Energy distribution without a control cabinet
Installation without a control cabinet makes sense anywhere where equipment or drives have to be supplied with energy, or signals have to be transmitted over long distances
— Sponsored content provided by Wieland Electric Canada
EXPERT INTERVIEW WITH MEINRAD BRAUN, PRODUCT MANAGER, POWERBUS SYSTEMS AT WIELAND ELECTRIC
The major trends in machine building are digitization, modularization, and decentralization. What role does installation without a control cabinet play in this?
Installation without a control cabinet makes sense anywhere where equipment or drives have to be supplied with energy, or signals have to be transmitted over long distances. It is particularly suited to large machines and systems, such as conveyors, and can be used anywhere where cabling from the central control cabinet to the field can be replaced with power bus solutions and fieldbus communication. But this is not about turning one cabinet into many small cabinets with the same functions; instead the idea is to create greater benefit by adding more functions to the components.
A good example here is on-site diagnostics. If a decentralized motor starter has an operating status indicator, it is possible to identify immediately on-site what is or is not happening in this branch if a fault occurs. Consequently, there is no longer any running back and forth between the control cabinet and the location of the fault. Instead the fault can be rectified quickly and the system is back up and running in no time.
Where can decentralized installation be used, and what are the benefits?
One field of application would be logistics, where goods have to be transported over hundreds of meters or even kilometers. Here the individual drives also have to be supplied with electrical energy. If this is realized with a central control cabinet, then not only unimaginable quantities of cables but also huge cable trays are required, increasingly turning the electrical installation into an intolerable mess of materials. The same applies to factory automation, especially power supplies to production cells. Here too a large number of devices have to be connected over large distances. With the use of a power bus system, the work involved at central control cabinets can be reduced to main power distribution. This saves on costs and makes the planning for the plant more flexible because fewer control cabinets need to be considered.
Secondly, in a tray cable system the taps for the drives can be positioned anywhere, and re-positioned as needed. Incidentally, the same also applies to the feed-in point in order to balance out the load on the power bus. As a result, the power load on the cable can be utilized fully while preventing any overload. Compared with traditional point-to-point cabling with terminal boxes, this type of installation is less prone to errors and much easier and faster to install. Its strengths are also evident when it comes to modifications. No additional cabling is required as the power bus is already there. In addition, the connection is established without baring and stripping but with insulation-piercing contacts. The whole process couldn’t be faster.
What solutions does Wieland provide for energy distribution without a control cabinet, and how does the cost work out compared with conventional installations?
We are very clearly laying the foundations here with our podis® power bus system. Alongside the components for decentralized structures, we have added a more powerful 5-core cable and components. Much larger loads can be supplied compared to the existing solution. The power bus is ideal for use in conveyor systems at airports, parcel and post distributions centers, and production plants such as in the automotive industry. While it may be true that the material costs of the decentralized system are slightly higher than those of standard components, the pay-back occurs as early as the installation process. For one thing, this takes just a fraction of the time. As we show in this video comparison (below) it takes just a tenth to a third of the time to realize the same installation with the podis® system and with no mixed-up cables, open contact points, or cut insulation.
Added to that, it is the modular design and decentralized structure that make it possible to adapt plants to new requirements time and again over their operating life-cycle, to keep the plant’s availability high, and thereby to improve productivity. It is not so much the procurement price that is important; the decision on an investment comes down to productivity.
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