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Machine vision Based Inspection Productivity Improvement on Bottling Line - IE Case Study - 2013

  

IE Case Study 85


Machine vision increases hourly output of bottling line

March 2013

Machine vision in  automated systems improves productivity, increases throughput, and eliminates human error. 

Beer Bottles Inspection Case Study 


Malted beverages are extremely popular in China, and 95% of all beer bottles are returned for recycling. They are inspected for damage, sterilized, and refilled. Bottle inspection is performed manually in most plants. There are roughly 3,000 bottling lines in China. They run at 18,000 to 24,000 bottles/hr and use human operators. Each line employs three shifts of 18 to 20 well-trained workers who inspect bottles on a fast-moving conveyor belt. The manual inspection is labor intensive and can cause eyestrain and fatigue. 


Machine vision can be used to perform inspection tasks.  Shangdong-based Mingjia Packaging Inspection Technology Co. Ltd. and Waterloo, Ontario-based Teledyne DALSA, a manufacturer of multicamera and digital-imaging products, are developing automated inspection systems for the Chinese-beer industry. “Checking that bottles are fit for reuse is a task that can be accomplished quickly and efficiently by machine vision according to Teledyne DALSA.

Some companies are already using machine- vision inspection systems purchased from abroad Mingjia was founded to design and develop affordable equipment to help beer producers adopt machine-vision inspection in place of manual bottles manually.

Mingjia started its relationship with Teledyne DALSA in 2008. Zhang had approached the Canadian firm  for initial equipment development: The design called for a multicamera system capable of scanning bottles from multiple angles. Teledyne DALSA’s VA41 Vision Appliance is so used for its ability to survey many views simultaneously. This compact machine-vision controller supports up to six cameras — three analog and another three based on the IEEE 1394 serial-bus interface. Serial communications include RS-232, USB, and Ethernet for connecting the controller to the factory network. Mingjia’s configuration of the VA41 uses four analog cameras from a Japanese OEM, runs Teledyne DALSA’s Sherlock machine-vision software, and has enabled inspection rates of up to 42,000 bottles/hr.


Bottle-inspection System 

The inspection equipment is placed immediately before the filling machines on a bottling line. Glass bottles,  on a moving conveyor belt,  pass through the equipment’s inspection chamber at high speed and each of the four cameras connected to the VA41 performs a specific task.

A camera positioned in the chamber at Stage 2 scans and checks the entire surface of the sidewall of an empty bottle, looking for defects, abrasions, and foreign matter. A similar process is repeated at Stage 5, once the bottle has been rotated through a 90° angle. Full-body scanning also makes use of mirrors to reduce the number of cameras required. A group of three mirrors, one behind the bottle and two oriented at 45° to the camera, enable 160% of the bottle’s body to be viewed and accurately checked. The camera at Stage 3, positioned above the bottle, scans the mouth for scratches, cracks, chips, and other irregularities, while the Stage 4 camera checks the base. “Inspecting the base is challenging because, when scanned, the nonslip surface texture molded into the glass bottom of each bottle generates unwanted signals and produces an image that is confusing to inspection algorithms.”  Noise present in the image makes it difficult for the global-analysis software to distinguish between the ribbed background pattern and particles of dirt or other contamination adhering to the glass. To address the issue, optics and special lighting illuminate bottles from above and below, avoiding false alarms and preventing good bottles from being rejected.

The machine vision is also useful for detecting a bottle’s fill level and checking that labels have been applied correctly.

Upgrade to further increase productivity

Mingjia  is developing an upgrade to the machine-vision hardware of its bottle inspection system by replacing the VA41 with a controller named GEVA. The Sherlock application software will be used. GEVA, Teledyne DALSA’s latest industrial controller, offers excellent cost savings for multicamera vision applications. Encased within an aluminum chassis, it provides the basis for a powerful industrial vision system. Unlike the VA41, which uses analog and IEEE 1394 serial-bus architectures, GEVA provides expandable Gigabit Ethernet (GigE) camera interfaces that significantly reduce cost. At the heart of the platform is a dualcore processor equipped with highspeed memory resources.

The controller has two camera ports that both support eight 640 × 480 mono cameras performing simultaneous inspection procedures. As part of the upgrade, Mingjia is also planning to replace third-party cameras with Teledyne DALSA’s Genie systems, which employ GigE technology and transmit data over standard CAT-5e and CAT-6 cables.

“GEVA is about two and a half times faster than VA41. This upgrade will enable Mingjia to substantially speed up inspections — to 64,000 bottles/hr, or possibly even 72,000

https://www.machinedesign.com/automation-iiot/sensors/article/21832428/machine-vision-boosts-productivity-on-bottling-line


https://www.teledynedalsa.com/en/home/

https://www.automate.org/companies/teledyne-dalsa




Ud. 24.9.2024

Pub. 26.6.2021







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