• wool gilling machine :alpaca pin drafter 4.jpg
  • wool gilling machine :alpaca pin drafter1.jpg
  • lab wool gilling machine: albaca pin drafter 3.jpg
  • lab wool gilling machine: albaca pin drafter 1.jpg

LS201 Lab wool gilling machine sample alpaca pin draafter


Lab machinery

Keyword:Yarn Spinning machine line


The machine is used to comb different types of wool tops or mix them with different fibers such as wool and chemical fibers.  It is frequently used in the long fiber spinning system, such as worsted spinning system. The shorter fibers are further removed and the longer fibers are aligned as parallel as possible. It also helps to remove any impurities left during the carding process.

After 2-4 passes of mixing, various fibers of different colors can be matched and mixed evenly to meet the requirements of the product. It can be used for various colors of wool needle combs, as well as small sample mixing experiments and production of wool synthetic fibers and nylon.



Feeding mode


Chain plate transmission method

double threaded screw, double headed thug

Screw lead

working 27

Number of needle plates


Maximum number of hits


Draft type

single zone cross needle plate draft

Feeding sliver number


Draft ratio


Maximum feeding amount


Front roller speed

10-50 meters/minute

Production type

platform or strip

Feeding type

elevated or platform

Control mode

Touch screen & PLC Servo motor driving

laboratory color gilling machine consists of feeding, drafting and output. The sliver is extracted from the cylinder or the wool ball is withdrawn, and arranged on the platform through the guide roller and the guide bar. The drawing part is mainly composed of front roller, rear roller (measuring roller) and comb box.

There is a slow moving needle row in the carding box between the front and rear rollers, forming a longer middle control area, which can reliably control the large length and discrete fiber strips and reduce the irregular movement of short fibers. When the fibers in the draft area are controlled by the front roller to become fast fibers, the hooks are straightened and removed due to the control of the needle row and the action of adjacent fibers. The needle plate continuously penetrates the fiber layer, and with the thinning of the fiber layer, the depth of the comb needle insertion increases gradually, and the control of the fiber is strengthened continuously. The needle plate is removed from the fiber layer not far from the front roller and returned to the back roller for re-piercing the fiber layer. The reciprocating motion of the needle plate is realized by the needle plate driving mechanism.