Experts believe that we are living through the fourth industrial Revolution or Industry 4.0. Industry 4.0 is bringing a sea change into the manufacturing, logistics and automation industry. An important aspect of this revolution apart from cloud computing is the Industrial Internet of Things. Industrial IoT or IIoT is making it possible for businesses across domains to understand their Business operations like never before. In fact, B2B investments in IoT solutions, apps, and technologies is estimated to reach $267B by 2020. 50% of this spending is likely to be driven by manufacturing, transportation & logistics, and utilities.
One of the biggest beneficiaries of IIoT technology is possibly the Conveyor Belt system. Conveyor Belts are used in several industries spanning Logistics, Manufacturing, Automobile and more. The modern Conveyor Belt has in fact arrived at its present stage after going through several stages of evolution since it was used for the first time in 1892 for carrying coal. Conveyor belt Assembly lines were first introduced by Henry Ford in 1913. Since then the Conveyor Belts have gone through several milestone changes. Currently, the industry is at the threshold of another strategic change which is the integration of IIoT into Conveyor Belt Systems.
Industries that use Conveyor belts each face certain unique problems. Here we have tried to identify problems faced by some of the industries that most commonly use Conveyor Belt systems. These industries stand to gain the most from the internet of things industrial applications.
The Mining industry uses long-distance large scale conveyor belts to ply heavy machinery and equipment for long overland transportation.
In the Manufacturing Industry time is of essence. Though this holds true for all industries, for Manufacturing this is especially true as delay in production is directly proportional to revenue generated. Conveyor Belts form an integral part of the assembly line at Manufacturing Industry and downtime of the belt will lead to Revenue loss.
Warehouses deal with numerous transit shipments daily. Visibility into these shipments and inventory is very important. Efficiently performing warehouses need accurate and timely information on shipments. One needs to be able to clearly identify what’s in transit, where it is, when it will arrive, and how much it will cost.
Keeping all these problems in mind we understand that Automation is a key feature for any modern-day industry. It is the one factor that sets apart modern day industries from traditional ones. IIoT solutions gather data from individual devices and components to enable large-scale industrial automation IoT. When we integrate an IIoT platform with Conveyor belts we can solve several core industrial challenges across several industries. Let’s have a look at how it can be done:
Components such as Idler Rolls can be monitored accurately in Real-time from a remote location. This can save valuable manhours. Assessing the ‘technical health’ of the roller bearings can be done by measuring their temperature. Normal operating temperatures range between 20 ˚ C and 50 ˚ C depending on the ambient temperature. If the temperature of a bearing increases to higher temperatures, ranging from 80 ˚ C to 120 ˚ C, then it is a clear sign of potential bearing failure. By using temperature sensors in Mining IoT solutions, businesses get alerts which provide significant amount of time to react to any potential damage. This can help save several man hours which were earlier spent in manually monitoring Idler rolls. Powered by Machine learning and AI such a solution is more accurate too.
An IIoT Manufacturing solution can be used to integrate the asset management system with sensors that directly pick Big data from the hardware and then relay it on to the user Interface for quick spare part identification and reorder request. The support team can immediately move into action whenever such a request occurs. This can cut down the whole process to just a few minutes thus saving a lot of valuable work Hours and can effectively reduce downtime by 90%.
With the advent of smart factories, maintenance occurs not just after a failure has taken place but much before a potential damage can occur. Machine learning and Artificial intelligence help set parameters of normal functions. Emerging deviations help set out alert notifications to prevent actual failure. With sensors picking data as specific as vibrations per second, IIoT platforms can provide extremely accurate data about which specific part needs urgent maintenance. In addition to temperature sensors in idler rolls, several sensors are mounted on the electric motors and gearbox shafts to measure vibration. This information is collected to predict possible defects, better manage maintenance, and reduce overall downtimes. Our IoT Solution will analyze these vibration patterns and define deviations (such as a failure in the electric motor) so an alarm can be triggered before the failure occurs.
To gain visibility into inventory arrival especially in warehouses, the conveyor belt can be fitted with a barcode tracking system. Pallets, crates, shelves, racks, cylinders, forklifts, etc can be tracked with identification tags like Barcodes, QR codes, RFID. Receiving function in warehouses can be completely automated by use of vision devices on Conveyor belts. By doing so Inbound items received from vendors or other warehouses when put on a conveyor belt can automatically be updated to the ERP System for easy visibility. These devices can scan barcodes, QR codes at a much faster pace than a warehouse executive. In cases the items are tagged with RFID tags, RFID receivers can be placed on such conveyors which can capture the receiving details of an item.
The generic IIoT Solution for Conveyor Systems comprises of three main parts. This can be further customized to specific needs.
Sensor Nodes comprise of all the sensors which pick data from various hardware components to provide insights on actual functioning of the Conveyor Line.
Helps to identify how long the belt has run.
Provides real time information on temperature of the belt and allows to predict of it is time for the system to rest to avoid malfunction due to overheating.
The data from these sensors help provide insights on whether gearmotor components are getting damaged due to overuse or ill-use.
All the data collected by the sensors once received by the network Coordinator is transferred to the gateway from where through GPRS Signals it is then brought to RIMS.
This comprises the server part and the User Interface section.
The Router, Knowledge Base, Data Warehouse are all part of the Server section. This is where the data gets processed and sorted.
The User Interface section is finally where all stakeholders can access the relevant data over mobile apps, Web app and more.
As IIoT is being widely adopted by industries, it is becoming an accepted trend of disruptive technology. Industrial IIoT has delivered proven results in modernizing businesses by improving profitability, safety and efficiency of businesses. In case of Conveyor Belts IIoT holds the potential of improving profits and efficiency by upto 50%. Additionally, IIoT solutions can be successfully implemented into Mining Pumps. To know more on how IIoT be adapted to your Industry, drop us a message here.
Qwentic is a leading technology consulting company, engaged in offering end to end consulting services. We are technology consulting partners to several leading businesses across a diverse range of industries spanning Logistics, Healthcare, Advertisement, and E-learningRead More
Leave your details below.
Our Consultant will get in touch with you.