What are the characteristics of the 6-row warp stopping device used in Tsudakoma jet looms
The 6-row stopping device of the Tsudakoma jet loom has the following characteristics:
1. Trigger sensitivity: Through the clever design of the torsion spring and trigger plate, even the slightest changes in the warp state can quickly drive the trigger plate to change the angle, thereby triggering the warp stopping action in a very short time, causing the weaving machine to quickly stop running.
The 6-row stopping device of the Tsudakoma jet loom has the following characteristics:
1. Trigger sensitivity: Through the clever design of the torsion spring and trigger plate, even the slightest changes in the warp state can quickly drive the trigger plate to change the angle, thereby triggering the warp stopping action in a very short time, causing the weaving machine to quickly stop running. This feature can effectively prevent the production of defective fabrics, reduce fabric defects caused by missed detection of warp yarn breakage, and ensure the quality of the fabric.
2. Correct detection: The 6-column warp stopping device can perform more detailed detection for warp yarns in different areas or with different characteristics. For example, when weaving fabrics with special requirements, such as multi colored warp yarns or fabrics interwoven with warp yarns of different materials, it is possible to correctly monitor the status of different columns of warp yarns, correctly determine which warp yarn has a broken end or abnormality, provide correct information for subsequent maintenance and processing, and improve production efficiency and the stability of fabric quality.
3. Adapt to high-speed weaving: Tsuda Ju jet looms usually have high weaving speeds, and the 6-row stopping device can adapt to this high-speed operating working environment. It has fast response capability and stable performance. During high-speed operation of the loom, it can still detect changes in the warp yarn status in a timely manner and respond quickly, without misjudgment or omission due to the loom speed being too fast, ensuring production quality and efficiency under high-speed weaving conditions.
4. High reliability: The structural design of the device is reasonable, using high-quality materials and excellent manufacturing processes, with strong wear resistance and corrosion resistance, and can maintain stable performance during long-term use. Whether in a workshop environment with high humidity or a textile production environment with certain dust, it can work reliably, reducing downtime and maintenance costs caused by device failures, and improving the overall operating efficiency and reliability of the weaving machine.
5. Easy to maintain: The design takes into account the convenience of maintenance, and the installation and disassembly of each component are relatively simple, making it easy for operators to carry out daily cleaning, inspection, and maintenance work. For example, vulnerable components such as trigger plates and torsion springs can be quickly replaced without the need for complex tools or professional technicians, reducing maintenance difficulty and costs and helping to improve equipment utilization.
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