High-Speed PP Strapping Line with Max Output of 200 kg/h
Product Introduction
This production line is engineered for customers seeking maximum efficiency and output, featuring a robust extrusion system at its core. With a φ80mm PP-specific screw (28:1 L/D ratio) and 37KW high-efficiency drive, it delivers maximum extrusion output of 200 kilograms per hour. Combined with a production line speed of 150 meters per minute, this system enables continuous high-speed production of PP strapping and similar products, delivering greater output within the same timeframe while significantly improving per capita efficiency and equipment productivity.
Key Specifications
- Maximum extrusion output: 200 kg/h
- Maximum production line speed: 150 m/min
- Power core: 37KW high-efficiency motor with φ80mm specific screw
- High output per unit time with excellent production efficiency
Technical Parameters
| Item |
Parameter |
| Maximum Extrusion Capacity |
200 kg/h |
| Maximum Production Line Speed |
150 m/min |
| Extruder Screw Diameter |
φ80 mm |
| Screw L/D Ratio |
28:1 |
| Extruder Main Motor Power |
37 KW |
| Adapted Production Mode |
1-out-4 Synchronized High-Speed Production |
Customer Questions & Answers
Under what conditions is the 200kg/h capacity based? Can it be achieved in actual production?
This figure represents the theoretical maximum extrusion capacity measured under optimal conditions using standard PP material, near the screw's maximum speed, and producing products of regular thickness (0.5-0.8mm). Actual sustained production capacity may vary based on your product's specific width, thickness, raw material properties, and chosen line speed, but the equipment provides the hardware foundation to achieve this high output.
How is product quality stability ensured at high speed and output? Is the cooling sufficient?
Quality assurance is achieved through systematic design: Precise Temperature Control ensures uniform plasticization at high speeds; Sufficient Cooling with approximately 8.5 meters of stainless steel cooling water tanks (primary 3m + secondary 5.5m) supported by high-flow circulating water pumps (~5 T/h) guarantees efficient cooling; Stable Haul-Off with multi-roller haul-off machines provides smooth tension control. These integrated systems collectively ensure consistent quality at high production speeds.
With such high output, are the requirements for raw material and energy consumption also very high?
Output is directly proportional to raw material consumption - high output naturally requires increased raw material input. Regarding energy consumption, while total power consumption is higher, the integration of high-efficiency motors and inverters results in relatively lower energy consumption per unit output (kWh per ton of material). This efficiency is achieved as fixed losses are distributed across the higher output, delivering excellent overall energy performance.
