China Custom Fly Wheel/Slot Wheel, Motor Wheel and Pulley for Shanghai Shanbao PE Jaw Crushers pulley puller

Product Description

Product Name:
Fly Wheel for Shanbao Jaw Crushers

Material Capacity:
US: ASTM A128/A532
Australia: AS2074 H1A/-H1B
British: BS 3100/ BS4844
German: GX 130 MnCr
South Africa: SABS 407 Type 1 & 2
Japan: SCMnH11
China: GB/T 5680-2571
Supported by a wide range of alloys
Austenitic manganese steels 13%MN, 18%MN, 22%MN, MN13CR2, MN18CR2, MN22CR2 MN13CRMO, MN18CRMO, MN22CRMO
High chromium white cast irons Chrome 15%, Chrome 25%, Chrome 30%
Alloy steels Various grades (SWB Germany)

Applications:
Widely used in mining industry, Quarrying & Aggregate, metallurgical industry, construction industry, chemical industry and silicate industry for crushing hard and medium hard ore and rock, such as iron ore, limestone, copper ore, sandstone, quartz and so on.

Design and Development Capabilities:
With professional designers and efficient mould making, we can correctly and quickly implement new product development.
Our company trained a group of professional designers, who have gotten long term training in Our company; besides professional skills,we think highly of complementary relationships on the job,and built teamwork,enabled personal experience and collective CHINAMFG to be brought into play or productively. As a result,we can cooperate with customers,swiftly understand and work with them,also gain the trust of painters.

Brand:
We could supply most of the Sandvik, Telsmith, Mccloskey, Trio, Symons, CHINAMFG crusher’s manganese parts and support customer’s drawings.

Manufacturing Process:

  1. Pattern inspection   >   2.film   >  3.coating   >   4.drying   >   5.moldering   >   6.cavity inspection    >   7. combine up and lower fask   >   8.vacuum

Testing:
Provide Metallographic, machinery performance, hardness, ultrasonic inspection, coloring flaw testing, ultrasonic flaw testing.

Main Material Component and can also customized:

Material C Mn Si Cr P S
ZGMn13Cr2 C: 1.0-1.3 Mn:11-14 Si: 0.3-0.6 Cr: 1.7-2.4 P:≤0.05 S: ≤0.03
ZGMn13Cr2 C: 1.1-1.4 Mn:17-20 Si: 0.3-0.6 Cr: 1.7-2.4 P:≤0.05 S: ≤0.03
ZGMn13Cr2 C: 1.1-1.4 Mn:20-24 Si: 0.3-0.6 Cr: 1.7-2.4 P:≤0.05 S: ≤0.03

List of available Parts of STEN:

ME SANDVIK Telsmith Mccloskey Terex PE
HP200 C3054 CH430 C12+ 38 C38 1000 PE250*400
HP300 C80 CH660 JM907 44 C40 C-1540 PE400*600
HP350 C96 CH870 JM1108 52 C44 C-1550 PE500*750
HP400 C100 CS430 JM1312 57 C50 J1160 PE600*900
HP500 C106 CS440 JM1513 68 J40 J1170 PE750*1060
HP4 C110 H3800 J1107 38*58 J44 1175 PE870*1060
HP5 C120 H4800 CJ211 4448 J45 JW42 PE1200*1500
GP200 C125 H6800 CJ411 5060     PE1400*1800
GP500 C140 H7800 CJ613       PEX250*750
GP550 C150 H8800 CJ815       PEX250*1000
GP11F C160 S2800 JM1208       PEX250*1200
GP100   S3800 JM1511       PEX350*700
GP200   S4800         PEX300*1300
GP300   S6800          

About Us:

Our Products:

Our Service:

  1. Replace a new product for free or full money back for any breakage caused by any quality problems.
  2. With spare parts in stock for short delivery time.
  3. Customized with your drawings.
  4. Prompt reply for your message and email.

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Certification: CE, ISO 9001:2000, ISO 9001:2008
Standard: GB, ASTM
Surface Treatment: Spray-Paint
Manufacturing Process: Casting
Material: Ht150 Ht200 Cast Steel
Color: Customized
Customization:
Available

|

Customized Request

wheel pulley

Can wheel pulleys be integrated into conveyor systems for material handling?

Yes, wheel pulleys can be effectively integrated into conveyor systems for material handling. Here’s a detailed explanation:

1. Belt Conveyors:

Belt conveyors are commonly used for material handling in various industries. They consist of a continuous belt looped around two or more pulleys, with one or more powered pulleys that drive the belt. These powered pulleys are typically wheel pulleys. The belt moves along the length of the conveyor, carrying materials from one point to another. Wheel pulleys provide the necessary driving force to move the belt and transport the materials.

2. Efficient Power Transmission:

Wheel pulleys ensure efficient power transmission in conveyor systems. By properly engaging with the conveyor belt, they transfer rotational motion from the drive mechanism (such as an electric motor or engine) to the belt. The positive grip of the wheel pulleys on the belt minimizes slippage, ensuring that the power is effectively transmitted to move the materials along the conveyor. This efficient power transmission is essential for maintaining a continuous and reliable material handling process.

3. Belt Tension and Tracking:

Wheel pulleys play a vital role in maintaining proper belt tension and tracking in conveyor systems. Tensioning mechanisms, such as adjustable pulley positions or tensioners, can be incorporated to ensure optimal tension in the conveyor belt. Proper tensioning prevents belt slippage and ensures that the belt remains tight and engaged with the wheel pulleys. Additionally, wheel pulleys can be designed with crowned surfaces or tracking guides to aid in belt tracking, keeping the belt centered and aligned within the conveyor system.

4. Versatility and Customization:

Wheel pulleys offer versatility and customization options for conveyor systems. They can accommodate different belt types, sizes, and materials, allowing for flexibility in system design. This versatility enables engineers to select the most suitable belt and pulley combination based on factors such as load capacity, speed, and material characteristics. Wheel pulleys can also be customized with specific groove profiles, dimensions, and surface coatings to optimize performance and durability for specific material handling applications.

5. Conveyor System Integration:

Wheel pulleys can be seamlessly integrated into conveyor systems. They can be mounted on drive shafts or incorporated into conveyor frames, providing a compact and efficient solution for material handling. The modular nature of conveyor systems allows for easy installation, replacement, or expansion of wheel pulleys as needed. Additionally, conveyor systems can be designed with multiple wheel pulleys to accommodate different sections or levels within the material handling process, enabling smooth and controlled movement of materials.

6. Maintenance and Safety:

Proper maintenance and safety measures are important considerations when integrating wheel pulleys into conveyor systems. Regular inspection and maintenance of the pulleys, belts, and associated components help identify and address any issues promptly, ensuring optimal performance and minimizing downtime. Safety guards and mechanisms can be implemented to protect operators and prevent accidents, such as pulley entanglement or material spillage.

Overall, wheel pulleys are well-suited for integration into conveyor systems for material handling. Their efficient power transmission, belt tension and tracking capabilities, versatility, and ease of integration make them a reliable and effective component in ensuring smooth and efficient material movement within various industries.

wheel pulleyHow do wheel pulleys handle different belt types and sizes?

Wheel pulleys are designed to handle different belt types and sizes by considering various factors that ensure proper belt engagement, tracking, and power transmission. Here’s a detailed explanation:

1. Groove Profile:

The groove profile of the wheel pulley is tailored to match the specific belt type. Different belt types, such as V-belts, flat belts, timing belts, or ribbed belts, have varying cross-sectional shapes and dimensions. The groove profile of the pulley is designed to correspond to the belt’s shape, ensuring a precise fit and proper alignment. This allows for maximum contact between the pulley and the belt, reducing slippage and enhancing power transmission efficiency.

2. Groove Dimensions:

The dimensions of the groove, including its width, depth, and angle, are crucial in accommodating different belt sizes. A wider groove can accommodate wider belts, while a narrower groove is suitable for narrower belts. The depth of the groove ensures that the belt sits securely within the pulley, preventing it from slipping or disengaging. The groove angle is designed to match the belt’s angle or curvature, maintaining proper tracking and preventing lateral movement.

3. Tension and Belt Tracking:

Wheel pulleys play a role in maintaining proper belt tension and tracking. Tensioning mechanisms, such as adjustable pulley positions or tensioners, can be incorporated to ensure the optimal tension for different belt types. Proper tensioning prevents belt slippage and promotes efficient power transfer. Additionally, wheel pulleys can be designed with features like crowned surfaces or tracking guides to aid in belt tracking, keeping the belt centered and aligned within the pulley.

4. Belt Material Compatibility:

Wheel pulleys consider the compatibility of materials between the pulley and the belt. For example, certain belt materials may require specific pulley materials to prevent excessive wear or belt damage. In applications where high temperatures or abrasive environments are involved, pulley materials that can withstand these conditions without compromising the belt’s integrity are selected.

5. Adjustable Designs:

Some wheel pulley systems offer adjustability to accommodate different belt sizes and types. This can be achieved through movable pulley positions, interchangeable pulley inserts, or adjustable tensioning mechanisms. These features allow for flexibility in adapting to various belt configurations, making the system versatile and adaptable.

By considering groove profile, dimensions, tensioning mechanisms, belt material compatibility, and adjustable designs, wheel pulleys can effectively handle different belt types and sizes. This ensures proper belt engagement, reliable power transmission, and optimal performance in a wide range of applications.

wheel pulley

How do wheel pulleys handle variations in load capacity and speed?

Wheel pulleys are designed to handle variations in load capacity and speed in power transmission systems. Here’s a detailed explanation of how they handle these variations:

Load Capacity:

1. Pulley Size and Diameter:

Wheel pulleys can be designed with different sizes and diameters to accommodate varying load capacities. Larger pulleys have a greater contact surface area with the belt or rope, distributing the load over a larger area and reducing the stress on the pulley. This allows for the transmission of higher loads without compromising the integrity of the pulley.

2. Material and Construction:

Wheel pulleys are manufactured using materials that offer high strength and durability. Common materials include metals such as steel or cast iron, as well as high-strength plastics. The construction of the pulleys is designed to withstand the anticipated loads without deformation or failure.

3. Bearing and Shaft Design:

The bearings and shafts supporting the wheel pulleys are chosen and designed to handle the expected loads. They are selected based on load capacity, speed, and the specific requirements of the application. High-quality bearings and robust shafts ensure smooth rotation and reliable performance under varying load conditions.

Speed:

1. Pulley Ratio:

Wheel pulleys operate on the principle of pulley ratio, where the speed of the driven pulley is determined by the ratio of the sizes of the driving and driven pulleys. By adjusting the pulley sizes, the speed of the driven pulley can be modified to meet the desired requirements. This allows for variations in speed without the need for complex transmission mechanisms.

2. Belt or Rope Selection:

The selection of the belt or rope used with the wheel pulleys can also influence the speed capabilities. Different types of belts or ropes have varying speed ratings and can handle different operating speeds. By choosing the appropriate belt or rope material and design, the wheel pulleys can effectively handle variations in speed.

3. Pulley Design:

Wheel pulleys are designed to minimize slippage and ensure efficient power transmission at different speeds. The pulley grooves are shaped and dimensioned to match the profile of the belt or rope, maximizing the contact area and grip. This design feature helps maintain consistent power transmission even at varying speeds.

Overall, wheel pulleys handle variations in load capacity and speed through careful design considerations, such as pulley size and diameter, material selection, bearing and shaft design, pulley ratio, belt or rope selection, and pulley design. By incorporating these factors, wheel pulleys provide reliable and efficient power transmission across a range of load and speed conditions.

China Custom Fly Wheel/Slot Wheel, Motor Wheel and Pulley for Shanghai Shanbao PE Jaw Crushers   pulley puller		China Custom Fly Wheel/Slot Wheel, Motor Wheel and Pulley for Shanghai Shanbao PE Jaw Crushers   pulley puller
editor by CX