JPH11320561A - Method for recycling resin material - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method for recycling a resin material for obtaining a recycled material having wide physical property values of certain degree by obtaining the recycled material having material physical property values of a predetermined range by a low cost. SOLUTION: In a reusing system of a resin material for recycling as a reusable resin material by recovering resin article such as a market aging resin molding 1, a disused car resin molding (2) or the like, burr and end material 3 generated in a manufacturing step of the resin molding, resin article or the like such as defective molded article 4 or the like, then cutting, crushing, removing impurities and the like; the reusable resin material is recycled as a recycled material 16 by cutting, crushing removing impurities and the like as aggregates 7 to 11 constituted from the same group resin material in a step 12 by sorting the resin material recovered in the step 5 at each the same resin material sorted in the step 6 in the case of recycling it as the resin material reusable by the cutting, crushing, removing the impurities and the like.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a resin material recycling system, and more particularly, to a marketed resin molded product,
For recovering resin materials from resin articles such as scrap car resin moldings, resin burrs and scraps generated during the manufacturing process of resin moldings, and resin articles such as defective moldings, etc. The present invention relates to a method for regenerating a resin material, which is suitable and is suitable for obtaining a reusable material having a certain range of reusable material properties at low cost.

[0002]

2. Description of the Related Art As a conventional system for recycling an automobile resin material, there is a method of regenerating an automobile resin bumper as shown in FIG. This recycling method is a method in which each automobile manufacturer collects and reuses its own resin bumper.

Referring to FIG. 3, a description will be given of the reprocessing process. First, a resin bumper (24) is recovered from a marketed resin molded product (1) or a scrap car resin molded product (2) in a process (5). Next, from the collected resin bumpers (24), bumpers made of the same resin material as the designated bumper grade material uniquely set by each automobile manufacturer are selected in the step (25). Further, taking the case of a polypropylene (PP) resin bumper as an example, the PP resin bumper is obtained by blending an elastomer with a block copolymer of a PP resin and a polyethylene (PE) resin as a constituent material thereof. Resin is used, and each automobile manufacturer independently sets and blends the molecular weight, polymerization degree, elastomer composition, blending amount, and the like of the resin material in order to satisfy the required performance as a resin bumper.

[0004] In order to reuse such PP resin, if it is mixed with a PP resin bumper material of another manufacturer and subjected to a regenerating process, the obtained PP resin has physical properties set by the manufacturer. It cannot be obtained and the required performance as a resin bumper cannot be satisfied.
Problems such as unsatisfactory painting and surface treatment after molding occur.

[0005] For the above reasons, at present, each automobile manufacturer, when selecting a resin material, if bumpers of a different material different from the designated bumper grade material are confirmed, collects them from the collected product in the step (26). Excluded, bumpers consisting only of the designated designated bumper grade material are collected and reclaimed in step (12).

When the resin bumper is combined with two or more types of resin materials, resin materials other than those intended for reuse are excluded from the regeneration process in step (12), and the regeneration process is similarly performed. Is going.

Therefore, a specific method of regenerating a resin bumper will be described. First, as described above, step (2)
In step (13), the resin bumper made of the same resin material that has been sorted in step 5) is cut and pulverized to a size of about several mm to 10 mm. In this cutting and pulverizing step, burrs and scraps (3) and defective moldings (4) generated in the manufacturing process of the resin bumper of the same material are also included.

Next, in step (14), various surface-treated coatings and foreign matters other than resin are separated and removed, and then, in step (15), the resin pulverized product from which impurities and the like have been removed is put into a kneading extruder. Then, the mixture is heated and melted to the melting point, re-granulated, and collected as a pellet-shaped regenerated material (16).
The recycled material (16) obtained by this recycling process is used by mixing it with a new resin material in the step (17).

[0009]

However, in such a conventional method for regenerating a resin material, since each automobile manufacturer independently sets a designated grade material, it is limited to the same resin material. A narrow range of resin materials, ie molecular weight, degree of polymerization, elastomer composition,
Materials with almost the same blending amount etc. are the same resin grade material, and the resin molded products composed of them, burrs and scraps generated in the manufacturing process, defective moldings etc. are subjected to recycling processing and recycled. In the case of a resin material whose molecular weight, degree of polymerization, elastomer composition, compounding amount, etc. are slightly different, it is necessary to sort out the resin material for purposes other than the purpose of recovery. .

[0010] For this reason, there is a problem that a large number of man-hours are required for the sorting, the amount of the recovered material is limited, and the recycling cost is increased. Furthermore, in the recycled material obtained by such a conventional recycling treatment method, since the physical property values of the resin material are in a limited narrow range, only a part of the recycled material is limited. There was a problem that would.

[0011]

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned conventional problems, and it is possible to obtain a recycled material having a material property value within a certain range at a low cost, and to obtain a certain wide range of property values. It is an object of the present invention to provide a method for regenerating a resin material which can obtain a recycled material having the same and can be applied to a wider range of applications.

[0012]

According to a first aspect of the present invention, there is provided a resin material reclaiming method according to the present invention. After collecting the resin material such as burrs and scraps generated during the product manufacturing process, resin products such as defective molding, etc., cut, pulverize, remove impurities, etc. to recycle as a reusable resin material When performing a recycling process as a reusable resin material by performing the cutting, pulverization, removal of impurities, and the like in the resin material recycling system to be performed, the recovered resin materials are classified into homologous resin materials and the homologous resin materials are classified. The present invention is characterized in that an aggregate made of a resin material is cut, crushed, and impurities are removed so that a reusable resin material is regenerated.

In the embodiment of the method for regenerating a resin material according to the present invention, as set forth in claim 2, the recovered resin material is classified into the same type of resin material and the same type of resin material is used. Cutting as an aggregate composed of materials
When performing a regeneration process as a resin material that can be reused by performing pulverization and impurity removal, etc., it is possible to perform a heating and / or pressure regeneration process after performing the cutting, pulverization, impurity removal, and the like. it can.

Similarly, in an embodiment of the method for regenerating a resin material according to the present invention, as set forth in claim 3, the aggregate composed of a homologous resin material is a polyolefin (PO) resin. May be used.

Similarly, in an embodiment of the method for regenerating a resin material according to the present invention, the aggregate composed of the homologous resin material is made of acrylonitrile butadiene styrene (ABS). It can be a resin.

Similarly, in an embodiment of the method for regenerating a resin material according to the present invention, the aggregate composed of the homologous resin material is a polyamide (PA) resin. May be used.

Similarly, in an embodiment of the method for regenerating a resin material according to the present invention, an aggregate composed of a homologous resin material is made of polyethylene terephthalate (PET: polyester). ) -Based resin.

Similarly, in an embodiment of the method for regenerating a resin material according to the present invention, the aggregate composed of a homologous resin material is a polyurethane (PU) resin. May be used.

In an embodiment of the present invention according to claim 3 of the present invention, as described in claim 8, P
O-based resin blends polypropylene (PP) resin, copolymer of PP resin and polyethylene (PE) resin or elastomer-modified PO resin, reinforcing material such as talc, calcium carbonate, glass fiber and / or inorganic filler Or at least one of a modified PO resin and an elastomer-modified PO resin.

In the embodiment of the invention according to claim 4 of the present invention, as described in claim 9, AB
ABS resin, acrylonitrile ethylene propylene styrene (AES) resin, acrylonitrile acryl styrene (AAS) resin, polystyrene (PS)
Resin, or these resins and polycarbonate (PC)
It can be at least one of a polymer blend with a resin and a PA-modified polyphenylene ether (PPE) resin.

Further, in an embodiment of the invention according to claim 5 of the present invention, as described in claim 10, the PA resin is PA6 resin, PA66 resin, talc, calcium carbonate, glass fiber. Or at least one of PA6 resin and PA66 resin blended with a reinforcing material and / or an inorganic filler.

Furthermore, in an embodiment of the invention according to claim 6 of the present invention, as described in claim 11, the PET resin is a mixture of a PET resin, a reinforcing material and / or an inorganic filler. It can be at least one of the above PET resins.

Further, in an embodiment of the invention according to claim 7 of the present invention, as described in claim 12, the PU resin is at least one of thermosetting resins such as PU resin. It can be a seed.

[0024]

According to the method for regenerating resin material according to the present invention, as described in claim 1, the resin article such as aged resin molded article and the scrap car resin molded article, and the resin molded article manufacturing process. After collecting resin material such as burrs and scraps generated, resin articles such as defective moldings, etc., cut, pulverize, remove impurities, etc. to recycle the resin material as a reusable resin material. When performing a recycling process as a reusable resin material by performing cutting, pulverization, impurity removal, and the like in a utilization system, the collected resin materials are classified into homologous resin materials and are composed of the homologous resin materials. The reprocessing process is performed as a reusable resin material by cutting, pulverizing, removing impurities, etc. as an aggregate that can be recycled. In addition, it is possible to reuse resin materials that were previously discarded without being subjected to collection, processing and recycling treatments, and to obtain recycled materials with a wide range of physical properties. Therefore, the application of the recycled material to various types of resin articles is widened, and a remarkably excellent effect that further effective utilization is possible is brought about.

According to an embodiment of the method for regenerating a resin material according to the present invention, as set forth in claim 2, the recovered resin material is classified by homologous resin material and the homologous resin material is classified. Cutting as an aggregate composed of materials
When performing the regenerating process as a resin material that can be reused by performing pulverization and impurity removal, etc., by performing the heating and / or pressure regenerating process after performing the cutting, pulverization, and impurity removal, etc. In addition, a remarkably excellent effect that the regeneration process can be performed more favorably is brought about.

According to a third aspect of the present invention, the aggregate made of a homologous resin material is a polyolefin (PO) resin.
It is possible to satisfactorily regenerate PO-based resin,
A remarkably excellent effect that resource saving can be realized by reusing the PO resin is achieved.

Further, as set forth in claim 4, the aggregate composed of the homologous resin material is an acrylonitrile butadiene styrene (ABS) resin, thereby regenerating the ABS resin. An extremely excellent effect is obtained in that the treatment can be performed well and resource saving can be realized by reusing the ABS resin.

Further, as set forth in claim 5, the aggregate composed of a homologous resin material is a polyamide (PA) resin so that PA
It is possible to satisfactorily carry out the regeneration treatment of the
A remarkably excellent effect that resource saving can be realized by reusing the system resin is brought about.

Further, as set forth in claim 6, the aggregate composed of the homologous resin material is a polyethylene terephthalate (PET) resin, so that the PET resin can be regenerated. Can be performed satisfactorily, and a remarkably excellent effect that resource saving can be achieved by reusing the PET resin.

Further, as set forth in claim 7, the aggregate composed of a homologous resin material is a polyurethane (PU) resin, whereby
It is possible to satisfactorily regenerate U-based resin,
A remarkably excellent effect that resource saving can be realized by reusing the U-based resin is brought about.

Further, as described in claim 8 in the embodiment of the invention according to claim 3, the PO resin is a polypropylene (PP) resin, or a copolymer of a PP resin and a polyethylene (PE) resin. Or elastomer-modified P
O-resin, talc, calcium carbonate, glass fiber and other reinforcing materials and / or a PO resin blended with an inorganic filler, and at least one of elastomer-modified PO resins are used. A remarkably excellent effect that further effective utilization is possible is brought about.

Further, as described in claim 9 in the embodiment of the invention according to claim 4, the ABS resin is ABS resin, acrylonitrile ethylene propylene styrene (AES) resin, acrylonitrile acrylic styrene (AAS) resin. , A polystyrene (PS) resin, or a polymer blend of these resins with a polycarbonate (PC) resin and a PA-modified polyphenylene ether (PPE) resin to further improve these ABS resins. A remarkably excellent effect that a further effective utilization becomes possible is brought about.

Further, as described in the tenth aspect of the invention according to the fifth aspect, the PA resin is a reinforcing material such as PA6 resin, PA66 resin, talc, calcium carbonate, glass fiber and the like. By using at least one of PA6 resin and PA66 resin containing an inorganic filler, a remarkably excellent effect that further effective utilization of these PA-based resins becomes possible is brought about.

Furthermore, in the embodiment of the invention according to claim 6, as described in claim 11, the PET resin is a PET resin, a PET resin containing a reinforcing material and / or an inorganic filler. By using at least one of the above, a remarkably excellent effect that the PET-based resin can be further effectively utilized is brought about.

Furthermore, in the embodiment of the invention according to claim 7, as described in claim 12, the PU resin is at least one kind of thermosetting resin such as PU resin. By doing so, a remarkably excellent effect that further effective utilization of these PU-based resins becomes possible is brought about.

[0036]

FIG. 1 shows an embodiment of a method for regenerating a resin material which can be employed in a resin material recycling system according to the present invention. As described above, the resin material classified for each of the various homologous resin materials is subjected to the regeneration treatment as one aggregate, but it goes without saying that the present invention is not limited to only the following examples. .

First, the regeneration treatment method will be described with reference to FIG. 1 (A). This occurs in a resin article such as an aged resin molded article (1) and a scrap car resin molded article (2), and in a manufacturing process of the resin molded article. In step (5), resin materials such as burrs and scraps (3) and resin articles such as defective moldings (4) are collected in step (5), and are collected into an aggregate composed of homologous resin materials in step (6). Classify in.

That is, the homologous resin materials classified in the step (6) include a polyolefin (PO) resin material aggregate (7), an acrylonitrile butadiene styrene (ABS) resin material aggregate (8), and a polyamide ( PA) -based resin material aggregate (9), polyethylene terephthalate (PET: polyester) -based resin material aggregate (10), polyurethane (PU) -based resin material aggregate (1)
The five types 1) are the main ones.

When classified into an aggregate composed of these homologous resin materials, the PO resin is a polypropylene (PP) resin, a copolymer of a PP resin and a polyethylene (PE) resin, or an elastomer-modified PO resin. Reinforcing materials such as resin, talc, calcium carbonate, glass fiber and / or
Alternatively, at least one of a PO resin containing an inorganic filler and an elastomer-modified PO resin can be used.

As the ABS resin, ABS resin, acrylonitrile ethylene propylene styrene (A
ES) resin, acrylonitrile acrylic styrene (AA)
S) Resin, polystyrene (PS) resin, or polymer blend of these resins with polycarbonate (PC) resin and PA-modified polyphenylene ether (PPE)
It can be at least one of the resins.

Further, as the PA resin, PA6 resin, PA66 resin, reinforcing material such as talc, calcium carbonate, glass fiber and the like and / or P
It can be at least one of A6 resin and PA66 resin.

Further, as the PET resin, PE
It may be at least one of PET resin blended with T resin, reinforcing material and / or inorganic filler.

Further, the PU resin may be at least one kind of thermosetting resin such as PU resin.

When a reinforcing material such as talc, calcium carbonate, glass fiber and the like and / or an inorganic filler are mixed in the resin, the reinforcing effect and the resin properties are not affected within the range of 5 to 50% by weight. It is often added in an amount.

After being classified into the above-mentioned homologous resin material aggregates (7) to (11) in the step (6), a processing / regeneration process is performed in the step (12) to make the material reusable. You. In this case, the processing / recycling treatment involves separation and removal of foreign substances such as metal dust and sand that coexist in the recovered resin, and reinforcing materials such as talc, calcium carbonate, and glass fiber to improve the strength when recycled. , A reforming operation by adding an elastomer component or the like for improving impact resistance, and the like.

As shown in FIG. 1 (B), as a specific processing / reproduction processing step, first, a resin article composed of the above-mentioned homologous resin material aggregates (7) to (10) is placed in the next step. (13) In order to make the treatment easy and uniform, the material is crushed and ground with a shredder, a hammer, or the like, so that the size of the process (13) is about several mm to 10 mm.
The cutting and pulverization are performed in.

In the regeneration process, the step (1)
In step 4), dirt or the like (dust, scale, oil, etc.) attached to the resin material is removed by washing with water or a solvent such as ethyl alcohol, and a coating film, a plating film, a screw and a nut coexisting with the resin are removed. , Moldings, tapes,
Various surface treatment films such as a sputtering film are separated and removed. Furthermore, if necessary, it is not necessary to perform the modification by newly adding a blending component such as talc, calcium carbonate, glass fiber and the like, an elastomer component and the like.

When the homologous resin material aggregate is made of a thermoplastic resin, impurities and the like are removed, and a pulverized resin product is put into a kneading extruder and melted by heating and / or pressurizing. In the above, re-granulation is performed and the pellets are collected as a reclaimed material (16). Similarly, the resin material may be heated and / or pressurized until it is softened and recovered as a plate-like reclaimed material (16).

The homologous resin material composed of a thermoplastic resin includes, among the above-mentioned resins, a PO resin, an ABS resin, a PA resin and a PET resin, and these resins are put into a kneading extruder. Heating and / or
Or the pressure melting is the resin softening point, that is, 120 to
The regeneration process is performed in a range of about 250 ° C.

Here, the PO resin recovered as a homologous resin material is used for bumpers, instrument panels, air cleaners, interior trims, ducts, etc. of automobiles. Radiator grills, door mirror housings, wheel covers, interior trims, etc.

The regeneration processing temperature of such PO resin and ABS resin is about 120 to 200 ° C., and the processing is performed at a relatively low temperature.

Further, PA resins are used for rocker covers and heat and sound insulation covers of engines, and PET resins are used as interior skin materials and carpets for automobiles. Processing temperature is about 18
Relatively high at 0 to 250 ° C.

In the processing and regeneration treatment of the thermoplastic resin according to the present invention, the compatibility between homologous resins can be further increased by using a compatibilizer.

Recycled material (16) obtained by regeneration process
Is used as a raw material for the production of new resin products.However, in order to secure the mechanical properties and surface appearance quality of the resin products, and to balance the usage of recycled and new materials, As a raw material for producing a resin product, it is desirable that a maximum of about 50% by weight be mixed with a new material in step (17) and used.

On the other hand, in the method of reprocessing a resin material according to the present invention, when another resin material is mixed with a homologous resin material, bubbles are generated in the re-granulation step, or strand breaks occur (for the thermoplastic resin). The udon-shaped molding material [strand] is extruded from an extruder, and after being cooled with water, cut into a certain length to form pellets. At this time, the extruder does not produce a udon-shaped molding material. In addition, when used as a recycled material, the flowability of the resin is not uniform, and molding defects such as short shots (flow failure of the resin) occur. Sometimes. Furthermore, even if a molded article is obtained, there may be a problem that physical properties such as rigidity and impact strength are extremely low.

Therefore, as described above, when recycling a resin material, it may not be preferable to mix another resin material in addition to the aggregate composed of the five homologous resin materials of the present invention. It is possible. In the present invention, these problems did not occur when the regenerating process was performed as an aggregate composed of the above-described homologous resin material.

On the other hand, a PU resin which is a thermosetting resin is:
It is used in automobile seat cushions. The method of recycling and recycling is different from that of the thermoplastic resin described above, and the two methods A and B shown in FIG. Is desirable.

A. In order to remove impurities and the like from the resin article of the PU-based resin material aggregate (11) collected and classified in the step (6), and cut it into a relatively large size of about 10 mm in the step (18) for reuse PU recycled material (19). Next, the PU recycled material (19) is mixed with an adhesive during the production of a foamed molded product, and then mixed with an adhesive (step (2)).
0).

B. To remove impurities and the like from the resin article of the PU-based resin material aggregate (11) collected and classified in the step (6), and finely pulverize it into a small size of about 1 mm or less in the step (21) for reuse. PU recycled materials (2
2). Next, the recycled PU material (22) is mixed with a molded material in a step (23) in a step (23) at the time of producing a molded article, using these as an increasing material.

[Brief description of the drawings]

FIG. 1 is an explanatory view showing a recycling method in a resin material recycling system according to the present invention.

FIG. 2 is an explanatory view showing a method of regenerating a PU resin material in the present invention.

FIG. 3 is an explanatory view showing a conventional method for regenerating a resin material.

[Explanation of symbols]

(1) Market aged resin molded products (2) Waste car resin molded products (3) Burrs and scraps (4) Poorly molded products (7) PO (polyolefin) resin aggregate (8) ABS (acrylonitrile butadiene styrene) resin Material aggregate (9) PA (polyamide) resin material aggregate (10) PET (potylene terephthalate) resin material aggregate (11) PU (polyurethane) resin material aggregate (16) Recycled material

Continued on the front page (51) Int.Cl. ⁶ Identification symbol FI B29K 67:00 75:00 77:00 105: 26 (72) Inventor Toshiyuki Oba 2 Takaracho, Kanagawa-ku, Yokohama-shi, Kanagawa Nissan Motor Co., Ltd. Inside

Claims (12)

[Claims] 1. A resin material such as a resin product such as a resin molded product aged in the market and a resin molded product of an end-of-life vehicle, a resin material such as a burr generated from a process of manufacturing a resin molded product, a remnant material, and a resin product such as a defective molded product is recovered. After that, as a reusable resin material by performing cutting, pulverization, removal of impurities, etc., as a reusable resin material, the resin material can be recycled by performing the cutting, pulverization, removal of impurities, etc. When performing the regenerating process, the recovered resin material is classified as a homologous resin material, and as a resin material that can be reused by performing cutting, pulverization, impurity removal, etc. as an aggregate composed of the homologous resin material. A method for regenerating a resin material, comprising performing a regenerating process. 2. Recovered resin materials are classified as homologous resin materials, and cut, pulverized, and impurities removed as aggregates composed of the homologous resin materials to be recycled as reusable resin materials. When performing the processing,
The method for regenerating a resin material according to claim 1, wherein a regenerating process of heating and / or pressurizing is performed after pulverization and removal of impurities are performed. 3. The method according to claim 1, wherein the aggregate composed of the homologous resin material is a polyolefin (PO) resin. 4. The method according to claim 1, wherein the aggregate composed of the homologous resin material is an acrylonitrile butadiene styrene (ABS) resin. 5. The method according to claim 1, wherein the aggregate composed of the homologous resin material is a polyamide (PA) resin. 6. The method according to claim 1, wherein the aggregate composed of the homologous resin material is a polyethylene terephthalate (PET) resin. 7. The method according to claim 1, wherein the aggregate composed of the homologous resin material is a polyurethane (PU) resin. 8. The method according to claim 1, wherein the PO resin is polypropylene (PP).
Resin, copolymer of PP resin and polyethylene (PE) resin or elastomer-modified PO resin, PO resin containing reinforcing material such as talc, calcium carbonate, glass fiber and / or inorganic filler, elastomer-modified PO resin The method according to claim 3, wherein the resin material is at least one of the following. 9. An ABS resin comprising: an ABS resin; an acrylonitrile ethylene propylene styrene (AES) resin;
Acrylonitrile acrylic styrene (AAS) resin, polystyrene (PS) resin, or polymer blend of these resins with polycarbonate (PC) resin and P
The method for regenerating a resin material according to claim 4, wherein the method is at least one kind of A-modified polyphenylene ether (PPE) resin. 10. The PA resin is PA6 resin, PA66.
PA6 resin blended with reinforcing material such as resin, talc, calcium carbonate, glass fiber and / or inorganic filler,
The method for regenerating a resin material according to claim 5, wherein the resin material is A66 resin or at least one of these PA resins. 11. The reclaiming treatment of a resin material according to claim 6, wherein the PET resin is at least one of a PET resin, a PET resin containing a reinforcing material and / or an inorganic filler. Method. 12. The method according to claim 7, wherein the PU resin is at least one kind of thermosetting resin such as PU resin.