Product Description
Company Profile
Established in 2009, HangZhou CZPT Trading Co., Ltd is a professional supplier for conveyor parts, located in ZHangZhoug province. We focus on supplying a variety of conveyor parts, including conveyor tubes, conveyor frames, conveyor rollers, bearing housings and so forth.
With our professional technology R&D team, and experienced quality control department, our products have been awarded the ISO9001 Quality Management System Standard and our main markets are in America, Europe, Asia and Australia.
Factory advantage |
Professional and experienced technology team | ||
All products inspected before shipping with reasonable prices | |||
Low MOQ and free sample | |||
We are audited by SGS and passed the ISO9001:2008 certification | |||
Industries service |
Industrial machine | ||
Electronic and communication | |||
Oil, gas,mining and petroleum | |||
Construction industry | |||
Equipment | CNC Machining Center, CNC Lathes, CNC Milling Machines, Punching and drilling machines, Stamping machines | ||
Precision Processing | CNC machining, CNC turning and milling, laser cutting, drilling, grinding, bending, stamping, welding |
Roller size
No. | Standard Diameter | Length Range (mm) |
Bearing Type Min-Max |
Shell Thickness of Roller | |
mm | Inch | ||||
1 | 63.5 | 2 1/2 | 150-3500 | 203 204 | 3.0mm-4.0mm |
2 | 76 | 3 | 150-3500 | 204 | 3.0mm-4.5mm |
3 | 89 | 3 1/3 | 150-3500 | 204 205 | 3.0mm-4.5mm |
4 | 102 | 4 | 150-3500 | 3.2mm-4.5mm | |
5 | 108 | 4 1/4 | 150-3500 | 306 | 3.5mm-4.5mm |
6 | 114 | 4 1/2 | 150-3500 | 306 | 3.5mm-4.5mm |
7 | 127 | 5 | 150-3500 | 306 | 3.5mm-5.0mm |
8 | 133 | 5 1/4 | 150-3500 | 305 306 | 3.5mm-5.0mm |
9 | 140 | 5 1/2 | 150-3500 | 306 307 | 3.5mm-5.0mm |
10 | 152 | 6 | 150-3500 | 4.0mm-5.0mm | |
11 | 159 | 6 1/4 | 150-3500 | 4.0mm-5.0mm | |
12 | 165 | 6 1/2 | 150-3500 | 307 308 | 4.5mm-6.0mm |
13 | 177.8 | 7 | 150-3500 | 309 | 4.5mm-6.0mm |
14 | 190.7 | 7 1/2 | 150-3500 | 309 310 | 4.5mm-7.0mm |
15 | 194 | 7 5/8 | 150-3500 | 309 310 | 4.5mm-8.0mm |
16 | 219 | 8 5/8 | 150-3500 | 4.5mm-8.0mm |
Advantage:
1.The life time: More than 50000 hours
2. TIR (Total Indicator Runout)
0.5mm (0.0197″) for Roll Length 0-600mm
0.8mm (0.571″) for Roll Length 601-1350mm
1.0mm (0. 0571 “) for Roll Length over 1350mm
3.Shaft Float≤0.8mm
4..Samples for testing are available.
5. Lower resistance
6. Small maintain work
7. High load capability
8. Dust proof & water proof
CONVRYOR ROLLER SHAFTS
We can produce roller shafts and We do customeized |
Product Size:φ10mm – 70mm |
Max Length: 3000mm |
Surface Tolerance: g6 |
Surface Roughness:0.8mm |
Specification | ASTM A108 AS1443 |
Steel Grade | Q235B,C1571,C1045(we can also do other steel grade per your requirments) |
Size | Φ18mm-φ62mm |
Diameter Tolerance | ISO286-2,H7/H8 |
Straightness | 2000:1 |
O.D | 63.5-219.1mm |
W .T | 0.45-20mm |
Length | 6–12m |
Standard | SANS 657/3,ASTM 513,AS 1163,BS6323,EN10305 |
Material | Q235B, S355,S230,C350,E235 etc. |
Technique | Welded,Seamless |
Surface | oiled ,galvanized or painted with all kinds of colors according to client’s request. |
Ends | 1.Plain ends, |
2.Threading at both side with plastice caps | |
3.Threading at both side with socket/coupling. | |
4.Beveled ends, and so on | |
Packing | 1.Water-proof plastic cloth, |
2.Woven bags, | |
3.PVC package, | |
4.Steel strips in bundles | |
5.As your requirment | |
Usage | 1.For low pressure liquid delivery such as water,gas and oil. |
2.For construction | |
3.Mechanical equipment | |
4.For Furniture | |
Payment&Trade Terms | 1.Payment : T/T,L/C, D/P, Western union |
2.Trade Terms:FOB/CFR/CIF | |
3.Minimum quantity of order : 10 MT (10,000KGS) | |
Delivery Time | 1.Usually,within10-20days after receiving your down payment. |
2.According to the order quantity |
Conveyor Roller Tube
Conveyor Roller Tube |
Specification | SANS657/3,ASTM513,AS1163,BS6323,EN10305 or equivalent international standard. |
Steel grade | S355/S230,C350,E235,Q235B | |
Sizes | 63.5mm-219.1mm ect | |
Ovality tolerance of body | ≤0.4mm(60.3mm-152.4mm) | |
≤0.5mm(159MM-168.3mm) | ||
≤0.6mm(178mm-219mm) | ||
Straightness | 2000:1 |
if you are interesting in our products or want any further information, please feel free to contact us!
I am looking CZPT to your reply.
Best regards
Ruth
HangZhou CZPT TRADING CO., LTD
1801 CZPT Building, No.268 Xierhuan Road, HangZhou City, ZHangZhoug Province, China
Surface Tolerance: | G6 |
---|---|
Surface Roughness: | 0.8 |
Max Length: | Max 3000mm |
Standard: | ASTM A108 |
Size: | Od18mm—62mm |
Steel Grade: | C1018 C1020 |
Samples: |
US$ 0/Piece
1 Piece(Min.Order) | |
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Customization: |
Available
| Customized Request |
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Can drivelines be adapted for use in both automotive and industrial settings?
Drivelines can indeed be adapted for use in both automotive and industrial settings. While there are some differences in the specific requirements and design considerations between these two applications, many fundamental principles and components of drivelines remain applicable to both sectors. Let’s explore how drivelines can be adapted for use in automotive and industrial settings:
1. Power Transmission:
In both automotive and industrial applications, drivelines serve the purpose of transmitting power from a source (such as an engine or motor) to various driven components. The driveline components, including transmissions, clutches, differentials, and shafts, can be adapted and optimized based on the specific power requirements and operating conditions of each application. While automotive drivelines typically focus on delivering power for propulsion, industrial drivelines may transmit power to various machinery and equipment.
2. Gearboxes and Transmissions:
Both automotive and industrial drivelines often incorporate gearboxes or transmissions to provide multiple gear ratios for efficient power transfer. However, the gear ratios and design considerations may differ based on the specific requirements of each application. Automotive drivelines are typically optimized for a wide range of operating conditions, including varying speeds and loads. Industrial drivelines, on the other hand, may be designed to meet specific torque and speed requirements of industrial machinery.
3. Shaft and Coupling Systems:
Shafts and coupling systems are essential components of drivelines in both automotive and industrial settings. They transmit power between different components and allow for misalignment compensation. While automotive drivelines often use driveshafts and universal joints to transmit power to the wheels, industrial drivelines may employ shafts, couplings, and flexible couplings to connect various machinery components such as motors, pumps, and generators.
4. Differentiated Requirements:
Automotive and industrial drivelines have different operating conditions, load requirements, and environmental considerations. Automotive drivelines need to accommodate various road conditions, vehicle dynamics, and driver comfort. Industrial drivelines, on the other hand, may operate in more controlled environments but are subjected to specific industry requirements, such as high torque, continuous operation, or exposure to harsh conditions. The driveline components and materials can be adapted accordingly to meet these different requirements.
5. Control and Monitoring Systems:
Both automotive and industrial drivelines can benefit from advanced control and monitoring systems. These systems can optimize power distribution, manage gear shifts, monitor component health, and improve overall driveline efficiency. In automotive applications, electronic control units (ECUs) play a significant role in controlling driveline functions, while industrial drivelines may incorporate programmable logic controllers (PLCs) or other specialized control systems.
6. Customization and Integration:
Drivelines can be customized and integrated into specific automotive and industrial applications. Automotive drivelines can be tailored to meet the requirements of different vehicle types, such as passenger cars, trucks, or sports vehicles. Industrial drivelines can be designed to integrate seamlessly with specific machinery and equipment, considering factors such as available space, power requirements, and maintenance accessibility.
7. Maintenance and Service:
While the specific maintenance requirements may vary, both automotive and industrial drivelines require regular inspection, lubrication, and component replacement to ensure optimal performance and longevity. Proper maintenance practices, as discussed earlier, are essential for prolonging the lifespan of driveline components in both settings.
In summary, drivelines can be adapted for use in both automotive and industrial settings by considering the unique requirements and operating conditions of each application. While there are some differences in design considerations and component selection, the fundamental principles of power transmission and driveline functionality remain applicable in both sectors.
Can driveline components be customized for specific vehicle or equipment requirements?
Yes, driveline components can be customized to meet specific vehicle or equipment requirements. Manufacturers and suppliers offer a range of options for customization to ensure optimal performance, compatibility, and integration with different vehicles or equipment. Customization allows for tailoring the driveline components to specific powertrain configurations, operating conditions, torque requirements, and space constraints. Let’s explore the details of customization for driveline components:
1. Powertrain Configuration:
Driveline components can be customized to accommodate different powertrain configurations. Whether it’s a front-wheel drive, rear-wheel drive, or all-wheel drive system, manufacturers can design and provide specific components such as differentials, gearboxes, and drive shafts that are compatible with the required power distribution and torque transfer characteristics of the particular configuration.
2. Torque Capacity:
Driveline components can be customized to handle specific torque requirements. Different vehicles or equipment may have varying torque outputs based on their intended applications. Manufacturers can engineer and produce driveline components with varying torque-handling capabilities to ensure reliable and efficient power transmission for a range of applications, from passenger vehicles to heavy-duty trucks or machinery.
3. Size and Configuration:
Driveline components can be customized in terms of size, shape, and configuration to fit within the space constraints of different vehicles or equipment. Manufacturers understand that each application may have unique packaging limitations, such as limited available space or specific mounting requirements. Through customization, driveline components can be designed and manufactured to align with these specific dimensional and packaging constraints.
4. Material Selection:
The choice of materials for driveline components can be customized based on the required strength, weight, and durability characteristics. Different vehicles or equipment may demand specific material properties to optimize performance, such as lightweight materials for improved fuel efficiency or high-strength alloys for heavy-duty applications. Manufacturers can provide customized driveline components with materials selected to meet the specific performance and operational requirements.
5. Performance Optimization:
Driveline components can be customized to optimize performance in specific applications. Manufacturers can modify aspects such as gear ratios, differential configurations, or clutch characteristics to enhance acceleration, traction, efficiency, or specific performance attributes based on the intended use of the vehicle or equipment. This customization ensures that the driveline components are tailored to deliver the desired performance characteristics for the specific application.
6. Specialized Applications:
For specialized applications, such as off-road vehicles, racing cars, or industrial machinery, driveline components can be further customized to meet the unique demands of those environments. Manufacturers can develop specialized driveline components with features like enhanced cooling, reinforced construction, or increased torque capacity to withstand extreme conditions or heavy workloads.
Overall, customization of driveline components allows manufacturers to meet the specific requirements of different vehicles or equipment. From powertrain configuration to torque capacity, size and configuration, material selection, performance optimization, and specialized applications, customization ensures that driveline components are precisely designed and engineered to achieve the desired performance, compatibility, and integration with specific vehicles or equipment.
How do drivelines contribute to power transmission and motion in various applications?
Drivelines play a crucial role in power transmission and motion in various applications, including automotive vehicles, agricultural machinery, construction equipment, and industrial systems. They are responsible for transmitting power from the engine or power source to the driven components, enabling motion and providing the necessary torque to perform specific tasks. Here’s a detailed explanation of how drivelines contribute to power transmission and motion in various applications:
1. Automotive Vehicles: In automotive vehicles, such as cars, trucks, and motorcycles, drivelines transmit power from the engine to the wheels, enabling motion and propulsion. The driveline consists of components such as the engine, transmission, drive shafts, differentials, and axles. The engine generates power by burning fuel, and this power is transferred to the transmission. The transmission selects the appropriate gear ratio and transfers power to the drive shafts. The drive shafts transmit the power to the differentials, which distribute it to the wheels. The wheels, in turn, convert the rotational power into linear motion, propelling the vehicle forward or backward.
2. Agricultural Machinery: Drivelines are extensively used in agricultural machinery, such as tractors, combines, and harvesters. These machines require power transmission to perform various tasks, including plowing, tilling, planting, and harvesting. The driveline in agricultural machinery typically consists of a power take-off (PTO) unit, drive shafts, gearboxes, and implement shafts. The PTO unit connects to the tractor’s engine and transfers power to the drive shafts. The drive shafts transmit power to the gearboxes, which further distribute it to the implement shafts. The implement shafts drive the specific agricultural implements, enabling them to perform their intended functions.
3. Construction Equipment: Drivelines are essential in construction equipment, such as excavators, loaders, bulldozers, and cranes. These machines require power transmission to perform tasks such as digging, lifting, pushing, and hauling. The driveline in construction equipment typically consists of an engine, transmission, drive shafts, hydraulic systems, and various gear mechanisms. The engine generates power, which is transferred to the transmission. The transmission, along with the hydraulic systems and gear mechanisms, converts and controls the power to drive the different components of the equipment, allowing them to perform their specific functions.
4. Industrial Systems: Drivelines are widely used in industrial systems and machinery, including conveyor systems, manufacturing equipment, and heavy-duty machinery. These applications require power transmission for material handling, processing, and production. The driveline in industrial systems often involves electric motors, gearboxes, drive shafts, couplings, and driven components. The electric motor provides rotational power, which is transmitted through the driveline components to drive the machinery or conveyors, facilitating the desired motion and power transmission within the industrial system.
5. Power Generation: Drivelines are also employed in power generation applications, such as generators and turbines. These systems require power transmission to convert mechanical energy into electrical energy. The driveline in power generation often consists of a prime mover, such as an internal combustion engine or a steam turbine, connected to a generator. The driveline components, such as couplings, gearboxes, and drive shafts, transmit the rotational power from the prime mover to the generator, which converts it into electrical power.
6. Marine and Aerospace Applications: Drivelines are utilized in marine vessels and aerospace systems to facilitate propulsion and motion. In marine applications, drivelines transfer power from engines or turbines to propellers or water jets, enabling the vessel to move through the water. In aerospace applications, drivelines transmit power from engines to various components, such as rotors or propellers, providing the necessary thrust for flight.
In summary, drivelines are integral to power transmission and motion in a wide range of applications. They enable the transfer of power from the engine or power source to the driven components, allowing for the generation of torque and the performance of specific tasks. Drivelines play a vital role in automotive vehicles, agricultural machinery, construction equipment, industrial systems, power generation, and marine and aerospace applications, contributing to efficient power transmission, motion, and the overall functionality of these diverse systems.
editor by CX 2023-08-31