Why is There a Need for Using a Rail Guided Vehicle?

Large amounts of heavy goods may be transported over long distances at a cheap cost and with excellent efficiency thanks to a rail guided vehicle System, which are quick, adaptable rail systems. RGV systems are essential for handling, storing, and fulfilling orders in a variety of sectors. Because of their extensive use, many major industrial plants view them as essential to day-to-day operations.

The concept of a rail guided vehicle

Transport systems that are either fully or partially autonomous and that follow pre-established tracks or rails are known as rail guided vehicle. Remarkable levels of mobility and navigation precision are provided by RGVs, which are outfitted with advanced sensors, cameras, and control systems. When RGVs are used for normal material handling duties, there is less need for human intervention, which makes the solution seamless and effective for a range of sectors.

What are the benefits of using a rail guided vehicle?

• Assembly Line Optimisation:

RGVs are skilled at enabling accurate and timely transportation of components from one workstation to another, hence promoting precise motions along assembly lines. These vehicles facilitate the smooth flow of materials, minimise bottlenecks, and improve overall manufacturing efficiency by serving as guides throughout assembly procedures.

• Warehouse Management Systems:

Sorting, storing, and retrieving items in warehouses requires simplified procedures in the logistics and distribution industry. A rail guided vehicle works like pointers through warehouse aisles, directing merchandise with unmatched accuracy to its intended places. As a result, there is less need for physical labour and more storage space, which leads to an efficient and reasonably priced warehouse management system.

• Automated material handling

The rail guided vehicle is an essential component of automated material handling systems because they act as markers to direct items through preset workflows. The adaptability of RGVs as pointers is obvious in a variety of industries, including food processing plants where they facilitate the efficient transportation of perishable commodities and the automobile production sector where they deliver vehicle components.

• Better transportation in a hazardous environment

Using a rail guided vehicle as guides has a big advantage for industries handling hazardous products, including chemical factories or nuclear facilities. By precisely transporting materials, these vehicles can reduce human exposure to possible hazards and enhance workplace safety.

Let us now move on to the advantages of using a rail guided vehicle, in terms of enhanced operational efficiency, cost-effective automation, flexibility and adaptability, and some of the safety advancements. 

The advantages of using a RGV

• Enhanced Operational Efficiency

RGVs operate with a level of precision that is challenging to achieve with traditional material handling methods. By following predetermined paths, RGVs as pointers reduce the likelihood of errors and delays, leading to enhanced operational efficiency.

• Cost-Effective Automation

The automation provided by RGVs translates into cost savings for businesses. With reduced dependence on manual labor, companies can optimize their resources and allocate human capital to more strategic and value-added tasks.

• Flexibility and Adaptability

RGVs can be seamlessly integrated into existing material handling systems, offering flexibility and adaptability to evolving operational needs. Their scalability allows businesses to adjust and expand their material handling processes without significant disruptions.

• Safety Advancements

Automation through a rail guided vehicle contributes to a safer work environment by minimizing the risks associated with manual transportation, especially in industries dealing with hazardous materials. The precision of rail-guided systems reduces the likelihood of accidents and enhances overall workplace safety.

How does a rail guided vehicle work?

After being converted from the power source’s AC 380v to AC 36v three-phase, the three rails are linked in turn. The AC 36 volt energy is routed to the electrical appliance box via the rail guided vehicle’s conducting plate and wheels. To start, stop, move forward, move backward, and other functions of the rail-guided vehicle, AC 36 volts is converted to AC 380 volts via a transformer, and the AC metallurgical motor is controlled by the AC motor system.

Conclusion

Rail-guided vehicles have proven to be invaluable resources in the field of material handling. They are a strategic choice for industries looking to stay competitive and optimise processes because of their accuracy, efficiency, and safety benefits. The importance of a rail guided vehicle in pointers is expected to grow as technology develops, offering more advancements and enhancements in material handling systems for a variety of industries.

Why should you choose Godrej Koerber Rail guided vehicles?

The intelligent, fast, floored rail guided vehicles that form the foundation of the rail guided vehicle system are designed to handle a variety of loads. With the use of this  technology, there can be a quick, easy, and economical solution for intricate sorting tasks or tying together far-off locations. In cases when the load handling devices are not standardised, it is also a compelling substitute for lengthy conveyor lines.

Rail Guided Vehicles (RGVs) with their floor-fixed track rail which includes, among other things, running rails, rail switching devices, elevators, and maintenance spaces make up our system. Furthermore, we might supply particular components such light barriers, access controls, or fence that arecf necessary to guarantee an entirely safe working environment for operators. Our modular and versatile design ensures smooth and steady transportation no matter how complicated the transit route. Because every RGV in the system is interchangeable, redundancy is another essential component of this handling method.