KR20010068014A - airbag for shoes plate and its processing method - Google Patents

Abstract

PURPOSE: A shock absorbing assistant for outsole is provided, which has injection of a viscous fluid mixed with phosphorescent pigment or luminous pigment. CONSTITUTION: A shock absorbing assistant for outsole comprises the parts of: (i) a cover which is made of polyurethane material by blow-forming in a mold, and has a vacuum empty room before injecting contents in it; (ii) a silicon gel of 800-1200Cp viscosity to be injected into the cover, which is prepared by reacting siloxane polymer with vinyl radical and siloxane polymer with hydrogen radical in a ratio of 1:1 in the cover. The entrance of the cover is treated with high-frequency waves to seal up after silicon gel is formed.

Description

Shock absorbing member for shoe sole and its manufacturing method {airbag for shoes plate and its processing method}

The present invention relates to a shock absorbing member for a shoe sole, and more preferably, a semi-solid gel-like material having fluidity according to an external force applied thereto is contained therein, so that the shock absorbing ability is excellent and the physical properties do not change due to temperature. It relates to a shoe cushion member for excellent characteristics and a method of manufacturing the same.

In general, in recent years, various kinds of shoes having various designs have been manufactured due to the improvement of living standards and various needs of consumers, and special shoes according to each function are also released in various ways. However, it can be seen that shoes released in various kinds are similar in structure.

As shown in FIG. 1, a generally used shoe 1 is composed of a sole 2 and an upper 3 coupled to an upper portion of the sole 2. The sole 2 consists of an outsole 2a constituting the sole of the shoe and a midsole 2b constituting the midsole of the shoe. The outsole (2a) is made of a rubber material so as to meet the function for wear resistance and anti-slip, the midsole (2b) is made of a foam-molded structure of a synthetic resin material of various materials.

On the other hand, according to the change of the times, day by day, the types of shoes are also diversified, and various materials are being developed to perform unique functions. For example, the midsole 2b, which has a midsole, should not only have excellent shock absorbing and restoring power in order to reduce the shock transmitted to the human body when landing on the ground, but also has a light weight in order to reduce fatigue on the foot when worn for a long time. Should. Therefore, the development of various materials capable of performing these functions is being made as well as inserting a separate member to perform these functions. Representative cases can be seen that the air bag is embedded, various members such as air bags have become an essential item for shoes requiring high performance.

The airbag has a bag shape in which air is injected into the inner empty space, so that the shock absorber according to the external force applied to the inside of the shoe sole is made. However, such airbags currently used have the following problems.

First of all, the shock absorption is not good. That is, in order to smoothly absorb and absorb shocks during exercise, it must be able to sufficiently support the applied external force. To this end, in order to prevent the airbag from bursting due to impact, the material of the airbag itself is manufactured to have a relatively high hardness and have a thickness of about 1 mm or more. Therefore, under such hardness and thickness of the airbag, there is a problem in that the shock absorbing force is lowered instead of being prevented from bursting by an external force applied thereto.

On the contrary, when the shock absorbing power is improved, the resistance to external force applied is weak, so that a burst occurs easily and thus it may not be used for a long time.

In addition, commercially available airbags contain gaseous gas inside, so the molecular motion states of the high temperature in the summer and the low temperature in the winter are different, so the shock absorption and resistance to external forces are different, and the actual shock absorption is very weak in cold winter. Not only that, there is a problem that the burst easily occurs.

Accordingly, the present invention is to solve the above problems, an object of the present invention is to provide a cushioning member for a shoe sole and a method of manufacturing the same, the shock absorbing force is further improved, and the resistance to external force applied is more improved.

It is another object of the present invention to provide a cushioning member for a shoe sole having a constant shock absorbing force and an external force resistance phase regardless of a temperature deviation with respect to high and low temperatures. It is an object of the present invention to provide a method of manufacturing to be dispersed evenly.

1-a perspective view of a typical shoe.

Figure 2-Manufacturing process diagram of a shoe cushion member for the present invention.

3 is a perspective view of a cushion member manufactured by blow molding during the cushion member manufacturing process according to the present invention.

Figure 4 is a view showing a state of the shoe cushion member for the present invention.

Explanation of symbols on the main parts of the drawings

10: Model of cushion member 10a: passage inlet

20: cushion member 20a: cushion member inlet

The present invention for achieving the above object, in the cushion member for a shoe sole, the empty space is formed therein, and a cover made of polyurethane material; There is a technical gist thereof to provide a cushioning member for a sole, comprising: a silicone gel injected into an empty space in the cover and having a viscosity of 800 to 1200 Cp.

Preferably, the silicone gel is a 1: 1 mixture of a siloxane polymer having a vinyl group and a siloxane polymer having a hydrogen group in a terminal group to be formed by a crosslinking reaction, and the silicone gel contains solid pigment particles exhibiting photoluminescence or light emission. It is made to include more.

On the other hand, according to the second aspect of the present invention, the process of injecting a polyurethane stock solution into a mold of a predetermined shape, and forming a cushion member shape in which an empty space is formed by blow molding by blowing air; Solidifying the cushion member by a hardening reaction by applying heat to the mold having the cushion member shape; Discharging the air remaining in the empty space in the solidified cushion member to the outside to make a vacuum; Injecting a siloxane polymer having a vinyl group and a siloxane polymer having a hydrogen group in a ratio of 1: 1 in the liquid phase terminal in the inner empty space; A process of crosslinking at room temperature such that a silicone gel having a viscosity of 800 to 1200 Cp is formed by the reaction of the injected raw material; And to provide a shoe cushioning member manufacturing method comprising the; process to ensure that the silicone gel is completely sealed in the cushion member by the high-frequency treatment of the inlet of the cushion member formed with a silicone gel therein.

Hereinafter, the present invention having the above characteristics will be described in more detail.

The greatest feature of the present invention is to maintain a constant physical properties even over a wide range of temperature, and to contain a viscous fluid in a semi-solid state inside the cushion member, which is excellent in the dispersing force according to the applied external force. The reason for the above is that in the conventional shock absorbing cushion member used in the sole is filled with gaseous gas in the form of an air bag. In the gas-filled state, as described above, when the applied external force is more than a predetermined amount, it is not only blown off by the gas pressure but also does not maintain a constant state in the temperature change of the high temperature and the low temperature. Therefore, in the present invention, the fluid in the viscous state is used, but the same shock absorption coefficient and bursting is prevented by maintaining the viscosity in a constant state at all times even at high temperature changes of high and low temperatures.

The viscous fluid used in the present invention should have the following characteristics.

First, it must have heat resistance to withstand high temperatures and cold resistance to withstand low temperatures. This takes into account the conditions under which the sole is used. In the hot tropics, it should be able to withstand unchanged at about 100 ℃ due to the accumulation of heat when it is worn for a long time in the tropics, and it should be able to withstand unchanged at minus -30 ℃ in cold winter days.

Excellent vibration absorption capacity. This means that the vibration absorbing ability of the viscous fluid itself should be excellent because the vibration generated by the external force applied as the minimum function of the cushion member must have its own absorbing ability to deliver the minimum shock to the user.

In addition, the deformation should be easy. In other words, the viscous fluid itself is soft, so it must be easily deformed even under small load stresses, and the shape of the viscous fluid itself is excellent to facilitate deformation. And because it has a low modulus of elasticity, stress due to thermal expansion should be minimized.

In studying the viscous fluid having the above characteristics, the inventors found that the organosilicon polymer, that is, the silicone gel, satisfies the above characteristics. As is known, the silicone polymer may be variously changed in physical properties such as rubber and plastic from a viscous liquid state. The silicone polymer for use in the shoe cushioning member according to the present invention of the silicone polymer should have a range of constant viscosity of about 800 to 1200Cp in order to have a smooth flow, and also, depending on the temperature change in addition to the basic conditions of heat resistance and cold resistance The coefficient of expansion should be less than one. And, the elastic modulus should be 10 ⁶ or less.

The silicone gel having the basic conditions as described above is preferably a structure in which low-density crosslinking density is formed as an organopolysiloxane, and polymer formation by monomers should be made of a two-component type by addition reaction in the polymer bonding structure of silicon. The basic structure for this reaction is shown below.

As shown in the above formula, it is preferable that the crosslinking is achieved by the reaction between the vinyl functional polymer and the hydrogen functional polymer. And it is good in workability that hardening by such bridge | crosslinking makes room temperature hardening. In addition, as will be described later, in order to manufacture the cushion member, the vinyl functional polymer and the hydrogen functional polymer, which are not cured, are injected into the air bag, but the crosslinking reaction is performed in the air bag.

The reason for the above is that the viscosity of the viscous fluid used in the present invention is about 1000 Cp, sticky gel state. It is not easy to inject into the airbag in the gel state. Therefore, each raw material in an unreacted state is in a liquid state, and thus has good fluidity, thereby injecting the unreacted raw material into a gel state by a crosslinking reaction in the air bag.

Next, a description will be given with reference to the drawings showing a method of manufacturing a cushion member with a silicon gel according to the present invention as described above.

Figure 2 is a manufacturing process diagram of a shoe cushion member for the present invention, Figure 3 is a perspective view of the air bag manufactured by the finishing step of the manufacturing process of the cushion member. 4 is a perspective view of a cushion member manufactured according to the present invention.

As shown, first, a raw material for preparing an airbag for a cushion member is prepared. The raw material is polyurethane in the synthetic resin material. Polyurethane has excellent transparency, heat resistance, and cold resistance in terms of physical properties, not only maintains high strength, but also has excellent impact resistance due to repeated use, and exhibits high elasticity. In addition, since it exists in a liquid state at room temperature, it is easy to handle and is a material used universally.

Blow molding is performed by injecting the polyurethane stock solution into a mold in which the shape of the cushion member is engraved and blowing air. By the blow molding, the cushion member model 10 having an empty space therein is completed. After the model 10 is formed, heat is applied to harden the polyurethane to produce a complete shape.

In the above state, the cushioning member model 10 is made of polyurethane, so that the air injected therein is discharged to the outside by operating a vacuum pump. After that, the silicon gel (a) is filled in the empty space. Hereinafter, the process of filling the silicon gel (a) will be described in more detail.

As described above, it is not easy to fill the silicone gel a in the cushion member model 10 in the state of viscosity. Therefore, the raw material in which the silicon gel (a) is formed by the reaction is injected, and the silicone gel (a) is formed by cross-linking and curing in the cushion member model 10. To this end, a silicon polymer having a vinyl group in the terminal group as described above and a silicon polymer having a hydrogen group capable of addition reaction to the vinyl group are used as raw materials. Since the raw material is in a liquid state at room temperature, the fluidity is excellent and easily injected into the cushion member model 10. Each of the raw materials is injected into the cushion member model 10 through a passage at a ratio of 1: 1, and hydrogenation is performed in the vinyl group in the cushion member model 10 so that crosslinking curing by chemical bonding is performed. Of course, such cross-linking curing is a room temperature curing type, so no separate temperature manipulation is required, and a small amount of catalyst is injected into the raw material injected into the cushion member model 10 to promote the reaction. Such a catalyst is sufficient as long as it is a catalyst used for curing silicon with metals such as platinum and tin.

On the other hand, by injecting a special paint, such as a phosphorescent pigment or a light-emitting pigment when the raw material is injected into the cushion member model 10, it is possible to implement a variety of functionalities that can not be expressed in conventional airbags. That is, conventionally, since the air is filled inside, it is not possible to inject a separate light-emitting pigment photoluminescent pigment or the like in a solid particle state. However, in the present invention, since the viscous fluid is provided in the cushion member model 10, the pigment particles such as the photoluminescent pigment and the light emitting pigment, which are the fine solid particles, may be mixed together to implement a function represented by the pigment. There are advantages to implementing various functions in the member.

Next, in the state in which the raw material in the liquid state is injected into the cushion member model 10, the silicon gel (a) by cross-linking curing of the raw material is formed. The curing reaction is to be made at room temperature curing, it is made by leaving for about 10 to 24 hours. In the state of crosslinking curing as described above, a silicone gel (a), which is a viscous fluid with low crosslinking density, is formed.

As described above, the section member 20 is completed by sealing the part of the section member inlet 20a connected to the passage 12 in a state where hardening is performed in the section member model 10.

As described above, according to the present invention, by injecting a viscous fluid having fluidity as the cushioning member for the sole, there is an effect of excellent shock absorption and improved fracture strength.

In addition, there is another effect that can express the additional function represented by the pigment by mixing a functional pigment in the form of solid particles such as a photoluminescent pigment and a light-emitting pigment in a viscous fluid.

Claims (5)

In the shoe cushion member for sole, An empty space formed therein, and a cover made of polyurethane; Shoe cushioning member, characterized in that consisting of; a silicone gel is injected into the empty space in the cover, the viscosity has a viscosity of 800 to 1200 Cp. The method of claim 1, The silicone gel is a shoe cushion member, characterized in that formed by cross-linking by mixing 1: 1 siloxane polymer having a vinyl group and a siloxane polymer having a hydrogen group in the terminal group. The method according to claim 1 or 2, The silicone gel shoe cushion member, characterized in that further comprises a solid pigment particles exhibiting photoluminescence or light emission. Injecting a polyurethane stock solution into a mold of a predetermined shape and forming a cushioning member shape in which an empty space is formed by blow molding by air blowing; Solidifying the cushion member by a hardening reaction by applying heat to the mold having the cushion member shape; Discharging the air remaining in the empty space in the solidified cushion member to the outside to make a vacuum; Injecting a siloxane polymer having a vinyl group and a siloxane polymer having a hydrogen group in a ratio of 1: 1 in the liquid phase terminal in the inner empty space; A process of crosslinking at room temperature such that a silicone gel having a viscosity of 800 to 1200 Cp is formed by the reaction of the injected raw material; And Method of manufacturing a shoe sole cushion member, characterized in that consisting of; a high-frequency treatment of the inlet of the cushion member formed with a silicone gel inside the silicone gel is completely sealed in the cushion member. The method of claim 4, wherein Shoe cushion manufacturing method for a shoe sole, characterized in that the injection process of the siloxane polymer to form the silicone gel further comprises a solid pigment particles.