Advantages Of Two For One Twisting Machine
- Touch screen operation: The two-in-one twister is equipped with an advanced touch screen control system, and all process parameters can be set through handwritten input. The operating interface is intuitive and friendly, simplifying the cumbersome operation of traditional mechanical buttons and lowering the threshold for learning and use. Even novice operators can quickly master how to use the equipment, greatly improving the efficiency and accuracy of the operation. This function is especially suitable for multi-batch and small-order production, quickly switching between different production parameters.
- Single ingot receiving system: The equipment’s unique single-spindle receiving system maintains consistent yarn flatness after yarn breaks. This not only reduces scrap rates, but also improves the stability of the production line. Yarn flatness is crucial to the final quality of textile products. The single spindle receiving system ensures efficient operation of this link, thus ensuring the high-quality performance of the product.
- Spinning ingot design: The spin-out design allows operators to more easily change spindles, significantly reducing downtime during the production process. This design not only improves the convenience of operation, but also reduces energy consumption, which meets the requirements of modern industry for energy conservation and environmental protection. The characteristics of low energy consumption make the equipment have higher economic benefits in long-term operation, especially in areas with high power costs. The energy-saving design saves the company a lot of operating costs.
- Direct twisting of original bobbin yarn: The two-for-one twister supports direct twisting of original bobbin yarn weighing 5 to 6 kilograms. This design eliminates the intermediate yarn processing step and reduces the damage that the yarn may suffer during multiple treatments. This not only shortens the production cycle, but also improves the quality stability of the finished yarn. The direct twisting process simplifies the process, reduces operational complexity, and improves production efficiency. It is an ideal choice for large-scale industrial production.
Two For One Twister Machine Work Process
A big package two for one machine is a device used to twist yarn or sewing thread. Its workflow usually includes the following steps:
- Yarn feeding: First, the yarn to be twisted is introduced into the machine through the yarn feeding device. The yarn feeding device usually includes a guide wheel, a tension device and a guide device to keep the yarn feeding normally.
- Twisting device: After entering the two-for-one twister, the yarn will pass through a series of twisting devices. These devices usually include twisting distribution devices and twisters, which will interlace and tightly twist the yarns from different yarn tubes together.
- Tension adjustment: In order to ensure the stability and uniformity of yarn twisting, the two-for-one twister is usually equipped with a tension device. The tension device can adjust the tension of different parts so that the yarn maintains a stable tension state during the twisting process.
- Yarn discharging device: After twisting and tension adjustment, the twisted yarn will be taken out of the machine through the yarn discharging device. The yarn discharging device usually includes a yarn guide wheel, a yarn cone and a winding device, etc., which are used to wind the twisted yarn on a yarn cone or a reel for subsequent storage and use.
SutexMach Project Case
We cooperate with large textile companies in many countries, and customers have reported that the equipment runs stably, production efficiency is significantly improved, and fabric quality is significantly improved.>>read more
Project highlights:
Stable equipment operation: long continuous operation time and low failure rate.
Production efficiency improvement: Through advanced twisting technology, production efficiency is increased by more than 20%.
Improved yarn quality: The strength and uniformity of the yarn are significantly improved, reducing the yarn break rate in subsequent processing.