"Buildex" PV Module Installation Robot
Core technology:
AI-Powered Solar Installation Robotics, such as the Trinabot photovoltaic panel installation robot, are transforming the renewable energy sector. These advanced systems install solar panels twice as fast as humans and at half the cost, significantly enhancing efficiency and reducing expenses. By leveraging AI and automation, they address critical challenges in solar panel installation, making sustainable energy more accessible.
Trinabot's AI-Powered Solar Installation Robotics's database supports a wide range of clamps, rails, and trackers, ensuring compatibility across various systems. Key features include:
Robotic Arm Functionality: The module installation robot handles the transportation and placement of photovoltaic modules using its robotic arm, while human workers focus on the bolt fastening process, achieving efficient human-machine collaboration.
Integrated Sensors and AI: Sensors, cameras, and LIDAR create a virtual rendering of the site, allowing precise panel placement.
These innovations ensure that Trinabot's Photovoltaic Panel Installation and Paving Robot can adapt to diverse installation scenarios while maintaining accuracy and reliability.
Trinabot's solar panel construction robots are a breakthrough solution. By automating key processes, these robots speed up construction and ease labor constraints.
Faster Installations: Doubling the speed of traditional manual installations.
Cost Reduction: Halving the installation costs, making solar energy more affordable.
Improved Access: Enhancing the scalability of solar projects to meet global energy demands.
The introduction of Trinabot's Photovoltaic Panel Installation and Paving Robot marks a significant step in advancing renewable energy deployment. These AI-Powered Solar Installation Robotics combine cutting-edge technology with practical applications to address industry challenges and drive the growth of sustainable energy.
AI-Powered Solar Installation Robotics are setting a new standard in renewable energy construction, ensuring a brighter, more sustainable future for all.
Product advantages
Efficient Installation
Quick Setup: On-site deployment completed within 2 hours High Efficiency Installation: Up to 60+ modules/hour — 2–3× faster than manual labor
Intelligent Operation
Autonomous Navigation: ±10 cm precision between operation points Smart Laying: AI-powered adaptive gripping and placement with ±10 mm accuracy
Flexible Compatibility
Built-in forklift function for autonomous loading; supports both horizontal and vertical packaging. Multiple preset laying modes; installs up to 6 modules per positioning. Modular base adapts to varying structure heights. Supports trackers and fixed structures, 1P/2P layouts; compatible with mainstream modules
Safe & Reliable
Real-time obstacle detection for safe operation Arm protection for -20°C to 50°C environments Tracked chassis adapts to complex terrains including 4,500 m plateaus, Gobi, and desert environments.
Product parameters
| Parameter | Buildex S | Buildex E |
| Size | 5.4 × 2.52 × 2.83 m | 4.98 × 2.47 × 2.28 m |
| Weight | 9.5 t | 8 t |
| Payload | 1.5 t + 100 kg | 2 t + 100 kg |
| Endurance | ≥ 40 h | ≥ 10 h |
| Speed | Max 5.5 km/h | < 5 km/h, 6-speed adjustable |
| Climbing Ability | ≤ 20° | ≤ 20° |
| Module Bottom Edge Height | Structure: 0.5 ~ 2.5 m | Tracker: 0.5 ~ 2.2 m Structure: 0.5 ~ 1.5 m |
| Tilt Angle | Structure: 27° ~ 45° | Tracker Structure: 35° ~ 45° |
| Operating Temperature | -20°C ~ +50°C | -20°C ~ +50°C |
| Power System | Hybrid | Pure Electric |
| Terrain | Sand, grass, snow, walls, slopes, hills, etc. | Sand, grass, snow, walls, slopes, hills, etc. |
1. Autonomous Walking: Utilizes an RTK and LiDAR fusion positioning system, combined with an intelligent chassis control algorithm, enabling autonomous navigation between workstations with a positioning accuracy of ±10 cm.
2. Autonomous Installation: Equipped with a 3D laser camera and intelligent matching algorithm for adaptive gripping and placement of components, achieving an overall installation accuracy of ±10 mm.
3. Direct-Drive Motor: High energy efficiency and precise control, providing an endurance of over 40 hours.
4. Segmented Base: Adaptable to high and low support structures.
5. Linear Module System: Supports installation of 2–6 extended components at the end.
6. Low-Temperature Protection for Robotic Arm: Designed to withstand extreme cold and hot weather conditions.
Discover how the Buildex Module Installation Robot by Trinabot is revolutionizing large-scale solar projects with precision, speed, and safety. Engineered for performance in demanding environments, it’s your reliable partner for streamlined and cost-effective solar deployment.
