These machines represent the result of 35 years of R&D focused on the reduction of utilities consumption. We have realized complete turn-key projects for acrylic tow dyeing following our customers from the pressing equipment up to the final baling press. The tow cake dimensions and the proper dimensioning of the circulation pump are the most important aspects in the design of a tow dyeing machine. Our system allows to have the highest efficiency in tow to tops department which is the only and real parameter to evaluate the entire tow dyeing process.
Pumps are designed and manufactured in Cubotex. You will not find the same impeller anywhere else. It comes from 35 years of dyeing experience.
We supply turn-key projects including hydro extractors of any size. Those machines are equipped with double rotating cover and vibration measurement as standard features.
Tube shell type, Cubotex design and manufacturing. High efficiency, easy maintenance, lower liquor ratio compared to other solutions where heat exchanger is inside the machine.
Our tow dryer model B 72 comes from 150 years of Alea experience in textile dryers. Drying uniformity and a special finishing application system are the unique characteristics of this machine.
Full automatic systems for
|10 TONS/DAY||15 TONS/DAY||20 TONS/DAY||30 TONS/DAY|
|CAKE SIZE (Kg)||300||500||500||500|
|CAKE DENSITY (gpl)||400||400||400||400|
|TOW PRESS||1 X 500||1 X 500||2 X 500||3 X 500|
|DYEING MACHINES||1X1500 KG||2 X 1000||2 X 1500 KG||6 X 1500 KG|
|HYDRO EXTRACTOR||1 X 500 KG||1 X 500 KG||2 X 500 KG||3 X 500 KG|
|TOW DRYER||1 X 3 BAYS||1 X 4 BAYS||2 X 3 BAYS||2 X 4 BAYS|
Capacity range variation on each model is obtained by changing machine shell height at customer’s preference.
Any different diameter is available upon request. We can replicate existing machines dimensions to use the same carriers and accessories. There is no limitation on machines design, whatever is needed can be done.
In case of dyeing by means of centrifugeable baskets, it is necessary to add a cake extractor to plant configuration