Post the combing stage, the sliver obtained from the fibres have to be carefully doubled, leveled and blended. This is done with the drawframe machine in spinning mills. During this stage, the final sliver irregularities – along with the remaining impurities – are removed too. To ensure maximum drawframing efficiency, using custom breaker drawframe cans is necessary.

Objectives Of The Drawframing Stage

Optimisation of the uniformity/linear density of sliver
To improve and parallelise fibres to the sliver length
Smooth material drafting and reduction of weight per unit length of sliver
Mixing/blending sliver components to ensure homogeneous material output
Elimination of dust & impurities from sliver
Straightening hooked, curled and crimped fibres in sliver
Use Of Breaker Drawframe Cans
Our precision-designed breaker drawframe cans maintain high sliver strength levels and eliminate possibilities of sliver elongation & breakage due to fibre hooks. These cans make the overall fibre blending process significantly smoother, and eliminate imperfections.

Our breaker drawframe cans are used to ensure:

Fibre blending takes place in the finisher drawframe.
Drawframe Process
Use Of Breaker Drawframe Cans
Our precision-designed breaker drawframe cans maintain high sliver strength levels and eliminate possibilities of sliver elongation & breakage due to fibre hooks. These cans make the overall fibre blending process significantly smoother, and eliminate imperfections.

Our breaker drawframe cans are used to ensure:

Fibre blending takes place in the finisher drawframe.

Why Choose Jumac Cans in Breaker Drawframe Cans

Box-spring / Coil-spring
with accurate spring load
to eliminate sliver stretching
Accurate diameters & dimensions
to ensure efficiency during
feeding the creel zone
Smooth can movements

in coiler plates of
draw frame machine

Precision-designed casters
with low ground clearance
to reduce risks of can falls
Precision-engineered

to minimise sliver stretching
and inconsistencies

Bottom binder and guide roller
for extra reinforcement and
body sheet protection

Springs used in our breaker drawframe cans are made from spring grade II steel wires that are hardened & tempered to retain original physical properties. The correct spring load is maintained at all times, to eliminate sliver damage risks.

Compatibility with all OEMs

Breaker draw frame spinning cans manufactured by Jumac can be fitted with draw frame machinery from all spinning machine manufacturers. Whatever may be the drawframe machine brand or model, Jumac Cans fits in easily.

Trutzschler Logo
Saurer logo
Rieter Logo
Marzoli Logo
LMW logo

Available Can Sizes

Our breaker draw frame cans, available in a wide range of sizes, ensure maximum drawframing efficiency.

Breaker Draw Frame Cans Diameter (mm) x Height (mm)
1200 x 1500
1200 x 1200
1000 x 1500
1000 x 1300
1000 x 1200
600 x 1200
500 x 1200
Finisher Draw Frame Cans
Diameter (mm) x Height (mm)
600 x 1500
600 x 1300
600 x 1200
500 x 1200
450 x 1100
Drawframing is the spinning stage during which the drawing and combining of the slivers from textile fibres is done. Sliver equalisation and blending are done in the drawframe machine along with removal of impurities.
The drawframing stage is extremely crucial for ensuring better fibre arrangement and uniformity – factors which directly affect the final yarn quality. Through efficient drafting, the weight per unit sliver length is also reduced.
Custom-designed breaker drawframe cans go a long way towards ensuring smooth sliver handling in the drawframe stage. These mechanically strong cans reduce sliver count variations, facilitate seamless blending, and boost overall drawframing efficiency.
Mechanical and/or operational glitches in the drawframe stage can cause the fibre lap count in sliver to be high. There can be problems in straightening the crimped or hooked sliver as well. By using advanced draw frame machines and breaker spinning cans, these risks can be removed.
Improper spring load in breaker drawframe cans leads to higher U% and sliver quality deteriorates. Sliver stretching can also increase due to its own weight hanging in the creel zone. The breakage rate will also go up in the creel zone of the lap forming machine.
When the spring load is lower than required levels, the distance between the top layer of the sliver coil and the creel increases. As a result, the stretch% increases, along with thin faults, CV%, and breakages in the creel zone of speed frame machines.
The breaker drawframing cans from Jumac are made with virgin HDPE sheets for extra mechanical resistance and smoothness. The cans are instrumental in smoothening the sliver blending process, removing imperfections, and making the drawframe operations smarter.