Brief description of the characteristics of the knitting machine

Update:19-10-2019
Summary:

1, fully automatic N color device With the newly develo […]

1, fully automatic N color device
With the newly developed N-color line control device, N colors can be woven into single or double plates.
2, large-capacity memory
It can store and memorize the large and complex flower models that have been designed. * Large storage N ingots / X indentations, N colors above the monochrome color * can store N ingots / X indentations.
3, magnetic card input system
The designed flower PPD-35 is removed and inserted into the deck of the CK35 knitting machine. By simply operating, the design of the magnetic card can be quickly input into the knitting machine.
4, automatic safe operation of electric motor
The electric motor controlled by the computer also has the following safe operation modes; A. Disconnection and stop mode: During the knitting process, when the wool thread is suddenly broken, the machine head immediately stops the operation mechanism, B, overload and stop: during the weaving process, If it encounters the winding of the wool thread or the bending of the horse, damage, etc., the operation is blocked. When the load is too heavy, it will automatically stop and automatically remember the number of rows weaved. Stop and automatically remember the number of lines weaved.
5, can change the width of the braid at will, fast and convenient.
Weaving machines are mainly used in shipyards, ocean transportation, defense and military, offshore oil, port operations, automotive aviation and trains, furniture, footwear, clothing, belts, wrist bands, jewelry and other fields. The product has reasonable braiding structure, scientific technology, high strength, low elongation, abrasion resistance, and easy operation. Particularly suitable for making large-scale ropes.
6.SPE design concept
Save-energy Reduces unit weaving costs from low carbon, energy saving and manpower.
Performance Focus on innovation and stability in mechanical performance, improving stability and the life of critical components.
Efficiency to improve mechanical efficiency, reduce non-work hours, improve ergonomics, and create value for users.