The discharge pressure technology of the cutting cone of the communication optical cable sheath head is an important technology in optical cable production, which has a significant impact on the quality and production efficiency of the optical cable. Below, we will explore the key points related to this technology.
Discharge pressure size and stability
The size and stability of the discharge pressure are key factors affecting the quality of the optical cable sheath. Excessive pressure may cause sheath rupture or defects such as bubbles, while insufficient pressure may result in uneven sheath thickness, affecting the protective performance of the optical cable. Therefore, it is necessary to precisely control the discharge pressure to ensure its stability within an appropriate range.
Shape and material of the dividing cone
The shape and material of the dividing cone also have an impact on the discharge pressure. The taper, material, and surface roughness of the dividing cone can all affect the manufacturing process and final quality of the sheath. Therefore, choosing the appropriate shape and material of the dividing cone is crucial.
Production temperature, speed, and flowability of raw materials
Factors such as temperature, speed, and flowability of raw materials during the production process can also affect the discharge pressure. The changes in these factors may lead to uneven heating and cooling rates of raw materials, thereby affecting the quality and production efficiency of the sheath. Therefore, corresponding measures need to be taken to control these factors to ensure the stability and suitability of the discharge pressure.
Design and Manufacturing of Material Splitting Cone
Finally, the design and manufacturing of the separation cone are also important factors affecting the discharge pressure. The design of the dividing cone should take into account factors such as its fit with the mold, the depth and width of the dividing cone's flow channel, the shape and material of the dividing cone, etc., to ensure the stability and suitability of the discharge pressure. At the same time, the manufacturing quality of the dividing cone directly affects its performance and service life, so high-quality materials and manufacturing processes are needed.
Conclusion
The discharge pressure technology of the communication fiber optic cable sheath head material cone needs to comprehensively consider multiple factors, including the shape and material of the material cone, temperature, speed, raw materials and other factors during the production process, as well as the design and manufacturing of the material cone. By continuously optimizing production processes and adjusting parameters, the quality and production efficiency of optical cables can be improved, while reducing production and maintenance costs.




