The maximum mechanization of poultry slaughter can liberate the labor force to a large extent and deploy staff to important production processes. Scientists at the Georgia Institute in the United States (GTRI) in 2012 developed a robot that can accurately dissect poultry chickens and, at the same time, respond to the unique body structure of each chicken. It is reported that the robot uses 3D measurement technology to analyze different parts of the chicken, and then uses these parts as entry points to evaluate the internal structure of bones and ligaments to define the proper cutting algorithm operation.
The level of automation and intelligent technology in China's food processing industry is still low, but the development of industrial intelligence is irresistible. Enterprises should take the initiative to attack in advance and usher in a new era of intelligence.
At present, enterprises have realized fully automated production. The entire production workshop only has advanced machinery and equipment running at a high speed, which makes many companies envy their hearts. However, continuous learning to introduce new equipment is the key to the sustainable development of corporate innovation. In the era of big data, enterprises must learn to use the network to intelligentize their development.
Food processing "robots" is an innovative driving force for modern production innovation in the traditional food industry. The addition of "robots" brings technological innovation to food companies. At present, the development of new automated and intelligent technologies for domestic food processing equipment has entered the fast lane. How to maintain a steady high-speed development of food enterprises, requires enterprises to change their minds to take the initiative to achieve industrial upgrading of intelligent development.
Variable Attenuator
CNI provides 3 kinds of variable attenuators for different application.The circular variable attenuator can make the optical density linearly varies around a 0°-270° circle for measuring Laser energy farthest. As for the square one, the optical density linearly varies across the length for measuring laser energy. Also the high power variable attenuator is available for customization.
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â—†Circular variable attenuator |
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Applications:
Detector of photon
Electronic image
Optical instrumentation |
Specification
Material BK7grade A optical glass, Fused silica Optical Density Range OD0-OD3 Outside Diameter Φ54mm±0.25 Dimension 54*42*67mm Linearity of Density ±5%@632.8nm Coating S1:Ni-Cr-Fe; S2:Boardband AR coating; incidence angle:0°-15° Clear aperture >80% diameter Damage threshold 30W/cm2 CW Active wavelength 400-1100 nm Applicable power <1000 mW
Note: Dimension, wavelength range, OD or other request are available upon request.
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â—†Square variable attenuator |
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Applications:
Electronic image
Detector of photon
Optical instrumentation |
Specification
Material BK7grade A optical glass, Fused silica Optical Density Range OD0-OD2 Dimension 76.2*25.4*2.0mm Linearity of Density OD±5% Coating S1:Ni-Cr-Fe; S2:Boardband AR coating; incidence angle:0°-15° Clear aperture >80% diameter Damage threshold 30W/cm2 CW Active wavelength 400-1100 nm
Note: Dimension, wavelength range, OD or other request are available upon request.
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â—†Portable variable attenuator |
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Specifications:
Dimensions: Φ33 mm ×65 (L) mm
Wavelength: 400-1100 nm (Other wavelengths can be customized) |
Portable Impact Attenuator,Variable Attenuator,Optical Fiber Attenuation,Manually Adjustable Variable Attenuator
Changchun New Industries Optoelectronics Technology Co., Ltd. , https://www.lasersciences.com