Double Girder Overhead Travelling Cranes: A Powerful Solution for Load Handling
Double Girder Overhead Crane Systems offer the most suitable solution for maximum lifting capacities.
We offer a wide range of options starting from standard lifting capacities of 1 ton up to 500 tons and more.
These systems, preferred in applications requiring high bridge spans, double hoists, automated systems, and maintenance platforms, provide a productive and safe working environment.
Additionally, they offer more efficient operation in applications requiring a high duty class, ensuring high performance in industrial operations.
Our products are manufactured in accordance with globally accepted quality standards and provide the most suitable solutions for all kinds of needs.
Double girder overhead travelling cranes are powerful and efficient handling systems frequently preferred in industrial facilities and production lines.
These cranes are used especially in areas where heavy loads need to be transported safely and quickly.
They stand out with both their durability and flexibility.
A double girder overhead travelling crane is a type of crane with a bridge-like structure moving on two main girders.
This system is mounted to the ceiling, causing no obstructions on the floor.
Its load carrying capacity is quite high, making it ideal especially for large factories, workshops, and logistics warehouses where heavy loads need to be handled.
Design and Structural Features
The design of double girder overhead travelling cranes considers key factors such as efficiency, durability, and safety.
The two main girders are designed to increase load capacity and ensure balance.
The bridge between the girders carries the loads and moves along the ceiling.
Generally, aluminum or steel materials are used, as they are both durable and capable of carrying heavy loads.
High Capacity: The double girder design allows for high load capacities.
Bridge System: The crane moves over the bridge, allowing for greater area coverage.
Durable Materials: Durable materials such as steel and aluminum ensure long-lasting performance.
Production Process and Technology
The production process of double girder overhead travelling cranes involves high precision and advanced technology.
This process directly affects the quality and safety of the cranes.
Modern technologies used in production ensure more efficient crane operation.
Use of Advanced Technology: Advanced tools such as CNC machines, laser cutting, and 3D modeling are used in crane production.
This ensures cranes have higher accuracy and quality.
High Safety Standards: Safety precautions and standards are strictly followed during production.
Each component is meticulously tested and undergoes quality control.
Quality and Technology
The quality standards of double girder overhead travelling cranes are critical for ensuring operational safety and efficiency.
These cranes not only have high load capacities but are also designed to be long-lasting and low-maintenance.
Quality Control: Strict quality control tests are conducted during crane production. Each crane part is tested for durability and safety.
Efficient Motor Systems: Crane motor systems are produced with cutting-edge technology to ensure energy efficiency and long-lasting performance.
Long-Lasting Structure: Since double girder cranes are designed using high-quality materials, they can operate smoothly for many years.
Maintenance and Operation
Regular maintenance is necessary for the efficient operation of double girder overhead travelling cranes.
For stable performance and safe use of these high-capacity cranes, it is important to follow proper maintenance procedures.
Regular Maintenance: Motors, pulleys, and girders of the cranes should be checked regularly. Lubrication should also be done at specified intervals.
Preventive Maintenance: Predictive maintenance programs are applied to prevent failures. This prevents cranes from breaking down unexpectedly.
Expert Operator Training: Operators must be trained for the proper operation of the cranes. Operator training increases both efficiency and safety.
