Product Description
2jk Series Mining Hoist Winch Parts for Coal Mine
Introduction:
Mine hoist can be divided into 2 kinds; 1 kind is JKE series single rope mining hoist and the other is Multi-rope friction hoist.
This series mine hoist including 2m-5m single tubular and double tubular types, and can be used for mining hoist, personnel lifting and material and equipment descending from vertical shafts or inclined shafts of coal, metal and nonmetal ores.
JK mine hoist is mainly used in inclined roadways and wells of coal mines, metal mines and non-metal mines to hoist or lower personnel and materials.
Technical parameters:
Model | Drum | Tension PF |
Tension Differe |
Rope Diameter |
Lift height (m) | Max Speed |
Reduce speed ratio |
Motor Speed |
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Number | Dia | Width | 1-layer | 2-layer | 3-layer |
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m | KN | mm | m | m/s | r/min | |||||||||
JK-2×1.5/20 | 1 | 2.0 | 1.5 | 62 | 24 | 305 | 650 | 1571 | 5.2 | 20.0 | 1000 | |||
JK-2×1.5/31.5 | 31.5 | |||||||||||||
JK-2×1.8/20 | 1.80 | 375 | 797 | 1246 | 20.0 | |||||||||
JK-2×1.8/31.5 | 31.5 | |||||||||||||
JK-2.5×2/20 | 2.5 | 2.00 | 83 | 28 | 448 | 945 | 1475 | 5.0 | 20.0 | 750 | ||||
JK-2.5×2/31.5 | 31.5 | |||||||||||||
JK-2.5×2.3/20 | 2.30 | 525 | 1100 | 1712 | 20.0 | |||||||||
JK-2.5×2.3/31.5 | 31.5 | |||||||||||||
JK-3×2.2/20 | 3.0 | 2.20 | 135 | 36 | 458 | 966 | 1513 | 6.0 | 20.0 | |||||
2JK-2×1/11.2 | 2 | 2.0 | 1.00 | 62 | 40 | 24 | 182 | 406 | 652 | 7.0 | 11.2 | |||
2JK-2×1/20 | 20.0 | |||||||||||||
2JK-2×1/31.5 | 31.5 | |||||||||||||
2JK-2×1.25/11.2 | 1.25 | 242 | 528 | 838 | 11.2 | |||||||||
2JK-2×1.25/20 | 20.0 | |||||||||||||
2JK-2×1.25/31.5 | 31.5 | |||||||||||||
2JK-2.5×1.2/11.2 | 2.5 | 1.20 | 83 | 65 | 28 | 843 | 8.8 | 11.2 | ||||||
2JK-2.5×1.2/20 | 20.0 | |||||||||||||
2JK-2.5×1.2/31.5 | 31.5 | |||||||||||||
2JK-2.5×1.5/11.2 | 2.5 | 1.50 | 83 | 65 | 28 | 319 | 685 | 1080 | 8.8 | 11.2 | ||||
2JK-2.5×1.5/20 | 20.0 | |||||||||||||
2JK-2.5×1.5/31.5 | 31.5 | |||||||||||||
2JK-3×1.5/11.2 | 3.0 | 135 | 90 | 36 | 289 | 624 | 994 | 10.5 | 11.2 | |||||
2JK-3×1.5/20 | 20.0 | |||||||||||||
2JK-3×1.5/31.5 | 31.5 | |||||||||||||
2JK-3×1.8/11.2 | 1.80 | 362 | 770 | 1217 | 11.2 | |||||||||
2JK-3×1.8/20 | 20.0 | |||||||||||||
2JK-3×1.8/31.5 | 31.5 | |||||||||||||
2JK-3.5×1.7/11.2 | 3.5 | 1.70 | 170 | 115 | 40 | 349 | 746 | – | 12.6 | 11.2 | ||||
2JK-3.5×1.7/20 | 20.0 | |||||||||||||
2JK-3.5×2.1/11.2 | 2.10 | 450 | 950 | – | 11.2 | |||||||||
2JK-3.5×2.1/11.2 | 20.0 | |||||||||||||
2JK-4×2.1/10 | 4.0 | 245 | 160 | 48 | 421 | 891 | – | 12.6 | 10.0 | 600 | ||||
2JK-4×2.1/11.2 | 11.2 | |||||||||||||
2JK-4×2.1/20 | 20.0 | |||||||||||||
2JK-5×2.3/10 | 5.0 | 2.30 | 280 | 180 | 52 | 533 | – | – | 12 | 10.0 | 500 | |||
2JK-5×2.3/11.2 |
Possible defects:
Defect | Causes |
Unfilled sections | Insufficient material Low pouring temperature |
Porosity | Melt temperature is too high Non-uniform cooling rate Sand has low permeability |
Hot tearing | Non-uniform cooling rate |
Surface projections | Erosion of sand mold interior A crack in the sand mold Mold halves shift |
FAQ
Q: How about the quality of your products?
A: Our machines are manufactured strictly according to national and international standards, and we take a test on each equipment before delivery.
Q: How about the price?
A: We are manufactory, and we can give you lower price than those trade companies. Besides, customers from Made in China can get a discount.
Q: Do you provide after-sale service?
A: Yes. The warranty period of our machines is 1 year, and we have a professional after-sale team to promptly and thoroughly solve your problems.
Q: Do you provide equipment operation training?
A: Yes. We can send professional engineers to the working site for equipment installation, adjustment, and operation training. All of our engineers have passports.
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Certification: | CE, ISO 9001:2008 |
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Standard: | ASME, BS, ANSI, GB, ASTM, DIN |
Surface Treatment: | Sand Blast |
Manufacturing Process: | Casting |
Material: | Alloy Steel |
Name: | Shaft Lifting |
Customization: |
Available
| Customized Request |
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How are sheave pulleys used in the operation of cranes and hoists?
In the operation of cranes and hoists, sheave pulleys play a crucial role in facilitating the lifting and movement of heavy loads. Here is a detailed explanation of how sheave pulleys are used in the operation of cranes and hoists:
1. Lifting Mechanism Design: The lifting mechanism of cranes and hoists is designed to meet the specific requirements of the lifting operation. This includes determining the load capacity, lifting height, and application type.
2. Wire Rope Selection: An appropriate wire rope or cable is selected based on factors such as load capacity, durability, flexibility, and resistance to wear or corrosion. The wire rope is chosen to withstand the expected load and provide the necessary strength and stability.
3. Sheave Pulley Configuration: Sheave pulleys are incorporated into the lifting mechanism to guide and support the wire rope. The pulleys are typically mounted on a framework or structure, allowing them to rotate freely.
4. Multiple Pulley Systems: Cranes and hoists often utilize multiple sheave pulleys in different configurations to achieve mechanical advantage and increase lifting capacity. These configurations can include single sheave, double sheave, and multiple sheave arrangements.
5. Wire Rope Routing: The wire rope is threaded through the grooves of the sheave pulleys, creating a continuous loop. The pulleys guide the wire rope along the intended path, ensuring proper alignment and minimizing friction.
6. Drive Mechanism: A drive mechanism, such as an electric motor or hydraulic system, provides the power necessary to rotate the sheave pulleys. As the pulleys rotate, the wire rope moves, resulting in the lifting or lowering of the load.
7. Lifting and Lowering: When the crane or hoist is operated, the rotation of the sheave pulleys causes the wire rope to wind or unwind, lifting or lowering the load accordingly. The mechanical advantage provided by the multiple pulley systems allows for efficient lifting and precise load control.
8. Load Control and Safety: Cranes and hoists incorporate various load control and safety mechanisms to ensure safe lifting operations. These mechanisms, such as brakes and limit switches, work in conjunction with the sheave pulleys and other components to prevent overloading, uncontrolled descent, or other hazardous situations.
Regular maintenance and inspection of the sheave pulleys, wire rope, and other lifting components are essential to ensure the continued safe and reliable operation of cranes and hoists. This includes lubrication of the pulleys, checking for signs of wear or damage, and making necessary adjustments or replacements to maintain optimal functionality.
What advantages do sheave pulleys offer for efficient load-bearing and cable routing?
Sheave pulleys offer several advantages for efficient load-bearing and cable routing in various applications. Here is a detailed explanation of the advantages provided by sheave pulleys:
1. Load Distribution: Sheave pulleys help distribute loads evenly across cables or ropes. By guiding the cables through the grooves of the pulley, the load is spread across multiple points of contact. This load distribution reduces stress on individual cables, preventing overloading and potential failure. It ensures that the load is efficiently carried and supported, enhancing the overall load-bearing capacity of the system.
2. Reduced Friction: Sheave pulleys minimize friction between cables and the surrounding structure. The smooth grooves of the pulley allow cables to move freely without excessive rubbing or snagging. This reduced friction reduces wear and tear on the cables, extending their lifespan and maintaining their strength and integrity. It also reduces the power required to move the cables, resulting in more efficient operation and energy savings.
3. Improved Cable Routing: Sheave pulleys facilitate efficient cable routing by guiding cables along a specific path. The pulleys ensure that the cables follow the desired route, preventing tangling, entanglement, or interference with other components. This organized and controlled cable routing improves the overall system efficiency, reduces the risk of damage or accidents, and enhances the ease of maintenance and troubleshooting.
4. Directional Changes: Sheave pulleys allow for smooth directional changes in cable systems. By incorporating pulleys at strategic points, cables can be redirected without abrupt or sharp turns. This gradual change in direction minimizes stress and strain on the cables, preventing kinks and bends that could weaken the cables or impede their movement. The ability to smoothly navigate directional changes ensures efficient cable routing and reliable operation of the system.
5. Adjustability: Sheave pulleys offer adjustability for accommodating different cable sizes and tensions. The diameter and configuration of the pulleys can be selected based on the specific requirements of the cables and the load-bearing capacity needed. This adjustability allows for the use of various cable types and sizes in the same system, providing flexibility and adaptability. It also enables fine-tuning of cable tension, ensuring optimal performance and minimizing slack or excessive tension in the cables.
6. Multiple Cable Support: Sheave pulleys can support multiple cables simultaneously. In applications where multiple cables or ropes need to be routed and supported, sheave pulleys allow for efficient handling of multiple lines. The grooves in the pulley can accommodate multiple cables, ensuring that each cable is properly guided and supported. This capability is particularly useful in scenarios such as lifting systems, cranes, and rigging applications.
7. Noise Reduction: Sheave pulleys help reduce noise generated by cable movement. The smooth operation of the cables within the pulley grooves minimizes vibrations and rattling noises that can occur when cables come into contact with other surfaces. This noise reduction is especially beneficial in applications where quiet operation is desired, such as in theater rigging systems or residential elevators.
Overall, sheave pulleys offer numerous advantages for efficient load-bearing and cable routing. They ensure load distribution, reduce friction, improve cable routing, facilitate directional changes, provide adjustability, support multiple cables, and contribute to noise reduction. These advantages enhance the performance, reliability, and longevity of systems that rely on cables or ropes for load-bearing and cable routing purposes.
What role do sheave pulleys play in gym and fitness equipment?
Sheave pulleys play a significant role in gym and fitness equipment, contributing to the functionality and effectiveness of various exercise machines. Here is a detailed explanation of the role sheave pulleys play in gym and fitness equipment:
1. Cable-based Resistance Systems: Many gym and fitness machines utilize cable-based resistance systems, such as cable crossover machines, functional trainers, and lat pulldown machines. Sheave pulleys are essential components of these systems as they guide the cables and provide the necessary mechanical advantage for resistance training. By incorporating sheave pulleys, these machines allow users to perform a wide range of exercises targeting different muscle groups with adjustable resistance levels.
2. Adjustability and Versatility: Sheave pulleys offer adjustability and versatility in gym and fitness equipment. The positioning of the sheave pulleys can be adjusted to change the exercise angle and range of motion, accommodating users of different heights and body sizes. This adjustability allows for targeting specific muscles and varying the intensity of workouts. Additionally, sheave pulleys enable the attachment of various handles, bars, or straps, allowing users to perform different exercises and variations on a single machine.
3. Smooth and Controlled Movement: Sheave pulleys contribute to providing smooth and controlled movement in gym and fitness equipment. The grooves in the sheave pulleys guide the cables, reducing friction and ensuring consistent resistance throughout the exercise motion. This smooth movement enhances the user experience by minimizing jerky or uneven resistance, allowing for fluid and controlled movements during exercises.
4. Isolation and Functional Training: Sheave pulleys enable both isolation and functional training in gym equipment. In isolation exercises, sheave pulleys allow users to target specific muscle groups by providing a focused range of motion. This is beneficial for muscle isolation and development. On the other hand, in functional training exercises, sheave pulleys facilitate multi-joint movements and mimic real-life activities by providing adjustable resistance and freedom of movement. This combination of isolation and functional training capabilities makes gym equipment with sheave pulleys versatile and suitable for a wide range of exercise routines.
5. Compact Design: Sheave pulleys contribute to the compact design of gym and fitness equipment. By utilizing sheave pulleys, machines can incorporate cable-based resistance systems without requiring excessive space. The compact design allows for efficient use of floor space in gyms and fitness centers, making it possible to include a variety of exercise machines within a limited area.
6. Progressive Overload: Sheave pulleys play a role in progressive overload, a fundamental principle of strength training. Progressive overload involves gradually increasing the resistance or load placed on the muscles to stimulate growth and strength gains. Sheave pulleys allow users to easily adjust the resistance by changing the weight stack or pin position, enabling progressive overload and making it easier to track and measure progress over time.
Overall, sheave pulleys are integral components of gym and fitness equipment, providing cable-based resistance systems, adjustability, smooth and controlled movement, isolation and functional training capabilities, compact design, and support for progressive overload. These features enhance the versatility, effectiveness, and user experience of gym and fitness equipment, allowing individuals to perform a wide range of exercises and achieve their fitness goals.
editor by CX
2024-03-30