Product Description
Scraper conveyor chain
P152F51/45/45A/45C/47/45D/45E/45F, P2000F29/29A, P101.6F20, RO6205MF3, MR56, MR80, MR224, MR315, FVR40/63/90/112
Forged chain , trolleys,carriers used on overhead conveyor production line.
Main products are Forge chain and trolley, welded link chain, Standard and non-standard stainless steel and carbon steel roller chain, Leaf chain, standard and non-standard conveyor chain, Scraper conveyor chain, Cranked link chain, double plus chain, double pitch transmission chain, plastic chain, sprockets and Other accessories.
Main products are Forge chain and trolley, welded link chain, Standard and non-standard stainless steel and carbon steel roller chain, Leaf chain, standard and non-standard conveyor chain, Scraper conveyor chain, Cranked link chain, double plus chain, double pitch transmission chain, plastic chain, sprockets and Other accessories.
The products can be combined to find the best possible solution for even the most demanding applications. Special solutions can also be developed for customers’ individual requirements.
Drop Forged Rivetless Chain, Drop Forged Chains, drop forged link,forged scraper chains.
1.Scraper chains P142,P142V,P142H,P200,P102,P250,P260
2.Detachable chain 51,52,55,57,62,74,78
3.Relevant overhead trolley&carriages&spare parts
4.as per your drawings or samples
| Drop forged detachable chains | X348,X458,X678,X698,F100,F160,P80,P100,P200 |
| CatterPilar Chains for | X348,X458,X678,X698 |
/* 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: | Conveyor System |
|---|---|
| Type: | Conveyor |
| Surface: | Self Colored, Zinc Plated,Blacken |
| Process: | Forging |
| Transport Package: | Plywood Case. |
| Specification: | ISO |
| Customization: |
Available
| Customized Request |
|---|
Can a conveyor chain be used in high-load applications?
Yes, a conveyor chain can be used in high-load applications. Conveyor chains are designed to withstand heavy loads and provide reliable and efficient material handling in various industries. Here’s a detailed explanation:
– Robust Construction:
A conveyor chain for high-load applications is typically constructed using durable materials such as alloy steel or stainless steel. These chains are designed to withstand the forces and stresses imposed by heavy loads without deformation or failure.
– High Load Capacity:
Conveyor chains for high-load applications are designed with larger and stronger components, including thicker plates, larger pins, and stronger attachments. These enhancements allow the chain to handle heavier loads and distribute the weight evenly across the chain’s links and rollers.
– Proper Selection:
When using a conveyor chain in high-load applications, it is crucial to select the appropriate chain type and size based on the specific load requirements. Factors such as the weight of the conveyed material, the conveyor speed, and the operating conditions should be considered during the selection process.
– Lubrication and Maintenance:
In high-load applications, proper lubrication and regular maintenance of the conveyor chain are essential. Adequate lubrication reduces friction and wear, ensuring smooth operation and extending the chain’s service life. Regular inspections and maintenance routines help identify any issues or wear that may affect the chain’s performance.
– Application-Specific Chains:
In some cases, specialized conveyor chains, such as forged link chains or roller chains, are used to handle extremely heavy loads. These chains offer enhanced strength and durability, making them suitable for demanding high-load applications.
Overall, a properly selected and maintained conveyor chain can reliably handle high-load applications, providing efficient and continuous material handling in industries such as mining, construction, automotive, and heavy manufacturing.
What are the best practices for storing and handling conveyor chains?
Proper storage and handling of conveyor chains are essential to maintain their performance, prevent damage, and prolong their lifespan. Here are some best practices to consider:
1. Clean and dry storage area: Store conveyor chains in a clean and dry environment to prevent the accumulation of dirt, dust, moisture, or contaminants that can affect their performance and cause corrosion.
2. Adequate support: Ensure that the stored conveyor chains are properly supported to prevent excessive bending or deformation. Use pallets, racks, or designated storage containers that can accommodate the weight and length of the chains.
3. Avoid excessive heat or cold: Conveyor chains should be stored in an area with a moderate temperature range to avoid extreme heat or cold that can affect the material properties or lubrication of the chains.
4. Protection against impacts and vibrations: Protect the stored chains from impacts or excessive vibrations that can cause damage or deformation. Use suitable packaging or covers to shield the chains from any potential physical damage.
5. Lubrication: Apply a thin layer of appropriate lubricant to the chains before storage to prevent corrosion and maintain their smooth operation. Follow the manufacturer’s recommendations for lubrication type and quantity.
6. Regular inspections: Periodically inspect the stored conveyor chains to ensure there are no signs of damage, corrosion, or deformation. If any issues are identified, take appropriate actions such as cleaning, lubricating, or replacing the chains.
7. Proper handling techniques: When handling conveyor chains, use appropriate lifting equipment or tools to avoid excessive strain or bending. Avoid dragging or dropping the chains, as this can cause damage to the chain links or attachments.
8. Training and awareness: Provide training to personnel involved in handling and storing conveyor chains to ensure they understand the proper procedures and best practices. Promote awareness of the importance of careful handling and storage to prevent accidents and maintain chain integrity.
By following these best practices, you can ensure the longevity and reliable performance of your conveyor chains, reducing the risk of downtime and costly repairs.
Can a conveyor chain be repaired or does it need to be replaced entirely?
In general, conveyor chains can be repaired in certain cases, but there are instances where replacement is necessary. Here are some considerations:
- Minor Damage: If the conveyor chain has minor damage, such as a broken link or a damaged pin, it may be possible to repair it by replacing the damaged components.
- Significant Wear: If the chain has significant wear, such as elongation or excessive corrosion, it may be more cost-effective to replace the entire chain rather than attempting repairs.
- Critical Components: Some conveyor chains have critical components that cannot be repaired, such as welded attachments or specialized features. In such cases, replacement is usually the only option.
- Manufacturer’s Recommendations: It’s important to consult the manufacturer’s recommendations regarding chain repairability. They can provide specific guidelines on when repair is feasible and when replacement is necessary.
Before deciding whether to repair or replace a conveyor chain, it’s recommended to assess the extent of damage, consider the overall condition of the chain, and evaluate the cost-effectiveness of each option. It’s always advisable to consult with a qualified professional or the chain manufacturer to determine the best course of action.
editor by CX 2024-05-13
China best P102, P142 Forged Mining Scraper Chain with Flight for Conveyor System
Product Description
Forged Scraper conveyor chain
P152F51/45/45A/45C/47/45D/45E/45F, P2000F29/29A, P101.6F20, RO6205MF3, MR56, MR80, MR224, MR315, FVR40/63/90/112
Forged chain , trolleys,carriers used on overhead conveyor production line.
Main products are Forge chain and trolley, welded link chain, Standard and non-standard stainless steel and carbon steel roller chain, Leaf chain, standard and non-standard conveyor chain, Scraper conveyor chain, Cranked link chain, double plus chain, double pitch transmission chain, plastic chain, sprockets and Other accessories.
Main products are Forge chain and trolley, welded link chain, Standard and non-standard stainless steel and carbon steel roller chain, Leaf chain, standard and non-standard conveyor chain, Scraper conveyor chain, Cranked link chain, double plus chain, double pitch transmission chain, plastic chain, sprockets and Other accessories.
The products can be combined to find the best possible solution for even the most demanding applications. Special solutions can also be developed for customers’ individual requirements.
Drop Forged Rivetless Chain, Drop Forged Chains, drop forged link,forged scraper chains.
1.Scraper chains P142,P142V,P142H,P200,P102,P250,P260
2.Detachable chain 51,52,55,57,62,74,78
3.Relevant overhead trolley&carriages&spare parts
4.as per your drawings or samples
| Drop forged detachable chains | X348,X458,X678,X698,F100,F160,P80,P100,P200 |
| CatterPilar Chains for | X348,X458,X678,X698 |
/* 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: | Combined Chain |
| Surface Treatment: | Polishing |
| Chain Size: | 1/2"*3/32" |
| Feature: | Heat Resistant |
| Type: | Overhead Conveyor |
| Samples: |
US$ 1/Piece
1 Piece(Min.Order) | |
|---|
| Customization: |
Available
| Customized Request |
|---|
How do you calculate the required horsepower for a conveyor chain drive?
The calculation of required horsepower for a conveyor chain drive involves considering various factors related to the conveyor system and the specific application. Here is a step-by-step process:
1. Determine the Total Resistance:
– Calculate the total resistance that the conveyor chain needs to overcome during operation. This includes the resistance due to the load being conveyed, frictional losses, elevation changes, and any other resistances in the system.
2. Convert the Resistance to Equivalent Inertia:
– Convert the total resistance to an equivalent inertia by multiplying it by the square of the chain speed.
3. Calculate the Total Inertia:
– Determine the total inertia of the system by considering the inertia of all the rotating components, such as the conveyor chain, sprockets, and any other driven elements.
4. Determine the Required Torque:
– Calculate the required torque by multiplying the total inertia by the desired acceleration or deceleration rate.
5. Convert Torque to Horsepower:
– Convert the required torque to horsepower by dividing it by the motor speed (in RPM) and multiplying by a conversion factor.
6. Consider Safety Factors and Efficiency:
– Apply safety factors to the calculated horsepower to account for variations, contingencies, and future growth.
– Consider the efficiency of the drive system, including the motor, gearbox, and other transmission components, to ensure accurate power transmission.
It’s important to note that the above calculation method provides an estimate of the required horsepower. Consulting with conveyor system manufacturers, engineers, or industry-specific guidelines is recommended for precise calculations and to ensure the selected conveyor chain drive meets the application requirements.
How do you select the appropriate lubricant for a conveyor chain?
Selecting the right lubricant is crucial for maintaining the performance and longevity of a conveyor chain. Here are the key factors to consider when choosing a lubricant:
1. Chain Type and Material: Different conveyor chains may have specific requirements for lubrication based on their construction materials and design. Consult the manufacturer’s recommendations or specifications to determine the lubricant compatibility.
2. Operating Conditions: Consider the operating environment, such as temperature, humidity, and presence of contaminants. For high-temperature applications, choose a lubricant with a higher temperature tolerance. In wet or dusty environments, opt for lubricants that offer excellent resistance to water washout and provide effective protection against contaminants.
3. Load and Speed: Evaluate the load capacity and speed of the conveyor chain. Higher loads and speeds may require lubricants with better film strength and anti-wear properties to reduce friction and prevent premature wear.
4. Lubrication Method: Determine the lubrication method that will be used for the conveyor chain. Lubricants can be applied through drip systems, brushes, spray nozzles, or automatic lubrication systems. Consider the viscosity and consistency of the lubricant to ensure proper application and distribution.
5. Food-Grade Requirements: In food processing or pharmaceutical applications, where direct contact with the product may occur, it’s essential to use food-grade lubricants that meet industry regulations and requirements for safety and hygiene.
6. Maintenance Schedule: Consider the desired maintenance intervals and the lubricant’s longevity. Some lubricants may require more frequent reapplication, while others provide longer-lasting lubrication.
7. Compatibility with Other Materials: Take into account the compatibility of the lubricant with other materials in the conveyor system, such as seals, gaskets, and paints. Ensure that the lubricant does not cause any adverse effects on these components.
It is recommended to consult with lubricant manufacturers or industry experts to select the most suitable lubricant for your specific conveyor chain application. They can provide guidance based on their expertise and knowledge of lubricant formulations and performance characteristics.
How do you optimize the efficiency of a conveyor chain system?
To optimize the efficiency of a conveyor chain system, several factors should be considered and implemented:
1. System Design: Ensure that the conveyor system is properly designed to minimize energy losses, reduce friction, and optimize material flow. Consider factors such as conveyor length, incline/decline angles, and the number and placement of drive units to achieve efficient operation.
2. Chain Selection: Select the appropriate conveyor chain based on the specific application requirements, such as load capacity, speed, and environmental conditions. Consider factors like chain material, pitch, and strength to ensure optimal performance and longevity.
3. Lubrication: Proper lubrication of the conveyor chain is essential for reducing friction, wear, and power consumption. Choose the right lubricant for the application and regularly maintain the lubrication levels to ensure smooth chain operation.
4. Tensioning and Alignment: Regularly inspect and adjust the tension and alignment of the conveyor chain to prevent excessive slack or tightness. Proper tensioning and alignment help to minimize chain wear, reduce energy losses, and ensure consistent performance.
5. Preventive Maintenance: Implement a regular maintenance program to identify and address potential issues before they escalate. This includes cleaning the chain, inspecting sprockets and guides, replacing worn components, and checking for proper tension and alignment. A well-maintained system reduces downtime and extends the life of the chain.
6. System Monitoring: Utilize monitoring tools such as sensors, cameras, or automated systems to track the performance of the conveyor chain system. Monitoring can provide valuable data on chain tension, alignment, speed, and power consumption, allowing for timely adjustments and optimization.
7. Training and Operator Awareness: Train operators on best practices for operating and maintaining the conveyor chain system. Promote awareness of energy efficiency, proper handling, and safety protocols to ensure optimal system performance.
By considering these factors and implementing appropriate measures, the efficiency of a conveyor chain system can be optimized, leading to improved productivity, reduced energy consumption, and longer chain life.
editor by CX 2024-05-07
China manufacturer Drop Forged Scraper Conveyor Chain for Chain Conveyor System
Product Description
Scraper conveyor chain
P152F51/45/45A/45C/47/45D/45E/45F, P2000F29/29A, P101.6F20, RO6205MF3, MR56, MR80, MR224, MR315, FVR40/63/90/112
Forged chain , trolleys,carriers used on overhead conveyor production line.
Main products are Forge chain and trolley, welded link chain, Standard and non-standard stainless steel and carbon steel roller chain, Leaf chain, standard and non-standard conveyor chain, Scraper conveyor chain, Cranked link chain, double plus chain, double pitch transmission chain, plastic chain, sprockets and Other accessories.
Main products are Forge chain and trolley, welded link chain, Standard and non-standard stainless steel and carbon steel roller chain, Leaf chain, standard and non-standard conveyor chain, Scraper conveyor chain, Cranked link chain, double plus chain, double pitch transmission chain, plastic chain, sprockets and Other accessories.
The products can be combined to find the best possible solution for even the most demanding applications. Special solutions can also be developed for customers’ individual requirements.
Drop Forged Rivetless Chain, Drop Forged Chains, drop forged link,forged scraper chains.
1.Scraper chains P142,P142V,P142H,P200,P102,P250,P260
2.Detachable chain 51,52,55,57,62,74,78
3.Relevant overhead trolley&carriages&spare parts
4.as per your drawings or samples
| Drop forged detachable chains | X348,X458,X678,X698,F100,F160,P80,P100,P200 |
| CatterPilar Chains for | X348,X458,X678,X698 |
/* 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: | Conveyor System |
|---|---|
| Type: | Conveyor |
| Surface: | Self Colored, Zinc Plated,Blacken |
| Process: | Forging |
| Transport Package: | Plywood Case. |
| Specification: | ISO |
| Customization: |
Available
| Customized Request |
|---|
Can a conveyor chain be used in pharmaceutical manufacturing?
Yes, conveyor chains can be used in pharmaceutical manufacturing for various applications. Conveyor systems play a crucial role in the efficient and safe transportation of pharmaceutical products throughout the manufacturing process. Here are some key considerations when using conveyor chains in pharmaceutical manufacturing:
1. Material Selection:
– Choose conveyor chains made from materials that are suitable for pharmaceutical applications, such as stainless steel or FDA-approved plastic. These materials offer corrosion resistance, cleanliness, and compliance with industry regulations.
2. Cleanliness and Sanitation:
– Ensure that the conveyor chain design allows for easy cleaning and sanitation. Smooth surfaces, minimal crevices, and access for cleaning equipment are important to maintain a hygienic environment.
3. Contamination Control:
– Implement measures to prevent contamination of pharmaceutical products. This includes using chain lubricants that are safe for pharmaceutical applications and implementing proper handling and storage procedures.
4. Product Protection:
– Choose conveyor chain systems that minimize product damage or degradation. This can include utilizing gentle product handling features such as low-friction surfaces, adjustable speed controls, and proper product spacing.
5. Regulatory Compliance:
– Ensure that the conveyor chain system complies with pharmaceutical industry regulations and guidelines, such as Good Manufacturing Practices (GMP) and the requirements of regulatory bodies like the FDA.
6. Integration with Equipment:
– Consider the integration of conveyor chains with other equipment in the pharmaceutical manufacturing process, such as labeling machines, filling machines, and packaging equipment. The conveyor system should provide seamless operation and synchronization with these machines.
By carefully selecting and designing conveyor chains specifically for pharmaceutical manufacturing, it is possible to meet the stringent requirements of the industry in terms of cleanliness, product integrity, and regulatory compliance.
How do you calculate the power requirements for a conveyor chain?
Calculating the power requirements for a conveyor chain involves considering various factors. Here’s a step-by-step process:
1. Determine the total weight to be transported: Measure or estimate the total weight of the material or product that will be carried by the conveyor chain. This includes the weight of the product itself, any packaging, and additional loads.
2. Determine the speed of the conveyor: Determine the desired speed at which the conveyor chain will operate. This is typically measured in feet per minute (FPM) or meters per second (m/s).
3. Calculate the required capacity: Multiply the total weight by the desired speed to determine the required capacity of the conveyor system. This will give you the weight per unit of time (e.g., pounds per minute or kilograms per hour).
4. Consider the conveyor’s design factors: Take into account various design factors such as the type and pitch of the conveyor chain, the coefficient of friction between the chain and the conveyor components, and any incline or decline angles of the conveyor system. These factors affect the power requirements.
5. Determine the required power: Use the following formula to calculate the power requirements:
Power (in horsepower) = (Capacity × Friction Factor) ÷ (33,000 × Efficiency)
Where:
– Capacity is the weight per unit of time (from step 3)
– Friction Factor is the ratio of chain tension to chain weight, taking into account the design factors
– 33,000 is a conversion factor to convert the units to horsepower
– Efficiency is the overall efficiency of the conveyor system, typically expressed as a decimal value (e.g., 0.95 for 95% efficiency)
6. Select a suitable motor: Based on the calculated power requirements, select a motor that can provide the necessary power to drive the conveyor chain. Consider factors such as motor type, motor efficiency, and overload capacity.
It’s important to note that the power requirements may vary depending on specific conveyor system designs and operating conditions. Consulting with a qualified engineer or conveyor manufacturer is recommended to ensure accurate calculations and proper motor selection.
How do you calculate the required length of a conveyor chain?
Calculating the required length of a conveyor chain involves considering several factors related to the conveyor system and the specific application. Here’s a step-by-step guide:
- Determine the Conveyor Length: Measure the total length of the conveyor path, including any horizontal, inclined, or vertical sections.
- Account for Sprocket Centers: Identify the locations of the sprockets or drive units along the conveyor path. Measure the distance between each pair of adjacent sprockets.
- Calculate the Number of Links: Divide the total conveyor length by the pitch of the chain to determine the number of links required. The pitch is the distance between the center of two consecutive pins on the chain.
- Consider Tension Adjustment: Take into account any tension adjustment requirements based on the specific application. This may include allowances for tensioning devices or tension variations due to load fluctuations.
- Include End Connections: Consider the length of the end connections, such as master links or connecting pins, which are used to join the ends of the chain. Include their dimensions in the total chain length calculation.
- Add Safety Factors: Incorporate appropriate safety factors to ensure adequate chain length for proper tensioning and to accommodate any potential stretching or wear over time.
It’s important to note that the calculation of the required chain length is an estimation based on various factors and may require adjustments during the installation and tensioning process. Consulting the conveyor manufacturer’s guidelines or working with an experienced engineer can provide more precise calculations based on the specific conveyor system and application requirements.
editor by CX 2024-03-29
China factory P102, P142 Forged Mining Scraper Chain with Flight for Conveyor System
Product Description
Forged Scraper conveyor chain
P152F51/45/45A/45C/47/45D/45E/45F, P2000F29/29A, P101.6F20, RO6205MF3, MR56, MR80, MR224, MR315, FVR40/63/90/112
Forged chain , trolleys,carriers used on overhead conveyor production line.
Main products are Forge chain and trolley, welded link chain, Standard and non-standard stainless steel and carbon steel roller chain, Leaf chain, standard and non-standard conveyor chain, Scraper conveyor chain, Cranked link chain, double plus chain, double pitch transmission chain, plastic chain, sprockets and Other accessories.
Main products are Forge chain and trolley, welded link chain, Standard and non-standard stainless steel and carbon steel roller chain, Leaf chain, standard and non-standard conveyor chain, Scraper conveyor chain, Cranked link chain, double plus chain, double pitch transmission chain, plastic chain, sprockets and Other accessories.
The products can be combined to find the best possible solution for even the most demanding applications. Special solutions can also be developed for customers’ individual requirements.
Drop Forged Rivetless Chain, Drop Forged Chains, drop forged link,forged scraper chains.
1.Scraper chains P142,P142V,P142H,P200,P102,P250,P260
2.Detachable chain 51,52,55,57,62,74,78
3.Relevant overhead trolley&carriages&spare parts
4.as per your drawings or samples
| Drop forged detachable chains | X348,X458,X678,X698,F100,F160,P80,P100,P200 |
| CatterPilar Chains for | X348,X458,X678,X698 |
/* 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: | Combined Chain |
| Surface Treatment: | Polishing |
| Chain Size: | 1/2"*3/32" |
| Feature: | Heat Resistant |
| Type: | Overhead Conveyor |
| Samples: |
US$ 1/Piece
1 Piece(Min.Order) | |
|---|
| Customization: |
Available
| Customized Request |
|---|
What are the benefits of using a self-lubricating conveyor chain?
Self-lubricating conveyor chains offer several advantages over traditional lubricated chains. Here are some key benefits:
1. Reduced Maintenance: Self-lubricating chains eliminate the need for regular lubrication, reducing the time and effort required for maintenance. This is particularly beneficial in applications where access to the chain is difficult or time-consuming.
2. Cost Savings: By eliminating the need for external lubrication, self-lubricating chains can help reduce lubrication costs over the lifetime of the chain. This includes the cost of lubricants, as well as the labor and equipment required for lubrication maintenance.
3. Clean and Environmentally Friendly: Self-lubricating chains do not require external lubricants, resulting in a cleaner working environment. There is no risk of lubricant spills or contamination of the surrounding area, making them ideal for applications that require strict cleanliness standards, such as food processing or pharmaceutical industries.
4. Extended Chain Life: Self-lubricating chains are designed with built-in lubrication systems that provide a continuous and controlled supply of lubricant to the chain components. This helps reduce friction, wear, and heat generation, resulting in longer chain life and improved performance.
5. Improved Reliability: With consistent and reliable lubrication, self-lubricating chains maintain optimal performance and minimize the risk of chain failure or breakdown. They are less susceptible to premature wear, elongation, and corrosion, ensuring a more reliable and efficient conveyor system.
It’s important to note that the specific benefits of self-lubricating chains may vary depending on the manufacturer and the design of the chain. It’s recommended to consult with the chain manufacturer or an industry expert to understand the suitability and advantages of self-lubricating chains for a particular application.
How do you select the appropriate lubricant for a conveyor chain?
Selecting the right lubricant is crucial for maintaining the performance and longevity of a conveyor chain. Here are the key factors to consider when choosing a lubricant:
1. Chain Type and Material: Different conveyor chains may have specific requirements for lubrication based on their construction materials and design. Consult the manufacturer’s recommendations or specifications to determine the lubricant compatibility.
2. Operating Conditions: Consider the operating environment, such as temperature, humidity, and presence of contaminants. For high-temperature applications, choose a lubricant with a higher temperature tolerance. In wet or dusty environments, opt for lubricants that offer excellent resistance to water washout and provide effective protection against contaminants.
3. Load and Speed: Evaluate the load capacity and speed of the conveyor chain. Higher loads and speeds may require lubricants with better film strength and anti-wear properties to reduce friction and prevent premature wear.
4. Lubrication Method: Determine the lubrication method that will be used for the conveyor chain. Lubricants can be applied through drip systems, brushes, spray nozzles, or automatic lubrication systems. Consider the viscosity and consistency of the lubricant to ensure proper application and distribution.
5. Food-Grade Requirements: In food processing or pharmaceutical applications, where direct contact with the product may occur, it’s essential to use food-grade lubricants that meet industry regulations and requirements for safety and hygiene.
6. Maintenance Schedule: Consider the desired maintenance intervals and the lubricant’s longevity. Some lubricants may require more frequent reapplication, while others provide longer-lasting lubrication.
7. Compatibility with Other Materials: Take into account the compatibility of the lubricant with other materials in the conveyor system, such as seals, gaskets, and paints. Ensure that the lubricant does not cause any adverse effects on these components.
It is recommended to consult with lubricant manufacturers or industry experts to select the most suitable lubricant for your specific conveyor chain application. They can provide guidance based on their expertise and knowledge of lubricant formulations and performance characteristics.
How to select the right conveyor chain for your conveyor system?
Selecting the right conveyor chain for your conveyor system is crucial to ensure optimal performance and longevity. Here are the steps to follow when choosing a conveyor chain:
- Identify your application requirements: Determine the specific requirements of your conveyor system, including the type of material being conveyed, the speed of operation, the load capacity, the environmental conditions, and any special considerations.
- Consider the chain type: Based on your application requirements, consider the different types of conveyor chains available, such as roller chains, double pitch chains, hollow pin chains, apron chains, or plastic chains. Evaluate their features and benefits to determine which type is most suitable for your needs.
- Assess the chain material: Conveyor chains are typically made from various materials such as steel, stainless steel, or plastic. Consider factors such as corrosion resistance, temperature resistance, wear resistance, and food-grade requirements when selecting the chain material.
- Determine the chain pitch: The chain pitch refers to the distance between the centers of adjacent pins. Choose the appropriate pitch size based on your conveyor system’s design, load requirements, and speed. Smaller pitch sizes provide smoother operation at higher speeds, while larger pitch sizes offer better resistance against wear and fatigue.
- Evaluate the chain strength: Consider the required tensile strength and fatigue resistance of the chain to ensure it can withstand the anticipated load and operating conditions. Factors such as chain construction, material quality, and heat treatment play a role in determining the chain’s strength.
- Consider additional features: Depending on your application, you may need additional features such as attachments, guides, or specialized coatings on the chain. Assess if any of these features are necessary to meet your specific requirements.
- Consult with experts: If you’re uncertain about the selection process or have unique application needs, it’s advisable to consult with conveyor chain manufacturers or industry experts who can provide guidance and recommendations based on their expertise.
By following these steps and carefully considering your application requirements, you can select the right conveyor chain that ensures efficient and reliable operation of your conveyor system.
editor by CX 2024-03-27
China high quality Conveyor Agriculture Chain Roller Chain with Scraper
Product Description
Drop Forged Chains “Y” Serial
FEATURES
• It consists of forged steel links, which can be equipped with various plastic or steel scrapers. The connection pin between these links is in a circlip version.
• Special heat treated alloy steel,drop forged and precision machined, with case hardened.
• High strength, strong load-carrying capability.
• Extremely hard exterior surface and superior wear
resistance.
TECHNICAL SPECIFICATIONS
| Model | P (mm) |
H (mm) |
B (mm) |
D (mm) |
b (mm) |
T (mm) |
Breaking Load (Min.) |
Material |
| P100 | 100 | 30 | 33 | 14 | 15.5 | 13 | 140KN | 40Cr |
| P125-B | 125 | 35 | 34 | 17 | 17 | 8 | 150KN | 40Cr |
| P142 | 142 | 50.8 | 43 | 25 | 19 | 12.2 | 180KN | 20CrMnTi |
| 300KN | 40Cr | |||||||
| P142H | 142 | 50 | 62 | 25 | 29 | 15 | 280KN | 20CrMnTi |
| 460KN | 40Cr | |||||||
| P160 | 160 | 40 | 48 | 20 | 22.5 | 20 | 240KN | 40Cr |
| P200 | 200 | 64 | 50 | 32 | 23 | 15 | 390KN | 40Cr |
| P200-E | 200 | 45 | 42 | 20 | 20 | 12.2 | 200KN | 40Cr |
Note: Customised sizes and material are available CZPT request
Roller Conveyor Chains
FEATURES
• It consists of a combination of inner and outer links.
• The bush/pin connections between the links are available in a circlip, split pin, or a riveted version.
• The steel scrapers can be either bent or welded.
• UHMWPE lights are suggested to attach to the scrapers for more eficiency and high wear resistance.
GLF Type
TECHNICAL SPECIFICATIONS
| Model | Pitch (P) |
Scraper Distance (P1) |
Inner Width (b) |
Plate Width (B) |
T1 | T2 | Roller Dia. (D) |
Bush Dia. (D2) |
Pin Dia (D1) |
Chain Width (L) |
E1 | E2 | Number of Holes (n) |
d | Breaking Load in KN (Min.) |
| GLF66.675 (6)D×182 |
66.675 | 266.7 | 26 | 30 | 6 | 6 | 22.23 | 12.7 | 182 | 90 | 150 | 4 | 9 | 130 | |
| GLF66.675 (6)D×215 |
66.675 | 266.7 | 26 | 30 | 6 | 6 | 22.23 | 12.7 | 215 | 95 | 195 | 4 | 9 | 130 | |
| GLF66.675 (6)D×295 |
66.675 | 266.7 | 26 | 30 | 6 | 6 | 22.23 | 12.7 | 295 | 95 | 195 | 4 | 9 | 130 | |
| GLF100 (6)D×170 |
100 | 200 | 38 | 40 | 6 | 6 | 36 | 21.6 | 16 | 170 | 115 | 2 | 9 | 220 | |
| GLF100 (6)D×225 |
100 | 200 | 38 | 40 | 6 | 6 | 36 | 21.6 | 16 | 225 | 104 | 194 | 4 | 9 | 220 |
| GLF100 (6)D×294 |
100 | 200 | 38 | 40 | 6 | 6 | 36 | 21.6 | 16 | 294 | 115 | 245 | 4 | 9 | 220 |
| GLF100 (5)×225 |
100 | 200 | 28 | 30 | 5 | 5 | 22.23 | 14.27 | 225 | 95 | 195 | 4 | 9 | 90 | |
| GLF125 (8)D×285 |
125 | 500 | 50 | 50 | 8 | 8 | 32 | 19.9 | 285 | 155 | 255 | 4 | 9 | 220 | |
| GLF125 (6)×235 |
125 | 250 | 32.5 | 40 | 6 | 6 | 28.58 | 20 | 14.27 | 235 | 95 | 195 | 4 | 9 | 170 |
| GLF160 (6)×290 |
160 | 320 | 27 | 45 | 6 | 6 | 32 | 20 | 14.27 | 290 | 193 | 2 | 9 | 193 |
GLR Type
TECHNICAL SPECIFICATIONS
| Model | Pitch (P) |
Scraper Distance (P1) |
Inner Width (b) |
Plate Width (B) |
T1 | T2 | Roller Dia. (D) |
Bush Dia. (D2) |
Pin Dia (D1) |
Chain Width (L) |
E1 | E2 | Number of Holes (n) |
d | Breaking Load in KN (Min.) |
| GLR66.675 | 66.675 | 266.7 | 27.5 | 30 | 6 | 6 | 24 | 13 | 130 | 102 | 32 | 4 | 9 | 90 | |
| GLR100 | 100 | 200 | 38 | 40 | 6 | 6 | 36 | 21.6 | 16 | 130 | 102 | 32 | 4 | 9 | 220 |
Other products of our conveyor parts:
Could you please send me inquiry for details?
| Material: | Steel |
|---|---|
| Structure: | Roller Chain |
| Surface Treatment: | Oxygenation |
| Transport Package: | Pallet |
| Specification: | GLF, GLR |
| Trademark: | Yutung |
| Samples: |
US$ 10/Piece
1 Piece(Min.Order) | |
|---|
| Customization: |
Available
| Customized Request |
|---|
How does a conveyor chain handle accumulation and indexing applications?
In conveyor systems, accumulation and indexing refer to specific methods of controlling the movement and positioning of items along the conveyor line. A conveyor chain can effectively handle these applications through the use of specialized components and control mechanisms. Here’s a detailed explanation:
Accumulation:
– Accumulation refers to the process of temporarily storing or buffering items on the conveyor to control the flow of materials. Conveyor chains designed for accumulation applications typically incorporate features such as low-friction chain guides, accumulating zones, and sensors.
– In an accumulation conveyor chain system, the chain is divided into discrete zones where items can accumulate. As products enter a zone, the chain slows down or stops, allowing items to accumulate without colliding with each other. Sensors or photoelectric cells detect the presence of items in each zone and provide signals to control the chain movement.
– The accumulation zones in the conveyor chain system can be controlled in different ways, such as through the use of motorized rollers, pneumatic devices, or electronic sensors. This ensures a controlled and synchronized flow of items along the conveyor line.
Indexing:
– Indexing refers to the precise positioning of items at specific intervals along the conveyor line. This is commonly used in applications where accurate positioning or sequencing is required, such as assembly or packaging processes.
– Conveyor chains designed for indexing applications incorporate specialized index pins, stops, or precision indexing drives. These components work together to accurately position items at predetermined locations along the conveyor.
– The indexing mechanism of a conveyor chain system can be driven by mechanical cams, servo motors, or programmable logic controllers (PLCs). The indexing motion can be synchronized with other processes or machines downstream to ensure precise assembly or packaging operations.
– By combining accumulation and indexing capabilities, a conveyor chain system can handle a wide range of applications, including sorting, buffering, sequencing, and automated assembly. It provides control over the flow and positioning of items, allowing for efficient material handling and optimized production processes.
How does a conveyor chain contribute to overall production efficiency?
A conveyor chain plays a crucial role in enhancing overall production efficiency in various industries. Here are the ways in which it contributes to efficiency:
1. Continuous Material Flow: A conveyor chain enables continuous and uninterrupted material flow from one point to another. It eliminates the need for manual handling or transportation of goods, reducing downtime and delays in production processes.
2. Increased Throughput: By automating material handling, a conveyor chain enables faster and more efficient movement of goods. It allows for higher throughput and production rates, maximizing the utilization of resources and reducing cycle times.
3. Improved Productivity: With a conveyor chain, employees can focus on value-added tasks rather than manual material handling. This leads to improved productivity as workers can concentrate on more skilled and critical operations.
4. Efficient Resource Allocation: A well-designed conveyor chain system optimizes the utilization of space, allowing for efficient layout and organization of production areas. It helps in streamlining workflow and minimizing wastage of resources such as floor space, manpower, and equipment.
5. Quality Control: Conveyor chains can be integrated with inspection stations or automated processes to ensure quality control at various stages of production. This helps in detecting and rectifying any defects or inconsistencies, reducing the chances of faulty products reaching the market.
6. Reduced Material Handling Costs: By eliminating or minimizing manual material handling, a conveyor chain reduces labor costs associated with transportation, lifting, and carrying of goods. It also minimizes the risk of injuries or accidents related to manual handling.
7. Flexibility and Adaptability: Conveyor chains can be customized to suit specific production requirements. They can be designed to accommodate different types of products, handle various load capacities, and adapt to changes in production demands. This flexibility allows for seamless integration with existing production systems and easy scalability.
8. Safety and Ergonomics: Conveyor chains incorporate safety features such as guards, emergency stop buttons, and interlocks to ensure worker safety. They also promote ergonomic practices by reducing physical strain on workers and minimizing the risk of musculoskeletal injuries.
Overall, a well-designed and properly maintained conveyor chain system enhances production efficiency by optimizing material flow, increasing throughput, improving productivity, reducing costs, ensuring quality control, and prioritizing worker safety.
What are the different types of conveyor chains?
There are several types of conveyor chains available, each designed to meet specific application requirements. Here are some common types of conveyor chains:
- Roller chains: Roller chains are the most commonly used type of conveyor chain. They consist of a series of cylindrical rollers connected by side plates. Roller chains provide smooth and efficient movement and are suitable for medium to heavy-duty applications.
- Double pitch chains: Double pitch chains have larger pitch (distance between the centers of adjacent pins) compared to standard roller chains. They are often used in applications that require slower speeds and lighter loads.
- Hollow pin chains: Hollow pin chains have hollow pins that allow for easy attachment of various accessories or attachments. They are commonly used in conveying applications that require customization or where attachments need to be mounted.
- Apron or slat chains: Apron or slat chains consist of plates or slats that are connected by hinges. They are used in heavy-duty applications where the chain needs to support and carry large loads or withstand harsh environments.
- Plastic chains: Plastic chains are made of durable and lightweight materials such as acetal or polyethylene. They offer benefits such as corrosion resistance, low noise levels, and the ability to work in wet or washdown environments. Plastic chains are commonly used in food processing, packaging, and pharmaceutical industries.
These are just a few examples of conveyor chain types, and there are many other variations available depending on specific application requirements. The selection of the appropriate conveyor chain type depends on factors such as load capacity, speed, environment, and desired functionality.
editor by CX 2023-09-12
China Standard Conveyor Agriculture Chain Roller Chain with Scraper
Product Description
Drop Forged Chains “Y” Serial
FEATURES
• It consists of forged steel links, which can be equipped with various plastic or steel scrapers. The connection pin between these links is in a circlip version.
• Special heat treated alloy steel,drop forged and precision machined, with case hardened.
• High strength, strong load-carrying capability.
• Extremely hard exterior surface and superior wear
resistance.
TECHNICAL SPECIFICATIONS
| Model | P (mm) |
H (mm) |
B (mm) |
D (mm) |
b (mm) |
T (mm) |
Breaking Load (Min.) |
Material |
| P100 | 100 | 30 | 33 | 14 | 15.5 | 13 | 140KN | 40Cr |
| P125-B | 125 | 35 | 34 | 17 | 17 | 8 | 150KN | 40Cr |
| P142 | 142 | 50.8 | 43 | 25 | 19 | 12.2 | 180KN | 20CrMnTi |
| 300KN | 40Cr | |||||||
| P142H | 142 | 50 | 62 | 25 | 29 | 15 | 280KN | 20CrMnTi |
| 460KN | 40Cr | |||||||
| P160 | 160 | 40 | 48 | 20 | 22.5 | 20 | 240KN | 40Cr |
| P200 | 200 | 64 | 50 | 32 | 23 | 15 | 390KN | 40Cr |
| P200-E | 200 | 45 | 42 | 20 | 20 | 12.2 | 200KN | 40Cr |
Note: Customised sizes and material are available CZPT request
Roller Conveyor Chains
FEATURES
• It consists of a combination of inner and outer links.
• The bush/pin connections between the links are available in a circlip, split pin, or a riveted version.
• The steel scrapers can be either bent or welded.
• UHMWPE lights are suggested to attach to the scrapers for more eficiency and high wear resistance.
GLF Type
TECHNICAL SPECIFICATIONS
| Model | Pitch (P) |
Scraper Distance (P1) |
Inner Width (b) |
Plate Width (B) |
T1 | T2 | Roller Dia. (D) |
Bush Dia. (D2) |
Pin Dia (D1) |
Chain Width (L) |
E1 | E2 | Number of Holes (n) |
d | Breaking Load in KN (Min.) |
| GLF66.675 (6)D×182 |
66.675 | 266.7 | 26 | 30 | 6 | 6 | 22.23 | 12.7 | 182 | 90 | 150 | 4 | 9 | 130 | |
| GLF66.675 (6)D×215 |
66.675 | 266.7 | 26 | 30 | 6 | 6 | 22.23 | 12.7 | 215 | 95 | 195 | 4 | 9 | 130 | |
| GLF66.675 (6)D×295 |
66.675 | 266.7 | 26 | 30 | 6 | 6 | 22.23 | 12.7 | 295 | 95 | 195 | 4 | 9 | 130 | |
| GLF100 (6)D×170 |
100 | 200 | 38 | 40 | 6 | 6 | 36 | 21.6 | 16 | 170 | 115 | 2 | 9 | 220 | |
| GLF100 (6)D×225 |
100 | 200 | 38 | 40 | 6 | 6 | 36 | 21.6 | 16 | 225 | 104 | 194 | 4 | 9 | 220 |
| GLF100 (6)D×294 |
100 | 200 | 38 | 40 | 6 | 6 | 36 | 21.6 | 16 | 294 | 115 | 245 | 4 | 9 | 220 |
| GLF100 (5)×225 |
100 | 200 | 28 | 30 | 5 | 5 | 22.23 | 14.27 | 225 | 95 | 195 | 4 | 9 | 90 | |
| GLF125 (8)D×285 |
125 | 500 | 50 | 50 | 8 | 8 | 32 | 19.9 | 285 | 155 | 255 | 4 | 9 | 220 | |
| GLF125 (6)×235 |
125 | 250 | 32.5 | 40 | 6 | 6 | 28.58 | 20 | 14.27 | 235 | 95 | 195 | 4 | 9 | 170 |
| GLF160 (6)×290 |
160 | 320 | 27 | 45 | 6 | 6 | 32 | 20 | 14.27 | 290 | 193 | 2 | 9 | 193 |
GLR Type
TECHNICAL SPECIFICATIONS
| Model | Pitch (P) |
Scraper Distance (P1) |
Inner Width (b) |
Plate Width (B) |
T1 | T2 | Roller Dia. (D) |
Bush Dia. (D2) |
Pin Dia (D1) |
Chain Width (L) |
E1 | E2 | Number of Holes (n) |
d | Breaking Load in KN (Min.) |
| GLR66.675 | 66.675 | 266.7 | 27.5 | 30 | 6 | 6 | 24 | 13 | 130 | 102 | 32 | 4 | 9 | 90 | |
| GLR100 | 100 | 200 | 38 | 40 | 6 | 6 | 36 | 21.6 | 16 | 130 | 102 | 32 | 4 | 9 | 220 |
Other products of our conveyor parts:
Could you please send me inquiry for details?
| Material: | Steel |
|---|---|
| Structure: | Roller Chain |
| Surface Treatment: | Oxygenation |
| Transport Package: | Pallet |
| Specification: | GLF, GLR |
| Trademark: | Yutung |
| Samples: |
US$ 10/Piece
1 Piece(Min.Order) | |
|---|
| Customization: |
Available
| Customized Request |
|---|
Can a conveyor chain be used in automotive assembly lines?
Yes, a conveyor chain can be effectively used in automotive assembly lines. Here are the reasons why:
1. Efficient Material Handling:
– Conveyor chains provide a reliable and efficient means of transporting automotive components and parts along the assembly line. They can handle heavy loads and withstand the demanding requirements of automotive manufacturing.
2. Versatility:
– Conveyor chains offer versatility in terms of design and configuration. They can be customized to accommodate various assembly processes, such as body welding, painting, assembly, and final inspection.
3. Precise Positioning:
– Conveyor chains allow precise positioning and synchronization of automotive components, ensuring accurate assembly and alignment during the production process. This helps maintain consistent quality and reduces errors.
4. Automation Integration:
– Conveyor chains can be easily integrated with automation systems in automotive assembly lines. They can work in conjunction with robotic arms, vision systems, and other automated equipment to optimize the production process and improve efficiency.
5. Assembly Line Flexibility:
– Conveyor chains provide flexibility in terms of line configuration and layout. They can be designed to accommodate different assembly line layouts, including straight sections, curves, inclines, and declines, to meet the specific requirements of automotive assembly processes.
6. Space Optimization:
– Conveyor chains help optimize space utilization in automotive assembly plants. They can be designed to navigate around existing equipment and infrastructure, making efficient use of available floor space.
7. Safety:
– Conveyor chains are designed with safety features to protect operators and prevent accidents. Emergency stop controls, guarding, and interlocking mechanisms ensure the safe operation of the assembly line.
8. Increased Production Speed:
– By using conveyor chains, automotive assembly lines can achieve higher production speeds, allowing for faster manufacturing cycles and increased output.
Overall, conveyor chains play a crucial role in enhancing the efficiency, productivity, and safety of automotive assembly lines, contributing to the smooth and streamlined production of vehicles.
What are the advantages of using a plastic conveyor chain?
Plastic conveyor chains offer several advantages over traditional metal chains. Here are some of the key advantages:
1. Corrosion Resistance: Plastic chains are highly resistant to corrosion, making them ideal for applications in humid or corrosive environments. They do not rust or deteriorate when exposed to moisture or chemicals.
2. Lightweight: Plastic chains are significantly lighter than metal chains, making them easier to handle and install. Their lightweight nature reduces the overall weight of the conveyor system and can result in energy savings during operation.
3. Low Noise Operation: Plastic chains generate less noise compared to metal chains, leading to a quieter working environment. This can be particularly beneficial in industries where noise reduction is important, such as food processing or packaging.
4. Reduced Friction and Wear: Plastic chains have self-lubricating properties, which reduce friction and wear. This results in lower maintenance requirements and longer chain life. The smooth surface of plastic chains also minimizes the risk of product damage during transportation.
5. Flexibility and Modularity: Plastic chains can be easily customized and designed to fit specific conveyor system requirements. They offer flexibility in terms of length, width, and configuration. Additionally, plastic chains are often modular, allowing for easy replacement of damaged or worn-out sections without replacing the entire chain.
6. Cost-Effective: Plastic conveyor chains are generally more cost-effective compared to metal chains. They are often less expensive to manufacture and offer a longer lifespan with minimal maintenance requirements, resulting in lower overall costs.
7. Chemical Resistance: Plastic chains are resistant to a wide range of chemicals, making them suitable for applications where exposure to aggressive substances is a concern. They can withstand contact with oils, acids, alkalis, and various cleaning agents.
Overall, the advantages of using a plastic conveyor chain include corrosion resistance, lightweight design, low noise operation, reduced friction and wear, flexibility, cost-effectiveness, and chemical resistance. These benefits make plastic chains a popular choice in various industries, including food processing, packaging, pharmaceuticals, and logistics.
How do you properly tension a conveyor chain?
Properly tensioning a conveyor chain is crucial for its smooth operation and to prevent issues like chain slipping or excessive wear. Here are the steps to properly tension a conveyor chain:
- Identify the Tensioning Points: Determine the locations where the conveyor chain can be tensioned. These are typically at the ends of the chain or at specific tensioning devices.
- Loosen the Tensioning Devices: If there are tensioning devices in place, such as adjustable bolts or tensioning screws, loosen them to allow for adjustment.
- Apply Tension: Apply tension to the conveyor chain by either manually pulling the chain or using a tensioning tool. The amount of tension required depends on the chain type and the manufacturer’s recommendations.
- Check the Tension: Use a tension gauge or other suitable method to measure the tension of the conveyor chain. The tension should fall within the specified range provided by the chain manufacturer.
- Adjust the Tension: If the tension is too loose or too tight, make adjustments accordingly. Tighten or loosen the tensioning devices until the desired tension is achieved.
- Secure the Tensioning Devices: Once the proper tension is achieved, securely tighten the tensioning devices to hold the chain in place.
- Verify the Tension: After tensioning the chain, perform a visual inspection and run the conveyor to ensure the chain runs smoothly without excessive slack or tightness. Make any further adjustments if necessary.
It’s important to refer to the specific guidelines provided by the conveyor chain manufacturer for proper tensioning instructions, as the exact method may vary depending on the chain type and design. Regularly check the tension of the conveyor chain and make adjustments as needed to maintain optimal performance.
editor by CX 2023-07-31
China supplier Conveyor Agriculture Chain Roller Chain with Scraper
Product Description
Drop Forged Chains “Y” Serial
FEATURES
• It consists of forged steel links, which can be equipped with various plastic or steel scrapers. The connection pin between these links is in a circlip version.
• Special heat treated alloy steel,drop forged and precision machined, with case hardened.
• High strength, strong load-carrying capability.
• Extremely hard exterior surface and superior wear
resistance.
TECHNICAL SPECIFICATIONS
| Model | P (mm) |
H (mm) |
B (mm) |
D (mm) |
b (mm) |
T (mm) |
Breaking Load (Min.) |
Material |
| P100 | 100 | 30 | 33 | 14 | 15.5 | 13 | 140KN | 40Cr |
| P125-B | 125 | 35 | 34 | 17 | 17 | 8 | 150KN | 40Cr |
| P142 | 142 | 50.8 | 43 | 25 | 19 | 12.2 | 180KN | 20CrMnTi |
| 300KN | 40Cr | |||||||
| P142H | 142 | 50 | 62 | 25 | 29 | 15 | 280KN | 20CrMnTi |
| 460KN | 40Cr | |||||||
| P160 | 160 | 40 | 48 | 20 | 22.5 | 20 | 240KN | 40Cr |
| P200 | 200 | 64 | 50 | 32 | 23 | 15 | 390KN | 40Cr |
| P200-E | 200 | 45 | 42 | 20 | 20 | 12.2 | 200KN | 40Cr |
Note: Customised sizes and material are available CZPT request
Roller Conveyor Chains
FEATURES
• It consists of a combination of inner and outer links.
• The bush/pin connections between the links are available in a circlip, split pin, or a riveted version.
• The steel scrapers can be either bent or welded.
• UHMWPE lights are suggested to attach to the scrapers for more eficiency and high wear resistance.
GLF Type
TECHNICAL SPECIFICATIONS
| Model | Pitch (P) |
Scraper Distance (P1) |
Inner Width (b) |
Plate Width (B) |
T1 | T2 | Roller Dia. (D) |
Bush Dia. (D2) |
Pin Dia (D1) |
Chain Width (L) |
E1 | E2 | Number of Holes (n) |
d | Breaking Load in KN (Min.) |
| GLF66.675 (6)D×182 |
66.675 | 266.7 | 26 | 30 | 6 | 6 | 22.23 | 12.7 | 182 | 90 | 150 | 4 | 9 | 130 | |
| GLF66.675 (6)D×215 |
66.675 | 266.7 | 26 | 30 | 6 | 6 | 22.23 | 12.7 | 215 | 95 | 195 | 4 | 9 | 130 | |
| GLF66.675 (6)D×295 |
66.675 | 266.7 | 26 | 30 | 6 | 6 | 22.23 | 12.7 | 295 | 95 | 195 | 4 | 9 | 130 | |
| GLF100 (6)D×170 |
100 | 200 | 38 | 40 | 6 | 6 | 36 | 21.6 | 16 | 170 | 115 | 2 | 9 | 220 | |
| GLF100 (6)D×225 |
100 | 200 | 38 | 40 | 6 | 6 | 36 | 21.6 | 16 | 225 | 104 | 194 | 4 | 9 | 220 |
| GLF100 (6)D×294 |
100 | 200 | 38 | 40 | 6 | 6 | 36 | 21.6 | 16 | 294 | 115 | 245 | 4 | 9 | 220 |
| GLF100 (5)×225 |
100 | 200 | 28 | 30 | 5 | 5 | 22.23 | 14.27 | 225 | 95 | 195 | 4 | 9 | 90 | |
| GLF125 (8)D×285 |
125 | 500 | 50 | 50 | 8 | 8 | 32 | 19.9 | 285 | 155 | 255 | 4 | 9 | 220 | |
| GLF125 (6)×235 |
125 | 250 | 32.5 | 40 | 6 | 6 | 28.58 | 20 | 14.27 | 235 | 95 | 195 | 4 | 9 | 170 |
| GLF160 (6)×290 |
160 | 320 | 27 | 45 | 6 | 6 | 32 | 20 | 14.27 | 290 | 193 | 2 | 9 | 193 |
GLR Type
TECHNICAL SPECIFICATIONS
| Model | Pitch (P) |
Scraper Distance (P1) |
Inner Width (b) |
Plate Width (B) |
T1 | T2 | Roller Dia. (D) |
Bush Dia. (D2) |
Pin Dia (D1) |
Chain Width (L) |
E1 | E2 | Number of Holes (n) |
d | Breaking Load in KN (Min.) |
| GLR66.675 | 66.675 | 266.7 | 27.5 | 30 | 6 | 6 | 24 | 13 | 130 | 102 | 32 | 4 | 9 | 90 | |
| GLR100 | 100 | 200 | 38 | 40 | 6 | 6 | 36 | 21.6 | 16 | 130 | 102 | 32 | 4 | 9 | 220 |
Other products of our conveyor parts:
Could you please send me inquiry for details?
| Material: | Steel |
|---|---|
| Structure: | Roller Chain |
| Surface Treatment: | Oxygenation |
| Transport Package: | Pallet |
| Specification: | GLF, GLR |
| Trademark: | Yutung |
| Samples: |
US$ 10/Piece
1 Piece(Min.Order) | |
|---|
| Customization: |
Available
| Customized Request |
|---|
Can a conveyor chain be used in high-speed applications?
Yes, a conveyor chain can be used in high-speed applications depending on the design and specifications of the chain and the conveyor system. However, there are certain factors to consider when using a conveyor chain in high-speed applications:
1. Chain Design: The design of the conveyor chain should be capable of handling high speeds without compromising safety or performance. Specialized high-speed chains are available that are specifically engineered to withstand the demands of high-speed applications.
2. Material Selection: The material used in the construction of the conveyor chain should have high strength and durability to withstand the forces and stresses at high speeds. Common materials for high-speed conveyor chains include alloy steels, stainless steel, and special polymers.
3. Lubrication: Proper lubrication is crucial in high-speed applications to reduce friction, heat, and wear. Lubricants specifically designed for high-speed conveyor chains should be used to ensure smooth operation and extend the chain’s lifespan.
4. Tensioning and Alignment: Accurate tensioning and alignment of the conveyor chain are critical for high-speed applications. Proper tensioning helps to maintain the chain’s stability and prevent excessive vibrations or elongation, which can lead to chain failure or premature wear.
5. Safety Considerations: High-speed applications require additional safety measures to protect personnel and equipment. Proper guarding, emergency stop systems, and regular maintenance inspections are essential to ensure safe operation.
It’s important to consult the conveyor chain manufacturer or an engineering professional to determine the suitability of a specific chain for high-speed applications. They can provide guidance on selecting the appropriate chain design, material, lubrication, and maintenance practices to ensure reliable and efficient operation at high speeds.
What are the factors to consider when selecting the pitch of a conveyor chain?
When selecting the pitch of a conveyor chain, several factors need to be considered to ensure optimal performance and efficiency. Here are the key factors:
1. Load Capacity: The pitch of the conveyor chain should be selected based on the anticipated load capacity of the system. Consider the weight and size of the conveyed materials to ensure the chain can handle the required load without exceeding its capacity.
2. Speed and Application: The operating speed of the conveyor system and the specific application play a role in determining the pitch. Higher speeds may require smaller pitch chains to maintain smooth and reliable operation.
3. Conveyor Length: The length of the conveyor system affects the selection of the chain pitch. Longer conveyors may require larger pitch chains to distribute the load and reduce tension on individual chain links.
4. Space Constraints: Consider the available space for the conveyor system. Smaller pitch chains may be preferred in applications with limited space to minimize the overall footprint of the conveyor.
5. Wear and Maintenance: The pitch selection should also consider the anticipated wear and maintenance requirements. Smaller pitch chains often provide better wear resistance and may require less frequent lubrication and maintenance.
6. Speed Regulation: If the conveyor system requires speed regulation or precise positioning, the pitch selection should align with the control capabilities of the drive system. Smaller pitch chains can offer finer control and accuracy.
7. Compatibility: Ensure that the selected pitch is compatible with other components of the conveyor system, including sprockets, guides, and attachments. They should be designed to work together smoothly and efficiently.
8. Application Environment: Consider the environmental conditions in which the conveyor will operate. Factors such as temperature, humidity, corrosive substances, or abrasive materials may influence the choice of chain pitch and material to ensure durability and longevity.
By considering these factors, you can select the appropriate pitch for the conveyor chain, ensuring optimal performance, longevity, and reliable operation of the system.
What industries commonly use conveyor chains?
Conveyor chains are widely used in various industries for efficient material handling and transportation. Here are some of the industries commonly using conveyor chains:
- Manufacturing: Conveyor chains are extensively used in manufacturing industries such as automotive, electronics, appliances, and machinery. They facilitate the movement of components, parts, and finished products along assembly lines.
- Food and Beverage: The food and beverage industry relies heavily on conveyor chains for conveying and processing food products, including packaging, sorting, and distribution. Conveyor chains in this industry often have specific requirements such as sanitary design and resistance to contaminants.
- Logistics and Warehousing: Conveyor chains are integral to logistics and warehousing operations for efficient handling of goods, including sorting, loading, unloading, and distribution. They are commonly used in distribution centers, airports, and postal facilities.
- Mining and Quarrying: Conveyor chains play a crucial role in mining and quarrying operations by transporting bulk materials such as coal, ore, gravel, and aggregates. They are designed to withstand heavy loads and harsh environments.
- Agriculture: In the agricultural sector, conveyor chains are used for handling crops, grains, seeds, and livestock feed. They are employed in processing plants, grain elevators, and animal feed production facilities.
- Automotive: The automotive industry extensively uses conveyor chains in assembly plants for transporting vehicle components, body frames, engines, and other parts throughout the production process.
- Pharmaceutical and Healthcare: Conveyor chains are utilized in pharmaceutical and healthcare facilities for the automated movement of medical supplies, pharmaceutical products, and laboratory specimens.
- Chemical and Petrochemical: Conveyor chains are employed in chemical and petrochemical industries for the handling of hazardous materials, bulk chemicals, and raw materials during production and storage.
- Construction and Building Materials: Conveyor chains are used in construction sites and building material production facilities for conveying materials such as cement, bricks, aggregates, and roofing materials.
These are just a few examples, and conveyor chains are also utilized in many other industries where efficient material handling and transportation are essential for the production and distribution processes.
editor by CX 2023-07-21