Carding Technological Points

Opening / Cleaning / Parallelisation activities for Fibres

GMT 06:37 2015 Thursday ,14 May

Sriyadithatextile - Opening / Cleaning / Parallelisation activities for Fibres

Carding machine


1. to open the flocks into individual fibres
2. cleaning or elimination of impurities
3. reduction of neps
4. elimination of dust
5. elimination of short fibres
6. fibre blending
7. fibre orientation or alignment
8. sliver formation


There are two types of feeding to the cards
1. feeding material in the form of scutcher lap
2. flock feed system (flocks are transported pneumatically)

• lapfeeding
1. linear density of the lap is very good and it is easier to maintain(uniformity)
2. the whole installation is very flexible
3. deviations in card output will be nil, as laps can be rejected
4. autolevellers are not required, hence investment cost and maintenace cost
is less
5. transportation of lap needs more manual efforts( more labour)
6. lap run out is an additional source of fault, as it should be replaced by a
new lap
7. more good fibre loss during lap change
8. more load on the taker-in, as laps are heavily compressed

• flock feeding
1. high performance in carding due to high degree of openness of feed web
2. labour requirement is less due to no lap transportaion and lap change in
3. flock feeding is the only solution for high prouduction cards
4. linear density of the web fed to the card is not as good as lap
5. installation is not felxible
6. autoleveller is a must, hence investment cost and maintenance cost is

• Type of flock feed(chute feed)
1. there are two basic concepts of flock feed
      - one piece chute without an opening device
      - two piece chute with an opening system
2. one piece chute is simple, economical and requires little maintenance
3. two piece chute is complex, expensive, but delivers a uniform batt.
4. One piece chut is a closed system, i.e.excess flock returns to the
distrbutor, if too much material is present, neps can be increased
5. one piece chute is not flexible to run different mixings
6. layout restrictions are more with one piece chute

• A feeding device is a must to feed the web to the Taker-in region and it should
perform the following tasks
1. to clamp the batt securely throughout its width
2. to grip the fibres tightly without slippage during the action of taker-in
3. to present the fibres in such a manner that opening can be carried out

• The divertor nose (sharp or round) and the length of the nose (guide surface)
have a significant influence on quality and quantity of waste removed. Shart nose
divertor avoids fibre slippage but the opening action is not gentle. If the length of
the guide surface is too short, the fibres can escape the action of the taker-in.
They are scraped off by the mote knives and are lost in the waste receiver.
• Feed roller clothed with sawtooth is always better, because it gives good batt
retention. Thus the opening effect of the taker-in is more as it is in combing
• Rieter has devloped a "unidirectional feed system" where the two feed
devices(feed roller and feed plate are oppositely arranged when compared with
the conventional system. i.e. the cylinder is located below and the plate is
pressed against the cylinder by spring force. Owing to the direction of feed roller,
the fibre batt runs downwards without diversion directly into the teeth of the takerin
(licker-in) which results in gentle fibre treatment. This helps to reduce faults in
the yarn.
• The purpose of the taker-in is to pluck finely opened flocks out of the feed batt, to
lead them over the dirt eliminating parts like mote knives, combing segment and
waste plates, and then to deliver the fibres to the main cylinder. In high
production cards the rotational speed ranges from 700-1400
• The treatment for opening and cleaning imparted by Taker-in is very intensive,
but unfortunately not very gentle.Remember that around 60% of the fibres fed to
the main cylinder is in the form of individual fibres.
• The circumferential speed of Taker-in is around 13 to 15 m/sec and the draft is
more than 1000.It clearly shows that fibre gets deteriorated at this opening point.
Only the degree of deterioration can be controlled by adjusting the following
1. the thickness of the batt
2. the degree of openness of the rawmaterial
3. the degree of orientation of the fibres
4. the aggressiveness of the clothing
5. the distance between the devices
6. the rotational velocity of the taker-in
7. the material throughput
• Latest TRUTZSCHLER cards work with three licker-ins compared to one likerin.
The first one is constructed as needle roll. This results in very gentle opening
and an extremely long clothing life for this roll. The other two rollers are with finer
clothing and higher speeds, which results in feeding more %of individual fibres
and smallest tufts compared to single lickerin, to the main cylinder. This allows
the maing cylinder to go high in speeds and reduce the load on cylinder and flat
tops. There by higher productivity is achieved with good quality. But the
performance may vary for different materials and different waste levels.
• Between the taker-in and main cylinder, the clothings are in the doffing
disposition. It exerts an influence on the sliver quality and also on the
improvement in fibres longitudinal orientation that occurs here The effect
depends on the draft between main cylinder and taker-in.The draft between main
cylinder and taker-in should be slightly more than 2.0.
• The opening effect is directly proportional to the number of wire points per fibre.
At the Taker-in perhaps 0.3 points/ fibre and at the main cylinder 10-15 points
/fibre.If a given quality of yarn is required,a corresponding degree of opening at
the card is needed. To increase production in carding, the number of points per
unit time must also be increased. this can be achieved by
1. more points per unit area(finer clothing)
2. higher roller and cylinder speeds
3. more carding surface or carding position
speeds and wire population has reached the maximum, further increase will
result in design and technological roblems. Hence the best way is to add carding
surface (stationary flats). Carding plates can be applied at
4. under the liker-in
5. between the licker-in and flats
6. between flats and doffer
• Taker-in does not deliver 100% individual fibres to main cylinder. It delivers
around 70% as small flocks to main cylinder. If carding segments are not used,
the load on cylinder and flats will be very high and carding action also suffers. If
carding segemets are used, they ensure further opening, thinning out and
primarily spreading out and improved distribution of the flocks over the total
surface area.carding segments bring the following advantages
1. improved dirt and dust elimination
2. improved disentanglement of neps
3. possibility of speed increase (production increase)
4. preservation of the clothing
5. possibility of using finer clothings on the flats and cylinder
6. better yarn quality
7. less damage to the clothing
8. cleaner clothing In an indepth analysis, all operating elements of the card
were therefore checked in regard to their influence on carding intensity. It
showed that the "CYLINDER-FLATS" area is by far the most effective
region of the card for.
9. opening of flocks to individual fibres
10. elimination of remaining impurities(trash particles)
11. elimination of short fibres( neps also removed with short fibres)
12. untangling the neps
13. dust removal
14. high degree of longitudinal orientation of the fibres
• The main work of the card, separation to individual fibres is done between the
main cylinder and the flats Only by means of this fibre separation, it is possible to
eliminate the fine dirt particles and dust.When a flat enters the working zone, it
gets filled up very quickly. Once it gets filled, after few seconds,thereafter , hardly
any further take-up of fibres occurs, only carding.Accordingly, if a fibre bundle
does not find place at the first few flats, then it can be opened only with
difficulty.It will be rolled between the working surfaces and usually leads to nep
• In princile, the flats can be moved forwards or backwards, i.e. in the same
direction as or in opposition to the cylinder.In reverse movement, the flats come
into operative relationship with the cylinder clothing on the doffer side. At this
stage, the flats are in a clean condition. They then move towards the taker-in and
fill up during this movement.Part of their receiving capacity is thus lost, but
sufficient remains for elimination of dirt, since this step takes place where the
material first enters the flats At this position, above the taker-in, the cylinder
carries the material to be cleaned into the flats. The latter take up the dirt but do
not transport it through the whole machine as in the forward movement system
Instead , the dirt is immediately removed from the machine. Rieter studies show
clearly that the greater part of the dirt is hurled into the first flats directly above
the taker-in.
• Kaufmann indicates that 75% of all neps can be disentagled, and of these about
60% are in fact disentagled. Of the remaining 40% disentaglable nep
1. 30-33% pas on with the sliver
2. 5-6% are removed with the flat strips
3. 2-4%are eliminated with the waste
The intensity of nep separation depends on
4. the sharpness of the clothing
5. the space setting between the main cylinder and the flats
6. tooth density of the clothing
7. speed of the main cylinder
8. speed of the flat tops
9. direction of flats with reference to cylinder
10. the profile of the cylinder wire
• The arrangement of the clothing between the cylinder and the doffer is not meant
for stripping action It is for CARDING ACTION.This is the only way to obtain a
condensing action and finally to form a web. It has both advantages and
disadvantages.The advantage is that additional carding action is obtained here
and it differs somewhat from processsing at the flats.A disadvantage is that
leading hooks and trailing hooks are formed in the fibres , beause the fibres
remain caught at one end of the main cylinder(leading hook) and some times on
the doffer clothing(trailing hook).
• There are two rules of carding
1. The fibre must enter the carding machine, be efficiently carded and taken
from it in as little time as possible.
2. The fibre must be under control from entry to exit
• Carding effect is taking place between cylinder and doffer because, either the
main cylinder clothing rakes through the fibres caught in the doffer clothing, or
the doffer clothing rakes thro the fibres on the main cylinder Neps can still be
disentangled here, or non-separated fibre bundles can be opened a bit in this
area and can be separated during the next passage through the flats
• A disadvantage of web-formation at the card is the formation of hooks. According
to an investigation by morton and Yen in Manchester, it can be assumed that
1. 50% of the fibres have trailing hooks
2. 15% have leading hooks
3. 15% have both ends hooked
4. 20% without hooks
• Leading hooks must be presented to the comber and trailing hooks to the ring
spinning frame There must be even number of passages between card and
comber and odd number between the card and ringframe

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