JPH08131989A - Regeneration treatment of organic fiber waste material - Google Patents

Abstract

PURPOSE: To effectively utilize an org. fiber waste material, to regenerate the waste material as various molded articles and to prevent the environmental pollution caused by the waste material. CONSTITUTION: The org. fiber waste material sorted from various wastes from the fiber industry and the sewing industry are coarsely ground and subsequently finely ground to form a fine fiber powder which is, in turn, mixed with a thermoplastic synthetic resin or/and a waste resin film and the resulting mixture is kneaded under heating to be homogenously melted and the molten mixture is molded into a pellet, sheet, mat or plate like molded product.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for recycling waste fiber materials discarded in the textile industry, sewing industry, etc., particularly organic fiber waste materials, and more specifically, to prevent pollution of the textile industry by recycling pollution waste materials. In addition, the present invention relates to the above-mentioned method for recycling the waste fiber material, which is intended to manufacture various molded products that contribute to the production of products in various fields such as wall materials for building materials, flooring materials, fitting materials, and housing.

[0002]

2. Description of the Related Art Conventionally, various kinds of organic fiber waste materials such as polyester, nylon, acrylics such as cutting wastes and cutting wastes discharged from the textile industry and the sewing industry have no use and cannot be discarded as garbage. Final disposal has been done mainly by incineration or landfill. However, the incineration process has an unfavorable odor to the environment, the risk of toxic gas generation and the risk of damage to the incinerator.On the other hand, landfill disposal has the problem of securing a site, or even if the site can be secured, fiber-containing materials
For example, in addition to environmental problems such as soil and groundwater pollution that may be caused by elution of dyes, etc., the landfill waste is not biodegradable even after many years since the landfill waste is organic fiber, and the landfill ground is also weak. Since it is not possible to build a building in, it is regarded as a problem from the viewpoint of global environment conservation. On the other hand, there are many examples of illegal dumping of such organic fiber waste materials and illegal burning such as field burning, and the recycling processing is required in various fields.

In some cases, it has been attempted to utilize the waste fiber material as a cushioning material for packing, but in this case, it is the same as the conventional method after the cushioning material is used, and it is far from being recycled. It is like.

[0004]

DISCLOSURE OF THE INVENTION The present invention addresses the above-mentioned situation, and in particular, the utilization of the waste fiber material is achieved by finding the utilization of the organic fiber waste material in the molded article, and various molded articles of the waste material are obtained. The purpose is to recycle waste and establish waste pollution prevention and conservation.

[0005]

Means for Solving the Problems That is, the method of the present invention for achieving the above object is to pulverize and finely pulverize organic fiber waste materials selected from wastes from the textile industry and the garment industry into fine powder fiber powder. That is, the fiber powder is mixed with a recycled product such as a thermoplastic synthetic resin or / and a waste resin film, and both are homogeneously melted by heat kneading, and then pelletized, sheet-shaped, mat-shaped or plate-shaped. It is to form a molded product or a molded product by molding.

The inventions according to claims 2 and 3 are cases in which the organic fiber waste material is subjected to intermediate drying in order to reduce the specific gravity of the product in the above-mentioned production. In claim 2, after the organic fiber waste material is roughly crushed and before finely crushed, A third aspect of the present invention is characterized in that the powder is finely pulverized into a fiber powder, and then the powder is dried. The drying is performed at 80 ° C. or lower as much as possible.

Here, the organic fiber waste materials used in the present invention are fibers discharged from the textile industry and the sewing industry, such as vegetable fibers such as cotton and hemp, recycled fibrous fibers such as rayon, and glass fibers. There are inorganic fibers, but mainly organic synthetic fibers such as nylon, polyester, and acrylic.

In use, it is preferred that after selection, once coarsely crushed, then finely pulverized by a fine pulverizer to form fine powdery fiber powder of 1 mm or less. If it is roughly crushed, it will not be uniformly dispersed in the subsequent kneading step,
In addition, the molded product has problems such as strength and appearance after molding, which is not preferable.

Further, it is advantageous to dry the organic fiber waste material after it is roughly crushed or made into a fiber powder to reduce the water content and reduce the specific gravity of the product. Drying is usually performed at 80 ° C because it does not shrink, melt, or lose the waste fiber material.
Do the following:

On the other hand, in the method of the present invention, the thermoplastic synthetic resin to be kneaded with the finely pulverized powder of the organic fiber waste material may be a novel resin, but from the viewpoint of the waste recycling of the present invention, it is possible. It is preferably a recycled product of waste resin, for example, a waste thermoplastic synthetic resin film is cleaned by ultrasonic cleaning treatment under a circulating water flow, and in particular, ultrasonic waves are oppositely applied to the cleaning liquid from both sides, After removing foreign substances, dehydration and drying, a fluff-like or compound-like recycled product is used.

The above-mentioned both raw materials are homogenized by kneading them with heating and melting by a known kneading machine such as a kneader or a heater mixer, and homogenizing them. It is molded into pellet-shaped, sheet-shaped, mat-shaped, or plate-shaped molded products or molded products that have been molded. Various molding methods such as injection molding extrusion press and blow molding are possible.

Further, the physical properties of each molded product can be arbitrarily changed by changing the respective blends in the present invention at the time of kneading in a kneading machine and adding additives such as a binder, a plasticizer and a modifier. Is possible.

[0013]

EXAMPLES Specific examples of the present invention will be described below.

Agricultural vinyl chloride film waste is cleaned by an ultrasonic cleaning device, and the sludge and foreign substances removed are 5 m.
It was cut to a size of m square and made into a fluffy shape. Then, this was further pulverized and a recycled PVC compound (pellet) product was prepared by an extruder.

On the other hand, after a mixture of various organic fiber waste materials is put into a crusher and crushed to about 10 mm, it is further pulverized into a finely pulverized fiber powder having a size of 1 mm or less, and once the temperature is 70 to 80 °. Dried under.

Thus, the above-mentioned raw materials were mixed with 100 parts by weight of the vinyl chloride compound and 100 parts by weight of the fiber powder, and were kneaded by heating and melting at a temperature of 160 ° C. in a kneader. This kneaded product was then extruded with a calendar roll to form a continuous sheet having a thickness of 5 mm. This sheet was sequentially cut into the same length to obtain a mat-like material having a predetermined size.

The kneaded product was subjected to a conventional pelletizer consisting of an extruder and a cutter to obtain pellets.

Unlike the conventional mats made of synthetic resin, the mat which has undergone the above steps has a soft surface and is suitable for wall materials for doors, doors and floor materials, and has a wide range of applications. .

[0019]

As described above, the present invention uses, as a raw material, a synthetic resin material that has been discarded and a fiber waste material that has been similarly discarded from the textile industry and the like, which have been recycled and finely pulverized. It is a method of directly melting and kneading in a kneader, and molding a secondary product processing and molding facility, for example, a sheet-shaped or mat-shaped molded product by a sheet-forming manufacturing facility,
It is possible to effectively and efficiently recycle the waste resin and the fiber waste material which have been conventionally regarded as pollution sources, and prevent pollution and activate the industry. In other words, resource recycling can contribute to regional environmental conservation and economic revitalization.

Further, in the case of sheet molding by the above-mentioned method, it becomes easy to bring out arbitrary characteristics depending on the mixing ratio of both of the kneading machines and the characteristics of the synthetic resin, and various sheets can be molded, and at the same time, secondary sheets can be formed. A variety of molded products can be obtained by using equipment other than sheet molding as processing equipment. Further, by drying the organic fiber waste material in the middle, it is possible to remove the water contained in the waste material and to reduce the specific gravity of the product.

By adopting the present invention, it is possible to obtain a product which is economically economical compared with the use of a new thermoplastic resin material, has a remarkable economic effect, and has a good molded product quality. be able to.

In particular, the fiber-containing synthetic resin sheet obtained by the present invention can be used in a wide range of fields such as residential wall materials and floor materials, as well as civil engineering and furniture, and the synthetic resin sheet according to the present invention can be used after use. Since it can be recycled and reprocessed, it has an advantage that it can contribute to resource recycling.

Claims (3)

[Claims] 1. An organic fiber waste material selected from wastes from the textile industry and the sewing industry is crushed and finely pulverized to form a fine powder fiber powder, which is made of a thermoplastic synthetic resin or / and a waste material. After mixing with a recycled product such as resin film and heating and kneading them to homogeneity, pellets,
A method for recycling organic fiber waste material, which comprises molding into a sheet-shaped, mat-shaped or plate-shaped molded product or a molded product obtained by molding. 2. An organic fiber waste material selected from wastes from the textile industry and the sewing industry is roughly crushed, dried and then finely pulverized to form a fine powder fiber powder, which is made of a thermoplastic synthetic resin or / Also, after mixing with recycled products such as waste resin film and melting both by heating and kneading to homogeneity, it is possible to form pellets, sheets, mats or plate-shaped molded products or molded products by molding. A characteristic method for recycling organic fiber waste materials. 3. An organic fiber waste material selected from wastes from the textile industry and the sewing industry is crushed and finely pulverized to form a fine powder fiber powder, which is once dried and then a thermoplastic synthetic resin. Alternatively, and / or it is mixed with a recycled product such as a waste resin film, and both are melted by heating and kneading to homogeneity, and then molded into a pellet-shaped, sheet-shaped, mat-shaped or plate-shaped molded product or a molded product by molding. A method for recycling organic fiber waste material, which is characterized in that