Synchronized mechanical linkage enables stable and reliable
Product Advantages
Modular & Multi-Dimensional Adjustable Design
Supports precise adjustments in height, horizontal position, and slope, easily accommodating terrain variations and foundation deviations during installation.
Modular multidimensional adjustable structure
Drive column
Ordinary column
High Fault-Tolerant Construction Design
Long slotted holes, multiple hole positions, and split-type installation methods significantly improve on-site matching capability, enhancing installation efficiency and construction quality.
Structural Details
Ultra-high mechanical strength and rigidity
Excellent fatigue resistance
Outstanding Self-Lubrication & Wear Resistance
High Impact Resistance
Excellent Weatherability (-40°C to +120°C)
Good Resilience & Anti-Deformation
Through-Bolt Locking — Prevents main shaft migration for stable operation
Observation Hole Design — Enables precise and efficient installation alignment
45° Chamfer Design — Enhances torsional resistance and structural strength
Extended Clamping Hoop — Improves overall stability and long-term durability
System Logic
Our intelligent control system adopts a layered distributed architecture specifically developed for solar tracking structures. It enables collaborative End-Edge-Cloud remote intelligent monitoring and precise control.
The system uses the NCU Intelligent Communication Box as the core gateway and TCU Intelligent Tracking Controllers as on-site execution terminals. A stable and efficient field network is established through Zigbee wireless self-organizing mesh networking.
Cloud & Remote Management Layer
The NCU uploads real-time operational data to the cloud platform, allowing users to perform remote monitoring, parameter adjustment, and fault diagnosis via mobile APP or web interface. It also seamlessly integrates with SCADA systems, fully meeting the centralized operation and maintenance requirements of large-scale power plants.
This system features reliable communication, flexible deployment, strong scalability, and convenient operation & maintenance. It significantly improves power generation efficiency and intelligent management of photovoltaic power stations, making it suitable for large ground-mounted plants, distributed PV projects, and installations in complex terrains.
System Application
Intelligent Anti-Shading Tracking - Power Generation Enhancement Solution for Complex Terrains
Complex Terrain Adaptation : Advanced algorithm optimization minimizes shading between front and rear rows caused by complex terrain, significantly increasing overall power generation.
Intelligent Control : The system automatically calculates and adjusts the optimal tracking angle for each array according to terrain variations, enabling fully autonomous operation without manual intervention.
Conventional anti-shadow tracking
Intelligent anti-shadow tracking
Diffuse Tracking for Overcast Conditions - Generating More Power Even on Cloudy and Rainy Days
Diffuse Irradiance Optimization : In cloudy, low-light, and high diffuse irradiance conditions, the system activates an intelligent diffuse light optimization strategy. By continuously calculating the optimal angle in real time, it maximizes the capture of scattered irradiance and increases overall module power generation.
Optimized Tracking with Reduced Wear : Through multi-dimensional calculations, the system determines the most efficient tracking angle and minimizes unnecessary movements. This significantly reduces drive energy consumption and mechanical wear, thereby extending the service life of the tracking system.
Integration of energy-efficient technologies into the production process of a food manufacturing factory. The project featured renewable energy systems and waste heat recovery