6 Air source consumption (L/min) <3500 Weight (Kg) 1230 Parameter size (mm) 2549*1151*2243
Model 6SXZ-340 Power (KW) 3.2-3.6 Air source pressure (Mpa) 0.4-0.6 Air source consumption (L/min) <3500 Weight (Kg) 1230 Parameter size (mm) 2549*1151*2243
Model 6SXZ-272 Power (KW) 2.6-3.0 Air source pressure (Mpa) 0.4-0.6 Air source consumption (L/min) <2000 Weight (Kg) 960 Parameter size (mm) 2036*1502*2238
Model 6SXZ-68 Power (KW) 0.8-1.2 Air source pressure (Mpa) 0.4-0.6 Air source consumption (L/min) <500 Weight (Kg) 250 Parameter size (mm) 910*1498*1440
Model 6SXZ-204 Power (KW) 2.0-2.4 Air source pressure (Mpa) 0.4-0.6 Air source consumption (L/min) <1500 Weight (Kg) 440 Parameter size (mm) 1616*1563*1652
Beans Color Sorter
Dual channel bean color sorter
Model 6SXZ-204 Power (KW) 1.6-2.0 Air source pressure (Mpa) 0.5-0.7 Air source consumption (L/min) <1500 Weight (Kg) 580 Parameter size (mm) 1594*1532*2653
Model 6SXZ-272 Power (KW) 4.2-4.6 Air source pressure (Mpa) 0.6-0.8 Air source consumption (L/min) <2000 Weight (Kg) 960 Parameter size (mm) 2010*1518*1700
Model 6SXZ-340 Power (KW) 5.3-6.2 Air source pressure (Mpa) 0.6-0.8 Air source consumption (L/min) <2500 Weight (Kg) 1070 Parameter size (mm) 2348*1518*2250
Model 6SXZ-476 Power (KW) 4.4-4.8 Air source pressure (Mpa) 0.4-0.6 Air source consumption (L/min) <3500 Weight (Kg) 1500 Parameter size (mm) 3319*1556*2212
Model 6SXZ-680 Power (KW) 6.2-6.6 Air source pressure (Mpa) 0.4-0.6 Air source consumption (L/min) <5000 Weight (Kg) 2310 Parameter size (mm) 4329*1556*2211
Model 6SXZ-204 Power (KW) 2.0-2.4 Air source pressure (Mpa) 0.4-0.6 Air source consumption (L/min) <1500 Weight (Kg) 440 Parameter size (mm) 1616*1563*1652
Model 6SXZ-476 Power (KW) 4.4-4.8 Air source pressure (Mpa) 0.4-0.6 Air source consumption (L/min) <3500 Weight (Kg) 1500 Parameter size (mm) 3319*1556*2212
Model 6SXZ-680 Power (KW) 6.2-6.6 Air source pressure (Mpa) 0.4-0.6 Air source consumption (L/min) <5000 Weight (Kg) 2310 Parameter size (mm) 4329*1556*2211
Model 6SXZ-340 Power (KW) 3.2-3.6 Air source pressure (Mpa) 0.4-0.6 Air source consumption (L/min) <3500 Weight (Kg) 1230 Parameter size (mm) 2549*1151*2243