φ90 Optical Fiber Cable Sheath Extrusion Line: High-Performance Cable Manufacturing Solution
|Place of Origin:||China|
Payment & Shipping Terms:
|Minimum Order Quantity:||1set|
|Packaging Details:||Plastic film+wooden box|
|Delivery Time:||Min.50working days|
|Supply Ability:||Up to different machine|
|Usage:||Manufacturing For Photoelectric Composite Cable||Twisting Material:||Power Wire And FRP|
|Production Speed:||Max.30m/min||Warranty:||1 Year|
|Name:||Fiber Optic Cable Machine||Noise Level:||Low|
|Cable Core:||Single Core||Cable Diameter:||0.9mm|
|Cable Jacket:||PVC||Cable Length:||50m|
|Cable Speed:||20m/min||Cable Structure:||Round|
|Cable Temperature:||-20℃~+60℃||Cable Tension:||0.2-0.4N|
|Cable Tolerance:||±0.2mm||Cable Weight:||1.2KG|
|Power Consumption:||1000W||Power Supply:||AC220V/50Hz|
90 optical cable jacket production line
φ90 Optical Cable Jacket Production Line is an industrial manufacturing system designed for producing protective jackets or sheaths that encase optical fiber cables. These jackets provide mechanical protection, weather resistance, and environmental durability to the optical fibers within. Here's an introduction to such a production line:
1. Extrusion Equipment:** The core component of the production line is the extrusion machine, which shapes and extrudes the raw materials (typically polyethylene or other specialized compounds) into the desired jacket profile. The φ90 specification refers to the maximum diameter of the cable jacket that the line can produce.
2. Material Handling System:** The production line includes material handling systems for transporting and feeding the raw materials to the extrusion machine. This ensures a continuous supply of material during the manufacturing process.
3. Temperature Control:** Temperature control systems are crucial for maintaining the ideal extrusion temperature. Proper temperature control ensures that the material flows smoothly and uniformly, resulting in consistent jacket quality.
4. Cooling Systems:** After extrusion, cooling systems rapidly cool and solidify the jacket material to maintain its shape and properties. Proper cooling prevents deformities and ensures uniform thickness.
5. Line Speed Control:** The production line allows for precise control of the extrusion speed, which directly impacts the thickness and quality of the cable jacket. Adjustable line speeds enable flexibility in production.
6. Thickness Monitoring:** Many modern production lines are equipped with sensors and monitoring systems to measure and control the thickness of the jacket as it is being extruded. This ensures that the jacket meets industry standards and specifications.
7. Cross-Linking (Optional):** Some production lines may include cross-linking equipment if the jacket material requires additional properties, such as enhanced heat resistance. Cross-linking involves treating the material to increase its molecular structure's stability.
8. Cutting and Packaging:** After extrusion and cooling, the cable jackets are cut to the desired lengths and packaged for further processing or shipment.
9. Quality Control:** Throughout the production process, quality control measures are implemented to identify and address defects, ensuring the final product meets industry standards and customer requirements.
10. Safety Features:** Safety features, such as emergency stop mechanisms and protective guards, are integrated into the production line to ensure the safety of operators and prevent accidents.
- The φ90 Optical Fiber Cable Sheath Extrusion Line is the ideal solution for manufacturers aiming to produce high-quality optical fiber cables with precision, efficiency, and reliability. Whether for telecommunications, data transmission, or other applications, this high-performance extrusion line meets the evolving needs of the optical cable industry.
|Equipment||φ90 Optical Fiber Cable Sheath Extrusion Line|
|Purpose||High-performance solution for manufacturing optical fiber cable sheaths.|
|Extrusion Diameter (φ90)||Designed for extruding sheaths with a diameter of 90 millimeters.|
|Application||Used in the production of optical fiber cables, ensuring a protective and insulating sheath around optical fibers.|
|Material Compatibility||Compatible with various materials commonly used in optical cable sheathing, including polyethylene (PE) and other specialized compounds.|
|Throughput Capacity||Offers high throughput capacity, suitable for meeting the demands of large-scale cable production.|
|Precision Extrusion||Ensures precise and consistent sheath extrusion with minimal variations in diameter and thickness.|
|Quality Monitoring||Equipped with quality control systems for real-time monitoring and defect detection during the extrusion process.|
|Cooling System||Features an efficient cooling system to rapidly cool and solidify the extruded sheath.|
|User-Friendly Interface||Intuitive interface for operators to control and monitor the extrusion process, enabling real-time adjustments and reducing downtime.|
|Customizability||Can be customized to produce sheaths of different materials, sizes, and specifications based on industry requirements.|
|Durability||Built to withstand continuous operation, ensuring durability and longevity in cable manufacturing.|
|Safety Features||Incorporates safety mechanisms to ensure the safety of operators during operation.|