Equipment performance analysis of normal temperature overflow dyeing machine

(1) The fuselage of the rope machine is short, the silks are squeezed together at the rear, and the operation relies on the pulling force of the kidney plate. There is a silk dividing rack in the front, so that the dyeing operation is often subject to mechanical friction and self-friction. The Japanese normal temperature overflow dyeing machine increases the length of the fuselage and reduces the height of the cloth lifting roller and the liquid level. Driven by the startup of the cloth lifting roller and the circulation overflow of the dye liquor, the fabric is dyed, which effectively makes up for the problem of the rope machine. The defects in the mechanical structure solve the inevitable gray damage defects of the rope machine in silk dyeing.
(2) In the Japanese overflow dyeing machine, when the fabric lifting roller is started, the fabric immediately falls into the overflow pipe. Since the overflow pipe is vertical from top to bottom, the dyed fabric follows the overflow of the dye liquor and flows to the liquid at the rear. flow tube.
(3) Mezera double-tube overflow dyeing machine, the oval overflow tube extends backward from the upper inclined plane to the end and is disconnected, and the length is only more than 2m. If you dye wide fabrics or thicker fabrics, the rope-like cross-section will increase, which will cause overflow difficulties, lead to blockage, and cause color patterns on the fabrics. Therefore, it is only suitable for dyeing light and thin fabrics.
(4) The Japanese overflow dyeing machine has a vertical overflow into the lower rectangular overflow pipe. Its cross-sectional area is one-third larger than the oval overflow pipe, and the stretch length is 6~7m. It is not only suitable for light and thick fabrics, but also It is also suitable for similar varieties with different door widths and has universal adaptability.