Optimation Technology Inc.: Conveyance and Roller Design Consulting

System overhaul of an industrial/manufacturing facility/warehouse

By Optimation Technology Inc. August 17, 2015

Engineering firm: Optimation Technology Inc.
2015 MEP Giants rank: 27
Project: Conveyance and Roller Design Consulting
Address: Rochester, N.Y., United States
Building type: Industrial/manufacturing facility/warehouse
Project type: Other
Engineering services: HVAC, mechanical; Design consulting
Project timeline: 12/10/2014 to 3/17/2015
MEP/FP budget: $15,000

Challenges

In this client’s building, several large machines are housed that slit rolls of product that are several feet wide into designated widths under limited lighting. Lastly, holes are punched at a high rate of speed—as much as 3,000 ft/min into the product. The client, who manufactures consumer products, contacted Optimation Technology for web-handling consulting. The client’s operation was experiencing significant quality issues and waste generation, which was a threat to their production feasibility. The problem was described as the inability of their current equipment to convey sensitive web without inducing roller-contact defects such as web digs and web scratches.

An Optimation web-handling consultant visited the client site to review equipment layout, observe process performance and defect issues, and work with the client to define the project scope, requirements, and immediate action plans. The proposed process solution was to design a fluid-bar-conveyance system, which would replace the client’s submerged roller-conveyance system. The new design would convey the sensitive web through the submerged web path using fluid bars in place of rollers to avoid the web-to-roller contact that was creating subtle product defects. The fluid-bar system design criteria was that the web floats evenly, within design clearance requirements, with no web-to-fluid-bar contact, while maintaining lateral stability. Once the solution and proposed web path were determined, fluid-bar models were used, taking into consideration existing pump pressure and flow-rate specifications, to determine fluid-bar diameter, hole size, and hole pattern for each fluid bar to meet the fly-height objectives, while maximizing the no-contact safety factor.

Solutions

Using the fluid-bar model results, Optimation supplied the client with detailed final drawings of each fluid bar in the web path. The fluid bars were then fabricated and retrofitted into the production equipment according to the drawings Optimation provided. Production trials confirmed that the project was highly successful in achieving its objective of significantly decreasing product defects and associated waste. As a result of this success, the client requested the design of additional fluid bars for another section of the machine to further reduce defects.