JP2011161818A - Multilayer resin molding - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a multilayer resin molding which can continue excellent antibacterial effects by eluting stably silver ions in water or aqueous composition. <P>SOLUTION: The multilayer resin molding has an antibacterial resin layer containing a synthetic resin and soluble glass which can elute silver ions by contacting with water, in part contacting with water. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

The present invention relates to a multilayer resin molded article that can elute silver ions by contact with water or an aqueous composition, thereby imparting antibacterial properties to water or the aqueous composition.

In recent years, silver-based antibacterial agents are known as active ingredients in antibacterial materials and bactericides for preventing various problems due to bacterial growth. Patent Document 1 discloses a container for a contact lens solution characterized by comprising a resin containing a soluble glass powder capable of eluting silver ions (Patent Document 1). However, since such a resin container can obtain antibacterial performance by elution of silver ions, silver-based antibacterial agents existing outside the contact surface with water are not useful for exerting the effect. It was difficult to say that the effect of silver ions could be obtained efficiently.

Patent Document 2 discloses a liquid food container formed by molding a resin film and / or sheet in which silver is dispersed inside an inorganic compound powder or organic-inorganic composite powder containing aluminosilicate as a main component. Yes. However, such liquid containers are intended to preserve the flavor of foods, and detailed studies on antibacterial properties have not been made.

JP-A-4-22361 JP 2008-195442 A

In view of the above-mentioned present situation, the present invention provides a multilayer resin molded product capable of maintaining an excellent antibacterial effect by stably eluting silver ions into water or an aqueous composition.

The present invention is a multilayer resin molded article having an antibacterial resin layer containing a soluble glass and a synthetic resin capable of eluting silver ions by contact with water at a site in contact with water.

In the multilayer resin container, it is preferable that at least one of the layers constituting the multilayer resin molded body has a concealing property.
In the multilayer resin container of the present invention, at least one of the layers constituting the molded body is preferably a layer having a high barrier property.
The multilayer resin molded product of the present invention is preferably obtained by multilayer blow molding.
The multilayer resin molded product of the present invention is preferably a water-based cosmetic container.
The present invention is also an aqueous composition containing a multilayer resin molded article, which contains an ionic silver compound and is filled in the multilayer resin molded article described above.

By this invention, the multilayer resin molding which can provide the antimicrobial property by silver ion with respect to water or an aqueous composition more efficiently than before can be obtained.

FIG. 1 is a view showing an example of a layer structure of a multilayer resin molded product of the present invention.

Hereinafter, the present invention will be described in detail.
The multilayer resin molded product of the present invention can stably impart antibacterial properties to water or an aqueous composition to be contacted. Such antibacterial property is obtained when the silver compound contained in the innermost antibacterial resin layer comes into contact with water or an aqueous composition and elutes silver ions. Moreover, since the multilayer resin formed body of this invention contains a silver compound in an innermost layer, the usage-amount of a silver compound can be suppressed and a high antimicrobial property can be obtained efficiently. Furthermore, other functional layers can be provided by multilayering. Therefore, it can be used in fields where functions other than antibacterial properties (for example, barrier properties) are required.

Furthermore, even if it is content of a comparatively low concentration silver compound in the resin composition used for a container by using the soluble glass which can elute silver ion by contacting with water as a silver compound, Antibacterial performance can be obtained efficiently. For this reason, compared with the conventional method which needed to mix | blend a silver compound in large quantities, it also has the advantage that the problem of the deterioration of the external appearance by discoloration of a silver compound does not arise easily.

The multilayer resin molded product of the present invention is used for applications in contact with water or an aqueous composition, and elutes silver ions when contacted with the water or aqueous composition. More specifically, 20 to 150 ppb of silver ions can be eluted with respect to water or an aqueous composition. The application is not particularly limited as long as it is necessary to impart antibacterial properties to water or an aqueous composition. Cosmetic containers, food containers, household detergent containers, air conditioner parts, automobile parts, electric parts, etc. Product parts (particularly product parts used with water such as washing machines, humidifiers, dehumidifiers, etc.), kitchenware, and the like can be mentioned.

The multilayer resin molded article of the present invention is composed of a multilayer, and is composed of a resin composition in which a layer that comes into contact with water or an aqueous composition has a function of eluting silver ions.

In the multilayer resin molded product of the present invention, it is necessary to use an antibacterial resin containing a soluble glass capable of eluting silver ions and a synthetic resin as a resin composition that constitutes a site in contact with water. By using such a resin composition, antibacterial properties due to elution of silver ions can be obtained at a high level.

More specifically, for example, silver is contained in the glass containing 5 to 45 mol% of SiO ₂ , 40 to 85 mol% of B ₂ O ₃ , and 5 to 20 mol% of Na ₂ O as the soluble glass powder. What was contained can be mentioned. Such a soluble glass powder can be obtained by, for example, the method described in JP-A-2008-114138.

With respect to 100% by mass of the soluble glass, silver can be 0.2 to 1.0% by mass in terms of Ag element, 0.3 to 0.8% by mass, particularly 0.4 to 0.6%. It is preferable that it is mass%.

The soluble glass is preferably a powder so as to be easily blended with a synthetic resin. The particle size of the glass powder is not particularly limited, but the average particle size is preferably 5 to 60 μm, and more preferably 10 to 40 μm. If the particle size is 5 to 60 μm, silver ions are easily released from the antibacterial resin layer, and it does not take a long time to release the required amount of silver ions. If contacted for a period of time, in particular 20 to 28 hours, further 22 to 26 hours, the required amount of silver ions is supplied to the water or aqueous composition. Moreover, the compounding quantity of glass does not require much, and it is preferable, without the moldability of a resin molding falling.

It is preferable that the said soluble glass is contained in the ratio of 0.5-3 mass% with respect to the resin composition which comprises an antibacterial resin layer.

It does not specifically limit as a synthetic resin used for the said antibacterial resin layer, For example, various synthetic resins, such as a polyolefin resin, a polyester resin, a polyamide resin, can be used. Of these, polyolefin resins such as polyethylene and polypropylene are preferable.

The antibacterial resin layer may contain other components as necessary. Examples of the other components include color pigments, pigments, and other antibacterial agents. In particular, it is preferable to add a coloring pigment having high concealability in that the appearance change is less likely to occur. Examples of the other antibacterial agents include ionic silver compounds.

The film thickness of the antibacterial resin layer is preferably 100 to 1000 μm, and more preferably 200 to 300 μm. If the film thickness is less than 100 μm, sufficient antibacterial properties may not be obtained, and if it exceeds 1000 μm, the moldability may deteriorate.

The multilayer resin molded product of the present invention has at least one layer other than the antibacterial resin layer. The layers other than the antibacterial resin layer may be a single layer or a multilayer of two or more layers, and the constituent resin may be various synthetic resins such as polyolefin resin, polyester resin, and polyamide resin. it can. Moreover, you may have functional layers, such as gas barrier layers, such as an ethylene-polyvinyl alcohol copolymer layer, and an adhesive layer.

In the multilayer resin molded product of the present invention, it is preferable that at least one layer forming the multilayer is a highly concealing resin layer. The multilayer resin molded article of the present invention contains a silver compound, but the silver compound may change its color when it comes into contact with water, resulting in a problem that the appearance is deteriorated. As a solution to this problem, by providing at least one highly concealing resin layer, there is an advantage that the internal appearance does not affect the appearance. The high hiding resin layer may be an antibacterial resin layer or another layer.

The high hiding resin layer has an advantage of preventing transmission of visible light by adding various colorants, pigments and the like. By providing such a high hiding layer, it is preferable in that an internal change does not lead to an appearance problem.

When the high hiding resin layer is a hiding layer provided separately from the antibacterial resin layer, the hiding layer is preferably provided as an inner layer. As the resin constituting the concealing layer, various synthetic resins such as polyolefin resin, polyester resin, and polyamide resin can be used. The resin constituting the concealing layer may be the same as the resin constituting the antibacterial resin layer, or may be a different type of resin.

When providing the said concealing layer, it is preferable that the thickness of a concealing layer is 100-1000 micrometers. If the thickness is too large, the amount of resin used is too large, which is not preferable in terms of cost. If the thickness is too small, it may be difficult to obtain sufficient concealability, which is not preferable. The concealing layer may contain other components as necessary in addition to the components described above.

The multilayer resin molded product of the present invention may have a second antibacterial resin layer in addition to the antibacterial resin layer. When the multilayer resin molded product of the present invention is a hollow container, the first antibacterial resin layer is provided in the innermost layer, and the second antibacterial resin layer is provided in the outermost layer on the outer surface. It is preferable.

When the second antibacterial resin layer is provided in the outermost layer of the hollow container, it is preferable in that antibacterial properties and antifungal properties can be imparted to the outer layer. That is, it is a common practice to use hollow containers for cosmetic containers, kitchen detergent containers, bathroom detergent containers, food containers, seasoning containers, and the like. In such a container, the outer surface of the hollow container is repeatedly touched by the user, or dirt is easily adhered during use, and wrinkles are easily generated. When such wrinkles occur, not only the appearance is remarkably deteriorated, but also hygienic is not preferable.

Further, in recent years, it has been practiced to purchase only the contents and refill them for use for a long time. Since such a refill container is used for a long period of time, the problem due to the occurrence of such wrinkles becomes larger.

The hollow container in which the second antibacterial resin layer is provided on the outermost layer as described above has an advantage that antibacterial properties can be imparted not only to the inner filling but also to the outside.

As the second antibacterial resin layer, the same composition as that of the antibacterial resin layer can be used. That is, it is preferably made of a resin composition containing a soluble glass and a synthetic resin capable of eluting silver ions by contact with water.

The second antibacterial resin layer may be made of a resin composition containing a smaller amount of silver than the antibacterial resin layer. On the inner surface, it is required to elute into the aqueous composition that is the inner filler to impart antibacterial properties, so that a certain level of silver ion elution ability is required, but in the case of the outer surface, the outer surface of the container itself is Silver ions should be present to such an extent that the antifouling performance is exhibited. Furthermore, when the antibacterial effect is exhibited by silver ions, coloring or discoloration due to silver occurs. Since such coloring and discoloration may give anxiety to the user when the design changes, it is preferable that the coloring and discoloration be as small as possible. Therefore, it is preferable that the addition amount of the silver compound is equal to or less than that of the antibacterial resin layer.

More specifically, it is preferable that the said soluble glass is 0.05-7 mass% in conversion of Ag with respect to the resin composition which comprises a 2nd antibacterial resin layer, and is 1-7 mass%. It is more preferable that

The second antibacterial resin layer may have a color pigment or the like. The second antibacterial resin layer is basically preferably used as the outermost layer, but a printing layer or the like may be provided as necessary. The second antibacterial resin layer may contain other components as necessary in addition to the components described above.

The film thickness of the second antibacterial resin layer is preferably 100 to 1000 μm, and more preferably 200 to 300 μm. If the film thickness is less than 100 μm, sufficient antibacterial properties may not be obtained, and if it exceeds 1000 μm, the moldability may deteriorate.

As for the layer which comprises the molded object of this invention, it is preferable that one layer is a layer which has high barrier property. A layer having high barrier properties is preferable in that the long-term storage stability of the embedded material is improved. Examples of the layer having a high barrier property include an ethylene / vinyl alcohol copolymer resin layer.

The multilayer resin molded body of the present invention has a plurality of layers, but an adhesive layer may be provided when the affinity between the layers is poor. As the adhesive layer, any known adhesive resin can be used.

A preferred example of the layer structure of the multilayer resin molded body described above in detail is shown in FIG. The multilayer resin molded body shown in FIG. 1 is obtained by laminating an antibacterial resin layer 1, an adhesive layer 2, a layer 3 having high barrier properties, an adhesive layer 3, and an antibacterial resin layer 5 in order from the outer layer. Furthermore, the antibacterial resin layer of such a laminate can suppress a change in appearance due to discoloration of silver by imparting high hiding properties to the antibacterial resin layer 1 and / or the antibacterial resin layer 5.

The multilayer resin molded product of the present invention is not particularly limited in shape, and can be of any shape such as a hollow shape, a sheet, a tray, a film, a pouch container, and the like. Especially, it is a hollow-shaped container, Comprising: It can use especially suitably for what fills water or an aqueous composition in it.

Although the manufacturing method of the multilayer resin molded product of the present invention is not particularly limited, it is preferably performed by melt molding. More specifically, it may be molded by any molding method such as multilayer blow molding, multilayer extrusion molding, inflation molding, injection molding or the like. Multilayer blow molding is preferred for producing the hollow container described above.

Mixing of soluble glass and a synthetic resin can be performed by a well-known method, for example, can be performed by kneading | mixing, dry blending, etc. Moreover, the masterbatch which contains the said molten glass in high concentration can be manufactured, and this can also be blended and used for resin.

The multilayer resin molded product of the present invention can be suitably used as a water-based cosmetic container. Filling the multilayer resin molded body of the present invention can impart excellent antibacterial properties to the embedded material, so that the amount of preservatives such as parabens can be reduced, and safety can be improved. Furthermore, since antibacterial properties can be imparted to the outer layer of the container, it is possible to purchase molds for refilling, refill the main body container, and obtain antifungal and antibacterial performance even when the main body container is used repeatedly. I can do it.

The water-based cosmetic is not particularly limited, and may be any of basic cosmetics such as lotions, emulsions, creams and gels, cleaning compositions such as shampoos, body soaps and hand soaps, and hair cosmetics such as rinses and treatments. Can be used against

Furthermore, the multilayer resin molded product of the present invention can also be used as a disinfectant container. When the multilayer resin molded product of the present invention is used as a sterilization container, sterilization water having a sterilization effect by silver ions eluted from the container can be provided by adding purified water. Furthermore, there are few problems of rough hand like alcohol sterilized water and the like, and there is an advantage that safe sterilized water with excellent usability can be provided.

The multilayer resin molded product of the present invention can also be used as a part for an air conditioner. In particular, in an air conditioner such as an air conditioner or a car air conditioner, it is preferable to use it as a resin component that comes into contact with the condensed water because it can prevent malodor caused by bacterial growth due to contact with the condensed water.

An aqueous composition containing a multilayer resin molded body in which a hollow container, which is the multilayer resin molded body of the present invention, is filled with an aqueous composition containing an ionic silver compound is also one aspect of the present invention. That is, by filling an aqueous composition containing an ionic silver compound in a hollow container, even if the mixed silver ions are reduced by long-term storage, antibacterial performance is improved by the silver ions eluting thereafter. It does not decline. Furthermore, since silver ions are initially blended, the elution rate of silver ions from the container is lowered, and the antibacterial performance by elution of silver ions from the container can be maintained over a long period of time.

The ionic silver compound in the aqueous composition is composed of a silver batch (PP, PE, etc.) containing a silver compound (powder) composed of the composition SiO ₂ , B ₂ 0 ₃ , Na ₂ 0, Ag ₂ 0. It is preferably an aqueous solution that precipitates when coming into contact with an object. Such an aqueous solution has strong sterilizing power, antibacterial power, and antifungal properties, and is effective against Escherichia coli, Pseudomonas aeruginosa, MRSA, Candida, ringworm, black skin koji, Staphylococcus aureus, viruses Particularly preferred.

In the aqueous composition, it is preferable to use an ionic silver compound contained in a proportion of 20 to 3000 ppb. If it is less than 20 ppb, it is not preferable in that the antibacterial performance cannot be sufficiently obtained, and if it exceeds 3000 ppb, it is not preferable in that the container is likely to be discolored.

EXAMPLES The present invention will be further described below with reference to examples, but the present invention is not limited to these examples. In addition, all compounding quantities represent the mass%.

(Masterbatch of resin composition for antibacterial resin layer)
SiO ₂ 10 _mol%, the glass of B _{2 O} 3 80 mol% and _Na 2 O10 mole% of the composition, and a total of 100 mass% of Ag ₂ O 0.5 wt% (glass and Ag ₂ O. ) A blended soluble glass was prepared and pulverized into a powder having a particle size of 40 μm or less. Then, the resin composition which mix | blended this powder 10 mass% (resin composition shall be 100 mass%.) With the high density polyethylene was prepared.

(Silver ion water antibacterial test 1)
The master batch obtained by the above production method was brought into contact with purified water and left for 24 hours to obtain silver ion water. By concentrating and diluting the silver ion water, silver ion water of 50 ppb, 150 ppb, 500 ppb, and 1000 ppb was prepared. About each of these silver ion water, the quantity of Staphylococcus aureus shown in Table 1 was added, and the number of bacteria in the liquid was confirmed after 30 minutes, 4 hours, and 8 hours, respectively. A test was also performed on purified water under the same conditions (control). The results are shown in Table 1.

From the results in Table 1 above, the silver ion water produced when the resin composition composed of the soluble glass and synthetic resin capable of eluting the silver ions comes into contact with water has a high level of antibacterial performance. it is obvious.

(Antimicrobial test 2 of silver ion water)
A polypropylene resin was mixed with the master batch obtained by the above production method to obtain a plate-shaped molded product of a polypropylene resin containing 0.5% by mass of a soluble glass powder. About this molded body, according to JIS Z 2801, a fungus liquid (black mold; Cl. Cladosporiodes) prepared with 1/500 ordinary broth of the surface of the test piece was dropped, and was closely adhered to the film and stored at 35 ° C. The number of bacteria after 24 hours was measured. In the test, the same test was performed on three samples and the average value was shown. A similar test was also performed on a polypropylene molded body not containing the soluble glass powder (control). The results are shown in Table 2.

From the results of Table 2, it is clear that the antibacterial resin layer used in the present invention has antibacterial performance against wrinkles, and even when used as the outermost layer of a multilayer resin molded product, It was shown that it can be obtained.

(Manufacture of multilayer resin moldings)
The resin composition having the composition contained in Table 2 below was used as the innermost layer, the outer layer was made of high-density polyethylene as the outer layer, and a bottle-shaped multilayer hollow container having a multilayer structure shown in FIG. 1 was obtained by multilayer blow molding. As a comparative example, a single layer hollow container of high density polyethylene was obtained by blow molding.

(Preparation of lotion)
A beauty essence having the following composition was prepared based on a conventional cosmetic production method.

Example 1 skin lotion wt%
Ethanol 7.5
Placenta extract 0.05
D-pantothenyl alcohol 0.1
Dipotassium glycyrrhizinate 0.1
Phenoxyethanol 0.3
Polyoxyethylene sorbitan monolaurate (20E.O.) 0.3
Polyoxyethylene hydrogenated castor oil 0.05
Edetate disodium 0.05
Concentrated glycerin 3.5
1,3-butylene glycol 2.5
Polyglycerin 0.5
Xanthan gum 0.5
Sorbit liquid 5.0
Carboxyvinyl polymer 0.1
Purified water to 100

Example 2
In Example 1, lotion was prepared in the same manner as in Example 1 except that silver ion water (containing 1000 ppb of silver ions) was used instead of purified water at a ratio of 70% by mass with respect to the total amount of the composition. did. In addition, the silver ion water used here concentrates and dilutes what was obtained by contacting the masterbatch obtained by the said manufacturing method with purified water, and leaving it for 24 hours.

The multi-layer hollow container filled with the lotion, purified water, and silver ion water of Examples 1 and 2 was prepared. Antibacterial properties were measured for such serums. The obtained results are shown in Table 3.

A similar test was performed using a single layer hollow container of high density polyethylene of a comparative example. Further, the silver ion concentration and the antibacterial performance when the dandy bottle was filled with the cosmetic compositions of Examples 1 and 2 and stored at 40 ° C. were measured. The silver ion concentration and antibacterial performance were measured by the following measurement methods.

(Ion concentration)
After one week at room temperature, the silver ion concentration of the composition in the container was measured with an atomic absorption device (Shimadzu AA-6300).

(Antimicrobial performance)
For antibacterial test, inoculate 5 g of sample solution with mixed bacterial solution (mold 2 types, yeast 1 type, bacteria 4 types) at an initial bacterial count of 10 ⁸ cfu / mL, and culture at 32 ° C for 1 to 5 weeks. The number of bacteria was measured. A similar test was carried out at 40 ° C.

From the results in Table 3, it is clear that the multilayer hollow container, which is the multilayer resin molded body of the present invention, has an effect of imparting excellent antibacterial properties to the filler.

The multilayer resin molded product of the present invention is used for storage containers for drinking water, water-based foods, water-based cosmetics, etc., disinfectant containers, parts for air conditioners, parts for automobiles, parts for electrical appliances (particularly washing machines, humidifiers, dehumidifiers). It can be used for product parts used with water, etc.) and kitchen utensils.

DESCRIPTION OF SYMBOLS 1 2nd antibacterial resin layer 2 Adhesive layer 3 Layer with high barrier property 4 Adhesive layer 5 1st antibacterial resin layer

Claims (6)

A multilayer resin molded article having an antibacterial resin layer containing a soluble glass capable of eluting silver ions by contact with water and a synthetic resin at a site in contact with water. The multilayer resin molded product according to claim 1, wherein at least one of the layers constituting the multilayer resin molded product is a layer having a concealing property. The multilayer resin molded article according to claim 1 or 2, wherein at least one of the layers constituting the molded article is a layer having a high barrier property. The multilayer resin molded product according to claim 1, 2 or 3, which is obtained by multilayer blow molding. The multilayer resin molded article according to claim 1, 2, 3, or 4, which is a water-based cosmetic container. An aqueous composition containing a multilayer resin molded article, which contains an ionic silver compound and is filled in the multilayer resin molded article according to claim 1, 2, 3, 4 or 5.