βοΈ Core Material of Edge Conveyor Belt
Nylon Fabric Core
NN100, NN150, NN200, NN300, NN400, NN500
Polyester Fabric Cores
EP100, EP150, EP200, EP300, EP400, EP500
Wire Rope Core
ST1000 β ST5400
Edge Height (mm)
S80, S100, S120, S160, S200, S240, S300, S400, S500
Partition Height (mm)
TC75, TC90, TC110, TC140, TC180, TC220, TC280, TC380, TC480
π General Writing Style Example: B800 Γ 6 (3+3+1.5) Γ 110 meters | S120-120 TC110-252-460
β Product Features
1
Increased conveying angle (30β90 degrees)
2
Small footprint and low investment
3
Large conveying capacity and higher lifting height
4
Smooth transition from horizontal to inclined (or vertical)
5
Suitable for conveying powdery, granular, small, pasty, and liquid materials that are prone to scattering
6
Low energy consumption, simple structure, high tape strength, and long service life
π Product Description
The load-bearing capacity of the edge conveyor belt is improved, and the lateral bending deformation of the edge conveyor belt is minimized after being loaded. Therefore, improving the lateral rigidity of the edge conveyor belt is the key to reducing the lateral load-bearing deformation of the belt and increasing its load-bearing capacity.
The lateral rigidity value of the edge blocking conveyor belt body refers to the ratio of the bending weight of the belt body caused by the self weight of the edge blocking conveyor belt body to the width value of the belt body on both sides of the freely supported belt body in the transverse vertical section of the belt body.
π‘ The technical standard requirement for the lateral rigidity value of a high lateral rigidity edge conveyor belt is not greater than 0.05. After optimizing and improving the structure of the edge conveyor belt, the lateral rigidity detection value is 0.036 after adding a lateral rigidity reinforcement layer β reducing lateral deformation and increasing bearing capacity by 15% to 20%.
An effective measure to improve the lateral rigidity of large heavy-duty conveyor belts is to set up a special composite adhesive layer made of polyester short fibers that have been specially mixed and rolled between the multi-layer tensile canvas layers of the flat base belt. That is, the polyester short fibers are embedded in the adhesive layer along the transverse direction of the belt in a single direction.
The use of this specialized composite adhesive layer that enhances the lateral bending resistance of the edge conveyor belt can increase the lateral rigidity value of the belt body by 2.5 times compared to ordinary structured edge conveyor belts, even if its lateral rigidity value increases from 0.09 to 0.036.
Q
What conveying angles can the wave shaped edge conveyor belt support?
The wave shaped edge conveyor belt supports conveying angles ranging from 30 to 90 degrees, making it suitable for steep incline and even vertical material transport applications.
Q
What types of core materials are available for the edge conveyor belt?
The edge conveyor belt is available with multiple core material options including Cotton Canvas Core (CC-56), Nylon Fabric Core (NN100βNN500), Polyester Fabric Core (EP100βEP500), and Wire Rope Core (ST1000βST5400), allowing selection based on load and application requirements.
Q
What materials is the edge conveyor belt suitable for conveying?
The edge conveyor belt is suitable for conveying powdery, granular, small-sized, pasty, and liquid materials that are prone to scattering β making it ideal for bulk material handling in industries such as mining, food processing, and chemical manufacturing.
Q
What is the technical standard for the lateral rigidity value of a high lateral rigidity edge conveyor belt?
The technical standard requires the lateral rigidity value to be no greater than 0.05. After structural optimization and the addition of a lateral rigidity reinforcement layer, the detected value reaches 0.036, which reduces lateral deformation and increases the belt's load-bearing capacity by 15% to 20%.
Q
How does the polyester short fiber composite adhesive layer improve belt performance?
The specialized composite adhesive layer embeds polyester short fibers in a single transverse direction between the multi-layer tensile canvas layers. This structure increases the lateral rigidity of the belt body by up to 2.5 times compared to ordinary edge conveyor belts, significantly reducing lateral bending deformation under load.
Q
What bandwidth range is available for the wave shaped edge conveyor belt?
The wave shaped edge conveyor belt is available in bandwidth sizes ranging from 100mm to 2400mm, with fabric layers from 2 to 10 layers, providing flexible configuration options to meet a wide range of industrial conveying requirements.
Boao Rubber
