Optimized Reed Mechanism for Large Bobbin Jet Looms The large bobbin jet loom adopts a four-bar linkage reed mechanism optimized by computer. This mechanism features a short reed stroke, low vibration, and a long weft insertion time. During ultra-high-speed operation, it can perform powerful and stable reeding, enabling the production of high-quality fabric products. The narrow-width loom uses a four-bar linkage reed mechanism with excellent high-speed adaptability, while the wide-width loom employs a six-bar linkage reed mechanism with ample weft insertion time, ensuring stable weft insertion during ultra-high-speed operation. Additionally, the intermediate support structure of the rocker shaft and a moderate balancing design enhance the rigidity of the reed mechanism. During ultra-high-speed operation, the large bobbin jet loom operates smoothly, providing a guarantee for accurate and powerful reeding.
Furthermore, the large bobbin jet loom also features high speed, low energy consumption, low vibration, wide product adaptability, convenient operation, and new electronic control technologies.
A Brief Introduction to Air-jet Looms
High Speed Air-jet looms are equipped with new weft insertion devices and new frame structures. With the high processing speed of the CPU, the machine can operate at 1200 rpm.
Low Energy Consumption Air-jet looms feature new weft insertion devices and energy-saving designs for the main and auxiliary nozzles. Compared with the equipment currently on the market, they significantly reduce air consumption.
Low Vibration Through three-dimensional design and computer analysis, an excellent beam connection and lightweight and well-balanced weaving mechanism have been achieved. This enables the loom to run smoothly even at high speeds.
Wide Product Adaptability Rich standard configurations and flexible use of a variety of optional components expand the weaving range of the loom to include the weaving fields and products of traditional rapier looms. This includes ultra-wide decorative fabrics, tire cord fabric, glass fiber electronic fabric, yarns of different counts, airbags, poplin, woven fabric edges, and other fabrics.
Convenient Operation and New Electronic Control Technology The relatively low machine body and overhead mirror legs, etc., all take into account the operability of the stopper. At the same time, for the future development of the factory, this machine is filled with Internet technology that can significantly enhance communication functions, and adopts new electronic control technologies such as a new color multi-functional operation panel and a new high-speed CPU.
){kind=link}