Sunday, April 23, 2017

High speed drafting - its impact on cots and aprons

High speed drafting  -

its impact on cots and aprons


Now-a-days, in normal ring spinning system to increase the productivity two key factors which determine the increased productivity are spindle speeds of ring frame and end breakage rate. Modern ring frames can run at high spindle speeds of 25000 rpm. End breakage rate in ring spinning is influenced by the quality of raw materials used, level of modernization and condition of machinery, type of opening and blending operations, regularity of draw frame sliver and roving, effective humidification control, use of optimum process parameters, efficient house-keeping and careful materials handling.

For a spinning mill, an increase in spindle speed leads to a reduction of overheads and wages costs per unit production. On the other hand increase in spindle speeds proportionately increases the load on drafting unit, Drafting speed will be increased with respect to spindle speed , drafting force gets increased in case of high draft ratio (in particular for processing long staple fibres).These factors directly or indirectly increase the mechanical load on cots & aprons. A spinning cot or an apron has to withstand these high speeds drafting with high draft ratio in order to deliver high quality yarns with better consistency.

Key words:

Draft, draft ratio, roller drafting, feed hank, delivery hank, apron surface speed, front cot surface speed, fibre pulling force, fibre gripping force , drafting force, resilience, abrasion resistance , wear and tear resistance.

Introduction:

Draft:

The amount of attenuation of textile material at different stages of spinning preparatory and spinning process, for example. 1 m of input material when delivered as 5 m is said to have undergone a draft of 5.In other words reducing the linear density of textile material with respect to time by passing the material through successive pair of rollers rotating at higher peripheral speeds.

Various formulas used in textile industry to calculate the draft as follows:


Drafting:

It is a process of reducing the bulk and weight per unit length of a semi processed textile material such as rove or sliver and simultaneously parallelizing its fibrous components, as it passes through the various machines used in making yarn

Roller drafting system:

Commercially, there are various methods to draft the textile fibrous material like roller drafting system applied at ring spinning, speed frame and draw frames etc, aero dynamic drafting functional at rotor spinning, electro mechanical drafting, frictional drafting, etc. Out of these techniques, roller drafting system is
the most commercially successful one due to its high versatility, simple design and construction, high reliability and can handle variety of fibres and a wide spectrum of count range can be spun.


3/3 roller drafting system at ring spinning


High speed drafting of textile material on 3/3 double apron drafting system and its impact on cots and aprons at ring spinning machine:

Theory:

High speed drafting:

Increasing the delivery speed or productivity of a spinning machine but maintaining the same hank or feed material linear density will proportionately increase the speed of drafting but draft ratio remains constant.

High draft ratio:

Maintaining the same delivery rate or productivity of the spinning frame but reducing the feed hank from finer side to courser side will proportionately increase the draft ratio.

High speed drafting with high draft ratio:

Increasing the delivery speed or productivity of a spinning machine and the same time reducing the feed hank from finer side to courser side will proportionately increase both the speed of drafting and also draft ratio.

Parameter
High speed drafting
High draft ratio
High speed drafting with high draft ratio
Front roller speed or
Delivery rate
increases
remains same
increases
Feed hank
remains same
decreases
decreases
Surface velocity of apron
Increases
decreases
remains same
Surface velocity of Front top cot
increases
remains same
increases
Front zone Draft
remains constant
increases
increases

Case Study 1 Mills normal parameter to spun 100s Ne:

Make of RF
LR 6
Material Processed
100% Cotton
Drafting type
P 3-1
Fibre Length / Denier
35.5
Blend ratio
N/A
Total draft
35.71
Dyed / grey
N/A
Break Draft
1.136
Yarn Count In Ne
100s Cwd
Spindle speed
19000
Roving hank
2.8
FRS
12.46 Mts / Min
Roving TM
1.12
RF - TM
3.8


Parameter
Normal
High speed
drafting
High draft ratio
High speed drafting with high draft ratio
Front roller speed or Delivery rate mts /min
12.46
16
12.46
16
Feed hank
2.8
2.8
2.0
2.0
Delivery hank
100s
100s
100s
100s
Surface velocity of apron in mts/min
0.396
0.509
0.283
0.396
Surface velocity of Front top cot
12.46
16
12.46
16
Front zone Draft
31.43
31.43
44
44


                                              



Impact of high speed drafting/ high draft ratio on cots & aprons:

  1. The surface speed of front top roller cot increases as a result it has to make more revolution per unit time (rpm) as a result cots relaxation time (Rt) gets reduced proportionately. Here resilience property along with low compression set values of a cot plays a vital role. A cot having poor resilience will not recover its original geometry within that time interval and it may have permanent deformation leading to quality detoriation.

  1. For the same time period, the cot and aprons should handle more volume of fibres since the productivity is more. Here abrasion resistance, wear & tear property along with other physical properties of the cots and aprons plays an important role.

  1. Due to increased surface speed, handling high volume of fibres chances of lapping will be high (especially while using softer cots) due to excess static charge generation on the cots surface. In this case rubber compound conductive properties, core conductivity plays an important role.

  1. In case of high draft ratio, the load on the aprons will be very high. This is due to the fact that front roller cot will have to exert more pulling force to get the fibres out of apron nip since surface speed of aprons will be lesser and more static friction takes place between fibers and apron surface. This increases the wear and tear of drafting apron.

  1. The drafting combination had a significant influence on fiber speed. Increasing the drafting ratio will results in higher fiber speeds.

Conclusion:

High speed drafting with increased draft ratio significantly affects the life of individual drafting zone components especially cots & aprons. Frequency of flexing of bottom aprons at nose bar, wear out on both inner/outer layers generally increases Cots rubber compounds abrasion resistance, anti-lapping properties together with high resilience property plays a vital role. in deciding definitive yarn quality with consistency even at increased drafting speed with high draft ratio.






                                                                                                                            

Courtesy : Fibre2Fashion

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