JP2016093772A - Recycling method of composite paper container, recycling system of the same, pulp soil, natural turf block and heat/cold insulation agent - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a recycling method of a composite paper container and a recycling system of the same capable of recovering the composite paper container as resources without being incinerated as combustible garbage and to provide pulp soil, a natural turf block and heat/cold insulation agents utilizing paper fibers obtained by the recycling method of the composite paper container.SOLUTION: The recycling method and the recycling system of a composite paper container include: a step recovering a used composite paper container; a step roughly crushing and washing the composite paper container; a step separating paper fibers and a film from the roughly crushed composite paper container by being added with water and fibrillated; and a step sorting and recovering the paper fibers and the film obtained by fibrillation respectively.SELECTED DRAWING: None

Description

  The present invention relates to a method for recycling a composite paper container, a recycling system therefor, pulp soil, a natural turf block, and a heat and cold insulation agent.

  Dairy products, juices, soft drinks, liquid foods, alcoholic beverages (hereinafter collectively referred to as “beverages”) are packed in containers such as metal cans, plastic bottles, and paper containers and sold to consumers. Yes. Each container has the following advantages and disadvantages, and each container for filling a beverage is appropriately selected in consideration of these.

Metal cans have a high sealing hermeticity, so that beverages can be stored at room temperature for a long period of time, and the containers are strong. On the other hand, the containers are heavy and the cross section is circular, so there is a space loss when storing and transporting. There are drawbacks such as
Because PET bottles have a high sealing hermeticity, beverages can be stored at room temperature for a long period of time, and the containers have the advantage of being lightweight, but, like metal cans, the cross section is circular, so space loss occurs during storage and transportation. There are drawbacks such as the occurrence of a high cost of the container.

Paper containers have advantages such as light weight and low cost, and no space loss when stored or transported due to a square cross section.
In order to prevent the beverage from being easily crushed so that the beverage can be stored at room temperature for a long period of time, a paper container provided with a film having a sealing hermetically sealed inside has been devised. Therefore, in recent years, the amount of paper containers used has greatly increased compared to metal cans and PET bottles.

Examples of the film include those obtained by laminating a metal foil such as a resin film and aluminum, and those obtained by coating a resin or the like inside a paper container.
In this specification, the following items provided inside the paper container are collectively referred to as “film”.
aA metal foil made of resin, aluminum, etc., which is laminated alone or superposed.
b A thin film formed by coating resin or the like.
c A combination of a and b above

  Next, in this specification, a paper container provided with the film on the inside is referred to as a “composite paper container”. In addition, the “composite paper container” includes a paper container that includes a cup-shaped main body and a separate lid, and the above-described film is provided inside the main body.

As described above, the composite paper container is optimal as a beverage container, but there are significant problems in terms of effective use of resources and reduction of the environmental load associated with waste disposal.
In other words, metal cans, plastic bottles and some paper containers have been established for recycling so that they can be collected and reused as recyclables. Collected together with combustible waste and then incinerated.
For this reason, issues such as resource recycling, reduction of carbon dioxide associated with incineration, and reduction of load on the incinerator have become issues.

  For composite paper containers, for the purpose of resource recycling, for example, a technique of melting an aluminum foil from a paper container by melting a resin film using an organic solvent, melting aluminum foil using supercritical water or subcritical water, etc. However, there is a problem in terms of high cost, environmental load, large equipment, and the like.

JP 2004-358423 A JP 2005-336623 A

  The present invention relates to a recycling method and a recycling system for a composite paper container, and a paper fiber obtained by the recycling method for the composite paper container, which allows the composite paper container to be recovered as a recyclable material without being incinerated as combustible waste. It is an object to provide utilized pulp soil, natural turf block, and heat insulation.

Means for solving the problems of the present invention are as follows.
(1) A step of recovering a used composite paper container, a step of roughly crushing and washing the composite paper container, and a step of adding water to the roughly crushed composite paper container to defibrate and separate it into paper fibers and a film And a method for recycling the composite paper container, comprising separating and collecting the paper fiber and the film obtained by defibration.
(2) The method for recycling a composite paper container according to (1) above, wherein water is added to the composite paper container 100 at a weight ratio of 50 or more and less than 80 for defibration.
(3) The film includes a resin film and a metal film, the paper fiber is reused as a waste paper pulp resource, the resin film is reused as a fossil resource, and the metal film is reused as a metal resource. The recycling method of the composite paper container as described in (1) or (2).
(4) means for recovering the used composite paper container, means for roughly crushing and cleaning the composite paper container, water having a weight ratio of 50 to less than 80 with respect to the roughly crushed composite paper container and the composite paper container 100 A defibrator that separates the film from the roughly crushed composite paper container, a separating machine that separates the paper fiber obtained from the defibration and the film, and the paper fiber and the film obtained by the separation, respectively. A recycling system for composite paper containers equipped with a means for collecting and managing.
(5) The film includes a resin film and a metal film, the paper fiber is reused as a waste paper pulp resource, the resin film is reused as a fossil resource, and the metal film is reused as a metal resource. The recycling system for composite paper containers described in (4).
(6) Pulp soil mainly composed of paper fibers obtained by the method for recycling a composite paper container according to any one of (1) to (3) above.
(7) A natural turf block including a pulp base obtained by bagging the pulp soil according to (6) into a nonwoven fabric or a net, and natural turf covered thereon.
(8) A heat and cold insulation agent comprising, as a main material, paper fibers obtained by the method for recycling a composite paper container according to any one of (1) to (3) above.

According to the present invention, it is possible to obtain an inexpensive and simple method for recycling a composite paper container and a recycling system thereof that enable resource recovery without incineration of the composite paper container as combustible waste.
Moreover, according to this invention, the pulp soil, the natural turf block, and heat insulation cool agent using the paper fiber obtained by the recycling method of a composite paper container are obtained.

It is the photograph of the cup-shaped composite paper container used for experiment. It is a photograph at the time of throwing 54 cup-shaped composite paper containers into a defibrating machine. It is a photograph inside the defibrator when defibration is completed. It is a photograph which shows a defibrating experiment result about the cup-shaped composite paper container for one taken out from the defibrating machine. A photograph of an example of a natural turf block is shown.

(Recycling method for composite paper containers)
The procedure of the method for recycling the composite paper container according to the present invention will be sequentially described below.
(1) Used composite paper containers that have been emptied after consumption of beverages are collected by, for example, being put into a collection box placed at a storefront after the consumer performs simple cleaning. .
(2) The recovered composite paper container is roughly crushed and washed.

(3) Separating into paper fibers and films by adding water to the coarsely crushed and washed composite paper container for fibrillation.
The amount of water to be added is preferably a weight ratio of 50 or more and less than 80 with respect to the composite paper container 100.
As a defibrating machine that separates paper fiber and film, for example, a used paper defibrating apparatus (see Patent Document 2) proposed by one of the inventors of the present invention can be used.
The rough crushing of the recovered composite paper container in the above (2) is not always necessary as a single procedure. For example, in the case of a cup shape and the inside coated with resin or the like, You can also do this at the same time as defibration in a textile machine.

(4) Paper fibers and films obtained by defibration with a defibrator are each separated and collected by a sorter. When resin and metal foil are used for the composite paper container, the film is separated and collected as a resin film and a metal film.
(5) Paper fibers are reused as waste paper pulp resources. The resin film is reused as a fossil resource, and the metal film is reused as a metal resource.

(Defibration experiment)
When defibrating by adding water to the composite paper container, an experiment was conducted by changing the amount of water to be added.
In the defibration experiment, four sets of 54 cup-shaped composite paper containers (250 g) coated with polyethylene on the inside of the container were prepared, and the amount of water added was changed to 75 g, 125 g, 175 g, and 200 g for each group, and the defibrated state I investigated. The time required for defibration was 180 seconds. The experimental results are shown in Table 1.

  From Table 1, it can be seen that the range of good defibration of the paper cup is that the weight ratio of water to the container 100 is 50 or more and less than 80. It can be seen that it is particularly good when the weight ratio of water to the container 100 is around 70.

FIG. 1 to FIG. 4 show photographs of the defibration experiment and the results.
FIG. 1 is a photograph of a preparation stage of a cup-shaped composite paper container used in a defibration experiment. FIG. 2 is a photograph when 54 cup-shaped composite paper containers are put into a defibrating machine. Rough crushing of the composite paper container is performed simultaneously with defibrating in a defibrating machine. FIG. 3 is a photograph of the inside of the defibrator when the defibrating experiment is completed.
FIG. 4 is a photograph showing the results of the defibration experiment for one cup-shaped composite paper container when the amount of added water is changed to 75 g, 125 g, 175 g, and 200 g, respectively, in order from the right column. In FIG. 4, the upper row of each row shows the state of the film when taken out, and the lower row of each row shows the state at the time of development. The middle row of each row is defibrated paper fiber.

The paper fiber obtained by the recycling method of the composite paper container according to the present invention can be used for various applications. At that time, the paper, the cardboard, the magazine, the confidential document, the paper shredded, etc. You may mix and use a fiber for this.
That is, when the paper fiber obtained by the method for recycling a composite paper container according to the present invention is used for various purposes, at least this may be used as a main material.
In the following, examples of pulp soil, natural turf block and heat insulation are introduced.

(Pulp soil)
The paper fiber obtained by the present invention can be used as pulp soil. By using pulp soil, vegetation can be made on asphalt, concrete, iron plate, etc., and it can contribute to the greening of buildings.
In addition, by using LED lighting, fluorescent lamps, etc., it is possible to realize a turf production plant or vegetable production plant that can efficiently supply good-quality natural turf using pulp soil annually, regardless of the weather and region. .
A water-based adhesive can be included in the paper fiber to make soil for indoor ornamental plants.

(Natural grass block)
The paper base obtained by the present invention is packed in a non-woven fabric or net bag equipped with a detachable connecting tool to form a pulp base, covered with natural turf, or planted with seeds. It can be used as a natural turf block.
In FIG. 5, the photograph of an example of the natural turf block using the pulp soil produced from the paper fiber obtained by this invention is shown.
The paper fiber insertion port on the non-woven fabric or net can be opened and closed with a chuck, so that when the natural turf block paper fiber drops, the insertion port is opened to replenish the paper fiber and give water to cure the grass. You can also.

(Heat insulation cold agent)
Water can be further added to paper fiber and stirred to make a wet pulp material, which is enclosed in a resin bag or the like and cooled or cold-crystallized in a refrigerator or freezer to be used as a cryogen. It can also be used as a warming agent after warming appropriately.

As described above, the technical matters disclosed in the present specification are illustrated for facilitating the understanding of the present invention, and the present invention is not limited thereto.
In other words, it goes without saying that the present invention can be appropriately changed in design in implementing the recycling method of the composite paper container and the recycling system without departing from the scope of the claims.

Claims (8)

  Recovering the used composite paper container; roughly crushing and washing the composite paper container; adding water to the roughly crushed composite paper container to disentangle it into paper fibers and a film; A method for recycling a composite paper container, comprising the step of separating and collecting the paper fiber and the film obtained by fiber separation.   The method for recycling a composite paper container according to claim 1, wherein water is added to the composite paper container 100 at a weight ratio of 50 or more and less than 80 for defibration.   2. The film according to claim 1, wherein the film includes a resin film and a metal film, the paper fiber is reused as a waste paper pulp resource, the resin film is reused as a fossil resource, and the metal film is reused as a metal resource. The recycling method of the composite paper container of 2.   A means for collecting the used composite paper container, a means for roughly crushing and washing the composite paper container, and water having a weight ratio of 50 to less than 80 with respect to the roughly crushed composite paper container and the composite paper container 100 are charged. , A defibrating machine for separating the film from the roughly crushed composite paper container, a separating machine for separating the paper fiber obtained from the defibration and the film, and collecting and managing the paper fiber and the film obtained by the sorting. System for recycling composite paper containers.   5. The film according to claim 4, wherein the film includes a resin film and a metal film, the paper fiber is reused as a waste paper pulp resource, the resin film is reused as a fossil resource, and the metal film is reused as a metal resource. The recycling system for composite paper containers as described.   The pulp soil which used as a main material the paper fiber obtained by the recycling method of the composite paper container of any one of the said Claim 1 thru | or 3.   A natural turf block comprising a pulp base obtained by bagging the pulp soil according to claim 6 into a nonwoven fabric or a net, and a natural turf placed thereon.   A heat and cold insulation agent comprising, as a main material, paper fibers obtained by the method for recycling a composite paper container according to any one of claims 1 to 3.