Electronic Jacquard High Speed Air Jet Loom
|Place of Origin:||China|
Payment & Shipping Terms:
|Minimum Order Quantity:||1set|
|Packaging Details:||woodern box|
|Delivery Time:||1-3 working days|
|Payment Terms:||T/T, Western Union, L/C|
|Supply Ability:||200/set per month|
|Type:||Electronic Jacquard||Material:||Steel And Plastic|
high speed Air Jet Loom,
electronic jacquard Air Jet Loom
Energy saving and high efficiency air-jet loom, high-efficiency air-jet loom, air-jet loom manufacturer
The optimized beating up mechanism uses the four-bar beating up mechanism optimized by computer, which has the advantages of short beating range, small vibration and long weft insertion time. It can carry out strong and stable beating up and weave high-quality fabric products at ultra-high speed.
The narrow frame machine adopts the four-bar beating up with excellent high-speed adaptability, and the wide frame machine adopts the six-bar beating up with considerable leeway of weft insertion time, so as to realize the stable weft insertion during the ultra-high-speed operation. In addition, the middle support structure of the rocker shaft and the moderate balance design improve the rigidity of the beating up mechanism. In the ultra-high-speed operation, the equipment runs smoothly, which provides a guarantee for accurate and powerful beating up.
Power and starting motor
The advanced super starting motor can produce high output torque when the loom is started, so as to improve the beating up force of the shuttle. At the same time, the electromagnetic brake with strong torque is adopted to improve the braking force, thus preventing the occurrence of stop gear and improving the product quality of the fabric.
New permanent magnet motor weft storage device
Corresponding to the new high-speed electromagnetic needle: the double coil electromagnetic needle which can adapt to high-speed operation is adopted to improve the reliability of high-speed operation.
The rotation ratio of each electronic weft storage device can be set separately, and the end breakage of weft can be prevented due to the small rotation change.
Moreover, because the weft storage motor adopts permanent magnet motor, the starting torque is stronger, the power consumption is less, and the speed response is faster. In this way, even multicolor fabrics with complex patterns can be stably weft fed.