China Professional Belt Convyor Guide Roller Side Roller for Heavy Duty Industrial Coveyor

Product Description

XinRiSheng Carrier conveyor rollers are used to support and shape the conveyor belt. Conveyor carrier rollers can be fitted to the load side of the belt in: trough, tracking and transition frames, or fitted to the return side of the belt.

Diameter Φ89, Φ102, Φφ108, Φ114, Φ127, Φ133, Φ139, Φ152, Φ159, Φ165,  Φ194
Length 145mm-2800mm
Shaft A3 and 45# steel
Shell Q235(GB), Q345(GB), welded with DIN2394 standed
Bearing 6204/6205/6305/6206/6306/6307/6308/6309/6310
Working Life More than 30000hours
Advantages Low resistance, waterproof, dustproof  etc.

XinRiSheng Brand Conveyor features:
1. XinRiSheng in desiging conveyor rollers combines the requirements of high quality and labyrinth seal.
2.Roller Shell : consist of a selection steel tube,machined at either to strict tolerance.
3.Bearing house : Formed from strip deep pressed and calibrated to ISO M7.this tolerance allowing a perfect match between the bearing and the relevant parts on the sealing.
4. The roller shell and the 2 bearing housings are welded together in an way that forms a monolithic structure of exceptional strength. This method guarantees the maximum precision and the minimum out of balance forces in the rollers.
5. Seal : XinRiSheng Triple Labyrinth Seal design is grease filled and offers an additional level of protection from contaminants impacting the bearing CEMA C, D and E Idlers have sealed for life ball bearings.
6.Wide range of working temperatures from 0º C to 100º C.
7.Final Testing: Dimension,surface, Radial circular runout,Rotational resistance,Axial load,Water immersion seal,Axial displacement,Drop test.

XinRiSheng Brand Conveyor Rollers Production Process:
XinRiSheng Brand Conveyor Roller Advantage:

  1. Triple Labyrinth Seal
  2. Sealed for life ball bearings
  3. Extremely low rolling resistance
  4. CEMA C & D standard product line
  5. Idler end welding
  6. Solid steel shaft
  7. gauge steel shell/cover

Impact Roller Idlers:
Impact rollers are used as carrying rollers instead of normal steel rollers at a loading point. On steel roller there are rubber rings assembled, side by side, to absorb the weight and impact of material falling CHINAMFG the belt. At the same time impact rollers reduce the shock and vibration through the steel structure.

Specification of Impact Conveyor Roller Idlers:

Diameter(mm) Shaft Diameter Bearing Part No. Min Bearing Dynamic
Loading Pating(N)
127mm 25mm 6205 14000N
133mm 25mm 6205 14000N
152mm 25mm 6205 14000N
159mm 25mm 6205 14000N
127mm 25mm 6305 22500N
133mm 25mm 6305 22500
152mm 25mm 6305 22500N
159mm 25mm 6305 22500N
152mm 30mm 6306 28100N
178mm 30mm 6306 28100N
178mm 35mm 6307 33200N
203mm 35mm 6307 33200N
178mm 40mm 6308 41000N
203mm 40mm 6308 41000N
203mm 45mm 6309 52700N
203mm 50mm 6310 61800N
250mm 60mm 6312 81900N

Steel Spiral Return Roller Idler
The steel spiral return idler are used as support for the return side of belt. Used where sticky, corrosive, or CHINAMFG materials are present. Not only cleans itself, but keeps the belt cleans and double spiral configuration minimizes belt training problems such as misalignment.

Specification of steel spiral rubber idler:

Diameter Length Bearing Model Shaft Diameter
89mm 950mm 6204 20mm
108mm 950mm 6205 25mm
108mm 1150mm 6205 25mm
108mm 1400mm 6205 25mm
108mm 1600mm 6205 25mm
133mm 950mm 6305 25mm
133mm 1150mm 6305 25mm
133mm 1400mm 6305 25mm
133mm 1600mm 6305 25mm
159mm 1150mm 6306 30mm
159mm 1400mm 6306 30mm
159mm 1600mm 6306 30mm

Rubber Disc Return Roller Idler
Disc Return Rollers are used where the material has the potential to collect on the surface of the rollers which could ultimately lead to premature failure. The Ring minimises material build up on the roller shell. To maximise longevity, routine cleaning should still be observed. Rings come in rubber as standard.

  Ring Size(mm)
   
76.1mm 108mm,133mm,159mm
88.9mm 133mm,150mm,159mm,180mm,270mm,3Tube(mm)30mm
108mm 159mm,180mm,195mm,219mm

HDPE roller for mining and aggressive applications.
HDPE contains carbon black increasing ultra violet resistance. Steel and HDPE tube combination provides significantly reduced weight. The bearing housing effectively locks the HDPE tube in position preventing movement along the steel tube.

Diameter(mm) Shell Wall(mm) Nominal Shaft Diameter(mm) Bearing Part No. Min Bearing Dynamic Load Rating(N)
127mm 3.5+6.5 20mm 6204 12700N
127mm 3.5+6.5 25mm 6205 14000N
152mm 4+6.5 25mm 6205 22500N
159mm 4+10 25mm 6205 22500N
127mm 3.5+6.5 25mm 6305 22500N
133mm 3.5+9.5 25mm 6305 22500N
152mm 4+6.5 25mm 6305 22500N
159mm 4+10 25mm 6305 22500N
127mm 3.5+6.5 30mm 6306 28100N
133mm 3.5+9.5 30mm 6306 28100N
152mm 4+6.5 30mm 6306 28100N
159mm 4+10 30mm 6306 28100N
178mm 4+6.5 30mm 6306 28100N
152mm 6+6.5 35mm 6307 33200N
159mm 6+10 35mm 6307 33200N
178mm 6+6.5 35mm 6307 33200N
152mm 6+6.5 40mm 6308 41000N
159mm 6+10 40mm 6308 41000N
178mm 6+6.5 40mm 6308 41000N
193mm 6+7.5 40mm 6308 41000N
219mm 6+13 40mm 6308 41000N
178mm 6+6.5 45mm 6309 52700N
193mm 6+7.5 45mm 6309 52700N
193mm 6+7.5 45mm 6309 52700N
193mm 6+7.5 50mm 6310 61800N

Self Aligning Training Roller Idelers:
The Friction self aligning conveyor roller is used to adjust the belt deviation. Friction friction self-adjusting conveyor roller has great ability to protect conveyor belt from damage and running offline.

Friction self -aligning conveyor rollers specifications:

Diameter(mm) 89.7-193.7mm
Length(mm) 500-1400(Total Length:674-1630)
Shell Thickness(mm) 3.2-4.5
Standard DIN,CEMA,JIS,AS,SANS-SABS,GOST,AFNOR etc.

Nylon Rollers and Idlers:
The Nylon Roller Idler is light in weight and easy to install in the air. The nylon wheel has been widely used as a tower crane accessory in various lifting equipment, and gradually replaces the normal metal pulley with its great advantages. 

Shell Diameter Shaft Diameter  Bearing Series Material
89mm 17mm/20mm 6204 Cast Nylon PA6,PA66
102mm 20mm/25mm 6204/6205 Cast Nylon PA6,PA66
108mm 20mm/25mm 6204/6205 Cast Nylon PA6,PA66
114mm 20mm/25mm 6204/6205 Cast Nylon PA6,PA66
127mm 20mm/25mm.30mm 6204/6571/6206 Cast Nylon PA6,PA66
133mm 20mm/25mm/30mm 6204/6571/6206 Cast Nylon PA6,PA66
140mm 20mm/25mm/30mm 6205/6305/6206 Cast Nylon PA6,PA66
152mm 25mm/30mm/35mm 6305/6206/6306/6207 Cast Nylon PA6,PA66
159mm 30mm/35mm/40mm 6306/6207/6308 Cast Nylon PA6,PA66
165mm 35mm/40mm/45mm 6206/6306/6207/6308 Cast Nylon PA6,PA66

All kinds  of rollers, idlers, pulleys, rubber belts,belt conveyors can be provided:

Why Choose XinRiSheng Brand Conveyor Rollers:
XinRiSheng conveyor rollers are built to last and designed for medium to extreme heavy duty requirements for various industries. Applications include: steel proecess,quarrying,cement,coal,chemical plant and recycling industries. All rollers are suitable for continuous operation in the most extreme weather conditions and hostile environments. XinRiSheng Conveyor Rollers are designed for endurance and components originate from quality sources. Balancing determines a roller’s life, which is ensured by using concentric pipes, precision end-caps and double-bored spindles and Triple Labyrinth Seal. Rolling resistance determines the power requirements for a conveyor, which is why XinRiSheng conveyor rollers are lubricated for life and double sealed to resist dust permeation.
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Material: Steel
Application: Chemical Industry, Grain Transportation, Mining Transport, Power Plant, Coal,Cement,Steel,Quarry Site, Port, Bulk Material
Structure: Ordinary Roller
Bearing Type: Double Sealed Bearing
Type: Grooved Conveyor Idler
Seal: Labyrinth Seal
Samples:
US$ 12/Piece
1 Piece(Min.Order)

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Customization:
Available

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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

How does the choice of guide rollers affect the overall performance and reliability of material handling systems?

The choice of guide rollers plays a critical role in determining the overall performance and reliability of material handling systems. The selection of appropriate guide rollers can have a significant impact on various aspects of system operation. Here are some key ways in which the choice of guide rollers affects the performance and reliability of material handling systems:

  • Conveyor Alignment and Tracking:

Guide rollers are responsible for maintaining proper alignment and tracking of the conveyor belt or other conveying surfaces. The design and quality of guide rollers directly influence the ability of the system to keep the belt or material on the intended path. Well-designed guide rollers with precise dimensions and smooth surfaces minimize belt misalignment, reducing the risk of material spillage, jams, and premature wear. Properly aligned guide rollers ensure smooth and stable material movement, enhancing the overall efficiency and reliability of the system.

  • Material Handling Efficiency:

The choice of guide rollers can affect the efficiency of material handling operations. Guide rollers with low rolling resistance and minimal friction facilitate smooth and effortless material movement along the conveyor system. They reduce the power requirements and energy consumption, optimizing the overall efficiency of the system. Additionally, guide rollers that are designed to handle specific types of materials, such as heavy loads or fragile items, can improve handling efficiency by providing appropriate support and reducing the risk of damage or product loss.

  • Component Durability:

High-quality guide rollers made from durable materials can significantly enhance the reliability and longevity of material handling systems. Guide rollers that are resistant to wear, corrosion, and impact are less likely to fail prematurely or require frequent replacement. They can withstand the demanding operating conditions commonly encountered in industrial settings, minimizing downtime and maintenance costs. Choosing guide rollers with robust construction and suitable coatings or finishes ensures the reliability of the system and reduces the risk of unexpected failures.

  • Noise and Vibration:

The selection of guide rollers can impact the level of noise and vibration produced by the material handling system. Guide rollers that are properly designed and manufactured with precision help reduce noise generation during operation. They minimize the chances of rattling, squeaking, or grinding noises, creating a quieter and more comfortable working environment. Additionally, guide rollers that effectively dampen vibrations contribute to the smooth and stable operation of the system, reducing stress on components and improving overall reliability.

  • Maintenance and Serviceability:

The choice of guide rollers can affect the ease of maintenance and serviceability of material handling systems. Guide rollers that are designed for easy installation, adjustment, and replacement simplify maintenance tasks and reduce downtime. Considerations such as accessible mounting arrangements, quick-release mechanisms, and standardized dimensions can make maintenance procedures more efficient. By selecting guide rollers that are user-friendly and facilitate routine maintenance, the reliability of the system can be improved, and the overall cost of ownership can be reduced.

In summary, the choice of guide rollers significantly influences the overall performance and reliability of material handling systems. The selection of appropriate guide rollers ensures proper alignment and tracking, enhances material handling efficiency, improves component durability, reduces noise and vibration, and facilitates maintenance and serviceability. By considering factors such as design, quality, material compatibility, and specific application requirements, the right guide rollers can be chosen to optimize system performance, increase reliability, and support efficient material handling operations.

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 Professional Belt Convyor Guide Roller Side Roller for Heavy Duty Industrial Coveyor  China Professional Belt Convyor Guide Roller Side Roller for Heavy Duty Industrial Coveyor
editor by CX 2024-03-12