| Customization: | Available |
|---|---|
| Application Area: | Angle and Azimuth Measurement of Various Non-Magne |
| Data Transmission: | Wireless Inclination Sensor |
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JQX-2 Portable Digital Inclinometer: Precision Engineering for Subsurface Analysis
The JQX-2 portable digital inclinometer redefines accuracy in borehole surveying with its advanced integration of high-precision sensors, rugged portability, and real-time data processing. Designed for geotechnical engineers and geological surveyors, this system combines a surface display unit, downhole probe, manual winch, and durable cables to deliver unmatched performance in challenging environments. Its applications span geological exploration, mineral resource mapping, hydropower infrastructure monitoring, and slope stability assessments, making it indispensable for professionals requiring submillimeter-level accuracy.
Core Operational Principles
1. Gravity Acceleration Measurement Technology
At the heart of the JQX-2 lies its triaxial MEMS accelerometer, engineered to detect gravitational forces with 0.1° resolution. When deployed in a borehole, the sensor measures gravitational components across three axes, translating tilt angles into digital signals through 16-bit analog-to-digital conversion. This process eliminates drift errors, ensuring reliable vertex angle calculations even in high-vibration drilling scenarios.
2. Geomagnetic Azimuth Detection
The system's fluxgate magnetometer captures Earth's magnetic field vectors to determine azimuth orientation. By fusing geomagnetic data with gravitational measurements, the JQX-2 achieves ±4° azimuth accuracy-critical for mapping borehole trajectories in magnetic interference zones. Auto-calibration algorithms dynamically adjust for localized magnetic anomalies, guaranteeing consistency across depths up to 1,000 meters.
Workflow Optimization
Step 1: Rapid Deployment
The lightweight probe (2 kg) attaches seamlessly to the anti-kink cable and manual winch, enabling single-operator deployment. Its 42mm diameter ensures compatibility with standard borehole casings, while the IP68-rated housing withstands pressures at 85°C temperatures.
Step 2: Real-Time Data Acquisition
As the probe descends, onboard microprocessors process inclination and azimuth data, transmitting results to the surface unit via noise-shielded cables. The 240x95x140mm surface instrument displays readings on a sunlight-readable LCD, with options for instant printing or USB data export.
Step 3: Advanced Data Interpretation
Integrated software converts raw measurements into 3D borehole deviation maps, highlighting lateral shifts as small as 3mm per 30m depth. Engineers leverage this data to optimize drilling paths, mitigate collapse risks, and validate structural designs.
Key Selling Points
Unmatched Precision: ≤0.1° inclination accuracy ensures compliance with ISO 9001 and ASTM D7299 standards.
Field-Ready Durability: Military-grade aluminum alloy casing and submersible seals endure harsh terrains and corrosive fluids.
User-Centric Design: One-button calibration and intuitive menus reduce training time for field crews.
Scalable Integration: Compatible with third-party GIS platforms for seamless data fusion in large-scale projects.
Technical Specifications Table
| Parameter | Specification |
|---|---|
| Inclination Range | 0° to 60° |
| Azimuth Range | 0° to 360° |
| Inclination Accuracy | ≤0.1° |
| Azimuth Accuracy | ±4° (vertex angle ≥3°), ±6° (2°-3°) |
| Operating Temperature | 0°C to 85°C |
| Probe Dimensions | Φ42mm x 100mm |
| Probe Weight | 2 kg |
| Max Depth Capacity | 1,000 meters |
| Surface Unit Dimensions | 240mm x 95mm x 140mm |
| Surface Unit Weight | 0.8 kg |
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