JP7115624B1 - Recycling method and recycling device - Google Patents

Abstract

An object of the present invention is to provide a recycling method capable of facilitating recycling of packaging films. A recycling method according to one aspect of the present invention separates a packaging film 20 with a paper label 22 from a film piece 31 with a paper label attached and a film piece 32 without a paper label attached. and a separation step (step S3 ) and [Selection drawing] Fig. 1

Description

The present invention relates to a recycling method and a recycling device.

In recent years, due to growing interest in environmental issues, technology for recycling packaging containers and the like has attracted attention. Patent Literature 1 discloses a technique for reliably separating paper and plastic films when recycling paper liquid containers.

JP 2018-75571 A

When recycling packaging films used for packaging foods, etc., the packaging films are crushed, and plastic components contained in the crushed packaging films are recovered and recycled. In general, a paper label is attached to the surface of a packaging film used for packaging food to display information (price tag, ingredient display, etc.) on the food.

However, if a paper label is attached to the surface of the packaging film, the crushed packaging film may contain film pieces with the paper label attached and film pieces without the paper label attached. There is a problem that it becomes difficult to recycle the packaging film.

SUMMARY OF THE INVENTION In view of the above problems, an object of the present invention is to provide a recycling method and a recycling apparatus capable of facilitating recycling of packaging films.

A recycling method according to one aspect of the present invention includes crushing a packaging film to which a paper label is attached into a first film piece to which a paper label is attached and a second film piece to which a paper label is not attached. and a separating step of separating the crushed first film piece and the second film piece.

A recycling device according to an aspect of the present invention crushes a packaging film with a paper label attached into a first film piece with a paper label attached and a second film piece with no paper label attached. and separating means for separating the first film piece and the second film piece crushed by the crushing means.

ADVANTAGE OF THE INVENTION By this invention, the recycling method and recycling apparatus which can facilitate recycling of a packaging film can be provided.

5 is a flowchart for explaining an example of a recycling method according to an embodiment; 1 is a schematic diagram for explaining an example of a recycling device according to an embodiment; FIG. It is a sectional view for explaining a crushing process. It is a schematic diagram for demonstrating a isolation|separation process. It is a sectional view for explaining an example of a packaging film.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a flowchart for explaining an example of a recycling method according to this embodiment. FIG. 2 is a schematic diagram for explaining an example of the recycling device according to this embodiment. FIG. 2 shows an example of a recycling apparatus for carrying out the recycling method according to this embodiment shown in FIG. The recycling method and recycling apparatus according to the present embodiment will be described in detail below.

In the recycling method according to the present embodiment, first, as shown in FIG. 1, in the crushing step (step S1), the packaging film to be recycled is crushed (cut) into film pieces of a predetermined size. Specifically, as shown in FIG. 2, the crushing means 10 divides the packaging film 20 with the paper label 22 into the film piece 31 with the paper label and the film piece without the paper label. 32 and crushed. For example, in the crushing step, the packaging film is crushed into film pieces with a size of 5 mm or more to 20 mm, preferably 10 mm or more and 20 mm.

FIG. 3 is a cross-sectional view for explaining the crushing process. A paper label 22 is attached to a part of the surface of the film 21 like the packaging film 20 shown in the upper diagram of FIG. The film 21 is, for example, a plastic film such as olefin, nylon, or PET. The thickness of the film 21 is, for example, 10 μm to 250 μm.

For example, the packaging film 20 is a packaging film used for packaging foodstuffs and the like, and a paper label 22 such as a price tag or an ingredient display is attached to such a packaging film using an adhesive. When the packaging film 20 to which the paper label 22 is stuck is crushed in this way, as shown in the lower diagram of FIG. and are generated. After crushing, the film pieces 31 to which the paper labels 22 are attached and the film pieces 32 to which the paper labels are not attached are mixed.

After that, the crushed film pieces 31 and 32 are transported using the transport means 11 (step S2 in FIG. 1). At this time, the conveying means 11 may apply vibration of a predetermined frequency to the film pieces 31 and 32 to level the film pieces 31 and 32 . That is, as shown in FIG. 2, by applying vibration of a predetermined frequency to the film pieces 31 and 32 from the conveying means 11, the film piece 35_1 supplied from the crushing means 10 is divided into film pieces 35_2 and 35_3. In addition, it can be leveled gradually while being transported. Here, leveling the film pieces 31 and 32 means spreading the film pieces 35_1 supplied from the crushing means 10 in the plane direction of the conveying means 11 to reduce overlapping of the film pieces 31 and 32 . The frequency given to the film pieces 31 and 32 from the conveying means 11 is preferably, for example, 3 Hz or more and 35 Hz or less, and 5 Hz or more and 25 Hz or less, from the balance of transfer efficiency, the effect of leveling the film pieces 31 and 32, and noise. is more preferable, and it is most preferable to be 5 Hz or more and 15 Hz or less.

A vibrating conveyor can be used as the transport means 11 . Further, a belt conveyor may be used as the transport means 11, and in this case, vibration means for giving a predetermined vibration to the belt conveyor may be provided separately.

After that, the transported film pieces 31 and 32 are separated into the film pieces 31 and 32 by using the separating means 12 (step S3 in FIG. 1). In other words, the crushed film pieces are in a state in which the film pieces 31 with the paper labels 22 attached and the film pieces 32 without the paper labels are mixed. The separating means 12 separates the mixed film pieces 31 and 32 into the film piece 31 to which the paper label 22 is attached and the film piece 32 to which the paper label is not attached. In FIG. 2, the film piece 31 with the paper label 22 attached is contained in the container 14 and the film piece 32 without the paper label is contained in the container 15 .

FIG. 4 is a schematic diagram for explaining the separation process. As shown in FIG. 4, the separating means 12 comprises a paper label recognition section 16 and an air nozzle 17. As shown in FIG. The paper label recognition unit 16 identifies the film piece 31 to which the paper label is attached by recognizing the paper label attached to the film piece 31 among the film pieces 31 and 32 transported by the transport means 11. do.

The air nozzle 17 removes the film piece 31 by ejecting air 18 onto the film piece 31 identified by the paper label recognition unit 16 . That is, of the film pieces 31 and 32 conveyed by the conveying means 11, the film piece 31 to which the paper label is attached is changed in trajectory by using the air 18 so as to drop into the container 14, and the paper label is attached. The film pieces 32 that are not removed are dropped into the container 15 as they are. As a result, the film piece 31 with the paper label attached and the film piece 32 with no paper label attached can be separated.

Incidentally, in the present embodiment, the film piece to which the air 18 is jetted may be reversed. That is, the air 18 may be jetted to the film piece 32 to which the paper label is not attached to separate the film piece 31 to which the paper label is attached and the film piece 32 to which the paper label is not attached.

Further, in the present embodiment, an electronic watermark may be printed on the paper label 22 in advance. Digital watermarking is a technique of printing predetermined information on a paper label using a technique that cannot be identified by the human eye, and reading the printed predetermined information using a dedicated reading device. The paper label recognition unit 16 recognizes the paper label by reading the electronic watermark printed on the paper label using a reading device (camera), and identifies the film piece 31 to which the paper label 22 is attached. good.

Further, when the paper label 22 contains a fluorescent agent, the paper label recognition unit 16 irradiates black light to recognize the paper label 22 containing the fluorescent agent, thereby detecting the film to which the paper label 22 is attached. Piece 31 may be identified. A fluorescent agent is, for example, an optical brightener. The fluorescent agent may be coated on the surface of the paper label 22 or added to the paper label 22 itself. For example, a fluorescent agent absorbs electromagnetic waves in the range of 300-400 nm and emits electromagnetic waves in the fluorescent region (400-500 nm). Therefore, the paper label 22 containing the fluorescent agent can be recognized by detecting the electromagnetic wave in the fluorescence region emitted when the paper label is irradiated with black light (electromagnetic wave of 300 to 400 nm).

In addition, when the paper label 22 contains cellulose, the paper label recognition unit 16 detects the spectrum of the fingerprint region of cellulose using infrared spectroscopy, thereby identifying the film piece to which the paper label 22 is attached. 31 may be specified. Here, the spectrum of the fingerprint region of cellulose is an absorption spectrum peculiar to cellulose, such as an absorption spectrum caused by _CH3 bending vibration, an absorption spectrum caused by OH bending vibration, and an absorption spectrum caused by OH stretching vibration.

Further, when the paper label 22 contains calcium carbonate, the paper label recognition unit 16 detects the paper label containing calcium carbonate using infrared spectroscopy, thereby identifying the film to which the paper label 22 is attached. Piece 31 may be identified.

When the paper label 22 is thermal paper, the paper label recognizing unit 16 applies heat to the paper label 22 to cause the thermal paper to develop a black color, and recognizes the thermal paper that has developed the black color. The piece of film 31 to which 22 is attached may be identified. For example, the film pieces 31 and 32 being transported by the transporting means 11 may be heated by irradiating them with electromagnetic waves so that the thermal paper is colored black in advance before reaching the separating means 12 . Then, the film strips 31 and 32 may be imaged with a camera, and the film strip having a black portion may be identified as the film strip 31 to which the paper label 22 is attached.

It should be noted that the methods for specifying the film piece 31 to which the paper label is attached may be used in combination as appropriate.

Also, in the present embodiment, an electrostatic separator may be used as the separating means 12 shown in FIG. That is, the film strip 31 with the paper label attached and the film strip 32 without the paper label have different electrification series. Therefore, by using the electrostatic separator, it is possible to separate the film piece 31 to which the paper label is attached and the film piece 32 to which the paper label is not attached. In this case, the paper label recognition section 16 and the air nozzle 17 shown in FIG. 4 are unnecessary.

After that, the film piece 32 separated in the separation step is subjected to the detachment step (step S4 in FIG. 1). The removing step is a step of removing at least one of the ink printed on the film piece 32 and the adhering adhesive. The detachment step can be performed by, for example, immersing the film piece 32 in the treatment liquid 19 as shown in FIG. As the treatment liquid, an alkaline treatment liquid containing sodium hydroxide or the like can be used. Further, hot water treatment, hot alkali treatment, or the like may be used as the desorption step.

After the desorption process, a process such as size separation and specific gravity separation may be further performed, and then a pelletizing process may be performed.

Note that the recycling method according to the present embodiment only needs to include the crushing step (step S1) and the separating step (step S3), and other steps may be omitted as appropriate.

As described above, paper labels are affixed to the surface of packaging films used to package foods and the like in order to display information (price tags, ingredient labels, etc.) on the foods and the like. However, if a paper label is attached to the surface of the packaging film, the crushed packaging film may contain film pieces with the paper label attached and film pieces without the paper label attached. As a result, there is a problem that recycling of the packaging film becomes difficult. Specifically, in the subsequent detachment step, the film piece is immersed in the treatment liquid to be deinked and peeled off. At this time, if a paper label is attached to the film piece, the paper label will swell and be treated. There was a problem that it spreads throughout the liquid and interferes with the desorption process.

Therefore, in the invention according to the present embodiment, the packaging film to which the paper label is attached is crushed into the film piece 31 to which the paper label is attached and the film piece 32 to which the paper label is not attached, and then the paper label is crushed. A separation process is provided for separating the film piece 31 to which the label is attached and the film piece 32 to which the paper label is not attached. As described above, in the invention according to the present embodiment, since the film piece 31 with the paper label attached is removed, subsequent recycling can be facilitated.

Moreover, in this embodiment, since the film piece 31 with the paper label is removed, it is possible to obtain plastic pellets with high purity. In the present embodiment, "the film piece 32 to which no paper label is attached" includes not only the film piece 32 to which no paper label is attached but also the film piece to which the paper label is slightly attached. be good. For example, a piece of film to which paper labels are slightly attached is a piece of film to which the amount of paper labels attached is smaller than the amount of paper labels that can be recognized by the paper label recognition section 16 .

In the invention according to the present embodiment, it is preferable to completely remove the film pieces 31 to which the paper labels are attached. 12, it becomes difficult to completely remove the film piece 31 with the paper label attached. In such a case, it is not necessary to completely remove the film piece 31 to which the paper label is attached. It may be mixed in a predetermined ratio (however, the ratio is lower than the ratio of the film pieces 31 after the crushing process).

Further, in the present embodiment, the separation step may be performed multiple times. When the separation process is performed a plurality of times, the ratio of film pieces 31 with paper labels attached can be reduced, and as a result, the ratio of film pieces 32 with no paper labels attached can be increased.

FIG. 5 is a cross-sectional view for explaining an example of a packaging film recycled using the invention according to this embodiment. As shown in FIG. 5, the packaging film includes a film 21 and a paper label 22 attached to part of the surface of the film 21. As shown in FIG. The film 21 is formed by laminating a sealant material 41, a laminate adhesive 42, an ink 43, an anchor coating agent 44, and a film 45, respectively. CPP (Cast Polypropylene), PE (polyethylene), or the like is used for the sealant material 41 . OPP (Oriented Polypropylene) or the like is used for the film 45 . The paper label 22 is formed by laminating an adhesive 46 and thermal paper 47 . Thermal paper 47 is attached to film 21 using adhesive 46 .

When the packaging film shown in FIG. 5 is recycled using the invention according to this embodiment, the laminate adhesive 42, the ink 43, the anchor coating agent 44, the adhesive 46, and the thermal paper 47 are removed, and the sealant material 41 is removed. and the film 45 can be recycled, the purity of the recycled plastic can be increased.

As described above, the present invention has been described in accordance with the above embodiments, but the present invention is not limited only to the configurations of the above embodiments, and is applicable within the scope of the invention of the claims of the present application. Needless to say, it includes various modifications, modifications, and combinations that can be made by a trader.

1 Recycling device 10 Crushing means 11 Transporting means 12 Separating means 14, 15 Container 16 Paper label recognition part 17 Air nozzle 18 Air 19 Treatment liquid 20 Packaging film 21 Film 22 Paper label 31 Film piece 32 with paper label attached Paper label Non-attached film piece 41 Sealant material 42 Laminate adhesive 43 Ink 44 Anchor coating agent 45 Film 46 Adhesive 47 Thermal paper

Claims (11)

a crushing step of crushing the packaging film to which the paper label is attached into a first film piece to which the paper label is attached and a second film piece to which the paper label is not attached;
a separation step of separating the crushed first film piece and the second film piece;
a detachment step of removing at least one of the ink printed on the second film piece separated in the separation step and the adhering adhesive ;
In the separation step,
Identifying the first film piece by recognizing the paper label attached to the first film piece,
Ejecting air from an air nozzle to remove the identified first film piece;
Recycling method. Further comprising a transporting step of transporting the crushed first film piece and the second film piece,
The transporting step includes a step of imparting vibration of a predetermined frequency to the first film piece and the second film piece to level the first film piece and the second film piece,
The separating step separates the first film piece and the second film piece that have been flattened in the conveying step.
The recycling method according to claim 1. 3. The recycling method according to claim 2, wherein said predetermined frequency is between 3 Hz and 35 Hz. An electronic watermark is pre-printed on the paper label,
recognizing the paper label by reading the digital watermark with a reading device to identify the first film strip;
The recycling method according to any one of claims 1 to 3. The paper label contains a fluorescent agent,
Identifying the first film piece by irradiating a black light and recognizing the paper label containing the fluorescent agent;
The recycling method according to any one of claims 1 to 3. The paper label contains cellulose,
identifying the first piece of film by detecting the spectrum of the cellulose fingerprint region using infrared spectroscopy;
The recycling method according to any one of claims 1 to 3. The paper label contains calcium carbonate,
identifying the first piece of film by detecting the paper label containing the calcium carbonate using infrared spectroscopy;
The recycling method according to any one of claims 1 to 3. the paper label comprises thermal paper;
Applying heat to the paper label to cause the thermal paper to develop a black color, and identifying the first film piece by recognizing the thermal paper that has developed the black color;
The recycling method according to any one of claims 1 to 3. a crushing step of crushing the packaging film to which the paper label is attached into a first film piece to which the paper label is attached and a second film piece to which the paper label is not attached;
a separation step of separating the crushed first film piece and the second film piece,
the first film piece and the second film piece have different electrification rows,
In the separating step, the first film piece and the second film piece are separated using an electrostatic separator.
Recycling method. crushing means for crushing the packaging film to which the paper label is attached into a first film piece to which the paper label is attached and a second film piece to which the paper label is not attached;
a separating means for separating the first film piece and the second film piece crushed by the crushing means;
a removing means for removing at least one of the ink printed on the second film piece separated by the separating means and the adhesive adhering thereto ;
The separating means is
Identifying the first film piece by recognizing the paper label attached to the first film piece,
Ejecting air from an air nozzle to remove the identified first film piece;
recycling equipment. crushing means for crushing the packaging film to which the paper label is attached into a first film piece to which the paper label is attached and a second film piece to which the paper label is not attached;
separating means for separating the first film piece and the second film piece crushed by the crushing means;
the first film piece and the second film piece have different electrification rows,
The separating means separates the first film piece and the second film piece using an electrostatic separator.
recycling equipment.

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