High Speed Nonwoven machine Spunbond Nonwoven Fabric Production Line

Product Weight Range: 10 - 200 gsm
Effective Working Width: 1600mm, 2400mm, 3200mm, 4200mm (customizable)
Production Line Speed: 50 - 600 m/min
Annual Design Capacity: 2,000 - 10,000 tons (depending on width and speed)
Main Raw Material: Polypropylene (PP) chips
Production Line Dimensions: Length approx. 20-40meters, height approx. 11 meters (subject to site layout)

Product Detail

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A spunbond nonwoven production line is a highly integrated industrial system. Its core function is to transform solid polymer granules into a uniform, strong web of fibrous material in one continuous process. The entire system can be logically divided into five key functional modules:

1: Melt Preparation and Distribution
Raw polymer pellets are precisely metered and fed into an extruder, where they are melted and homogenized. A precision melt pump then steadily pumps the melt through a filtration unit to remove impurities. Finally, the melt is evenly distributed across the entire spinneret via a temperature-controlled manifold called the spinning beam.

2: Filament Formation and Attenuation
The nascent polymer streams exiting the spinneret first enter a quench chamber, where they are rapidly solidified into solid filaments by controlled cooling air. The filament bundles are immediately drawn into a high-speed air aspirator. Here, supersonic air flow applies a drafting force, stretching the filaments at tremendous speed. This drastically reduces their diameter and increases molecular orientation, granting them the required fineness and strength.

3: Web Formation
The high-velocity, attenuated filament bundles enter a wide forming section. First, they pass through a diffuser to decelerate and randomize their movement. With the continuous movement of the forming wire (conveyor belt) below and the assistance of suction units underneath, countless filaments settle like snowflakes, piling up and randomly interlapping to form a uniform, lofty, yet unbonded fiber web.

4: Web Bonding
The loose web is conveyed to the bonding unit. The most common method is thermal calendering: the web passes through a pair of heated, pressurized large rollers (the calender), where one roller features a precise pattern (e.g., dots, diamonds) on its surface. The combined action of heat and pressure causes the fibers to fuse at the pattern's contact points, creating a strong yet soft fabric structure.

5: Finishing and Winding
The bonded fabric may undergo edge trimming and slitting to achieve the standard roll width. It is then wound at high speed into neat jumbo rolls by a fully automatic winder. The entire process is typically equipped with an online quality monitoring system to inspect and record fabric uniformity, defects, and other metrics in real time.