DE2254568A1 - METHOD AND DEVICE FOR THE PRODUCTION OF A FIBER FLAP - Google Patents

Description

The Kendall Company "95 West Street" Walpole Massachusetts O2O81 _f V.St .A.

Method and device for producing a pile of fibers

The invention relates to a method for producing a Fibrous web, which has a predetermined fiber orientation and whose strength in the transverse direction is that exceeds in the longitudinal direction, as well as a device to carry out this procedure.

A large number of processes for the production of fiber webs are known: For example, a fiber web is saturated, sprayed or impregnated with a binder consisting of a polymer. In ^the fibrous web and thermoplastic fibers can be introduced, according to which the batt is subjected to heat and pressure. Finally, the fiber pile can also be applied to plastic films or paper by gluing.

contraption
In most cases, the / for the production of the fiber web consists of a card which produces a web from fibers which are predominantly oriented in the longitudinal direction, ie parallel to the direction of movement of the web. Since with this type of.

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Fiber orientation the strength of the fiber web in the longitudinal direction is much larger than that in the transverse direction, many types of batts are either unusable for certain purposes, or else they have to be made uneconomically difficult to do so they have sufficient tensile strength in the transverse direction.

Various attempts have been made to find the ratio the strength in the transverse direction to that in the longitudinal direction. So you have, for example the fibers are dispersed in a more or less random orientation in a stream of air, from which they are by suction placed on a perforated drum. Such devices are expensive and, while they are at Sliver speeds of around 9 m / min, limited work, they generate at speeds of 27 to 45 m / rain. Poor quality fiber webs because the Fibers clump together and are not sufficiently distributed.

Another known method of improving the ratio of transverse and longitudinal strength consists in the use of a transverse laying device t from which a full width batt with oriented fibers is mechanically folded back and forth to obtain a coherent structure in which the average angular position the fibers alternate. Such devices work slowly and are prone to failure and are only suitable for fiber webs that are very thick and on which fold marks and overlapping edges are not objectionable.

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The object of the invention is to provide a method and an apparatus for producing a fibrous batt su create _r in which the 'fibers its direction not random oriented, but are in a direction as desired perpendicularly to the longitudinal direction of the fibrous web, or another Angle to this direction. .

According to the invention, an airborne stream of. Textile fibers with a length of at least 2.5 cm passed through a conduit which is curved in such a way that a centrifugal force is exerted on the fibers and these become dense in the transverse direction on this wall align the transversely extending belt, after which the fibers emerging from the duct on a porous conveyor belt which continuously passes the end of the curved wall.

A device for carrying out the aforementioned method is according to the invention characterized in that a curved fiber flow receiving the airborne fiber flow Conduit having a width greater than its height and its inlet and outlet at an angle of are arranged about 90 to each other, a transversely extending, wall curved in the longitudinal direction of the duct. and a porous conveyor belt at the outlet of the conduit is arranged to deposit the fibers.

With the method and apparatus according to the invention Manufactured fiber webs, the fibers of which are oriented transversely and which therefore have a lower strength in the longitudinal direction have, are advantageously used to reinforce card slivers, the fibers of which are predominantly longitudinally oriented are or made of paper, fabric or foils where

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an increase in strength in the transverse direction is desired.

The fiber webs produced with the method according to the invention and the device used to carry it out also have considerable advantages in the further treatment of the fiber webs, in particular in the adhesive processes used here. While it is in itself possible to make a fiber web with arbitrarily oriented fibers in this way into a fiber web which has isotropic strength properties, exceptional care must be taken in order to avoid a tension being exerted on the fiber web. . to this end, measures are required which practically de-ice to be completely uneconomical, in contrast, the new fiber webs whose strength is greater in the transverse direction than in the longitudinal direction can: _Λ simply and economically manufactured, and it is readily possible, these To expose fiber webs to the normal tensile stress that comes about during soaking, conveying, drying and winding at the usual speeds the cross has direction.

In practice, the length of the fibers is so much greater than their diameter and the fibers are so flexible that each Fiber has a convoluted shape and along its length curves and reverses direction. The main orientation of the fibers is therefore determined by measurement the ratio of the strength of the batt in the transverse direction to the strength in the longitudinal direction is determined. With the new process, fiber webs can be produced

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in which the pasers are transversely oriented and in which, accordingly, the strength. is larger in the transverse direction than in the longitudinal direction, but preferably four or five times as large as this, whereby it is indicated that the effective lengths of the majority of the fibers are transverse to and perpendicular to the batt Run lengthways.

The new method can be carried out in such a way that an airborne stream of fibers at great speed is generated, which disperses in a calming chamber and reduces its speed in this chamber which has a width that is significantly greater than its height, so that a relatively wider one, however * flat fiber stream is generated, which then in a after below curved line, which represents an extension of the calming skamraer, is deflected. The airborne Fiber stream is effectively centrifuged when it hits the curved wall of the conduit and the fibers. which moves parallel to the direction of the fleece of the river are oriented in a direction that is roughly right

? ■ runs at an angle to the previous direction of flow.

If no turbulence is created in the air stream, the fibers are laid down in the form of a dense ribbon, the moves down the curved wall and towards the conveyor belt. The belt may have a thickness that is small is called the length of a fiber in order to reorient it in this way to ensure.

'In the drawing, an embodiment of a device according to the invention is shown. Show it:

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Pig. 1 a device for producing a batt according to the invention in a side view,

2 shows the device in a top view,

3 and 4 the sub-area A of FIG. 1 (indicated by dashed lines) on an enlarged scale in a side view,

FIG. 5 shows the curved line of the device according to FIG. 1 in a partial representation in a side view at a certain way of working,

6 shows the curved line in the same type of representation with a different mode of operation,

7 shows a modified device according to the invention in a plan view and

8 and 9 the outlines of the outlets of the two lines shown in FIG.

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«The arrangement shown in Fig. 1 contains a.;

air-driven suction device 10 through which a combing / j . A train or ribbon of staple fibers is converted into an air "..." ■ stream with individual strands of high speed can be. The suction device can have a structure as described in patent applications P 22 32 417.0 and P 22 35 270.1 described and illustrated by the applicant is. . ;

The high velocity stream of airborne fibers enters an entrance chamber 12 and is then spread out in a calming chamber 14 which converts the fiber stream into a stream that is wider and shallower than the stream exiting the suction device then flows through a chamber 16 and reaches a narrowed part 18 which acts as a venturi tube. Although the narrowed part 18 is not absolutely necessary, it has the effect that locally occurring disruptive pressure differences or vortex formations are compensated or reduced so that the fiber flow is evened out.

The fiber stream leaving the narrowed part 18 flows past an adjustable baffle plate2O and arrives into a curved conduit 22 in which the reorientation of the fibers takes place. Most of the fibers will thrown against the curved front wall of conduit 22, causing it to become parallel from its orientation to be reoriented to the airflow in a position which they are predominantly arranged transversely or at right angles to the direction of the air flow «

The degree of reorientation can be changed by adjusting the baffle plate 20. As shown in Fig. 3 and 4 can be seen, the baffle plate 20 consists of a Right-angled sheet metal that extends across the width

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the line 22 extends and is hinged at 21 to the line 22.

When the baffle 20 is in the inoperative position shown in Fig. 3, only a little comes Touching the gentle flow of the broad, but shallow one air-borne fiber flow in the line 22, and the fiber flow assumes a shape as shown in FIG. 5 is shown. The fibers are reoriented because they tend to become in a band collect, 'which is only about 6.5 mm thick. This can be observed in detail when the walls of the pipe are taken out transparent material, e.g. made of an acrylic plastic. This way of working results in the greatest possible reorientation and enables the application of fiber batts, whose strength in the transverse direction is four or five times as great as their strength in the longitudinal direction.

We'in the baffle plate 20 is set such that one its legs extending downward over the inlet of the line 22 (Fig.4), the gentle flow of the Fibers suddenly interrupted, and in the line 22 there is turbulence in the form of innumerable eddies and irregularities the air flow. The line is then more or less evenly dispersed with an arbitrary one Fiber flow fulfilled (Fig. 6), which leads to a fiber pile in which the strengths in the transverse and in are approximately the same size in the longitudinal direction.

When the baffle plate 20 takes a position between 3 and 4, the ratios between the strength in the transverse direction become average and that in the longitudinal direction, the magnitude of this ratio depending on the extent to which

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that directed towards the curved wall of the conduit 22 Paserstrom is disturbed by the air turbulence that occurs in the line comes about.

Whatever the type of orientation of the filaments that occurs in the line 22, the fiber stream moves down through an outlet at the lower end of the line and is ^{collected on a porous conveyor belt 2 <} *, which is carried by rollers 36 and 38 is set in motion (Fig. 1. And 2) . In order to avoid a loss of fibers during the transition of the fiber flow to the conveyor belt] 24, a sealing roller 28 is provided, which circulates on the conveyor belt and the exit of air laden with fibers via the; lower edge of the curved front wall of the conduit 22 prevented. Likewise, a curved strip of plastic touches the lower edge of the back wall of the conduit ;; 22 seals the circumferential torderband 24.

The fiber web 34, which is deposited on the conveyor belt 24, is drawn off from the conveyor belt 24 with the aid of take-off rollers 30 and 32. If the batt is oriented transversely mainly, it can not hang down, as 1st shown in Fig. 1, but must, when ^ ^r leaves the roller 32 can be promptly stored because it lacks in the longitudinal direction of strength.

The size of the device naturally changes with the Width of the batt to be produced, the volume of fibers to be treated and other factors. At a Typical embodiment, the entrance chamber has the shape of a cube with a side length of 25th, 4 cm. The calming chamber 14 tapers to one Height, of 11.7 cm, while expanding to a width of

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101.6 cm widened in order to be able to produce a correspondingly wide fiber pile. Chamber 14 is 101.6 cm wide and 11.7 cm high. _A ratio of width _to height _of at least 5 to 1 is preferred.

The outlet of the narrowed portion 18 may increase to a height. _{taper by} about 3 cm and the inlet of conduit 22 may be 5 cm in height. The front wall of the conduit 22 is curved over a range of 90 ° with a radius of 38 cm. Your outlet is 15.2 cm wide »

2 so that there is a shelf of 1548 cm on the conveyor belt 24 results.

The extent to which the fibers are reoriented depends on the amount of fibers as well as the shape of the conduit 22. When the baffle plate 20 is in the position shown in FIG. 3, in which the turbulence is in the conduit 22 Reduced to a minimum, a strip of rayon fibers 5.5 denier and 15.2 cm in length produces a batt in which the strength in the transverse direction is about five times as great as the strength in the longitudinal direction. With a corresponding fiber stream of rayon fibers of 1.5 denier and a length of 3.8 cm, the strength of the fiber batt in the transverse direction is approximately twice as great as that in the longitudinal direction. When the device shorter fibers are fed cm with a length of 0.6 to 1.3, in an isotropic ^e r batt is generated.

In general, fibers that are 10 cm or more in length can be expected to have batts that have a strength in the transverse direction three times that of the strength in the longitudinal direction. Fibers that are 2.5 or 5 cm long produce batts that have strength in the transverse direction is almost twice as great as the strength in the

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Longitudinal direction, being assumed in both cases is that in the line 22 no turbulence comes about.

Paserflore with the same firmness in both directions are used with both 15 "2 cm fibers and those of 3.8 cm in length when the baffle plate 20 'into the is brought to the position shown in Fig. 4:

Embodiment ·

A 191,317 denier rayon sliver consisting of 34,785 fibers, each 5.5 denier and 15.2 cm in length, is made from an endless rayon tow that is cut through a Pacific converter and then with The help of a pin is warped. It is fed to a device according to FIG. 1, a suction device of the type B being used, as described and illustrated in the applicant's patent application P 22 35 270.1. This is done at a speed of 6.58 m / min, or 0.85 kg / hr _r wherein the baffle plate 20 in which is located .. 3 position shown in Fig. The centrifuged fiber stream is deposited as a uniform fiber web on the conveyor belt 24, which is 101.6 cm wide and from which

Weighing 0.84m 65.3 g

is 1.76 m / min ..

Weighing 0.84m 65.3 g. The speed of the conveyor belt

The strength in the transverse direction is about five times that great as the strength in the longitudinal direction. If the Impact plate 20 is moved into the position shown in Fig. 4, the fiber web has approximately the same strength in the Transversely and lengthways.

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In the modified embodiment of FIG. 7, two curved conduits 50 and 52 are those described above Construction with their outlets at angles of 45 to the longitudinal axis of the porous conveyor belt 54. It is assumed that the baffle plate in 'each line is in the open position shown in Fig. 3 is located. The line 52 then places a sliver 56 on the conveyor belt, the fibers of which are shown in the drawing Way are oriented, and the line 50 lays another sliver on this sliver, the fibers of which are at right angles are oriented to the fibers of the tape 56, so that a fiber web 53 comes about in which the predominant Orientation of the fibers criss-cross. The tensile strength of such a batt is after it is converted into a fiber fleece, in both diagonal directions, i.e. less than 45 ° to the longitudinal direction or to the transverse direction, the largest.

Even if FIG. 7 shows a fiber web consisting of two fiber layers, the fibers of which are oriented at 45 ° to the longitudinal axis of the conveyor belt and at 90 ° to one another, other fiber orientations are also possible. In general, it is preferred that the transverse axis of each ^{conduit be inclined at an angle between 1} ^ and 45 to the transverse axis of the conveyor belt. Likewise, two layers of fibers with randomly oriented fibers can be deposited on the conveyor belt 54 by adjusting the baffles to accommodate them create turbulence in lines 50 and 52.

If, as shown in Fig. 7, a two-layer Fiber web is to be deposited, two modifications of the device according to FIG. 1 are recommended, lira clean To produce side edges on the fiber pile, it is expedient to make the shape of the line outlets from a rectangle to be changed into a rhonboid. Eligible

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Examples of such rhomboids are shown in FIGS. 8 and 9. The inclination of the thomboids depends on the angle at which the fibers are to be placed. In addition, since it is difficult to maintain the seal roll of Fig. 1 when a curved conduit is placed at an angle other than a right angle to the direction of travel of the conveyor belt, it is convenient to omit the seal roll 28 and seal the conduit outlet tightly and slidably onto it Put on conveyor belt. '.

Another advantage of the angled arrangement of the conduit with respect to the conveyor belt is that heavier batts can be produced with a single conduit. The output of a single line is limited by its dimensions. If a line 203 cm wide is arranged at an angle of 60 ° with respect to the conveyor belt and the baffle plate is adjusted as shown in FIG. 4 in such a way that it creates turbulence, a randomly oriented fiber web 102 cm wide is deposited on the conveyor belt . If the angle is increased from 60 ° to 75 °, the line can be 406 cm wide, while the pile of fibers produced is still 102 cm wide. Since the raeisten devices for stabilizing and finishing are designed of batts in such a manner that 102 cm wide fibrous webs may be treated with them, it is possible for the outlet of the conduit has a width grant of 4Q6 cm zn and the fibers preferably to promote by a plurality of suction devices, such that they are combined to form a fibrous web of 102 cm width.

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Claims (11)

Claims [l / Method for producing a fiber web, the one has a predetermined fiber orientation and its strength in the transverse direction is that in the longitudinal direction exceeds, characterized in that an airborne stroke of textile fibers with a length of at least 2.5 ca is passed through a line (22) which is curved in such a way that on the fibers a centrifugal force is exerted and this is in the Across this wall. align in a dense, transversely extending band, after which the from the Line (22) exiting fibers are deposited on a porous conveyor belt (24) which runs continuously past the end of the curved hand. 2. The method according to claim 1, characterized in that the thickness of the transversely extending sliver is smaller than the average length of the Fibers. 3. The method according to claim 1, characterized in that the airborne fiber flow is interrupted in front of the curved hand, such that the ratio of the strength of the Batt is reduced in the transverse direction to that in the longitudinal direction. 4. The method according to claim 1, characterized in that moving the conveyor belt (24) in a direction perpendicular to the transversely extending sliver. - 15 - 309820/0954 5. The method according to claim 1 or 3, characterized that the transverse axis of the conveyor belt (24) at an angle between 15 and 45 to the direction of the transverse extension of the sliver is inclined. 6. Apparatus for performing the method according to claim 1, characterized in that one of the air Curved conduit (22) absorbing the carried fiber flow, which has a width greater than its height, and their inlet and outlet at an angle of about 90 ° are arranged to each other, a transversely extending, in dei Has the longitudinal direction of the line (22) curved wall and at the outlet of the conduit (22) a porous conveyor belt (24) is arranged to deposit the fiber. 7. Apparatus according to claim 6, characterized in that that the transverse axis of the conveyor belt (24) at an angle before. 15 to 45 to the transverse edge of the curved wall of the Line (22) is inclined. 8. Apparatus according to claim 7, characterized in that that outside the first conduit (50) it contains a second conduit (52) and the conveyor belt (54) among different ones Angles relative to the curved walls of the two lines (50,52) is moved. 9. Apparatus according to claim 7, characterized in that near the inlet of the line (22) an adjustable Baffle plate (20) is provided, which extends across the width the line (22) extends. 10. The device according to claim 6, characterized in, that a roller (28) is arranged on the conveyor belt (24) next to the outlet of the line (22). 309820/0954 _ ₁₆ _ "" · 16 - 11. The device according to claim 6, characterized in that the line (22) the fibers through an air-powered Suction device are supplied and between the suction device and the inlet of the line (22) a calming ungskanuner (14) is arranged. 309820/0954