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Accuracy: | <1mm |
Horizontal Line: | 1 |
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Main Applications:
Borehole Imaging and Documentation: The device is primarily used for full-hole wall imaging and recording within drill holes. It captures high-definition images and videos of the borehole walls, allowing for detailed documentation and analysis of subsurface geological formations.
Trajectory Measurement: It measures the spatial trajectory of boreholes, which is crucial for understanding the path of drilling and for accurate positioning of the drilling rig, especially in complex geological environments or for directional drilling.
Fault and Fracture Analysis: The analyzer observes and documents the occurrence and development of faults and fractures. This is essential for assessing the stability of rock masses and for identifying potential risks associated with geological structures.
Hydrogeological Investigations: The equipment is capable of detecting water-bearing faults, grikes, caves, aquifer outlets, and water-flowing fissure zones. This is vital for hydrogeological studies and for the management of groundwater resources.
Rock Stratum Analysis: It allows for the observation and quantitative analysis of the strike, thickness, inclination, and dip angle of rock strata and other ore bodies. This information is crucial for mining operations and for understanding the geological structure of an area.
Measurement of Geological Structures: The analyzer can measure the thickness, width, strike, inclination, and dip angle of strata or various geological structures from the imaging plan, providing valuable data for geological mapping and structural analysis.
Differentiation of Geological Bodies: The device can distinguish between different geological structures such as ore bodies, rock masses, dirt bands, and soil layers, which is essential for accurate geological interpretation and resource estimation.
Applicability to Various Borehole Types: The TS-GC1201(C) is designed to be used with different types of boreholes, including horizontal, vertical, and inclined boreholes, making it a versatile tool for a wide range of drilling projects.
Features:
Integrated Real-time Imaging, Recording, and Trajectory Detection: The system combines high-definition borehole imaging with video recording and trajectory detection capabilities into a single, cohesive unit, providing a comprehensive analysis of the drilling environment.
High-performance Integrated Motherboard: The device features an independently developed, high-performance integrated motherboard that enables continuous, high-definition imaging throughout the entire length of the borehole without any lag, screen blackouts, or data loss. It delivers vivid colors and sharp image quality, with a detection speed of up to 4 meters per minute.
Advanced Analysis Software: The accompanying software offers synchronized dynamic recording, 2D expansion diagrams, 3D histograms, and spatial trajectory visualization. It can generate detailed inspection reports with a single click, streamlining the process of data analysis and interpretation.
1080p High-definition Imaging: The analyzer is equipped with 1080p HD imaging technology, ensuring that the captured images are clear, fine, and highly detailed, which is essential for accurate geological interpretation.
Rechargeable and Portable Electric Cable Rack: The system comes with a rechargeable, portable electric cable rack, designed for convenience and ease of use in the field. This feature enhances the mobility and flexibility of the equipment during various drilling operations.
High Integration and Multifunctionality: The analyzer boasts a high level of integration, with system control, image collection, display, and storage all in one compact unit. Its multifunctionality allows it to serve multiple purposes, such as borehole imaging, video recording, and trajectory measurement, making it a versatile tool for various applications.
Full Automation and User-friendly Operation: The fully automated electric cable rack simplifies operation, with adjustable cable release speed for smooth and uniform descent. The system is designed to be user-friendly, allowing beginners to quickly master its operation, and it can be used as an external USB drive for computers, facilitating direct data transfer.
High Intelligence and Rapid Image Processing: built-in a dual-core processor capable of handling 25 frames per second, the device can simultaneously acquire image data, depth data, and probe location information, ensuring real-time, automatic panoramic image acquisition and rapid, seamless image stitching.
High Reliability and Durability: The system is highly integrated and stable, with a sealed design that provides excellent waterproof and dustproof properties, ensuring reliable performance in various environmental conditions.
Low Power Consumption: The analyzer operates on a voltage range of DC 5.5V to 12V, which can be powered by a built-in high-capacity lithium battery or an external 12V battery. The probe can be powered by its built-in battery or the main unit, with a continuous working time of no less than 10 hours.
Flexible Display Options: The analysis software offers a variety of display and export options, including plane expansion diagrams and 360-degree rotating 3D histograms. It also allows for high-precision zoom views and the display of borehole 3D space trajectory images and three-side views.
Direct Rock Core Description: The system enables direct description of rock cores on the expansion diagram, with the ability to automatically calculate and extract fracture inclination, tilt angle, and width with high precision.
Image Format Conversion: The captured images can be converted into multiple formats, including JPG, BMP, and PDF, for easy sharing and integration with other systems.
Strong Probe Bearing Capacity: The probe, with its stainless steel housing and tempered optical glass cover, is designed to withstand pressures of up to 10MPa, making it suitable for use in deep and challenging drilling environments.
Technical Introduction:
Display: The system features a 7-inch true color LCD screen with adjustable backlight, providing clear visualization of the borehole imaging and data analysis.
Processor: A high-performance, low-power embedded dual-core processor ensures efficient image processing and system operation.
Control Mode: The device offers a touch control interface for intuitive operation and ease of use.
Data Interface: A USB 2.0 interface facilitates quick and easy data transfer and communication with external devices.
Protection Level: The device is rated at IP67 for dustproofing and waterproofing, ensuring reliable operation in harsh environments.
Memory: A 32G TF memory card provides ample storage for high-resolution images and data.
Operating System: The system runs on a Linux operating system, offering stability and compatibility with various software applications.
Power Supply Mode: The device is powered by a built-in 12V rechargeable high-energy lithium battery or an external 12V battery, with a continuous working time exceeding 10 hours.
Probe: The probe comes in various diameters (Φ40mm, Φ52mm, Φ65mm, Φ85mm) and is designed to withstand pressures of up to 10MPa, ensuring its durability and suitability for deep drilling applications.
Camera: The high-definition camera offers 700TV Lines, 0.01Lux low-light capability, and a panoramic 360° view, capturing detailed images of the borehole walls.
Image Pixels: The camera boasts a resolution of 20 million pixels, ensuring high-definition imaging for detailed analysis.
3D Compass: The probe is equipped with a three-dimensional compass with an obliquity range of -90° to 90° and an azimuth range of 0° to 360°, both with a precision of 0.1°, allowing for accurate orientation and positioning.
Operating Temperature: The device is designed to operate effectively in a wide range of temperatures, from -10°C to 60°C.
Inspection Hole Diameter: The probe can inspect boreholes with diameters ranging from Φ45mm to Φ600mm, making it versatile for different drilling sizes.
Auxiliary Light Source: The system includes an auxiliary light source of ≥30Lux, which can be adjusted in brightness through the host software to enhance image clarity in low-light conditions.
Controller: An high-performance microcontroller unit manages the probe's functions and communicates with the host unit.
Size and Weight: The main host unit is compact, measuring 255mm × 180mm × 60mm and weighing 1.7KG, while the probe sizes and weights vary according to their diameters.