SU1675441A1 - Method for production of nonwoven fabric - Google Patents

Abstract

This invention relates to a method for producing nonwoven materials with bulk properties from a fibrous or fibrous web - semi-finished product. The purpose of the invention is to expand the range while increasing the uniformity of the material in thickness. A distinctive feature of this method is that the batt layer is fed into the formation zone so that the relative speed of movement of the surfaces of the batt supplied periodically varies, i.e. the webs are cyclically shifted relative to each other. 2 Il.

Description

The invention relates to textile and light industry, in particular to the production of nonwoven materials.

The aim of the invention is to expand the range while increasing the uniformity of the material in thickness.

Figures 1 and 2 show a device for carrying out the proposed method.

The goal is achieved by the fact that the batt layer is fed into the formation zone so that the relative speed of movement of the upper and lower batt layer surfaces is periodically (cyclically) changed, i.e. the upper and lower surfaces of the webs are cyclically shifted relative to each other by telling one of the feed rollers to a peripheral speed exceeding the peripheral speed of the other.

Periodic change in the speed of movement of the upper and lower surfaces of the batt layers leads to an ordered

folding process. For example, as the speed of one of the feed rollers increases, the speed of movement of the surface of the batt layer in contact with this roller changes. As a result, a stratified shear occurs. Moreover, this shift is reduced in the direction of the roller with a lower speed. All this leads to the formation of a deformed web, i.e. to the formation of folds from the roller, having a lower peripheral speed. With equal speeds of the feed rollers, since with equal speed of movement of the surface layers, the web is fed into the folding zone in a non-crooked form. Thus, the batt layer, as it were, is crimped with a certain step along the batt feed. As a result, a material with a uniform corrugated structure of the same thickness is obtained, and in the process of adhesive or mechanical bonding has odio 4

ate

new strength across the entire width of the product being produced. This improves the quality of the material produced, and also ensures the uniformity of its physical and mechanical properties across the width.

A method of manufacturing a nonwoven bulk material can be carried out, for example, on an assembly including a carding (carding or some other disintegrating machines) machine equipped with a variant of the device for continuous zigzag looping of a semi-finished web, consisting, for example, of a pair of feed rollers with annular grooves and guide elements housed in these grooves. Moreover, the feed rollers supply the kinematically connecting elements with the drive elements that ensure cyclic changes in the peripheral speeds of the feed rollers relative to each other, but with the same time for one rotation of their rotation, for example, a pair of four or more gear wheels, the teeth and interdental cavities are made radial.

In order to implement the proposed method, the equipment, as one of the options, must include a carding (or otherwise loosening) machine 1 and a binding, for example, needle-punching machine 2, installed in series. The combing machine is equipped with a device 3 for removing the web 4 and a conveyor 5 transmitting the web with a needle punch machine. The needle punching machine has a height-adjustable chamber 6 fold.

Upon entry into the folding chamber, feed rollers 7 are mounted, equipped with kinematically connecting drive elements 8, which ensure cyclic changes in peripheral velocities of the feed rollers relative to each other, but with the same time for one rotation of their rotation, for example, a pair of four gears, teeth 9 and interdental depressions 10 of which are made radial with a nominal radius p, and the feeding rollers are provided with grooves 11 and 12. Guiding elements 13 and 14 are placed in the grooves. Ends 15 and 16 of the guide elements ENTOV entrance t between the backsheet 17 and the purification tables 18, in which the fastener zone is passed emy canvas 19 with pleats 20.

According to the proposed method, the fibrous or fibrous web 4 is conveyed by the conveyor 5 from one or several combing (loosening) machines 1 to the needle-punching machine

2, equipped with a foldable chamber 6. The batt 4 is supplied by a pair of feed rollers 7 with kinematically connecting them driving elements 8 in space

between guide elements 13 and 14 at a speed greater than the speed of removal. By means of the guiding elements 13 and 14 located in the grooves 11 and 12 of the feed rollers 7, the web is prevented from winding on the rollers and forming a channel in which zigzag folds 20 are formed and the canvas 19 is prepared for fastening. elements 13 and 14 and lining and

5 of the cleaning tables 17 and 18, the needle is reinforced with a needle-punching machine 2.

Zigzag folds 20 of the canvas 19 are formed by cyclically varying within 10 times the peripheral speeds of the feed rollers 7, equipped with elements 8.

When piercing the web 19, the folds 20 are symmetrically flattened.

5 When flattening the folds, the fibers of the canvas 19 as a result of needling are moved in the direction of needling and are retained in the areas of the lining and cleaning tables 17 and 18, creating dotted chaotic plexuses, which contributes to an increase in the relative strength of the bulk nonwoven material. The orderly folding process is carried out at the expense of cyclically

5 of the repetitive difference in the circumferential speeds of the feed rollers 7. Thus, as the speed of one of the rollers increases, from the side of this roller (provided they are properly pressed) the surface shifts

0 layers of the contact web 4, leading to the formation of a deformed web, i.e. to the formation of a fold, with a depression on the side of the roller having a lower peripheral speed. With equal speeds of the pi5 melting rollers 7, the incoming web 4 is fed into the folding zone in a non-curved form.

When feeding the batting 4 into the chamber 6 of the folding of the feed rollers 7

0, the opposite sides of the batt are subjected to uneven cyclic velocity action. As a result of this effect, uneven shifts of the layers in contact with the rollers take place.

5, i.e. on the side of the action of the feed roller, which has a greater circumferential speed at a certain moment, it is stretched, and at the time of rotation the elongation does not occur at a lower speed. In this way, the camera-fed card, as it were, is crimped with a certain step along the line.

By changing the number of teeth of the drive pairs of gears, as well as increasing or decreasing the radius ri, therefore, the radius of the feed rollers 7, the character of the corrugations and their geometrical parameters can be adjusted. So, using four-tooth pairs of wheels with one and the same radius of / 9, and therefore the radius of t / 2, compared to five or more toothed wheels, one gets deeper amplitudes of the corrugations. The same is obtained when using gears with large radii of p and t / 2.

As a result of this speed-effect, the regulation of the folding process opens, improves the crimping conditions of the batt and allows to obtain a non-woven bulk material with better strength and aesthetic characteristics.

The method allows to significantly improve the quality of the produced volumetric

non-woven materials, regardless of their further method of bonding (mechanical or adhesive), which, in turn, opens up their wide range of options.

Claims (1)

The invention The method of making a nonwoven material, in which a fibrous canvas is formed, is supplied by a pair of feed rollers for laying in zigzag loops that are perpendicular to the surface of the material and then bonded by stitching with needles, in order to widen the assortment while increasing uniformity the thickness of the material, when applying the canvas for laying in zigzag loops, one of the surfaces of the fibrous canvas is stretched by telling one ohm from the feed rollers of the peripheral speed greater than the peripheral speed of the other feed roller. FIG. one / ten FIG. 2