HD Borehole Optical Televiewer Logging Tool Downhole Imaging Logging Camera for Water Wells

An optical borehole logging camera is a specialized tool used in geophysical exploration and well logging to visually inspect the interior of boreholes and wells. This camera system is designed to provide high-resolution images and videos of the borehole walls, allowing geologists, engineers, and researchers to gather valuable information about subsurface conditions.
The primary purpose of an optical borehole logging camera is to enhance the understanding of geological formations, fractures, faults, and the condition of the borehole itself. By capturing detailed imagery, it helps in identifying potential mineral deposits, assessing the quality of groundwater reservoirs, and evaluating the integrity of the borehole casing and cementing.
Typically equipped with advanced lighting systems and adjustable lenses, these cameras can operate effectively in various borehole diameters and under different geological conditions. Some cameras are capable of capturing panoramic views or conducting surveys along the borehole length, offering comprehensive insights into the structural and lithological characteristics of the subsurface.
The images and videos obtained from optical borehole logging cameras are analyzed and interpreted to make informed decisions about resource exploration, wellbore stability, and environmental monitoring. Integration with logging data such as gamma ray, resistivity, and other measurements further enhances the geological and engineering analysis, providing a holistic view of the subsurface environment.


Application of Borehole Optical Televiewer Logging Tool Downhole Imaging Logging Camera for Water Wells

1. Optical detection of ultra-deep boreholes;
2. Imaging and recording the entire borehole wall, and taking pictures of key parts;
3. Measuring the trajectory of the borehole in space;
4. Observing the occurrence and development of fault fissures;
5. Observing the detection of water-bearing faults, karst gullies and caves, the location of water outlets in aquifers, and water-conducting fracture zones;
6. Observing and quantitatively analyzing the strike, thickness, dip, inclination, interlayer gangue, and degree of separation cracks from the top rock layer of rock strata and other ore bodies;
7. Measuring the thickness, width, strike, dip, and inclination of strata or various structures from the imaging plane;
8. Distinguishing between various geological structures such as ore bodies, rock bodies, interlayer gangue, and soil layers.


Advantage of Borehole Optical Televiewer Logging Tool Downhole Imaging Logging Camera for Water Wells

1. High temperature resistance of 100°C, high pressure resistance of not less than 20MPa, and maximum detection depth of up to 1500m;
2. Fully self-developed high-performance integrated motherboard, achieving full-hole continuous imaging of kilometer-long drilling, no lag, no black screen, no data loss, realistic colors, clear images, and detection speed of up to 4m/min;
3. The analysis software can synchronize dynamic video, 2D expansion diagram, 3D bar chart, space trajectory, and generate detection reports with one click;
4. 1080p high-definition imaging, clear and delicate pictures.


Technical Specficiations of Borehole Optical Televiewer Logging Tool Downhole Imaging Logging Camera for Water Wells