Tag Archives: pulley cable

China supplier Cable Guide Roller Electrical Power Cable Pulley Roller Steel Cable Roller

Product Description

cable guide roller electrical power cable pulley roller Steel cable roller
Cable roller is widely used in engineering machinery, electric power, petroleum, mining, coal, metallurgy, paper making, construction, port, cable and other industries, cable tunnels show exhibition place or on the ground put the extension cable and wire release, the product is divided into single-round and three, non-fragile cables. They run maintenance-free on dirt and dust-proof bearings. The robust steel frames are completely galvanized and guarantee a long working life even under extreme conditions.Corner cable rollers: guide the cable surely round each curve and cable friction is minimized.Even heavy duty cables run lightly off the rollers. The required winching power is considerably reduced and winching wires are no longer abraded as much.

Straight cable roller features:

1. Able to carry high loads
2. With chromel steel ball bearing
3. With a high load-bearing capacity
4. Self-lubrication, precision machined and low friction
5. Low noise, stable performance and durable
6. Able to work in sub-zero temperatures and have low rolling resistance
7. Suitable for countless applications: sliding pipe, machine equipment and other sliding systems.

Steel roller for cable roller is also available.

More pictures for our cable roller display:

Package for cable roller:1. For LCL shipping, we always pack the cable roller in wooden box.
2. For FCL shipping, we always pack the cable roller in box.

Welcome to inquire, we will feedback within  24 hours. /* 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

Type: Cable Pulling Tool
Customized: Customized
Condition: New
Feature: Fire/Flame Retardant
Item: Cable Pulley Roller Steel Cable Roller
Material: Q235 Steel
Samples:
US$ 20/Piece
1 Piece(Min.Order)

|

Customization:
Available

|

guide roller

Can guide rollers be customized for specific industries or conveyor configurations?

Yes, guide rollers can be customized to meet the specific requirements of different industries or conveyor configurations. Here’s a detailed explanation of how guide rollers can be customized:

  • Material Selection:

The choice of materials for guide rollers can be customized based on the industry or application requirements. Different industries may have specific material requirements due to factors such as environmental conditions, load capacity, or chemical resistance. Guide rollers can be manufactured using various materials, including metals like stainless steel or aluminum, as well as different types of polymers such as polyurethane or nylon. Customizing the material selection ensures that the guide rollers are suitable for the industry’s unique needs and can withstand the demands of the conveyor system.

  • Dimensions and Sizes:

Guide rollers can be customized in terms of their dimensions and sizes to accommodate specific conveyor configurations. The outer diameter, length, and shaft dimensions of the guide rollers can be adjusted to fit the available space or specific mounting requirements. Customizing the dimensions and sizes ensures proper integration of the guide rollers into the conveyor system and allows for seamless operation without any constraints or interference.

  • Flanges and Grooves:

The configuration of flanges and grooves on guide rollers can be customized to provide enhanced guidance and control. Depending on the application, different industries may require specific flange or groove designs to prevent material deviation, improve lateral stability, or facilitate tracking along curved or inclined conveyor sections. Customizing the flange and groove configurations ensures that the guide rollers meet the precise guidance and alignment needs of the conveyor system in a particular industry.

  • Specialized Coatings or Finishes:

Guide rollers can be customized with specialized coatings or finishes to enhance their performance and durability. Industries with unique requirements, such as food processing, pharmaceuticals, or electronics, may require guide rollers with specific coatings to ensure hygiene, reduce friction, or prevent static buildup. Customized coatings or finishes can be applied to guide rollers to meet the industry’s specific needs and comply with regulatory standards.

  • Mounting Configurations:

The mounting configurations of guide rollers can be customized to align with different conveyor systems. Industries may have varied conveyor designs, such as overhead conveyors, floor-mounted conveyors, or inclined conveyors. Customizing the mounting configurations of guide rollers ensures proper installation and integration with the specific conveyor configuration, allowing for efficient material handling and smooth operation.

  • Specialized Features:

Guide rollers can be customized with specialized features to cater to unique industry requirements. For example, industries that handle delicate or fragile materials may require guide rollers with cushioning or shock-absorbing properties to minimize impact. Customized features like bearings, seals, or lubrication systems can also be incorporated into guide rollers based on specific industry needs. These specialized features enhance the performance, reliability, and longevity of guide rollers in demanding industrial applications.

By offering customization options such as material selection, dimensions and sizes, flanges and grooves, specialized coatings or finishes, mounting configurations, and specialized features, guide rollers can be tailored to meet the specific requirements of different industries or conveyor configurations. Customized guide rollers ensure optimal performance, compatibility, and efficiency in material handling applications.

guide roller

What safety considerations should be taken into account when using guide rollers in industrial settings?

When using guide rollers in industrial settings, several safety considerations should be taken into account to ensure the well-being of personnel and the safe operation of equipment. Here are some important safety considerations:

  • Guarding and Enclosure:

Guide rollers should be properly guarded and enclosed to prevent accidental contact with moving parts. Guards and enclosures should be designed and installed in accordance with applicable safety standards and regulations. They should effectively restrict access to the guide rollers, minimizing the risk of entanglement, pinching, or crushing hazards. Adequate guarding and enclosure ensure that only authorized personnel can access the guide rollers for maintenance or inspection purposes, reducing the potential for accidents or injuries.

  • Lockout/Tagout Procedures:

Lockout/tagout procedures should be implemented when performing maintenance or servicing tasks on guide rollers. Lockout/tagout procedures involve isolating and de-energizing the conveyor system, ensuring that it cannot be accidentally started or operated during maintenance activities. This prevents unexpected movement of the guide rollers, reducing the risk of personnel getting caught or injured. Lockout/tagout procedures should be strictly followed, and personnel should be trained on their proper implementation to maintain a safe working environment.

  • Proper Training and Education:

All personnel involved in the operation, maintenance, or servicing of guide rollers should receive proper training and education on safety procedures and best practices. They should be familiar with the potential hazards associated with guide rollers and understand how to safely operate, inspect, and maintain them. Training should cover topics such as lockout/tagout procedures, emergency response protocols, hazard identification, and safe work practices. Regular refresher training sessions should be conducted to reinforce safety awareness and ensure that personnel stay updated with the latest safety guidelines.

  • Maintenance and Inspection:

Regular maintenance and inspection of guide rollers are essential for identifying and addressing potential safety issues. Adequate lubrication, cleaning, and adjustment of guide rollers should be performed according to manufacturer recommendations. Regular inspections should be conducted to check for signs of wear, damage, or misalignment. Any identified issues should be promptly addressed to prevent accidents or equipment failures. A systematic maintenance and inspection program helps ensure that guide rollers are in proper working condition, minimizing the risk of safety incidents.

  • Proper Lifting and Handling:

When lifting or handling guide rollers, proper lifting techniques and equipment should be used to prevent strains, sprains, or other musculoskeletal injuries. Guide rollers can be heavy and awkward to handle, so personnel should receive training on safe lifting practices. Appropriate lifting aids, such as hoists or cranes, should be used when necessary. Additionally, personnel should wear appropriate personal protective equipment (PPE), such as gloves or safety glasses, to protect against potential hazards during lifting and handling operations.

  • Emergency Stop Systems:

Guide rollers should be equipped with emergency stop systems that allow for immediate shutdown of the conveyor system in case of an emergency or hazardous situation. Emergency stop buttons or pull cords should be strategically located and easily accessible along the conveyor line. Personnel should be trained on how to use these emergency stop systems effectively. Regular testing and maintenance of the emergency stop systems should be conducted to ensure their reliable operation during critical situations.

In summary, when using guide rollers in industrial settings, several safety considerations should be taken into account. These include proper guarding and enclosure, implementation of lockout/tagout procedures, providing adequate training and education to personnel, performing regular maintenance and inspections, following proper lifting and handling practices, and ensuring the availability and functionality of emergency stop systems. By prioritizing safety and adhering to these considerations, the risks associated with guide rollers can be minimized, promoting a safe working environment and reducing the likelihood of accidents or injuries.

guide roller

How does the design of a guide roller contribute to efficient material handling and movement?

The design of a guide roller plays a crucial role in facilitating efficient material handling and movement within industrial applications. Here’s a detailed explanation of how the design of a guide roller contributes to efficiency:

  • Surface Configuration:

The surface configuration of a guide roller is carefully designed to optimize material handling and movement. Depending on the specific application, guide rollers may have a smooth surface, grooves, or flanges. A smooth surface reduces friction and allows objects to glide smoothly along the roller. Grooves or flanges provide additional guidance and prevent objects from deviating or slipping off the roller. The surface configuration ensures proper alignment and prevents misalignment, leading to efficient material handling and movement.

  • Material Selection:

The choice of materials for guide rollers is critical in ensuring efficient material handling. Guide rollers are commonly made from durable materials such as metal or high-quality plastics. These materials offer excellent strength, wear resistance, and dimensional stability. The selected materials should also have low friction properties to minimize energy loss and reduce the potential for material damage or wear. By selecting appropriate materials, the design of guide rollers contributes to efficient and reliable material handling and movement.

  • Bearing System:

The design of guide rollers incorporates a bearing system that allows smooth rotation and minimizes friction. The bearings used in guide rollers are typically sealed or shielded to protect against contaminants and ensure long-lasting performance. The bearing system enables the guide roller to rotate freely, reducing resistance and facilitating efficient material movement. It also contributes to the longevity of the guide roller by reducing wear and minimizing the need for frequent maintenance.

  • Size and Diameter:

The size and diameter of a guide roller are carefully determined based on the specific application and load requirements. Guide rollers come in various sizes and diameters to accommodate different material handling needs. Larger guide rollers can handle heavier loads with greater stability, while smaller guide rollers are suitable for lighter objects or confined spaces. The appropriate sizing and diameter of the guide roller ensure optimal support, load distribution, and efficient movement of materials.

  • Installation and Positioning:

The design of guide rollers takes into account proper installation and positioning within the machinery or system. Guide rollers are strategically placed along the intended path to provide continuous guidance and support. The spacing between guide rollers is determined to prevent material deviation or excessive sagging. Proper installation and positioning of guide rollers ensure smooth and consistent material handling, minimizing the risk of jams, misalignment, or disruptions in the movement process.

In summary, the design of a guide roller significantly contributes to efficient material handling and movement. The surface configuration, material selection, bearing system, size and diameter, as well as the proper installation and positioning of guide rollers, all play a vital role. By providing precise guidance, minimizing friction, supporting loads, and ensuring proper alignment, the design of guide rollers optimizes material handling processes, enhances productivity, and promotes efficient movement within industrial applications.

China supplier Cable Guide Roller Electrical Power Cable Pulley Roller Steel Cable Roller  China supplier Cable Guide Roller Electrical Power Cable Pulley Roller Steel Cable Roller
editor by Dream 2024-05-16

China wholesaler Triple Corner Fiber Optic Cable Pulley Guide Roller

Product Description

Triple Corner Fiber optic Cable Pulley Xihu (West Lake) Dis. Roller

Basic Introduction Of Cable Roller

Power and communication cables are often laid in open trenches where the road and ground conditions result in the cable route having a number of curves. With the cable’s own weight and the high tensions involved the cable cannot be fed cleanly.
The ground cable rollers and corner cable rollers from SINTA are made of aluminium, steel or plastic. The sturdy and robust steel frames are completely galvanized and guarantee a long working life even under extreme conditions.

The Specification List of Cable Roller

Product Model

XTCR

Wheel Length (mm) –M

160

Wheel Dia (mm) –R

140

Size (mm) (L*W*H)

530*300*300   420*320*320

140*60*165      170*100*225

Cable Capacity

155mm

Carrying Load

300Kg

Weight(kg)

10KG-12KG

Finish

Electro Galvanized / Hot Dip Galvanized

Construction

Medium Duty (10kg) ; Heavy Duty (12KG)

Wheel Material

Aluminum alloy material     Nylon material      Cast Iron

Feature of Triple Corner Fiber optic Cable Pulley Xihu (West Lake) Dis. Roller
1. Able to carry high loads
2. With chromel steel ball bearing
3. With a high load bearing capacity
4. Self-lubrication, precision machined and low friction
5. Low noise,stable performance and durable
6. Able to work in sub-zero temperatures and have low rolling resistance
7. Suitable for countless applications: sliding pipe, machine equipment and other sliding systems.

 

Direction for use

Cable pulley wheel is often laid in open trenched where the road and ground conditions result in the cable route having a number of curves. With the cable’s own weight and the high tensions involved the cable cannot be fed cleanly. The pulley block from SINTA is made of aluminium or nylon, frame is high grade galvanized steel or copper. The sturdy and robust steel frames are completely galvanized and guarantee a long working life even under extreme conditions.

Pictures of Triple Corner Fiber optic Cable Pulley Xihu (West Lake) Dis. Roller

The wheels of Cable Roller

Package:cable roller occupy small volume, be packed in paper box, convenient to transport

Delivery:within about 15 days after receiving the deposit.

1)We manufacture a lot of models Cable pulling block for different uses in the overhead transmission line
construction.
2) The cable pulley is used to support conductors, OPGW,ADSS, communication lines
3) The cable pulley is made from high strength MC nylon, aluminum, the frame are made of galvanized steel.
4) High strength and flexibility, easy to use, light weight, wearresisting, and long service life.

Other type of Cable Roller

/* 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

Type: Cable Roller
Customized: Customized
Condition: New
Feature: Fire/Flame Retardant
Transport Package: Paper Carton
Specification: 530x300x300mm
Samples:
US$ 10/Piece
1 Piece(Min.Order)

|

Customization:
Available

|

guide roller

Can you provide examples of products or machinery that commonly use guide rollers?

Guide rollers are used in various industries and applications where precise and controlled motion of materials or objects is required. Here are some examples of products or machinery that commonly use guide rollers:

  • Conveyor Systems:

Guide rollers are extensively used in conveyor systems across industries such as manufacturing, logistics, and warehousing. They are essential components in belt conveyors, roller conveyors, and gravity conveyors. Guide rollers ensure smooth and accurate movement of materials or objects along the conveyor, preventing misalignment, deviations, and material spillage. Conveyor systems in industries like automotive, food and beverage, e-commerce, and package handling rely on guide rollers for efficient material handling and transport.

  • Printing and Packaging Machinery:

In printing and packaging machinery, guide rollers play a critical role in maintaining precise alignment and tension control of materials, such as paper, film, or labels. They are used in machinery for processes like printing, laminating, slitting, cutting, and folding. Guide rollers guide the materials through various stages, ensuring accurate positioning and preventing wrinkles, creases, or misalignment. Printing presses, label applicators, paper converting machines, and packaging lines commonly incorporate guide rollers to achieve high-quality output and efficient production.

  • Textile Machinery:

Textile machinery, including weaving machines, knitting machines, and spinning machines, utilize guide rollers in their operations. Guide rollers guide the fabric or yarn through different stages of the manufacturing process, ensuring proper alignment, tension, and controlled movement. They help prevent yarn tangling, fabric distortions, or misalignment during weaving, knitting, or spinning. Guide rollers are crucial components in textile machinery, enabling efficient and precise fabric production.

  • Paper and Printing Industry:

In the paper and printing industry, guide rollers are utilized in various equipment and processes. For example, in offset printing presses, guide rollers assist in accurate paper feeding and alignment, ensuring precise registration of colors and images. In paper converting machines, guide rollers help guide the paper through cutting, folding, or gluing operations. Guide rollers also find application in bookbinding machines, where they facilitate the movement of paper signatures or book blocks through the binding process.

  • Metal and Woodworking Machinery:

Guide rollers are commonly used in metal and woodworking machinery to guide and support workpieces during cutting, shaping, or milling operations. In sawing machines, guide rollers ensure proper alignment and smooth movement of the material being cut. They also help prevent blade deflection or workpiece deviation. In woodworking routers or planers, guide rollers assist in controlling the movement of the workpiece, allowing for precise shaping or milling. Guide rollers contribute to increased accuracy and efficiency in metal and woodworking processes.

  • Automated Guided Vehicles (AGVs):

Automated Guided Vehicles (AGVs) used in material handling and logistics applications often incorporate guide rollers. Guide rollers are installed on AGVs to follow guide tracks or lines embedded in the floor or along the designated paths. They ensure accurate navigation and controlled motion of AGVs within warehouses, distribution centers, or manufacturing facilities. Guide rollers help AGVs maintain their intended paths, avoid obstacles, and achieve efficient and safe material transport.

These are just a few examples illustrating the wide range of products and machinery that commonly use guide rollers. Their versatility and ability to provide precise and controlled motion make guide rollers integral components in numerous industries, contributing to improved efficiency, productivity, and quality in various material handling and manufacturing processes.

guide roller

How do guide rollers contribute to the adaptability and versatility of conveyor systems in various settings?

Guide rollers play a critical role in enhancing the adaptability and versatility of conveyor systems in various settings. Here’s a detailed explanation of their contributions:

  • Flexible Path Routing:

Guide rollers enable flexible path routing, allowing conveyor systems to navigate complex layouts and adapt to different settings. By guiding the materials along specific paths, guide rollers facilitate precise material movement around obstacles, corners, inclines, or declines. This flexibility in path routing enables conveyor systems to be customized and configured to suit the specific requirements of different environments, layouts, or production processes. It allows for efficient space utilization and the integration of conveyors into existing infrastructure, making conveyor systems adaptable to a wide range of settings.

  • Multiple Conveyor Configurations:

Guide rollers enable the creation of multiple conveyor configurations, enhancing the versatility of conveyor systems. By combining straight sections, curves, merges, and diverges, conveyor systems can be configured to accommodate various material flow patterns and operational needs. Guide rollers provide the necessary support and alignment to ensure smooth transitions between different conveyor sections, allowing materials to be efficiently transferred, merged, sorted, or diverted. This versatility enables conveyor systems to be adapted for different processes, such as assembly lines, distribution centers, warehouses, or manufacturing facilities.

  • Adjustable Speed and Control:

Guide rollers contribute to the adaptability of conveyor systems by enabling adjustable speed and control. By adjusting the rotational speed of the guide rollers, the speed of material movement can be customized to match the specific requirements of different processes or settings. This flexibility in speed control allows conveyor systems to handle a wide range of materials, from delicate or fragile items that require gentle handling to heavy or bulky items that require faster conveyance. Adjustability in speed and control enhances the versatility of conveyor systems and ensures optimal material handling in various settings.

  • Modularity and Scalability:

Guide rollers facilitate the modularity and scalability of conveyor systems, making them adaptable to changing production needs or facility layouts. Conveyor systems can be designed with modular components, including guide rollers, that can be easily reconfigured, added, or removed as required. This modularity allows for efficient system expansion, modification, or reconfiguration without significant downtime or disruption. Guide rollers can be adjusted, replaced, or repositioned to accommodate changes in material types, sizes, or handling requirements. The scalability and modularity provided by guide rollers make conveyor systems versatile and adaptable to evolving operational needs.

  • Material Compatibility:

Guide rollers contribute to the adaptability of conveyor systems by accommodating a wide range of materials. They can be designed with different materials, surface textures, or coatings to suit specific material characteristics, such as size, shape, weight, or fragility. Guide rollers with specialized surfaces, such as non-slip coatings or friction-reducing materials, can be used for conveying items that require additional grip or gentle handling. This material compatibility enhances the versatility of conveyor systems, allowing them to handle diverse products or materials in various settings, from lightweight packages to heavy-duty items.

In summary, guide rollers significantly contribute to the adaptability and versatility of conveyor systems in various settings. They enable flexible path routing, support multiple conveyor configurations, allow for adjustable speed and control, facilitate modularity and scalability, and accommodate a wide range of materials. By leveraging the capabilities of guide rollers, conveyor systems can be tailored to meet the specific needs of different industries, processes, or layouts, making them adaptable and versatile in diverse settings.

guide roller

In what industries or scenarios are guide rollers commonly employed?

Guide rollers find widespread application in various industries and scenarios where precise guidance and support of moving objects are required. Here’s a detailed explanation of the industries or scenarios where guide rollers are commonly employed:

  • Manufacturing:

In the manufacturing industry, guide rollers are extensively used in production lines and assembly processes. They guide and support the movement of components, subassemblies, or finished products along conveyor systems, ensuring smooth and efficient material flow. Guide rollers are employed in industries such as automotive, electronics, consumer goods, and industrial equipment manufacturing.

  • Material Handling and Logistics:

In material handling and logistics operations, guide rollers play a vital role in conveyor systems and transportation equipment. They guide packages, parcels, or pallets through sorting, distribution, and storage processes, enhancing productivity and reducing handling errors. Guide rollers are commonly employed in warehouses, distribution centers, airports, and shipping facilities.

  • Packaging:

The packaging industry extensively utilizes guide rollers in various packaging machinery and systems. They facilitate the smooth movement and alignment of packaging materials, such as boxes, cartons, bottles, or bags, during filling, sealing, labeling, and palletizing operations. Guide rollers contribute to efficient packaging processes and consistent product quality.

  • Printing and Paper Handling:

In printing and paper handling applications, guide rollers are essential components in printing presses, paper mills, and document processing equipment. They guide paper, cardstock, or other printable media through the printing or processing stages, ensuring accurate registration, smooth feeding, and reliable operation. Guide rollers are critical in maintaining print quality and preventing paper jams or misalignments.

  • Textile and Garment Industry:

The textile and garment industry utilizes guide rollers in various stages of textile production, including spinning, weaving, knitting, and fabric finishing. They guide yarns, threads, or fabrics through machinery, ensuring proper tension, alignment, and controlled movement. Guide rollers contribute to high-quality textile production and efficient fabric handling.

  • Automation and Robotics:

In automation and robotics applications, guide rollers are employed in robotic arms, pick-and-place systems, and automated guided vehicles (AGVs). They guide the movement of robotic components, tools, or end-effectors, ensuring precise positioning, accurate path following, and collision avoidance. Guide rollers enhance the reliability and efficiency of automated processes.

  • Woodworking and Furniture:

In woodworking and furniture manufacturing, guide rollers are used in saws, routers, planers, and other woodworking machinery. They guide and support workpieces during cutting, shaping, and milling operations, ensuring precise and controlled material removal. Guide rollers contribute to the accuracy and quality of woodworking processes.

In summary, guide rollers are commonly employed in industries and scenarios that involve material handling, manufacturing, logistics, packaging, printing, textile production, automation, woodworking, and furniture manufacturing. Their versatility and ability to provide accurate guidance and support make them essential components in various industrial applications.

China wholesaler Triple Corner Fiber Optic Cable Pulley Guide Roller  China wholesaler Triple Corner Fiber Optic Cable Pulley Guide Roller
editor by Dream 2024-05-09

China supplier 260*230*330mm Underground Cable Guide Pulley Roller

Product Description

260*230*330mm Underground cable guide pulley roller

Basic Introduction Of Cable Roller

Power and communication cables are often laid in open trenches where the road and ground conditions result in the cable route having a number of curves. With the cable’s own weight and the high tensions involved the cable cannot be fed cleanly.
The ground cable rollers and corner cable rollers from SINTA are made of aluminium, steel or plastic. The sturdy and robust steel frames are completely galvanized and guarantee a long working life even under extreme conditions.

The Specification List of Cable Roller

Product Model

XTCR

Wheel Length (mm) –M

160

Wheel Dia (mm) –R

140

Size (mm) (L*W*H)

530*300*300   420*320*320

140*60*165      170*100*225

Cable Capacity

155mm

Carrying Load

300Kg

Weight(kg)

10KG-12KG

Finish

Electro Galvanized / Hot Dip Galvanized

Construction

Medium Duty (10kg) ; Heavy Duty (12KG)

Wheel Material

Aluminum alloy material     Nylon material      Cast Iron

Feature of 260*230*330mm Underground cable guide pulley roller
1. Able to carry high loads
2. With chromel steel ball bearing
3. With a high load bearing capacity
4. Self-lubrication, precision machined and low friction
5. Low noise,stable performance and durable
6. Able to work in sub-zero temperatures and have low rolling resistance
7. Suitable for countless applications: sliding pipe, machine equipment and other sliding systems.

 

Direction for use

Cable pulley wheel is often laid in open trenched where the road and ground conditions result in the cable route having a number of curves. With the cable’s own weight and the high tensions involved the cable cannot be fed cleanly. The pulley block from SINTA is made of aluminium or nylon, frame is high grade galvanized steel or copper. The sturdy and robust steel frames are completely galvanized and guarantee a long working life even under extreme conditions.

Pictures of Underground cable guide pulley roller

The wheels of Cable Roller

Package of 260*230*330mm Underground cable guide pulley roller: cable roller occupy small volume, be packed in paper box, convenient to transport

Delivery: within about 15 days after receiving the deposit.

1)We manufacture a lot of models Cable pulling block for different uses in the overhead transmission line
construction.
2) The cable pulley is used to support conductors, OPGW,ADSS, communication lines
3) The cable pulley is made from high strength MC nylon, aluminum, the frame are made of galvanized steel.
4) High strength and flexibility, easy to use, light weight, wearresisting, and long service life.

Other type of Cable Roller

/* 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

Type: Cable Roller
Customized: Customized
Condition: New
Feature: Fire/Flame Retardant
Weight: 5-12kg
Application: Used to Pull Cable, Protect Cable From Friction
Samples:
US$ 10/Piece
1 Piece(Min.Order)

|

Customization:
Available

|

guide roller

How does the choice of materials impact the performance of guide rollers in different environments?

The choice of materials for guide rollers significantly impacts their performance in different environments. Here’s a detailed explanation of how material selection affects the performance of guide rollers:

  • Wear Resistance:

Guide rollers are subjected to continuous contact and friction with the conveyed materials or objects. The choice of materials with high wear resistance is crucial to ensure the longevity and performance of guide rollers. Materials such as steel, stainless steel, or polyurethane are commonly used for guide rollers due to their excellent wear resistance properties. These materials can withstand the abrasion and wear caused by repetitive contact with the conveyed materials, resulting in extended service life and reliable performance in demanding environments.

  • Corrosion Resistance:

In environments where guide rollers are exposed to moisture, chemicals, or corrosive substances, selecting materials with high corrosion resistance is essential. Stainless steel is a popular choice for guide rollers in corrosive environments due to its resistance to rust and corrosion. Stainless steel guide rollers can withstand the effects of water, chemicals, and harsh substances, ensuring long-term performance and preventing premature failure or degradation due to corrosion.

  • Temperature Resistance:

In environments with extreme temperatures, the choice of materials with appropriate temperature resistance is critical to ensure the performance and durability of guide rollers. For high-temperature applications, materials such as heat-resistant steel alloys or specialized polymers that can withstand elevated temperatures are used. Conversely, in low-temperature environments, materials that remain flexible and maintain their mechanical properties at low temperatures, such as certain types of plastics or elastomers, are preferred. Selecting materials with suitable temperature resistance ensures that guide rollers can operate effectively and reliably in extreme temperature conditions.

  • Load-Bearing Capacity:

The choice of materials for guide rollers affects their load-bearing capacity, which is crucial for supporting the weight of the conveyed materials or objects. Materials with high strength and stiffness, such as steel or reinforced polymers, are commonly used to ensure sufficient load-bearing capacity. The material’s ability to withstand high loads without deformation or failure is essential for maintaining the stability and performance of guide rollers, particularly in heavy-duty applications or environments with significant material or object weights.

  • Noise and Vibration:

The choice of materials can influence the level of noise and vibration generated by guide rollers during operation. Softer materials with vibration-dampening properties, such as certain types of plastics or elastomers, can help reduce noise and vibration levels. These materials absorb and dissipate vibrations, resulting in quieter operation and reduced potential for noise-related issues or worker discomfort. Choosing materials that minimize noise and vibration is particularly important in environments where noise control is a priority, such as in indoor facilities or noise-sensitive areas.

  • Contamination and Cleanliness:

In environments where cleanliness and contamination control are critical, the choice of materials for guide rollers can play a significant role. Some materials, such as stainless steel or certain types of plastics, have smooth and non-porous surfaces that are resistant to contamination buildup. These materials are easier to clean and maintain, reducing the risk of particle generation or contamination transfer to the conveyed materials. Selecting materials that meet cleanliness requirements is essential in industries such as food processing, pharmaceuticals, or electronics manufacturing.

In summary, the choice of materials for guide rollers has a substantial impact on their performance in different environments. Factors such as wear resistance, corrosion resistance, temperature resistance, load-bearing capacity, noise and vibration levels, and contamination control should be considered when selecting materials for guide rollers. By choosing the appropriate materials for specific environmental conditions, guide rollers can deliver optimal performance, longevity, and reliability in a wide range of applications and industries.

guide roller

What are the signs that indicate a need for guide roller replacement or maintenance, and how can they be diagnosed?

Proper maintenance and timely replacement of guide rollers are crucial for the efficient and safe operation of conveyor systems. Here are some signs that indicate a need for guide roller replacement or maintenance, along with diagnostic methods:

  • Excessive Noise:

If guide rollers produce excessive noise during operation, it may indicate a problem. Unusual grinding, squeaking, or rattling noises can be signs of worn-out or damaged guide rollers. To diagnose the issue, the conveyor system should be observed and listened to during operation. If the noise persists even after cleaning or lubricating the guide rollers, it may be necessary to inspect them more closely for wear, misalignment, or other issues.

  • Uneven or Erratic Material Movement:

If materials on the conveyor system exhibit uneven or erratic movement, it could be a sign of guide roller problems. Misaligned or worn-out guide rollers may cause materials to veer off course, tilt, or become stuck. Visual observation of material movement along the conveyor path can help diagnose this issue. If materials consistently deviate from the intended path or exhibit inconsistent movement, it may be necessary to inspect the guide rollers for proper alignment, damage, or wear.

  • Excessive Vibration:

Excessive vibration in the conveyor system can indicate problems with guide rollers. Misaligned or damaged guide rollers can cause increased vibration, which can affect the overall stability and performance of the system. To diagnose this issue, the conveyor system should be observed during operation. Excessive vibration can be visually detected or felt by touching the conveyor frame or components. If excessive vibration is present, the guide rollers should be inspected for alignment issues, damage, or excessive wear.

  • Uneven Wear Patterns:

Inspecting the wear patterns on guide rollers can provide valuable information about their condition. Uneven wear patterns, such as flat spots, grooves, or excessive wear on specific areas, may indicate misalignment, improper loading, or damage to the guide rollers. Visual inspection of the guide rollers and comparing the wear patterns across multiple rollers can help diagnose this issue. If significant uneven wear is observed, it may be necessary to replace the affected guide rollers and investigate the underlying causes.

  • Physical Damage:

Physical damage to guide rollers, such as cracks, breaks, or deformations, is a clear indication that maintenance or replacement is needed. Visual inspection of the guide rollers should be conducted regularly to identify any visible signs of damage. If damaged guide rollers are detected, they should be replaced promptly to prevent further deterioration and potential system failures.

  • Increased Friction or Resistance:

If there is a noticeable increase in friction or resistance during the movement of the conveyor system, it may indicate problems with the guide rollers. Excessive friction can lead to increased power consumption, reduced efficiency, and accelerated wear of other components. To diagnose this issue, the conveyor system should be observed for any signs of dragging, sticking, or increased effort required for material movement. If increased friction or resistance is present, the guide rollers should be inspected for proper lubrication, cleanliness, or signs of damage.

In summary, several signs indicate a need for guide roller replacement or maintenance, including excessive noise, uneven or erratic material movement, excessive vibration, uneven wear patterns, physical damage, and increased friction or resistance. These signs can be diagnosed through visual observation, listening to the conveyor system during operation, inspecting wear patterns, checking for physical damage, and monitoring the overall performance and behavior of the system. Regular inspection and proactive maintenance of guide rollers are essential to ensure optimal conveyor system performance and prevent potential safety hazards.

guide roller

Can you describe the factors to consider when selecting guide rollers for specific applications?

When selecting guide rollers for specific applications, several factors need to be considered to ensure optimal performance and compatibility. Here’s a detailed explanation of the factors to consider:

  • Load Capacity:

The load capacity is a crucial factor to consider when selecting guide rollers. It refers to the maximum weight that the guide roller can support without compromising its performance or longevity. It’s important to assess the expected load requirements of the application, including both static and dynamic loads. Selecting guide rollers with an appropriate load capacity ensures that they can effectively support the materials or objects being handled, preventing premature wear, deformation, or failure.

  • Speed and Acceleration:

The speed and acceleration at which the guide rollers will operate are essential considerations. Higher speeds and accelerations can place increased stress on the guide rollers, requiring a design that can handle the resulting forces and vibrations. It’s important to choose guide rollers that are specifically designed for the anticipated speed and acceleration of the application to ensure smooth movement, minimize wear, and prevent issues such as excessive noise or instability.

  • Environmental Conditions:

The environmental conditions in which the guide rollers will be used play a significant role in their selection. Factors such as temperature, humidity, dust, chemicals, and exposure to corrosive substances can affect the performance and lifespan of guide rollers. It’s crucial to choose guide rollers that are made from materials and coatings suitable for the specific environmental conditions to ensure durability, corrosion resistance, and reliable operation over time.

  • Guidance and Alignment Requirements:

The level of guidance and alignment required by the application is an important consideration. Some applications may require precise tracking and alignment, while others may need minimal guidance. The design and configuration of the guide rollers, such as flanges, grooves, or tapered shapes, should be selected based on the specific guidance and alignment needs of the materials or objects being handled. Choosing guide rollers that provide the necessary level of guidance ensures accurate movement, prevents misalignment, and minimizes the risk of material damage or operational disruptions.

  • Mounting and Integration:

The mounting and integration of guide rollers within the application should be considered during the selection process. This includes factors such as the available space for mounting, the type of mounting arrangement required, and compatibility with existing machinery or systems. Guide rollers should be selected with appropriate dimensions, shaft configurations, and mounting options to ensure easy installation and seamless integration into the application.

  • Maintenance and Serviceability:

Considering the maintenance and serviceability aspects is important when selecting guide rollers. Factors such as accessibility for lubrication, ease of cleaning, and the availability of replacement parts should be considered. Guide rollers that are designed for easy maintenance and serviceability can help minimize downtime, extend the lifespan of the rollers, and reduce overall maintenance costs.

By considering these factors, including load capacity, speed and acceleration, environmental conditions, guidance and alignment requirements, mounting and integration, and maintenance and serviceability, the selection of guide rollers can be optimized for specific applications. This ensures that the chosen guide rollers are well-suited to handle the demands of the application, resulting in efficient material handling, reliable operation, and extended service life.

China supplier 260*230*330mm Underground Cable Guide Pulley Roller  China supplier 260*230*330mm Underground Cable Guide Pulley Roller
editor by CX 2024-03-20

China high quality Heavy Duty Underground Manhole Corner Cable Pulley Wire Pulling Laying Roller Cable Guide Roller for 50-150mm Cable

Product Description

 

Product Description

Heavy Duty Underground Manhole Corner Cable Pulley Wire Pulling Laying Roller Cable Xihu (West Lake) Dis. Roller For 50-150mm Cable

Basic Introduction Of Cable Roller
Power and communication cables are often laid in open trenches where the road and ground conditions result in the cable route having a number of curves. With the cable’s own weight and the high tensions involved the cable cannot be fed cleanly.
The ground cable rollers and corner cable rollers from SINTA are made of aluminium, steel or plastic. The sturdy and robust steel frames are completely galvanized and guarantee a long working life even under extreme conditions.

 

Product Parameters

The Specification List of cable pulling rollers

Product Model

XTCR-01

Wheel Length (mm) –M

160

Wheel Dia (mm) –R

140

Size (mm) (L*W*H)

530*300*300 420*320*320
140*60*165 170*100*225

Cable Capacity

155mm

Carrying Load

300kgs

Weight(kg)

10KG-12KG

Finish

Electro Galvanized / Hot Dip Galvanized

Construction

Medium Duty (10kg) ; Heavy Duty (12KG)

Wheel Material

Aluminum alloy material Nylon material Cast Iron

 

Features of Heavy Duty Underground Manhole Corner Pulling Cable Pulley Cable Laying Rollers

1. Able to carry high loads
2. With chromel steel ball bearing
3. With a high load bearing capacity
4. Self-lubrication, precision machined and low friction
5. Low noise,stable performance and durable
6. Able to work in sub-zero temperatures and have low rolling resistance
7. Suitable for countless applications: sliding pipe, machine equipment and other sliding systems.

Detailed Photos

Heavy Duty Underground Manhole Corner Cable Pulley Wire Pulling Laying Roller Cable Xihu (West Lake) Dis. Roller For 50-150mm Cable

Detailed pictures of Heavy Duty Underground Manhole Corner Cable Pulley Wire Pulling Laying Roller Cable Xihu (West Lake) Dis. Roller For 50-150mm Cable

 

Installation Instructions

Cable pulley rollers application:

Cable pulley wheel is often laid in open trenched where the road and ground conditions result in the cable route having a number of curves. With the cable’s own weight and the high tensions involved the cable cannot be fed cleanly. The pulley block from SINTA is made of aluminium or nylon, frame is high grade galvanized steel or copper. The sturdy and robust steel frames are completely galvanized and guarantee a long working life even under extreme conditions.

 

Packaging & Shipping

Package and shipment of Heavy Duty Underground Manhole Corner Cable Pulley Wire Pulling Laying Roller Cable Xihu (West Lake) Dis. Roller For 50-150mm Cable
Packing Details: wooden crate.
Delivery Details: 10-15 days after payment.

1)We manufacture a lot of models Cable pulling block for different uses in the overhead transmission line construction.
2) The cable pulley is used to support conductors, OPGW,ADSS, communication lines
3) The cable pulley is made from high strength MC nylon, aluminum, the frame are made of galvanized steel.
4) High strength and flexibility, easy to use, light weight, wearresisting, and long service life.

Other various Heavy Duty Underground Manhole Corner Cable Pulley Wire Xihu (West Lake) Dis. Laying Roller Cable Pulling Roller For 50-150mm Cable:

Other related cable laying tools:

                      fish tape                                                                    fiberglass duct rodder                                                 cable warning ball
 

Customer reviews

  /* 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

Type: Fiberglass Duct Rodder
Certification: ISO, SGS
Customized: Customized
Condition: New
Feature: Moistureproof
Name: Cable Pulley Wire Pulling Laying Roller Cable Guid
Samples:
US$ 10/Piece
1 Piece(Min.Order)

|

Customization:
Available

|

guide roller

Can guide rollers be customized for specific industries or conveyor configurations?

Yes, guide rollers can be customized to meet the specific requirements of different industries or conveyor configurations. Here’s a detailed explanation of how guide rollers can be customized:

  • Material Selection:

The choice of materials for guide rollers can be customized based on the industry or application requirements. Different industries may have specific material requirements due to factors such as environmental conditions, load capacity, or chemical resistance. Guide rollers can be manufactured using various materials, including metals like stainless steel or aluminum, as well as different types of polymers such as polyurethane or nylon. Customizing the material selection ensures that the guide rollers are suitable for the industry’s unique needs and can withstand the demands of the conveyor system.

  • Dimensions and Sizes:

Guide rollers can be customized in terms of their dimensions and sizes to accommodate specific conveyor configurations. The outer diameter, length, and shaft dimensions of the guide rollers can be adjusted to fit the available space or specific mounting requirements. Customizing the dimensions and sizes ensures proper integration of the guide rollers into the conveyor system and allows for seamless operation without any constraints or interference.

  • Flanges and Grooves:

The configuration of flanges and grooves on guide rollers can be customized to provide enhanced guidance and control. Depending on the application, different industries may require specific flange or groove designs to prevent material deviation, improve lateral stability, or facilitate tracking along curved or inclined conveyor sections. Customizing the flange and groove configurations ensures that the guide rollers meet the precise guidance and alignment needs of the conveyor system in a particular industry.

  • Specialized Coatings or Finishes:

Guide rollers can be customized with specialized coatings or finishes to enhance their performance and durability. Industries with unique requirements, such as food processing, pharmaceuticals, or electronics, may require guide rollers with specific coatings to ensure hygiene, reduce friction, or prevent static buildup. Customized coatings or finishes can be applied to guide rollers to meet the industry’s specific needs and comply with regulatory standards.

  • Mounting Configurations:

The mounting configurations of guide rollers can be customized to align with different conveyor systems. Industries may have varied conveyor designs, such as overhead conveyors, floor-mounted conveyors, or inclined conveyors. Customizing the mounting configurations of guide rollers ensures proper installation and integration with the specific conveyor configuration, allowing for efficient material handling and smooth operation.

  • Specialized Features:

Guide rollers can be customized with specialized features to cater to unique industry requirements. For example, industries that handle delicate or fragile materials may require guide rollers with cushioning or shock-absorbing properties to minimize impact. Customized features like bearings, seals, or lubrication systems can also be incorporated into guide rollers based on specific industry needs. These specialized features enhance the performance, reliability, and longevity of guide rollers in demanding industrial applications.

By offering customization options such as material selection, dimensions and sizes, flanges and grooves, specialized coatings or finishes, mounting configurations, and specialized features, guide rollers can be tailored to meet the specific requirements of different industries or conveyor configurations. Customized guide rollers ensure optimal performance, compatibility, and efficiency in material handling applications.

guide roller

What are the signs that indicate a need for guide roller replacement or maintenance, and how can they be diagnosed?

Proper maintenance and timely replacement of guide rollers are crucial for the efficient and safe operation of conveyor systems. Here are some signs that indicate a need for guide roller replacement or maintenance, along with diagnostic methods:

  • Excessive Noise:

If guide rollers produce excessive noise during operation, it may indicate a problem. Unusual grinding, squeaking, or rattling noises can be signs of worn-out or damaged guide rollers. To diagnose the issue, the conveyor system should be observed and listened to during operation. If the noise persists even after cleaning or lubricating the guide rollers, it may be necessary to inspect them more closely for wear, misalignment, or other issues.

  • Uneven or Erratic Material Movement:

If materials on the conveyor system exhibit uneven or erratic movement, it could be a sign of guide roller problems. Misaligned or worn-out guide rollers may cause materials to veer off course, tilt, or become stuck. Visual observation of material movement along the conveyor path can help diagnose this issue. If materials consistently deviate from the intended path or exhibit inconsistent movement, it may be necessary to inspect the guide rollers for proper alignment, damage, or wear.

  • Excessive Vibration:

Excessive vibration in the conveyor system can indicate problems with guide rollers. Misaligned or damaged guide rollers can cause increased vibration, which can affect the overall stability and performance of the system. To diagnose this issue, the conveyor system should be observed during operation. Excessive vibration can be visually detected or felt by touching the conveyor frame or components. If excessive vibration is present, the guide rollers should be inspected for alignment issues, damage, or excessive wear.

  • Uneven Wear Patterns:

Inspecting the wear patterns on guide rollers can provide valuable information about their condition. Uneven wear patterns, such as flat spots, grooves, or excessive wear on specific areas, may indicate misalignment, improper loading, or damage to the guide rollers. Visual inspection of the guide rollers and comparing the wear patterns across multiple rollers can help diagnose this issue. If significant uneven wear is observed, it may be necessary to replace the affected guide rollers and investigate the underlying causes.

  • Physical Damage:

Physical damage to guide rollers, such as cracks, breaks, or deformations, is a clear indication that maintenance or replacement is needed. Visual inspection of the guide rollers should be conducted regularly to identify any visible signs of damage. If damaged guide rollers are detected, they should be replaced promptly to prevent further deterioration and potential system failures.

  • Increased Friction or Resistance:

If there is a noticeable increase in friction or resistance during the movement of the conveyor system, it may indicate problems with the guide rollers. Excessive friction can lead to increased power consumption, reduced efficiency, and accelerated wear of other components. To diagnose this issue, the conveyor system should be observed for any signs of dragging, sticking, or increased effort required for material movement. If increased friction or resistance is present, the guide rollers should be inspected for proper lubrication, cleanliness, or signs of damage.

In summary, several signs indicate a need for guide roller replacement or maintenance, including excessive noise, uneven or erratic material movement, excessive vibration, uneven wear patterns, physical damage, and increased friction or resistance. These signs can be diagnosed through visual observation, listening to the conveyor system during operation, inspecting wear patterns, checking for physical damage, and monitoring the overall performance and behavior of the system. Regular inspection and proactive maintenance of guide rollers are essential to ensure optimal conveyor system performance and prevent potential safety hazards.

guide roller

Can you explain the primary functions and role of a guide roller in machinery?

A guide roller plays crucial functions and holds a significant role in machinery. Here’s a detailed explanation of the primary functions and role of a guide roller:

  • Guidance and Alignment:

One of the primary functions of a guide roller is to provide guidance and alignment for moving components within machinery. It ensures that objects or materials follow a predetermined path or track, preventing them from deviating or straying off course. The guide roller’s smooth or grooved surface, along with its rotational movement, helps maintain proper alignment and prevents misalignment or unwanted movements. By guiding the motion of objects, the guide roller ensures accurate positioning and efficient operation of the machinery.

  • Support and Load Distribution:

A guide roller serves as a support mechanism, carrying the weight of objects or loads within the machinery. It helps distribute the load evenly, preventing excessive stress or strain on specific components. By providing support and load distribution, the guide roller enhances the stability and overall performance of the machinery. It reduces the risk of component failures, improves operational efficiency, and extends the lifespan of the machinery.

  • Friction Reduction:

Guide rollers also play a role in reducing friction within machinery. As objects move along the guide roller’s surface, the roller’s design minimizes contact friction between the object and the machinery’s components. This friction reduction helps to conserve energy and prevent excessive wear and tear on both the objects being transported and the machinery itself. By reducing friction, guide rollers contribute to smoother operation, lower maintenance requirements, and improved overall efficiency.

  • Prevention of Damage and Misalignment:

The presence of guide rollers helps prevent damage and misalignment of objects or materials within machinery. By providing a designated path or track, guide rollers ensure that moving components stay in the intended position and avoid colliding with other parts of the machinery. This prevents potential damage to the objects being transported and the machinery itself. Additionally, guide rollers help prevent misalignment, which could lead to operational issues, decreased performance, and increased risk of accidents or mechanical failures.

  • Noise and Vibration Reduction:

Guide rollers contribute to noise reduction and vibration damping within machinery. The rotational movement of the guide roller absorbs and dissipates vibrations generated during operation, minimizing the transmission of vibrations to other parts of the machinery. This reduction in vibration helps to maintain a quieter working environment, reduces the risk of noise-related health issues for operators, and improves overall user comfort.

In summary, the primary functions and role of a guide roller in machinery include providing guidance and alignment for moving components, offering support and load distribution, reducing friction, preventing damage and misalignment, and contributing to noise and vibration reduction. By fulfilling these functions, guide rollers enhance the overall performance, reliability, and longevity of machinery in various industrial applications.

China high quality Heavy Duty Underground Manhole Corner Cable Pulley Wire Pulling Laying Roller Cable Guide Roller for 50-150mm Cable  China high quality Heavy Duty Underground Manhole Corner Cable Pulley Wire Pulling Laying Roller Cable Guide Roller for 50-150mm Cable
editor by CX 2024-03-10

China best Fiber Optic Power Electric Manhole Aluminium Alloy Cable Pulley Cable Pulling Guide Roller

Product Description

 

Product Description

Fiber Optic Power Electric Manhole Aluminium Alloy Cable Pulley Cable Pulling Xihu (West Lake) Dis. Roller

Basic Introduction Of Cable Roller
Power and communication cables are often laid in open trenches where the road and ground conditions result in the cable route having a number of curves. With the cable’s own weight and the high tensions involved the cable cannot be fed cleanly.
The ground cable rollers and corner cable rollers from SINTA are made of aluminium, steel or plastic. The sturdy and robust steel frames are completely galvanized and guarantee a long working life even under extreme conditions.

 

Product Parameters

The Specification List of cable pulling rollers

Product Model

XTCR-01

Wheel Length (mm) –M

160

Wheel Dia (mm) –R

140

Size (mm) (L*W*H)

530*300*300 420*320*320
140*60*165 170*100*225

Cable Capacity

155mm

Carrying Load

300kgs

Weight(kg)

10KG-12KG

Finish

Electro Galvanized / Hot Dip Galvanized

Construction

Medium Duty (10kg) ; Heavy Duty (12KG)

Wheel Material

Aluminum alloy material Nylon material Cast Iron

 

Features of Fiber Optic Power Electric Manhole Aluminium Alloy Cable Pulley Cable Pulling Xihu (West Lake) Dis. Roller

1. Able to carry high loads
2. With chromel steel ball bearing
3. With a high load bearing capacity
4. Self-lubrication, precision machined and low friction
5. Low noise,stable performance and durable
6. Able to work in sub-zero temperatures and have low rolling resistance
7. Suitable for countless applications: sliding pipe, machine equipment and other sliding systems.

Detailed Photos

Fiber Optic Power Electric Manhole Aluminium Alloy Cable Pulley Cable Pulling Xihu (West Lake) Dis. Roller

Detailed pictures of Fiber Optic Power Electric Manhole Aluminium Alloy Cable Pulley Cable Pulling Xihu (West Lake) Dis. Roller

 

Installation Instructions

Fiber Optic Power Electric Manhole Aluminium Alloy Cable Pulley Cable Pulling Xihu (West Lake) Dis. Roller application:

Cable pulley wheel is often laid in open trenched where the road and ground conditions result in the cable route having a number of curves. With the cable’s own weight and the high tensions involved the cable cannot be fed cleanly. The pulley block from SINTA is made of aluminium or nylon, frame is high grade galvanized steel or copper. The sturdy and robust steel frames are completely galvanized and guarantee a long working life even under extreme conditions.

 

Packaging & Shipping

Package and shipment of Fiber Optic Power Electric Manhole Aluminium Alloy Cable Pulley Cable Pulling Xihu (West Lake) Dis. Roller
Packing Details: wooden crate.
Delivery Details: 10-15 days after payment.

1)We manufacture a lot of models Cable pulling block for different uses in the overhead transmission line construction.
2) The cable pulley is used to support conductors, OPGW,ADSS, communication lines
3) The cable pulley is made from high strength MC nylon, aluminum, the frame are made of galvanized steel.
4) High strength and flexibility, easy to use, light weight, wearresisting, and long service life.

Other various Fiber Optic Power Electric Manhole Aluminium Alloy Cable Pulley Cable Pulling Xihu (West Lake) Dis. Rollers:

Other related cable laying tools:

                      fish tape                                                                    fiberglass duct rodder                                                 cable warning ball
 

Customer reviews

/* March 10, 2571 17:59:20 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Type: Fiberglass Duct Rodder
Certification: ISO, SGS
Customized: Customized
Condition: New
Feature: Moistureproof
Name: Manhole Cable Pulley Cable Pulling Guide Roller
Samples:
US$ 10/Piece
1 Piece(Min.Order)

|

Customization:
Available

|

guide roller

What maintenance practices are recommended for guide rollers to ensure optimal functionality?

Maintaining guide rollers is essential to ensure their optimal functionality and longevity. Here are some recommended maintenance practices for guide rollers:

  • Regular Inspection:

Perform regular visual inspections of the guide rollers to check for any signs of damage, wear, or misalignment. Look for cracks, dents, or excessive wear on the roller surface. Inspect the mounting brackets, bearings, and axles for any looseness or misalignment. Early detection of issues can help prevent further damage and ensure the guide rollers function properly.

  • Cleaning:

Keep the guide rollers clean by removing any dirt, debris, or material buildup. Use a soft brush or compressed air to gently clean the roller surfaces and remove any contaminants that may affect their performance. For stubborn residue, mild cleaning agents can be used, following the manufacturer’s recommendations. Clean guide rollers help maintain smooth operation and prevent potential issues caused by contamination.

  • Lubrication:

Proper lubrication is crucial for the smooth operation and longevity of guide rollers. Follow the manufacturer’s guidelines regarding the type and frequency of lubrication required. Apply lubricants to the bearings, axles, or other moving parts as recommended. Adequate lubrication reduces friction, minimizes wear, and helps prevent premature failure or damage to the guide rollers.

  • Tension Adjustment:

If the guide rollers are part of a system where tension adjustment is necessary, regularly check and adjust the tension settings as required. Ensure that the tension is within the recommended range to prevent excessive stress on the guide rollers or the conveyed materials. Proper tension adjustment helps maintain accurate alignment and prevents issues such as material slipping or misalignment.

  • Replacement of Worn Components:

Monitor the condition of the guide roller components, such as bearings, axles, or mounting brackets, and replace any worn or damaged parts promptly. Worn bearings can cause increased friction, leading to reduced performance and potential damage to the guide rollers. Damaged axles or mounting brackets can affect the stability and alignment of the guide rollers. Regularly inspect and replace any worn or damaged components to ensure optimal functionality.

  • Alignment and Calibration:

Periodically check and adjust the alignment of the guide rollers to ensure they are properly positioned for accurate material guidance. Misaligned guide rollers can cause material deviation, tracking issues, or increased wear. Additionally, if the guide rollers are part of a system with sensors or automated controls, calibrate the system as per the manufacturer’s instructions to maintain accurate positioning and control.

  • Training and Safety:

Ensure that personnel responsible for operating or maintaining equipment with guide rollers receive appropriate training. Proper training can help operators understand the maintenance requirements, safety protocols, and best practices for guide roller operation. Promote a safety culture where operators are encouraged to report any abnormalities or concerns related to the guide rollers promptly.

By following these recommended maintenance practices, guide rollers can maintain optimal functionality, extend their service life, and contribute to efficient and reliable material handling and transport.

guide roller

Are there innovations or advancements in guide roller technology that have emerged recently?

Yes, there have been several recent innovations and advancements in guide roller technology. Here are some notable developments:

  • High-Performance Materials:

Recent advancements in materials science have led to the development of high-performance materials for guide rollers. These materials offer improved strength, durability, and wear resistance, allowing guide rollers to withstand heavy loads and harsh operating conditions. For example, composite materials combining polymers and fibers offer excellent mechanical properties while being lightweight. Additionally, advancements in surface coatings, such as ceramic or diamond-like carbon (DLC) coatings, provide enhanced friction reduction, corrosion resistance, and longevity.

  • Precision Design and Manufacturing:

Guide rollers are now being designed and manufactured with a greater emphasis on precision. Advanced manufacturing techniques, such as computer numerical control (CNC) machining and 3D printing, enable the production of guide rollers with complex geometries, tight tolerances, and optimized performance characteristics. This precision design and manufacturing result in guide rollers that offer improved alignment, reduced vibration, and enhanced overall performance.

  • Integrated Sensors and Monitoring:

Advancements in sensor technology have made it possible to integrate sensors directly into guide rollers. These sensors can monitor various parameters such as temperature, vibration, or load, providing real-time feedback on the condition and performance of the guide rollers. This data can be used for predictive maintenance, allowing for proactive identification of potential issues and timely intervention to prevent failures or downtime. Integrated sensors and monitoring systems contribute to improved reliability, efficiency, and maintenance practices in material handling systems.

  • Smart Guide Rollers:

Smart guide rollers leverage emerging technologies, such as Internet of Things (IoT) and artificial intelligence (AI), to enhance their functionality and performance. These guide rollers can communicate with other components or systems within the material handling setup, enabling real-time optimization, automation, and control. For example, smart guide rollers can adjust their position or speed dynamically based on the specific material being handled or the desired process parameters. This adaptability and intelligence lead to improved efficiency, flexibility, and responsiveness in material handling operations.

  • Energy Efficiency:

In response to the growing emphasis on sustainability and energy conservation, guide roller technology has seen advancements aimed at improving energy efficiency. This includes the development of low-friction materials, optimized roller designs, and innovative bearing systems that minimize power consumption and reduce frictional losses. By reducing energy requirements, these advancements contribute to lower operational costs and a reduced environmental footprint.

In summary, recent innovations and advancements in guide roller technology encompass high-performance materials, precision design and manufacturing, integrated sensors and monitoring, smart capabilities, and energy efficiency. These advancements enhance the durability, performance, reliability, and sustainability of guide rollers, making them more effective and versatile in a wide range of material handling applications.

guide roller

Can you describe the factors to consider when selecting guide rollers for specific applications?

When selecting guide rollers for specific applications, several factors need to be considered to ensure optimal performance and compatibility. Here’s a detailed explanation of the factors to consider:

  • Load Capacity:

The load capacity is a crucial factor to consider when selecting guide rollers. It refers to the maximum weight that the guide roller can support without compromising its performance or longevity. It’s important to assess the expected load requirements of the application, including both static and dynamic loads. Selecting guide rollers with an appropriate load capacity ensures that they can effectively support the materials or objects being handled, preventing premature wear, deformation, or failure.

  • Speed and Acceleration:

The speed and acceleration at which the guide rollers will operate are essential considerations. Higher speeds and accelerations can place increased stress on the guide rollers, requiring a design that can handle the resulting forces and vibrations. It’s important to choose guide rollers that are specifically designed for the anticipated speed and acceleration of the application to ensure smooth movement, minimize wear, and prevent issues such as excessive noise or instability.

  • Environmental Conditions:

The environmental conditions in which the guide rollers will be used play a significant role in their selection. Factors such as temperature, humidity, dust, chemicals, and exposure to corrosive substances can affect the performance and lifespan of guide rollers. It’s crucial to choose guide rollers that are made from materials and coatings suitable for the specific environmental conditions to ensure durability, corrosion resistance, and reliable operation over time.

  • Guidance and Alignment Requirements:

The level of guidance and alignment required by the application is an important consideration. Some applications may require precise tracking and alignment, while others may need minimal guidance. The design and configuration of the guide rollers, such as flanges, grooves, or tapered shapes, should be selected based on the specific guidance and alignment needs of the materials or objects being handled. Choosing guide rollers that provide the necessary level of guidance ensures accurate movement, prevents misalignment, and minimizes the risk of material damage or operational disruptions.

  • Mounting and Integration:

The mounting and integration of guide rollers within the application should be considered during the selection process. This includes factors such as the available space for mounting, the type of mounting arrangement required, and compatibility with existing machinery or systems. Guide rollers should be selected with appropriate dimensions, shaft configurations, and mounting options to ensure easy installation and seamless integration into the application.

  • Maintenance and Serviceability:

Considering the maintenance and serviceability aspects is important when selecting guide rollers. Factors such as accessibility for lubrication, ease of cleaning, and the availability of replacement parts should be considered. Guide rollers that are designed for easy maintenance and serviceability can help minimize downtime, extend the lifespan of the rollers, and reduce overall maintenance costs.

By considering these factors, including load capacity, speed and acceleration, environmental conditions, guidance and alignment requirements, mounting and integration, and maintenance and serviceability, the selection of guide rollers can be optimized for specific applications. This ensures that the chosen guide rollers are well-suited to handle the demands of the application, resulting in efficient material handling, reliable operation, and extended service life.

China best Fiber Optic Power Electric Manhole Aluminium Alloy Cable Pulley Cable Pulling Guide Roller  China best Fiber Optic Power Electric Manhole Aluminium Alloy Cable Pulley Cable Pulling Guide Roller
editor by CX 2024-02-22

China high quality Manufacture Cable Roller Hanging Hook Wire Exterior Electric Cable Guide Pulley

Product Description

Product Description

 

Stainless steel nylon hoisting pully block cable roller laying tools

1. Double-purpose cable pulley, suitable for Angle steel crossarm, extending small and medium section conductor

2.Lightweight, no damage to the wire, safe and reliable

3. Reinforce hook, bearing heavy, not easy to fall off, widen and thicken steel plate, safe and stable

4. Aluminum cable pulley, high carbon steel, durable, used for straight rod on the extension of aluminum strand or steel core aluminum strand

5. Advanced edge folding technology to prevent damage and deformation

6. Thickened high strength nylon wheel, not afraid of falling, light weight, high wear resistance
 

Product Name

High-Quality Small Stainless Steel Single Block Nylon Sheave Pulley

Material

Stainless Steel , Nylon, Aluminum

Size

80*50mm,120*60mm,160*40mm,200*60mm,250*60mm

Use and Characteristics:

Suit for middle and small section wire expansion.
About to hang pay-off pulley, also can be face to pay-off pulley.
1)sheave: Nylon/ Al;
2)Material quality: stainless
3)Rated load:0.5Ton,1Ton;2Ton

Place of Origin

China

Payment Terms

T/T, L/C, West Union, Paypal, etc

MOQ

10 pcs

Sample Time

5 days

Delivery

10 days

Size:80*30mm/100*35mm/100*50mm/120*35mm/120*60mm/ 150*60mm/200*70mm     Size:80*35mm/80*50mm/100*50mm/120*60mm/150*60mm/ 200*60mm/250*60mm

Products Catalogue

 

Company Profile

 

 

FAQ

1. Q: Do you provide sample service?
A: Yes, we only provide samples and ask for 1 piece at a time. The freight should be borne by you.

2. Q: Do you support customized services?
A: Yes, we can customize the size and logo according to your needs. Please consult the customer service for the specific minimum order quantity.

3. Q:  How is the Design & Engineering?
A:  Experienced and skilled team of designers including CAD designers and 3D designers has the capacity to deliver outstanding designs for your project. If you require more complex engineering of structures such as overhead transmission and distribution lines design,we can also provide this service also designer fee . 

4. Q:  What’s the payment term? 
A:  We accept T/T, L/C, West Union.

5. Q:  What’s the delivery time? 
A:  Usually within 7-15 days according to quantities 

6. Q:  What’s the standard of package? 
A:  Export standard package or special package as the requirement of customers. 

7. Q:  What kind of product quality your factory offer? 
A:  Our products with both excellent quality and competitive price. And we offer free sample for your reference. 

8. Q:  What kind of certificate you have? 
A:  We have ISO9001:2008

/* March 10, 2571 17:59:20 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Type: Pulley Block
Certification: CE, RoHS, CCC, ISO
Customized: Customized
Condition: New
Feature: Insulation
Transport Package: Wooden Case
Samples:
US$ 0/Piece
1 Piece(Min.Order)

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guide roller

How do guide rollers contribute to precise and controlled motion in conveyor systems?

In conveyor systems, guide rollers play a crucial role in ensuring precise and controlled motion. Here’s a detailed explanation of how guide rollers contribute to achieving precise and controlled motion in conveyor systems:

  • Guidance and Alignment:

Guide rollers are strategically positioned along the conveyor system to provide continuous guidance and alignment for the transported materials or objects. The design of guide rollers, such as flanges, grooves, or tapered shapes, helps maintain the proper orientation and prevents lateral movement or misalignment. By guiding the materials or objects along the desired path, guide rollers ensure precise and controlled motion, preventing deviation or disruptions in the conveyor system.

  • Smooth and Low-Friction Movement:

Guide rollers are designed to offer smooth and low-friction movement. The surface configuration of guide rollers, often smooth or with minimal friction characteristics, reduces resistance and allows materials or objects to glide easily along the conveyor. This smooth movement minimizes jerks, vibrations, and inconsistencies, contributing to precise and controlled motion. It facilitates the accurate positioning and delivery of materials or objects to their intended destinations within the conveyor system.

  • Load Distribution and Stability:

Guide rollers distribute the load evenly across the conveyor system, contributing to stability and controlled motion. As materials or objects pass over the guide rollers, the load is shared among multiple rollers, preventing excessive stress on any individual roller. This load distribution minimizes the risk of roller damage, wear, or failure, ensuring consistent and reliable motion. The stability provided by guide rollers allows for precise control and avoids issues like wobbling, tilting, or material spillage during transportation.

  • Acceleration and Deceleration Control:

Guide rollers assist in controlling the acceleration and deceleration of materials or objects within the conveyor system. By adjusting the spacing and configuration of guide rollers, the speed changes can be managed more precisely. Guide rollers can be strategically positioned closer together to slow down the motion or spaced farther apart to allow for faster speeds. This control over acceleration and deceleration ensures a smooth and controlled transition between different conveyor sections or when starting and stopping the conveyor system.

  • Cam Follower Rollers for Synchronized Motion:

In conveyor systems that require synchronized motion or precise positioning, cam follower rollers are used. These specialized guide rollers are designed to follow a specific cam profile or track, allowing for accurate and controlled movement. Cam follower rollers ensure that multiple materials or objects on the conveyor system move in sync, maintaining precise spacing and alignment. They are commonly used in applications such as indexing mechanisms, assembly lines, or processes that require coordinated motion.

Overall, guide rollers contribute to precise and controlled motion in conveyor systems through their guidance and alignment capabilities, smooth and low-friction movement, load distribution and stability, control over acceleration and deceleration, and the use of specialized cam follower rollers. By incorporating these design features, guide rollers facilitate accurate material handling, minimize errors or deviations, and ensure efficient and reliable operation of conveyor systems.

guide roller

What safety considerations should be taken into account when using guide rollers in industrial settings?

When using guide rollers in industrial settings, several safety considerations should be taken into account to ensure the well-being of personnel and the safe operation of equipment. Here are some important safety considerations:

  • Guarding and Enclosure:

Guide rollers should be properly guarded and enclosed to prevent accidental contact with moving parts. Guards and enclosures should be designed and installed in accordance with applicable safety standards and regulations. They should effectively restrict access to the guide rollers, minimizing the risk of entanglement, pinching, or crushing hazards. Adequate guarding and enclosure ensure that only authorized personnel can access the guide rollers for maintenance or inspection purposes, reducing the potential for accidents or injuries.

  • Lockout/Tagout Procedures:

Lockout/tagout procedures should be implemented when performing maintenance or servicing tasks on guide rollers. Lockout/tagout procedures involve isolating and de-energizing the conveyor system, ensuring that it cannot be accidentally started or operated during maintenance activities. This prevents unexpected movement of the guide rollers, reducing the risk of personnel getting caught or injured. Lockout/tagout procedures should be strictly followed, and personnel should be trained on their proper implementation to maintain a safe working environment.

  • Proper Training and Education:

All personnel involved in the operation, maintenance, or servicing of guide rollers should receive proper training and education on safety procedures and best practices. They should be familiar with the potential hazards associated with guide rollers and understand how to safely operate, inspect, and maintain them. Training should cover topics such as lockout/tagout procedures, emergency response protocols, hazard identification, and safe work practices. Regular refresher training sessions should be conducted to reinforce safety awareness and ensure that personnel stay updated with the latest safety guidelines.

  • Maintenance and Inspection:

Regular maintenance and inspection of guide rollers are essential for identifying and addressing potential safety issues. Adequate lubrication, cleaning, and adjustment of guide rollers should be performed according to manufacturer recommendations. Regular inspections should be conducted to check for signs of wear, damage, or misalignment. Any identified issues should be promptly addressed to prevent accidents or equipment failures. A systematic maintenance and inspection program helps ensure that guide rollers are in proper working condition, minimizing the risk of safety incidents.

  • Proper Lifting and Handling:

When lifting or handling guide rollers, proper lifting techniques and equipment should be used to prevent strains, sprains, or other musculoskeletal injuries. Guide rollers can be heavy and awkward to handle, so personnel should receive training on safe lifting practices. Appropriate lifting aids, such as hoists or cranes, should be used when necessary. Additionally, personnel should wear appropriate personal protective equipment (PPE), such as gloves or safety glasses, to protect against potential hazards during lifting and handling operations.

  • Emergency Stop Systems:

Guide rollers should be equipped with emergency stop systems that allow for immediate shutdown of the conveyor system in case of an emergency or hazardous situation. Emergency stop buttons or pull cords should be strategically located and easily accessible along the conveyor line. Personnel should be trained on how to use these emergency stop systems effectively. Regular testing and maintenance of the emergency stop systems should be conducted to ensure their reliable operation during critical situations.

In summary, when using guide rollers in industrial settings, several safety considerations should be taken into account. These include proper guarding and enclosure, implementation of lockout/tagout procedures, providing adequate training and education to personnel, performing regular maintenance and inspections, following proper lifting and handling practices, and ensuring the availability and functionality of emergency stop systems. By prioritizing safety and adhering to these considerations, the risks associated with guide rollers can be minimized, promoting a safe working environment and reducing the likelihood of accidents or injuries.

guide roller

Can you describe the factors to consider when selecting guide rollers for specific applications?

When selecting guide rollers for specific applications, several factors need to be considered to ensure optimal performance and compatibility. Here’s a detailed explanation of the factors to consider:

  • Load Capacity:

The load capacity is a crucial factor to consider when selecting guide rollers. It refers to the maximum weight that the guide roller can support without compromising its performance or longevity. It’s important to assess the expected load requirements of the application, including both static and dynamic loads. Selecting guide rollers with an appropriate load capacity ensures that they can effectively support the materials or objects being handled, preventing premature wear, deformation, or failure.

  • Speed and Acceleration:

The speed and acceleration at which the guide rollers will operate are essential considerations. Higher speeds and accelerations can place increased stress on the guide rollers, requiring a design that can handle the resulting forces and vibrations. It’s important to choose guide rollers that are specifically designed for the anticipated speed and acceleration of the application to ensure smooth movement, minimize wear, and prevent issues such as excessive noise or instability.

  • Environmental Conditions:

The environmental conditions in which the guide rollers will be used play a significant role in their selection. Factors such as temperature, humidity, dust, chemicals, and exposure to corrosive substances can affect the performance and lifespan of guide rollers. It’s crucial to choose guide rollers that are made from materials and coatings suitable for the specific environmental conditions to ensure durability, corrosion resistance, and reliable operation over time.

  • Guidance and Alignment Requirements:

The level of guidance and alignment required by the application is an important consideration. Some applications may require precise tracking and alignment, while others may need minimal guidance. The design and configuration of the guide rollers, such as flanges, grooves, or tapered shapes, should be selected based on the specific guidance and alignment needs of the materials or objects being handled. Choosing guide rollers that provide the necessary level of guidance ensures accurate movement, prevents misalignment, and minimizes the risk of material damage or operational disruptions.

  • Mounting and Integration:

The mounting and integration of guide rollers within the application should be considered during the selection process. This includes factors such as the available space for mounting, the type of mounting arrangement required, and compatibility with existing machinery or systems. Guide rollers should be selected with appropriate dimensions, shaft configurations, and mounting options to ensure easy installation and seamless integration into the application.

  • Maintenance and Serviceability:

Considering the maintenance and serviceability aspects is important when selecting guide rollers. Factors such as accessibility for lubrication, ease of cleaning, and the availability of replacement parts should be considered. Guide rollers that are designed for easy maintenance and serviceability can help minimize downtime, extend the lifespan of the rollers, and reduce overall maintenance costs.

By considering these factors, including load capacity, speed and acceleration, environmental conditions, guidance and alignment requirements, mounting and integration, and maintenance and serviceability, the selection of guide rollers can be optimized for specific applications. This ensures that the chosen guide rollers are well-suited to handle the demands of the application, resulting in efficient material handling, reliable operation, and extended service life.

China high quality Manufacture Cable Roller Hanging Hook Wire Exterior Electric Cable Guide Pulley  China high quality Manufacture Cable Roller Hanging Hook Wire Exterior Electric Cable Guide Pulley
editor by CX 2024-01-24

China best Manhole Cable Pulley Conduit Cable Roller Cable Guide Rollers

Product Description

manhole cable pulley conduit cable roller cable guide rollers

Cable Rollers are designed to ease the procedure of handling and installing cables while on site. Suitable for general cable installation work in trenches, cable rollers are popular when dealing with telecoms, utility and power installations. Created with zinc plating, they are designed for durability and to sustain a reliable performance. Cable rollers ensure an easy installation and there is no better solution to guiding and protecting cables than these cable rollers.

In order to keep the cables in the best condition, cable rollers should always be used when pulling cables but especially in circumstances where the installation area is sharp or abrasive. Cable Rollers also make pulling the cable that much easier as there is less friction between the cable and the surface of the ground.

Cable Rollers are used so that when the cable is being pulled, it runs along the roller and not on the ground. Rollers are available in a range of sizes and can hold a variety of different weights depending on the size of cable. They are also available for applications with inclines and corners. These rollers keep the cable being pulled safe from any damage the surface may cause and also keep them out of any mud or muck that may be at the bottom of the trench. It is advised to not leave cables lying over-night. Prolonged exposure to the elements during the installation process can cause damage to the cables.
Specification for single cable roller.

Item Name Material Size(mm) Weight(KG) Color
Nylon  single cable pulley Nylon roller,steel frame 310*230*270(H)mm 3-3.2KGS orange,silvery
aluminum alloy single Cable pulley aluminum alloy roller,steel frame  310*230*270(H)mm 3.8-4KGS orange,silvery

We also accept customized!

single cable pulley,is mainly used for the transmission of the underground cable,protect the cable from wear.we have 2 materials of the roller including nylon and aluminum alloy for your choose.

Electrical Cable Roller Application
1.setting the cable
2.Change the angle of the cable
3.Used in the engineering machinery aluminum alloy single Cable Roller
4.Nylon cable roller Used to support conductors, OPGW,ADSS,communication lines

More phtotos for Electrical Cable Roller

Our company and workshop

Xihu (West Lake) Dis. CHINAMFG FRP Product Co.,Ltd. is professional supplier with more than 6 export years experience,

With professional team, strict quality control measures,Sinta supply high quality for the single cable pulley.

We CHINAMFG always offer appropriate price and provide the best product. If you have some special demand, please tell us and we will make the special product that you want. The after-sales service is good, and we will have the expert serve for you.

Package and shipping for Nylon & Aluminum Alloy Electrical Cable Rollers

Single cable pulley:carton,pallet or as your demands

Shipping:within 5-15days after deposit by sea,by air….

Try order is acceptable. Sample is available.
Welcome to inquire, we will feedback within 24 hours.

/* March 10, 2571 17:59:20 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Type: Cable Laying Tools
Customized: Customized
Condition: New
Feature: Moistureproof
Item: Cable Roller
Roller Diameter: 140mm
Samples:
US$ 10.8/Piece
1 Piece(Min.Order)

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Customization:
Available

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guide roller

How do guide rollers contribute to precise and controlled motion in conveyor systems?

In conveyor systems, guide rollers play a crucial role in ensuring precise and controlled motion. Here’s a detailed explanation of how guide rollers contribute to achieving precise and controlled motion in conveyor systems:

  • Guidance and Alignment:

Guide rollers are strategically positioned along the conveyor system to provide continuous guidance and alignment for the transported materials or objects. The design of guide rollers, such as flanges, grooves, or tapered shapes, helps maintain the proper orientation and prevents lateral movement or misalignment. By guiding the materials or objects along the desired path, guide rollers ensure precise and controlled motion, preventing deviation or disruptions in the conveyor system.

  • Smooth and Low-Friction Movement:

Guide rollers are designed to offer smooth and low-friction movement. The surface configuration of guide rollers, often smooth or with minimal friction characteristics, reduces resistance and allows materials or objects to glide easily along the conveyor. This smooth movement minimizes jerks, vibrations, and inconsistencies, contributing to precise and controlled motion. It facilitates the accurate positioning and delivery of materials or objects to their intended destinations within the conveyor system.

  • Load Distribution and Stability:

Guide rollers distribute the load evenly across the conveyor system, contributing to stability and controlled motion. As materials or objects pass over the guide rollers, the load is shared among multiple rollers, preventing excessive stress on any individual roller. This load distribution minimizes the risk of roller damage, wear, or failure, ensuring consistent and reliable motion. The stability provided by guide rollers allows for precise control and avoids issues like wobbling, tilting, or material spillage during transportation.

  • Acceleration and Deceleration Control:

Guide rollers assist in controlling the acceleration and deceleration of materials or objects within the conveyor system. By adjusting the spacing and configuration of guide rollers, the speed changes can be managed more precisely. Guide rollers can be strategically positioned closer together to slow down the motion or spaced farther apart to allow for faster speeds. This control over acceleration and deceleration ensures a smooth and controlled transition between different conveyor sections or when starting and stopping the conveyor system.

  • Cam Follower Rollers for Synchronized Motion:

In conveyor systems that require synchronized motion or precise positioning, cam follower rollers are used. These specialized guide rollers are designed to follow a specific cam profile or track, allowing for accurate and controlled movement. Cam follower rollers ensure that multiple materials or objects on the conveyor system move in sync, maintaining precise spacing and alignment. They are commonly used in applications such as indexing mechanisms, assembly lines, or processes that require coordinated motion.

Overall, guide rollers contribute to precise and controlled motion in conveyor systems through their guidance and alignment capabilities, smooth and low-friction movement, load distribution and stability, control over acceleration and deceleration, and the use of specialized cam follower rollers. By incorporating these design features, guide rollers facilitate accurate material handling, minimize errors or deviations, and ensure efficient and reliable operation of conveyor systems.

guide roller

How do guide rollers contribute to the adaptability and versatility of conveyor systems in various settings?

Guide rollers play a critical role in enhancing the adaptability and versatility of conveyor systems in various settings. Here’s a detailed explanation of their contributions:

  • Flexible Path Routing:

Guide rollers enable flexible path routing, allowing conveyor systems to navigate complex layouts and adapt to different settings. By guiding the materials along specific paths, guide rollers facilitate precise material movement around obstacles, corners, inclines, or declines. This flexibility in path routing enables conveyor systems to be customized and configured to suit the specific requirements of different environments, layouts, or production processes. It allows for efficient space utilization and the integration of conveyors into existing infrastructure, making conveyor systems adaptable to a wide range of settings.

  • Multiple Conveyor Configurations:

Guide rollers enable the creation of multiple conveyor configurations, enhancing the versatility of conveyor systems. By combining straight sections, curves, merges, and diverges, conveyor systems can be configured to accommodate various material flow patterns and operational needs. Guide rollers provide the necessary support and alignment to ensure smooth transitions between different conveyor sections, allowing materials to be efficiently transferred, merged, sorted, or diverted. This versatility enables conveyor systems to be adapted for different processes, such as assembly lines, distribution centers, warehouses, or manufacturing facilities.

  • Adjustable Speed and Control:

Guide rollers contribute to the adaptability of conveyor systems by enabling adjustable speed and control. By adjusting the rotational speed of the guide rollers, the speed of material movement can be customized to match the specific requirements of different processes or settings. This flexibility in speed control allows conveyor systems to handle a wide range of materials, from delicate or fragile items that require gentle handling to heavy or bulky items that require faster conveyance. Adjustability in speed and control enhances the versatility of conveyor systems and ensures optimal material handling in various settings.

  • Modularity and Scalability:

Guide rollers facilitate the modularity and scalability of conveyor systems, making them adaptable to changing production needs or facility layouts. Conveyor systems can be designed with modular components, including guide rollers, that can be easily reconfigured, added, or removed as required. This modularity allows for efficient system expansion, modification, or reconfiguration without significant downtime or disruption. Guide rollers can be adjusted, replaced, or repositioned to accommodate changes in material types, sizes, or handling requirements. The scalability and modularity provided by guide rollers make conveyor systems versatile and adaptable to evolving operational needs.

  • Material Compatibility:

Guide rollers contribute to the adaptability of conveyor systems by accommodating a wide range of materials. They can be designed with different materials, surface textures, or coatings to suit specific material characteristics, such as size, shape, weight, or fragility. Guide rollers with specialized surfaces, such as non-slip coatings or friction-reducing materials, can be used for conveying items that require additional grip or gentle handling. This material compatibility enhances the versatility of conveyor systems, allowing them to handle diverse products or materials in various settings, from lightweight packages to heavy-duty items.

In summary, guide rollers significantly contribute to the adaptability and versatility of conveyor systems in various settings. They enable flexible path routing, support multiple conveyor configurations, allow for adjustable speed and control, facilitate modularity and scalability, and accommodate a wide range of materials. By leveraging the capabilities of guide rollers, conveyor systems can be tailored to meet the specific needs of different industries, processes, or layouts, making them adaptable and versatile in diverse settings.

guide roller

Can you describe the factors to consider when selecting guide rollers for specific applications?

When selecting guide rollers for specific applications, several factors need to be considered to ensure optimal performance and compatibility. Here’s a detailed explanation of the factors to consider:

  • Load Capacity:

The load capacity is a crucial factor to consider when selecting guide rollers. It refers to the maximum weight that the guide roller can support without compromising its performance or longevity. It’s important to assess the expected load requirements of the application, including both static and dynamic loads. Selecting guide rollers with an appropriate load capacity ensures that they can effectively support the materials or objects being handled, preventing premature wear, deformation, or failure.

  • Speed and Acceleration:

The speed and acceleration at which the guide rollers will operate are essential considerations. Higher speeds and accelerations can place increased stress on the guide rollers, requiring a design that can handle the resulting forces and vibrations. It’s important to choose guide rollers that are specifically designed for the anticipated speed and acceleration of the application to ensure smooth movement, minimize wear, and prevent issues such as excessive noise or instability.

  • Environmental Conditions:

The environmental conditions in which the guide rollers will be used play a significant role in their selection. Factors such as temperature, humidity, dust, chemicals, and exposure to corrosive substances can affect the performance and lifespan of guide rollers. It’s crucial to choose guide rollers that are made from materials and coatings suitable for the specific environmental conditions to ensure durability, corrosion resistance, and reliable operation over time.

  • Guidance and Alignment Requirements:

The level of guidance and alignment required by the application is an important consideration. Some applications may require precise tracking and alignment, while others may need minimal guidance. The design and configuration of the guide rollers, such as flanges, grooves, or tapered shapes, should be selected based on the specific guidance and alignment needs of the materials or objects being handled. Choosing guide rollers that provide the necessary level of guidance ensures accurate movement, prevents misalignment, and minimizes the risk of material damage or operational disruptions.

  • Mounting and Integration:

The mounting and integration of guide rollers within the application should be considered during the selection process. This includes factors such as the available space for mounting, the type of mounting arrangement required, and compatibility with existing machinery or systems. Guide rollers should be selected with appropriate dimensions, shaft configurations, and mounting options to ensure easy installation and seamless integration into the application.

  • Maintenance and Serviceability:

Considering the maintenance and serviceability aspects is important when selecting guide rollers. Factors such as accessibility for lubrication, ease of cleaning, and the availability of replacement parts should be considered. Guide rollers that are designed for easy maintenance and serviceability can help minimize downtime, extend the lifespan of the rollers, and reduce overall maintenance costs.

By considering these factors, including load capacity, speed and acceleration, environmental conditions, guidance and alignment requirements, mounting and integration, and maintenance and serviceability, the selection of guide rollers can be optimized for specific applications. This ensures that the chosen guide rollers are well-suited to handle the demands of the application, resulting in efficient material handling, reliable operation, and extended service life.

China best Manhole Cable Pulley Conduit Cable Roller Cable Guide Rollers  China best Manhole Cable Pulley Conduit Cable Roller Cable Guide Rollers
editor by CX 2024-01-17

China manufacturer Fiberoptic Cable Pulley Straight Line Cable CZPT Roller with Best Sales

Product Description

Fiberoptic Cable Pulley Straight line Cable Xihu (West Lake) Dis. Roller

Introduction of bridge cable rollers
The electrical cable roller mainly used for the transmission of the underground cable. We will give you the appropriate price and provide you with the best product. If you have some special demand, please tell us and we will make the special product that you want.  The after-sales service is good, and we will have the expert serve for you.
 

Cable roller Features :
◊ All Powder Coating with Plastic Coated Heavy Duty assembly suitable for Cables up to 125mm Diameter.
◊ Steel Frame Fitted Large waited steel roller running on sealed ball bearings.
◊ Base Size : 560mm × 330mm × 330 (L × W × H)….also can be customized
◊ Roller Size : 115mm Dia × 190mm Length
◊ Both Ends of Rollers, fitted ZZ Bearings with Bearing Covers.and we also have nylon rollers
 
Cable roller types
 § Ground Cable Roller, aluminium
Abrasion resistant aluminium rollers, galvanized steel tube frame
dust- and soil proof ball bearings, large ground clearance
§  Ground Cable Roller, steel
Abrasion resistant steel rollers, galvanized steel tube frame
dust- and soil proof ball bearings, large ground clearance
§ Ground Cable Roller, synthetic
Non-aging and weatherproof, extreme light weight, highly shock-resistant 
stackable, large ground clearance, for cables up to Ø 100 mm

 
Cable roller Specification

Serial No. Material Length
(mm)
Width
(mm)
Height
(mm)
wheel dia
(mm)
wheel width(mm) weigth
(kg)
ST- 8603 steel frame & aluminum roller / nylon roller  330 230 260 140 160 5

Other hot sale cable rollers

Applicatipoon for cable pulley wheels

The product is widely used in engineering machinery, electric power, petroleum, mining, coal, metallurgy, paper 

making, construction, port, cable and other industries, cable tunnels show exhibition place or on the ground put

 the extension cable and wire release, the product is divided into single-round and three, non-fragile cables.

 We manufacture a lot of models Cable pulling block for different uses in the overhead transmission line construction.

They have are used to support conductors, OPGW,ADSS, communication lines. The sheave of the pulley blocks are 

made from high strength MC nylon,or aluminum materials ,and the frame of blocks are made of galvanized steel

FACTORY SHOW

 

How to Fix a Faulty Drive Belt Tensioner

If you’re experiencing grinding, squeaking, or other unusual sounds from your car, your drive belt tensioner may be the culprit. In this article, we’ll discuss why a failed drive belt tensioner may need to be replaced and how to fix it. Once you have determined that your belt tensioner is faulty, you can use a Wrench to remove it and replace it with a new one. After you replace the belt tensioner, it will no longer be making noises.
belt

Problems with timing belt tensioner

Whenever your engine is making strange noises, it is likely that the timing belt tensioner is causing the problem. A bad timing belt tensioner is a big cause of such sounds, as the timing of the engine is critical. When the belt is moving properly, the camshaft and crankshaft are perfectly synchronized, and the valves work in perfect sync during the intake and exhaust strokes of each cylinder.
Other signs of a worn tensioner include rust bleeding and dripping. Usually, rust will appear at the mounting bolts and “stops” on the tensioner. Other symptoms of a worn timing belt tensioner are noise, resistance, and roughness. If any of these symptoms are present, it’s important to get the car fixed as soon as possible. Troubleshooting problems with timing belt tensioner is an easy process if you know the symptoms.
If your car starts making squeaking or grinding noises when you drive, it’s probably the timing belt tensioner. The timing belt can also cause problems with your engine’s valves. When the timing belt is too loose, the valves cannot fully combust the fuel-air mixture. If this problem is left undiagnosed, it could result in severe engine damage. To solve the problem, you must replace the timing belt tensioner.
The repair of the timing belt tensioner is not a difficult job if you’re experienced and comfortable with DIY car repairs. If you have a good knowledge of car repair, you can try to replace it yourself – but don’t forget that it is a complex repair job that requires a lot of skill. So, it’s best to hire a professional mechanic. And if you don’t have the necessary tools and training, you can always try the DIY method.
Other symptoms of a bad timing belt tensioner include an abnormal chirping noise, misfiring, and check engine light malfunction. If you notice any of these symptoms, you should replace the timing belt tensioner as soon as possible. Often, the belt is wearing out and can’t spin freely. You may have to replace the timing belt tensioner to avoid major damage to your engine. The best way to tell if the timing belt tensioner is failing is to check it regularly.

Cost of a new drive belt tensioner

A new drive belt can be expensive. Replacing 1 is usually a straightforward task that requires little knowledge, but some cars are more difficult than others. Replacing a drive belt by yourself may result in the replacement of parts you do not know. You may also encounter problems that cannot be resolved unless you have a mechanic check all the affected parts. You can save money by taking the car to a mechanic before trying to fix the problem yourself.
A drive belt tensioner should last at least 125,000 miles, but can break sooner. Most car mechanics will replace the tensioner after you notice the belt is slipping. It takes about 15 minutes to an hour to replace 1 of these parts, and you can do it yourself with the proper tools. You can also ask about the replacement of pulleys or sprockets. The price of a new drive belt tensioner depends on the make and model of your car.
The average cost to replace a drive belt tensioner is between $235 and $267. This cost includes labor and parts, but doesn’t include taxes or fees. Some vehicles may need related repairs as well, such as serpentine belts or tensioner housing. For a detailed estimate, use the RepairPal Fair Price Estimator. You can compare labor costs and shop for the best price. There are many options available online, and you can choose the most convenient 1 for your needs.
In addition to replacing the drive belt, you should also check the idler pulleys, which do not drive anything. If they have excessive movement, replace them. A failed drive belt tensioner can cause the belt to slip and affect other components of the car. You may also notice warning lights that indicate a problem with the alternator, water pump, or power steering. You should also check your vehicle’s air conditioning.
Replacing the tensioner pulley can be done yourself for about $50. Depending on the type of pulley and belt, you may need to replace other parts of the engine as well. You can save money by replacing a tensioner pulley yourself if you have the time and skills. It’s easy to replace a new drive belt tensioner if you’re a mechanically inclined individual.
belt

Repair options for a failed drive belt tensioner

A failed drive belt tensioner may have several symptoms. For instance, it can make a grinding or squealing sound, and it may emit a burning smell. The battery light on your car may also stay on. These are all signs that your drive belt has failed. However, these symptoms are not always indicative of the failure of the drive belt tensioner. Listed below are some common problems that can be caused by a failed drive belt tensioner.
To check for a failed drive belt tensioner, turn off the engine and examine the arm. If it doesn’t move, it’s time to replace the drive belt. A manual drive belt tensioner is easy to replace. A hydraulic or bad spring drive belt tensioner, however, will not be able to be fixed. If you can’t find a repair shop in your area, visit 1 of NAPA AutoCare locations, or a NAPA online store. They will be able to diagnose the failure and provide solutions for your car.
A spring tensioner is a type of drive belt tensioner that uses a spring-loaded pulley to apply the proper tension to the drive belt. However, spring tensioners can fail and seize if not properly maintained. A hydraulic tensioner uses hydraulic oil under pressure and can malfunction. In some cases, the tensioner can leak oil or lose its ability to tension the drive belt. It can also be damaged by excessive wear, which will cause the belt to break.
A failed drive belt tensioner can affect your car’s performance and functionality. In addition to making your car squeaky and jerky, a failed drive belt tensioner can cause the serpentine or v-belt to slip and wear out prematurely. Repairing a failed drive belt tensioner can also prevent your car from experiencing the same problems in the future. So, what do you do if you find your drive belt is slipping?
If your drive belt tensioner isn’t the problem, you’ll have to replace it. In some cases, a loose tensioner arm can lead to cracks in the tensioner housing. In the worst case scenario, the damaged tensioner can also lead to an overheated engine. Ultimately, a failed drive belt tensioner can cause your car to experience overheating, weak battery charging, and even a weakened power steering system.
belt

Maintenance requirements for a drive belt tensioner

Drive belt tensioner maintenance begins with proper alignment of the pulleys. Misaligned pulleys or drives can wear a belt out too fast. Misalignment can occur if the component was recently replaced. A set of shims can restore the pulleys to the proper alignment. It is important to regularly check the tensioner to ensure proper function. Also, check the belt for cracks or wear.
Before performing any maintenance work, always turn off the drive to protect the motor. The belt should be in a safe position so that it will not fall on the workers. Lock down any moving parts and ensure the fans do not freewheel. When inspecting the drive belt tensioner, examine the belt guard for wear and debris. If the belt is damaged or has excessive heat, it is necessary to clean it or replace it.
It is important to maintain a proper fit between the belt and the drive belt tensioner. An incorrectly-sized drive belt will be difficult to install and adjust. An incorrect-rib count drive belt will fit, but will not last as long. Likewise, drive belts with too many ribs will not last as long. For these reasons, drive belt tensioners should be replaced when they are over 50,000 miles.
A drive belt tensioner is a pulley that rides on the outside surface of the serpentine belt. Its purpose is to maintain constant pressure on the pulleys that power car components. It is typically mounted on the front of the engine, bolted to the crankshaft, and rests against the serpentine belt. If the drive belt is cracked, it needs to be replaced immediately. If the arm is loose or bent, the bearings in the tensioner are probably worn.
The drive belt tensioner is an important part of the drive system, which is essential for smooth operation of the vehicle. However, it does wear out prematurely and should be replaced at a certain mileage. It should also be inspected for normal wear and tear as a result of road dirt, excessive heat, and oil leaks. However, it is important to remember that drive belts are highly sensitive to excessive heat, road dirt, and oil leaks.

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