KR100424111B1 - Shank board for mid-sole and its preparing method - Google Patents

Abstract

The present invention relates to a shank board for shoe soles and a method for manufacturing the same, and more specifically, to a waste fiber and cotton produced in a textile factory, a polyester and a polypropylene are mixed and an acrylic-styrene-based binder is added thereto. By adding a polymer as a functional emulsion and manufacturing a press board for shoe midsoles, it improves the environment by utilizing waste resources that have been discarded in the past and improves the adhesive strength and density of the product due to the efficient use of effective ingredients. The present invention relates to a new midsole shank board which greatly improves the strength of the shoe sole, improves the weight and processability of the product, and shows excellent properties in various physical properties such as wear resistance, adhesiveness, and water resistance.

Description

Shank board for mid-sole and its preparing method

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a shank board for shoe soles and a method for manufacturing the same. More particularly, polyester and polypropylene are mixed with waste fibers and cotton generated in a textile factory, and acrylic-styrene-based binders are added thereto. By adding a polymer as a functional emulsion and manufacturing a press board for shoe midsoles, it improves the environment by utilizing waste resources that have been discarded in the past and improves the adhesive strength and density of the product due to the efficient use of effective ingredients. The present invention relates to a new midsole shank board which greatly improves the strength of the shank board, improves the light weight and processability of the product, and shows excellent properties in various physical properties such as wear resistance, water resistance, and adhesiveness.

Conventionally used shoe soles and outsoles are mainly used as ethylene vinyl acetate copolymer alone, or foams having independent bubble structures molded by a press molding method based on a small amount of rubber and resin blended. However, the press-formed midsole has the advantage of being lighter and less discolored compared to the midsole manufactured on the basis of urethane, but it is inferior in general properties such as tear strength, compressive permanent shrinkage characteristics and adhesiveness. There are disadvantages.

In addition, as a slight improvement of the disadvantages of the conventional shoe sole, Korean Patent Publication No. 95-28690 discloses hydrolysis of certain ethylene vinyl acetate copolymers, or various monomers, acid anhydrides, resins and rubbers in the presence of organic peroxides. It is based on modified ethylene vinyl acetate copolymers such as ethylene vinyl acetate copolymer grafted, and the kneaded material mixed with other additives is introduced into an injection molding machine to be injected into a high-temperature mold, and then heated and pressurized. In the crosslinking reaction of the organic peroxide and the decomposition reaction of the blowing agent at the same time, a technique for continuously manufacturing a foam for shoe midsoles by rapidly expanding the mold and expanding in three dimensions has been proposed.

However, in this case, the specific gravity is small even though only one step is performed without reshaping or other complicated processing, and the physical properties including tear strength, compression set and adhesion are improved, but still excellent in physical properties. There is a problem that is difficult to conclude that the effect.

In addition, in some cases, high-pressure molded shoe soles have been proposed by adding waste fiber cotton and synthetic resin, but these products are hard and not ventilated at all when walking, especially when there is a lot of sweat on winter feet. There was a problem such as athlete's foot caused by a lot of moisture in between and the smell of shoes, as well as frostbite when exposed to a long time. In addition, these fiber midsoles are made of cotton and synthetic resins, so they are weakly damaged due to their durability, they are not resilient when bending occurs, they are not easily peeled off and do not absorb elasticity in humid conditions. When used on the back for a long time there was a serious problem of cracking and cracking.

In order to solve this problem, Korean Patent Laid-Open Publication No. 97-25470 extracts fibers by using properties of products having excellent fiber, such as plants such as scrubbers and palm trees, and then extracts the fibers into emulsion resin or melamine resin ( Melamin Resin) and Styrene Butadiene Resin, a highly elastic rubber resin, are added as a binder, mixed, and dried, cut, pressurized and molded to produce a natural ventilated midsole.

However, this method has a physical property improvement effect, but the collection and processing of the fibrous product is not easy, the manufacturing cost is expensive and the manufacturing process is difficult, it is difficult to commercialize in general.

In the present invention, to solve the problems in the prior art as described above and to take advantage of the advantages in order to manufacture a shoe midsole in a new way more environmentally friendly and very effective physical properties to the human body, a new concept with even durability such as shoe soles As a result of various studies to develop shoe midsoles, it is necessary to improve the properties of shank boards applied to shoe midsoles. After mixing, the acrylic-styrene polymer having a specific composition as a binder is added to the functional emulsion and thermocompressed to produce a shoe sole board and applied to the shoe sole to obtain a high quality environmentally friendly product. I found out that I can.

Accordingly, the present invention improves the adhesive strength and density of the product due to the combined use of the binder components and the like efficiently produced by utilizing the waste resources discarded in the prior art to greatly increase the strength of the shank sole for shoes The purpose of the present invention is to provide a new shoe sole which is improved, light weight and excellent workability of the product and excellent properties in various physical properties such as wear resistance, adhesion, water resistance.

The present invention relates to a shoe sole for a shoe sole made of a mixture of waste fibers and cotton, a mixture of polyester, polypropylene and a conventional additive is thermocompressed, 20 to 40% by weight of acrylonitrile as a binder, 0 to 40 styrene monomer Wt%, methyl methacrylate 0-40 wt%, acrylamide 0.2-3 wt%, ethylacrylate 5-10 wt%, n-butylacrylate 1-10 wt%, ethylene thioglycol 0.05-2 wt%, Acryl-styrene functional emulsion polymer containing 1 to 10% by weight of glycidyl methacrylate (GMA) and 50 to 70% by weight of water, and containing 0 to 3.0% by weight of at least one component selected from catalysts and emulsifiers. 5 to 30 parts by weight based on 100 parts by weight of the mixture is characterized in that the thermo-compression.

The present invention will be described in more detail with reference to the manufacturing process as follows.

The process of manufacturing a general shoe sole is briefly described as follows. First, a compound containing a crosslinking agent, a foaming agent, and other additives in an ethylene vinyl acetate resin alone or a rubber-blended resin is prepared in a sheet and closed. After inserting into the mold, it is processed under high temperature and pressure using a press machine for 20-30 minutes to decompose the crosslinking agent and foaming agent, and then open the mold momentarily to remove the pressure. To obtain a primary foam having a soft independent bubble structure. It is turned into a certain thickness and size using a skiving machine and a cutter, and then trimmed and ground by a skilled worker and put back into a mold having a product shape at 150 to 160 ° C. Hot press for 5 to 20 minutes, the mold is closed again, and cooled at 10 to 20 minutes at low temperature of about 10 to 20 ° C to remove the product to obtain a desired type of product through a repressing process. .

In the present invention, the manufacturing method of the above-described general shoe sole is generally used as it is, and in particular, waste fiber and cotton, which have been used in some parts as raw materials in order to manufacture the shank board applied to the shoe midsole, are usually used here. Among the resin components of, polyester and polypropylene are particularly mixed, and in particular, a binder component of a specific composition according to the present invention is mixed. At this time, the polyester and polypropylene to be used is a conventional polyester fiber or polypropylene fiber component selected from, for example, water-resistant cold-melting low-melting polymer resin is mixed at a ratio of 10 to 30 parts by weight with respect to 100 parts by weight of waste fibers. It is preferable in terms of physical properties.

Next, the mixture is cut and crushed, beated, and then molded into cardboard through a papermaking process, and then pre-dried by spraying (or dipping) the binder resin of the composition. Shank boards for shoe soles can be produced by thermocompression bonding at a temperature of 250 ° C. and a pressure of 100-310 Kg / cm 2 for about 3 to 10 minutes.

According to the invention, the waste fibers are mixed with cotton alone or cut and crushed by addition of low melting polyethylene and polypropylene fibers or yarns, mixed with water in an aggregate storage tank and then made into papermaking, and then dried. In addition, an acrylic-styrene-based binder component, which is a functional emulsion polymer, prepared and used in the present invention, is added. In this case, the binder component may be mixed at a ratio of 5 to 30 parts by weight based on 100 parts by weight of the raw material mixture in which the resin component is mixed.

After the binder is mixed in this way it can be dried, thermocompressed and processed in the same manner as described above to manufacture the shank shank board for shoes.

According to the present invention, it can be said that there is a great feature in the composition of the binder component above all, and the binder composition of the present invention uses one prepared by efficiently combining various components as described above.

The binder according to the present invention is 20 to 40% by weight of acrylonitrile, 0 to 40% by weight of styrene monomer, 0 to 40% by weight of methyl methacrylate, 0.2 to 3% by weight of acrylamide such as acrylamide, N-methylol acrylamide and the like. %, Ethyl acrylate 5-10%, n-butylacrylate 1-10%, ethylene thioglycol 0.05-2%, glycidyl-methacrylate 1-10% and water 50-70% Containing 0 to 3% by weight of one or more components selected from other catalysts such as potassium pyrophosphate and ammonium sulfate, and emulsifiers such as polyoxyethylene nonylphenyl ether and sodium lauryl sulfate, as necessary. Can be used preferably.

Among the components of the binder, acrylonitrile, styrene monomer, methyl methacrylate and acrylamide have improved physical properties of surface friction fastness of the resin used, water retention, effective bondability with the fiber component, proper hygroscopicity and proper physical properties. In addition to use to maintain, if this content is out of the above range may cause problems in resin formation and storage.

Ethyl acrylate is added and used to enhance the surface friction fastness and adhesion of the resin, if the amount of use exceeds the above range, there is a problem in the friction fastness after solidification adhesion, n-butyl acrylate also out of the above range It is not preferable because the hardness of the resin is too high to cause cracking of the product or the hardness is too low to increase the stretching, which may cause problems in the marketability.

In addition, since the glycidyl methacrylate (G.M.A) is contained in the binder composition of the present invention, when the content thereof is particularly small, a problem may occur in that the modification and water resistance of the resin are reduced.

In addition, the binder according to the present invention, if necessary, contains less than 1% by weight of a catalyst selected from potassium perphosphate, sodium bisulfate and ammonium persulfate and less than 2% by weight of an emulsifier selected from polyoxy ethylene nonylphenyl ether and sodium lauryl sulfate. In addition, it is preferable from the viewpoint of various physical properties that the sum of these two components is maintained in the range of 0.5 to 3.0% by weight in the total binder composition.

As described above, when the composition of the binder component is used in an appropriate ratio as described above, the weight of the fiber is reduced by the use of the fiber component and at the same time maintains low hygroscopicity, and has excellent water resistance, adhesiveness, processability, and durability. If the content ratio of the binder component is less than the above range, it cannot be obtained to the extent that the above various physical properties are intended, and it becomes a factor of lowering the physical properties such as a decrease in strength, and even if it exceeds the original purpose. Not suitable for

As such, the shoe midsole shank board prepared according to the present invention exhibits excellent properties compared to the conventional shoe midsole shank bar, the strength of the conventional shoe sole is about 10 ~ 20Kg / ㎠ The product of the present invention by using a hot press and a binder of a specific composition as described above greatly improves the density and adhesive strength, showing an effect of significantly improved strength of 90Kg / ㎠ or more.

In addition, it is possible to effectively use various waste fibers, and can improve the disadvantages of existing products while having an environmental improvement effect and an economic effect, the conventional shoe sole is heavy because it uses too much pulp (wood) mainly Compared to the weak water resistance, the durability and the processability were limited, the product of the present invention is very light in weight, excellent in water resistance, and excellent in moldability and adhesion. It has excellent durability characteristics such as wear resistance, water resistance, interlayer peeling resistance, and torsional resistance.

As described above, the present invention uses a waste fiber and a functional emulsion as a binder, compared to a product currently imported from abroad, and incorporates iron (hip) and midsole press boards, which are generally required for shoe soles. When it is not cracked, it can withstand high strength and has good adhesive strength with the reinforcement of the midsole. It is also characterized by high hardness, moderate absorption, and very light weight. In particular, the product of the present invention exhibits a very excellent characteristic that can not be achieved in the existing product in that it is about 30 to 40% lighter than the conventional product and there is no adhesiveness and cracking phenomenon.

Therefore, the shoe midsole of the present invention can be effectively applied to high-quality shoe products having lighter and superior physical properties and special shoes used in intense conditions.

Each component composition in the present invention as described above is included in the scope of the present invention within a range that can achieve the object of the present invention even if some modification.

Hereinafter, the present invention will be described in more detail with reference to Examples, but the present invention is not necessarily limited to the Examples.

<Examples 1 and 2>

40Kg of waste fiber, 5Kg of polypropylene, 10Kg of polyethylene (low melting point fiber) and 40Kg of waste cotton fiber are mixed and finely cut and crushed to have a particle size of about 10mm, and beating is performed. After the molding was completed in the form of a cardboard.

The paperboard molded paper was sprayed (or immersed) to sufficiently wet the binder resin prepared in the composition shown in Table 1 below to increase the adhesive density of the fiber on the paperboard and pre-dry it.

The cardboard produced as described above was applied to the hot plate maintaining the temperature of about 200 ℃ around 150Kg / ㎠ and 300Kg / ㎠ pressure for 8 minutes and 5 minutes respectively to produce a lightweight shoe sole with excellent density and strength.

Among the above processes, the physical properties of the final product of the shoe sole could be changed by appropriately adjusting the size of the papermaking raw material, the change of the bitter work process, the temperature, pressure, and time of the rolling process.

Experimental Example

Shank board for shoe soles manufactured as in the above embodiment is RK (flexible, commercially available product 1), FK (rigid, commercially available product 2), which is the Japanese PASCO (trade name) product that is currently in circulation as shown in Table 2 As a result of comparing the physical properties with the two kinds of products, it was possible to reduce the weight by at least 30 to 40% more than the imported products, and the water absorption rate was 3 to 4 times better, showing excellent water resistance, and the strength was 95Kg / ㎠ The level was able to produce the optimal midsole. In addition, the imported commercial product is peeling between the layers due to the working relationship at the time of papermaking, the example product of the present invention did not occur between the peeling phenomenon.

In Table 2, the tensile strengths A and B were tested for the case of different measurement conditions.

As described above, the sole board for shoe soles according to the present invention is mixed with the waste fibers and cotton generated in the textile factory and the resin is added to the predetermined conditions by adding an acrylic-styrene polymer having a specific composition as a binder as a functional emulsion It is manufactured by thermo-compression bonding in order to improve the environment by effectively utilizing the waste resources discarded in the past and to improve the adhesive strength and density of the product by using the effective binder ingredients. The product's light weight and processability are excellent, and shoe soles can be manufactured in various physical properties such as wear resistance, moisture resistance, etc., which are superior to conventional imported products, so that high-quality shoes and functional shoes can be worn under intense conditions. There is an effect that can be applied effectively .

Claims (3)

In the sole of the shoe made by heat-compressing a mixture of waste fibers and cotton with a mixture of polyester, polypropylene and conventional additives, 20 to 40% by weight of acrylonitrile, 0 to 40% by weight of styrene monomer, 0 to 40% by weight of methyl methacrylate, 0.2 to 3% by weight of acrylamide, 5 to 10% by weight of ethyl acrylate, n-butylacryl 1 to 10% by weight, 0.05 to 2% by weight of ethylene thioglycol, 1 to 10% by weight of glycidyl methacrylate and 50 to 70% by weight of water, 0 to 3.0 of at least one component selected from catalyst and emulsifier A shoeboard for shoe soles, characterized in that the acrylic-styrene-based functional emulsion polymer containing the weight% is added by 5 to 30 parts by weight based on 100 parts by weight of the mixture. The method of claim 1, wherein the catalyst and emulsifier component is less than 1% by weight of a catalyst selected from potassium perphosphate, sodium bisulfate and ammonium persulfate and less than 2% by weight of an emulsifier selected from polyoxyethylene nonylphenyl ether and sodium lauryl sulfate. And the sum of these two components is in the range of 0.5% to 3.0% by weight in the total binder composition. In the manufacture of the shoe sole by mixing the usual additives in the resin and waste fiber and cotton, and heat-compressing the mixture, Waste fibers and cotton are mixed with polypropylene or polyethylene, cut, crushed, beated, and then molded into cardboard through a papermaking process. 20 to 40% by weight of acrylonitrile as a binder, styrene monomer 0-40 wt%, methyl methacrylate 0-40 wt%, acrylamide 0.2-3 wt%, ethylacrylate 5-10 wt%, n-butylacrylate 1-10 wt%, ethylene thioglycol 0.05-2 Acryl-styrene functional emulsion polymer containing 1% by weight, 1-10% glycidyl methacrylate and 50-70% by weight water, and 0-3.0% by weight of at least one component selected from catalysts and emulsifiers. Was applied by spraying or depositing 5 to 30 parts by weight with respect to 100 parts by weight of the mixture, followed by preliminary drying, and thermally compressing it for 3 to 10 minutes at a temperature of 150 to 250 ° C. and a pressure of 100 to 310 Kg / cm 2. Method for producing a board in window shank of the shoe, characterized in that the.