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Backpack portable drilling and soil sampling product line

De Shallow Backpack Diamond Exploration Core Drill Rig is een bijna ideaal hulpmiddel voor milieu- en geotechnisch veldonderzoek, omdat het kan worden gebruikt op anderszins moeilijk bereikbare locaties achter gebouwen, hekken en muren, bomen, steile hellingen en nog veel meer. De diamantboorkronen van het systeem zijn gemakkelijk in staat boringen door een groot aantal ondergrondse materialen te voeren, waaronder gewapend staalbeton, hard gesteente en sommige soorten gecementeerd grind. De boor heeft vele veldtoepassingen, waaronder edelmetalen en basismetalen, academisch, milieu-, geotechnisch onderzoek, constructie, schatzoeken, fossiele brandstoffen, steengroeven en putinstallatie.
Hoofdtoepassing van de boorinstallatie van de kleine rugzakkern:
Het is een onmisbare technologie in edelmetalen en basismetalen, academisch, milieu-, geotechnisch onderzoek, constructie, schatzoeken, fossiele brandstoffen, steengroeven en putinstallatie.


Backpack Exploration Core Drill Rig are used in various applications for geological and environmental exploration. The  applications include:

  1. Geological Exploration: These drill rigs are used to collect Core samples from the Earth's subsurface. Geologists use these samples to study the composition, structure, and mineral content of rock formations. This information is vital for locating valuable mineral deposits, understanding geological history, and assessing the feasibility of mining operations.

  2. Environmental Site Assessment: Core drilling is an essential part of environmental site assessments. It helps in soil and groundwater sampling to detect the presence of contaminants or pollutants. This information is crucial for assessing the environmental impact of industrial activities, underground storage tanks, and landfills.

  3. Mineral Exploration: Backpack Core drill rigs are used by prospectors and mining companies to explore potential mineral deposits. By extracting Core samples from different depths, geologists can analyze the mineral content and quality, helping in the decision-making process for mining operations.

  4. Construction and Engineering: Core drilling is used in construction and civil engineering projects to assess the stability and composition of the subsurface. It helps engineers determine the suitability of the ground for building foundations, bridges, and other infrastructure.

  5. Archaeological Research: Archaeologists use Core drilling to investigate archaeological sites and study the layers of soil and sediment. This technique aids in uncovering artifacts, fossils, and historical evidence buried beneath the surface.

  6. Oil and Gas Exploration: In the oil and gas industry, Core drilling is employed to collect samples from potential reservoirs deep underground. These samples provide critical information about the composition and characteristics of subsurface rock formations, aiding in the exploration and extraction of hydrocarbons.

  7. Research and Education: Core drilling is used in educational and research institutions to train geology students and conduct scientific investigations. It allows researchers to gather data for various geological and environmental studies.

  8. Monitoring Groundwater: Core drilling can be used to install monitoring wells for tracking groundwater levels and quality. This is important for managing water resources and assessing potential contamination issues.

  9. Civil Engineering Studies: Backpack core drill rigs are used for various civil engineering studies, including soil mechanics, geological hazard assessments, and foundation investigations for construction projects.

  10. Cave Exploration: In speleology (the study of caves), core drilling can be used to collect samples and explore underground cave systems and their geological formations.

These applications highlight the versatility of Backpack Exploration Core Drill Rig in scientific research, environmental protection, resource exploration, and construction projects. They play a crucial role in gathering subsurface data that informs decision-making across multiple industries.


The performance of a Backpack Exploration Core Drill Rig is essential for ensuring the efficiency and effectiveness of geological and environmental exploration activities. Here are some key performance aspects:

  1. Drilling Depth: The drill rig's performance is often measured by its drilling depth capability. Depending on the model and design, backpack Core drill rigs can achieve various drilling depths. Higher drilling depth capacity allows geologists and engineers to collect samples from greater depths in the Earth's subsurface.

  2. Core Sample Quality: Performance is closely related to the quality of the core samples obtained. A high-quality drill rig should provide undisturbed and intact Core samples that accurately represent the geological formations being explored. The rig's Core recovery rate is a critical performance indicator.

  3. Drilling Speed: Efficiency in drilling is crucial, especially when conducting large-scale exploration projects. Faster drilling speeds can increase productivity and reduce the time required to collect Core samples. However, speed should not compromise sample quality.

  4. Versatility: A versatile drill rig can adapt to various geological conditions and types of formations. It should be capable of drilling through different rock types, soils, and sediments encountered during exploration.

  5. Ease of Operation: Performance also includes the ease of setup, operation, and maintenance of the drill rig. User-friendly controls, quick assembly, and minimal downtime for maintenance contribute to overall performance.

  6. Portability: As backpack drill rigs are designed for fieldwork, their portability is a crucial performance factor. They should be lightweight and easy to transport to remote or rugged locations without sacrificing stability and durability.

  7. Safety Features: The drill rig should incorporate safety features to protect operators during drilling operations. This includes safeguards against kickbacks, vibration reduction, and ergonomic design for operator comfort.

  8. Sample Handling: Efficient sample handling mechanisms, such as Core barrel retrieval systems and storage solutions, contribute to the drill rig's performance. Quick and safe retrieval of Core samples ensures minimal sample damage.

  9. Durability and Reliability: A reliable drill rig can withstand challenging field conditions and continue operating without frequent breakdowns. Durability is essential for long-term use in demanding environments.

  10. Power Source: The performance of the power source, whether gasoline, electric, or other, is critical. It should provide sufficient power to drive the drilling operation consistently and efficiently.

  11. Sample Recovery Rate: The rig's ability to recover a high percentage of Core samples compared to the total depth drilled is a key performance metric. A high Core recovery rate ensures that valuable geological information is obtained.

  12. Accuracy and Precision: Precision in drilling and sample collection is crucial for accurate geological assessments. Minimal deviation from the intended drilling path and precise Core sample measurements are indicators of good performance.

  13. Environmental Impact: Performance can also be evaluated based on the drill rig's environmental impact. Minimizing soil and groundwater disturbance during drilling is important for environmentally sensitive areas.

In summary, a well-performing Backpack Exploration Core Drill Rig should excel in drilling depth, Core sample quality, drilling speed, versatility, ease of operation, portability, safety, sample handling, durability, and reliability. It should meet the specific needs of geological and environmental exploration projects while minimizing environmental impact and ensuring operator safety.


Q: What does a drill rig do?

A drilling rig is a machine that makes holes in the earth's surface. The drilling rigs can be very big structures that hold equipment that is used to make water wells, natural gas extraction wells, or oil wells.

Q: What is the maintenance of a drilling rig?

Daily maintenance checks should include: Inspecting for Leaks: Check all components for signs of leaks, such as fluid drips or stains. Pay particular attention to hydraulic lines, connections, and valves. Checking Oil and Fluid Levels: Ensure that oil, hydraulic fluid, and other fluids are at appropriate levels.

Q: How is a drilling rig used?

Drilling rigs can be massive structures housing equipment used to drill water wells, oil wells, or natural gas extraction wells, or they can be small enough to be moved manually by one person and such are called augers.

Q: What are the three types of drilling methods?

The main types of drilling systems include rotary drilling, percussion drilling, and rotary-percussion drilling. Rotary drilling involves a rotating drill bit, percussion drilling uses a hammering action, and rotary-percussion drilling combines both methods to penetrate various soil and rock conditions.

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