EP0143174A2 - Flat-clothing for carding machines - Google Patents

Abstract

In the fiber passage direction (F) subsequent rows of teeth (4) are offset from the previous rows of teeth (4). The offset is decreasing in the direction of fiber passage, so that the lane widths (g) decrease in the direction of fiber passage. This means that only the coarser impurities are excreted at the cover inlet and increasingly finer impurities only in the subsequent cover section. An increased degree of parallelization of the fibers is also achieved.

Description

The invention relates to a cover set for carding machines, with a plurality of teeth inserted into rows of teeth in a scraper belt, each with a tooth bridge and a first tooth limb projecting from one end of the tooth bridge with a first tooth tip and a second tooth limb projecting from the opposite end of the tooth bridge have a second tooth tip.

DIN 64 108 describes the terms and sub-terms of scraper belts, from which the types of stitch emerge in particular. Diagonal stitching is used in particular for cover sets that are used on textile cards. This diagonal stitch is on page 2, section 2.2. of DIN 64 108. The 4-diagonal stitch or 6-diagonal stitch is mainly used for the diagonal stitch. In the case of the 4 diagonal stitch, the second row of teeth is offset by 1/2 tip width (2) compared to the first. The offset corresponds to the aisle width g _l . In the case of the 6 diagonal stitch, the second row of teeth is offset by 1/3 tip width (2) compared to the first. For example, a Combination of diagonal stitches, ie 4 and 6 alternately alternately used.

These types of stitches have the disadvantage that there is always an aisle width in the direction of fiber passage from the front to the rear end of the scraper fitting. As a result, individual fibers are not recorded during the carding process, i.e. they migrate uncontrollably through the cleaning and parallelization process, which means that nits and contaminants in the fiber material are not excreted.

In the European patent application No. 80'10'3579 (publication number 0041076) published on December 9, 1981, a lid set is shown in which at least two teeth formed in succession in the carding direction by the scratch wires are arranged laterally offset from the carding direction by a distance which is not is more than the wire thickness of the scraper wire, such that the lid set has no free lanes. A cover set is described which prevents the formation of alleys by a suitable type of setting. Experience has shown that an increased separation of impurities takes place in the carding process, and an increased degree of parallelization can also be achieved.

However, this has led to the fact that when a jamming effect of the fiber material has arisen at the front of each individual cover. This jamming effect now causes the subsequent carding teeth of the cover sets to no longer be used optimally, i.e. does not serve the purpose of excretion and this congestion process has a negative effect on the carding process. The higher the throughput of the carding machine, the greater the accumulation effect.

The invention seeks to remedy this. The invention, as characterized in the claims, solves the problem of creating a cover set for carding machines, in which the offset of the teeth decreases in the direction of fiber passage, so that a funnel effect of the fitting is formed.

The advantages achieved by the invention are essentially to be seen in the fact that initially only coarser impurities are excreted when the cover is infeed, so that there is no accumulation effect. Finer impurities are only excreted in the middle or rear part of the fitting. The fibers are also treated more gently, since the force exerted on them by the teeth only increases gradually. Finally, an increased degree of parallelization of the fibers is achieved.

• Fig. l: schematisch einen Querschnitt durch ein Kratzenband mit eingesetzten Zähnen;
• Fig. 2: eine Seitenansicht eines in der Fig. 1 gezeigten Zahnes;
• Fig. 3: eine Darstellung eines Kratzenbandes gemäss DIN 64 108 einer ersten Ausführung der Erfindung;
• Fig. 4: die Zahnspitzenverteilung bei der Vorderseite eines Kratzenbandes gemäss der Ausführung nach Fig. 1;
• Fig. 5: die Darstellung eines Kratzenbandes gemäss DIN 64 108 einer rippenstichähnlichen Ausführung der Erfindung;
• Fig. 6: die Darstellung einer dritten Ausführung mit sich wiederholendem Rapport;
• Fig. 7: die Darstellung einer vierten Ausführung der Erfindung;
• Fig. 8: die Darstellung einer fünften Ausführung mit Zähnen, deren Stege unterschiedliche Längen aufweisen.

In the following, the invention will be explained in more detail with reference to drawings showing several possible embodiments. It shows:

• Fig. L: schematically a cross section through a scraper belt with inserted teeth;
• FIG. 2 shows a side view of a tooth shown in FIG. 1;
• 3: an illustration of a scraper belt according to DIN 64 108 of a first embodiment of the invention;
• 4: the tooth tip distribution at the front of a scraper belt according to the embodiment according to FIG. 1;
• 5: the representation of a scraper belt according to DIN 64 108 of a rib stitch-like embodiment of the invention;
• 6: the representation of a third embodiment with repeating repeat;
• 7: the representation of a fourth embodiment of the invention;
• Fig. 8: the representation of a fifth embodiment with teeth, whose webs have different lengths.

Fig. 1 shows schematically a cross section through a scraper belt 20 with inserted teeth 24. The scraper belt is usually a laminated body made of different materials, e.g. Fabrics and plastics. The scraping tape 20, for example, is made up of three layers 21, 22, 23 which are glued together. Hooks made of wire, i.e. teeth 1, are inserted in the scraper belt. According to FIG. 1 and in particular FIG. 2, a respective tooth 24 has a tooth bridge 1, two tooth limbs 25 and two tooth tips 2, 3. A distinction is made between the first tooth tip 2 and the second tooth tip 3.

3 shows a first embodiment of the cover assembly according to the invention in a representation according to DIN 64 108. The view of the back of the scraper belt is shown, so the toothed webs 1 are visible. Fig. 4 is the view of the front of the scraper belt. Deviating from the corresponding representation according to DIN 64 108, only the tooth tips 2, 3 and not the tooth limbs are drawn for the sake of clarity. The direction of fiber travel is designated by F. The tooth tip located in the fiber passage direction F at the right end of a tooth bridge 1 is designated by the reference number 2 and the tooth tip located on the left relative thereto is designated by the reference number 3. The rows of teeth are generally designated by the reference number 4, as indicated in FIG. 3. 3 can be regarded as starting from a diagonal stitch. In the case of the diagonal stitch, the tooth tips 2, 3 each determine straight lines which run at an oblique angle to the direction F of the fibers. In contrast to this, according to the embodiment according to FIG. 3, tooth tips 2, 3 successive in the fiber passage direction F determine a curve line. The tooth tips 2, 3 of successive rows of teeth 4 in the fiber passage direction F are offset from one another to a decreasing extent, such that the offset from row of teeth to row of teeth has a smaller dimension. The lane width determined by the offset is generally designated by g. In FIG. 1, the alley widths g are indicated in particular as an example, which is determined by first tooth tips 2 which are arranged one behind the other in the fiber passage direction F and are offset according to the inventive concept. It is clearly evident that this aisle width g becomes smaller from row to row.

If the tooth tips 2 of the teeth of FIG. 1 each having the same length of the tooth bars 1 are viewed purely schematically, these tooth tips 2 determine a curve line C. The curve line C can be in a coordinate system x; Draw y, at which x runs in the direction of the machine width and y in the direction of the cover width of the cover set, whereby the zero point O coincides with the lower left corner of the cover. The slope of this curve line C is increasing. It can follow different mathematical relationships in the specified coordinate system.

a muss dabei nicht ganzzahlig sein. Folglich wird die Gassenbreite g mit zunehmenden y immer kleiner und strebt gegen Null. Offensichtlich sind Werte, die g < O ergeben, sinnlos, weil die Gassenbreite g um eine positive Zahl sein kann.This curve line C follows the relationship according to an embodiment

a does not have to be an integer. As a result, the alley width g becomes smaller and smaller with increasing y and tends towards zero. Obviously, values that give g <O senseless because the alley width g can be a positive number.

A und k sind Konstanten. Setzt man diese = 1, lautet die Beziehung

a ist eine Variable, kann samt auch den mathematischen Wert e (Basis der natürlichen Logarithmen) annehmen. Solche Kurven verlaufen nicht asymptotisch. Da jedoch die Zahnschenkel einen endlichen Wert des Durchmessers aufweisen, wird auch mit dieser Ausführungsform bei einem berechenbaren Wert von y die Gassenbreite g = O werden.In another embodiment, curve line C generally follows the relationship

A and k are constants. If you set this = 1, the relationship is

a is a variable and can also take on the mathematical value e (the basis of natural logarithms). Such curves are not asymptotic. However, since the tooth limbs have a finite value of the diameter, the aisle width will also become g = 0 with this embodiment at a calculable value of y.

A further embodiment of the setting type according to FIGS. 3 and 4 is limited to the section of the curve line C used in each case. The lid width is a measure given by a finite number, i.e. y [cm]. Thus, the utilized section of the curve line C can be a section with a small slope or also a section with a high slope of the curve line C. The leading edge of the cover seen in the fiber passage direction F is designated 0% and the trailing edge 100% cover width, the center is designated 50%, as shown in FIG. 3.

In this further embodiment, the section of the curve line C between 0% and 50% cover width obeys the relationship Δy <Ax. At 50% lid width, the relationship is Δy = Δx. At this point, the tangent T placed on the curve line C has an inclination angle of 45 ° or a tangent of 1. Finally, the section of the curve line C of the cover that runs between 50% and 100% lid width obeys hung Δy> p x. Thus, the distance between the center lines of the tooth webs of tooth rows 4 successive in the fiber passage direction F is smaller in the area of the front (leading) half of the cover than the amount of offset, in the area of half the width of the cover is equal to the amount of offset, and in the area of rear (trailing) half of the cover greater than the amount of offset.

Some explanations of the course of the curve line C have now been explained above. Further versions are described below in which the tooth tips determine curve lines. It should be noted here that these curve lines also run in accordance with the various exemplary embodiments above, and therefore each possible combination of the versions of the course of the curve lines C is not described again below.

5 shows an embodiment in which the first and subsequent tooth rows 4 are staggered in groups with respect to the first and second tooth tips of tooth rows 4 preceding in the fiber passage direction F to a decreasing extent in the fiber passage direction F.

The design is based on the rib stitch, here for example a 5 rib stitch. Three groups are shown one behind the other in the fiber passage direction F, groups 5, 6 and 7. Group 5 has an aisle width g ₁ corresponding to its offset, group 6 an aisle width g ₃ corresponding to its offset and group 7 an aisle width g ₃ corresponding to its offset on. For example, the tooth tips 2 of the leading group 5 determine a straight line 8, that of group 6 a straight line 9 and that of group 7 a straight line 10. All teeth webs 1 have the same length and only for the sake of clarity only the straight lines determined by the second tooth tips 2 on the right are drawn. In the coordinate system x, y, straight line 9 has a greater slope than straight line 8, and straight line 10 in turn has a greater slope than straight line 9. This results in the nstructions smaller in direction of fiber flow F group-p _e lanes widths g. ₁ g ₂ ^g _{3 '} .... one defines in the coordinate system x; y the slope of the respective straight line 8, 9, 10 is based on the slope angle α, α _{1 of} the straight line 8: x °, α _{2 of} the straight line 9: (x + y) °, α _{3 of} the straight line 10: (x + 2y ) °, ... etc. Seen in the y-direction there is a finite number of groups 5, 6, 7 .... For the last group n in the fiber passage direction F: α _n = (x + ny) ° <90 ⁰ . The alley width g therefore moves asymptotically towards zero, or tg α _n <∞.

The embodiment according to FIG. 6 is similar to that according to FIG. 3 in that one can speak of a rib stitch, but the offset within a respective group 11, 12, 13 ... follows the embodiment or the embodiments according to FIGS. 1 and 2. For clarification, the respective curve line C is drawn in FIG. 4. The individual groups 11, 12, 13 ... each contain the same mathematical regularity of the offset or the curve line C.

The embodiment according to FIG. 7 differs from the embodiment according to FIG. 6 in that, similar to FIG. 5, the individual groups 14, 15, 16,... Do not have the same pattern, but rather the degree of decrease in the offset of the groups 14. 15, 16, ... is increasing in the fiber passage direction F. In Fig. 6, all curve lines C have the same mathematical regularity. In 7, on the other hand, the increase in the slope of curve C _{2 is} greater than that of curve C ₁ , and the increase in the slope of curve C ₃ is greater than that of curve C ₂ , .... For example, curve line C ₁ the relationship x = y, the curve line C ₂ the relationship x = y ³ , and the curve line C ₃ the relationship x = y ⁴ , or in the case of exponential curves the following can apply for C: y = Ae ^2x , for C2: y = Ae ^3x , and for C3: y = Ae ^4x .

An embodiment is shown in FIG. 8, in which only the offset of the first tooth tips 2 and thus the aisle widths g determined by them decrease in the fiber passage direction F. These first tooth tips 2 again determine a curve line C which has one of the above-mentioned regularities. The second tooth tips 3, however, define a diagonal line G. Thus, tooth bridges 1 of different lengths are present in this cover set.

The embodiment shown in FIG. 8 can also be grouped in other variants similar to the embodiments according to e.g. 6 and 7 set.

Due to the increasingly smaller offset in the fiber passage direction F and thus the width of the aisle, a funnel effect results when carding.

Only the coarser impurities are excreted in the leading area of the cover and therefore there are no congestion effects in trailing areas of the cover due to e.g. Signs of blockage.

In addition, the shape and position of the fibers are changed gradually and to an increasing extent during parallelization, the fibers are thus treated more gently and congestion effects when the lid is being run in can be prevented.

Claims (9)

1. Lid set for carding machines, with a plurality of teeth (24) used in a scraper belt (20) in rows of teeth (4), each having a tooth bridge (1) and a first tooth leg protruding from one end of the tooth bridge (1) with a first Have a tooth tip (2) and a second tooth leg with a second tooth tip (3) protruding from the opposite end of the tooth bridge (1), characterized in that at least the first tooth tips (2) are opposite to rows of teeth (4) following in the fiber passage direction (F) the first tooth tips (2) of tooth rows (4) preceding in the fiber passage direction (F) are offset, at least in groups, in a dimension decreasing in the fiber passage direction (F). 2. Lid set according to claim 1, characterized in that the degree of decrease in offset is asymptotic towards zero. 3. Lid set according to claim 1, characterized in that the amount of decrease in offset decreases exponentially. 4. Lid set according to claim 1, characterized in that the distance between the center lines of the tooth webs (1) in the fiber passage direction (F) successive rows of teeth (4) in the area of the leading half of the lid is smaller than the amount of offset, in the area of half Lid width is equal to the amount of offset, and in the area of the trailing half of the lid is larger than the amount of offset. 5. Lid set according to claim 1, characterized in that the first (2) and second tooth tips (3) of rows of teeth (4) following in the direction of fiber passage (F) are offset at least in groups with respect to the first (2) and second tooth tips (3) of rows of teeth preceding in the direction of fiber passage (F) to a decreasing extent in the direction of passage of fibers (F). 6. Lid set according to claim 5, which is set in groups in a n-rib stitch, characterized in that the measure of the offset of the rows of teeth (4) within a respective n-group (5, 6, 7) is the same, and that n-groups following in the fiber passage direction (F) have a smaller offset than n-groups preceding in the fiber passage direction (F). 7. cover set according to claim 5, which is set in groups in an n-rib stitch, characterized in that all groups (11, 12, 13) have the same stitch pattern, and that the amount of offset within each group in the fiber passage direction (F) decreases is. 8. lid set according to claim 5, which is set in groups in an n-rib stitch, characterized in that the amount of offset within each n-group (14, 15, 16) in the fiber passage direction (F) is decreasing, and that at in the fiber pass direction (F) following n groups the degree of decrease in the offset is greater than the degree of decrease in offset of the n groups preceding in the fiber pass direction (F). 9. Lid set according to claim 1, characterized in that the first tooth tips (2) of subsequent tooth rows (4) in the fiber passage direction (F) with respect to the first tooth tips (2) of tooth rows (4) preceding in the fiber passage direction (F) in an in The fiber passage direction (F) decreasing dimension are offset, and that the second tooth tips (3) of tooth rows (4) following in the fiber passage direction (F) compared to the second tooth tips (3) of tooth rows (4) preceding in the fiber passage direction (F) to an invariable extent are offset.

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