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High-Precision Dual-Energy Mining and Transmission
Self-developed high-precision dual-energy mining and transmission technology accurately identifies high and low density and high and low content minerals, adaptable to most sorting scenarios.
Intelligent Sorting System
Based on deep learning, a mine-specific mathematical model is built to ensure recognition accuracy and achieve efficient and precise sorting.
Real-Time IoT Monitoring
The Internet of Things (IoT) monitors equipment status in real time, supporting fault warnings and system self-learning iteration to continuously optimize sorting results.
High-Performance and Reliable Assurance
Professional software combined with world-class components ensures stable and high-yield operation of the entire machine.
Customized Adaptation, All-Condition Coverage
Leveraging years of experience in the R&D and production of mining sorting equipment, it can be customized to adapt to different mineral types and working conditions.
Self-Developed High-Precision Dual-Energy Mining and Transmission Technology
The independently developed high-precision dual-energy mining and transmission technology can identify not only minerals with large density differences and high content, but also minerals with small density differences and low content, making it suitable for the sorting of most minerals.
New Intelligent Algorithm
Using deep learning and other artificial intelligence methods, a unique mathematical model is established for the ore at each mine, ensuring accurate identification and achieving efficient and accurate sorting.
Intelligent and Reliable
Utilizing IoT technology, the system monitors equipment operating status in real time, providing fault prompts and alarms. The system can learn and update itself, continuously improving sorting results.
Customizable Adaptability to Different Mineral Types and Working Conditions
With years of experience in the R&D and production of mining sorting equipment, customized models and accessories can be produced according to different mineral types and working conditions.
+50~-300mm large particles (calculated based on mineral density 1.4g/cm³)
| Technical Performance Index (GPI) | XRT 1200-300 | XRT 1400-300 | XRT 1600-300 | XRT 1800-300 | XRT 2000-300 | XRT 2400-300 | XRT 2800-300 | XRT 3200-300 | XRT 3600-300 | XRT 4000-300 |
| Tracked Distributor Width (mm) | 1200 | 1400 | 1600 | 1800 | 2000 | 2400 | 2800 | 3200 | 3600 | 4000 |
| Processing Capacity (t/h) | 70~110 | 90~130 | 110~150 | 130~170 | 150~190 | 170~230 | 190~260 | 210~300 | 230~340 | 250~380 |
| Actual processing capacity needs to be calculated based on mineral density. | ||||||||||
+25~-100mm medium particles (calculated based on mineral density 1.4g/cm³)
| Technical Energy Number | XRT 1200-100 | XRT 1400-100 | XRT 1600-100 | XRT 1800-100 | XRT 2000-100 | XRT 2400-100 | XRT 2800-100 | XRT 3200-100 | XRT 3600-100 | XRT 4000-100 |
| Tracked Distributor Width (mm) | 1200 | 1400 | 1600 | 1800 | 2000 | 2400 | 2800 | 3200 | 3600 | 4000 |
| Processing Capacity (t/h) | 42~66 | 54~78 | 66~90 | 78~102 | 90~114 | 102~126 | 114~155 | 126~180 | 138~205 | 150~230 |
| Actual processing capacity needs to be calculated based on mineral density. | ||||||||||
-10~-60mm medium particles (calculated based on mineral density 2.7g/cm³)
| Technical Capacity | XRT 1200-30 | XRT 1400-30 | XRT 1600-30 | XRT 1800-30 | XRT 2000-30 | XRT 2400-30 | XRT 2800-30 | XRT 3200-30 | XRT 3600-30 | XRT 4000-30 |
| Tracked Conveyor Width (mm) | 1200 | 1400 | 1600 | 1800 | 2000 | 2400 | 2800 | 3200 | 3600 | 4000 |
| Processing Capacity (t/h) | 25~35 | 32~42 | 40~49 | 45~56 | 54~63 | 60~77 | 68~91 | 75~105 | 80~119 | 90~133 |
| The actual processing capacity needs to be calculated based on the mineral density. | ||||||||||