JPS6350531A - Method for producing mixed cotton web and apparatus therefor - Google Patents

Abstract

PURPOSE:To obtain mixed cotton web having excellent dispersed state, by supplying short fibers having specific length and fineness and crushed pulp separately to guiding mechanisms, compressing both components at the same time and crushing and mixing the compressed components. CONSTITUTION:Short fibers and crushed pulp are separately fed through feed hoppers 1, 2, supplied to a nip roll 5 and a garnet roll 6 via feed gears 4 and crushed with the garnet roll 6. Diffused and mixed mixture of both components is sucked with a vacuum device 9 and deposited and laminated on a mesh belt 8 as a mixed cotton web 7. The short fiber used as a raw material has a fiber length of 10-50mm and average fineness of 0.1-40 de.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a method for producing a blended cotton web in which crushed Noyalp and specific synthetic fibers are uniformly dispersed, and an apparatus for producing the same.

[Conventional technology]

Traditionally, cotton or synthetic fibers and 1? There are two methods: a dry method and a wet method to make a cotton web mixed with cotton wool. Although the wet method allows for cotton blending, it has many drawbacks.

In this method, crushed pulp and short synthetic fibers are first placed in water, then scooped out and dried. Problems arise due to fiber agglomeration, and surface treatment is required, leading to high costs.

On the other hand, in the dry method, it is extremely difficult to uniformly mix two types of fibers with different fiber lengths, so the fiber lengths are made constant and the cotton is blended using a cotton machine such as a card or random Uniper. It is.

Therefore, blending of short fibers such as Noruso and long fibers such as synthetic fibers is rarely practiced.

It is difficult to mix cotton even with a stacking machine, and currently only the pulverized pulp is uniformly measured to make Kulp cotton.

[Problem that the invention seeks to solve]

An object of the present invention is to provide a method for producing a mixed cotton web in which pulverized pulp and specific synthetic fibers are uniformly dispersed, and an apparatus for producing the same.

[Means and effects for solving the problems] The method for producing a blended cotton web of the present invention is such that when producing a blended cotton web of pulverized fibers and synthetic fibers, the fiber length of the synthetic fibers is 10.
Using short fibers with a diameter of ~50 nm and an average fineness of 0.1 to 40 deniers, each component was separately supplied to the guide mechanism so that the mixing ratio of the short fibers and the pulverized pulp was constant, and then both components were It is characterized by simultaneously compressing, pulverizing, and diffusing and mixing.

Furthermore, the apparatus for producing a blended cotton web of the present invention includes a pair of opposing movable belts for supplying the crushed Notarzo and the synthetic fiber short #Lm separately and at a constant mixing ratio. There are two supply sources, etc.
A guide mechanism provided below this hopper, a nip roll provided below this guide mechanism, a garnet roll provided below this nip roll, and a vacuum provided below this garnet roll with a mesh belt in between. It is characterized by consisting of a device.

The present inventors endeavored to improve the conventional dry method in producing a blended cotton web of pulverized fibers and specific synthetic ffl fibers.

First, Geat Norup was crushed by a pulverizer to obtain pulverized Gulp, and the long fibers of the synthetic fibers were cut, and the resultant was processed by carding, random seaweed, etc. to obtain short #L111. Then, one hopper of the fiber stacking machine is divided into two chambers by a partition plate, and the above-mentioned pulverized mother pulp and short synthetic fibers are individually charged into the hopper, sent to the nip roll with a movable belt, and then mixed with a garnet roll. When this experiment was carried out, the synthetic fibers clumped together, resulting in uneven thickness, and it was not possible to obtain a uniform mixed cotton web. This is thought to be because the mixing ratio of the pulverized 2-lup and synthetic short fibers cannot be determined quantitatively by providing only one KFi partition plate. In addition, if the denier of the staple fibers of the synthetic fiber exceeds 40 in the above-mentioned fiber stacking machine,
In particular, when the number is 60 or more, the pulp is stacked on the top layer and the short fibers are stacked on the bottom layer, making it impossible to form a uniform mixed cotton web itself.

Hereinafter, the present invention will be explained in detail with reference to FIG.

1 is a hopper that supplies short synthetic fibers, 2 is a crusher and
A pair of movable belts 3 are provided on the inner surface along the longitudinal direction of each of the containers in the hopper for supplying group, and the speed of the belts 3 can be freely changed.

Therefore, it is possible to quantitatively determine the mixing ratio of the pulverized pulp and short synthetic fibers and supply them into the apparatus.

Below the hoppers-1 and 2, there is a guide mechanism, e.g.
A pair of transmission gears 4 is provided, and the speed of this gear 4 may be the same as that of the movable belt 3 or may be freely variable. However, the number of feed gears 4 is not limited to six as shown in the figure, but may be two or more.

Note that since the feed gear 4 has a guiding function, a belt conveyor or the like may be used instead.

A nip roll 5 and a garnet roll 6 are sequentially arranged below the feed gear 4. The nip roll 5 is used to clamp and compress the raw material that has fallen through the air, and the garnet roll 6 is used to further crush and diffuse mix the raw material. A vacuum device 9 is disposed below the garnet roll 6, sandwiching the mesh belt 8, and the short synthetic fibers and crushed pulp that have been crushed and diffused by the garnet roll 6 are sucked into the paquim device 9, and the mesh belt 8 A mixed cotton web 7 is deposited and laminated thereon.

The synthetic fibers supplied to the hopper 4-1 include multifilaments made of νj-millipropylene, nylon, polyethylene terephthalate, etc., monofilaments made of polyethylene, polypropylene, nylon, polyethylene terephthalate, etc., and fiber yarns made of polypropylene, nylon, etc. , composite fiber disintegrated yarn, etc., but in the present invention, 2
A thin layer laminate of synthetic resins having different melting points or a fibrillated yarn of composite fibers is preferable. Whichever of the above-mentioned fibers is used, first the long synthetic fibers are cut, and then the short fibers are made into card, random wafer, etc. and then supplied to the hocno 9-. The short fibers have a fiber length of 10 to 50 m, preferably 10 to 35 m, and an average fineness of 0.1 to 40 deniers, preferably 0.1 to 20 deniers.

If the fiber length was outside the range of 10 to 50 m, the average degree was 0.
．． If it is outside the range of 1 to 40 deniers, the short fibers will aggregate and the pulp will separate into the upper layer and the short fibers into the lower layer.
It is difficult to obtain a uniform cotton blend web.

In addition, the ratio of the short fibers of the synthetic fibers and the crushed pulp supplied to Hotnogu-1 and 2 is such that the short fibers are 10 to 90'Z,
It is preferable that the crushing nozzle is in the range of 90 to 10.

Next, the defibrated yarn of the composite fiber body suitable for the present invention will be explained.

This fibrillated yarn is made by, for example, stretching a sheet-like or film-like laminate of synthetic resin with different melting points in one direction to give it directionality, and then applying it to a sdell-lit roll to split it in the direction of stretching. There are some that are made into a net shape.

There are also composite R fibers obtained by completely tearing the fibers into fibers, or by extruding two synthetic resins with different melting points into filaments or multifilaments.

In this case, there are no particular restrictions on the layer dispersion of the laminate or composite fiber, but in the case of three or more layers, a high melting point resin is used as an inner layer, and a low melting point resin is placed on both sides of the inner layer. It is preferable that the a-fat exists as an outer layer. Further, the larger the difference in melting point, the better, but a slight difference may be sufficient if the melting point appears sharply. To prepare the composite fiber, the yarn is cut and then cut into short fPi fibers by using a curler or random wafer Δ1.

The combination of each synthetic resin in the above-mentioned laminated body is usually two-layer and three-layer combination, and the case of two layers is exemplified below: low melting point resin layer / high melting point resin layer low density polyethylene / isotactic polypropylene Low-density linear polyethylene/isotactic polypropylene High-density polyethylene/isotactic polypropylene Low-density linear polyethylene/high-density polyethylene ethylene vinyl acetate copolymer/isotactic polypropylene, etc., and the 3-increase is the above-mentioned high melting point resin layer. On the opposite side, the above-mentioned low melting point resin layer or another resin layer is further layered as an outer layer.

〔Example〕

The present invention will be specifically described below with reference to Examples and Comparative Examples.

Example 1 Using the manufacturing apparatus shown in FIG. 1, pulverized Nosorp and composite short fibers were blended.

First, composite short fibers (outer layer made of linear low casing polyethylene, inner layer made of crystalline polypropylene) with a fiber length of 35 m and an average fineness of 20 denier are continuously supplied to hopper 1, and pulverized pulp is fed to hopper 2. When blending was carried out at a ratio of 30 mm of composite short fibers and 701 mm of pulverized short fibers, it was possible to obtain a mixed cotton web in which the pulverized pulp and composite short fibers were uniformly dispersed on the mesh belt 8.

Example 2 Blending was carried out in the same manner as in Example 1, except that the composite short fibers were 804 mm and the crushed/matrix fibers had a ratio of 20 mm.A mixed cotton web in which the crushed short fibers and the composite short fibers were uniformly dispersed was obtained. I was able to get

Comparative Example 1 Using a conventional fiber stacking machine, fiber length was 35 m and average fineness was 20.
Denier composite short f1i. When blending was carried out by supplying fiber and crushed pulp to a hopper equipped with a partition plate, the raw materials were not uniformly supplied, and although a blended cotton web could be formed, it lacked uniformity. Oh, again, there was a lot of unevenness in the flow direction.

Comparative Example 2 Cotton was mixed in the same manner as in Example 1 except that the composite short fibers had an average fineness of 60 denier, but the crushed/4'rug was separated into the upper layer and the composite short fibers were separated into the lower layer. It was not possible to obtain a uniform blended cotton web.

〔Effect of the invention〕

According to the present invention, it has become possible to provide a mixed cotton web in which pulverized pulp and synthetic fibers are uniformly dispersed, which could not be produced by conventional methods.

[Brief explanation of the drawing]

FIG. 1 is a schematic diagram showing an apparatus for producing a mixed cotton web, which is an embodiment of the present invention. 1.2...Honnoya-13...Movable heald, 4...
- Feeding m wheel, 5...Nirag roll, 6...Garnet roll, 7...Mixed cotton web, 8...Mesh belt, 9...Paquième device. Figure 1

Claims (2)

[Claims] (1) When producing a mixed cotton web of pulverized pulp and synthetic fibers, short fibers with a fiber length of 10 to 50 mm and an average fineness of 0.1 to 40 deniers are used as synthetic fibers, and these short fibers are mixed with the pulverized pulp. A method for producing a blended cotton web, characterized in that each component is separately supplied to a guide mechanism so that the ratio is constant, and then both components are simultaneously compressed and then crushed and mixed by diffusion. (2) Supplying the pulverized pulp and short synthetic fibers separately and at a constant mixing ratio,
Two feed hoppers each having a pair of opposing movable belts, a guide mechanism provided below the hoppers, a nip roll provided below the guide mechanisms, and a garnet roll provided below the nip rolls. and a vacuum device provided below the garnet roll with a mesh belt sandwiched between them.