JP2009274318A - Resin for injection molding and method for manufacturing resin for injection molding - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To perform formation of a thermoplastic resin as a recycling of paper manufacturing in which a chemical pulp for PPC (plain paper copy) papers or the like is a main raw material, and a resin product such as a PET bottle, and to perform the environmental preservation by the reuse of the PPC paper and the resin product and by decreasing the paper manufacturing and the resin product to be processed as refuses. <P>SOLUTION: Used discharged papers of paper manufacturing in which finely cut chemical pulp is a main raw material are immersed into water to make a water-containing state, the water-containing used discharged papers are dehydrated to such an extent that at least water does not drip down, and the dehydrated used discharged papers and a used synthetic resin are sealed in a chamber equipped with a pressure-resistant and heat-resistant function. By bringing the water in the used discharged papers into a sub-critical or super-critical state in the chamber, cellulose is decomposed, and the decomposed product of cellulose and the melted used synthetic resin are mixed while they are agitated to obtain a resin for injection molding. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to an injection molding resin and a method for producing an injection molding resin.

In the city center, a large amount of used copy paper (PPC paper) is discharged from the office every day. In this way, part of the used discharged paper discharged from the office is recycled as used paper by the paper manufacturer. However, in reality, the amount of discharged paper that is recycled as waste paper is small, and the fact is that most of the discharged paper is incinerated. On the other hand, a technique for using waste paper (refer to Patent Document 1) is also known, but it is only about adding water to make it fine and then putting it in a mold and hardening it. It is not a drastic solution technology.
Plastic products are also discarded in large quantities every day. Then, the discarded plastic is processed by methods such as landfill, incineration, and recycling.
A landfill site is required for landfill processing. However, landfill sites are becoming scarce year by year, and there is a tendency for plastic to shift from landfill processing to incineration. As for plastic products, biodegradable plastics (see Patent Document 2) made of polylactic acid using plant starch are used in part. However, the polylactic acid is still expensive, and there are still many problems in terms of environmental protection such as using petroleum resources to grow plants and deforesting to cultivate fields. Some plastics are recycled, but it is unclear how much plastic is actually recycled.
Further, when the discharged paper and plastics are incinerated, in addition to requiring fuel for incineration, a large amount of CO ₂ is discharged, and there are many problems in terms of waste of resources and environmental protection.
JP 2005-226206 A JP 2007-224290 A

  In order to solve these problems, the present invention performs the production of a thermoplastic resin as a recycling of resin products such as papermaking and plastic bottles made of chemical pulp such as PPC paper, and thereby PPC paper and resin products. Recycling and reducing the amount of paper and resin products that are treated as garbage are the issues for environmental conservation.

In order to solve the above problems, the invention according to claim 1 of the present application has the following configuration. That is,
Resin for injection molding using as raw materials waste paper used for making paper with finely cut chemical pulp as the main raw material and PET material finely cut or refined into powder.

In order to solve the above problem, the invention according to claim 2 of the present application has the following configuration. That is,
2. The resin for injection molding according to claim 1, wherein the used discharged paper that has been finely cut is obtained by cutting a PPC paper used for copying or the like with a shredder.

In order to solve the above problems, the invention according to claim 3 of the present application has the following configuration. That is,
A step of immersing the used waste paper made of finely cut chemical pulp as the main raw material in water and containing water;
Dehydrating the used waste paper containing water at least to such an extent that it does not drip or drop;
Mixing the dehydrated used discharge paper with a finely cut or powdered PET material;
Enclosing the mixed used discharged paper and PET material in a chamber having pressure and heat resistance functions;
The cellulose contained in the used discharge paper is decomposed by bringing the water contained in the used discharge paper into a subcritical or supercritical state in the chamber, and the cellulose decomposed product and the molten product are dissolved. And a step of mixing the PET material with stirring.

In order to solve the above problem, the invention according to claim 4 of the present application has the following configuration. That is,
Resin for injection molding using as raw materials waste paper that has been made from finely cut chemical pulp as the main raw material and synthetic resin that has been finely cut or finely divided into powder.

In order to solve the above problem, the invention according to claim 5 of the present application has the following configuration. That is,
5. The resin for injection molding according to claim 4, wherein the used discharged paper that has been finely cut is obtained by cutting a PPC paper used for copying or the like with a shredder.

In order to solve the above problems, the invention according to claim 6 of the present application has the following configuration. That is,
6. The resin for injection molding according to claim 4, wherein the synthetic resin is recycled polypropylene or a container recycling material.

In order to solve the above problems, the invention according to claim 7 of the present application has the following configuration. That is,
A step of immersing the used waste paper made of finely cut chemical pulp as the main raw material in water and containing water;
Dehydrating the used waste paper containing water at least to such an extent that it does not drip or drop;
Enclosing the used discharged paper after dehydration and the synthetic resin in a chamber having a pressure resistance and heat resistance function;
The cellulose contained in the used discharge paper is decomposed by bringing the water contained in the used discharge paper into a subcritical or supercritical state in the chamber, and the cellulose decomposed product and the molten product are dissolved. And a step of mixing the synthetic resin with stirring.

In order to solve the above problems, the invention according to claim 8 of the present application has the following configuration. That is,
8. The method for producing an injection molding resin according to claim 7, wherein the synthetic resin is recycled polypropylene or a container recycling material.

  According to the injection molding resin and the injection molding resin manufacturing method according to the present invention, it contributes to the prevention of waste of resources and environmental conservation by reducing the amount of copied discharged paper that is incinerated in large quantities every day. It has the effect of being able to.

The resin for injection molding according to the present invention is produced by using as a raw material a plastic (synthetic resin) such as papermaking and PET material using chemical pulp as a main raw material. FIG. 1 shows a distribution model that simplifies the flow of procurement of paper and synthetic resin as raw materials.
In FIG. 1, A, B, and C represent various offices of companies, public offices, and local governments that exist in the city center. These A, B, and C represent examples of companies, organizations, corporations, etc. that discharge paper and synthetic resins as raw materials, and of course, the types and numbers are not limited to those shown in the figure. Absent.

A large amount of PPC paper (copy paper) is discharged daily as garbage from the offices of the company A, the government office B, the local government C, and the like. PPC paper is paper produced using chemical pulp as a main raw material in a paper mill, and is made from pulp (chemical pulp) from which components such as lignin have been removed or reduced by chemical treatment from wood chips that are raw materials for papermaking. Is. The remaining component of the chemical pulp from which components such as lignin have been removed or reduced is primarily cellulose.
Most of the PPC papers distributed as copy papers are papers produced by the chemical pulp, and are produced after bleaching the chemical pulp.

In addition, when used PPC paper is discharged as garbage from each office, the used PPC paper is generally cut finely by a shredder device. This shredder device is a necessity for companies and the like in order to prevent information leakage, and is owned by any company.
Further, since only the paper can be applied to the shredder apparatus, the paper that has been finely cut by the shredder apparatus (see FIG. 2A) is a highly pure paper resource with a very low impurity mixing ratio. The distribution model shown in FIG. 1 shows that the PPC paper (10) finely cut by the shredder device is first collected from the company A, the government office B, the local government C, and the like.

Further, together with the collection of the cut PPC paper (10), a PET material typified by a PET bottle and a resin product discharged as garbage are collected. The injection molding resin according to the present invention uses a synthetic resin such as a PET material as one of raw materials. However, as shown in FIG. Resins can be used.
These resins include those obtained by crushing collected PET bottles into small pieces, and recycled resins (see FIG. 3 (a)) in which scraps generated during product molding using virgin chips are collected. The scraps produced when these PET bottles are crushed or molded are basically made of a single material, such as a resin such as PET, PP, PE, and the like having few impurities.
Also, it is possible to use a synthetic resin (refer to FIG. 3 (b)), commonly called "container recycling material", which is made by mixing and melting various synthetic resins collected as garbage such as packaging containers and then pelletizing them. Good.

The PPC paper and various synthetic resins finely cut by the shredder device described above are collected in the collection facility, and then the injection molding resin according to the present invention is generated in the recycling facility (14). FIG. 2B shows resin pellets generated by processing the finely cut PPC paper shown in FIG.
Further, when the PPC paper finely cut by the shredder apparatus is collected from each of the companies A, the public office B, the local government C, etc., the collection facility can prevent CO2 from being incinerated according to the quantity and quality of the collected PPC paper. _2. Proof of emission control is given. The proof is called as carbon offsets (12), it is intended to impart to evaluate the reduction of CO2 emissions corresponding to the difference between the CO ₂ which has been conventionally discharged numerically. This can be used as a standard for obtaining greenhouse gas emission rights, and is granted to companies and organizations based on the reduced greenhouse gas emissions.
Further, the quality of PPC paper is the degree of mixing of impurities with the paper cut by the shredder. When the paper used for copying is cut with a shredder, the stapler needle may be attached. Since the staple of the stapler is not necessary for producing the synthetic resin, it is desirable to remove the staple of the stapler before cutting. Therefore, for companies and organizations that have thoroughly removed this impurity, a proof corresponding to the contribution level is issued because the contribution to CO ₂ emission control is high. On the other hand, a low-ranked proof is issued on the assumption that CO ₂ emission control is low. Issuance of the certificate is to cause raise awareness of emission reduction of CO _2, in which can be motivated emissions suppressing CO _2.

The collected used discharged paper and the used PET material or other synthetic resin are regenerated as a thermoplastic injection molding resin (resin pellet) that can be injection molded by a processing device in the recycling facility.
For the production of the thermoplastic resin, for example, an apparatus using pressurized hot water treatment already applied in Japanese Patent Application No. 2006-274523 is used. When water is brought into a state called subcritical or supercritical by increasing the temperature and pressure, an action of decomposing the molecular structure of cellulose, which is a polymer, to lower the molecular weight occurs. The low molecular weight cellulose has thermoplastic properties together with lignin contained in the raw material wood and the added binder. In the present embodiment, a thermoplastic resin is generated using this property.

On the other hand, since lignin has the property of being discolored by receiving ultraviolet rays, lignin removal processing is performed in the paper making process of paper such as PPC paper. The raw material of the paper subjected to this lignin removal treatment is chemical pulp. Therefore, when the paper using this chemical pulp is subjected to the above-mentioned pressurized hot water treatment, the cellulose has a low molecular weight, but the content of lignin is low, so that it is not sufficient as a raw material for a thermoplastic resin such as plastic. .
In the present invention, a synthetic resin such as the PET material is added in order to supplement the amount corresponding to the removed lignin and to provide sufficient injection moldability as a thermoplastic resin and strength as a molded product. At present, by adding a synthetic resin equivalent to about 30 percent (30 percent or more) to the dry weight of the paper, a good molded product can be obtained.

  The collected used discharged paper is subjected to water treatment as a pretreatment of the pressurized hot water treatment. In the water-containing treatment, the measured cut paper is put in a container and immersed in water, and the paper is allowed to permeate through a predetermined time. What is important in this treatment is to sufficiently distribute moisture between the pulp fibers forming the paper. If the paper is not cut, there will be many overlapping areas on the paper surface, and water will not spread sufficiently. On the other hand, the paper cut by the shredder is easy to allow water to penetrate from the cut surface and has little overlap between the paper surfaces, so that the water can be efficiently contained.

After water is sufficiently contained in the paper, a dehydration process is performed to remove excess water. As an example, a dehydrator by centrifugation is used for this dehydration treatment. As a measure of the amount of water to be dehydrated, water should not be dripped or dropped from the paper. At this time, an excessive dehydration process for drying the paper is not performed.
The resin for injection molding according to the present invention utilizes cellulose decomposing action by subcritical water or supercritical water, and is used for injection molding by bringing moisture contained in paper into a subcritical or supercritical state. Resin is produced. When the moisture contained in the paper is insufficient, the processing is performed after supplying the insufficient amount of water into the chamber serving as the reaction chamber.

After the water-containing and dehydrating treatment, the above-described waste plastic (synthetic resin) such as PET material is mixed as a binder. The synthetic resin to be mixed is preferably as finely pulverized as possible.
The mixing ratio of the paper and the synthetic resin is an element that influences the physical properties of the resin product formed as the final product, and the mixing ratio is appropriately adjusted according to the required physical properties. If the mixing ratio of the synthetic resin is increased, an injection moldable resin close to the properties of the added synthetic resin can be obtained, but in this embodiment, the mixing ratio of the synthetic resin serving as the binder is set in consideration of later re-disposing. It is set to 30% or less.

The mixed used discharged paper, used PET material, and the like are sealed in a chamber having a heat resistant function. In the chamber, the cellulose contained in the used discharge paper is decomposed by bringing the water contained in the used discharge paper into a subcritical or supercritical state, and melted with the decomposition product of the cellulose. The used PET material is mixed with stirring.
There are various methods for bringing water into a subcritical or supercritical state. For example, in addition to the technique described in Japanese Patent Application No. 2006-274523 described above, the reaction can be performed while stirring in the chamber using a pressurizing heating furnace of the type that applies pressure and heat from the outside as a chamber. There may be.

About the content rate of a binder, the injection moldable resin of a brittle property is obtained, so that a content rate becomes low. However, it may be brittle depending on the application, and the binder content is adjusted according to the required properties.
In addition, when the content rate of a binder is set to 0, the cellulose which is a high molecular polysaccharide will be decomposed | disassembled and the monosaccharide made into the low molecular weight with weak mutual binding power will be obtained. Cellulose is a substance that is difficult to be decomposed in nature, but it can be changed to a substance that can be easily decomposed in soil by reducing the molecular weight in this way. Thus, it is very easy to recycle discarded paper as organic fertilizer.

FIG.2 (c) is an example (hollow capsule) of the resin product 16 formed by injection molding using the resin pellet produced | generated using the paper shown in FIG.2 (b) as a raw material. When resin pellets are produced using bleached white paper as a raw material, whitish resin pellets are produced. And when the injection molding is carried out as it is using the whitish resin pellets, a whitish molded product is similarly formed.
The hollow capsule shown in FIG. 2 (c) is formed as a dark colored molded product close to brown. This is because a brown pigment was mixed in the whitish resin pellets and injection molded. When coloring by mixing a pigment, the base material is desirably white in order to improve color developability. Therefore, in the case of a thermoplastic resin made from bleached white paper as in the present invention, even if it is a material containing the same cellulose, the color tone due to coloring is used instead of producing a thermoplastic resin from wood as it is. Has the effect of being good.

FIG. 4 is a photograph showing an example of a resin product 16 formed using the injection molding resin according to the present invention. The resin product 16 is formed by setting the mixing ratio of PP as a binder to 30%. FIG. 4A shows a beetle with a runner formed as a plastic model, and FIG. 4B shows a connection block. These resin products 16 can be reused as binders to be mixed with paper that has been cut again as shown in FIG.
Thus, the invention according to the present invention was invented for the purpose of producing a synthetic resin that can be injection-molded from paper as a raw material, and reducing the amount of paper that is incinerated from the viewpoint of environmental protection. It is.
Of course, the synthetic resin to be mixed as the binder can be an unused virgin chip, and even if the virgin chip is used, the thermoplastic resin for injection molding by the discharged paper is the same as described above. Can be generated.

INDUSTRIAL APPLICABILITY The present invention can be used for recycling of paper that has been incinerated and for environmental conservation by reducing CO ₂ emissions.

It is explanatory drawing showing the procurement model of the raw material used for the production | generation of the resin for injection molding which concerns on this invention. It is the photograph of the cut | disconnected discharge paper which is the raw material of the resin for injection molding which concerns on this invention, the resin pellet produced | generated from the said discharge paper, and the capsule injection-molded using the said resin pellet. It is the photograph showing an example of the recycled synthetic resin which can be used for this invention. It is the photograph showing an example of the molding formed using the resin for injection molding which concerns on this invention.

Explanation of symbols

10 PPC paper 12 Carbon offset certificate 14 Collection facility, recycling facility 16 Resin product A Company B Government office C Local government

Claims (8)

  Resin for injection molding using as raw materials waste paper used for making paper that is made from finely cut chemical pulp and PET material that is finely cut or finely divided into powder.   2. The resin for injection molding according to claim 1, wherein the used discharged paper that has been finely cut is obtained by cutting a PPC paper used for copying or the like with a shredder. A step of immersing the used waste paper made of finely cut chemical pulp as the main raw material in water and containing water;
Dehydrating the used waste paper containing water at least to such an extent that it does not drip or drop;
Mixing the dehydrated used discharge paper with a finely cut or powdered PET material;
Enclosing the mixed used discharged paper and PET material in a chamber having pressure and heat resistance functions;
The cellulose contained in the used discharge paper is decomposed by bringing the water contained in the used discharge paper into a subcritical or supercritical state in the chamber, and the cellulose decomposed product and the molten product are dissolved. And a step of mixing the PET material with stirring.   Resin for injection molding using as raw materials waste paper used for making paper that has been cut into finely cut chemical pulp and synthetic resin that has been finely cut or finely divided into powder.   5. The resin for injection molding according to claim 4, wherein the used discharged paper that has been finely cut is obtained by cutting a PPC paper used for copying or the like with a shredder.   6. The injection molding resin according to claim 4, wherein the synthetic resin is recycled polypropylene or a container recycling material. A step of immersing the used waste paper made of finely cut chemical pulp as the main raw material in water and containing water;
Dehydrating the used waste paper containing water at least to such an extent that it does not drip or drop;
Enclosing the used discharged paper after dehydration and the synthetic resin in a chamber having a pressure resistance and heat resistance function;
The cellulose contained in the used discharge paper is decomposed by bringing the water contained in the used discharge paper into a subcritical or supercritical state in the chamber, and the cellulose decomposed product and the molten product are dissolved. And a step of mixing the synthetic resin with stirring.   8. The method for producing an injection molding resin according to claim 7, wherein the synthetic resin is recycled polypropylene or a container recycling material.