JPH01313531A - Synthetic resin molding - Google Patents

Abstract

PURPOSE:To make it possible for a synthetic resin molding to destroy bacteria by Ag<+> ions released from it and to exhibit a mildewproof and deodorizing effect by allowing a synthetic resin molding to carry a water-soluble glass particles containing Ag<+> ions. CONSTITUTION:A synthetic resin molding (e.g., a flexible vinyl chloride resin sheet product such as a vinyl cloth, a synthetic leather, a building and construction material, furniture or a bathtub) is allowed to carry water-soluble glass containing Ag<+> ions (silver glass) particles. The obtained molding can be rendered antibacterial and can be endowded with a mildewproof and deodorizing effect because it can release Ag<+> ions from the water-soluble glass which is dissolved by contact with a liquid or a gas.

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Application Field) The present invention relates to a synthetic resin molded article imparted with antibacterial properties by the elution of Ag bioions.

(Prior Art and its Problems) With the development of polymer chemistry in recent years, various synthetic resin products are being used in all fields that match the useful properties of synthetic resins.

Among them, there are products made from synthetic resins such as sheet-like soft vinyl chloride products such as shower curtains and vinyl cloths, artificial synthetic leather for gloves, resin molded products such as building materials, furniture, bathtubs, and optical equipment. The action of microorganisms has caused problems such as mold, odor, corrosion, and performance deterioration during storage and use.

Therefore, the present invention provides such a resin molded article with antibacterial properties that prevent the growth of bacteria, thereby maintaining and exhibiting the original characteristics of the resin molded article.

(Means for Solving the Problems) The synthetic resin body of the present invention is formed by carrying a mixture of water-soluble glass powder containing monovalent silver in a synthetic resin molded body. The invention is characterized in that Ag+ ions are eluted while the water-soluble glass is melted by the liquid or gas in contact with the glass.

(Function) The water-soluble glass containing monovalent silver used in the present invention is the one used in the "antibacterial, deodorizing, superabsorbent resin body" disclosed by the applicant in Japanese Patent Application No. 62-313806. Equivalent to S l 021 B2031P20. one or more network-forming oxides, Na2O, and 20
．． Cab, MgO, Bad.

One or more network modifying oxides of ZnO, and A
Q203. It consists of a glass composition containing one or two types of network intermediate oxides of 'rio2, and 100 parts by weight of this solid substance contains, for example, A g 20 as monovalent Ag.
It contains 0.1 to 20.0 parts by weight of r. The above-mentioned water-soluble glass can be produced by changing the composition ratio of the intermediate oxide, the network-forming oxide, and the network-modifying oxide by changing the dissolution rate of the solid in water through a gelation phenomenon in water. This allows Ag1 ions, which remain constant over time, to be retained in the gel-like material and gradually eluted into the water. (Hereinafter, this water-soluble glass will be referred to as "silver glass.") The synthetic resin molded body containing this silver glass will elute the glass component by the moisture that comes into contact with the molded body, and Ag+ ions will dissolve the glass. Accordingly, it is gradually eluted from the surface of the molded body. The elution amount of monovalent Ag, which is effective for antibacterial properties, can be controlled by the composition ratio of the network oxide in the silver glass.

(Example) Examples of the present invention will be described below.

First, the water-soluble glass (silver glass) containing monovalent Ag used in this example contains SiO□ 40°0 mol%, B
20.50.0 mol% Na2O.

Monovalent A per 100 parts by weight of the 10.0 mol% mixture
2.0 parts by weight (calculated as Ag2O) were added thereto, mixed uniformly, melted in a glass melting furnace at a temperature in the range of 1100 to 1300°C for 60 minutes, and then rapidly cooled and the resulting product was pulverized. It is a powder that passes through 200 mesh. This is, for example, a product manufactured by Kinki Pipe Giken Co., Ltd., the applicant of the present invention, and equivalent to the product name Biosure SG.

Next, we investigated the following matters regarding a bathroom curtain in which the above-mentioned silver glass was mixed and supported on a PVC sheet made of the following resin composition.

■Mold resistance test as a fungicide ■Examination of processability ■Examination of heat resistance ■Examination of sulfur contamination 1) Preparation of sample pieces O Resin blend P2O3 (PVC) 100.0 parts by weight CaC0,
12, OIt TMF-108UJ 4. OIIP-5U
O, 5JJA-710, 5JT Antifungal agent (test agent) 0.25, 0.3゜0.5 parts by weight are mixed O Sheeting conditions Roll size 8' x 20'' 18 x 20 RPM Kneading temperature and time 200℃, 5 Minute 0 test anti-mold agent ■ Isophthalonitrile type ■ Imidazole type compound ■ Brome type ■ Isothiazoline type ■ Silver glass 2) Test method and results ■ Mold resistance test table (according to JIS Z-2911)
Cut out a sample of size 3x3an, place it on a JIS inorganic surface, and add the sample bacterial suspension (1/10
After spray inoculation with Sabouraud's medium formulation) at room temperature, the specimens were covered and cultured in a 25°C flannel, and the growth of mold in the sample was observed orally to examine mold resistance.

*Test bacteria■Aspergillus niger■Penici
llium citrinum■Chaetonium
glabosium■C1adosporiumC1
adosporiodes■Rh1zopus nig
ricans umbrella JIS medium NH4No33.0 g, KH2P0.1.0 g
, MgSO40.5g , KCLO,25g y
Fl! l5040-002 g + agar 18g/water 1.000mQ Sabouraud medium of 1710 skewers Dextrose 4.0g, peptone 1. Og+Agar 2°5/Water 1.000mQ Umbrella mold resistance display A: No growth of test bacteria was observed on the specimen.

B... n u Found in 1/3 or less of the specimen.

C... n IT Appeared in 1/3 to 2/3 of the specimen.

D...　n　　n　It is observed throughout the specimen.

The test results are shown in Tables 1 to 4.

(Left below) Test pieces ■ to ■ were mixed at 200°C for 5 minutes to observe workability.

■Examination of heat resistance The heat resistance time (minutes) of specimens ■ to ■ in gear open treatment at 180°C is shown.

(Table 2) Workability results and 180° C. gear open treatment heat resistance results ■ Examination of sulfur contamination Specimens ■ to ■ were examined using the lead acetate test method.

0...No sulfide contamination Δ...Slightly sulfide contamination ×...Sulfide contamination 3) Conclusion and discussion The use of PVC products is for bathroom curtains, so we decided to use a compound that is less susceptible to sulfide contamination. did.

After compounding each moldproofing agent at various concentrations into the compound from which the sample piece was prepared and sheeting, the results were examined and summarized according to the previous section, resulting in the results shown in Table 4.

(See the margins below) (Table 4) Summary of results From these results, we can expect a long-term anti-mold effect by blending approximately 0.3 parts by weight of silver glass to 100 parts by weight of the PVC resin component. In addition, it was found that the processability is the same as when no antifungal agent is added, and that the heat resistance and sulfur contamination can be applied by considering the respective results.

The above studies have demonstrated the antibacterial properties of the resin molded articles, and it is expected that the other synthetic resin molded articles of the examples will also have the same effects as the examples.

(Effects of the Invention) As described above, the synthetic resin molded body of the present invention is made up of a mixture of water-soluble glass carrying negative silver supported in the synthetic resin molded body, and Ag+ eluted from this silver glass. Since bacteria are killed by ions, antibacterial properties can be imparted to the resin molded article.

Therefore, the resin molded product has anti-bacterial and anti-odor effects, and by adjusting the composition ratio of silver glass, the molded product can fully demonstrate the characteristics of the synthetic resin suitable for the purpose of the molded product, making it suitable for use. It is possible to increase the number of applications and expand the range of uses.

Claims (1)

[Claims] 1. Water-soluble glass particles containing monovalent Ag in the composition are mixed and supported on a synthetic resin molded body, and the water-soluble glass is dissolved by the liquid or gas that the molded body comes into contact with. A synthetic resin molded article characterized in that it allows Ag^+ ions to be eluted.