Customized Heavy Duty Motorized Tail Rubber Lagging Drive Motor Gravity Belt Conveyor Head Roller Drum Pulley Price
The drum is the main component that transmits power. It is divided into 3 types according to their load-carrying capacity: light, medium and heavy.
Light: Bearing aperture 80-100mm, the shaft and hub are single-width plate welded cylinder structure connected by single key.
Medium: Bearing aperture 120-180mm, the shaft and hub are expansion sleeve connection.
Heavy: Bearing aperture 200-220mm, the shaft and hub are expansion sleeve connection, and the drum body is cast-welded structure.
Conveyor pulley stays at 2 ends of belt machine. The pulley can be divided into 2 categories: Driving pulley and averting pulley, driving pulley is the main part for transmitting the power and there are 2 kinds of pulley sets: Smooth surface and rubber surface, and rubber surface can be classified into smooth rubber surface, herringbone rubber surface and CHINAMFG rubber surface to meet different technical requirements. Averting pulley can be classified into smooth rubber surface and smooth steel surface.
|Driving Pulley (rubber surface)|
|Belt Width||Standard Diameter of Pulley|
|650 mm||500mm,630 mm|
|800 mm||500mm,630mm,800mm,1000mm,1250mm,1400 mm|
|1000 mm||630mm,800mm,1000mm,1250mm,1400 mm|
|1200 mm||630mm,800mm,1000mm,1250mm,1400 mm|
|1400 mm||630mm,800mm,1000mm,1250mm,1400 mm|
|1600 mm||630mm,800mm,1000mm,1250mm,1400 mm|
|1800 mm||630mm,800mm,1000mm,1250mm,1400 mm|
|2000 mm||800mm,1000mm,1250mm,1400 mm|
|2200 mm||1000mm,1250mm,1400 mm|
|2400 mm||1000mm,1250mm,1400 mm|
|Bend Pulley (smooth surface & rubber surface)|
|Belt Width||Standard Diameter of Pulley (mm)|
|Application||Coal mining industry, cement, steel, harbour etc.|
|Place of Origin||HangZhou City , ZheJiang Province , China|
|Material Feature||Water, Wear, Dust resistance|
|Management system||ISO 9001:2008,ISO 14001:2004,GB/T 28001-2001|
Main Equipment & Facilitys
Industry products research and manufacture. Over 70 designers are responsible for the research and development of professional port handling systems, vessels, steel structures, and modular house businesses. Port handling system mainly involves belt and pipe conveyor systems, stackers, rollers, pulleys and other parts. Shipping products include types of tugboats, product oil tankers, oil spill disposal ships and other offshore oilfield service ships; marine leveling barges, dredgers, and other engineering vessels. We have also designed and rebuilt the first offshore mariculture platform in China, several recreational platforms and other marine fishery equipment.
New building materials processing business. The main products include color-coated sheets for home appliances and building construction, precision stamping parts. The new building materials products of RPIC is the PUR sandwich panel, rock wool sandwich panel. At the same time, RPIC has designed a variety of prefabricated houses, which can be widely used for vacation and camping housing, urban construction housing, make-shift housing, medical, exhibition, and other temporary housing fields.
Steel structure and equipment manufacturing. With the annual production capacity of steel structure for about 100,000 tons, RPIC’s business markets involve the equipment steel structure, public infrastructure, bridge steel structure, space steel structure and so on. We have successively undertaken projects of Ore Wharf belt Conveyor System in HangZhou Port and the HUANENG Power Plant Belt Conveyor Engineering, accumulating to more than 200 million square CHINAMFG of industrial workshop construction.
Maintenance of ship and mechanical & electrical equipment. RPIC has over 30 years’ experience in port equipment operation and maintenance. RPIC is the only enterprise specialized in port handling system and equipment maintenance business in HangZhou city and has successfully repaired and transformed CHINAMFG research ships, dredgers, floating dry dock, tugboat, and other types of ships.
Q1:Can you send samples?
A:Of course, we can provide customers with free samples but customer should pay the courier fee.
Q2:What product information do I need to provide?
A:Please kindly provide the grade, width, thickness, surface treatment requirement and quantities you need to purchase.
Q3:What is your terms of payment ?
A: 30% T/T in advance ,balance before shipment or 100% LC at sight.
Q4.Do you provide customer made Products service?
A: Yes,if you have your own design , we can produce according to your specification and drawing.
Q5:How long does your delivery time take?
A:In general, our delivery time is within 7-15 days, and may be longer if the quantity is extremely large or special circumstances occur.
Q6: How many countries you already exported to?
A:We have exported to America, Canada, Brazil, Chile, Colombia, Thailand, Myanmar, Vietnam, and other African countries.Our export experience is rich, we familiar with different market demands, can help customers avoid a lot of trouble.
Q7:Can I go to your factory to visit?
A:Of course, we welcome customers from all over the world to visit our factory.
Q8:Does the product have quality inspection before loading?
A:Of course, all our products are strictly tested for quality before packaging, customers can appoint third parties to inspect the products before loading too.
Q9:How to pack the products?
A: Standard export sea-worthy packaging, the inner layer has a waterproof paper outer layer with iron packaging and is fixed with a fumigation wooden pallet. It can effectively protect products from corrosion and various climate changes during CHINAMFG transportation.
Q10:What is your working time?
A:In general, our online service time is ZheJiang time: 8:00-22:00, after 22:00, we will reply to your inquiry in the coming working day.
Estimated freight per unit.
|To be negotiated|
|Surface Treatment:||Baking Paint|
|Motor Type:||Frequency Control Motor|
How do drive pulleys impact the performance of mining and quarrying equipment?
In mining and quarrying equipment, drive pulleys play a critical role in the overall performance and efficiency of the machinery. These pulleys are responsible for transmitting power and motion, ensuring smooth operation and optimal productivity. Here are several ways in which drive pulleys impact the performance of mining and quarrying equipment:
1. Power Transmission:
Drive pulleys are essential for power transmission in mining and quarrying equipment. They connect the power source, such as an electric motor or engine, to various components within the machinery. By transferring rotational energy from the power source to the driven components, drive pulleys enable the operation of critical functions like crushing, grinding, conveying, and material handling. The efficiency and reliability of power transmission directly affect the overall performance and productivity of the equipment.
2. Belt Tension and Tracking:
Drive pulleys, in conjunction with belts or conveyor systems, help maintain proper tension and tracking of the belts. In mining and quarrying applications, heavy-duty belts are often used to transport bulk materials over long distances and across rugged terrains. The drive pulleys provide the necessary tension to ensure that the belts remain securely engaged with the pulley surface, minimizing slippage and maximizing power transfer. Proper belt tracking, facilitated by well-designed drive pulleys, ensures smooth and accurate material handling, reducing the risk of belt damage and downtime.
3. Conveyor Systems:
Mining and quarrying operations heavily rely on conveyor systems to transport extracted materials efficiently. Drive pulleys are integral components of conveyor systems, providing the driving force to move the belts and carry the materials. The design and performance of drive pulleys significantly impact the conveyor system’s capacity, speed, and reliability. Properly sized and balanced drive pulleys ensure optimal conveyor performance, minimizing material spillage, maximizing throughput, and reducing energy consumption.
4. Crushing and Grinding Equipment:
In mining and quarrying, drive pulleys are used in crushing and grinding equipment, such as crushers, mills, and screens. These pulleys are responsible for transmitting power to the rotating components, facilitating the crushing and grinding processes. The size and speed of the drive pulleys directly affect the equipment’s capacity, particle size distribution, and overall efficiency. Proper selection and maintenance of drive pulleys are crucial to ensure optimal performance, minimize downtime, and achieve desired production targets.
5. Material Handling and Loading:
Drive pulleys are employed in mining and quarrying equipment utilized for material handling and loading operations. This includes equipment like loaders, excavators, and haul trucks. Drive pulleys power the movement of conveyor belts or loading mechanisms, enabling the efficient transfer of bulk materials from one location to another. Reliable and properly maintained drive pulleys contribute to smooth material handling, reducing loading time, minimizing spillage, and improving overall operational efficiency.
6. Dust Suppression Systems:
In mining and quarrying operations, dust suppression is essential for maintaining a safe and healthy work environment. Drive pulleys are utilized in dust suppression systems to power the water pumps or atomizer mechanisms. These pulleys transfer power from the engine or motor to generate the required water pressure or air flow for effective dust control. Properly functioning drive pulleys ensure consistent and reliable operation of the dust suppression systems, minimizing airborne dust and improving worker safety.
7. Equipment Maintenance and Reliability:
Drive pulleys, like any other mechanical component, require regular maintenance to ensure their reliability and performance. Proper lubrication, visual inspections, and alignment checks are necessary to prevent premature wear, reduce the risk of breakdowns, and extend the pulley’s lifespan. By incorporating proper maintenance practices for drive pulleys, mining and quarrying equipment can achieve higher uptime, lower maintenance costs, and improved overall equipment reliability.
8. Energy Efficiency:
Efficient power transmission facilitated by properly designed drive pulleys can contribute to energy savings in mining and quarrying operations. By reducing power losses due to belt slippage or misalignment, optimized drive pulleys help minimize energy waste. Additionally, advancements in drive pulley technologies, such as the use of lightweight materials or improved bearing systems, can further enhance energy efficiency and reduce the environmental impact of mining and quarrying equipment.
How are drive pulleys integrated into industrial machinery and conveyor systems?
Drive pulleys play a crucial role in industrial machinery and conveyor systems, providing the necessary power transmission and motion control. They are integrated into these systems in various ways to ensure efficient operation and reliable performance. Here are the key aspects of how drive pulleys are integrated into industrial machinery and conveyor systems:
1. Power Transmission:
Drive pulleys are the primary components responsible for power transmission in industrial machinery and conveyor systems. They are typically connected to the motor or engine shaft and transmit rotational motion to the driven components or conveyor belts. The pulleys are designed to match the power requirements of the system, offering high torque capacity and efficient power transfer. The integration of drive pulleys ensures the reliable transmission of power throughout the machinery or conveyor system.
2. Belt or Chain Drive:
In industrial machinery and conveyor systems, drive pulleys are commonly used in belt or chain drive configurations. They are paired with belts or chains that wrap around the pulley grooves, creating a positive engagement and transmitting power. The drive pulleys are designed with specific groove profiles to ensure proper belt or chain tracking and prevent slippage. Belt or chain drives allow for flexible power transmission and are suitable for various applications, including conveying materials, driving rotating components, or operating auxiliary systems.
3. Pulley Arrangements:
Industrial machinery and conveyor systems often utilize multiple drive pulleys arranged in specific configurations. These arrangements include single pulley setups, multiple pulleys in parallel, or pulleys arranged in a series. The selection and arrangement of drive pulleys depend on factors such as the desired speed ratio, torque requirements, and system layout. Multiple pulley arrangements enable the system to achieve the desired speed, torque, and power distribution for efficient operation.
4. Tensioning and Tracking:
Drive pulleys are integrated with tensioning and tracking mechanisms to maintain proper belt or chain tension and alignment. Tensioning devices, such as idler pulleys or tensioners, are used to apply the appropriate tension to the belt or chain, preventing slack and ensuring optimal power transmission. Tracking mechanisms, such as adjustable pulleys or guide rollers, help keep the belt or chain properly aligned on the pulleys, minimizing misalignment and reducing wear. The integration of tensioning and tracking systems with drive pulleys improves overall system reliability and performance.
5. Pulley Design and Materials:
The design and materials used in drive pulleys are carefully considered to suit the specific requirements of industrial machinery and conveyor systems. Pulleys are designed with appropriate groove profiles to match the belt or chain type, ensuring optimal engagement and minimizing slippage. They are constructed from durable materials such as steel, aluminum, or engineered plastics, depending on factors such as load capacity, environmental conditions, and system dynamics. The integration of well-designed and robust drive pulleys enhances the longevity and reliability of the machinery or conveyor system.
6. Maintenance and Serviceability:
Drive pulleys are integrated into industrial machinery and conveyor systems with ease of maintenance and serviceability in mind. They are often designed for simple installation, adjustment, and replacement, allowing for quick and efficient maintenance tasks. Accessible pulley locations, such as removable guards or covers, facilitate inspection and maintenance activities. The integration of service-friendly drive pulleys minimizes downtime and contributes to the overall reliability of the machinery or conveyor system.
7. System Optimization:
Drive pulleys are integral to optimizing the performance and efficiency of industrial machinery and conveyor systems. Proper selection and integration of drive pulleys, along with other system components, allow for achieving desired speed, torque, and power requirements. By carefully considering factors such as pulley size, groove design, belt tension, and system layout, the performance of the machinery or conveyor system can be optimized. Drive pulleys play a crucial role in system optimization, ensuring smooth operation, minimized energy losses, and enhanced productivity.
In summary, drive pulleys are essential components integrated into industrial machinery and conveyor systems. They enable power transmission, are used in belt or chain drive configurations, and can be arranged in various configurations. They incorporate tensioning and tracking mechanisms, are designed with specific groove profiles, and are constructed from durable materials. The integration of drive pulleys ensures efficient operation, reliability, and serviceability in industrial machinery and conveyor systems.
How does the size and design of a drive pulley affect its performance?
The size and design of a drive pulley have a significant impact on its performance and the overall operation of a power transmission system. The size and design of a drive pulley influence various aspects such as speed, torque, power transfer efficiency, belt or chain life, and system reliability. Here are the key ways in which the size and design of a drive pulley affect its performance:
1. Speed and Torque:
The size of a drive pulley directly affects the speed and torque of the power transmission system. A larger pulley diameter results in higher belt or chain speed and lower torque output. Conversely, a smaller pulley diameter increases torque output but reduces belt or chain speed. By selecting the appropriate pulley size, the system can be optimized to achieve the desired speed and torque requirements for the driven components.
2. Mechanical Advantage:
The design and size ratio between the driving and driven pulleys determine the mechanical advantage of the power transmission system. By using different-sized pulleys or multiple pulley arrangements, the mechanical advantage can be increased or decreased. This affects the force or torque that can be transmitted from the driving source to the driven components. The mechanical advantage provided by the pulley design influences the system’s ability to handle loads or resistance efficiently.
3. Power Transfer Efficiency:
The design and size of a drive pulley impact the power transfer efficiency of the system. An appropriately sized pulley with the right groove profile facilitates proper belt or chain engagement, reducing slippage and power losses. A well-designed pulley minimizes friction and improves the grip between the pulley and the belt or chain, enhancing power transmission efficiency. Proper pulley design, such as V-grooves or toothed profiles, ensures efficient power transfer and reduces energy losses.
4. Belt or Chain Life:
The size and design of a drive pulley can significantly affect the life and durability of the belt or chain used in the power transmission system. Improper pulley design, such as sharp edges or inadequate groove profiles, can cause premature wear and damage to the belt or chain. Additionally, excessive belt tension resulting from an undersized pulley can lead to accelerated belt wear. Choosing the correct pulley size and design helps optimize belt or chain life, reducing maintenance costs and downtime.
5. Vibration and Noise:
The size and design of a drive pulley can influence the level of vibration and noise in the power transmission system. Improperly designed or unbalanced pulleys can introduce vibration, leading to increased wear and reduced system performance. The design of the pulley, such as the groove profile and the use of vibration-damping materials, can help minimize vibration and noise, ensuring smoother operation and improved system reliability.
6. Belt or Chain Tension and Alignment:
The size and design of a drive pulley affect belt or chain tension and alignment in the power transmission system. An undersized pulley can result in excessive belt or chain tension, leading to increased wear and reduced efficiency. Proper pulley design, including adequate groove width and profile, ensures optimal belt or chain engagement, minimizing tension and alignment issues. This promotes longer belt or chain life and reduces the risk of premature failure.
7. System Compactness and Space Constraints:
The size and design of a drive pulley also play a role in system compactness and space constraints. In applications where space is limited, smaller pulleys may be preferred to achieve the desired speed and torque. Conversely, larger pulleys may be required to accommodate higher power requirements or to optimize the mechanical advantage. The compactness and size of the pulley design should be considered to ensure proper installation and efficient use of available space.
In summary, the size and design of a drive pulley have a significant impact on its performance. They influence speed, torque, power transfer efficiency, belt or chain life, vibration, noise, tension, alignment, and system compactness. Careful consideration of these factors is essential in selecting the appropriate pulley size and design to optimize the performance, reliability, and efficiency of the power transmission system.
editor by CX