Godfrey & Wing’s Continuous Flow Impregnation (CFi) system seals porosity in a short cycle time with minimal labor. In this video, John Halladay (aka Johnny Impreg) will show you some of his favorite features:
1. Compact design
2. Part traceability
3. Integrates with production
Video Transcript
Hello, everybody. Welcome to another edition of Casting Call with Johnny Impreg. I’m your host, Johnny Impreg, and again this month, we’re going to be unveiling a new piece of equipment. It seems like we just did it last month, but our equipment people have been really busy.
Favorite FeaturesThis is an automated system that’s going to go to an engine plant in Mexico, and it’s got a couple of unique features I’d like to share with you. Number one, it’s super compact, and it integrates directly in with the manufacturing facility. The blocks are fed in with an Automated Guided Vehicle (AGV). They go through the process completely automatically. They’re scanned for traceability, and they go through an outbound cooling tunnel, or they go back to, with the AGV, back to a leak test. So, super small, compact, totally integrated, complete traceability, the Godfrey & Wing CFi.
Let’s TalkHope you enjoyed this video. If you have any questions, please leave them in the comments below, and watch for another upcoming edition with some more machines that we’ll be unveiling. Thanks for your time, and as always, bye for now.
Productivity and quality are keys to the success of any continuous flow production philosophy. However, vacuum impregnation systems have remained antiquated, which causes production and quality issues in modern manufacturing environments. Hence their absence from most continuous flow production plans.Such is the case of a vertically integrated automotive OEM. This company had an outdated vacuum impregnation system that did not meet their continuous flow strategy. The division that operates the vacuum impregnation system pours the metal, machines, and assembles components to produce finished engines.
The Challenge
At the launch of a new engine block line, the company realized that its current vacuum impregnation system could not reliably process the new engine blocks. The OEM realized that the following challenges needed answered:
Sealing Rate-The system was Dry Vacuum (DV) process only that resulted in below-average sealing rates.
Floor space– The current automated system was enormous. It did not fit the desired floor space or integrate with production. As a result, the size was debilitating to their production flow.
Maintenance– The system required continuous support. Maintenance areas were difficult to access. Spare parts were expensive and needed the company to keep a high inventory.
The Solution
The OEM’s leaders realized that the current vacuum impregnation system would need to be replaced with a modern impregnation system.
Based upon these roadblocks, Godfrey & Wing recommended its Continuous Flow Impregnation (CFi) system. The system would be customized to answer the customer’s challenges.
To improve the sealing rate, the CFi uses the patented Dry Vacuum and Pressure (DVP) process, which yields a higher seal rate than the DV process. The CFi with the DVP process incorporates a fast, deep vacuum to evacuate the air from the porosity. Then after moving sealant to the part, the system applies high pressure to allow the sealant to penetrate deep in the casting walls.
The OEM specified precisely where to place the system on the manufacturing floor. Knowing this, the Godfrey & Wing engineering team designed the layout to accommodate the floor space and production integration.
The system was designed with a 7-axis robot for parts handling, and conveyors integrated with machining and leak test operations. The robotic arm forms the interface between the impregnation system and the processing line while using the least amount of space. After impregnation, the castings are fed by the robot directly to leak testing via a cooling conveyor belt. The automation enables continuous production in a modular, compact space.
The internal components were positioned to enable ease of maintenance without interrupting production. The maintenance team is now able to service principal components through the rear panel doors, rather than accessing the system through the safety fence. Sanitary connectors are used that can be maintained by hand without the need for specialty tools. Each module has a line rate disconnect so that maintenance does not need to power down the entire system for service.
The Results
The CFi was installed, operators and maintenance were trained, and the system was running production in two months. Since then, the CFi is addressing all the company’s challenges.
Increased Sealing Rate– The CFi has increased recovery of the castings by 15%. Scrap from porosity has been virtually eradicated.
Conserve Floor Space– The system layout cut required floor space by over 50%.
Reduced Maintenance Cost– The purchase of the CFi has reduced maintenance costs by 65%.
In Summary
As OEMs search for ways to improve continuous flow manufacturing, it is necessary for a paradigm shift. This OEM found value in doing so by investing in a lean and modern vacuum impregnation system. The CFi plays an integral production role by increasing casting recovery while reducing maintenance