√ HangZhou CHOHO Industrial Co., Ltd. was founded in 1999. Has become the leader of chain system technology, the first batch of natioal recognized enterprise technology center,national technology innovation demonstration enterprise,and the first A-share listed company in China’s chain drive industry.The securities code is 003033. √ CHOHO has 4 subsidiaries, including testing technology and international trading companies. has 4 factories in HangZhou, Thailand factory, ZheJiang R&D Center and Tokyo R&D Center. In addition, CHOHO ZHangZhoug Industrial zone is expected to be completed & put into operation next year. √ We specialized in producing all kinds of standard chains and special chains, such as Agricultural Chain, Sprocket, Chain Harrow, Tillage Parts,Rice Harvester Chain, GS38 Chain, Roller Chain, Automobile Chain, Motorcycle Chain Industrial Chain and so on.Our partners among world top enterprises, such as LOVOL,JOHN DEERE,NEWHOLLAND, CLASS,AGCO,DEUTZFAHR,HONDA, KUBOTA etc.
Packaging Details:
advanced packaging / convenience package / bulk package / Waterproof bag / PE Bag / Premium cardboard box / Regular cardboard Carton / Neutral Box / Wooden case / Steel Pallets or Customization
We are very close to the port of HangZhou, which saves a lot of logistics costs and transportation time!
We have our own logistics company and transportation department. If you need me to deliver goods to your warehouse or other ports in China, such as ZheJiang Port and ZheJiang Port, we can also do it!
******************************************************* After years of quality practice, CHOHO has formed a unique quality culture and a quality management model that strategically achieves global chain system technology leaders in quality management. *******************************************************
∞ Driven by quality culture and strategy
∞ Implementation of R&D,procurement, production and marketing Digital Quality Management of the Whole Value Chain Cycle
∞ Quality Synergy of the Whole Industry Chain
∞ Achievement chain system technology leader
√ CHOHO has a natural brand awareness. As of January 2571, CHOHO has registered the “CHOHO” trademark in more than 60 countries, including the United States, Japan, the United Kingdom, France, Germany, Russia, Spain, Austria, Belgium, Bulgaria, Croatia, Czech Republic, Denmark, Finland, Greece , Hungary, Ireland, Italy, Netherlands, Poland, Portugal, Romania, Ukraine, Sweden, Australia, Algeria, Egypt, Kenya, Morocco, South Korea, Kazakhstan, Mongolia, Syria, Thailand, Pakistan, India, Brazil, Mexico, Colombia, etc.
CHOHO has been invited to participate in many international exhibitions around the world, including industrial exhibitions, agricultural exhibitions, motorcycle exhibitions, engine exhibitions, such as Hannover Messe, Bologna Fair, Canton Fair ,VIV ASIA and other world famous exhibitions!
COOPERATIVE CLIENT
Broad Customer Channels Market Continues to Develop!
Choho Provide Chain System Solutions for The Global Top 500 and The Enterprises in Various Fields Top 10!
FAQ
1. Are you a Manufacturer or Trade Company? -We are a factory focused on producing and exporting Chains for over 36 years and have a professional international trade team. 2. What terms of payment do you usually use? -T/T term 30% in advance,70% balance before shipment. Show your products and packaging before shipping. 3. What is your lead time for your goods? -Normally 1~45 days depending on order quantity & Spec, Stock can be shipped immediately. 4. Do you attend any Shows? -We attend the Hannover Messe, Bologna Fair, Canton Fair, AMTS, VIV ASIA, CIAME, Motor China, PTC Asia, Frankfurt Auto Parts, and other world-famous exhibitions! 5. Do you offer free samples? -Yes, we can. or you just bear the shipping cost. 6. Is OEM available? -Yes, OEM is available. 7. What are your major products? -Our main products are all kinds of Automobile Chain Systems, Motorcycle Chain Systems, Industrial Chain Systems, Agricultural Chain Systems, Bicycle chain Systems, Saw Chains, and Vessel Chain.
OTHER HOT SELL PRODUCTS
Thx for Reading! To know more about CHOHO, kindly visit
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
Material:
Alloy
Structure:
Roller Chain
Surface Treatment:
Polishing
Samples:
US$ 1.99/Meter 1 Meter(Min.Order)
|
Order Sample
A Series Short Pitch Precision Roller Chain Sample
You can apply for a refund up to 30 days after receipt of the products.
How does the length of a transmission chain impact its performance?
The length of a transmission chain plays a significant role in its overall performance and functionality. Here’s a detailed explanation:
1. Proper Fit and Function: The length of a transmission chain needs to be carefully selected to ensure it fits and functions correctly within the designated system. If the chain is too short, it may not be able to reach the sprockets or pulleys properly, leading to ineffective power transmission and potential chain slippage. On the other hand, if the chain is too long, it may sag, create excessive tension, or cause interference with other components, resulting in inefficient operation or premature wear.
2. Tension and Slack Control: The length of a transmission chain affects the tension and slack control within the system. A properly tensioned chain ensures optimal power transmission, reduces backlash, and minimizes the risk of chain derailment. The chain length must be adjusted to maintain the appropriate tension throughout the operating cycle, considering factors such as load variations, temperature changes, and system dynamics.
3. Flexibility and Bending Requirements: The length of a transmission chain influences its flexibility and bending characteristics. Longer chains may have a higher degree of flexibility, allowing them to navigate complex paths or accommodate greater distances between sprockets or pulleys. However, excessive chain length can lead to excessive bending, resulting in increased friction, wear, and potential premature failure.
4. Sprocket Interactions: The length of the transmission chain affects its interaction with the sprockets or pulleys. The number of chain links determines the engagement between the chain and the teeth of the sprockets. Proper length ensures smooth engagement, minimal tooth wear, and efficient power transfer. Incorrect chain length can cause misalignment, increased noise, and accelerated sprocket or chain wear.
5. System Efficiency and Performance: The length of a transmission chain directly impacts the overall efficiency and performance of the system. A properly sized chain ensures optimum power transmission, minimal energy losses, and reliable operation. By selecting the appropriate chain length, system designers can maximize efficiency, minimize wear, and optimize the lifespan of both the chain and related components.
When selecting the length of a transmission chain, it’s crucial to consider the specific requirements of the application, including the distance between sprockets or pulleys, the desired tension, and the expected load conditions. Consulting with chain manufacturers or industry experts can provide valuable guidance in determining the appropriate chain length for optimal performance and longevity.
Can transmission chains be used in automotive or motorcycle applications?
Transmission chains can indeed be used in automotive and motorcycle applications. Here’s a detailed answer to the question:
Automotive and motorcycle applications often require reliable and efficient power transmission to transfer torque from the engine to the wheels. Transmission chains offer several advantages that make them suitable for these applications:
1. High Strength: Transmission chains are designed to handle high torque and power requirements, making them suitable for the demanding conditions of automotive and motorcycle power transmission systems.
2. Efficient Power Transfer: Transmission chains provide a direct and efficient means of transferring power from the engine to the wheels. They have low energy losses due to friction, allowing for effective power transmission and optimal performance.
3. Compact Design: Transmission chains have a compact design, making them suitable for the limited space available in automotive and motorcycle applications. They can be easily integrated into the drivetrain system without occupying excessive space.
4. Wide Speed Range: Transmission chains can operate effectively across a wide range of speeds, accommodating the varying speed requirements of automotive and motorcycle applications.
5. Versatility: Transmission chains can be used in various types of automotive and motorcycle transmissions, including manual transmissions, automatic transmissions, and final drive systems.
6. Durability: Transmission chains are built to withstand the demanding conditions of automotive and motorcycle applications. They are designed to resist wear, fatigue, and corrosion, ensuring long-lasting performance and reliability.
7. Cost-Effective: Transmission chains offer a cost-effective solution for power transmission in automotive and motorcycle applications. They are generally more affordable than alternative transmission systems.
It’s important to note that the specific design and requirements of the automotive or motorcycle transmission system should be considered when selecting a transmission chain. Proper maintenance, lubrication, and periodic inspection are also crucial to ensure the chain’s performance and longevity in these applications.
Can transmission chains be used in corrosive environments?
Transmission chains can be used in corrosive environments, but the choice of materials and proper maintenance are crucial to ensure their performance and longevity. Here’s a detailed explanation:
1. Material Selection: When operating in corrosive environments, it is important to select transmission chains made from corrosion-resistant materials. Stainless steel chains are commonly used due to their excellent resistance to rust and corrosion. They are capable of withstanding exposure to moisture, chemicals, and other corrosive agents.
2. Coatings and Treatments: Applying specialized coatings or treatments to the transmission chains can provide an extra layer of protection against corrosion. These coatings, such as zinc plating or epoxy coatings, create a barrier between the chain and the corrosive environment, reducing the risk of degradation.
3. Sealed or Enclosed Design: In some cases, using transmission chains with sealed or enclosed designs can help prevent contaminants, including corrosive substances, from entering the chain assembly. This can prolong the chain’s life and maintain its performance in corrosive environments.
4. Proper Lubrication: Adequate lubrication is crucial for maintaining the performance and preventing corrosion in transmission chains. Lubricants with anti-corrosive properties should be used to provide a protective film on the chain’s surfaces, reducing friction and preventing the corrosive agents from reaching the chain’s metal components.
5. Regular Inspection and Cleaning: Regular inspection and cleaning of the transmission chains are necessary in corrosive environments. This helps detect any signs of corrosion or damage early on, allowing for timely maintenance or replacement. Cleaning the chains with appropriate cleaning agents can help remove any corrosive residues and prolong their lifespan.
It is important to consult with the chain manufacturer or a knowledgeable expert to determine the most suitable chain and maintenance practices for specific corrosive environments. By selecting the right materials, applying protective coatings, ensuring proper lubrication, and conducting regular maintenance, transmission chains can be effectively used in corrosive environments while maintaining their performance and durability.
1. Produce strictly in accordance with ANSI or DIN standard dimension 2. Material: C45 steel / Stainless Steel 304 & 316 3. Standard: ANSI, DIN, JINS, ISO, Standard America or customer drawing 4. Pilot bore, finished bore, taper bore and special bore. 5. Bright surface and high precision 6. Advanced heat treatment and surface treatment craft 7. Best quality and competitive price. 8. Welcome OEM / ODM 9. Processing equipment: Hobbing machine, Slotting machine, CNC lathes and other equipment. 10. Sprocket models: Contains special sprocket according to customer’s drawings, standard sprocket (American standard and metric).Product name Zinc-Plated Transmission Sprocket (12T) Materials Available 1. Stainless Steel: SS304, SS316, etc 2. Alloy Steel: C45, 45Mn, 42CrMo, 20CrMo, etc 3. OEM according to your request Surface Treatment Heat treatment, Quenching treatment, High frequency normalizing treatment, Polishing, Electrophoresis paint processing, Anodic oxidation treatment, etc Characteristic Fire Resistant, Oil Resistant, Heat Resistant, CZPT resistance, Oxidative resistance, Corrosion resistance, etc Design criterion ISO DIN ANSI & Customer Drawings Size Customer Drawings & ISO standard Application Industrial transmission equipment Package Wooden Case / Container and pallet, or made-to-order Certificate ISO9001: 2008 Advantage Quality first, Service first, Competitive price, Fast delivery Delivery Time 20 days for samples. 45 days for official order. View more products,please click here…
1. Produce strictly in accordance with standard dimension 2. Material: 1045 Steel / Alloy Steel / Stainless Steel 304 & 316 3. Standard: ANSI, DIN, JINS, ISO, KANA,Standard America or customer’s drawing 4. Pilot bore, finished bore, taper bore and special bore. 5. Bright surface / high precision / Blacking /Electrophoretic-Coated 6. Advanced heat treatment and surface treatment craft 7. Best quality and competitive price. 8. Welcome OEM / ODM 9. Processing Equipment: Hobbing machine, Slotting machine, CNC lathes and other equipment. 10. Sprocket Models: Contains special sprocket acc /* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
Standard Or Nonstandard:
Nonstandard
Application:
Electric Cars, Motorcycle, Machinery, Agricultural Machinery
Hardness:
Hardened Tooth Surface
Manufacturing Method:
Sintered Gear
Toothed Portion Shape:
Spur Gear
Material:
Cast Iron
Samples:
US$ 666/Piece 1 Piece(Min.Order)
|
Request Sample
Customization:
Available
|
Customized Request
Ensuring Proper Alignment between a Wheel and its Corresponding Sprocket
Proper alignment between a wheel and its corresponding sprocket is crucial for the smooth and efficient operation of the wheel sprocket system. Misalignment can lead to increased wear, noise, and reduced performance. Here are some steps to ensure proper alignment:
Use Precision Components: Ensure that both the wheel sprocket are high-quality, precision-manufactured components that meet the required specifications. Using well-machined components will aid in achieving better alignment.
Check Axle Alignment: Make sure the axle or shaft on which the wheel sprocket are mounted is straight and properly aligned. Any misalignment in the axle can lead to misalignment of the wheel sprocket.
Proper Mounting: Ensure that the wheel sprocket are securely and correctly mounted on the axle or shaft. Use appropriate fasteners and tightening techniques to prevent any movement or shifting during operation.
Check for Parallelism: The axes of the wheel sprocket should be parallel to each other. Measure the distance between the axes at multiple points to verify parallel alignment.
Use Alignment Tools: Alignment tools, such as laser alignment systems, can be employed to accurately align the wheel sprocket. These tools can help identify and correct misalignments effectively.
Check Tension and Tensioner Alignment: If a tensioner is used in the system, ensure that it is properly aligned and applying the right tension to the chain or belt. Incorrect tension can cause misalignment.
Regular Maintenance: Implement a regular maintenance schedule to check and adjust alignment as needed. Regular inspections can help identify and address alignment issues before they cause significant problems.
Monitor Performance: Keep an eye on the performance of the wheel sprocket system. Unusual noises, vibrations, or signs of wear can indicate misalignment and should be investigated promptly.
Proper alignment is essential for the long-term performance and reliability of the wheel sprocket system. By following these steps and conducting regular maintenance, you can ensure that the wheel sprocket work together harmoniously, providing efficient power transmission and minimizing wear and tear.
Load-Carrying Capacities of wheel sprocket Combinations
The load-carrying capacity of a wheel sprocket assembly depends on various factors, including the material, size, and design of both the wheel sprocket. Here are some common types of wheel sprocket combinations and their load-carrying capacities:
Steel Wheel with Steel Sprocket: This combination offers high load-carrying capacity and is commonly used in heavy-duty applications. Steel wheels can handle substantial loads, and when paired with steel sprockets, the assembly can withstand even higher forces.
Nylon Wheel with Steel Sprocket: Nylon wheels are known for their lightweight and durable nature. When combined with steel sprockets, they provide a good load-carrying capacity while reducing the overall weight of the assembly.
Polyurethane Wheel with Steel Sprocket: Polyurethane wheels offer excellent wear resistance and are suitable for medium to heavy loads. When paired with steel sprockets, this combination can handle moderate to high load capacities.
Rubber Wheel with Cast Iron Sprocket: Rubber wheels are known for their shock-absorbing properties and are often used in applications requiring vibration dampening. When used with cast iron sprockets, this combination can handle medium loads.
Plastic Wheel with Plastic Sprocket: This combination is suitable for light-duty applications where lower loads are expected. Plastic wheels and sprockets are often used in applications that require low friction and quiet operation.
Custom wheel sprocket Combinations: In some cases, custom wheel sprocket combinations are designed to meet specific load-carrying requirements. These combinations can be tailored to suit the application’s unique demands.
It’s important to note that load-carrying capacities also depend on other factors, such as the type of bearing used in the wheel, the shaft material, and the overall design of the mechanical system. Engineers should carefully consider the intended application, operating conditions, and safety factors when selecting the appropriate wheel sprocket combination to ensure optimal performance and longevity of the system.
Calculating Gear Ratio for a wheel sprocket Setup
In a wheel sprocket system, the gear ratio represents the relationship between the number of teeth on the sprocket and the number of teeth on the wheel. The gear ratio determines the speed and torque relationship between the two components. To calculate the gear ratio, use the following formula:
Gear Ratio = Number of Teeth on Sprocket ÷ Number of Teeth on Wheel
For example, if the sprocket has 20 teeth and the wheel has 60 teeth, the gear ratio would be:
Gear Ratio = 20 ÷ 60 = 1/3
The gear ratio can also be expressed as a decimal or percentage. In the above example, the gear ratio can be expressed as 0.3333 or 33.33%.
It’s important to note that the gear ratio affects the rotational speed and torque of the wheel sprocket. A gear ratio greater than 1 indicates that the sprocket’s speed is higher than the wheel’s speed, resulting in increased rotational speed and reduced torque at the wheel. Conversely, a gear ratio less than 1 indicates that the sprocket’s speed is lower than the wheel’s speed, resulting in decreased rotational speed and increased torque at the wheel.
The gear ratio is crucial in various applications where precise control of speed and torque is required, such as bicycles, automobiles, and industrial machinery.
A taper bushing sprocket is a common sprocket that differs from a normal sprocket in its nested tapered bushing for easy installation and removal. It adopts a tapered bushing to keep the chain in a stable position, thereby improving the transmission efficiency and wear resistance of the sprocket.
Product Parameters
product
high precision Taper Bushing Sprocket
bore
pilot bore ,taper bore , finished bore and special bore
brown paper ,oiled paper , carton box ,wooden box ,as requirement
advantage
Quality first Service superior , Advanced equipment,Experienced workers,Perfect testing equipment
lead time
within 15 days samples. 30-45days offcial order
workshop & equipment
Application Field
Our Advantages
1 . Prioritized Quality 2 .Integrity-based Management 3 .Service Orientation 4 .150+ advanced equipment 5 .10000+ square meter factory area 6 .200+ outstanding employees 7 .90% employees have more than 10 year- working experience in our factory 8 .36 technical staff 9 .certificate ISO 9001 , SGS
10 . Customization support
11 .After-sales support
Production process
shipping
sample orders delivery time: 10-15 working days as usual 15-20 working days in busy season
large order leading time : 30-40 working days as usual
FAQ
1. why should you buy products from us not from other suppliers? We are a decade year-experience manufacturer on making the gear, specializing in manufacturing varieties of gears, such as helical gear ,bevel gear ,spur gear and grinding gear, gear shaft, timing pulley, rack, , timing pulley and other transmission parts .
2. what services can we provide? Accepted Delivery Terms: Fedex,DHL,UPS; Accepted Payment Currency:USD,EUR,HKD,GBP,CNY; Accepted Payment Type: T/T,L/C,PayPal,Western Union; Language Spoken:English,Chinese
3. how can we guarantee quality? 1 .Always a pre-production sample before mass production; 2 .Always final Inspection before shipment; 3 .We have high-precision CNC gear grinding machine, high-speed CNC gear hobbing machine, CNC gear shaping machine, CNC lathe, CNC machining center, various grinding machines, universal gear measuring instrument, heat treatment and other advanced processing equipment. 4 . We have a group of experienced technical workers, more than 90% of the workers have more than 10 years of work experience in this factory, can accurately control the manufacturing of products and customer needs. We regularly train our employees to ensure that we can produce high-precision and high-quality products that are more in line with our customers’ needs.
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
Standard Or Nonstandard:
Standard
Application:
Motor, Electric Cars, Motorcycle, Machinery, Marine, Toy, Agricultural Machinery, Car
Hardness:
Hardened Tooth Surface
Manufacturing Method:
Rolling Gear
Toothed Portion Shape:
Spur Gear
Material:
Stainless Steel
Samples:
US$ 10/Piece 1 Piece(Min.Order)
|
Request Sample
Customization:
Available
|
Customized Request
Best Lubrication Practices for wheel sprocket Systems
Proper lubrication is essential for maintaining the efficiency and longevity of wheel sprocket systems. The lubrication practices can vary depending on the specific application and the environment in which the system operates. Here are some best practices for lubricating wheel sprocket systems:
Cleanliness: Before applying any lubricant, ensure that the wheel sprocket surfaces are clean and free from dirt, debris, and old lubricant residue. Cleaning the components helps prevent contaminants from mixing with the lubricant and causing additional wear.
Choose the Right Lubricant: Select a lubricant specifically designed for the wheel sprocket system. Consider factors such as load, speed, temperature, and environmental conditions when choosing the appropriate lubricant. Some systems may require grease, while others may need oil-based lubricants.
Apply Adequate Amount: Apply the lubricant in the right quantity to ensure proper coverage of the contacting surfaces. Too little lubricant may not provide sufficient protection, while too much can lead to excess heat and waste.
Regular Lubrication Schedule: Establish a maintenance schedule for lubrication based on the operating conditions of the system. In high-demand applications, more frequent lubrication may be necessary to prevent premature wear.
Monitor and Reapply: Regularly monitor the condition of the wheel sprocket system and observe any signs of inadequate lubrication, such as increased friction or unusual noise. Reapply lubricant as needed to maintain optimal performance.
Re-lubrication After Cleaning: If the wheel sprocket system is cleaned, ensure that fresh lubricant is applied after cleaning to restore the protective layer.
Consider Lubrication Type: Depending on the application, consider using dry lubricants or solid lubricants for environments where dust and dirt accumulation may be a concern.
It’s essential to follow the manufacturer’s recommendations and guidelines for lubrication. Additionally, consult with lubrication experts or equipment suppliers for specific recommendations based on your wheel sprocket system’s unique requirements.
Temperature Limits for wheel sprocket System’s Operation
The temperature limits for a wheel sprocket system’s operation depend on the materials used in the construction of the components. Different materials have varying temperature tolerances, and exceeding these limits can lead to reduced performance, premature wear, and even system failure.
Here are some common materials used in wheel sprocket systems and their general temperature limits:
Steel: Steel sprockets and wheels, which are widely used in many applications, typically have a temperature limit ranging from -40°C to 500°C (-40°F to 932°F). However, the specific temperature range may vary based on the grade of steel and any coatings or treatments applied.
Stainless Steel: Stainless steel sprockets and wheels offer improved corrosion resistance and can withstand higher temperatures than regular steel. Their temperature limit is typically between -100°C to 600°C (-148°F to 1112°F).
Plastics: Plastic sprockets and wheels are commonly used in low-load and low-speed applications. The temperature limit for plastic components varies widely depending on the type of plastic used. In general, it can range from -40°C to 150°C (-40°F to 302°F).
Aluminum: Aluminum sprockets and wheels have a temperature limit of approximately -40°C to 250°C (-40°F to 482°F). They are often used in applications where weight reduction is critical.
It’s essential to consult the manufacturer’s specifications and material data sheets for the specific components used in the wheel sprocket system to determine their temperature limits accurately. Factors such as load, speed, and environmental conditions can also influence the actual temperature tolerance of the system.
When operating a wheel sprocket system near its temperature limits, regular monitoring and maintenance are necessary to ensure the components’ integrity and overall system performance. If the application involves extreme temperatures beyond the typical limits of the materials, specialized high-temperature materials or cooling measures may be required to maintain reliable operation.
Types of Sprockets Used with Wheels
In mechanical systems, sprockets are toothed wheels that mesh with a chain or a belt to transmit rotational motion and power. There are several types of sprockets used with wheels, each designed for specific applications:
1. Roller Chain Sprockets:
These are the most common type of sprockets used with wheels and are designed to work with roller chains. Roller chain sprockets have teeth that match the profile of the chain’s rollers, ensuring smooth engagement and reducing wear on both the sprocket and the chain. They are widely used in bicycles, motorcycles, and industrial machinery.
2. Silent Chain Sprockets:
Also known as inverted-tooth chain sprockets, these sprockets are designed to work with silent chains. Silent chains are toothed chains that run quietly and smoothly, making them ideal for applications where noise reduction is essential, such as timing drives in engines and automotive systems.
3. Timing Belt Sprockets:
Timing belt sprockets are used with timing belts to ensure precise synchronization between the crankshaft and camshaft in internal combustion engines. They have specially designed teeth that fit the profile of the timing belt, allowing for accurate timing and smooth motion.
4. Idler Sprockets:
Idler sprockets are used to guide and tension chains or belts in a system. They do not transmit power themselves but play a crucial role in maintaining proper tension and alignment, which is essential for efficient power transmission and to prevent chain or belt slack.
5. Weld-On Sprockets:
Weld-on sprockets are designed to be welded directly onto a wheel hub or shaft, providing a secure and permanent attachment. They are commonly used in industrial machinery and equipment.
6. Double-Single Sprockets:
Double-single sprockets, also known as duplex sprockets, have two sets of teeth on one sprocket body. They are used when two separate chains need to be driven at the same speed and with the same sprocket ratio, often found in heavy-duty applications and conveyor systems.
7. Taper-Lock Sprockets:
Taper-lock sprockets are designed with a taper and keyway to provide a secure and easy-to-install connection to the shaft. They are widely used in power transmission systems, where sprocket positioning and removal are frequent.
Each type of sprocket is selected based on the specific application’s requirements, chain or belt type, and the desired performance characteristics. Proper selection and maintenance of sprockets are essential for ensuring efficient power transmission and extending the life of the entire system.
1. Produce strictly in accordance with ANSI or DIN standard dimension 2. Material: C45 steel / Stainless Steel 304 & 316 3. Standard: ANSI, DIN, JINS, ISO, Standard America or customer drawing 4. Pilot bore, finished bore, taper bore and special bore. 5. Bright surface and high precision 6. Advanced heat treatment and surface treatment craft 7. Best quality and competitive price. 8. Welcome OEM / ODM 9. Processing equipment: Hobbing machine, Slotting machine, CNC lathes and other equipment. 10. Sprocket models: Contains special sprocket according to customer’s drawings, standard sprocket (American standard and metric).Product name Zinc-Plated Transmission Sprocket (12T) Materials Available 1. Stainless Steel: SS304, SS316, etc 2. Alloy Steel: C45, 45Mn, 42CrMo, 20CrMo, etc 3. OEM according to your request Surface Treatment Heat treatment, Quenching treatment, High frequency normalizing treatment, Polishing, Electrophoresis paint processing, Anodic oxidation treatment, etc Characteristic Fire Resistant, Oil Resistant, Heat Resistant, CZPT resistance, Oxidative resistance, Corrosion resistance, etc Design criterion ISO DIN ANSI & Customer Drawings Size Customer Drawings & ISO standard Application Industrial transmission equipment Package Wooden Case / Container and pallet, or made-to-order Certificate ISO9001: 2008 Advantage Quality first, Service first, Competitive price, Fast delivery Delivery Time 20 days for samples. 45 days for official order. View more products,please click here…
1. Produce strictly in accordance with standard dimension 2. Material: 1045 Steel / Alloy Steel / Stainless Steel 304 & 316 3. Standard: ANSI, DIN, JINS, ISO, KANA,Standard America or customer’s drawing 4. Pilot bore, finished bore, taper bore and special bore. 5. Bright surface / high precision / Blacking /Electrophoretic-Coated 6. Advanced heat treatment and surface treatment craft 7. Best quality and competitive price. 8. Welcome OEM / ODM 9. Processing Equipment: Hobbing machine, Slotting machine, CNC lathes and other equipment. 10. Sprocket Models: Contains special sprocket acc /* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
Standard Or Nonstandard:
Nonstandard
Application:
Electric Cars, Motorcycle, Machinery, Agricultural Machinery
Hardness:
Hardened Tooth Surface
Manufacturing Method:
Sintered Gear
Toothed Portion Shape:
Spur Gear
Material:
Cast Iron
Samples:
US$ 666/Piece 1 Piece(Min.Order)
|
Request Sample
Customization:
Available
|
Customized Request
Safety Precautions for Working with wheel sprocket Systems
Working with wheel sprocket systems involves potential hazards, and it’s essential to follow safety precautions to prevent accidents and injuries. Here are some safety measures to consider:
Proper Training: Ensure that anyone working with the wheel sprocket systems is adequately trained in their operation, maintenance, and safety procedures.
Use Personal Protective Equipment (PPE): Always wear appropriate PPE, such as safety glasses, gloves, and protective clothing, to protect against potential hazards.
Lockout/Tagout: Before performing any maintenance or repair work on the system, follow lockout/tagout procedures to prevent accidental startup or energization.
Keep Work Area Clean: Maintain a clean work area and remove any debris or obstacles that could interfere with the operation of the system.
Inspect Regularly: Regularly inspect the wheels, sprockets, and chains for signs of wear, damage, or misalignment. Address any issues promptly.
Ensure Proper Lubrication: Adequate lubrication of the sprockets and chains is crucial for smooth operation and to reduce friction and wear.
Check Tension: Verify that the chain tension is within the recommended range. Too loose or too tight tension can lead to operational problems.
Avoid Loose Clothing: Keep long hair, loose clothing, and jewelry away from moving parts to avoid entanglement.
Follow Manufacturer’s Guidelines: Adhere to the manufacturer’s guidelines and recommendations for installation, operation, and maintenance of the wheel sprocket system.
Use Guards and Enclosures: Install appropriate guards and enclosures to protect against contact with moving parts.
Safe Handling: When transporting or handling heavy wheels or sprockets, use proper lifting techniques and equipment.
Prioritizing safety when working with wheel sprocket systems is essential to prevent accidents and maintain a safe working environment. Always be vigilant, follow safety protocols, and address any concerns promptly to ensure the well-being of everyone involved.
Inspecting a wheel sprocket for Wear and Tear
Regular inspection of the wheel sprocket is essential to ensure their proper functioning and to identify any signs of wear and tear. Here are the steps to inspect a wheel sprocket:
Visual Inspection: Start by visually examining the wheel sprocket for any visible signs of wear, damage, or deformation. Look for cracks, chips, dents, or any irregularities on the surface of both components.
Check for Misalignment: Verify that the wheel sprocket are properly aligned with each other. Misalignment can lead to accelerated wear and affect the overall performance of the system.
Measure Wear: Use calipers or a wear gauge to measure the sprocket’s tooth profile and the wheel’s rolling surface. Compare these measurements with the original specifications to determine if significant wear has occurred.
Inspect Teeth and Chain Engagement: If the wheel sprocket are part of a chain drive system, closely examine the sprocket teeth and chain engagement. Worn or elongated teeth can cause poor chain engagement and lead to premature failure.
Lubrication: Check the lubrication of the wheel sprocket. Insufficient or excessive lubrication can cause increased friction, leading to wear and reduced efficiency.
Bearing Condition: If the wheel is mounted on a shaft with bearings, inspect the bearings for any signs of wear, noise, or rough movement. Properly functioning bearings are crucial for the smooth operation of the system.
Inspect Mounting Hardware: Ensure that all nuts, bolts, and other mounting hardware are securely tightened. Loose fasteners can cause vibration and misalignment issues.
Check for Contaminants: Remove any debris, dirt, or foreign particles that may have accumulated on the wheel or sprocket. Contaminants can accelerate wear and damage the components.
Replacement or Maintenance: Based on the inspection results, determine if any parts need replacement or if maintenance is required. Address any issues promptly to prevent further damage and maintain the system’s performance.
Regularly scheduled inspections and maintenance can help prolong the lifespan of the wheel sprocket assembly, optimize performance, and ensure the safety of the mechanical system.
Types of Sprockets Used with Wheels
In mechanical systems, sprockets are toothed wheels that mesh with a chain or a belt to transmit rotational motion and power. There are several types of sprockets used with wheels, each designed for specific applications:
1. Roller Chain Sprockets:
These are the most common type of sprockets used with wheels and are designed to work with roller chains. Roller chain sprockets have teeth that match the profile of the chain’s rollers, ensuring smooth engagement and reducing wear on both the sprocket and the chain. They are widely used in bicycles, motorcycles, and industrial machinery.
2. Silent Chain Sprockets:
Also known as inverted-tooth chain sprockets, these sprockets are designed to work with silent chains. Silent chains are toothed chains that run quietly and smoothly, making them ideal for applications where noise reduction is essential, such as timing drives in engines and automotive systems.
3. Timing Belt Sprockets:
Timing belt sprockets are used with timing belts to ensure precise synchronization between the crankshaft and camshaft in internal combustion engines. They have specially designed teeth that fit the profile of the timing belt, allowing for accurate timing and smooth motion.
4. Idler Sprockets:
Idler sprockets are used to guide and tension chains or belts in a system. They do not transmit power themselves but play a crucial role in maintaining proper tension and alignment, which is essential for efficient power transmission and to prevent chain or belt slack.
5. Weld-On Sprockets:
Weld-on sprockets are designed to be welded directly onto a wheel hub or shaft, providing a secure and permanent attachment. They are commonly used in industrial machinery and equipment.
6. Double-Single Sprockets:
Double-single sprockets, also known as duplex sprockets, have two sets of teeth on one sprocket body. They are used when two separate chains need to be driven at the same speed and with the same sprocket ratio, often found in heavy-duty applications and conveyor systems.
7. Taper-Lock Sprockets:
Taper-lock sprockets are designed with a taper and keyway to provide a secure and easy-to-install connection to the shaft. They are widely used in power transmission systems, where sprocket positioning and removal are frequent.
Each type of sprocket is selected based on the specific application’s requirements, chain or belt type, and the desired performance characteristics. Proper selection and maintenance of sprockets are essential for ensuring efficient power transmission and extending the life of the entire system.
America, Kana, Europe, ANSI Standard or Made to Order Sprockets for Roller Chain and Conveyor Chain
Product Description
1. Produce strictly in accordance with standard dimension 2. Material: 1045 Steel / Alloy Steel / Stainless Steel 304 & 316 3. Standard: ANSI, DIN, JINS, ISO, KANA,Standard America or customer’s drawing 4. Pilot bore, finished bore, taper bore and special bore. 5. Bright surface / high precision / Blacking /Electrophoretic-Coated 6. Advanced heat treatment and surface treatment craft 7. Best quality and competitive price. 8. Welcome OEM / ODM 9. Processing Equipment: Hobbing machine, Slotting machine, CNC lathes and other equipment. 10. Sprocket Models: Contains special sprocket according to customer’s drawings, standard sprocket (American standard and metric).
Detailed Photos
View more products,please click here…
Company Profile
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
Standard Or Nonstandard:
Standard
Application:
Machinery, Agricultural Machinery, Industry
Hardness:
Hardness
40:
1/2"
50:
5/8"
60:
3/4"
Samples:
US$ 0/Piece 1 Piece(Min.Order)
|
Request Sample
Customization:
Available
|
Customized Request
What are the Maintenance Requirements for a wheel sprocket Assembly?
Proper maintenance of the wheel sprocket assembly is essential to ensure its optimal performance and longevity. Here are some maintenance tips:
Regular Cleaning: Keep the wheel sprocket assembly clean from dirt, debris, and grime. Regularly wipe down the sprockets and chain to prevent buildup, which can lead to accelerated wear.
Lubrication: Apply a suitable lubricant to the chain and sprockets to reduce friction and wear. Lubrication also helps in maintaining smooth operation and preventing corrosion. However, avoid over-lubrication, as excessive grease can attract more dirt.
Chain Tension: Check the tension of the chain regularly. A loose chain can result in slippage and damage to the sprockets, while an overly tight chain can increase wear and strain on the components. Adjust the chain tension as per the manufacturer’s guidelines.
Inspection: Periodically inspect the sprockets and chain for signs of wear, damage, or elongation. Replace any worn-out or damaged components promptly to avoid further issues.
Alignment: Ensure proper alignment of the sprockets and wheels. Misalignment can lead to uneven wear and reduced efficiency. Adjust the alignment as needed to maintain smooth power transmission.
Replace Worn Parts: Over time, sprockets and chains will wear out due to regular use. Replace worn sprockets or chains with new ones from reputable suppliers to maintain optimal performance.
Environmental Considerations: In certain applications, exposure to harsh environments or extreme temperatures may require more frequent maintenance and inspection.
By following these maintenance practices, you can extend the lifespan of the wheel sprocket assembly and ensure reliable operation in various applications.
Choosing the Right Material for a Sprocket to Ensure Longevity
Choosing the right material for a sprocket is crucial to ensure its longevity and reliable performance in a given application. The material selection depends on various factors such as load, speed, operating environment, and budget. Here are some common materials used for sprockets and their considerations:
Steel: Steel sprockets are widely used in a wide range of applications due to their excellent strength, durability, and wear resistance. They are suitable for heavy-duty and high-speed operations. Different grades of steel, such as carbon steel or alloy steel, offer varying levels of hardness and strength.
Stainless Steel: Stainless steel sprockets are preferred when corrosion resistance is essential, making them suitable for applications where the sprocket is exposed to moisture, chemicals, or outdoor elements. They are commonly used in food processing, pharmaceutical, and marine industries.
Cast Iron: Cast iron sprockets offer good wear resistance and are often used in low to medium-speed applications. They are cost-effective and provide excellent performance in less demanding conditions.
Plastics: Plastic sprockets are lightweight and corrosion-resistant. They are commonly used in applications where low noise, self-lubrication, and resistance to chemicals or moisture are required. However, they have limited load-carrying capacity and may not be suitable for heavy-duty applications.
Aluminum: Aluminum sprockets are lightweight and commonly used in applications where weight reduction is critical, such as aerospace and certain machinery. However, they are not as durable as steel sprockets and are not suitable for high loads or harsh environments.
When choosing the right material for a sprocket, consider the following:
Load Capacity: Select a material that can handle the expected loads in the application without deforming or wearing excessively.
Speed: Higher speeds may require materials with better heat dissipation and wear resistance.
Environment: Consider factors such as moisture, chemicals, temperature, and outdoor exposure. Choose a material with suitable corrosion resistance and resilience to environmental conditions.
Maintenance: Some materials may require more frequent maintenance or lubrication to ensure longevity.
Cost: Balance the material’s performance with the budget constraints of the project.
It’s essential to consult with sprocket manufacturers or material experts to determine the most appropriate material for your specific application. They can provide valuable insights and recommendations based on your requirements, helping to ensure the longevity and optimal performance of the sprocket in your machinery or equipment.
Working Principle of a wheel sprocket System
In a wheel sprocket system, the sprocket is a toothed wheel that meshes with a chain or a belt to transmit rotational motion and power from one component to another. The working principle can be explained in the following steps:
1. Power Input:
The system begins with a power input source, such as an electric motor or an engine, that generates rotational motion or torque.
2. Sprocket and Chain/Belt:
The power is transferred to the sprocket, which is mounted on a shaft. The sprocket has teeth that fit into the gaps of the chain or engage with the teeth of the belt.
3. Chain/Belt Movement:
As the sprocket rotates, it pulls the chain or belt along with it due to the engagement between the teeth. This movement is transmitted to the connected component, which could be another sprocket, a wheel, or any other part of the machinery.
4. Power Output:
The rotational motion or power is then delivered to the connected component, which performs a specific function depending on the application. For example, the power could be used to drive a conveyor belt, rotate the wheels of a vehicle, or operate various industrial machines.
5. Speed and Torque:
The size of the sprocket and the number of teeth, along with the size of the chain or belt, determine the speed and torque ratio between the input and output components. Changing the size of the sprocket or using different-sized sprockets in the system can alter the speed and torque characteristics of the machinery.
6. Efficiency and Maintenance:
Efficient power transmission relies on proper alignment and tension of the chain or belt with the sprocket. Regular maintenance, such as lubrication and inspection, is essential to ensure smooth operation and prevent premature wear or damage to the system.
The wheel sprocket system is widely used in various applications, including bicycles, motorcycles, industrial machinery, agricultural equipment, and more, where efficient power transmission and motion control are required.
1. Are you manufacturer or trade Company? We are a factory founded in 1997 with trade team for international service.
2. What terms of payment you usually use? T/T 30% deposit and 70% against document, Western Union, L/C at sight
3. What is your lead time for your goods? Normally 35 days after confirmed order. 30 days could be available in low season for some items (during May to July), and 45 days during new year and hot season ( Jan to March).
4. Samples For customers who need sample confirmation before ordering, please bear in mind that the following policy will be adopted: 1) All samples are free of charge with the maximum value not exceeding USD 100. 2) The courier cost for the first-time sample sending will be charged for by the consignee. We will send the samples with freight to be collected. So please inform your account with FedEx, UPS, DHL or TNT so that we can proceed promptly. 3) The first-time courier cost will be totally deducted from the contract value of the trial cooperation. 4) OEM/ODM are both available.
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
Usage:
Transmission Chain, Drag Chain, Conveyor Chain, Dedicated Special Chain
Material:
Stainless steel
Surface Treatment:
Polishing
Feature:
Heat Resistant
Chain Size:
1/2"*11/128"
Structure:
Roller Chain
Samples:
US$ 1/Meter 1 Meter(Min.Order)
|
Request Sample
Customization:
Available
|
Customized Request
Can a drive chain be used in a chemical or petrochemical processing application?
Yes, a drive chain can be used in chemical or petrochemical processing applications where reliable power transmission is required. Here is a detailed explanation:
Chemical and petrochemical processing industries involve the handling, mixing, and processing of various substances, including corrosive chemicals, solvents, and hydrocarbons. Drive chains offer several advantages in these applications:
Corrosion Resistance: Drive chains can be selected or specially designed with materials that offer corrosion resistance. Stainless steel, high-performance alloys, or coatings can be applied to the chain components to withstand the corrosive effects of chemicals and maintain chain integrity and performance.
High Load Capacity: Chemical and petrochemical processing often involves heavy-duty operations and the movement of large loads. Drive chains are designed to handle high load capacities, providing reliable power transmission and withstanding the demanding conditions of these applications.
Precise Control: Drive chains provide precise control over the movement of equipment and processes in chemical and petrochemical plants. The interlocking design of the chain and sprockets allows for accurate positioning, speed control, and synchronization of various components and machinery.
Wide Operating Temperature Range: Drive chains can be engineered to operate in a wide temperature range, accommodating the temperature variations encountered in chemical and petrochemical processing. High-temperature materials or lubricants can be used to ensure optimal performance under extreme conditions.
Resistance to Harsh Environments: Chemical and petrochemical processing environments may involve exposure to extreme temperatures, humidity, dust, and other harsh conditions. Drive chains are designed to withstand these environments, with features such as seals, specialized coatings, or materials that offer protection against contaminants and maintain reliable operation.
Long Service Life: Drive chains, when properly selected, installed, and maintained, can provide long service life in chemical and petrochemical processing applications. Regular inspection, lubrication, and tension adjustment help optimize chain performance and minimize downtime due to chain failure.
When selecting a drive chain for chemical or petrochemical processing applications, factors such as corrosion resistance, load capacity, temperature range, speed requirements, and compatibility with industry regulations should be considered.
It is important to implement proper maintenance practices, including regular inspection, lubrication, and tension adjustment, to ensure the optimal performance and longevity of the drive chain in chemical and petrochemical processing applications.
By utilizing drive chains in chemical and petrochemical processing, operators can benefit from corrosion resistance, high load capacity, precise control, wide temperature range, resistance to harsh environments, long service life, and reliable power transmission, contributing to efficient and safe processing operations.
Can a drive chain be used in a food processing or packaging application?
Yes, a drive chain can be used in food processing and packaging applications, provided that certain considerations are taken into account. Here is a detailed explanation:
In food processing and packaging applications, where hygiene, cleanliness, and compliance with food safety regulations are crucial, drive chains offer several benefits:
Reliable Power Transmission: Drive chains provide efficient and reliable power transmission, making them suitable for various applications in food processing and packaging machinery, such as conveyors, mixers, filling machines, and labeling equipment.
Corrosion Resistance: To ensure compliance with hygiene standards, it is essential to select drive chains made from materials that are resistant to corrosion, such as stainless steel or food-grade plastic. These materials can withstand frequent cleaning, exposure to water, and the corrosive effects of certain food products or cleaning agents.
Easy Cleaning and Maintenance: Drive chains designed for food applications often feature smooth surfaces and easy-to-clean designs, minimizing the risk of food buildup or contamination. They can be cleaned using standard cleaning methods and equipment, allowing for efficient sanitation and reducing the chances of foodborne contamination.
Compliance with Food Safety Regulations: When using drive chains in food processing or packaging applications, it is essential to ensure compliance with food safety regulations, such as FDA (Food and Drug Administration) guidelines or other relevant standards specific to the industry or region. This includes selecting materials that are approved for food contact and implementing proper cleaning and maintenance procedures.
Product Handling: Drive chains can handle various types of food products, including dry goods, packaged items, or even delicate food items, depending on the specific chain design and application requirements. Specialized chains with attachments or gripper systems can be used to securely transport and manipulate food products during processing or packaging.
It is important to work with reputable chain manufacturers or suppliers who offer drive chains specifically designed for food processing and packaging applications. They can provide guidance on chain selection, material compatibility, compliance with food safety regulations, and maintenance practices.
By considering these factors and implementing proper chain selection, installation, cleaning, and maintenance procedures, drive chains can be safely and effectively utilized in food processing and packaging applications while ensuring product quality, hygiene, and compliance with food safety standards.
America, Kana, Europe, ANSI Standard or Made to Order Sprockets for Roller Chain and Conveyor Chain
Product Description
1. Produce strictly in accordance with standard dimension 2. Material: 1045 Steel / Alloy Steel / Stainless Steel 304 & 316 3. Standard: ANSI, DIN, JINS, ISO, KANA,Standard America or customer’s drawing 4. Pilot bore, finished bore, taper bore and special bore. 5. Bright surface / high precision / Blacking /Electrophoretic-Coated 6. Advanced heat treatment and surface treatment craft 7. Best quality and competitive price. 8. Welcome OEM / ODM 9. Processing Equipment: Hobbing machine, Slotting machine, CNC lathes and other equipment. 10. Sprocket Models: Contains special sprocket according to customer’s drawings, standard sprocket (American standard and metric).
Detailed Photos
View more products,please click here…
Company Profile
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
Standard Or Nonstandard:
Standard
Application:
Machinery, Agricultural Machinery, Industry
Hardness:
Hardness
40:
1/2"
50:
5/8"
60:
3/4"
Samples:
US$ 0/Piece 1 Piece(Min.Order)
|
Request Sample
Customization:
Available
|
Customized Request
Ensuring Proper Alignment between a Wheel and its Corresponding Sprocket
Proper alignment between a wheel and its corresponding sprocket is crucial for the smooth and efficient operation of the wheel sprocket system. Misalignment can lead to increased wear, noise, and reduced performance. Here are some steps to ensure proper alignment:
Use Precision Components: Ensure that both the wheel sprocket are high-quality, precision-manufactured components that meet the required specifications. Using well-machined components will aid in achieving better alignment.
Check Axle Alignment: Make sure the axle or shaft on which the wheel sprocket are mounted is straight and properly aligned. Any misalignment in the axle can lead to misalignment of the wheel sprocket.
Proper Mounting: Ensure that the wheel sprocket are securely and correctly mounted on the axle or shaft. Use appropriate fasteners and tightening techniques to prevent any movement or shifting during operation.
Check for Parallelism: The axes of the wheel sprocket should be parallel to each other. Measure the distance between the axes at multiple points to verify parallel alignment.
Use Alignment Tools: Alignment tools, such as laser alignment systems, can be employed to accurately align the wheel sprocket. These tools can help identify and correct misalignments effectively.
Check Tension and Tensioner Alignment: If a tensioner is used in the system, ensure that it is properly aligned and applying the right tension to the chain or belt. Incorrect tension can cause misalignment.
Regular Maintenance: Implement a regular maintenance schedule to check and adjust alignment as needed. Regular inspections can help identify and address alignment issues before they cause significant problems.
Monitor Performance: Keep an eye on the performance of the wheel sprocket system. Unusual noises, vibrations, or signs of wear can indicate misalignment and should be investigated promptly.
Proper alignment is essential for the long-term performance and reliability of the wheel sprocket system. By following these steps and conducting regular maintenance, you can ensure that the wheel sprocket work together harmoniously, providing efficient power transmission and minimizing wear and tear.
Special Considerations for Using a wheel sprocket System in Off-Road Vehicles
Off-road vehicles operate in rugged and challenging environments, which can put additional stress on the wheel sprocket system. Here are some special considerations to keep in mind when using a wheel sprocket system in off-road vehicles:
Material Selection: Choose high-quality materials for the wheel sprocket that can withstand rough terrains, impacts, and exposure to elements. Materials like hardened steel or alloys with good impact resistance are commonly used.
Sealing and Protection: Ensure that the wheel bearings and sprocket teeth are adequately sealed to prevent dirt, mud, water, and other debris from entering. Proper sealing helps to maintain smooth operation and prolong the lifespan of components.
Reinforcement: Consider reinforcing the wheel sprocket assembly if the vehicle will encounter heavy loads or extreme conditions. Reinforcements can add strength and durability to handle challenging off-road conditions.
Lubrication: Use a high-quality lubricant suitable for off-road conditions. Frequent lubrication is crucial to reduce friction, prevent corrosion, and protect components from wear and tear.
Regular Inspection: Off-road vehicles experience higher vibrations and shocks, leading to accelerated wear. Perform regular inspections to detect any signs of damage, misalignment, or wear. Address issues promptly to avoid further problems.
Shock Absorption: Consider incorporating shock-absorbing features or suspension systems to mitigate the impact on the wheel sprocket system during off-road driving. This helps to protect the components and improve overall vehicle performance.
Environmental Considerations: Off-road environments often expose the wheel sprocket system to dirt, sand, water, and other harsh elements. Choose coatings or treatments that offer corrosion resistance to protect against environmental damage.
Weight Consideration: Off-road vehicles may need to be lightweight to navigate difficult terrains effectively. Ensure the wheel sprocket components strike a balance between durability and weight to optimize vehicle performance.
Service and Maintenance: Establish a regular maintenance schedule and perform necessary servicing after each off-road trip. Cleaning, inspection, and replacement of worn parts are vital to ensure the system’s reliability.
By taking these special considerations into account, the wheel sprocket system in off-road vehicles can withstand the demands of rough terrains and provide reliable performance in challenging environments.
Working Principle of a wheel sprocket System
In a wheel sprocket system, the sprocket is a toothed wheel that meshes with a chain or a belt to transmit rotational motion and power from one component to another. The working principle can be explained in the following steps:
1. Power Input:
The system begins with a power input source, such as an electric motor or an engine, that generates rotational motion or torque.
2. Sprocket and Chain/Belt:
The power is transferred to the sprocket, which is mounted on a shaft. The sprocket has teeth that fit into the gaps of the chain or engage with the teeth of the belt.
3. Chain/Belt Movement:
As the sprocket rotates, it pulls the chain or belt along with it due to the engagement between the teeth. This movement is transmitted to the connected component, which could be another sprocket, a wheel, or any other part of the machinery.
4. Power Output:
The rotational motion or power is then delivered to the connected component, which performs a specific function depending on the application. For example, the power could be used to drive a conveyor belt, rotate the wheels of a vehicle, or operate various industrial machines.
5. Speed and Torque:
The size of the sprocket and the number of teeth, along with the size of the chain or belt, determine the speed and torque ratio between the input and output components. Changing the size of the sprocket or using different-sized sprockets in the system can alter the speed and torque characteristics of the machinery.
6. Efficiency and Maintenance:
Efficient power transmission relies on proper alignment and tension of the chain or belt with the sprocket. Regular maintenance, such as lubrication and inspection, is essential to ensure smooth operation and prevent premature wear or damage to the system.
The wheel sprocket system is widely used in various applications, including bicycles, motorcycles, industrial machinery, agricultural equipment, and more, where efficient power transmission and motion control are required.
1. Are you manufacturer or trade Company? We are a factory founded in 1997 with trade team for international service.
2. What terms of payment you usually use? T/T 30% deposit and 70% against document, Western Union, L/C at sight
3. What is your lead time for your goods? Normally 35 days after confirmed order. 30 days could be available in low season for some items (during May to July), and 45 days during new year and hot season ( Jan to March).
4. Samples For customers who need sample confirmation before ordering, please bear in mind that the following policy will be adopted: 1) All samples are free of charge with the maximum value not exceeding USD 100. 2) The courier cost for the first-time sample sending will be charged for by the consignee. We will send the samples with freight to be collected. So please inform your account with FedEx, UPS, DHL or TNT so that we can proceed promptly. 3) The first-time courier cost will be totally deducted from the contract value of the trial cooperation. 4) OEM/ODM are both available.
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
Usage:
Transmission Chain, Drag Chain, Conveyor Chain, Dedicated Special Chain
Material:
Stainless steel
Surface Treatment:
Polishing
Feature:
Heat Resistant
Chain Size:
1/2"*11/128"
Structure:
Roller Chain
Samples:
US$ 1/Meter 1 Meter(Min.Order)
|
Request Sample
Customization:
Available
|
Customized Request
Can a drive chain be used in a HVAC or ventilation system?
Yes, a drive chain can be used in HVAC (Heating, Ventilation, and Air Conditioning) or ventilation systems where reliable and efficient power transmission is required. Here is a detailed explanation:
HVAC and ventilation systems utilize various components such as fans, blowers, dampers, and louvers to control air flow, temperature, and humidity in residential, commercial, and industrial buildings. Drive chains offer several advantages in these applications:
Reliable Power Transmission: Drive chains provide reliable power transmission for HVAC and ventilation systems. They are capable of transmitting power over long distances, accommodating various speeds and torque requirements, and operating in different directions of rotation.
Flexible System Design: Drive chains offer flexibility in system design and layout. They can be easily configured to connect and drive multiple components, such as fans, motors, and dampers, allowing for efficient control and adjustment of air flow and system performance.
Accurate Speed Control: Drive chains allow for precise speed control in HVAC systems. By using sprockets of different sizes or incorporating variable speed drives, the rotational speed of fans or blowers can be adjusted to achieve the desired air flow rates and maintain optimal environmental conditions.
High Load Capacity: HVAC and ventilation systems often require components to handle significant air volumes and pressure differentials. Drive chains are designed to handle high loads and transmit power effectively, ensuring reliable operation of fans, blowers, and other equipment.
Durability and Longevity: Drive chains are engineered to withstand the demanding conditions of HVAC and ventilation systems. They are designed to resist wear, corrosion, and fatigue, ensuring durability and long service life even in continuous or high-cycle operations.
Quiet Operation: Drive chains, when properly lubricated and maintained, can operate quietly in HVAC systems, minimizing noise and vibration levels. This is crucial for maintaining a comfortable and noise-free environment in residential, commercial, or institutional settings.
When selecting a drive chain for HVAC or ventilation applications, factors such as load capacity, speed requirements, environmental conditions (such as temperature and humidity), and maintenance considerations should be taken into account.
Regular inspection, lubrication, and tension adjustment are important for ensuring the optimal performance and longevity of the drive chain in HVAC and ventilation systems.
By utilizing drive chains in HVAC and ventilation systems, operators can benefit from reliable power transmission, flexible system design, accurate speed control, high load capacity, durability, longevity, and quiet operation, contributing to efficient and effective air conditioning and ventilation in various building environments.
Can a drive chain be used in a robotics or automation application?
Yes, drive chains can be used in robotics or automation applications as a reliable and efficient method of power transmission. Here is a detailed explanation:
In robotics and automation, where precise and controlled movement is essential, drive chains offer several advantages:
Precision and Accuracy: Drive chains can provide accurate and repeatable positioning, making them suitable for applications that require precise movement and control.
High Torque Transfer: Drive chains are capable of handling high torque loads, allowing them to transmit power effectively in robotic and automation systems.
Efficient Power Transmission: Drive chains offer high efficiency in power transmission, minimizing energy loss during transfer and ensuring that the maximum amount of power is delivered to the intended components.
Flexibility and Customization: Drive chains provide flexibility in terms of design and customization. They can be adapted to various robotic and automation applications, accommodating different load requirements, configurations, and space constraints.
Compact Design: Drive chains have a compact design, which is beneficial in applications where space is limited. They can transmit power in tight or confined areas without compromising performance.
Reliability and Durability: Drive chains are known for their durability and ability to withstand demanding operating conditions. They are designed to endure continuous operation, shock loads, and varying environmental factors.
It’s important to select the appropriate drive chain type, size, and material for the specific robotics or automation application. Additionally, regular maintenance, including inspection, lubrication, and tension adjustment, is crucial to ensure optimal performance and longevity of the drive chain in these applications.
Can a drive chain be used in environments with high temperatures?
Yes, a drive chain can be used in environments with high temperatures, but there are certain considerations to keep in mind. Here’s an explanation:
Drive chains can operate in high-temperature environments, but the selection of the appropriate chain and proper maintenance practices are crucial for ensuring their performance and longevity:
1. Heat-Resistant Materials: When operating in high-temperature environments, it is important to choose a drive chain made from heat-resistant materials. High-grade steel alloys or specialized heat-resistant materials may be used to ensure the chain can withstand the elevated temperatures without significant degradation.
2. Lubrication: Proper lubrication is essential to reduce friction and wear, particularly in high-temperature environments. It is crucial to select lubricants specifically designed for high-temperature applications that can withstand the heat without breaking down or evaporating too quickly. Regular lubrication and inspection are necessary to maintain the lubricant’s effectiveness.
3. Heat Dissipation: Ensuring proper heat dissipation is important to prevent overheating of the chain. Adequate ventilation or cooling measures should be implemented, if necessary, to keep the chain operating within a safe temperature range.
4. Maintenance: Regular inspection and maintenance are crucial in high-temperature environments. Periodic checks for signs of wear, elongation, or damage should be performed. Proper tension adjustment and alignment should be maintained to prevent excessive stress and wear on the chain.
5. Operating Conditions: Consider other factors associated with high-temperature environments, such as exposure to chemicals, contaminants, or extreme temperature fluctuations. These factors may affect the chain’s performance and longevity, and additional measures may be required to ensure optimal operation.
It is important to consult the manufacturer’s guidelines and specifications to ensure that the selected drive chain is suitable for the specific high-temperature environment. By selecting the appropriate chain and implementing proper maintenance practices, a drive chain can effectively operate in high-temperature environments while maintaining performance and durability.
Finished bore sprockets:With the inner hole ,keyway and screw
1.Fast delivery: Standard products can be delivered in as fast as 20 days 2.Good service: timely reply, prompt quotation, responsible for the product 3.High cost performance: can maintain price stability for a certain period of time, bringing greater profits to customers 4.Good quality: production and testing have corresponding supervision to ensure product quality and get high praise from customers 5.OEM service: products can be customized according to drawings and requirements
We are responsible for the ordered products. We are very confident in the products we produce. Of course, if you have any problems after receiving the goods, you can contact us directly. We will confirm and negotiate in time to solve your difficulties.
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
Ensuring Proper Alignment between a Wheel and its Corresponding Sprocket
Proper alignment between a wheel and its corresponding sprocket is crucial for the smooth and efficient operation of the wheel sprocket system. Misalignment can lead to increased wear, noise, and reduced performance. Here are some steps to ensure proper alignment:
Use Precision Components: Ensure that both the wheel sprocket are high-quality, precision-manufactured components that meet the required specifications. Using well-machined components will aid in achieving better alignment.
Check Axle Alignment: Make sure the axle or shaft on which the wheel sprocket are mounted is straight and properly aligned. Any misalignment in the axle can lead to misalignment of the wheel sprocket.
Proper Mounting: Ensure that the wheel sprocket are securely and correctly mounted on the axle or shaft. Use appropriate fasteners and tightening techniques to prevent any movement or shifting during operation.
Check for Parallelism: The axes of the wheel sprocket should be parallel to each other. Measure the distance between the axes at multiple points to verify parallel alignment.
Use Alignment Tools: Alignment tools, such as laser alignment systems, can be employed to accurately align the wheel sprocket. These tools can help identify and correct misalignments effectively.
Check Tension and Tensioner Alignment: If a tensioner is used in the system, ensure that it is properly aligned and applying the right tension to the chain or belt. Incorrect tension can cause misalignment.
Regular Maintenance: Implement a regular maintenance schedule to check and adjust alignment as needed. Regular inspections can help identify and address alignment issues before they cause significant problems.
Monitor Performance: Keep an eye on the performance of the wheel sprocket system. Unusual noises, vibrations, or signs of wear can indicate misalignment and should be investigated promptly.
Proper alignment is essential for the long-term performance and reliability of the wheel sprocket system. By following these steps and conducting regular maintenance, you can ensure that the wheel sprocket work together harmoniously, providing efficient power transmission and minimizing wear and tear.
Temperature Limits for wheel sprocket System’s Operation
The temperature limits for a wheel sprocket system’s operation depend on the materials used in the construction of the components. Different materials have varying temperature tolerances, and exceeding these limits can lead to reduced performance, premature wear, and even system failure.
Here are some common materials used in wheel sprocket systems and their general temperature limits:
Steel: Steel sprockets and wheels, which are widely used in many applications, typically have a temperature limit ranging from -40°C to 500°C (-40°F to 932°F). However, the specific temperature range may vary based on the grade of steel and any coatings or treatments applied.
Stainless Steel: Stainless steel sprockets and wheels offer improved corrosion resistance and can withstand higher temperatures than regular steel. Their temperature limit is typically between -100°C to 600°C (-148°F to 1112°F).
Plastics: Plastic sprockets and wheels are commonly used in low-load and low-speed applications. The temperature limit for plastic components varies widely depending on the type of plastic used. In general, it can range from -40°C to 150°C (-40°F to 302°F).
Aluminum: Aluminum sprockets and wheels have a temperature limit of approximately -40°C to 250°C (-40°F to 482°F). They are often used in applications where weight reduction is critical.
It’s essential to consult the manufacturer’s specifications and material data sheets for the specific components used in the wheel sprocket system to determine their temperature limits accurately. Factors such as load, speed, and environmental conditions can also influence the actual temperature tolerance of the system.
When operating a wheel sprocket system near its temperature limits, regular monitoring and maintenance are necessary to ensure the components’ integrity and overall system performance. If the application involves extreme temperatures beyond the typical limits of the materials, specialized high-temperature materials or cooling measures may be required to maintain reliable operation.
Calculating Gear Ratio for a wheel sprocket Setup
In a wheel sprocket system, the gear ratio represents the relationship between the number of teeth on the sprocket and the number of teeth on the wheel. The gear ratio determines the speed and torque relationship between the two components. To calculate the gear ratio, use the following formula:
Gear Ratio = Number of Teeth on Sprocket ÷ Number of Teeth on Wheel
For example, if the sprocket has 20 teeth and the wheel has 60 teeth, the gear ratio would be:
Gear Ratio = 20 ÷ 60 = 1/3
The gear ratio can also be expressed as a decimal or percentage. In the above example, the gear ratio can be expressed as 0.3333 or 33.33%.
It’s important to note that the gear ratio affects the rotational speed and torque of the wheel sprocket. A gear ratio greater than 1 indicates that the sprocket’s speed is higher than the wheel’s speed, resulting in increased rotational speed and reduced torque at the wheel. Conversely, a gear ratio less than 1 indicates that the sprocket’s speed is lower than the wheel’s speed, resulting in decreased rotational speed and increased torque at the wheel.
The gear ratio is crucial in various applications where precise control of speed and torque is required, such as bicycles, automobiles, and industrial machinery.
06C/08A/10A/12A/16A/20A/24A/28A/32A/40A/06B/08B/10B/12B/16B/20B/24B/28B/32B/40B-1/2/3 Heavy duty
Chain Model
Roller Chains
Structure (for Chain)
Roller Chain
Specification
GB/T, DIN, ANSI, ISO, BS, JIS.
Origin
HangZhou, ZheJiang
Color
Solid Color
Chain Color
Customized
Our company
Wolff Chain Co. is 1 of the professional chain manufacturers in China. We focus on reseaching, manufacturing and trading of the chain drive with famous brands — “DOVON” and “DECHO”. We supply OEM services for many famous enterprises such as SUZUKI, XIHU (WEST LAKE) DIS., FAW, AGCO, JUMING as well.
Wolff mainly producing the Transmission chains,Conveyor chains,Dragging Chains,Silent chains,Leaf chains,Roller chains,Special chain and many other series of chain products. Our technicians a have improved the chains quality to the world-level. High quality material selection, powerful and precise heat-treatment technology and excellent assembly methods ensure Wolff chains meet the tough and strict requirements for machines and vehicles.
All of our products completely conform to the international standard such as ISO\DIN\ANSI\BS\JIS, etc. Wolff has been successfully certified by ISO9001 Quality Management System,SGS inspection and BV inspection. Wolff chains can be widely applied to many industries including automobile, motorcycle, forklift, wood processing machine, constructure machine, packing machine, food machine,tobacco machine and agricultural equipments. Wolff chains are popular in America,South America,Europe,Middle East, South East Asia and Africa markets.
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FAQ
Q1. What is your terms of packing? A: Generally, we pack our goods in single color box. If you have special request about packing, pls negotiate with us in advance, we can pack the goods as your request.
Q2. What is your terms of payment? A: T/T 30% as deposit, and 70% before delivery. We’ll show you the photos of the products and packages before you pay the balance. Other payments terms, pls negotiate with us in advance, we can discuss.
Q3. What is your terms of delivery? A: EXW, FOB, CFR, CIF.
Q4. How about your delivery time? A: Generally, it will take 25 to 30 days after receiving your advance payment. The specific delivery time depends on the items and the quantity of your order.
Q5. Can you produce according to the samples? A: Yes, we can produce by your samples or technical drawings. We can build the molds and fixtures.
Q6. What is your sample policy? A: We can supply the sample if we have ready parts in stock, but the customers have to pay the sample cost and the courier cost.We welcome sample order.
Q7. Do you test all your goods before delivery? A: Yes, we have 100% test before delivery
Q8: How do you make our business long-term and good relationship? 1. We keep good quality and competitive price to ensure our customers benefit ; 2. We respect every customer as our friend and we sincerely do business and make friends with them,
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How does the choice of chain coating impact the performance of a transmission chain?
The choice of chain coating can significantly influence the performance and durability of a transmission chain. Here’s a detailed answer to the question:
1. Corrosion Resistance: Chain coatings, such as zinc plating or polymer coatings, provide a protective layer that prevents the transmission chain from corroding when exposed to moisture, chemicals, or harsh environments. Corrosion can weaken the chain, leading to premature failure and reduced performance. A proper chain coating can extend the chain’s lifespan and maintain its functionality.
2. Wear Resistance: Some chain coatings, such as those with specialized polymers or ceramic particles, offer enhanced wear resistance. These coatings reduce the friction and abrasion between the chain and the sprockets, minimizing wear on the chain’s pins, bushings, and rollers. By reducing wear, the chain’s performance and longevity are improved, resulting in less frequent replacements and lower maintenance costs.
3. Reduced Friction and Energy Loss: Certain chain coatings are designed to reduce friction between the chain and the sprockets, resulting in smoother operation and improved energy efficiency. The reduced friction leads to lower energy loss during power transmission, which is especially beneficial in applications where energy savings are a priority.
4. Noise Reduction: Some chain coatings incorporate noise-dampening properties, which can help reduce the noise generated during chain operation. This is particularly advantageous in applications where noise reduction is essential, such as in residential or office settings, or in machinery that requires quiet operation.
5. Compatibility with Lubricants: The choice of chain coating should be compatible with the lubricants used in the application. Certain coatings have self-lubricating properties, allowing for reduced reliance on external lubrication. In contrast, other coatings may require specific lubricants to ensure optimal performance and longevity of the chain.
6. Environmental Considerations: Depending on the application, there may be specific environmental regulations or requirements to consider. Chain coatings that are environmentally friendly, such as those free of harmful substances or compliant with specific industry standards, can help meet these requirements and ensure sustainable operation.
It’s important to select the appropriate chain coating based on the specific application’s demands, including environmental conditions, load capacity, operating speed, and lubrication requirements. Consulting with experts or manufacturers can help determine the most suitable chain coating for optimal performance, durability, and longevity of the transmission chain.
How does the choice of material impact the performance of a transmission chain?
The choice of material for a transmission chain plays a crucial role in its overall performance and durability. Here’s a detailed answer to the question:
1. Strength and Load Capacity: Different materials have varying levels of strength and load-carrying capacities. High-strength materials like alloy steel or stainless steel offer superior strength and can withstand heavy loads. The choice of a material with adequate strength ensures that the transmission chain can handle the required load without premature wear or failure.
2. Wear Resistance: The material used in the construction of a transmission chain affects its wear resistance. Some materials, such as hardened steel or certain alloys, have excellent wear resistance properties, allowing the chain to withstand abrasive conditions and prolong its lifespan. Choosing a material with good wear resistance reduces the need for frequent chain replacements and maintenance.
3. Corrosion Resistance: In environments where corrosion is a concern, such as outdoor or corrosive industrial settings, selecting a material with high corrosion resistance is essential. Stainless steel or specially coated chains offer excellent resistance to rust and corrosion, ensuring reliable performance and longevity even in harsh conditions.
4. Fatigue Strength: The material’s fatigue strength is crucial in applications where the transmission chain undergoes repeated cyclic loading. Fatigue failure can occur when a chain is subjected to continuous stress cycles, leading to cracks and eventual failure. Materials with high fatigue strength, such as specific alloys or heat-treated steels, are ideal for applications that require excellent fatigue resistance.
5. Temperature Resistance: The operating temperature of an application can impact the choice of material for a transmission chain. Some materials, such as heat-treated steels or specialized alloys, can withstand high-temperature environments without losing their mechanical properties. In contrast, certain plastics or polymers may be suitable for low-temperature applications. Choosing a material that can withstand the expected temperature range ensures optimal performance and prevents premature chain failure.
6. Cost Considerations: The choice of material also involves cost considerations. Some high-performance materials, such as stainless steel or specialized alloys, may have a higher initial cost compared to standard carbon steel chains. However, the increased performance, longevity, and reduced maintenance requirements provided by these materials may result in long-term cost savings.
It’s important to carefully assess the specific requirements of the application, including load capacity, environmental conditions, and operating parameters, when choosing the material for a transmission chain. Consulting with industry experts or manufacturers can help determine the most suitable material for optimal chain performance and longevity.
How do roller chains differ from other types of transmission chains?
Roller chains, also known as roller link chains, are a commonly used type of transmission chain that distinguishes itself from other chains in several ways:
Design: Roller chains consist of inner and outer plates, pins, bushings, and rollers. The rollers, which are free to rotate, help reduce friction and wear, resulting in smoother and more efficient power transmission.
Wide Application: Roller chains are versatile and widely used in various industries, including automotive, industrial machinery, agricultural equipment, and conveyor systems.
High Load Capacity: Roller chains are designed to withstand high loads and offer excellent tensile strength, making them suitable for applications that require heavy-duty performance.
Efficiency: Roller chains are known for their high efficiency in transmitting power. The roller design minimizes friction, resulting in less energy loss and improved overall efficiency.
Cost-Effectiveness: Roller chains are relatively cost-effective compared to some other specialized transmission chains, making them a popular choice in many applications.
While roller chains have their advantages, it’s important to note that different types of transmission chains may be more suitable for specific applications. Factors such as load capacity, speed, noise level, and environmental conditions should be considered when selecting the appropriate transmission chain for a particular application.
