JPH11165788A - Flexible container and its recycling method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a flexible container of high strength and superior durability which can resolve the environmental destruction problem at the time of being thrown away and also provide an efficient recycling method for the flexible container. SOLUTION: In the flexible container, a laminate sheet with a polyester elastomer coating on at least one face of a fabric is used as raw fabric, which is formed of polyester stretched yarns, and a main body bag 1 is formed of a raw fabric of twisted yarns formed of polyester stretched yarns. In a recycling method for the flexible container, terephthalic acid and/or its ester forming derivative is recovered by the depolymerization process of the flexible container.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a flexible container which has high strength and excellent durability and which solves the problem of environmental destruction at the time of disposal, and a recycling method for efficiently recycling the flexible container into raw materials. It is about the method.

[0002]

2. Description of the Related Art A flexible container is formed from a flexible material into a foldable bag, which is provided with a hanging portion for lifting and an opening for injecting and discharging contents. It has the characteristics that it can be used repeatedly for a long period of time, and when it is not filled with contents, it can be folded and stored small. Due to such convenience, it is widely used mainly for transporting powdery and granular substances.

[0003] Conventionally, a flexible container generally used is manufactured in a structure as shown in a perspective view in FIG. An inlet 2 and an outlet 3 for the contents are provided above and below a bag 1 which is a bag-shaped main body, and a hanging rope 6 is provided on a side surface of the bag 1 via a hanging band 4 and a hanging metal fitting 5. It has a structure. As a material (raw material) constituting the bag body 1, a resin such as a polyvinyl chloride resin or an ethylene-vinyl acetate copolymer is coated on the surface of a woven fabric woven from cotton, polyamide fiber, polyester fiber, or the like. The laminated sheet is mainly used, and the bag 1 is formed by sewing the raw material using a sewing thread or joining the raw material with an adhesive or high-frequency welding.

The sales volume of flexible containers in Japan in 1992 was about 25 million bags × 5 to 7 kg, and when converted to a weight basis, a resin material equivalent to the production volume of automobile bumpers was used. . However, in the field of automobile bumpers, the use of low-grade resins and their recycling have been studied, and practical use has begun. On the other hand, flexible containers made of bags made of, for example, polyamide fiber / polyvinyl chloride or Although it is composed of a combination of different materials, such as polyester fiber / ethylene-vinyl acetate copolymer, the product is cleaned and recycled, but aging waste is still incinerated and landfilled. The fact is that processing is being done.

[0005] In particular, the use of flexible polyvinyl chloride for the laminate sheet occupies the majority of flexible containers, but when this flexible container is landfilled, the plasticizer (DOP), which is a compounding agent, causes the soil to fail. The serious problem of causing pollution has been highlighted. On the other hand, it is desirable that the flexible container can be used repeatedly for as long as possible until it becomes a waste product. Therefore, as a characteristic of the flexible container, higher strength and higher durability are desired.

[0006]

SUMMARY OF THE INVENTION An object of the present invention is to provide a flexible container which is high in strength and excellent in durability and which can solve the problem of environmental destruction at the time of disposal, and which can efficiently recycle the flexible container into raw materials. It is to provide a recycling method.

[0007]

A flexible container according to the present invention which achieves the above-mentioned object is obtained by forming a raw sheet from a laminated sheet in which at least one surface of a woven fabric made of drawn polyester yarn is coated with a polyester elastomer, and using the raw sheet as a polyester. It is characterized in that the bag is constituted by using a twisted yarn made of a drawn yarn as a sewing thread.

[0008] The flexible container of the present invention further comprises a hanging rope made of polyester fiber and / or a bag.
Or a sling can be attached. Further, the sewing thread used when forming the raw fabric in the bag may be joined by high-frequency welding without using part or all of the sewing thread. Further, it is more preferable that the drawn polyester yarn or polyester fiber constituting the sewing thread, the hanging rope and / or the hanging band is made of polyethylene terephthalate.

The method for recycling a flexible container of the present invention is characterized in that terephthalic acid and / or its ester-forming derivative is recovered by subjecting the flexible container to a depolymerization step.

[0010]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The structure of a flexible container according to the present invention may be substantially the same as that of a conventional flexible container as shown in FIG. An inlet 2 and an outlet 3 are provided vertically, and a hanging rope 6 is attached to a side surface of the bag 1 via a hanging band 4 and a hanging metal fitting 5.

[0011] At least the bag 1 of the flexible container is made of a laminated sheet in which a woven cloth made of drawn polyester yarn is coated on at least one side with a polyester elastomer as a raw material, and the raw material is a twisted yarn made of drawn polyester yarn. Is used as a thread to sew the bag 1. More preferably, the hanging rope 6 and / or the hanging band 4 attached to the bag 1 are also preferably made of polyester fiber.

As described above, the flexible container of the present invention is made of a material other than metal, in particular, a woven fabric of a raw fabric and a coating resin,
Since the sewing thread and other components are all made of polyester resin, the bonding strength of the raw material is excellent, and the durability of the product itself is improved. Can be. In addition, when the flexible container is discarded, it can be subjected to depolymerization in the product form, so that raw materials such as terephthalic acid and / or its ester-forming derivative can be recovered in high yield. it can.

In the present invention, the stretched polyester yarn forming the raw fabric and the sewing thread is preferably a polyester having terephthalic acid as a main acid component and ethylene glycol, tetramethylene glycol, propylene glycol or the like as a main diol component. Is obtained by spinning and stretching polyethylene terephthalate by a usual melt spinning method. It is desirable that the polyester fiber constituting the hanging rope and / or the hanging band is also made of the same fiber as the drawn polyester yarn.

In the present invention, the polyester elastomer coated on at least one side of the raw material includes a polyester hard segment and a number average molecular weight of 200 to 200.
A block copolymer consisting of 6000 polyether soft segments and / or polyester soft segments is used. Polybutylene terephthalate is preferably used as the polyester hard segment, poly (tetramethylene oxide) glycol is used as the polyether soft segment, and polycaprolactone is preferably used as the polyester soft segment.

As a method of coating the polyester elastomer on at least one surface of the woven fabric made of the drawn polyester yarn as described above, a generally known method such as a laminate extrusion method can be applied. As a method of forming a bag from the laminate sheet obtained in this manner, a method of sewing a twisted yarn made of a drawn polyester yarn as a sewing thread is used. Also, in addition to such a method by sewing, a method of joining a raw material by high-frequency welding without using part or all of the sewing thread, or using a polyester-based adhesive without using part or all of the sewing thread A method of joining the raw material can also be used.

Further, in the flexible container of the present invention, it is preferable that all parts other than metal, for example, hanging ropes and / or hanging bands are also made of polyester fibers. By using a polyester polymer of the same type as the bag of the main body in this way, it becomes possible to more efficiently perform the work in recycling waste products. In the flexible container of the present invention, since each member is made of the polyester-based polymer as described above, the strength of the joint is increased and the durability is improved, so that the flexible container can be used repeatedly for a long period of time. When discarding after use, without separating each component, in the depolymerization step in the product shape, or with only metal parts removed, preferably in a crushed state Thereby, raw materials such as terephthalic acid and / or its ester-forming derivative can be recovered in high yield.

Specific examples of the depolymerization method include a method utilizing hydrolysis by an acid catalyst or a base catalyst, and a method utilizing a transesterification reaction in an alcohol in the presence or absence of an acid catalyst or a base catalyst. Can be mentioned. As described above, according to the present invention, when disposing of a flexible container as waste, the flexible container can be directly subjected to depolymerization without being separated for each constituent material. Terephthalic acid and / or its ester-forming derivative can be recovered. Therefore, it is economically efficient and can solve environmental problems caused by incineration, landfilling, and the like in disposing of conventional flexible containers.

[0018]

EXAMPLE A woven fabric (A) is woven using a drawn yarn obtained by spin-drawing polyethylene terephthalate by a usual method, and polybutylene terephthalate / poly (tetra (tetra)) is woven on both sides of the woven fabric (A). Methylene oxide) glycol block copolymer (polybutylene terephthalate content: 3
(5% by weight, melting point: 171 ° C.) as a material of the coating (B) and extrusion-laminated to obtain a laminated sheet having a weight ratio of (A) / (B) of 55/45.

Next, using the laminated sheet as a raw material, the joining portion is joined by a high-frequency welding method to form a bag, and a hanging rope and a hanging band made of polyethylene terephthalate fiber are attached to the outer periphery of the bag with polyethylene terephthalate. A flexible container having an internal volume of 1000 L and having the structure of the present invention was manufactured by sewing with a sewing thread composed of a twisted thread.

When the welder strength of this flexible container was measured, the shear strength was 120 kgf / 3c.
m, the peel strength was 39 kgf / 3 cm, which was very high. After the flexible container was repeatedly used 10 times for transporting powder and granules, the flexible container was cut in a bag shape and subjected to a depolymerization step with methanol, and the amount of dimethyl terephthalic acid corresponding to 22% of the charged weight was measured. Was recovered, and the solid residue was 32% of the charged weight.

On the other hand, for comparison, a flexible container was manufactured in the same manner as in the embodiment of the present invention except that an ethylene-vinyl acetate copolymer was used as a coating material for the woven fabric (A). When the welder strength of this flexible container was measured, the shear strength was 80 kgf.
/ 3 cm, the peel strength was 28 kgf / 3 cm, which was lower than that of the flexible container of the present invention.

[0022]

As described above, in the flexible container of the present invention, the material other than metal, in particular, the woven fabric of the raw fabric, the covering resin, the sewing thread, and other components are all unified with the polyester resin. The joining strength of the anti-joining portion is excellent, and the durability of the product itself is improved, so that it can be used repeatedly for a long time. Moreover, when this is disposed of as a waste product, it can be subjected to depolymerization in the product form as it is, and terephthalic acid and / or its ester-forming derivative as a polyester raw material can be recovered in high yield. .

[Brief description of the drawings]

FIG. 1 is a perspective view showing an example of a conventionally used flexible container.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Bag 2 Inlet 3 Discharge port 4 Hanging belt 5 Hanging bracket 6 Hanging rope

 ──────────────────────────────────────────────────続 き Continuing from the front page (72) Kazuo Ozawa, 1150 Sezaki-cho, Soka, Saitama, Japan Katsuta Kako Co., Ltd. (72) Inventor Kazuki Akiba, Nagoya City, Aichi Pref.

Claims (5)

[Claims] The present invention is characterized in that a woven fabric made of a drawn polyester yarn is coated on at least one side with a polyester elastomer as a raw material, and the raw material is formed into a bag body using a twisted yarn made of a drawn polyester yarn as a sewing thread. Flexible container. 2. The flexible container according to claim 1, wherein a hanging rope and / or a hanging band made of polyester fiber is attached to the bag body. 3. The flexible container according to claim 1, wherein the web is joined by high-frequency welding without using part or all of the sewing thread. 4. The flexible container according to claim 1, wherein the drawn polyester yarn and the polyester fiber are made of polyethylene terephthalate. 5. Recycling of a flexible container characterized by recovering terephthalic acid and / or an ester-forming derivative thereof by subjecting the flexible container according to any one of claims 1 to 4 to a depolymerization step. Method.