The buffer bed has significant advantages over previous buffer roller supports:
Firstly, the supporting force of the buffer roller is poor and uneven, which cannot effectively absorb the strong impact force when the material falls, making it easy to damage the supporting roller and causing the hidden danger of longitudinal tearing of the belt.
The buffer strip on the buffer bed passes through the force point of the belt conveyor, providing uniform support while resolving the impact force.
The support frame of the buffer roller is prone to frequent material impact and variability, and the upright support frame of the support roller is prone to scratching or tearing the belt. The buffer bed has no moving parts and has strong integrity.
The compact arrangement of the buffer bed and buffer bars allows for face-to-face contact with the conveyor belt, eliminating the problem of material jamming.
In the past, buffer rollers were used at the feeding port, and the belt between the two rollers was prone to sagging, resulting in a wavy section between the feeding ports. This is due to poor sealing of the feeding ports, causing material scattering. The combination of buffer bed and guide groove can perfectly solve the above problems.
The surface of the buffer roller has no elasticity, and it is easy for materials to adhere to the surface after long-term operation, which can wear the belt and cause serious belt deviation.
The supporting roller is subjected to long-term impact, and the bearings and seals are prone to failure, resulting in inflexible rotation of the shaft and wear on the surface of the belt. The buffer bed has no bearings or other components, reducing maintenance and usage costs.
As mentioned above, a buffer bed is an excellent solution for absorbing impact force, preventing belt tearing, and preventing material scattering.
