Innovative concrete distribution automated systems: efficient, safe and environmentally friendly.
Concrete distribution automated systems, such as TDM Engineering Oy’s shuttle, are advanced technological solutions designed to optimize and speed up the delivery of ready-mix concrete from the concrete mixing plant to the forming area. These systems play a key role in modern construction by ensuring efficient and accurate concrete distribution to the point of use.
One of the main components of these systems is the concrete distribution shuttle with electric motors. A concrete shuttle is a specialized container for transporting concrete mix. Equipped with electric motors, it provides smooth and controlled movement of concrete along a given trail. This allows accurate dosing of concrete quantities and minimizes the risk of concrete separation or loss of quality during transport.
Straight or curved sections of double-rail tracks are used to move the shuttle around the production facility. These tracks can be designed to provide maximum flexibility in the concrete delivery track. This track design allows the system to adapt to different configurations and provide efficient concrete distribution even in hard-to-reach areas.
An important part of concrete distribution automated systems is the full-portal or semi-portal concrete distributors. These elements are metal structures that distribute of the concrete across production building. The portals can be equipped with additional devices to control the flow of concrete, such as gates or valves that regulate the release of the concrete mix at the right moment.
Concrete distribution automated systems: advantages and features of the shuttle system from TDM Engineering Oy
A key aspect of the efficiency of automated concrete distribution systems is the integrated control system. It includes software and hardware components that coordinate the operation of all elements of the system. The control system provides automatic execution of the set algorithms of concrete distribution, tracking of its movement along the rails and control over compliance with the technological parameters. Thanks to this, production work can be carried out with high accuracy and productivity, minimizing the human factor and the risk of mistakes.
The use of automated concrete distribution systems, such as the shuttle from TDM Engineering Oy, allows construction companies to significantly increase the efficiency of concrete use, reduce time and labor costs for its transportation and improve the quality of work. These systems are becoming an integral part of modern construction projects where high precision and speed of work execution are required.
In addition, automated concrete distribution systems contribute to increased safety in production. Traditional methods of concrete transportation are often associated with the risk of worker injury and equipment damage. Automated systems minimize the need for direct personnel interaction with heavy loads and moving machinery, thereby reducing the potential for accidents.
The environmental aspect also plays an important role in the use of concrete distribution systems. Automation of processes helps in reducing waste and unnecessary use of resources. Precise batching and concrete distribution minimizes concrete wastage and prevents environmental pollution.
The implementation of concrete distribution automated systems requires some investment in hardware and software. However, the cost effectiveness of such investments is seen in the long term by reducing production time, reducing labor costs, and improving the quality of work performed. An integrated approach to concrete work management allows to optimize costs and increase the competitiveness of construction companies in the market.
In conclusion, concrete distribution automated systems such as the shuttle from TDM Engineering Oy represent an innovative solution for modern production. They ensure efficient, accurate and safe concrete distribution, contribute to environmental sustainability and economic efficiency of construction projects. The use of such systems is an important step towards automation and optimization of construction processes.