JP2005112930A - Method for recycling automotive interior material - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method for recycling an automotive interior material, which enables the efficient separation of a substrate from a skin material in a short time, the easy recycling of the recovered substrate and the skin material, and the inhibition of the physical deterioration and appearance failure of the recycled material. <P>SOLUTION: A ceiling material 1 having a substrate 2 comprising a PS-modified PPE resin and a skin material 3 adhered to the substrate 2 is immersed in a mixture liquid 7 in which an organic solvent is contained in an excessive volume based on the volume of limonene, thus separating the substrate 2 from the skin material 3. Then, the substrate 2 is washed with an organic solvent, subjected to a centrifugally liquid-removing treatment, dried, repelletized, and then reused as a recycling material by a foaming extrusion molding method. The skin material 3 is also washed with an organic solvent, subjected to a centrifugally liquid-removing treatment, fibrillated, melt-spun and then felted to reuse as a recycling material. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a method for recycling automotive interior materials, and more particularly, to collect and recycle automotive interior materials having a base material composed of a polymer blend of polyphenylene ether and polystyrene and a skin material adhered to the base material. The present invention relates to a method for recycling automobile interior materials.

  Conventionally, as interior materials for automobiles such as ceiling materials, polyphenylene ether (hereinafter may be abbreviated as PPE) as a main component, polystyrene (generic name for general-purpose polystyrene and high-impact polystyrene, hereinafter abbreviated as PS). In some cases, a foamed sheet obtained by foam molding after adding a foaming agent to a polymer blend obtained by kneading the polymer is used.

  For example, a ceiling material is a base material made of such a foam sheet, and a decorative layer made of a non-woven fabric made of polyethylene terephthalate (hereinafter sometimes abbreviated as PET) is used as a skin material on one surface (vehicle compartment side). It is formed by sticking via a hot melt adhesive and heat-sealing an abnormal sound prevention layer made of PET spunbond to the other surface (roof side).

  However, in recent years, various material recycling of automobile parts has been studied, and it is necessary to consider material recycling of such automotive interior materials.

  For example, it has been proposed that an automobile interior material in which a skin material and a foam laminate are laminated and integrated via a hot melt adhesive is separated, recovered and reused by immersing it in an organic solvent ( For example, see Patent Document 1.)

Moreover, the recovery method of the expanded polystyrene which makes an expanded polystyrene molded object contact the expanded polystyrene shrinkage agent containing 1-6 volume% ethanol with respect to limonene and limonene is proposed (refer patent document 2).
JP 2002-264130 A JP-A-5-263065

  However, in the method described in Patent Document 1, since the automobile interior material is immersed only in the organic solvent, it takes a long time for separation, and is not suitable for industrial implementation.

  Moreover, when an automobile interior material is immersed in a foamed polystyrene shrink agent containing limonene and 1 to 6% by volume of ethanol relative to limonene as described in Patent Document 2, polystyrene in the base material is dissolved. Thus, the base material and the skin material can be separated. However, after separation, a large amount of limonene remains on the base material, making it difficult to melt and knead with an extruder to obtain a recycled material, and the physical properties and appearance of the obtained recycled material are It becomes inferior compared with physical properties and appearance. Also, a large amount of limonene containing polystyrene remains in the skin material, making it difficult to melt spin after defibration or pulverization.

  The object of the present invention is to efficiently separate the base material and the skin material in a short time, and furthermore, the recovered base material and skin material can be easily recycled, and further obtained. It is an object of the present invention to provide a method for recycling automobile interior materials that can suppress deterioration in physical properties and poor appearance of recycled materials.

  In order to achieve the above object, the present invention is a method for recycling an automotive interior material comprising a base material comprising a polymer blend of polyphenylene ether and polystyrene, and a skin material adhered to the base material. The interior material for use is at least immersed in limonene, and the base material and the skin material are separated so that the polystyrene remaining in the skin material after separation is 0.5% by weight or less. It is said.

  According to such a method, since the base material and the skin material are separated so that the polystyrene remaining in the separated skin material is 0.5% by weight or less, the skin is left as it is after defibration or pulverization. Can be melt spun. Further, since limonene remaining on the substrate is also reduced, it can be easily melt-kneaded with an extruder to obtain a recycled material, and deterioration of physical properties and appearance defects of the obtained recycled material can be suppressed.

  Further, the present invention is a method for recycling an automotive interior material having a base material composed of a polymer blend of polyphenylene ether and polystyrene, and a skin material adhered to the base material, the automotive interior material comprising: At least, the base material and the skin material are separated by dipping in a mixed solution containing an excess amount of an organic solvent relative to limonene on a volume basis.

  According to such a method, since the base material and the skin material are separated by being immersed in a mixed solution containing an organic solvent in an excessive ratio with respect to limonene, the base material and the skin material can be efficiently separated in a short time. In addition, limonene remaining in the epidermis is reduced. Therefore, it can be melt-spun as it is after defibration or pulverization. Also, limonene remaining on the substrate is reduced. Therefore, in order to obtain as a recycled material, it can be easily melted and kneaded by an extruder, and deterioration of physical properties and appearance defects of the obtained recycled material can be suppressed.

  In this method, it is preferable that an external force is further applied after being immersed in the mixed solution. By applying an external force, the base material and the skin material can be efficiently separated even if there are a part that is firmly bonded or a part that is intertwined.

  In this method, it is preferable that the separated base material and skin material are washed with an organic solvent. By washing with an organic solvent, it is possible to further suppress deterioration in physical properties and poor appearance of the obtained recycled material.

  In this method, it is preferable that the separated skin material is centrifuged and drained. By carrying out centrifugal drainage, the polystyrene remaining in the skin material can be easily reduced to 0.5% by weight or less.

  Moreover, it is suitable that the said liquid mixture contains 75-90 volume% of organic solvents with respect to 10-25 volume% of limonene. When 75 to 90% by volume of organic solvent is contained in the mixed solution, the base material and the skin material are efficiently separated in a short time, and the limonene remaining on the base material and the skin material is further reduced, and the recycled material. Can be easily obtained, and deterioration of physical properties and appearance defects of the obtained recycled material can be further suppressed.

  According to the method for recycling an automotive interior material of the present invention, the base material and the skin material can be efficiently separated in a short time, and limonene remaining on the base material and the skin can be reduced. Therefore, it is possible to easily obtain a recycled material, and it is possible to suppress deterioration in physical properties and poor appearance of the obtained recycled material.

  The interior material for automobiles to be subjected to the recycling method of the present invention is not particularly limited as long as it is used for interiors of automobiles, and examples thereof include ceiling materials and door trims.

  FIG. 1 shows a ceiling material recycling method as an example of a method for recycling automobile interior materials. Hereinafter, the recycling method of the present invention will be described by exemplifying this ceiling material recycling method.

  As shown in FIG. 1 (c), the ceiling material 1 includes a base material 2 and a skin material 3a provided as a decorative layer on one surface (vehicle compartment side) of the base material 2 (in the following description, a decoration material). When distinguishing between a layer and an abnormal sound prevention layer, which will be described later, the decorative layer is the skin material 3a, and the abnormal noise prevention layer is the skin material 3b. A skin material 3b provided as a noise prevention layer on the other surface (roof side) of the material 2 is provided.

  The base material 2 is formed from a foamed sheet obtained by adding a foaming agent to a polymer blend of PPE and PS (PS-modified PPE resin) and then foam-molding (foam extrusion molding or the like).

  The skin material 3a provided as a decoration layer is formed from, for example, a PET nonwoven fabric, and is adhered to one surface of the substrate 2 via a hot melt adhesive made of ethylene-vinyl acetate resin.

  The skin material 3 b provided as the noise prevention layer is made of, for example, PET spunbond, and is heat-sealed to the other surface of the substrate 2.

  As shown in FIG. 1A, such a ceiling material 1 is prepared by first preparing a base material 2, a skin material 3a as a decoration layer, and a skin material 3b as an abnormal sound prevention layer. These are pasted together as shown in (b). In the bonding, for example, a skin material 3a as a decoration layer coated with a hot-melt adhesive and a skin material 3b as an abnormal sound prevention layer are superposed on both surfaces of the base material 2 and these are penetrated. Fix several places with pins that you don't use and heat in a heating furnace. Then, as shown in FIG.1 (c), it can manufacture by compressing and molding the obtained lamination sheet with a press machine. In addition, the ceiling material 1 manufactured in this way is in a state in which the base material 2, the skin material 3a as the decoration layer, and the skin material 3b as the noise prevention layer are entangled with each other in a pin insertion portion (not shown). There is a case.

  And in this method, the waste material after use of the ceiling material 1 obtained as described above or unnecessary parts generated at the time of manufacture are recycled as follows.

  That is, first, as shown in FIG. 1 (d), the ceiling material 1 to be recycled is pulverized. The crushing of the ceiling material 1 is not particularly limited, and is pulverized using a known pulverizer to an appropriate size (for example, a piece having a maximum length of 500 × 500 mm) that facilitates subsequent processing.

  Next, in this method, as shown in FIG. 1 (e), a mixed liquid 7 containing pulverized ceiling material 1 containing limonene and an organic solvent in an excess ratio of limonene with respect to the volume of the organic solvent. So that the base material 2 and the skin material 3 are separated.

  Limonene contained in the mixed solution 7 is a kind of monocyclic monoterpene, and there are d-form and l-form optical isomers. In this method, one containing at least d-limonene is used. Note that d-limonene is contained in, for example, orange peel oil, lemon oil, bergamot oil, sea bream oil, and the like, and is commercially available.

  The organic solvent contained in the mixed solution 7 is not particularly limited as long as it is compatible with limonene. For example, alcohols such as ethanol, isopropanol, and n-butanol, for example, glycols such as ethylene glycol, propylene glycol, cellosolve, and carbitol. For example, ketones such as acetone, methyl ethyl ketone, for example, aromatic hydrocarbons such as benzene, toluene, xylene, for example, aliphatic hydrocarbons such as n-hexane, n-heptane, n-pentane, for example, Examples thereof include esters such as ethyl acetate, butyl acetate, cellosolve acetate and carbitol acetate, and petroleum solvents such as kerosene and solvent naphtha. Of these organic solvents, alcohols are preferable, and ethanol is more preferable.

  Moreover, the liquid mixture 7 contains an organic solvent in an excess ratio on a volume basis with respect to limonene. When the organic solvent is contained in a smaller proportion on a volume basis with respect to limonene, that is, if the limonene is contained in a larger proportion on a volume basis with respect to the organic solvent, after separation, the base material 2 and The amount of limonene remaining in the skin material 3 is increased, making it difficult to form a recycled material, and declining physical properties and poor appearance of the obtained recycled material are inevitable.

  The ratio of limonene to organic solvent is preferably 75 to 90% by volume of organic solvent with respect to 10 to 25% by volume of limonene.

  With such a ratio, the limonene remaining on the base material 2 and the skin material 3 can be reduced while efficiently separating the base material 2 and the skin material 3 to shorten the separation time. Therefore, it is possible to easily obtain a recycled material, and it is possible to suppress deterioration in physical properties and poor appearance of the obtained recycled material. For example, FIG. 7 shows the relationship between the limonene concentration in the mixed liquid and the separation time when the ceiling material 1 is immersed and separated in mixed liquids of limonene and ethanol having different mixing ratios. . In this graph, it can be seen that when the limonene concentration is less than 10% by volume, the separation time becomes abruptly long, and when it exceeds 25% by volume, the separation time does not change much.

  And although it does not restrict | limit especially in order to immerse the ceiling material 1 in the liquid mixture 7, For example, the liquid mixture 7 is filled in the immersion tank 8, and the ceiling material 1 is immersed in the liquid mixture 7. FIG. The immersion conditions are not particularly limited as long as the ceiling material 1 can be immersed in the mixed solution 7. For example, after the ceiling material 1 is immersed in the mixed solution 7 in order to prevent the ceiling material 1 from floating, a dropping lid (not shown) is used. Or the like may be disposed in the vicinity of the liquid surface of the mixed liquid 7 so that the ceiling material 1 is uniformly immersed in the mixed liquid 7.

  And by such immersion, the polystyrene in the base material 2 is dissolved in limonene, and the interface between the heat-sealed base material 2 and the skin material 3b as the noise prevention layer gradually peels off, and hot melt The adhesive dissolves in the organic solvent, and the interface between the base material 2 and the skin material 3a as the decoration layer gradually peels off.

  As described above, the immersion time varies depending on the mixing ratio of the mixed liquid 7, the type and shape of the ceiling material 1, the post-treatment method, and the like. However, it may be set as the time for complete separation, and even if it does not wait until then, for example, the part that is firmly bonded or the part that is intertwined does not peel, but in other parts, You may set as time (for example, about 1 second-30 minutes, Preferably, about 1 second-15 minutes) when the base material 2 and the skin material 3 become easy to peel. By setting as such a predetermined time, the processing time can be shortened and rapid collection can be achieved.

  Moreover, in this immersion, you may heat in the temperature range of 40-45 degreeC as needed. By heating, it becomes easy for the liquid mixture 7 to penetrate into the base material 2, and the separation can be promoted.

  In addition, in FIG.1 (e), the base material 2 and the skin material 3 have shown the state which isolate | separated completely, In this state, the base material 2 floats on the liquid level of the liquid mixture 7, The skin material 3 settles on the bottom of the mixed solution 7.

  In the above immersion, if it is not completely separated, an external force is applied to the ceiling material 1 immersed in the mixed liquid 7 as shown in FIGS. The material 3 is separated. By applying an external force, the base material 2 and the skin material 3 can be efficiently separated even if there are a part that is firmly bonded or a part that is intertwined. The method for applying an external force to the ceiling material 1 is not particularly limited, and various methods can be mentioned.

  For example, as shown in FIG. 2, the ceiling material 1 immersed in the liquid mixture 7 is centrifuged. That is, in this method, first, a cylindrical wire mesh 11 is prepared. The cylindrical wire mesh 11 has a lattice shape, and the size of the holes between the lattices is set such that only the separated skin material 3 can pass through.

  And the ceiling material 1 after immersion is thrown into this wire mesh 11, and the wire mesh 11 is rotated at high speed. Then, the base material 2 and the skin material 3 are separated by the centrifugal force acting in the circumferential direction of the wire net 11 even if there are, for example, a strongly bonded part or an intertwined part. Since the volume of the base material 2 after separation is large and the volume of the skin material 3 after separation is small, the base material 2 is held in the wire mesh 11, while the skin material 3 is discharged from the hole of the wire mesh 11. Thereby, the base material 2 and the skin material 3 are separated, and each can be collected.

  Moreover, for example, as shown in FIG. 3, the ceiling material 1 immersed in the mixed solution 7 may be rubbed against a member capable of imparting frictional resistance. That is, in this method, as shown in FIG. 3A, first, a pair of flat upper metal mesh 12 and lower metal mesh 13 arranged in parallel at a predetermined interval is prepared. The upper metal mesh 12 and the lower metal mesh 13 are provided in an inclined shape so that the input side is upward and the discharge side is downward. Further, the upper metal mesh 12 and the lower metal mesh 13 each have a lattice shape, and an upper protrusion 14 as a member capable of imparting a frictional resistance protruding downward at an intersecting portion of the upper metal mesh 12 is provided on the lower metal mesh 13. The lower protrusions 15 are formed as members capable of imparting frictional resistance projecting upward at the intersections.

  And as shown in FIG.3 (b), the ceiling material 1 after immersion is thrown in between these upper wire mesh 12 and the lower wire mesh 13, and these upper wire mesh 12 and lower wire mesh are carried out with the pressure of air etc. 13 is passed. Then, for example, the skin material 3b as an abnormal sound prevention layer is caught on the upper protrusion 14 of the upper metal mesh 12, and the base material 2 and the skin material 3b are peeled off by the shearing force. The skin material 3a as a decoration layer is caught on the side protrusion 15, and the base material 2 and the skin material 3a are peeled off by a shearing force, so that, for example, a firmly bonded portion or a tangled portion, etc. Even if there is, the base material 2 and the skin material 3 are separated.

  Further, if the upper wire mesh 12 and the lower wire mesh 13 are always vibrated, the skin material 3 b caught on the upper protrusion 14 of the upper wire mesh 12 and the skin caught on the lower protrusion 15 of the lower wire mesh 13. The material 3a can be dropped and each can be collected.

  In this method, the ceiling material 1 after immersion is put upside down, and the skin material 3a as a decoration layer is hooked on the upper protrusion 14 of the upper metal mesh 12, and the lower protrusion 15 of the lower metal mesh 13 is hooked. You may make it hook the skin material 3b as a noise prevention layer.

  Further, for example, as shown in FIG. 4, the ceiling material 1 immersed in the mixed liquid 7 may be mechanically stirred. That is, in this method, as shown in FIG. 4, the stirring blade 16 is provided in the immersion tank 8, the bucket 17 is installed at the bottom of the immersion tank 8, and the ceiling material 1 immersed in the mixed liquid 7 is Stirring is performed by the stirring blade 16. Then, the ceiling material 1 is peeled off from the base material 2 and the skin material 3 even if there are, for example, a strongly bonded part or an intertwined part in the liquid mixture 7 by mechanical stirring force. The The stirring conditions are appropriately selected, and are, for example, 20 to 45 ° C. and about 5 to 30 minutes. Moreover, stirring may be started immediately after the ceiling material 1 is immersed in the mixed liquid 7 or may be started after a predetermined time has elapsed after the immersion.

  And by such stirring, the base material 2 and the skin material 3 were isolate | separated, the base material 2 floated to the liquid level of the liquid mixture 7, and since the skin material 3 settled to the bottom of the immersion tank 8, it floated. The base material 2 is scooped up with a net or the like, and the skin material 3 settled on the bottom is accommodated in a bucket 17 installed in advance, and the bucket 17 is pulled up together. Thereby, the base material 2 and the skin material 3 can be separated and each can be recovered.

  In the above description, the stirrer 16 is provided in the dipping bath 8, but a stirrer provided with the stirrer 16 is prepared separately from the dipping bath 8, and the ceiling material after the dipping is provided in the stirrer. 1 may be added and stirred.

  Further, for example, as shown in FIG. 5, the ceiling material 1 immersed in the mixed liquid 7 may be passed between a plurality of rollers. That is, in this method, as shown in FIG. 5, first, a water tank 18 filled with water, and two transport rollers 19 and 20 disposed in the water tank 18 obliquely up and down at a predetermined interval, An endless belt 21 wound between the two conveying rollers 19 and 20, a pressing roller 22 disposed above the upper conveying roller 19 and pressing the upper conveying roller 19 via the endless belt 21; A bucket 23 disposed below the lower conveying roller 20 and a guide member 24 for guiding the ceiling material 1 to the upper conveying roller 19 are prepared.

  Then, after the endless belt 21 is moved around the transport rollers 19 and 20 by the rotational driving of the transport rollers 19 and 20, the immersed ceiling material 1 is introduced from the guide member 24. Then, when the ceiling material 1 that has been put is placed on the endless belt 21 and passes between the upper conveying roller 19 and the pressing roller 22, the ceiling material 1 from the pair of upper conveying roller 19 and the pressing roller 22. For example, even if there is a strongly bonded part or an intertwined part due to the pressing force, a shearing force acts between the base material 2 and the skin material 3, and the base material 2 and the skin material 3. And are separated. Since the separated base material 2 floats on the water surface, it is recovered by overflowing the water in the water tank 18 or scooping it up with a net or the like. Further, since the separated skin material 3 is conveyed by the endless belt 21 as it is and accommodated in the bucket 23, it is recovered by pulling up the bucket 23 together. Thereby, the base material 2 and the skin material 3 can be separated and each can be recovered.

  For example, as shown in FIG. 6, the ceiling material 1 immersed in the mixed liquid 7 may be passed between the triaxial rollers 25. That is, in this method, as shown in FIG. 6, the belt conveyor 26 for conveying the ceiling material 1 after immersion from the immersion tank 8 and the three rollers 27, 28 and 29 are in contact with each other (that is, each roller Are separated by a triaxial roller 25 (which contacts with the other two rollers), a guide member 30 for guiding the ceiling material 1 from the belt conveyor 26 to the triaxial roller 25, and three rollers 27, 28 and 29, respectively. Three recovery trays 31, 32, and 33 for recovering the base material 2, the skin material 3a as the decoration layer, and the skin material 3b as the noise prevention layer are prepared.

  The rollers 27, 28 and 29 of the triaxial roller 25 can collect the base material 2, the skin material 3 a as a decorative layer, and the skin material 3 b as a noise prevention layer, respectively, by the rollers 27, 28 and 29. As described above, the surface roughness (that is, the surface processing that roughens the surface to make it easy to catch), the surface temperature, the rotation speed, and the like are set.

  In this method, the soaked ceiling material 1 is fed from the guide member 30 toward the triaxial roller 25 after being conveyed by the belt conveyor 26. As a result, the inserted ceiling material 1 is, for example, a portion that is firmly bonded or entangled due to the temperature and rotational speed of the rollers 27, 28, and 29, and the friction coefficient of the surface. And the like, the base material 2, the skin material 3a as the decoration layer, and the skin material 3b as the noise prevention layer are separated, for example, the base material 2 is collected by the roller 27 and stored in the collection tray 31, The skin material 3 a as a decoration layer is collected by the roller 28 and accommodated in the collection tray 32, and the skin material 3 b as the noise prevention layer is collected by the roller 29 and accommodated in the collection tray 33. Thereby, the base material 2 and the skin material 3 can be separated and each can be recovered.

  Although not shown, as another method for applying an external force, for example, a method of applying a jet flow by jet injection or the like to the ceiling material 1 can be used.

  Thereafter, in this method, as shown in FIG. 1 (f), the separated base material 2 and the skin material 3 are separated and recovered, and a process for recycling is performed. In the separated and recovered skin material 3, polystyrene dissolved in limonene and permeating the skin material 3 remains.

  That is, in this method, the separated base material 2 is first washed with an organic solvent 9 as shown in FIG. By washing with the organic solvent 9, it is possible to suppress deterioration in physical properties and appearance defects of the obtained recycled material. The organic solvent described above can be used as the organic solvent 9, and preferably the same organic solvent as the organic solvent contained in the mixed solution 7 is used. Although it does not restrict | limit especially in order to wash | clean with the organic solvent 9, For example, the base material 2 is filled with the organic solvent 9 in the washing tank 34, the base material 2 is immersed in the organic solvent 9, and compression and release are repeated as needed. 2 may be squeezed.

  Thereafter, in this method, the washed base material 2 is centrifuged and drained (centrifugated) as shown in FIG. Centrifugal drainage is not particularly limited, and centrifugal drainage is performed using a known centrifugal drainer (centrifuge) 35 that can remove the mixed liquid 7 from the base material 2. Such centrifugal drainage can be omitted when the mixing ratio of the above-described mixed liquid 7 is 75 to 90% by volume of the organic solvent with respect to 10 to 25% by volume of limonene.

  Next, in this method, the centrifugally drained substrate 2 is dried as shown in FIG. Drying is not particularly limited, but may be performed with hot air using a dryer 36 or the like. In FIG. 8, drying is performed when the mixture is immersed in a mixture A of 10% by volume of limonene: 90% by volume of ethanol, and when it is immersed in a mixture B of 25% by volume of limonene: 75% by volume of ethanol. The relationship between time and weight change is shown. It can be seen that it takes about 45 minutes for both of the mixed liquids A and B until the weight before immersion is the same as the weight after immersion, that is, until the mixed liquid 7 is completely removed. . Practically, there is no problem even if the drying is finished in a slightly moist state where the weight change is about 120%, so the drying time can be set to at least 15 minutes or more.

  Next, in this method, the dried base material 2 is re-pelletized by a known method using a pelletizer or the like as shown in FIG.

  Thereafter, in this method, the base material 2 is obtained as the above-described foamed sheet as shown in FIG. 1A by adding a foaming agent to the raw material pellets and performing foam extrusion molding. Foam extrusion may be performed by melt-kneading and foaming using a known extruder (including single and biaxial). The base material 2 thus obtained is used again as the ceiling material 1 as a recycled material.

  In this method, the separated skin material 3 is first washed with an organic solvent 10 as shown in FIG. By washing with the organic solvent 10, it is possible to suppress deterioration in physical properties and poor appearance of the obtained recycled material. The organic solvent described above can be used as the organic solvent 10, and preferably the same organic solvent as the organic solvent contained in the mixed solution 7 is used. Although it does not restrict | limit especially in order to wash | clean with the organic solvent 10, For example, like the washing | cleaning of the base material 2, the organic solvent 10 is satisfy | filled in the washing tank 40, and the skin material 3 is immersed in the organic solvent 10, if needed. What is necessary is just to squeeze the skin material 3 so that compression and release may be repeated.

  Thereafter, in this method, the washed skin material 3 is subjected to centrifugal drainage ((centrifugation), as shown in FIG. 1 (l). The amount of centrifugal drainage is not particularly limited, and a known centrifugal drainer (centrifuge) 39 that can remove the mixed solution 7 from the skin material 3 is used. In the skin material 3, such centrifugal drainage is preferably performed regardless of the mixing ratio of the mixed liquid 7 described above.

  By such treatment, the polystyrene remaining in the skin material 3 can be 0.5% by weight or less, preferably 0.0 to 0.2% by weight.

  Next, in this method, the centrifugally drained skin material 3 is pulverized by a known method as shown in FIG.

  Thereafter, in this method, as shown in FIG. 1 (a), melt spinning, forming into a nonwoven fabric by a spunbond method, etc., forming a felt so as to become a nonwoven fabric or a spunbond, as a decorative layer made of a PET nonwoven fabric Skin material 3a and a skin material 3b as an anti-noise layer made of PET spunbond.

  In this melt spinning, when the polystyrene remaining in the skin material 3 is 2.0% by weight, clogging occurs in the die and melt spinning cannot be performed, while the polystyrene remaining in the skin material 3 is 0.5%. In the case of weight%, it has been confirmed that melt spinning can be performed satisfactorily without clogging at the die.

  The skin material 3 obtained in this way is used again as the ceiling material 1 as a recycled material.

  According to such a method, the base material 2 and the skin material 3 are separated by being immersed in the mixed liquid 7 containing an organic solvent in an excessive ratio with respect to limonene, and thus can be efficiently separated in a short time. . Moreover, the limonene remaining in the skin material 3 is reduced, and as a result, it can be separated so that the polystyrene dissolved in the limonene and penetrating into the skin material 3 is 0.5% by weight or less. Therefore, the skin material 3 can be melt-spun as it is after defibration or pulverization. Further, limonene remaining on the substrate 2 is also reduced. Therefore, in order to obtain as a recycled material, it can be easily melt-kneaded with an extruder. As a result, it is possible to suppress deterioration in physical properties and poor appearance of the obtained recycled material.

  Table 1 compares the physical properties of the virgin material and the recycled material with respect to the skin material 3a as the decorative layer.

表１から、リサイクル材は、引張強度、引張伸び、引裂き強度および燃焼速度のいずれにおいても、バージン材とほぼ同等の性能を有していることがわかる。

From Table 1, it can be seen that the recycled material has almost the same performance as the virgin material in any of tensile strength, tensile elongation, tear strength, and burning rate.

  Table 2 compares the physical properties of the virgin material and the recycled material with respect to the base material 2.

表２から、リサイクル材は、引張強度、引張伸び、曲げ弾性率、アイゾット衝撃値、熱変形温度のいずれにおいても、バージン材とほぼ同等の性能を有していることがわかる。

From Table 2, it can be seen that the recycled material has almost the same performance as the virgin material in any of tensile strength, tensile elongation, flexural modulus, Izod impact value, and thermal deformation temperature.

  In the recycling method of the present invention, the steps described above may be performed by changing the order as appropriate, and may include other processing steps.

It is process drawing which shows the recycling method of a ceiling material. It is explanatory drawing which shows one Embodiment (the aspect to centrifuge) of the method of making an external force act on a ceiling material, and isolate | separating a base material and a skin material. It is explanatory drawing which shows one Embodiment (The aspect rubbed with the member which can provide frictional resistance) of the method of making an external force act on a ceiling material, and isolate | separating a base material and a skin material, Comprising: (a) A perspective view and (b) are side views which show the state which a ceiling material isolate | separates. It is explanatory drawing which shows one Embodiment (the aspect stirred mechanically) of the method of making an external force act on a ceiling material, and isolate | separating a base material and a skin material. It is explanatory drawing which shows one Embodiment (The aspect which makes a pair of roller pass in a water tank) which makes an external force act on a ceiling material, and isolate | separates a base material and a skin material. It is explanatory drawing which shows one Embodiment (The aspect put into a triaxial roller) of the method of making an external force act on a ceiling material, and isolate | separating a base material and a skin material. It is a graph which shows the relationship between a limonene density | concentration and separation time. It is a graph which shows the relationship between drying time and a weight change.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Ceiling material 2 Base material 3 Skin material 7 Mixed liquid 9 Organic solvent 10 Organic solvent

Claims (6)

A method for recycling an automotive interior material having a base material composed of a polymer blend of polyphenylene ether and polystyrene, and a skin material adhered to the base material,
The automobile interior material is immersed in at least limonene, and the base material and the skin material are separated so that the polystyrene remaining in the skin material after separation is 0.5% by weight or less. A method for recycling automotive interior materials. A method for recycling an automotive interior material having a base material composed of a polymer blend of polyphenylene ether and polystyrene, and a skin material adhered to the base material,
The automotive interior material is at least immersed in a mixed solution containing an organic solvent in an excess ratio on a volume basis with respect to limonene to separate the base material and the skin material, A method for recycling automotive interior materials. The method for recycling an automotive interior material according to claim 2, wherein an external force is further applied after the immersion in the mixed solution. The method for recycling an automotive interior material according to claim 2 or 3, wherein the separated base material and skin material are washed with an organic solvent. The method for recycling an automotive interior material according to any one of claims 2 to 4, wherein the separated skin material is subjected to centrifugal drainage. The method for recycling an automotive interior material according to any one of claims 2 to 5, wherein the mixed solution contains 75 to 90% by volume of an organic solvent with respect to 10 to 25% by volume of limonene. .

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