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SR500
RONWIN
The most widely used roller conveyor for a conveyor line with boxes packaged. Applicable to the delivery of any type of product, whether it be in a box, a bag, or a pallet.
The transmission system has a large transmission capacity, is lightweight and adaptable to the transmission of pulleys with smaller diameters, and is also appropriate for high-speed transmission. Small vibration, lower heat, steady operation, resilience to heat, oil, resistance to wear, and long life.
Model no. -rack inner width(W)-rack height(H)-rack length(L)-roller diameter(D)-roller pitch(P)- conveying speed(m/min)
Order no. example(unit mm): SR500-600-700-4000-50-100-30
| Specifications (unit: mm) | |
|---|---|
| roller diameter | 50, 60 |
| roller pitch | 75, 100, 150 |
| rack length | max. 8 meters |
| rack inner width | 500, 600, 700, 800, 900, 1000, 15000 or on customer's request |
| rack height | 500-1500, suggest 500 min. |
| rack material | steel folded-plate, Aluminium profile |
| support leg material | rectagular steel tube, Aluminium profile |
| conveying speed | max. 40m/min, speed is adjustable |
| motor power | 0.37kw, 0.55kw, 0.75kw, 1.5kw |
A High-Speed Poly-V Belt Driven Roller Conveyor is a critical equipment widely used in high-speed, high-frequency logistics conveying systems. Building upon the traditional roller conveyor, it adopts the Poly-V belt as the core transmission method, achieving high-speed, smooth, and synchronous driving of the rollers. This design perfectly balances the demands for high speed, low noise, and load-bearing capacity, making it an ideal choice for modern automated production lines, sorting centers, and similar scenarios.
It is not powered by individual motors on each roller (like motorized rollers), nor is it like the traditional friction drive where a single flat belt presses against the bottoms of the rollers.
Its core is one or multiple continuously circulating Poly-V belts, which, via a tensioning device, create adequate friction to drive multiple rollers simultaneously.
The Poly-V belt typically engages with pulleys on the roller axles or is pressed against specific grooves on the roller bodies with a certain wrap angle.
Drive Roller: The powered roller, directly driven by a motor (usually via a reducer).
Idler Rollers: The non-powered rollers that are driven, constituting the vast majority of rollers.
Poly-V Belt: The core transmission element. Its inner surface has multiple parallel longitudinal V-shaped ribs that mesh perfectly with the pulley grooves, providing a large contact area and high transmission efficiency.
Frame & Bearing Housings: The main structure supporting the entire system.
Motor & Reducer: Provides the power source and adjusts it to the appropriate output speed.
Designed specifically for high-speed applications, conveying speeds can reach 2 meters per second or even higher, far exceeding ordinary friction-driven roller conveyors, significantly enhancing system throughput.
Poly-V belt transmission is highly efficient with minimal energy loss.
The meshing of the multiple V-ribs with the pulley grooves has a "averaging" effect, resulting in very smooth transmission, avoiding impact and vibration.
During high-speed operation, the generated noise is significantly lower than chain drives and some friction drives, improving the working environment.
A single Poly-V belt can drive multiple rollers simultaneously, ensuring consistent surface linear speed across these rollers. This effectively reduces slipping and skewing of goods during high-speed conveyance.
The large contact area and strong friction between the Poly-V belt and pulleys allow for greater torque transmission, enabling the conveyance of heavier loads.
The structure is relatively simple. The main wear part is the Poly-V belt, which is quick and easy to replace, resulting in low maintenance costs.
The Poly-V belt itself is made of high-strength, wear-resistant rubber or polyurethane material, ensuring a long service life.
The transmission system is relatively enclosed, less prone to oil contamination, and complies with cleanliness requirements in certain industries.
With no exposed gears or sprockets, it offers a high degree of safety.
This conveyor is suitable for applications with extremely high requirements for speed, stability, and reliability:
Parcel Sorting Systems: Used on the induction lines and main lines of large sorting centers to transport packages quickly and smoothly to scanning and sorting areas.
E-commerce Warehouse Conveyor Lines: For high-speed inbound/outbound conveyance at "Goods-to-Person" picking workstations and rapid transfer on packaging lines.
Airport Baggage Handling Systems: For high-speed transport of baggage after check-in to ensure timely delivery to the sorting area.
Beverage & Food Industry: Rapid transport of bottles, cans, and cases following high-speed filling lines.
Automated Assembly & Testing Lines: Rapid transfer of products between workstations in industries such as electronics and automotive.
When selecting this product, focus on the following parameters:
Conveying Speed: Maximum and adjustable range (meters/second).
Effective Conveying Width: Determined based on product dimensions.
Roller Pitch & Diameter: Determines the load-bearing capacity for small items; ensure at least three rollers support the smallest product simultaneously.
Load Capacity: Maximum load per unit length (kg/m) or maximum weight per single item.
Poly-V Belt Type & Quantity: Common models include PH, PJ, PK, etc., and the number of belts used for driving (single, double, or multiple).
Drive Power: Motor power required, calculated based on total load, speed, and length.
Control Method: Variable frequency speed control, fixed speed operation, etc.
In conclusion, the High-Speed Poly-V Belt Driven Roller Conveyor is a technologically mature and high-performance solution for high-speed material handling. By skillfully utilizing Poly-V belt transmission technology, it successfully achieves a perfect combination of high speed, low noise, strong load capacity, and smooth operation. It has become an indispensable key component in modern, highly efficient logistics automation systems.
The most widely used roller conveyor for a conveyor line with boxes packaged. Applicable to the delivery of any type of product, whether it be in a box, a bag, or a pallet.
The transmission system has a large transmission capacity, is lightweight and adaptable to the transmission of pulleys with smaller diameters, and is also appropriate for high-speed transmission. Small vibration, lower heat, steady operation, resilience to heat, oil, resistance to wear, and long life.
Model no. -rack inner width(W)-rack height(H)-rack length(L)-roller diameter(D)-roller pitch(P)- conveying speed(m/min)
Order no. example(unit mm): SR500-600-700-4000-50-100-30
| Specifications (unit: mm) | |
|---|---|
| roller diameter | 50, 60 |
| roller pitch | 75, 100, 150 |
| rack length | max. 8 meters |
| rack inner width | 500, 600, 700, 800, 900, 1000, 15000 or on customer's request |
| rack height | 500-1500, suggest 500 min. |
| rack material | steel folded-plate, Aluminium profile |
| support leg material | rectagular steel tube, Aluminium profile |
| conveying speed | max. 40m/min, speed is adjustable |
| motor power | 0.37kw, 0.55kw, 0.75kw, 1.5kw |
A High-Speed Poly-V Belt Driven Roller Conveyor is a critical equipment widely used in high-speed, high-frequency logistics conveying systems. Building upon the traditional roller conveyor, it adopts the Poly-V belt as the core transmission method, achieving high-speed, smooth, and synchronous driving of the rollers. This design perfectly balances the demands for high speed, low noise, and load-bearing capacity, making it an ideal choice for modern automated production lines, sorting centers, and similar scenarios.
It is not powered by individual motors on each roller (like motorized rollers), nor is it like the traditional friction drive where a single flat belt presses against the bottoms of the rollers.
Its core is one or multiple continuously circulating Poly-V belts, which, via a tensioning device, create adequate friction to drive multiple rollers simultaneously.
The Poly-V belt typically engages with pulleys on the roller axles or is pressed against specific grooves on the roller bodies with a certain wrap angle.
Drive Roller: The powered roller, directly driven by a motor (usually via a reducer).
Idler Rollers: The non-powered rollers that are driven, constituting the vast majority of rollers.
Poly-V Belt: The core transmission element. Its inner surface has multiple parallel longitudinal V-shaped ribs that mesh perfectly with the pulley grooves, providing a large contact area and high transmission efficiency.
Frame & Bearing Housings: The main structure supporting the entire system.
Motor & Reducer: Provides the power source and adjusts it to the appropriate output speed.
Designed specifically for high-speed applications, conveying speeds can reach 2 meters per second or even higher, far exceeding ordinary friction-driven roller conveyors, significantly enhancing system throughput.
Poly-V belt transmission is highly efficient with minimal energy loss.
The meshing of the multiple V-ribs with the pulley grooves has a "averaging" effect, resulting in very smooth transmission, avoiding impact and vibration.
During high-speed operation, the generated noise is significantly lower than chain drives and some friction drives, improving the working environment.
A single Poly-V belt can drive multiple rollers simultaneously, ensuring consistent surface linear speed across these rollers. This effectively reduces slipping and skewing of goods during high-speed conveyance.
The large contact area and strong friction between the Poly-V belt and pulleys allow for greater torque transmission, enabling the conveyance of heavier loads.
The structure is relatively simple. The main wear part is the Poly-V belt, which is quick and easy to replace, resulting in low maintenance costs.
The Poly-V belt itself is made of high-strength, wear-resistant rubber or polyurethane material, ensuring a long service life.
The transmission system is relatively enclosed, less prone to oil contamination, and complies with cleanliness requirements in certain industries.
With no exposed gears or sprockets, it offers a high degree of safety.
This conveyor is suitable for applications with extremely high requirements for speed, stability, and reliability:
Parcel Sorting Systems: Used on the induction lines and main lines of large sorting centers to transport packages quickly and smoothly to scanning and sorting areas.
E-commerce Warehouse Conveyor Lines: For high-speed inbound/outbound conveyance at "Goods-to-Person" picking workstations and rapid transfer on packaging lines.
Airport Baggage Handling Systems: For high-speed transport of baggage after check-in to ensure timely delivery to the sorting area.
Beverage & Food Industry: Rapid transport of bottles, cans, and cases following high-speed filling lines.
Automated Assembly & Testing Lines: Rapid transfer of products between workstations in industries such as electronics and automotive.
When selecting this product, focus on the following parameters:
Conveying Speed: Maximum and adjustable range (meters/second).
Effective Conveying Width: Determined based on product dimensions.
Roller Pitch & Diameter: Determines the load-bearing capacity for small items; ensure at least three rollers support the smallest product simultaneously.
Load Capacity: Maximum load per unit length (kg/m) or maximum weight per single item.
Poly-V Belt Type & Quantity: Common models include PH, PJ, PK, etc., and the number of belts used for driving (single, double, or multiple).
Drive Power: Motor power required, calculated based on total load, speed, and length.
Control Method: Variable frequency speed control, fixed speed operation, etc.
In conclusion, the High-Speed Poly-V Belt Driven Roller Conveyor is a technologically mature and high-performance solution for high-speed material handling. By skillfully utilizing Poly-V belt transmission technology, it successfully achieves a perfect combination of high speed, low noise, strong load capacity, and smooth operation. It has become an indispensable key component in modern, highly efficient logistics automation systems.
