KR100691857B1 - Sponge composition for molding - Google Patents

Abstract

Provided is a sponge composition for molding which is more lightweight compared with a rubber or polyurethane material, is low in manufacturing cost and can be used to mold a cup insole or a brassier cup continuously. The sponge composition comprises a main material which comprises 22-30 wt% of an EVA emulsion, 22-30 wt% of a natural latex and 30-40 wt% of a synthetic latex; and a side material which comprises 2-5 wt% of a foaming agent, 4.5-5.5 wt% of a curing agent, 1.5-2.5 wt% of a curing accelerator and 3-5 wt% of a curing accelerator aid. Preferably, the synthetic latex is styrene-butadiene latex; the foaming agent is oleic acid; the curing accelerator is at least one selected from D(1,3-diphenylguanidine), M(mercaptobenzothiazole) and DM(dibenzothiazyl disulfide); and the curing accelerator aid is one selected from zinc oxide and stearic acid.

Description

Sponge composition for molding

The present invention relates to a sponge composition for molding, and more particularly, to cup-in-sol or bra cups, which are suitable for the shape of a specific part of the human body, such as soles or breasts, based on ethylene vinyl acetate (EVA) emulsion and liquid latex. It relates to a molding sponge composition characterized in that it can be molded.

In general, certain parts of the body, such as feet or breasts, are protected by wearing shoes and a bra. The shoe is divided into an upper and an outsole, and the sole is further divided into an outsole, a midsole, and an insole. Insoles, or insoles, are parts of the shoe that are in constant contact with the soles of the inside of the shoe. The insole is a major component of shoes that must be elastic with the ability to dissipate and release sweat and heat during exercise without compressing the skin of the foot. Parts. And in the case of a bra to maintain the shape of the breasts must have elasticity, and the ability to fully disperse and discharge sweat and heat emitted from the human body.

Meanwhile, conventional shoe insoles or bra cups have been molded and manufactured using a sponge having a flat shape mainly foamed using a polyurethane or latex material.

In the case of shoe insoles, it is possible to form continuous insoles by piercing processing from flat seats, but since the body of the insole is in the form of a flat seat, the inside of the shoes and the insoles come in contact naturally in the curved part of the shoe that is in contact with the insoles. If you are uncomfortable due to the bending part or the insole curling into the heel or heel part of the shoe during walking, or if you use the folded parts again after folding, the folded parts lose their elastic function. Since the elastic restoring force is weakened, there is a problem in that shock absorption or the function of the elastic force is lowered.

In the case of bra cups, latex, polyurethane, or synthetic resin is injected into the mold and foamed. However, even after foam molding, the efficiency of workability due to the finishing work such as removing the flaky foam adhered to the edge of the bra cup has to be improved. Not only was it degraded, there was a problem of poor sponge resilience.

In the case of shoe insoles cup insoles were developed as a way to solve the above problems, the polyurethane foam and EVA foam as a material mainly used in such a cup insole. In the case of polyurethane foam, it is possible to form cup insole because of its good processability, and it has good physical properties but it is expensive, and yellowing phenomenon occurs that changes color with time, and because it is weak in water, In the case of continuous contact for a long time, the material of the polyurethane foam is hydrolyzed to form a white powder on the surface of the cup insole. In the case of EVA foam, the price is about half cheaper than that of polyurethane foam, and the general mechanical properties are excellent, but the moldability is poor. There are disadvantages.

Therefore, as a patent developed using a latex that combines the advantages of polyurethane foam and EVA foam at the same time as a foaming agent in a mixture of natural latex and synthetic latex in Korea Patent Publication No. 1991-16834 (Nov. 5, 1991) It is known that the manufacturing method of latex cup insole, characterized in that the addition of, but when only the latex as the material of the insole when artificial heat is applied to form a cup-shaped insole is not formed properly due to the elasticity of the rubber, In addition, due to the intrinsic properties of the latex, there is a limit to increase the hardness of a certain level or more, when using a filler, etc. to improve the hardness, the hardness is improved while the inherent mechanical properties of the latex is lowered.

In order to improve the problem of the latex cup insole as described above, the mixed resin sponge sheet of homogeneous EVA and LDPE foamed in the Republic of Korea Patent Publication No. 2002-79304 (published on Oct. 19, 2002) 180 ℃ ~ 200 without applying the adhesive Although the patent application has been applied for an EVA cup insole sponge composition, which is heat-bonded by heating at a temperature of 3 seconds to 5 seconds, the moldability is better than that of the latex material, but after injecting the EVA cup insole sponge composition into a molding foamer 100 The workability decreases because it needs to be heated at a temperature of about 2 hours for 2 hours, and the efficiency of workability due to the finishing work such as removing the flaky foam adhering to the edge of the cup insole even after foam molding of the cup insole is reduced. Not only that, but there were problems with the resilience of the cup-in-sole sponge.

In addition, in the case of a bra cup, a bra cup manufactured by using a latex material or Korean Registered Utility Model Publication No. 20-315968 (2003. 5), as known in Korean Patent Laid-Open Publication No. 1999-43917 (published on June 15, 1999). In the case of a bra cup manufactured by using a material such as polyurethane or soft plastic, as described in (Registration No. 29), the edges attached to the edges of the bra cup after foam molding are injected into the mold and foamed. There was a problem that the efficiency of workability due to the finishing work, such as having to remove the foam residue.

Therefore, the present invention as a way to solve the above problems by forming a cup insole or bra cup with EVA emulsion and a liquid latex as the main raw material, excellent mechanical properties such as formability, tensile strength, tear strength, flat state It is an object of the present invention to provide a sponge composition for molding, characterized in that the work is possible by forming a continuous cup insole or bra cup by press working on the sheet.

In particular, the present invention is commercialized by mixing a water-soluble EVA emulsion emulsified EVA and a liquid latex to have both a useful EVA and an elastic modulus and tensile strength, such as light, easy to process and relatively inexpensive, unlike rubber or polyurethane materials It has that feature.

Referring to the configuration of the present invention for solving the above problems in detail as follows.

The present invention is a sponge composition for molding,

The main raw material is 22-30% by weight of EVA emulsion, 22-30% by weight of natural latex and 30-40% by weight of synthetic latex,

The auxiliary material relates to a molding sponge composition comprising 2 to 5 wt% of a blowing agent, 4.5 to 5.5 wt% of a vulcanizing agent, 1.5 to 2.5 wt% of a vulcanization accelerator, and 3 to 5 wt% of a vulcanization accelerator.

In the present invention, the "molding sponge" refers to a sponge in the shape of a plate for molding a cup insole or a bra cup.

Unlike the rubber or polyurethane material, the EVA emulsion used in the present invention is widely used as a material for shoe insoles or bra cups because it is light, easy to process, and relatively inexpensive. The EVA emulsion according to the present invention uses a water-soluble EVA emulsion in order to increase the compatibility with the latex, the amount is preferably from 22 to 30% by weight. If the amount of the water-soluble EVA emulsion is less than 22% by weight, the EVA resin may not exhibit sufficient properties of the EVA resin, and if it exceeds 30% by weight, the amount of latex and the amount of the water-soluble EVA emulsion may be relatively low. Due to excessive use, physical properties such as elongation and tensile strength may be lowered. And in order to show the said characteristic, the water-soluble EVA emulsion used by this invention is preferably used.

In addition, the natural latex used in the present invention is to improve the physical properties such as elongation and tensile strength of the shoe insole or bra cup, the amount of the solid content is preferably 22 to 30% by weight. If the amount of the natural latex is less than 22% by weight, there is a possibility that the physical properties such as elongation and tensile strength may decrease due to the lack of use of the natural latex. If the amount of the natural latex exceeds 30%, the properties such as elongation and tensile strength Although it is improved, the compressibility is lowered due to the lack of a relatively water-soluble EVA emulsion or synthetic latex, which may cause deterioration in moldability.

In addition, the synthetic latex used in the present invention improves the tear strength, compression ratio, and the like of shoe insoles or bra cup sponges, and is stable to early vulcanization and improves the characteristics of planar crosslinking. It is preferable to use weight%. If the amount of synthetic latex is less than 30% by weight, the physical properties of the sponge may be deteriorated due to the decrease in tear strength and compression rate due to the lack of the amount of synthetic latex. Due to the lack of water-soluble EVA emulsion or natural latex, there is a possibility that physical properties such as elongation and tensile strength may decrease.

The blowing agent used in the present invention is for foaming the water-soluble EVA emulsion and natural and synthetic latex as the main raw materials, and the amount of the blowing agent is preferably 2 to 5% by weight. If the amount of the foaming agent is less than 2% by weight, the shoe insole or bra cup sponge may not be sufficiently foamed, and thus the shock absorbing and restoring force may be lowered. Physical properties such as tensile strength and elongation may be lowered. Preferably, the blowing agent uses oleic acid.

And the vulcanizing agent used in the present invention is to improve the physical properties by cross-linking the chain polymer of the main raw material to improve the physical properties such as tensile strength, wear resistance, etc. of shoe insole or bra cup sponge, the amount of use is 4.5 ~ 5.5% by weight Preference is given to using. If the amount of the vulcanizing agent is less than 4.5% by weight, the main raw materials may not be sufficiently crosslinked, and thus the tensile strength and wear resistance of the cup insole sponge may not be improved. There exists a possibility that absorption power and restoring force may fall. It is preferable to use sulfur as a vulcanizing agent used by this invention.

In addition, the vulcanization accelerator used in the present invention is used for the purpose of shortening the vulcanization time in combination with the vulcanizing agent, lowering the vulcanization temperature, and reducing the amount of the vulcanizing agent to improve the physical properties of the shoe insole or bra cup. The amount of use is preferably 1.5 to 2.5% by weight. If the amount of the vulcanization accelerator is less than the above used amount, there is a fear that the effect of shortening the vulcanization time or reducing the vulcanization temperature may not be sufficiently exhibited. It doesn't rise anymore. The vulcanization accelerator is preferably used in combination of one or two or more of D (1,3-Diphenylguanidine), M (Mercaptobenzothiazole) or DM (Dibenzothiazyl disulfide).

In addition, the vulcanization accelerator used in the present invention serves to activate the vulcanization accelerator to further increase the physical properties of the water-soluble EVA emulsion and the latex mixture as the main raw material, the amount of which is preferably 3 to 5% by weight. When the amount of the vulcanization accelerator is less than the above usage range, the activation of the vulcanization accelerator may be lowered. When the amount of the vulcanization accelerator is exceeded, the activation of the vulcanization accelerator due to the increase in the amount of the vulcanization accelerator is further increased. It doesn't. The vulcanization accelerator is preferably used by selecting one of zincated and stearic acid.

Hereinafter, the configuration of the present invention will be described in detail by the following examples.

1.Manufacture of foam sheet

The foam sheet having a thickness of 4.5 ㅁ 0.5 mm was prepared by the compositions of Examples 1 to 3 and Comparative Example 1 described in Table 1 below, and in Comparative Example 2, a cup insole was prepared by foaming directly with a mold.

                                 TABLE 1

                                                       (Unit: weight%)

Ingredient Example Comparative example One 2 3 One 2 EVA 22 ¹⁾ 26 ¹⁾ 30 ¹⁾ - 60 ²⁾ Natural latex ³⁾ 30 23 22 50 - Synthetic latex ⁴⁾ 35 40 30 32 - Polyethylene ⁵⁾ - - - - 23 Blowing agent ⁶⁾ 3 2 5 5 5 sulfur 4 4.5 5.5 5.5 4.5 Vulcanization accelerator ⁷⁾ 2.5 1.5 2.5 2.5 2.5 Vulcanization Preparation ⁸⁾ 3.5 3 5 5 5

Note 1) Water-soluble EVA emulsion (USA, Air Products, EP 760)

   2) EVA resin (Hanhwa Petrochemical, 1320-EVA)

   3) Solid content is 60% by weight

   4) SBR 341 of Kumho Petrochemical Co., Ltd.

   5) Low density polyethylene (Hanhwa Petrochemical, 5321-LDPE)

   6) oleic acid

   7) D (Soxinol, Japan)

   8) Zincated (Hanil Chemical)

After the cup insole was molded using the 4.5 ㅁ 0.5 mm thick foam sheet prepared as the compositions of Examples 1 to 3 and Comparative Example 1 of the [Table 1], the results of the physical properties of the test were as follows. Same as the content.

                                 TABLE 2

division Example Comparative example One 2 3 One 2 Hardness 38 41 35 29 31 importance 0.15 0.12 0.13 0.24 0,14 Elongation (%) 217 203 198 110 164 Tensile Strength (kg / ㎠) 18 16 15 4 12 Tear strength (kg / cm) 7.0 6.6 6.3 2.1 5,1 Compression Ratio (%) ¹⁾ 90.3 90.8 90.1 43.6 -

Note 1) Compression ratio is (sheet thickness before molding-sheet thickness after molding) / sheet thickness before molding

According to the contents of [Table 2], in Examples 1 to 3 having water-soluble EVA emulsion and natural and synthetic latex as the main raw materials, elongation, tensile strength and phosphorus were compared to Comparative Example 1 using natural latex and synthetic latex as main raw materials. The physical properties of the thermal strength were excellent, and the compression ratio of the cup insole after molding was about twice as good. In the case of Comparative Example 2 containing EVA resin and polyethylene resin as the main raw materials, the physical properties of elongation rate, tensile strength and tear strength were slightly lower than those of Examples 1 to 3, but in case of Examples 1 to 3 While it is possible to manufacture a continuous cup insole by a press method using a sheet, in the case of Comparative Example 2, the method of forming the foam after injecting the composition into the mold and foaming is very low. Even after foam molding, there is a problem in that the workability is low due to the finishing work such as removing the poultry foam residue attached to the edge of the cup insole.

It has been described in detail through a number of embodiments for the molding sponge composition according to the present invention. The present invention is an example of forming a cup insole in the above embodiment, but is not necessarily limited to the above cup insole molding, in addition to the above specific embodiment by those of ordinary skill in the art to which the present invention belongs Various modifications are possible.

The present invention having the above-mentioned composition emulsifies EVA in order to have all of the advantages of oil-soluble EVA having high strength, such as elastic modulus and tensile strength, which are light, easy to process, and relatively inexpensive, unlike rubber or polyurethane materials. By forming the cup insole or bra cup by mixing the main ingredients of the water-soluble EVA emulsion and liquid latex, it is excellent in formability and mechanical properties, and it is possible to form a continuous cup insole or bra cup by press working on a flat sheet. Good workability is an advantage.

Claims (5)

In the sponge composition for molding, The main raw material is 22-30% by weight of EVA emulsion, 22-30% by weight of natural latex and 30-40% by weight of synthetic latex, The secondary raw material is 2 to 5% by weight of the foaming agent, 4.5 to 5.5% by weight of the vulcanizing agent, 1.5 to 2.5% by weight of the vulcanization accelerator and 3 to 5% by weight of the vulcanization accelerator. The method of claim 1, The synthetic latex is a molding sponge composition, characterized in that styrene-butadiene latex. The method of claim 1, The foaming agent is a sponge composition for forming, characterized in that the blowing agent uses oleic acid. The method of claim 1, Wherein the vulcanization accelerator D (1,3-Diphenylguanidine), M (Mercaptobenzothiazole) or DM (Dibenzothiazyl disulfide) of the molding sponge composition, characterized in that used in combination with one or two or more. The method of claim 1, Said vulcanization accelerator aids in forming, characterized in that the use of one selected from galvanized, stearic acid.