Support three-system full motor models
Full motor control of head, commutation, movement, presser foot, tight lifting, and sangke, high speed and high efficiency, low failure rate.
Support knitting stroke optimization function
Introduce the most reasonable needle selection algorithm according to the mechanical structure, thereby reducing the head stroke, saving knitting time, improving work efficiency, and realizing more benefits for users.
Support pin closing optimization function
During the operation of the machine head in the same row, the shaker can be moved multiple times, and the bilateral needle closing is completed in the same row. It can effectively reduce the number of running lines of the machine head and improve the weaving efficiency on the original basis.
Support fast turning function
The rotation torque becomes smaller, and the weaving becomes more high-speed and efficient.
Support no-waste yarn lifting function
The cloth threading method of the hand-held flat knitting machine is transplanted to the bottom plate system to replace the existing composite needle mechanism, and the process and time for manually removing the waste yarn are saved.
Support intelligent presser foot function
While realizing zero waste yarn bottoming, we can also complete 3D three-dimensional pattern weaving. Help customers broaden the scope of woolen processing business to obtain greater benefits.
Support yarn feeder correction function
Support yarn feeder self-checking program operation, real-time early warning, effectively reduce knitting problems such as rotten edges, missing needles, etc. At the same time, avoid the occurrence of mechanical accidents such as needle strikes.
Support forced decoupling function
During the weaving process, the fabric can be completely taken off, to avoid problems such as baotou needles, which will cause the machine to stop running and ensure work efficiency.
Supports smart running yarn feeder technology
The yarn feeder is driven by an independent motor, so that the yarn feeder is free from the head restraint, and the weaving of complex patterns is more efficient and faster than ordinary machines.