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The Card It is always considered by the experts that card is the heart of the spinning mill. The statement “Well-carded is half-spun” demonstrate the.

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Presentation on theme: "The Card It is always considered by the experts that card is the heart of the spinning mill. The statement “Well-carded is half-spun” demonstrate the."— Presentation transcript:

1 The Card It is always considered by the experts that card is the heart of the spinning mill. The statement “Well-carded is half-spun” demonstrate the immense significance of carding for the final result of the spinning operation. The importance of carding is still greater where new spinning systems are concerned. The considerable influence of the card on yarn quality arises from the very complex series of events in the process itself and also from the pressure to adopt an extremely high production rate on economic grounds. Prof.Dr. A.Kirecci - TE 211 Yarn Man. I

2 Taker-in Flats Main cylinder Cleaning unit Doffer Detaching Apparatus
Prof.Dr. A.Kirecci - TE 211 Yarn Man. I 4

3 The Tasks of the Card I-Opening to Individual Fibers
Whereas the blowroom opens the raw material only to flocks, The card must open to the stage of individual fibers. This is essential to enable the elimination of impurities and performance of the other operation to be achieved. Prof.Dr. A.Kirecci - TE 211 Yarn Man. I 5

4 The Tasks of the Card II-Elimination of Impurities
Elimination of foreign matter occurs mainly in the region of the taker-in. Only a small part of the contaminants is carried along with the flat stripping or falls out at other positions. of cleaning the modern The degree achieved card is by very high, in the range of 80-95%. Thus, the over-all degree of cleaning achieved by the blowroom and the carding together is as high as 95-99%. But card sliver still contains % foreign matter normally. Prof.Dr. A.Kirecci - TE 211 Yarn Man. I 6

5 The Tasks of the Card III-Elimination of dust
In addition to free dust, which can be directly sucked away as in the blowroom, the card also removes a large proportion of the microparticles that are bound to the fibers. Significant fiber/metal or fiber/fiber friction is needed in order to loosen such particles. Both are available at the card in considerabe measure: the card is a good dust-removing machine. Prof.Dr. A.Kirecci - TE 211 Yarn Man. I

6 The Tasks of the Card IV-Disentangling of Neps
Whereas the number of neps increases from machine to machine in the blowroom, The card reduces the remaining number to a small fraction. It is often falsely assumed that neps are eliminated at the card; in fact, they are mostly opened out. Only a certain number of the neps leave the machine unopened via the flat strippings. Prof.Dr. A.Kirecci - TE 211 Yarn Man. I

7 The Tasks of the Card V-Elimination of Short Fibers
The ability to select short as opposed to long fibers is based on the fact that long fibers have more contact with the clothing of the main cylinder than the short fibers. Thus, longer fibers are continually caught and carried along by the main cylinder. Short fibers, on the other hand, offer less surface to the clothing of the main cylinder; they therefore stay caught in the flats’ clothing, press into it, and leave the machine in the flat strippings. Prof.Dr. A.Kirecci - TE 211 Yarn Man. I

8 The Tasks of the Card VI-Fiber blending
The card hardly improves long-term blending, since the residence time of the material in the machine is too short. However, it improves transverse blending because, apart from the OE-spinner, the card is the only machine to process individual fibers. In the formation of the web, and with the repeated rotation of the fibers on the main cylinder, an intimate fiber-with-fiber mixing is achieved. Prof.Dr. A.Kirecci - TE 211 Yarn Man. I

9 The Tasks of the Card VIII-Sliver formation
In order to be able to deposit the fiber material, to transport it, and process it further, an appropriate intermediate product must be formed.This output material is called sliver. In extreme cases, card sliver has a hank from 3 ktex (new spinning processes) to 6 ktex. Generally, the hank lies between 4 and 5.5 ktex in the spinning mills. Prof.Dr. A.Kirecci - TE 211 Yarn Man. I 19

10 The Tasks of the Card Autolevelling system
In order to be improve the quality of the sliver autolevelling system may be used The autolevelling system provides lower mass variation in sliver. Prof.Dr. A.Kirecci - TE 211 Yarn Man. I 20

11 Web formation Sliver Prof.Dr. A.Kirecci - TE 211 Yarn Man. I 21

12 Operation Principle of the card
A transport roller (3) passes material to the feed arrangement (4). This consists of a feed roller and a feeder plate designed to push the sheet of fiber slowly into the operating range of the taker-in (5) while maintaining optimal clamping (video). 3 5 4 Prof.Dr. A.Kirecci - TE 211 Yarn Man. I 23

13 Operation Principle of the card
The portion of the sheet projecting from the feed roller must be combed through and opened to flocks by the taker-in. These flocks are passed over grid equipment (6) and transferred to the main cylinder (8). 8 8 6 7 6 Prof.Dr. A.Kirecci - TE 21 1 Yarn Man. I 2 4

14 Operation Principle of the card
In moving past mote knives, grids, carding segments (6), etc., the material loses the greater part of its impurities. Suction ducts (7) carry away the waste. The flocks themselves are carried along with the main cylinder to the flats (10) and are opened up to individual fibers between these two devices in the actual carding process. 10 6 7 Prof.Dr. A.Kirecci - TE 211 Y arn Man. I 25

15 Operation Principle of the card
The flats (10) consist of individual carding bars combined into a band moving on an endless path. Some of the flats are located in the carding position relative to the main cylinder; the rest are on the return run. During this return, a cleaning unit (11) strips fibers, neps, and foreign matter from the bars. 10 11 11 10 Prof.Dr. A.Kirecci - TE 211 Yarn Man. I

16 Prof.Dr. A.Kirecci - TE 211 Yarn Man. I

17 Operation Principle of the card
Fixed carding bars (9) and (12) are designed to assist the operation of the card. The underside of the main cylinder is enclosed by grids or cover plates. 12 9 9 12 Prof.Dr. A.Kirecci - TE 21 1 Yarn Man. I 28

18 Operation Principle of the card
After the carding operation been completed, the main cylinder carries along the fibers that are loose and lie parallel without hooks. However, in this condition, the fibers do not form a transportable intermediate product. An additional cylinder, the doffer (14), is required for this purpose. The doffer combines the fibers into a web because of its substantially lower peripheral speed relative to the main cylinder. 14 Prof.Dr. A.Kirecci - TE 211 Yarn Man. I 29

19 Operation Principle of the card
A stripping device (15) draws the web from the doffer. After calendar rolls (16) have compressed the sliver to some extent, the coiler (18) deposits it in cans (17). The working rollers, cylinders, and flats are provided with a clothing that becomes worn during fiber-processing, and these parts must be reground at regular intervals and even replaced from time to time (video). 18 18 15 15 17 17 16 16 Prof.Dr. A.Kirecci - TE 211 Yarn Man. I 30

20 The Operating Regions of the Card
Feed of Material In modern spinning installations, the card is the first machine to deliver a cohesive intermediate product. The product is expected to be very even and as far as possible free of faults. Irregularities in the sliver can be traced through into the yarn, at least in the spinning of carded yarns; they diminish yarn quality. Prof.Dr. A.Kirecci - TE 211 Yarn Man. I

21 The Operating Regions of the Card
The Taker-in This is a cast roller with a diameter usually around 250 mm. A sawtooth clothing is applied to it. Beneath the taker-in, there is an enclosure of grid elements or carding segments. 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 under the roller, to deliver them to the main cylinder. Prof.Dr. A.Kirecci - TE 211 Yarn Man. I

22 Prof.Dr. A.Kirecci - TE 211 Yarn Man. I

23 The Operating Regions of the Card
a,b,c : Grid elements, 1- Feed plate, 2- Feed roller 3- Taker-in roller, 4- Main cylinder Prof.Dr. A.Kirecci - TE 211 Yarn Man. I

24 The Operating Regions of the Card
Main cylinder The cylinder is usually manufactured from cast iron but is now sometimes made of steel. Most cylinders have a diameter of mm and rotate at speeds between 250 and 500 (or up to 600) r/min. It is essential that the speed can be changed, i.e. exactly adapted to the requirements according to the raw material, spinning process etc., because the cylinder speed has some influence on yarn quality. Prof.Dr. A.Kirecci - TE 211 Yarn Man. I

25 WEBCLEAN system Prof.Dr. A.Kirecci - TE 211 Yarn Man. I

26 The Operating Regions of the Card
Beneath the cylinder, and fully enclosing it, is a grid made of sheet metal provided with transverse slots. This is designed to remove impurities and maintain constant air-flow conditions. Flats creates a large surface area by its clothing strips. Long fibers have more contact with the clothing of main cylinder than the short fibers. Therefore the long fibers are carried along but the short fibers’ edges are caught by the flat strippings and leave the machine. The elimination is carried out by filling the clothing and the flats then past by a cleaning device. Prof.Dr. A.Kirecci - TE 211 Yarn Man. I

27 The Operating Regions of the Card
The Doffer The cylinder is followed by the doffer, which is designed to take the individual fibers from the cylinder and condense them to a web. The doffer is mostly formed as a cast-iron drum with a diameter of about mm. It is fitted with metallic clothing and runs at speeds of about 300 m/min. Prof.Dr. A.Kirecci - TE 211 Yarn Man. I

28 The Operating Regions of the Card
The Detaching Apparatus In the last-mentioned system, either two counter-rotating belts carry the web into the centre (a) or a circulating band carries the web to one side of the card (b). It is advantageous if these sliver formers can be so manipulated that web sections can be taken out for checking of neps. (a) Prof.Dr. A.Kirecci - TE 211 Yarn Man. I (b)

29 Prof.Dr. A.Kirecci - TE 211 Yarn Man. I

30 The Operating Regions of the Card
Crushing Rollers (Web Crushing) Between the detaching roller (1) and the transverse sliver condenser belt (3), some manufacturers include two smooth steel rollers (2) arranged one above the other. They can run without loading, in which case they serve simply as guide rollers, or they can be loaded with a pressure of about 15 N/cm and are thus converted into crushing rollers. Prof.Dr. A.Kirecci - TE 211 Yarn Man. I

31 The Operating Regions of the Card
Crushing Rollers (Web Crushing) Where cotton with a medium-to-high dirt content is being processed, additional cleaning can be carried out here by squashing the foreign particles. The fragments fall away immediately afterwards or in the subsequent machines. Prof.Dr. A.Kirecci - TE 211 Yarn Man. I

32 The Operating Regions of the Card
Coiling into cans The material should be coiled into cans for the transport purposes. This can be achieved automatically by having one spare free can ready at anytime. Prof.Dr. A.Kirecci - TE 211 Yarn Man. I

33 The Operating Regions of the Card
Clothing Of all the individual components of the card, the clothing has the greatest influence on quality and productivity. Mills now have to make a difficult choice between hundreds of available clothing types, a choice of the utmost importance. Prof.Dr. A.Kirecci - TE 211 Yarn Man. I


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