The Double Girder EOT (Electric Overhead Traveling) Crane from Laxmi Engineering combines robust construction, high lifting capacity, and cost-effectiveness, making it the ideal solution for heavy-duty material handling across various industries. Designed with a rigid body, this crane delivers superior performance while maintaining low maintenance costs and ensuring energy efficiency. It operates seamlessly on 3-phase power, making it a versatile and reliable choice for industrial applications.
Double Girder Design: The double girder configuration ensures superior strength and stability by distributing the weight of the load across two parallel girders. This design allows for higher lifting capacities and longer spans, making the crane ideal for heavy-duty applications in manufacturing plants, warehouses, and other large industrial spaces.
Rigid Body Construction: The rigid body of the crane is built for durability and minimal deflection, providing smooth and stable operation under heavy loads. This design minimizes wear and tear on key components, ensuring a longer lifespan and reduced maintenance costs over time.
High-Efficiency Hoisting System: Equipped with an advanced hoisting mechanism, the crane features a high-efficiency motor and a robust gearbox. This combination ensures smooth, reliable, and energy-efficient lifting and lowering of heavy loads. The hoist system is engineered to handle substantial loads with minimal energy consumption, reducing operational costs and improving overall productivity.
3-Phase Power Operation: Designed to operate on 3-phase electrical power, this crane provides stable, efficient, and reliable performance. 3-phase power is commonly used in industrial settings due to its high power capacity, efficiency, and low operational costs. This cranes motor system is optimized to deliver high torque and smooth operation while reducing electrical consumption.
Trolley and End Carriages: The trolley of the crane is equipped with precision bearings and high-quality wheels, allowing smooth movement along the bridge girder. The end carriages support the crane's entire structure, providing stable travel and easy operation. This design ensures that the crane moves efficiently, even under heavy loads, across the span of the runway.
Energy-Efficient Drive System: The drive system uses energy-efficient motors that reduce electricity consumption while maintaining the necessary power for handling heavy loads. The motors high efficiency ensures that the crane operates cost-effectively, especially during prolonged use. The optimized drive also contributes to smooth acceleration, deceleration, and load control.
User-Friendly Control System: The crane features an intuitive control system, which can be operated through pendant control, radio remote control, or operator cabin options. The controls are designed for ease of use, ensuring that operators can maneuver the crane with precision and safety. This flexibility in control systems also allows for a variety of operational settings depending on the work environment.
Comprehensive Safety Features: Safety is a top priority in the design of the Double Girder EOT Crane. The following features are included:
Low Maintenance and Durability: With its rigid body and high-quality materials, the crane is built to endure heavy-duty use with minimal maintenance. The design incorporates sealed bearings, low-friction components, and weather-resistant finishes, reducing the frequency of repairs and extending the crane's operational life. This makes it an ideal choice for industries looking to reduce downtime and maintenance expenses.
Compact and Space-Saving: Despite its heavy-duty capabilities, the cranes design is optimized to be space-efficient. The compact dimensions allow it to operate effectively in environments where space is a premium, such as smaller factories, warehouses, and assembly lines. The efficient use of space combined with the crane's heavy lifting capabilities makes it an ideal solution for confined industrial spaces.
The Double Girder EOT Crane by Laxmi Engineering is suited for a wide range of industries and applications, including: