Shiva Next Gen EOT Crane Control Panels
Shiva Next Gen EOT Crane Control Panels
Shiva Cranes Pvt. Ltd., based in Vatva, Ahmedabad, Gujarat (India), proudly introduces Shiva Cranes NexGen EOT Crane Control Panels – a next-generation electrical control solution engineered for advanced, safe, and energy-efficient crane operations. Designed with modern automation technology, NexGen panels ensure precise control, enhanced protection, and superior performance for all types of EOT cranes.
Product Overview
Shiva Cranes NexGen Control Panels are built to manage hoisting, cross travel, and long travel operations with smooth acceleration, deceleration, and accurate load positioning. Equipped with advanced VFD (Variable Frequency Drive) technology and intelligent protection systems, these panels optimize crane performance while reducing mechanical stress and energy consumption. Designed for heavy-duty and continuous operations, NexGen panels are suitable for single girder, double girder, gantry, and steel mill duty cranes.
Key Features
- Robust and dust-proof fabricated enclosure
- High-quality contactors, relays, and protection devices
- VFD-based speed control option
- Overload and short-circuit protection
- Thermal protection for motors
- Phase failure and voltage protection
- Easy maintenance with organized internal wiring
- Compliance with industrial electrical safety standards
Technical Specifications
Power Supply: 3 Phase, 415 V, 50 Hz
Control Type: Contactor Control / VFD Control
Enclosure: MS powder-coated / IP-rated panel
Application: Hoist, Cross Travel, and Long Travel Control
Mounting: Wall-mounted / Floor-mounted
Applications
Single Girder EOT Cranes
Double Girder EOT Cranes
Gantry / Goliath Cranes
JIB Cranes
Steel Mill Duty Cranes
Quality Assurance
At Shiva Cranes Pvt. Ltd., every EOT Crane Control Panel undergoes strict quality inspection and functional testing before dispatch. Our commitment to safety, durability, and advanced engineering ensures reliable crane performance, reduced downtime, and enhanced operational efficiency for industrial material handling systems.