Article 5B4YR Designing for Safety: A New Approach to Belt Conveyors

Designing for Safety: A New Approach to Belt Conveyors

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The post Designing for Safety: A New Approach to Belt Conveyors appeared first on POWER Magazine.

fig2-slide-out-cradle-track-mounted-syst

Conveyors are among the most dynamic and potentially dangerous areas of equipment at a coal power plant. Even though their safety and performance are critical to the operation's success, the impact of their contribution to overall efficiency is often unrecognized by management and workers alike. Operational basics of belt conveyor systems are too often a mystery to some employees, who have little understanding about the hardware installed and the performance required from the components.

The knowledge gap is understandable. The attention of personnel at a mine or coal handling operation is centered on the processing of the company's main product. The care and feeding" of belt conveyors, that is, the adjustment, maintenance, and troubleshooting that make a huge difference in safety, performance, and profitability, is typically outside of their expertise. It's not that they don't care about conveyors, but the ongoing maintenance and service of these systems is often not part of their immediate focus or within their time constraints.

In addition, there is often a failure of the retiring workforce to pass along the wisdom they've gained over the years. Further, some industry experts have discussed the missing generation" in coal-related jobs, exacerbating that knowledge gap. Although mining engineering seems to be regaining its cool" in recent years, there still appears to be a general shortage of people in the 25-45 age range.

Protecting the Most Valuable Assets

Personnel are the single most important resource of any mine or industrial operation, and engineers and designers are incorporating greater functionality into designs that will improve safety," observed Martin Engineering Chief Technology Officer Paul Harrison. Standards continue to tighten, and MSHA [Mine Safety and Health Administration] retains a strong focus on worker safety, driving the need for equipment designs that are not just safe, but optimized for safety-that is, designed with safety as a fundamental priority. At the same time, there is increasing pressure for continuous and ever-increasing production."

To meet the demands for greater safety and improved production, some manufacturers have introduced equipment designs that are not only engineered for safer operation and servicing, but also reduced maintenance time. One example is a new family of heavy-duty conveyor belt cleaners, designed so the blade cartridge can be pulled away from the belt for safe access (Figure 1) and replaced by a single worker.

fig1-slide-out-belt-cleaner-martin.jpg1. This slide-out belt cleaner is engineered to be accessed safely and replaced by a single worker. Courtesy: Martin Engineering

The same slide-out technology has been applied to impact cradle designs (Figure 2). The systems are engineered so operators can work on the equipment safely, without breaking the plane of motion. External servicing reduces confined space entry and eliminates reach-in maintenance, while facilitating faster replacement. The result is greater safety and efficiency, with less downtime," said Harrison.

fig2-slide-out-cradle-track-mounted-syst2. Track-mounted systems can be serviced quickly and safely, with no reach-in maintenance. Courtesy: Martin Engineering

Another example is a revolutionary new belt cleaner design that can reduce the need for bulky urethane blades altogether, an innovative belt cleaning system that has received the Australian Bulk Handling Award in the Innovative Technology" category for its design and potential benefits. The patented design delivers extended service life, low belt wear, significantly reduced maintenance, and improved safety, ultimately delivering lower cost of ownership.

Unlike conventional belt cleaners that are mounted at an angle to the belt, this unique cleaner [Figure 3] is installed diagonally across the discharge pulley, forming a three-dimensional curve beneath the discharge area that conforms to the pulley's shape," explained Conveyor Products Manager Dave Mueller. The design incorporates a matrix of tungsten carbide scrapers and is tensioned lightly against the belt to prevent damage to the belt or splices."

fig3-clean-scrape-conveyor-belt-cleaner-3. The unique belt cleaner forms a 3D curve beneath the discharge that conforms to the pulley's shape. Courtesy: Martin Engineering

Despite extremely low contact pressure between belt and cleaner, it has been shown to remove as much as 95% of potential carryback material. The novel approach has been so effective that in many operations, previously crucial secondary belt cleaners have become unnecessary, saving further on belt cleaning costs and service time.

Power

Another trend in large operations is a need for enhanced automation and monitoring, including such tasks as load sensing, belt tracking, cleaner tensioning, and lighting. In most cases, electrical power is supplied only to the conveyor locations where it's needed, such as the drive motor, and is not typically available for general-purpose use," Harrison continued. In many operations, this lack of available power means that any monitoring of the conveyor must be done by technicians physically walking the length of the structure, which can be a difficult and time-consuming task when the systems are long and span difficult terrain."

A more efficient approach is to employ sensors to transmit important data from remote points to a central location where it can be monitored in real time and recorded for later analysis. But intelligent monitoring systems for any conveyor system require power for extended operation. Due to the distances involved, cabled communication systems are not ideal, and therefore wireless communication systems are more advantageous. Options such as solar are not well-suited to the general conditions of a conveyor system, as monitoring devices are often required in an enclosed structure without access to sunlight, or for continuous operation during both day and night.

A conveyor is driven by a multi-kilowatt motor, and this power is readily available systemwide in the form of the moving belt. The motors driving the belts are typically sized with a considerable power safety factor to account for parasitic loads, such as rolls with damaged bearings, tracking devices (which may work almost continuously), sealing systems, belt cleaners, and material changes due to different moisture levels and variable loads. For these reasons, engineers have searched for ways to take advantage of the available kinetic energy of the moving belt to bring power to the specific places where sensors and other devices would provide advantages.

In most conveyor designs, the belt runs on a set of rollers that provide support and guide the belt. The typical conveyor roller is a very reliable device, with key components such as bearings, seals, and the steel can" all well-understood in the industry. Product designers theorized that they could draw power from a moving belt by attaching an independent generator directly to one of the rollers. In this way, they felt that power could be drawn from the conveyor without altering the structure of the system or affecting its physical configuration.

Being able to add a generator to a roller delivers the benefit of utilizing the proven reliability of existing roller designs, while drawing power from the belt for a wide variety of electronic devices," said Mueller. The goal was to engineer a device with the versatility to retrofit existing idler designs, so operators would not be required to maintain a special stock of conveyor rollers, as the generator could be employed on virtually any steel roller.

Product engineers developed a design to accomplish this through the use of a magnetic coupling that attaches to the end of an existing roller (Figure 4). The outside diameter of the generator matches the diameter of the roll, but places the generator outside the normal belt line to avoid the heavy loads and fugitive material that tends to damage existing design attempts," Mueller added. The generator is held in a fixed position by the roll support system, but is not normally required to bear any of the material load."

fig4-conveyor-belt-roller-generator-mart4. The generator can be employed on virtually any steel roller. Courtesy: Martin Engineering

The reliable power supply helps bring a new level of sophistication to conveyors, allowing designers to equip their systems with devices such as weigh scales, proximity switches, moisture sensors, pressure switches, solenoids, and relays, as well as timers, lights, and even additional safety mechanisms. Wireless communication can be used to transmit directly to a central controller, giving operators a cost-effective way to access data that has not been readily available in the past-and taking another step toward smarter" conveyor systems.

In a related move toward safer, more-productive material handling, one global conveyor technology innovator has introduced an automated pneumatic tensioning system for belt cleaners. The new device delivers precise monitoring and tensioning throughout all stages of blade life, minimizing the labor typically required to maintain optimum blade pressure and extending the service life of both the belt and the cleaner. Equipped with sensors to confirm that the belt is loaded and running, the system automatically backs the blade away during stoppages or when the conveyor is running empty, minimizing unnecessary wear to both the belt and cleaner. The result is consistently correct blade tension, with reduced power demand on start-up, all managed without human intervention.

Continuous Improvement

With a properly trained staff and thoughtfully designed components, conveyor maintenance is becoming easier and safer than ever before. Thanks to new component designs and advanced engineering capabilities, the work environment has been drastically improved in recent years, and operators are reducing downtime due to cleanup and broken equipment. These gains should inspire operators to make time for a cost-benefit analysis of new technologies and assess the long-term gains of both increased efficiency and workplace safety.

Managers concerned with the overall safety and cost of operation need to go through the numbers to see how the impact of rising labor costs for cleanup and maintenance, combined with the expense of potential fines or forced downtime, can affect the bottom line," Harrison concluded. Using new and emerging technologies like the ones described here, even poorly performing conveyors often don't need to be replaced or rebuilt, but merely modified and reconfigured by knowledgeable and experienced technicians installing modern equipment. These improvements will help operations improve efficiency, reduce risk, and contribute to regulatory compliance.

-This article was contributed by Martin Engineering.

The post Designing for Safety: A New Approach to Belt Conveyors appeared first on POWER Magazine.

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