The conveying distance of a vacuum conveyor is an important indicator of its performance and is affected by many factors.
First, the conveying distance of a vacuum conveyor is related to the power and pressure of the equipment. Generally speaking, equipment with higher power and higher vacuum degree has a relatively longer conveying distance. This is because a greater vacuum pressure can provide stronger suction, allowing the material to overcome resistance such as friction and gravity in the pipeline and be transported to a farther place. For example, some large industrial vacuum conveyors can achieve a conveying distance of tens or even hundreds of meters due to their strong power and vacuum degree.
Secondly, the diameter and material of the conveying pipeline will also affect the conveying distance. A larger diameter pipeline can reduce the resistance of the material during the conveying process, thereby making the conveying distance longer. At the same time, the smoothness and wear resistance of the pipeline material are also important. A smooth inner wall of the pipeline can reduce the friction coefficient between the material and the pipeline and improve the conveying efficiency; while a wear-resistant material can extend the service life of the pipeline and ensure long-term and stable conveying.
The nature of the material is also a key factor. Different materials have different characteristics such as fluidity, density and particle size. For example, materials with good fluidity and low density are easier to be transported, and the transport distance may be relatively long; while for some materials with high viscosity and high density, greater resistance may be generated during the transport process, thereby limiting the transport distance. In addition, the particle size of the material will also affect the transport distance. Materials with larger particles may be blocked in the pipeline, affecting the transport effect.
In addition, environmental factors cannot be ignored. If there are high temperatures, high humidity and other conditions in the transport environment, the performance of the Vacuum Conveyor may be affected, thereby affecting the transport distance. For example, in a high temperature environment, the sealing performance of the equipment may decrease, resulting in a decrease in the vacuum degree, thereby shortening the transport distance.
In short, the transport distance of the Vacuum Conveyor is affected by a combination of factors such as equipment power, pressure, pipeline diameter and material, material properties, and environmental factors. In practical applications, it is necessary to select a suitable Vacuum Conveyor model according to specific transport requirements and conditions, and reasonably design the transport system to ensure the required transport distance. At the same time, regular maintenance and maintenance of the equipment to maintain its good performance status is also an important measure to ensure the stability of the transport distance.
