JP4121788B2 - Biodegradable molded container and manufacturing method thereof - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
TECHNICAL FIELD The present invention relates to a biodegradable molded container having starch as a main raw material and having biodegradability, and a method for producing the same. The present invention relates to a biodegradable molded container that can be suitably used even when used in an environment, and a method for producing the same.
[0002]
[Prior art]
Generally, as disposable containers discarded after use, plastic containers such as polystyrene containers and paper / pulp moldings are mainly used. This is because, depending on the use of the container, the material of the disposable container generally requires a certain degree of durability and strength, and also requires ease of molding.
[0003]
The polystyrene container, which is the plastic container, can be manufactured by forming a sheet made of polystyrene into a container shape and then cutting the lip part. And since the raw material itself has water resistance, the said polystyrene container does not need to perform a special process. However, since the lip portion has only been cut, for example, when used as a container for food use, the mouthfeel is poor.
[0004]
Further, a paper / pulp container has a water-resistant film or the like laminated or coated on the container surface. However, since the inside (contents) of the paper / pulp container is paper that is weak against water, it is necessary to perform a process in which the cut surface does not come into contact with water. Therefore, in general, a paper / pulp container is subjected to a process of curling the lip portion outward when the container is formed by utilizing the thinness and flexibility of the container. This minimizes the contact of the internal paper with water or water vapor. Further, since the lip portion is curled, the mouth feel is good. However, in order to curl the lip portion, for example, when sealing with a lid material, the seal width becomes narrow, and therefore, the sealing failure of the lid material tends to occur.
[0005]
However, both the plastic container and the paper / pulp container have various problems as described below for use as a disposable container.
[0006]
First, plastic containers such as polystyrene containers cause problems that an extremely high temperature is generated during the incineration process and damages the incinerator, and environmental pollutants such as dioxins are by-produced. Moreover, even if the plastic molding is disposed of in landfill, the plastic is hardly decomposed in the natural environment, so that it is impossible to refill the plastic in the place where it has been landfilled once. Moreover, since the amount of waste has increased in recent years, it has become difficult to secure landfill sites year after year. In addition, since the plastic molding is not easily decomposed, the natural environment can be continuously contaminated over a long period of time.
[0007]
On the other hand, paper / pulp molded products are easier to incinerate and decompose in the natural environment, which is superior to plastic molded products in this respect. However, trees that are used as raw materials for paper and pulp have a long growth cycle, and the consumption of a large amount of paper and pulp significantly reduces forest resources. Decreasing forest resources not only greatly destroys the local environment, but also, on a large scale, the effects of carbon dioxide absorption by forests are greatly impaired, and global warming due to increased carbon dioxide in the atmosphere. It will also spur the transformation.
[0008]
Therefore, in recent years, containers that can be biodegraded using microorganisms have been developed and are in the spotlight. In this biodegradable container, the molded product is molded from various biodegradable plastics and natural polymers such as starch as the main raw material, so it is easy to dispose of and avoid the various problems mentioned above. Is possible.
[0009]
As the biodegradable molded container, for example, the present inventors have proposed a biodegradable molded product described in International Publication No. WO 02/22353 A1.
[0010]
In the above WO 02/22353 A1, a biodegradable foam molded product molded into a predetermined shape mainly composed of starch and its derivatives and a biodegradable plastic adhered to the surface thereof as a main component, at least hydrophobic There has been proposed a biodegradable molded article comprising a coated film having
[0011]
[Problems to be solved by the invention]
However, as a result of further investigation to put the biodegradable molded product disclosed in the above-mentioned WO 02/22353 A1 proposed by the present inventors into practical use, depending on the use, water resistance and moisture resistance may be inferior. I found out. For example, the biodegradable foamed molded product may be partially exposed depending on the method for producing the biodegradable molded product. For example, in order to form a biodegradable foam molded article covered with a coating film, when the lip portion is cut, the biodegradable foam molded product is exposed in the lip section. In such a case, when the biodegradable molded product is used as, for example, a container for foods that often comes in contact with water or water vapor, the biodegradable foam molded product is exposed at the lip portion of the container surface. The part may come into contact with water or water vapor, and the container may be softened or deformed. Therefore, when the biodegradable molded container is used as, for example, a food container, it is preferable to further improve water resistance. However, since this biodegradable molded container is not as thin and flexible as paper and pulp, it is difficult to curl the lip and improve water resistance and moisture resistance.
[0012]
Accordingly, there is a need for a biodegradable molded container that can prevent the exposure of the biodegradable foam material more reliably and can be suitably used even in the presence of water, and a method for manufacturing the same.
[0013]
[Means for Solving the Problems]
As a result of intensive studies to solve the above problems, the present inventors have found a method for treating the exposed lip portion of the biodegradable molded container, and have completed the present invention.
[0014]
That is, the method for producing a biodegradable molded container according to the present invention provides a biodegradable foam molded product formed into a predetermined shape mainly composed of starch or a derivative thereof, in order to solve the above-described problems. A method for producing a biodegradable molded container comprising a plastic as a main component and a coated film having at least hydrophobicity, and a biodegradable foam molded product in a lip portion of the biodegradable molded container And an adhesive step of adhering a lip covering film having at least a hydrophobic property, the main component being a biodegradable plastic so as to cover the exposed portion.
[0015]
The lip portion refers to, for example, a biodegradable plastic molded product (hereinafter referred to as a foamed molded product) at the same time as molding or after molding the foamed molded product, In the molded container covered with a coating film having at least hydrophobic as a main component, a portion where the foamed molded product is exposed and its vicinity, which corresponds to an end of the coating film, is shown.
[0016]
Moreover, the said lip | rip part coating | coated film is a film for covering the lip | rip part of a shaping | molding container. The lip portion coating film may be any material as long as it has a biodegradable plastic as a main component and has at least hydrophobicity, and may be the same as or different from the above coating film.
[0017]
Specifically, for example, the lip portion coating film is adhered by applying heat so as to cover the foamed molded product of the lip portion, or by using a biodegradable adhesive. It is. That is, the adhesion according to the present invention refers to welding, fusion, adhesion with an adhesive, and the like. In addition, as a specific method of the above-mentioned welding and fusion, heat sealing, impulse sealing, high frequency sealing, and the like can be given.
[0018]
The foamed molded product contains starch or a derivative thereof as a main component. Therefore, when water or water vapor comes into contact with the foamed molded product, starch or a derivative thereof contained in the foamed molded product may be eluted, or the molded container may absorb water or absorb moisture and may be softened or deformed. .
[0019]
According to said structure, since the foaming molding exposed to the lip | rip part of a shaping | molding container, ie, a lip | rip part, is covered with the lip | rip part coating | coated film, this foaming molding thing contacts with water or water vapor | steam. Can be prevented. Thereby, it is possible to prevent softening and deformation of the molded container due to the foamed molded product coming into contact with water or water vapor, and to prevent starch elution. Therefore, for example, a molded container that can be suitably used can be manufactured even in an environment with a lot of water and water vapor, such as an application for putting food.
[0020]
Moreover, since the lip portion covering film is adhered to the lip portion, the lip portion can be rounded. Therefore, for example, when using the molded container manufactured by the said manufacturing method as a food use, the molded container with a better mouthfeel compared with the former can be provided.
[0021]
Further, by covering the lip portion with the above lip portion covering film, the lip portion covering film is placed on both surfaces of the lip portion (inner and outer surfaces), that is, in the vicinity of the exposed biodegradable foamed molded product. Since it overlaps and adhere | attaches the coating film currently stuck, a film becomes double on both surfaces of a lip | rip part, respectively. Thereby, the intensity | strength of a lip | rip part can be improved.
[0022]
Moreover, the edge of the coating film which has coat | covered the foaming molding can be covered. Therefore, it can prevent that a coating film and a foaming molding peel (delami).
[0023]
The lip portion covering film may be a film different from the covering film covering the foamed molded product. In this case, for example, the characteristics of the molded container can be further improved by using a lip portion covering film having properties such as easy peel properties and strong adhesiveness.
[0024]
The method for producing a biodegradable molded container of the present invention further includes a coating step of covering a cylindrical lip portion coating film on at least the lip portion of the biodegradable molded container before the bonding step, and the lip portion coating. The structure which performs the heating process which heat-shrinks a film is more preferable.
[0025]
Here, the lip portion covering film is a film that shrinks when heated. According to said structure, since a lip part can be easily covered by using a cylindrical lip part coating film, the process of a lip part can be performed in a short time.
[0026]
Further, the method for producing a biodegradable molded container of the present invention further includes a covering step of covering a cylindrical lip portion covering film on at least the lip portion of a plurality of biodegradable molded containers before the bonding step, It is more preferable to perform a heating step for heat shrinking the lip portion covering film and a separation step for separating the lip covering films covering the lip portions of the plurality of biodegradable molded containers from each other.
[0027]
The above-mentioned separation includes separation and cutting.
[0028]
According to said structure, after covering a lip | rip part coating film on the lip | rip part of a some shaping | molding container, it can fix a lip | rip part coating film to the lip | rip part of the said several container at once by carrying out heat contraction. . Thereby, the lip | rip part of a shaping | molding container can be processed efficiently.
[0029]
The method for producing a biodegradable molded container according to the present invention further comprises a winding process in which a tape-like lip coating film is wound around the lip of the biodegradable molded container before the bonding process. Is more preferable.
[0030]
According to said structure, the biodegradable foaming molding exposed more reliably can be covered by winding the said tape-shaped lip part coating film along a lip part.
[0031]
Furthermore, since a tape-like lip portion coating film may be wound along the lip portion, it can be applied to various lip-shaped containers.
[0032]
In addition, when a surplus coating film that is generated when a coating film is applied to a foam molded product is processed into a tape-shaped lip coating film, the surplus coating film can be used. The cost of the molded container can be reduced.
[0033]
Further, for example, when a lip portion covering film having a thicker thickness is used as compared with the above covering film, the strength of the lip portion can be further improved.
[0034]
Moreover, the lip | rip part coating | coated film of various width | variety can be used. Therefore, it is easy to adjust the width that covers the lip portion depending on the application.
[0035]
The winding process may be performed before the bonding process, or the winding process may be performed simultaneously with the bonding process. When performing the winding step and the bonding step at the same time, the working time can be shortened, so that the production efficiency can be increased.
[0036]
The method for producing a biodegradable molded container according to the present invention further comprises: coating the lip portion on the inner surface of the lip portion with a shape substantially the same as the shape of the inner surface and larger than the width of the inner surface. More preferably, after the film is adhered, the lip portion covering film is adhered to the outer surface of the lip portion.
[0037]
The inner surface of the lip portion is the surface of the lip portion on the inner side (the side into which the contents are placed) of the molded container. According to said structure, since it adhere | attached without heat-shrinking a lip | rip part coating film to an inner surface, a flat (flat) inner surface can be formed. Further, the entire inner surface of the lip portion can be easily covered. Accordingly, there is no joint between the lip portion covering film and the covering film on the inner surface of the lip portion. For this reason, a molded container with better mouthfeel can be obtained by manufacturing a molded container by the said method.
[0038]
In order to solve the above-described problems, the method for producing a biodegradable molded container of the present invention applies a biodegradable plastic to a biodegradable foam molded product molded into a predetermined shape mainly composed of starch or a derivative thereof. A method for producing a biodegradable molded container having a coating film having at least hydrophobicity as a main component, wherein the lip portion of the produced biodegradable molded container is finally obtained. A removing step for removing the biodegradable foam molded product of the lip portion larger than the final required size, and an exposed portion of the biodegradable foam molded product in the lip portion. It is characterized by including the coating process covered with a coating film, and the film adhesion process which adhere | attaches the said covered coating film.
[0039]
The final required size of the lip portion indicates the size of the lip portion of the biodegradable molded container that is finally produced.
[0040]
In said structure, when manufacturing the said shaping | molding container, a lip | rip part is shape | molded larger than the magnitude | size finally calculated | required. And the coating part of the lip | rip part larger than the magnitude | size calculated | required finally is used, and the part which the foaming molding in the lip | rip part has exposed is covered. Thereby, since the part which the foaming molding has exposed with the said coating film can be covered completely, it does not contact with water or water vapor | steam. Accordingly, it is possible to provide a molded container having further improved water resistance and moisture resistance. In addition, since the lip portion is covered with a coating film, for example, even when the molded container is used as a food container in which the mouth is in direct contact, the mouth feel is better than in the past.
[0041]
Moreover, in said structure, since the edge part of the coating film which covers the foaming molding can be utilized as it is, extra cost does not start. In addition, when covering the foamed molded product by directly adhering the end of the covering film covering the inner surface of the lip portion to the outer covering film of the lip portion, on the front side of the container (inside the lip portion) There is no step. Thereby, for example, even when the container is sealed using a lid material, the container can be easily sealed. Moreover, when peeling a cover material, the film of the processed lip part is hard to peel off.
[0042]
In order to solve the above-mentioned problems, the biodegradable molded container of the present invention has a biodegradable plastic as a main component in a biodegradable foam molded product molded into a predetermined shape mainly composed of starch or a derivative thereof. A biodegradable molded container to which a coated film having at least hydrophobic property is adhered, wherein the lip portion of the biodegradable molded container has at least hydrophobic property mainly composed of biodegradable plastic. It is covered with the lip | rip part coating film which has.
[0043]
According to said structure, since the lip | rip part of the said shaping | molding container is adhere | attached with the lip | rip part coating film, it prevents that the foaming molding which has starch or its derivative as a main component contacts with water or water vapor | steam. Can do. Therefore, it is possible to prevent the foamed molded product from being softened and deformed when starch is eluted from the molded container or when water or water vapor enters the molded container from the lip portion.
[0044]
Further, when the lip portion is adhered with a lip portion covering film, for example, when used as a container in which the mouth directly touches the molded container, the mouth feel is better than that of a conventional molded container.
[0045]
In order to solve the above-described problems, the biodegradable molded container of the present invention includes a biodegradable foam molded product formed into a predetermined shape mainly composed of starch or a derivative thereof, and the biodegradable foam molded product. A biodegradable molded container having a biodegradable plastic as a main component and at least a hydrophobic coating film adhered thereto, wherein the lip portion of the biodegradable molded container has the coating film It is characterized by being covered with.
[0046]
According to said structure, since the lip | rip part of the said shaping | molding container is covered with the coating film, it can prevent that the foaming molding which has starch or its derivative as a main component contacts water or water vapor | steam. Therefore, it is possible to prevent the foamed molded product from being softened and deformed when starch is eluted from the molded container or when water or water vapor enters the molded container from the lip portion.
[0047]
Further, by covering the lip portion with a coating film, for example, when used as a food container, the mouth feel is better than a conventional molded container.
[0048]
DETAILED DESCRIPTION OF THE INVENTION
[Embodiment 1]
An embodiment of the present invention will be described with reference to FIGS. 1 to 6 as follows.
[0049]
(Biodegradable molded container)
The biodegradable molded container according to the present embodiment has a biodegradable plastic as a main component on the surface of a biodegradable foam molded product formed into a predetermined shape mainly composed of starch or a derivative thereof, and is at least hydrophobic. A biodegradable molded container to which a coating film having an adhesive is attached, wherein the lip portion of the biodegradable molded container has at least hydrophobicity mainly composed of a biodegradable plastic. It is the structure covered with the lip | rip part coating | coated film.
[0050]
The lip portion refers to, for example, a biodegradable plastic molded product (hereinafter referred to as a foamed molded product) at the same time as molding or after molding the foamed molded product, In the molded container covered with a coating film having at least hydrophobic as a main component, a portion where the foamed molded product is exposed and its vicinity, which corresponds to an end of the coating film, is shown.
[0051]
Specifically, as an example of the molded container, a bowl-shaped container (referred to as a bowl-shaped container) is used. The bowl-shaped container covers the surface of the container body that is the foamed molded product and the surface thereof. And a coating film that is directly adhered in close contact. Alternatively, the bowl-shaped container may have an adhesive layer that is interposed between the container main body and the coating film and is used to attach the coating film to the surface of the container main body.
[0052]
(Biodegradable foam molding)
The foamed molded product that is the main body of the molded container according to the present embodiment contains starch or a derivative thereof as a main component, and is formed by foaming these molding raw materials. The method of foaming is not particularly limited, but specifically, it is more preferably molded by steam foaming.
[0053]
The starch used as the main raw material of the molding raw material is not particularly limited. For example, starch that can be easily obtained from agricultural products that are produced worldwide as main grains, such as potato, corn (corn), tapioca, rice, wheat, and sweet potato, can be preferably used. The starch may be produced from a specific agricultural product, or may be a mixture of those produced from a plurality of agricultural products.
[0054]
Moreover, the said starch derivative refers to what modified | denatured starch in the range which does not inhibit biodegradability, Specifically, pregelatinized starch, crosslinked starch, modified starch etc. are mentioned, for example. Furthermore, a mixture obtained by mixing the unmodified starch and the starch derivative may be used. Therefore, in a broad sense, the starch in the present invention includes starch that has not been modified at all (narrowly defined starch), derivatives of the above starch, and mixtures thereof. In the following description, unless otherwise specified, “starch” refers to starch in a broad sense.
[0055]
In addition to the starch, the additive for molding may contain various additives. Specific examples of the additive include an extender, a strength adjuster, a plasticizer, an emulsifier, a stabilizer, a release agent, a homogeneity adjuster, a moisturizer, a handling adjuster, a conductivity adjuster, and a dielectric loss adjuster. Agents, swelling agents, colorants and the like.
[0056]
These additives have advantages in the manufacturing process, such as improving the manufacturing efficiency of the molded container and avoiding problems in the manufacturing process, improving the quality of the resulting molded container, Examples of the molded container which is a finished product, such as reducing the cost of the container, are advantageous. These additives are not particularly limited as long as they do not significantly reduce the quality of the foamed molded product and the molded container.
[0057]
(Coating film)
In the molded container according to the present invention, a coating film made of a biodegradable plastic is attached to the surface of the foamed molded product. Since this covering film has at least hydrophobicity, at least water resistance and moisture resistance can be imparted to the foamed molded product by being attached to the foamed molded product. Moreover, it is more preferable that the coating film further provides gas barrier properties, heat insulation properties, abrasion resistance, strength improvement, flexibility, and the like.
[0058]
In particular, when the molded container according to the present invention is used for a highly airtight storage container or the like, it is necessary to avoid oxidation and moisture absorption of the contents accommodated therein, so that the coating film can impart gas barrier properties. It is very preferable that it has a gas barrier property.
[0059]
In particular, when the molded container according to the present invention is used for a cup noodle container or the like, it is necessary to avoid deformation and melting of the molded container due to the heat of the contents accommodated therein, so that the coating film has high heat resistance. It is preferable that it has nature. Specifically, the covering film preferably has a softening start temperature of 130 ° C. or higher, and more preferably has a softening start temperature of 150 ° C. or higher. Moreover, it is preferable that melting | fusing point is 170 degreeC or more, and, as for a covering film, it is more preferable that melting | fusing point is 200 degreeC or more. Furthermore, it is particularly preferable that the coating film has a softening start temperature of 130 ° C. or higher and a melting point of 170 ° C. or higher, a softening start temperature of 150 ° C. or higher, and a melting point of 200 ° C. or higher. Is most preferred. Accordingly, it is possible to avoid deformation and melting of the molded container due to heat such as the heat of the contents accommodated therein.
[0060]
The raw material for the coating film is not particularly limited as long as it can exhibit biodegradability and at least water resistance and moisture resistance after being attached to the surface of the foamed molded product, preferably gas barrier properties. It is not a thing.
[0061]
Specifically, for example, 3-hydroxybutyric acid-3-hydroxyvaleric acid copolymer, poly-p-hydroxybenzaldehyde (PHB), polybutylene succinate (PBS), polycaprolactone (PLC), cellulose acetate (PH ) Polymer, polyethylene succinate (PESu), polyester amide, modified polyester, polylactic acid (PLA), Matterby (registered trademark, Novamont, Italy): polyvinyl alcohol resin and fat with starch as the main component and biodegradability And various materials known as so-called “biodegradable plastics” such as cellulose / chitosan composites. Only one kind of these raw materials may be used, or two or more kinds of composites may be used. In addition, these biodegradable plastics may contain auxiliary raw materials such as biodegradable plasticizers and fillers.
[0062]
Furthermore, you may create a coating film by mixing starch with said each raw material (biodegradable plastic). In this case, the mixing ratio of the biodegradable plastic to starch is not particularly limited as long as various functions such as hydrophobicity of the coating film are not lowered. For example, the mixing ratio of about 1: 1 by weight ratio Can be preferably used.
[0063]
In addition, various additives may be added to the coating film. Specific additives include, for example, colorants, additives that can improve water resistance and moisture resistance, gas barrier properties, and the like, additives that improve various properties in softening at the time of pasting, and the like. Is not to be done.
[0064]
Although the thickness (film thickness) of the coating film is not particularly limited, it may be a film or sheet within a range of 0.01 mm or more and several mm or less before being attached to the foamed molded product. Good.
[0065]
(Method for producing biodegradable molded container)
The manufacturing method of the molded container concerning this Embodiment is demonstrated. The method for producing a molded container according to the present embodiment includes a biodegradable foam molded product formed into a predetermined shape mainly composed of starch or a derivative thereof, and biodegradable on the surface of the biodegradable foam molded product. A method for producing a biodegradable molded container comprising a plastic as a main component and at least a hydrophobic coating film attached thereto, wherein the biodegradable foamed molded article is formed at the lip portion of the biodegradable molded container. The method includes an adhesion step of adhering a lip coating film having a biodegradable plastic as a main component and having at least hydrophobicity so as to cover the exposed portion.
[0066]
In this molded container, a plurality of the above coated films are attached to the surface of a foamed molded product mainly composed of biodegradable starch and derivatives thereof simultaneously with or after firing.
[0067]
Specifically, as the molding method according to the present embodiment, for example, (1) after the coating film and the molding raw material are simultaneously put into the molding die, and the coating film is attached to the surface of the foam molding simultaneously with the firing, (2) A method of cutting a surplus film after (2) cutting a surplus film after putting a forming raw material in a mold and baking a foamed molded product and attaching a coating film on the surface. And by these manufacturing methods, the foam molded product which is easy to melt | dissolve in water is partially exposed in the lip | rip part of the molded container in the middle stage manufactured.
[0068]
Therefore, the molding container according to the present embodiment in which the water resistance and the moisture resistance are further improved by the treatment described below for the lip portion of the molding container in the middle stage obtained by these manufacturing methods. Can be manufactured.
[0069]
(Lip processing method)
In the molded container according to the present embodiment, the exposed portion of the foam molded product in the lip portion is covered with the lip portion covering film. The lip portion covering film is not particularly limited as long as it is a film having a biodegradable plastic as a main component and at least a hydrophobic property. However, a property required for the lip portion (for example, a seal) It is more preferable to select a film suitable for strength and the like. Specific examples of the lip portion covering film include the same ones as the covering film. Further, the lip portion covering film is more preferably a film that shrinks when heated, and specifically, for example, an inflation film, an unstretched film, a shrink film, and the like are preferably used.
[0070]
Below, an example of the method of covering a lip part with a lip part coating film is demonstrated. The method of covering the lip portion with the lip portion covering film is not limited to the method described below.
[0071]
(First method)
In the first method, the lip portion covering film to be used (hereinafter referred to as a film) is processed into a cylindrical shape, and this cylindrical film is placed on a molding container in which a plurality of lip portions are untreated, In this method, the film is separated from each other after being fixed by heating, and then the film is adhered to a molding container. Specifically, before the bonding step, the covering step of covering the cylindrical lip portion covering film on the lip portions of a plurality of stacked biodegradable molded containers, the heating step of thermally shrinking the film, and the above And a separation step of separating the lip coating films covering the lip portions of the plurality of biodegradable molded containers from each other.
[0072]
In addition, it is more preferable to use a film adhered in a cylindrical shape, or a film formed into a cylindrical shape, for example, a seamless inflation film injected from a ring-shaped die.
[0073]
Specifically, it demonstrates with reference to Fig.1 (a)-FIG.1 (g). First, a plurality of molded containers whose lip portions are untreated (hereinafter referred to as lip portion untreated containers) are stacked. At this time, as the overlapping direction, for example, the overlapping may be performed in the same direction. Next, as shown in FIG. 1 (a), a cylindrical film 20 larger than the maximum diameter of the lip portion untreated container 10 is placed on the plurality of lip portion untreated containers 10 stacked (covering step). At this time, the cylindrical film 20 only needs to cover all the lip portions 11 of the lip portion untreated containers 10 that are stacked.
[0074]
And as shown in FIG.1 (b), by letting the some lip | rip part untreated container 10 covered with the cylindrical film 20 pass through a shrink tunnel (heating furnace), around each lip | rip part untreated container 10 The cylindrical film 20 is heat-shrinked and fixed (heating process). In addition, as a method of heat-shrinking and fixing the cylindrical film 20 around each said lip | rip part unprocessed container 10, it is not limited to the method of passing through the said shrink tunnel, For example, blowing hot air Thus, the cylindrical film 20 may be fixed.
[0075]
Next, as shown in FIG.1 (c), the film 20 between each lip | rip part unprocessed container 10 is cut (separation process). Thereby, as shown in FIG.1 (d), the lip | rip part 11 of each lip | rip part unprocessed container 10 is covered with the film 20. As shown in FIG. At this time, as for the cross section of the lip | rip part 11, the film 20 has covered the periphery of the lip | rip part 11 as shown in FIG.1 (e). At this time, the film 20 is not bonded to the lip portion 11.
[0076]
And as shown in FIG.1 (f), after passing each lip | rip part untreated container 10 through a shrink tunnel again, the film 20 is adhere | attached on the lip | rip part 11 by heat sealing (adhesion process). Specific examples of the heat seal include an impulse seal and a high frequency seal. Thereby, as shown in FIG.1 (g), the shaping | molding container with which the lip | rip part 11 was adhere | attached with the film 20 can be manufactured.
[0077]
By using the first method, the lip portions 11 of the plurality of untreated lip portion containers 10 can be processed at a time.
[0078]
Moreover, in said description, the process of a lip | rip part is performed by overlapping a some shaping | molding container. However, the above-described lip processing may be performed using only one molded container. In this case, it is only necessary to cover the cylindrical film 20 only on the lip portion 11 of the lip portion untreated container 10, so that it is not necessary to perform a separation step. In addition, when processing a lip | rip part in the state which accumulated the some shaping | molding container, production efficiency can be improved.
[0079]
In the above covering step, all of the plurality of containers may be covered with the film 20, or only the lip portion may be covered with the film 20.
[0080]
Moreover, in the said adhesion process, although it adhere | attaches by welding a film to a coating film, it is not specifically limited, You may adhere | attach using a biodegradable adhesive agent etc. The adhesive will be described later.
[0081]
Moreover, about separation | separation of several shaping | molding containers, you may carry out after the said isolation | separation process, and may be performed after the said adhesion | attachment process is complete | finished.
[0082]
(Second method)
The second method is a method of bonding the film 20 after the film 20 processed into a tape shape (ribbon shape) is wound around the lip portion untreated container 10. Specifically, it is a method of performing a winding step of winding a tape-shaped lip portion covering film around the lip portion of the biodegradable molded container before the bonding step.
[0083]
The method for processing the film 20 into a tape shape is not particularly limited. Further, the thickness of the film 20 is not particularly limited as long as it is a thickness capable of covering the foamed molded product exposed at the lip portion 11. Thus, it may be set as appropriate.
[0084]
Specifically, it demonstrates with reference to Fig.2 (a)-FIG.2 (e). First, as shown in FIG. 2A, the film 20 processed into a tape shape is fixed to a part of the lip portion 11, and the lip portion untreated container 10 is rotated to wind the film 20 around the lip portion 11. Apply (wrapping process). The cross section of the lip part 11 at this time is only partly in contact with the film 20 as shown in FIG.
[0085]
A method for fixing the film 20 to a part of the lip portion 11 may be specifically fixed by, for example, heat sealing or a biodegradable adhesive, and is not particularly limited.
[0086]
The film 20 is shrunk by passing the lip portion untreated container 10 covered with the film 20 through a shrink tunnel, and the film 20 is fixed to the lip portion 11 of the lip portion untreated container 10 (heating). Process). In addition, in the said heating process, as a method of fixing the film 20 to the lip | rip part 11 of the said lip | rip part unprocessed container 10, it is not limited to the method of passing through the said shrink tunnel, For example, by blowing a hot air The film 20 may be fixed. At this time, as shown in FIG. 2C, the cross section of the lip portion 11 covers the lip portion 11, but the film 20 is not bonded to the lip portion 11.
[0087]
And as shown in FIG.2 (d), the film 20 which has covered the lip | rip part 11 is adhere | attached on the lip | rip part 11 with a heat seal (adhesion process). Specific examples of the heat seal include an impulse seal and a high frequency seal. Thereby, as shown in FIG.2 (e), the shaping | molding container by which the lip | rip part 11 was adhere | attached with the film 20 can be manufactured.
[0088]
The adhesive is not particularly limited as long as it has biodegradability and can adhere the film 20 to the lip portion 11. Specifically, for example, Water-based adhesives such as natural pastes and binders mainly composed of starch and protein, and those mixed with PVA (polyvinyl alcohol); poorly soluble or insoluble in water and hardened by heat denaturation Low melting point biodegradable plastics (generally synthetic products) that can be melted below the melting point of the film 20, and mixtures thereof; thermosetting adhesives that have fluidity at room temperature; etc. Is mentioned.
[0089]
In the winding step, the lip portion untreated container 10 is rotated to wind the ribbon-shaped film 20. For example, the lip portion untreated container 10 is fixed and the film 20 is ripened. The film 20 may be wound by rotating around the part untreated container 10.
[0090]
In the winding step, the film 20 may be wound around the lip portion 11 using a biodegradable adhesive. Specifically, for example, the adhesive may be applied to one surface (the surface to be wound) of the film 20, and the film 20 may be wound around the lip portion 11. Alternatively, the adhesive may be applied to the lip portion 11 in advance, and the film 20 may be wound.
[0091]
In the bonding step in the second method, the film is bonded by heat sealing. For example, the film may be bonded together with the adhesive, or the film is bonded only with the adhesive. May be.
[0092]
Further, in the second method, as shown in FIGS. 3A to 3D, when performing the winding step, the film 20 is bent and fixed along the lip portion 11, and the remaining portions are left. By winding the part, the heating step can be omitted. Specifically, as shown in FIG. 3A, in the winding step, the film 20 is fixed so as to cover a portion of the lip portion 11 where the biodegradable foamed product is exposed. Then, the lip portion untreated container 10 is rotated to wind the ribbon-shaped film 20. Thereby, as shown in FIG.3 (b), the film 20 will wind so that the part which the biodegradable foaming molding of the lip | rip part 11 has exposed may be covered. And as shown in FIG.3 (c), the film 20 which has covered the lip | rip part 11 is adhere | attached on the lip | rip part 11 by heat sealing (adhesion process). Thereby, as shown in FIG.3 (d), the shaping | molding container with which the lip | rip part 11 was adhere | attached with the film 20 can be manufactured.
[0093]
Thus, in the winding step, the heating step can be omitted by fixing the film 20 along the lip portion 11, so that the processing of the lip portion 11 can be accelerated. Therefore, the production efficiency of the molded container can be increased.
[0094]
(Third method)
The third method is a method of bonding the film 20 while winding the film 20 processed into a tape shape (ribbon shape) around the lip portion untreated container 10. The tape-like film 20 may be the same as the film 20 used in the second method.
[0095]
Specifically, it demonstrates with reference to Fig.4 (a)-FIG.4 (c). First, as shown in FIG. 4A, the film 20 is fixed to a part of the lip portion 11. A method for fixing the film 20 to a part of the lip portion 11 may be specifically fixed by, for example, heat sealing or a biodegradable adhesive, and is not particularly limited. Note that the adhesive described in the second method may be used as the adhesive.
[0096]
And as shown in FIG.4 (b), while rotating the said lip | rip part unprocessed container 10, while winding the film 20 to the lip | rip part 11, and sandwiching the wound said film | membrane 20 with a heat roller, Adhere (bonding process). Thereby, as shown in FIG.4 (c), the shaping | molding container with which the lip | rip part 11 was adhere | attached with the film 20 can be manufactured.
[0097]
In the bonding process of the third method, the example in which the film 20 is bonded using a heat roller has been described. Further, as described in the winding process of the second method, for example, A biodegradable adhesive may be applied to one surface (the surface to be wound) of the film 20. Further, the adhesive may be applied in advance to the lip portion 11 around which the film 20 is wound. Moreover, you may adhere | attach a film only with the said adhesive agent.
[0098]
(Fourth method)
In the fourth method, after the film 20 having substantially the same shape and size as the lip portion 11 is bonded to the inner surface of the lip portion 11, the film 20 is bonded to the outer surface of the lip portion 11. It is. Here, the film having substantially the same shape and size as the shape of the lip portion 11 is a film having substantially the same shape as the lip portion 11 of the molding container, and the width of one surface of the lip portion 11. It is a film that is larger than the lip portion 11 and covers the exposed portion of the foamed molded product.
[0099]
The lip portion 11 has an inner surface and an outer surface. Specifically, the inner surface (sometimes referred to as the top surface of the molded container) is the surface of the lip portion 11 on the inner side (the side into which the contents are placed) of the molded container. On the other hand, the outer surface is the surface of the lip portion 11 on the outer side (container surface) of the molded container.
[0100]
In the following description, a bowl-shaped container having a ring-shaped surface of the lip portion 11 of the molded container will be described, but the shape of the molded container is not particularly limited. Further, an example in which the lip portion 11 has a shape protruding to the outside of the container will be described.
[0101]
Specifically, it demonstrates with reference to Fig.5 (a)-FIG.5 (f). First, as shown to Fig.5 (a), the film 20 processed into the ring shape is mounted in the inner surface of the lip | rip part 11 of the lip | rip part unprocessed container 10. FIG. At this time, as shown in FIG. 5B, the film 20 is placed on the lip portion 11, and a part of the film 20 protrudes from the lip portion 11 to the outside of the container. Moreover, what is necessary is just to use a well-known method as a method of processing the said film into a ring shape, and it does not specifically limit.
[0102]
And as shown in FIG.5 (c), the film 20 mounted in the said lip | rip part 11 is adhere | attached (1st adhesion process). Specific examples of the method for adhering the film 20 in the first adhering step include an impulse seal, a high frequency seal, and an adhering method using a biodegradable adhesive. Note that the adhesive described in the second method may be used as the adhesive.
[0103]
Next, the lip portion untreated container 10 in which the film 20 is bonded to the inner surface of the lip portion 11 is passed through a shrink tunnel, thereby covering the portion where the foamed molded product is exposed with the film 20. Note that the method of covering the exposed portion of the foamed molded product is not limited to the method of passing through the shrink tunnel. For example, the film 20 is exposed to the foamed molded product by blowing hot air. The covered part may be covered.
[0104]
And as shown in FIG.5 (e), the outer surface (it may be called the back side of a lip | rip part) of the lip | rip part 11 is adhere | attached using the said film 20 (2nd adhesion process). Thereby, as shown in FIG.5 (f), the shaping | molding container with which the lip | rip part 11 was adhere | attached with the film 20 can be manufactured.
[0105]
In the above description, first, the film 20 is bonded to the outer surface of the lip portion after the inner surface of the lip portion is bonded. However, as an order of bonding, whichever may be performed first, for example, after the outer surface of the lip portion 11 is first bonded, the inner surface of the lip portion 11 may be bonded. By adhering the film 20 to the inner surface of the lip portion 11 first, a flat top surface free from wrinkles and steps can be formed. For example, when sealing with a lid or the like, a good sealing property is obtained. It is possible to grant. For this reason, it is more preferable to adhere | attach the film 20 on an inner surface first.
[0106]
Moreover, what is necessary is just to change suitably the shape of the film 20 with the shape of the shaping | molding container to manufacture. For example, when the lip portion 11 of the molded container to be manufactured is square, the film 20 may be processed into a square shape similarly to the lip portion 11.
[0107]
Thus, the shaping | molding container concerning this invention can be manufactured by processing the lip | rip part 11 by the said 1st-4th method. In this molded container, since the lip portion 11 is covered with the film 20, the foamed molded product is not exposed. Accordingly, since the foamed molded product can be prevented from coming into contact with water or water vapor, the water resistance and moisture resistance can be further improved. For example, the foamed molded product comes into contact with water or water vapor. Therefore, the molded container is not softened or deformed.
[0108]
Moreover, the manufacturing method of the molded container of the present embodiment is particularly suitable when the lip portion is formed to be inclined so as to spread outward from the opening of the molded container, as shown in FIGS. Is preferred. When the lip is formed so as to spread outward from the opening of the molded container, (1) it is easy to seal the lid material, (2) the strength of the molded container can be increased, (3) There are advantages such as easy to hold. Regarding the above (1), when the molded container is used for food applications such as a cup noodle container, the molded container may be sealed with a lid material. In this case, it becomes easy to seal the lid material because the lip portion has a shape spreading to the outside of the molded container. With respect to the above (2), since the strength around the opening of the molded container can be increased by forming the lip portion outward, the distortion of the opening can be suppressed. With respect to (3) above, the shape of the molded container is easy to hold by making the lip part wide outward.
[0109]
The shape of the lip portion is not particularly limited. In addition to the above shape, for example, the shape where the lip portion is not inclined from the opening portion, or so as to spread inward from the opening portion of the molded container. The shape may be inclined. Moreover, the said opening part has shown the upper surface of the shaping | molding container.
[0110]
In addition, when the molded container is used as a container for putting food, for example, by directly opening a container such as cup noodles, the lip portion 11 is covered with the film 20, and the film 20 is molded by the film 20. Roundness is formed at the edge of the container, and the mouth feel is good. Also, for example, when the molded container is sealed with a lid material or the like, when the lid material is removed from the molded container, the lip portion 11 is covered with the film 20 so as to adhere to the foam molded product. The covering sheet is not peeled off.
[0111]
In the above method, the thickness of the film covering the lip portion 11 can be easily changed. For example, by using a relatively thick film to cover the entire surface of the lip portion, the mouth feel is further improved. can do.
[0112]
The conditions such as the heating temperature of the shrink tunnel and the heating conditions of the impulse seal described in the method for treating the lip 11 part are not particularly limited. For example, the biodegradable foamed molding to be used, the coating What is necessary is just to set suitably according to the kind of film and film 20, the shape of a shaping | molding container, etc.
[0113]
Further, for example, the processing method for the lip portion 11 described above may be performed a plurality of times. Specifically, for example, the second method may be performed after performing the first method.
[0114]
[Embodiment 2]
The following will describe another embodiment of the present invention with reference to FIGS. For convenience of explanation, members having the same functions as those shown in the first embodiment are denoted by the same reference numerals, and description thereof is omitted.
[0115]
The method for producing a biodegradable molded container according to the present embodiment has a biodegradable plastic as a main component on the surface of a biodegradable foam molded product formed into a predetermined shape mainly composed of starch or a derivative thereof, A method for producing a biodegradable molded container to which a coating film having at least hydrophobic property is attached, wherein the lip portion of the produced biodegradable molded container is molded larger than the final required size. Forming step, removing step of removing the biodegradable foam molded product of the lip portion larger than the finally required size, and covering the exposed portion of the biodegradable foam molded product in the lip portion with a coating film It is a method including a covering step and a film adhering step for adhering the covered covering film.
[0116]
That is, the biodegradable molded container according to the present embodiment includes a biodegradable foam molded product formed into a predetermined shape mainly composed of starch or a derivative thereof, and a biodegradable molded container on the surface of the biodegradable foam molded product. A biodegradable molded container comprising a degradable plastic as a main component and a coated film having at least hydrophobicity, wherein the lip portion of the biodegradable molded container is covered with the coated film. It is the structure that is broken.
[0117]
Below, the structure which has processed the lip | rip part using the coating film which has covered the biodegradable foaming molding is demonstrated.
[0118]
(Fifth method)
The fifth method is a method of processing the lip portion as follows. That is, first, a lip portion of a biodegradable molded container (hereinafter referred to as a molded container) whose lip portion is unprocessed is formed to be larger than a lip portion of a molded container to be finally produced. A biodegradable foamable molded product (hereinafter referred to as a foamed molded product) and a coating film on the outside (back side) of the lip portion of the difference (difference) between the lip portion and the lip portion of a molded container to be finally produced Remove. And the coating film on the inner side (top surface) of the lip portion that is in the difference between the molded lip portion and the lip portion of the molded container to be finally produced, that is, the lip portion that covered the removed foamed molded product The exposed biodegradable foamed molded product is covered with a coating film on the inner side of.
[0119]
Specifically, a description will be given with reference to FIGS. 6 (a) to 6 (f). As shown in FIG. 6 (a), when a molded container 10 in which the lip portion is untreated (hereinafter referred to as a lip portion untreated container) 10 is produced, the untreated lip portion 12 is finally produced. It is made larger than the lip portion 11 of the container (molding process). That is, the untreated lip portion 12 of the lip portion untreated container 10 in the molding step includes a covering film that only covers the foamed molded product of the lip portion 11 that is finally produced.
[0120]
Next, as shown in FIG. 6 (b), the coating film on the inner surface (upper side) of the untreated lip portion 12 that only covers the biodegradable foamed product of the lip portion 11 finally produced. Make a cut to leave a mark. That is, a cut is made between the untreated lip portion 12 and the lip portion 11. And as shown in FIG.6 (c), the excess foaming molding and the coating film of the outer surface (lower side) of the unprocessed lip | rip part 12 are removed (removal process).
[0121]
Next, as shown in FIG. 6 (d), the lip portion untreated container 10 in which the coating film for covering the exposed foamed molded product is left in the removing step is passed through a shrink tunnel, and the coating film is removed. The exposed foamed molding is covered by contraction (coating process). The method of covering the exposed part of the foamed molded product is not limited to the method of passing through the shrink tunnel. For example, the foamed molded product is exposed by the coating film by blowing hot air. The covered part may be covered.
[0122]
Next, as shown in FIG.6 (e), the coating film which has covered the exposed foaming molding is adhere | attached on a lip | rip part by heat sealing (film adhesion process). Specific examples of the heat seal include an impulse seal and a high frequency seal. Thereby, as shown in FIG.6 (f), the shaping | molding container with which the lip | rip part 11 was adhere | attached with the coating film can be manufactured.
[0123]
Note that, in the above description, the foamed product with the exposed lip portion is covered with the covering film on the inner surface of the lip portion 11. By adopting this configuration, a step due to the coating film cannot be formed on the inner surface (surface) of the molded container. For example, when the molded container is sealed using a lid, sealing can be performed easily. However, it may be covered with a coating film on the outer surface of the untreated lip portion 12. Specifically, in the above-described removal step, a cut is made so as to leave a coating film on the outer surface of the untreated lip portion 12, and an excess foamed molded product of the untreated lip portion 12 and a coating film on the inner surface are removed. do it.
[0124]
Moreover, in the said film adhesion process, although the coating film is adhere | attached by heat sealing, you may adhere | attach a coating film only with an adhesive agent, for example together.
[0125]
(Sixth method)
The sixth method is a method of covering the exposed foamed molding with a coating film as follows. That is, first, the untreated lip portion of the lip portion untreated container is formed larger than the lip portion of the finally produced molded container, and the formed untreated lip portion and the finally produced molding are formed. Only the foamed molded product of the difference (difference) from the lip portion of the container is removed. And using the coating film of the difference between the untreated lip part and the lip part of the molded container finally produced, that is, the biodegradability exposed using the coating film covering the removed foamed molded product It covers the foam molding.
[0126]
Specifically, it demonstrates with reference to Fig.7 (a)-FIG.7 (g). First, as shown to Fig.7 (a), when producing the lip | rip part untreated container 10, a lip | rip part is shape | molded larger than the lip | rip part 11 of the shaping | molding container finally manufactured (molding process). The lip portion at this time is referred to as an untreated lip portion 12. In other words, the untreated lip portion 12 of the lip portion untreated container 10 in the molding step includes a coating film that only covers the foamed molded product that the lip portion 11 that is finally produced is exposed.
[0127]
And as shown in FIG.7 (c), an excess foaming molding is removed (removal process). Here, the excessive foamed molded product is a foamed molded product having a difference (difference) between the untreated lip portion 12 and the lip portion 11 of the molded container to be finally produced.
[0128]
Next, as shown in FIG. 7 (d), the coating film on the inner side and the outer side of the untreated lip portion 12 is exposed to the exposed foamed molded product side, that is, opposite to the opposite surfaces of the coating films. Entrain so that the side surface (outer surface) is aligned. When the mutual covering films are wound, for example, if the winding is performed while blowing hot air, the covering film can be easily wound.
[0129]
And as shown in FIG.7 (e), the outer surfaces of a coating film are adhere | attached with a heat roller, winding in the said mutual coating film. Finally, as shown in FIG.7 (f), it adhere | attaches firmly with the heat seal from the upper and lower sides of the lip | rip part 11 (film adhesion process). Specific examples of the heat seal include an impulse seal and a high frequency seal. Thereby, as shown in FIG.7 (g), the shaping | molding container with which the lip | rip part 11 was adhere | attached with the coating film can be manufactured.
[0130]
In the film bonding step, the covering film is bonded by heat sealing. However, for example, an adhesive may be used together, or the covering film may be bonded only with the adhesive.
[0131]
As mentioned above, the shaping | molding container concerning this Embodiment is the structure which covers the foaming molding which the lip | rip part 11 has exposed using the coating film which has covered the foaming molding.
[0132]
Thereby, since the exposed surface of a foaming molding can be completely covered with the said coating film, there is no contact with water or water vapor | steam. Accordingly, it is possible to provide a molded container having further improved water resistance and moisture resistance. In addition, since the lip portion is covered with a coating film, for example, even when the molded container is used as a food container in which the mouth is in direct contact, the mouth feel is better than in the past.
[0133]
Moreover, in said structure, since the edge part of the coating film which covers the foaming molding can be utilized as it is, extra cost does not start. Further, when the foamed molded product is covered by adhering the edge of the coating film inside the lip portion as it is to the coating film outside the lip portion, there is no step on the front side of the container (inside the lip portion). . Thereby, for example, even when the container is sealed using a lid, this can be easily performed. Moreover, when peeling a cover material, the film of the processed lip part is hard to peel off.
[0134]
In addition, for example, in order to further improve the water resistance and moisture resistance of the lip part 11, for example, after the lip part 11 is processed by the fifth method or the sixth method described above, the first method to The lip portion may be further processed using at least one of the fourth methods.
[0135]
Further, the molded container of the present invention includes a foamed molded product molded into a predetermined shape and a coating film attached to the surface thereof, and the coating film is mainly composed of biodegradable plastic and has at least hydrophobicity. The foamed molded product has a starch or a derivative thereof as a main component, and is formed by steam foaming a slurry-like or dough-like raw material obtained by mixing water with this. The lip portion 11 of the molded container may be covered with the lip portion covering film 20.
[0136]
The present invention is not limited to the above-described embodiments, and various modifications are possible within the scope shown in the claims, and embodiments obtained by appropriately combining technical means disclosed in different embodiments. Is also included in the technical scope of the present invention.
[0137]
【The invention's effect】
As described above, the biodegradable molded container manufacturing method of the present invention is mainly composed of a biodegradable plastic so as to cover the exposed portion of the biodegradable foamed molded product in the lip portion of the biodegradable molded container. And a structure including an adhesion step of adhering at least a lip portion covering film having hydrophobicity.
[0138]
According to said structure, since the foaming molding exposed to the lip | rip part of a shaping | molding container, ie, a lip | rip part, is covered with the lip | rip part coating | coated film, this foaming molding thing contacts with water or water vapor | steam. Can be prevented. Thereby, it is possible to prevent softening and deformation of the molded container due to the foamed molded product coming into contact with water or water vapor, and to prevent the starch from being eluted. Moreover, since the lip portion covering film is adhered to the lip portion, the lip portion can be rounded. Therefore, for example, when used as a food application, it is possible to provide an effect that it is possible to provide a molded container having a better mouthfeel than conventional ones.
[0139]
The method for producing a biodegradable molded container according to the present invention further includes a covering step of covering the lip portion of the plurality of biodegradable molded containers with the lip portion covering film before the bonding step, and at least a lip A lip portion on the lip portion of the container at a time by performing a heating step for shrinking the lip portion covering film by heating the portion and a separation step for separating the plurality of biodegradable molded containers from each other. The covering film can be fixed. Thereby, the lip | rip part of a shaping | molding container can be processed efficiently.
[0140]
The method for producing a biodegradable molded container of the present invention further includes a winding step of winding a tape-shaped lip coating film around the lip of the biodegradable molded container before the bonding step. Thus, the exposed biodegradable foamed molded product can be covered more reliably.
[0141]
As described above, the manufacturing method of the biodegradable molded container of the present invention includes a molding step for molding the lip portion of the manufactured biodegradable molded container to be larger than the finally determined size, and the above final determination. A removal step of removing the biodegradable foam molded product of the lip portion that is larger than the size, a coating step of covering the exposed portion of the biodegradable foam molded product in the lip portion with a coating film, and the covering film covered And a film bonding step for bonding.
[0142]
Therefore, for example, even when the molded container is used as a food container in which the mouth is in direct contact with the mouth, there is an effect that the mouth feel is better than the conventional one.
[0143]
Moreover, in said structure, a level | step difference cannot be performed in the front side (inside of a lip | rip part) of a container. Thereby, for example, there is an effect that it can be easily performed even when the container is sealed using a lid.
[0144]
In the biodegradable molded container of the present invention, as described above, the lip portion of the biodegradable molded container is covered with a lip covering film having at least hydrophobicity mainly composed of a biodegradable plastic. It is the composition which is.
[0145]
Therefore, it is possible to prevent the foamed molded product from being softened and deformed when starch is eluted from the molded container or when water or water vapor enters the molded container from the lip portion.
[0146]
As described above, the biodegradable molded container of the present invention has a configuration in which the lip portion of the biodegradable molded container is covered with the coating film.
[0147]
Therefore, it is possible to prevent the foamed molded product from being softened and deformed when starch is eluted from the molded container or when water or water vapor enters the molded container from the lip portion.
[Brief description of the drawings]
BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a drawing for explaining a method for treating a lip portion according to the present invention, wherein (a) to (d) show individual layers after covering a plurality of stacked biodegradable molded containers with a lip portion covering film. It is a perspective view explaining a method of processing a lip part of a biodegradable molding container in order, and (e)-(g) is a fragmentary sectional view explaining the above-mentioned processing in order.
FIG. 2 is a drawing for explaining another lip portion processing method of the present invention, and FIG. 2 (a) is a perspective view showing a configuration of a process for winding a lip portion covering film around a biodegradable molded container; b) to (e) are partial cross-sectional views for sequentially explaining the above processes.
FIG. 3 is a drawing for explaining another lip portion processing method of the present invention, and FIG. 3 (a) is a perspective view showing another processing configuration for winding a lip portion covering film around a biodegradable molded container. , (B) to (d) are partial cross-sectional views for sequentially explaining the above processes.
FIG. 4 is a drawing for explaining still another lip portion processing method of the present invention, wherein (a) is a configuration of a method for winding a lip portion covering film around a biodegradable molded container and processing it with a heat roller. (B)-(c) is a fragmentary sectional view explaining the said process in order.
FIG. 5 is a drawing for explaining still another lip portion processing method of the present invention, wherein (a) shows a lip portion covering film larger than the lip portion of a biodegradable molded container to be finally produced. It is a perspective view which shows the structure of the method wound around a container and processing, (b)-(f) is a fragmentary sectional view explaining the said process in order.
6A and 6B are views for explaining still another lip processing method according to the present invention, wherein FIG. 6A is a perspective view showing a configuration of a biodegradable molded container to be manufactured, and FIGS. ) Are partial cross-sectional views for sequentially explaining the processing method of the lip portion.
7A and 7B are views for explaining still another lip processing method according to the present invention, wherein FIG. 7A is a perspective view showing a configuration of a biodegradable molded container to be manufactured, and FIGS. ) Are partial cross-sectional views for sequentially explaining the processing method of the lip portion.
[Explanation of symbols]
10 Unprocessed molded container
11 Lip part
12 Untreated lip
20 film (lip coating film)

Claims (4)

Biodegradation in which a biodegradable plastic molding is used as a main component and a coating film that has at least hydrophobicity is attached to a biodegradable foamed molding that is molded into starch or a derivative of the main component. A method for producing a plastic molded container,
Adhesion that adheres a lip covering film mainly composed of biodegradable plastic and having at least hydrophobicity so as to cover the exposed portion of the biodegradable foamed molded product in the lip portion of the biodegradable molding container. Including steps ,
Before the bonding process,
A covering step of covering a cylindrical lip portion covering film on at least the lip portion of a plurality of biodegradable molded containers;
A heating step for thermally shrinking the lip portion covering film;
A method for producing a biodegradable molded container, comprising the step of separating the lip coating films covering the lip portions of the plurality of biodegradable molded containers from each other . Biodegradation in which a biodegradable plastic molding is used as a main component and a coating film that has at least hydrophobicity is attached to a biodegradable foamed molding that is molded into starch or a derivative of the main component. A method for producing a plastic molded container,
Adhesion that adheres a lip covering film mainly composed of biodegradable plastic and having at least hydrophobicity so as to cover the exposed portion of the biodegradable foamed molded product in the lip portion of the biodegradable molding container. Including steps,
After the lip coating film having the same shape as the inner surface and larger than the width of the inner surface is bonded to the inner surface of the lip portion, the lip coating film is attached to the lip portion. A method for producing a biodegradable molded container, characterized by adhering to an outer surface . Before the bonding process,
A covering step of covering the cylindrical lip portion covering film on at least the lip portion of the biodegradable molded container;
The method for producing a biodegradable molded container according to claim 2, wherein a heating step of thermally shrinking the lip portion covering film is performed . The method for producing a biodegradable molded container according to claim 1 or 2, wherein a wrapping step of winding a tape-shaped lip portion covering film around the lip portion of the biodegradable molded container is performed.

Images