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HS1601 Drilling Mud Pump: compact, high-pressure, and efficient. Ideal for backpack drill rigs, geological exploration, core sampling, and field drilling. Pompa błotna HS-160 jest poziomą 、 jednocylindrową 、 dwukierunkową pompą tłokową. Ta pompa wykorzystuje wał korbowy i łącznik. Główny układ napędowy, dobrze naoliwiony i o wysokiej trwałości, znajduje się w pozycji zamkniętej. Zawór ssący i Zawory drenażowe to kulowe zawory zwrotne. Zawory otwarte i zamknięte są niezawodne i trwałe. Pompa ma zalety: wytrzymała, umiarkowane ciśnienie, prosta konstrukcja, łatwa w utrzymaniu, mała i lekka itd. Jest używana głównie do dostarczania płynu myjącego podczas wiercenia w geologii inżynierskiej Ciecz, której zawartość piasku jest mniejsza niż 5% lub nie powoduje korozji metalu i części gumowych, może być dostarczana przez pompę. PERFORMANCE The HS-160 Mud Pump is designed for specific applications, particularly in the field of engineering geology and drilling. The key performance characteristics and features: Horizontal Single-Cylinder Design: The pump features a horizontal, single-cylinder, double-acting, reciprocating piston design. This configuration is known for its simplicity and reliability in pumping operations. Crankshaft and Connecting Rod Driven System: The pump utilizes a crankshaft and connecting rod-driven system, which provides a well-oiled and highly durable operation. This closed system ensures that essential components are protected and maintained. Ball Check Valves for Suction and Discharge: The pump is equipped with ball check valves for both suction and discharge. These valves offer reliable and durable performance, ensuring efficient fluid flow during operation. High-Duty Operation: The pump is capable of high-duty operation, making it suitable for demanding applications that require consistent and reliable pumping performance. Moderate Pressure: It operates at a moderate pressure, which is well-suited for supplying washing liquid in engineering geology drilling operations. Simple Structure: The pump's design features a simple structure, which contributes to ease of maintenance and repair. This simplicity is valuable in fieldwork scenarios. Ease of Maintenance: Maintenance and servicing of the pump are straightforward, allowing for easy upkeep, reduced downtime, and cost-effective operation. Small and Lightweight: The pump is designed to be small and lightweight, enhancing its portability and ease of transportation to drilling sites. Compatibility with Low-Sand Content Liquids: The pump is suitable for supplying liquids with a sand content of less than 5% or those that do not have a corrosive effect on metal and rubber parts. This makes it versatile for various drilling fluid types. Application in Engineering Geology: The pump is primarily used for supplying the washing liquid required in engineering geology drilling operations. It facilitates the circulation of drilling fluids during geological exploration. Durable and Reliable Valves: The ball check valves for suction and discharge contribute to the pump's reliability and durability during extended periods of operation. Versatility: While the pump is designed for specific applications in engineering geology, its versatility allows it to be adapted for other scenarios where its characteristics align with the requirements. The HS-160 Mud Pump's combination of simplicity, reliability, and compatibility with specific drilling fluid types makes it a valuable tool for professionals involved in engineering geology and drilling. Its ability to handle moderate pressure and provide consistent performance in the circulation of drilling fluids contributes to its practicality and efficiency in the field. APPLICATION The HS-160 Mud Pump is designed for specific applications in the field of engineering geology and drilling, particularly for the circulation of drilling fluids and supplying washing liquids. The specific applications where the pump can be effectively utilized: Engineering Geology Drilling: The pump is primarily used in engineering geology drilling operations to supply the necessary washing liquids for the circulation of drilling fluids. It helps in maintaining borehole stability and collecting geological data. Soil Sampling and Core Drilling: It can be employed in soil sampling and core drilling projects, where the circulation of clean drilling fluids is essential to extract undisturbed soil samples and core samples for geological and geotechnical assessments. Environmental Site Assessments: During environmental site assessments, the pump is used to supply washing liquids for soil and groundwater sampling. It aids in assessing contamination levels and environmental hazards. Mineral Exploration: In mineral exploration projects, the pump can be utilized to supply drilling fluids that help extract core samples for mineral analysis and assessment of ore deposits. Foundation Engineering: For foundation engineering studies and assessments, the pump assists in maintaining borehole stability while drilling for soil analysis and assessing soil properties for construction projects. Civil Engineering and Construction: The pump can be used in civil engineering and construction projects to facilitate the circulation of drilling fluids during soil investigations and foundation design. Geotechnical Investigations: Geotechnical investigations, which involve assessing soil and rock conditions for engineering purposes, benefit from the pump's ability to maintain fluid circulation during drilling operations. Hydrogeological Studies: Hydrogeological studies that require groundwater monitoring and borehole assessments use the pump to supply clean fluids for sampling and analysis. Research and Development: In research and development initiatives related to drilling technology and fluid circulation, the pump can be used for experimental drilling and fluid supply. General Drilling Fluid Circulation: While primarily designed for supplying washing liquids, the pump can also be adapted for general drilling fluid circulation in applications where the liquid has low sand content and is non-corrosive to metal and rubber parts. The HS-160 Mud Pump's characteristics, such as its simplicity, reliability, moderate pressure operation, and compatibility with specific drilling fluid types, make it a valuable tool for professionals and projects in the fields of engineering geology, drilling, and geotechnical assessments. Its ability to maintain fluid circulation and supply clean liquids contributes to efficient drilling and sampling operations in various applications. Specific applications should be determined based on project requirements and geological or environmental conditions. How to Buy Request an Equipment Quote Ready to buy stuff from Flexible,Request a quote now. Request an Quote Buy Browse Parts and equpments on our store Shop Now Reviews comments debug Komentarze Pozostaw komentarz Pozostaw komentarz Podziel się swoimi przemyśleniami Napisz komentarz jako pierwszy. FAQ Q: What is exploration rig? In exploration a drilling rig is a derrick (rig) that is suitable for the development of oil, gas or water deposits by means of deep drilling. The main components of a derrick (rig) are: Steel tower. Sub-construction. Work platform. Q: What is core drilling mineral exploration? Core drilling produces cores of sub-surface material and is the most commonly used method of obtaining information about the presence of minerals or precious metals, as well as rock formations. The core drilling method gives the geologist the opportunity to analyze the sample by eye as well as by more advanced methods. Q: What are the three main types of drill rigs? And site investigation for soil mechanics purposes. In exploration drilling the exploration geologist examines the core sample to see if the rock mass contains any valuable mineralization. Q: What is a CME drill rig? CME drilling rigs are mechanically driven multi-purpose machines with an emphasis on auger drilling. Each machine is custom designed to accommodate the drilling needs and preferences of the end user and can be mounted on skids, trailers, trucks, rubber tracks, or rubber tire ATV carriers.

Portable Hans Backpack Drill Rigs for geological, environmental, and engineering exploration. Lightweight, rugged, and available in gasoline or electric models. Dom / Płytka wiertnica z plecakiem / Płytka wiertnica z plecakiem Płytka plecakowa wiertnica diamentowa do eksploracji rdzeni, która zgodnie z różnymi warunkami geologicznymi można wybrać wiertło diamentowe, stopowe lub stalowe do wiercenia. Możesz również ćwiczyć podawanie pali wiertniczych jako ciągłe, wtedy wydajność będzie wysoka. Centralne uchwyty zapewniają pracę łatwe. Kompaktowa konstrukcja, mała objętość, niewielka waga, łatwy do demontażu i przenoszenia pozwala na dopasowanie go do pracy na terenach płaskich i górskich. Jego niezawodna funkcja, pełne wiercenie i elastyczne działanie nadają się do pracy w terenie, a następnie poprawiają wydajność i zmniejszają pobieranie próbek Koszt, który osiągnął międzynarodową zaawansowaną klasę. Application Backpack Exploration Core Drill Rig are used in various applications for geological and environmental exploration. The applications include: 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. 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. 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. 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. 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. 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. 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. 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. Civil Engineering Studies: Backpack Exploration Core Drill Rig are used for various civil engineering studies, including soil mechanics, geological hazard assessments, and foundation investigations for construction projects. 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. Performance 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: Drilling Depth: The drill rig's performance is often measured by its drilling depth capability. Depending on the model and design, Backpack Exploration Core Drill Rig can achieve various drilling depths. Higher drilling depth capacity allows geologists and engineers to collect samples from greater depths in the Earth's subsurface. 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. 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. 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. 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. Portability: As Backpack Exploration Core Drill Rig 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. 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. 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. 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. 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. 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. 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. 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. FAQ Q: What are the different types of exploration drill rigs? Whether it is for exploration, production, land-clearing or geotechnical purposes, there are drilling methods that serve every mining purpose. Auger Drilling. ... Rotary Air Blasting. ... Aircore. ... Reverse Circulation Drilling. ... Diamond Core Drilling. ... Blast Hole Drilling. ... Surface Top Hammer Drill Rigs. ... Surface Down-The-Hole Drill Rigs. Q: What size is exploration drilling? What size is exploration drilling? Tube sizes SizeHole (outside) diameter, mmCore (inside) diameter, mm NQ75.747.6 HQ9663.5 HQ39661.1 PQ122.685 Q: How do exploration drills work? It drills into the rock formation by pressing down on the rock (punching) and spinning the drill heads at very high speed (rotation). As it goes deeper underground, a new drill pipe is screwed onto the previous one, an operation that is repeated until the right length is obtained. 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.

Portable HS-2CS Gasoline Engine Sampling Drilling Rig. Compact, lightweight, versatile, ideal for geological, civil, bridge, railway, and hydro-power projects. Wiertnica do pobierania próbek silników benzynowych 2CS Krótkie wprowadzenie Wiertnica do próbkowania silników benzynowych HS-2CS jest używana do geologicznych budynków przemysłowych i cywilnych, mostów, kolei, autostrad, badań hydroenergetyki, badań geofizycznych, zaawansowanych wierceń i wiercenia otworów do zalewania. Wiertnica do pobierania próbek silników benzynowych HS-2CS ma następujące cechy: zwartą konstrukcję, małą objętość, niewielką wagę, dwa biegi, łatwość przenoszenia. HS-2CS Specyfikacje wiertnicy do pobierania próbek silników benzynowych PERFORMANCE The performance of a 2CS Gasoline Engine Sampling Drilling Rig can vary depending on several factors, including the specific model, manufacturer, and the intended use. However, here are some key performance aspects and considerations that are generally relevant to such drilling rigs: Drilling Depth: The drilling depth capability is an essential performance factor. Different models of drilling rigs may have varying maximum drilling depths, which can range from a few meters to several hundred meters or more. The depth capacity should match the requirements of the intended applications. Drilling Speed: The drilling speed can affect the efficiency of sample collection. Higher drilling speeds may be desirable for projects where rapid drilling is necessary, while slower speeds may be preferred when precision and control are paramount. Sample Quality: The quality of the samples collected is a critical performance indicator. The rig should be capable of extracting clean and undisturbed samples to ensure accurate geological or environmental analysis. This often depends on the type of drilling method used (e.g., core drilling , auger drilling ). Power and Torque: The power output of the gasoline engine and its torque are crucial for efficient drilling, especially in challenging geological conditions. A more powerful engine can handle tougher materials and achieve greater depths. Mobility and Portability: Portability is essential for fieldwork. A well-designed drilling rig should be easy to transport to remote or difficult-to-reach locations, allowing for versatility in its applications. Safety Features: Performance should also be evaluated in terms of safety. The drilling rig should have safety mechanisms in place to protect the operator and the environment during drilling operations. Sample Handling and Retrieval: The drilling rig's performance may also be assessed based on its ability to handle and retrieve collected samples efficiently. This includes mechanisms for safely storing and extracting samples from the drilling equipment. Durability and Reliability: The longevity and reliability of the drilling rig are crucial for minimizing downtime and maintenance costs. It should be able to withstand the rigors of fieldwork and continue to perform consistently. Versatility: The ability to adapt to various drilling methods (e.g., core drilling , rotary drilling , percussion drilling ) is a significant performance factor. Versatility allows the drilling rig to tackle a wide range of projects and geological conditions. Environmental Impact: Consideration of the rig's environmental impact is essential. It should be designed with features that minimize disturbance to the surrounding environment during drilling operations. Ease of Operation: The rig should be user-friendly and easy to operate, as operators often need to work in challenging conditions. Clear controls and intuitive operation can enhance its performance. Cost Efficiency: The overall cost of operating the drilling rig, including fuel consumption and maintenance, is another performance factor. A cost-effective rig can be more attractive for long-term use. It's important to note that specific performance metrics and capabilities may vary between different models and brands of 2CS Gasoline Engine Sampling Drilling Rig . The choice of a particular rig should be based on the specific needs and requirements of the project or application in which it will be used. Additionally, regular maintenance and proper training of operators play a significant role in ensuring optimal performance and longevity of the equipment. APPLICATION The 2CS Gasoline Engine Sampling Drilling Rig has a variety of applications across different industries due to its ability to collect subsurface samples efficiently. The applications for this type of drilling rig: Geological Exploration: This drilling rig is extensively used in geological surveys and exploration to collect rock and soil samples. Geologists use these samples to analyze the composition of the Earth's crust, identify mineral deposits, and study the geological history of an area. Environmental Site Assessments: Environmental scientists and engineers use the drilling rig for site assessments. It allows them to sample soil and groundwater to assess the presence of contaminants and potential environmental hazards. This information is crucial for environmental impact assessments and remediation projects. Mineral Prospecting: In the mining industry, this drilling rig is employed to identify and evaluate mineral resources beneath the surface. Geologists and mining engineers use the collected samples to determine the quality and quantity of valuable minerals, such as ores and precious metals. Groundwater Monitoring: Hydrogeologists use the rig to access underground aquifers and collect water samples for groundwater quality analysis. Monitoring groundwater is essential for managing water resources and ensuring its suitability for consumption and industrial use. Construction and Engineering: Engineers often use this type of drilling rig for soil sampling during construction projects. It helps in assessing soil stability, composition, and bearing capacity to ensure safe and stable construction. Soil Research: Soil scientists and agronomists utilize the drilling rig to study soil properties, nutrient content, and contamination levels. This information is valuable for agricultural research, land use planning, and soil conservation efforts. Foundation Design: Structural engineers employ the rig to collect soil samples to design foundations for buildings and infrastructure projects. Understanding soil characteristics is critical for ensuring the stability and safety of structures. Archeological Excavations: Archaeologists may use this drilling rig to explore historical or archaeological sites. It can help them collect samples from various layers of sediment to uncover artifacts and understand past civilizations. Natural Resource Management: The drilling rig is used in natural resource management to assess the environmental impact of resource extraction activities, such as oil and gas drilling, and to monitor the condition of ecosystems. Research and Education: Academic institutions and research organizations use these drilling rigs for scientific research and educational purposes, teaching students about geological and environmental sampling techniques. The versatility of the 2CS Gasoline Engine Sampling Drilling Rig makes it a valuable tool in various fields where subsurface sampling and data collection are essential. Its portability and adaptability make it suitable for both fieldwork in remote locations and urban environments, where precise information about the subsurface is required for decision-making and analysis. How to Buy Request an Equipment Quote Ready to buy stuff from Flexible,Request a quote now. Request an Quote Buy Browse Parts and equpments on our store Shop Now Reviews comments debug Komentarze Pozostaw komentarz Pozostaw komentarz Podziel się swoimi przemyśleniami Napisz komentarz jako pierwszy. FAQ Q: What are the 3 main purposes of Exploration? What are the 3 main purposes of Exploration? Overview. Historians generally recognize three motives for European exploration and colonization in the New World: God, gold, and glory. Q: What are the 5 mining processes? The mining industry operates through a sequence of stages: exploration, discovery, development, production and reclamation. All stages of this Mining Cycle provide direct economic stimulus. Q: What is G1 G2 G3 G4 exploration? According to The United Nations Framework Classification for Resources (UNFC), there are four stages of exploration for any mineral deposit: reconnaissance (G4), preliminary exploration (G3), general exploration (G2), and detailed exploration (G1).Feb 14, 2023 Q: What is the first step in mineral exploration? Prospecting is often the very first stage in the search for mineral deposits. It includes low impact work to search for mineral deposits in a permitted area.