Problem

Chute walls, Cradles, Idlers and Skirt Sealing
Spillage was causing wasted labor and lost material, with estimated losses of more than $250,000 a year. 

The Graymont Superior limestone facility processes about 2,000 tons per day of limestone from quarries in Michigan, producing high-calcium quicklime to serve the upper Midwestern states and Central Canada. The plant's incline belt was spilling product at the transfer point, particularly where the trough angle increased from 20° to 35°. Cleanup required approx. 6 hours of labor time per ton, at an estimated cost of more than $200,000 annually when including labor and lost productivity. Lost material is thought to have added another $50,000+ to that figure. Further, personnel were introduced to potential risk from having to work around the moving conveyor.

Solution

Chute walls, cradles, idlers, and skirt sealing
Chute walls, cradles, idlers and skirt sealing contain the load and eliminate the fugitive material issue.

Martin Engineering technicians evaluated the situation and determined that the belt lacked adequate support and effective sealing as it traveled the very short distance through the 12-foot transfer point. The transition to 35° disrupted the load and created fugitive material. To address the issue, they removed the existing chute wall, skirting and idlers, and lengthened the transfer point by 4 feet. The techs then installed 3 Martin® Track Mounted Idlers as well as one Martin® Impact Cradle, 2 Martin® Slider Cradles and a Martin® Transition Track-Mounted Idler. These were followed by a modular chute wall assembly with a tail sealing box, EVO® Wear Liner retrofit kits and Martin® ApronSeal Skirting.

Result

chute walls, cradles, idlers and skirting system
The load is centered and transitions smoothly to the deeper trough angle, withough spillage. 

Having proper belt support has greatly stabilized the load, and the new chute wall, wear liner and apron seal are able to fully contain the material flow throughout the longer transfer point. The load is centered and transitions smoothly to the deeper trough angle. Spillage has been eliminated, improving the operation's cost-effectiveness and safety, allowing maintenance staff to concentrate on other activities. "There's no more spillage to clean up at this transfer point," said a Graymont spokesperson. "We planning on having Martin Engineering install a similar system on our west belt."

Resources

PDF - Printable Version of Case Study Download
Brochure - Transfer Point Download

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