JP5988470B2 - Insoles - Google Patents

Description

The present invention relates to a shoe insole imparted with a deodorizing effect using basic powder particles.

Various insoles have been devised so far.

Patent Publication 2006-254 Patent Publication Hei 8-238108

Utility Model Publication 7-5403

So far, various insoles have been devised, such as those that use activated carbon or the like to impart a deodorizing effect, but products with even better effects are desired. The present invention solves this concern.

One or more holes of an arbitrary shape are penetrated through the insole body formed using a material of a certain thickness having the shape of a shoe insole, and basic powder or basic powder is inserted into the hole. A shoe insole with a structure in which both the body and the moisture-absorbing powder granules are filled, and a sheet-like breathable material is attached to both sides of the insole body to contain them.

According to the present invention, since the basic powder body functions to neutralize acidic components that cause odors, the odor of shoes and feet can be satisfactorily eliminated.

External perspective view of the present invention Exploded perspective view of the present invention 2 is an external perspective view of the insole body that is a part of the present invention shown in FIG. FIG. 3 is a perspective view of the basic particles and the moisture absorption-contributing particles filled in the hole of the insole body shown in FIG. Exploded perspective view showing another embodiment of the present invention. 5 is an external perspective view of the insole body that is a part of the present invention shown in FIG. FIG. 6 is a perspective view of the basic particles and the moisture absorption-contributing particles filled in the hole of the insole body shown in FIG. In the present invention, the basic granule and the moisture absorption-contributing granule filled in the insole body in a stick shape are sealed in the basic granule inclusion member and the moisture absorption-contributing granule inclusion member. Exploded perspective view showing Partial enlarged perspective view of FIG. External appearance perspective view of the insole body which is a part of this invention shown by FIG. FIG. 10 is an external perspective view of the basic granule inclusion member and the moisture absorption-contributing granule inclusion member filled in the hole of the insole body shown in FIG. The unit expansion exploded perspective view of the basic granule inclusion member and the moisture absorption contribution granule inclusion member shown in FIG. The external appearance perspective view which shows the Example in the form which does not have a hole in an insole body in this invention The exploded perspective view in the Example at the time of making a hole in the insole body in the present invention

The insole of the present invention comprises an insole body (1), a basic powder (2), a moisture absorption-contributing powder (3), and a breathable material (4). The insole body (1) is provided with one or more holes (5), and the basic powder (2) or basic powder (2) and moisture absorption contribution to the hole (5). Both powder bodies (3) are filled. The insole body (1) is formed of a material with a certain thickness having the shape of an insole of a shoe, and the shape, size and number of the holes (5) are arbitrary. A sheet-like breathable material (4) is attached to both surfaces of the insole body (1) by an adhesive, stitching, thermocompression bonding, or the like, and the basic powder (2) or basic Both the granular material (2) and the moisture absorbing contribution granular material (3) are contained in separate holes (5). Here, the basic granular material (2) has a powder or granular shape, and its aqueous solution shows alkalinity, and specifically includes baking soda, scallop calcined calcium, and the like. . Sodium bicarbonate is sodium bicarbonate (sodium bicarbonate (NaHCO 3)), and its aqueous solution is weakly alkaline. Baking soda is a highly safe product that is also used in food additives, and can effectively eliminate foot odor by neutralizing acidic components that cause bad odor in shoes and feet. The cause of the smell of shoes and feet is said to be caused by acidic substances produced by decomposition of the components of foot sweat by bacteria such as Staphylococcus epidermidis and bacteria. By neutralizing this acidic component with baking soda, the odor is satisfactorily eliminated. The odor component of shoes and feet passes through the sheet-like breathable material (4), touches the basic powder (2), and is neutralized to reduce the odor. Since the hole (5) penetrates the insole body (1), the odor components of shoes and feet pass through the sheet-like breathable material (4) from both the front and back surfaces of the present invention, and the base Odor is reduced by touching the neutral powder (2) and neutralizing. Conventionally, it is well known that baking soda has a high effect in eliminating malodors. It is well known that baking soda powder is effective in removing the bad smell of shoes in shoes, but this method cannot be used because the feet become dirty with baking soda powder when wearing shoes. In addition, when the shoes are taken off, it is troublesome to clean the baking soda powder each time the shoes are used again. The present invention also helps to solve this difficulty. Scallop calcined calcium has a similar effect, and the use of these can effectively eliminate the smell of shoes and feet. In addition to these, there are aluminum hydroxide, iron hydroxide, copper hydroxide, calcium hydroxide, barium hydroxide, etc. as basic powders, and it seems that there are similar effects, but considering safety Baking soda, scallop calcined calcium, etc. seem to be more appropriate. The moisture absorption-contributing granular material (3) refers to a powder or granular shape whose component absorbs moisture, and specifically includes silica gel and diatomaceous earth. By using these, the humidity in the shoes can be reduced. By reducing the humidity in the shoe, the comfort when the shoe is worn can be increased. Since the hole (5) penetrates the insole body (1), moisture also passes through the sheet-like breathable material (4) from both the front and back surfaces of the present invention, and contributes to moisture absorption. Absorbed by (3). The insole body (1) can be any plastic insole such as polyethylene foam, polyurethane foam, polyvinyl chloride and other plastics, cork, paper, wood, metal, non-woven fabric, etc. Available. Sheet-like breathable material (4) is a fabric knitted with synthetic fibers such as polyester, a fabric knitted with other materials such as cotton, various plastic sheet-like materials with fine holes, and fine holes. The sheet-like thing of the other raw material which was installed can be used. The sheet-like breathable material (4) is stuck to both surfaces of the insole body (1) by sticking means such as adhesive, stitching, thermocompression bonding, and the like. The sheet-like breathable material (4) may be attached to the side surface of the insole body (1) from the viewpoint of design and the like. The hole (5) penetrating the insole body (1) is filled with the basic powder (2) or the basic powder (2) and the moisture-absorbing powder Both of (3) are filled in an arbitrary number ratio. In this case, for example, when 37 holes (5) are provided in the insole body (1), 27 of them are filled with the basic powder (2), and the remaining 10 holes ( 5) is filled with the moisture absorption-contributing granular material (3). The positions of the holes (5) for filling these are arbitrary, but are preferably positions where the basic particles (2) and the moisture absorption-contributing particles (3) are dispersed without being biased. Baking soda and scallop calcined calcium are basic, and silica gel and diatomaceous earth are acidic. . The insole of the present invention created by the above structure can effectively eliminate the bad smell of shoes and feet, can reduce the humidity in the shoes, and can increase comfort. When all the holes (5) are filled with the basic powder (2), there is no moisture absorption-contributing powder (3), so there is no function to reduce the humidity in the shoes. It can effectively reduce the stench of the feet and feet. Of course, the present invention is used in a left-right pair. In addition, the term "powder body" generally refers to a powdery or granular material, but here also includes those molded by pressure or a binder. The basic granule (2) or both the basic granule (2) and the moisture-absorbing contribution granule (3) are formed of a material with a certain thickness having the shape of an insole. It is placed on the surface of the insole body (1), and the breathable material (4) is stuck on it by means of sticking means such as adhesive, stitching, thermocompression bonding, etc., and the basic powder (2) It is also possible to produce a shoe insole having the same effect by containing the water-absorbing contribution granular material (3). In this case, since both the basic powder (2) or the basic powder (2) and the moisture absorption-contributing powder (3) are not buried in the hole, the basic powder (2 ) Or the basic powder (2) and the moisture absorption-contributing powder (3) are raised, and when this is worn in a shoe and the shoe is worn, the foot is uncomfortable. Moreover, when the basic granule (2) or the moisture absorption-contributing granule (3) is not molded by pressure or a binder, they are partially biased on the insole body (1), Because that part is greatly excited, it is slightly lacking in practicality. At least one hole (5) in the insole body (1) is recessed rather than penetrating, and the basic powder (2) or the basic powder (2) and the moisture absorption-contributing powder are similarly provided. A product having the same effect can be produced by filling both the granules (3) and sticking a sheet-like breathable material (4) on the surface by means of adhesive, stitching, thermocompression bonding, or the like. You can also. Adhesive and stitching both basic powder (2) or basic powder (2) and moisture absorption-contributing powder (3) using sheet-like breathable material (4) from both sides A shoe insole having the same effect can be manufactured even in a structure in which the shape of the insole of the enclosed shoe is formed by sticking means such as thermocompression bonding, but in this case, there is no insole body (1) , Kunya, kunya, bend and can not maintain the shape of the insole, so lack of practicality. By adding an antibacterial agent to the basic granule (2) or the moisture absorption-contributing granule (3), the growth of bacteria can be suppressed and the deodorizing effect can be further increased. Examples of solid inorganic antibacterial agents include “Zeomic” (manufactured by Sinanen Zeomic Co., Ltd.), and the addition of these can further improve the deodorizing effect. Even if the hole (5) having a structure of the present invention is filled with activated carbon, copper powder, inorganic antibacterial agent, etc., odor eliminating contribution granules, a shoe insole that contributes to the deodorizing effect can be produced. In this case, in the insole of the structure of the present invention, the basic powder (2) is replaced with an odor elimination contributing powder other than the basic powder (2). Here, the odor elimination contributing powder means a powder that contributes to eliminating the odor of the substance. In addition, the basic powder (2), activated carbon, copper powder, inorganic antibacterial agent, moisture absorption-contributing powder (3), etc. are filled in an appropriate number of holes (5), and several types are combined. It can also be a product.

Example 1
FIG. 1 is an external perspective view of the present invention. FIG. 2 is an exploded perspective view of this. The insole body (1) is formed of a material having a certain thickness and having the shape of an insole of shoes, and one or more holes (5) are provided therethrough. In this example, a total of 37 circular holes (5) are provided as shown in FIG. As shown in FIG. 4, 27 of them are filled with the basic powder (2), and 10 are filled with the moisture absorption-contributing powder (3). The shape of the hole (5) is arbitrary, and may be an ellipse, a rectangle, a triangle, a star, or the like. Also, the size and number of the holes (5) are arbitrary, and various products can be made as required. You may fill the whole hole (5) with a basic granular material (2). When some of the holes (5) are filled with the moisture absorbing contribution granule (3), this helps to absorb the moisture in the shoe and increases the comfort when wearing the shoe. When the hole (5) is filled with both the basic powder (2) and the moisture absorption-contributing powder (3), the ratio of the number of holes (5) to be filled may be arbitrary. In this example, 27 holes (5) are filled with basic granules (2) and 10 holes (5) are filled with moisture absorption contribution granules (3). The 20 holes (5) may be filled with the basic granular material (2), and the 17 holes (5) may be filled with the moisture absorbing contribution granular material (3). Moreover, the position of the hole (5) filling the basic powder (2) and the moisture absorption-contributing powder (3) may be arbitrary, but the basic powder (2) and the water-absorption-contributing powder It is desirable that the positions (3) are distributed to each other without bias. As shown in FIG. 2, a sheet-like breathable material (4) is attached to both surfaces of the insole body (1) by attaching means such as an adhesive, sewing, thermocompression bonding, and the like. The insole body (1) can be any plastic insole such as polyethylene foam, polyurethane foam, polyvinyl chloride and other plastics, cork, paper, wood, metal, non-woven fabric, etc. Available. In the example, Sanperka L-1400 manufactured by Sanwa Kako Co., Ltd. was used, and 37 circular holes (5) were penetrating through it. 27 of these holes (5) were filled with basic powder (2), and 10 were filled with water absorption-contributing powder (3). In the example, as basic powder (2), highly safe tansan (sodium bicarbonate) manufactured by Kyoritsu Kasei Co., Ltd., sodium scallop calcined calcium from Nippon Kampo Research Institute Co., Ltd., etc. used. Silica gel or diatomaceous earth can be used as the moisture absorbing contribution granule (3). In the examples, silica gel from Toyoda Chemical Co., Ltd. and diatomaceous earth from Fujiwara Chemical Co., Ltd. were used. Sheet-like breathable material (4) is a fabric knitted with synthetic fibers such as polyester, a fabric knitted with other materials such as cotton, various plastic sheet-like materials with fine holes, and fine holes. The sheet-like thing of the other raw material which was installed can be used. In this example, Toray ceramic fabric # 310 (100% polyester) was used. In the shoe insole thus produced, the basic powder (2) neutralizes the acidic components that cause the bad smell of shoes and feet, and the moisture-absorbing powder (3) absorbs moisture in the shoes. It has a good deodorizing effect and comfort, and has excellent sustainability. Silica gel or diatomaceous earth that has absorbed moisture will spontaneously evaporate if left in the air, and will again exhibit the function of absorbing moisture. For this reason, it is more desirable to prepare a plurality of the present inventions and use them alternately. This makes it possible to achieve an excellent deodorizing effect and comfort when wearing shoes. In this example, instead of the basic powder (2), a shoe insole that contributes to the deodorizing effect even if filled with odor elimination contributing powder such as activated carbon, copper powder, inorganic antibacterial agent, etc. is produced. I can do it. In addition, the basic powder (2), activated carbon, copper powder, inorganic antibacterial agent, moisture absorption-contributing powder (3), etc. are filled in an appropriate number of holes (5), and several types are combined. It can also be a product.
Example 2
FIG. 5 is an exploded perspective view showing another embodiment of the present invention. In this example, as shown in the perspective view of the appearance of the insole body (1) in FIG. 6, the shape of the hole (5) is not a circle but a rectangle. As shown in FIG. 7, the basic particles (2) and the moisture absorption-contributing particles (3) are alternately filled in the holes (5), and the total number of the holes (5) is 7 The porous powder (2) is filled, and the six holes (5) are filled with the moisture absorption-contributing powder (3). After filling these, the present invention is obtained by sticking the breathable material (4) to both sides of the insole body (1) by sticking means such as adhesive, stitching, thermocompression bonding and the like. In this example, instead of the basic powder (2), a shoe insole that contributes to the deodorizing effect even if filled with odor elimination contributing powder such as activated carbon, copper powder, inorganic antibacterial agent, etc. is produced. I can do it. In addition, the basic powder (2), activated carbon, copper powder, inorganic antibacterial agent, moisture absorption-contributing powder (3), etc. are filled in an appropriate number of holes (5), and several types are combined. It can also be a product.
Example 3
FIG. 8 shows a basic granule inclusion member and a moisture absorption contribution granule inclusion member in which the basic granule and the moisture absorption contribution granule filled in the insole body in the present invention are formed in a stick shape. It is a disassembled perspective view which shows the state which enclosed. In this example, as the external perspective view of the insole body (1) is shown in FIG. 10, the hole (5) has only one made in the insole body (1). In this, the aggregate | assembly of the basic granule inclusion member (6) and moisture absorption contribution granule inclusion member (7) as shown in FIG. 11 is filled. As shown in FIG. 12, the basic granular material enclosing member (6) is a stick-like member having the basic granular material (2) therein, and is made of a breathable material. The moisture absorption-contributing granular material-encapsulating member (7) is a stick-shaped member that encloses the moisture-absorbing contribution granular material (3) inside, and is made of a breathable material. In the example, the basic powder-containing member (6) and the moisture absorption-contributing powder-containing member (7) are alternately filled in the holes (5), and the basic powder is totaled as shown in FIG. 49 granular inclusion members (6) and 49 moisture absorption-contributing granular inclusion members (7) are filled. FIG. 9 shows a partially enlarged view when these are filled. After filling the holes (5) with these, the sheet-like breathable material (4) is adhered to both sides of the insole body (1) by an adhesive, stitching, thermocompression bonding, etc. Get an invention. Also in this example, the odor component of shoes and feet passes through the sheet-like breathable material (4) and the basic granular material enclosing member (6), and the basic granular material ( Odor is reduced by touching 2) and neutralizing. Moreover, since the moisture absorption contribution granular material (3) filled in the moisture absorption contribution granule inclusion member (7) functions to absorb moisture, it realizes comfort when wearing shoes. It becomes possible. The number of the basic granule inclusion member (6) and the moisture absorption contribution granule inclusion member (7) filled in the hole (5) is arbitrary. Moreover, it is not always necessary to alternately fill the basic granule inclusion member (6) and the moisture absorption-contributing granule inclusion member (7), and it is optional. The present invention shown in this example is more excellent in effect and sustainability because it can be filled with a large amount of powder. In this example, a shoe insole that contributes to the deodorizing effect is produced even if an odor eliminating contribution granule such as activated carbon, copper powder, inorganic antibacterial agent, etc. is used instead of the basic granule (2). I can do it. In addition, the basic powder (2), activated carbon, copper powder, inorganic antibacterial agent, moisture absorption-contributing powder (3), etc. are processed into sticks with the same structure, and several types are combined to produce a product. You can also
Example 4
FIG. 13 is an external perspective view showing an embodiment in which the insole body does not have a hole in the present invention. In FIG. 13, the basic powder (2) and the moisture absorption-contributing powder (3) are alternately arranged on the surface of the insole body (1) having no hole (5), and a sheet-like breathable material (4) is stuck on the surface of the insole body (1) by sticking means such as adhesive, stitching, thermocompression bonding, and the like, and these are enclosed. In this case, since there is no hole (5), the portions of the basic powder (2) and the moisture absorption-contributing powder (3) are raised on the insole body (1). When this is worn on a shoe and used, this excitement touches the foot, which is somewhat uncomfortable. In addition, when the basic powder (2) and the moisture absorption-contributing powder (3) are not molded by pressure or a binder, they are partially biased on the insole body (1), Because that part is greatly excited, it is slightly lacking in practicality. In this example, when the insole body (1) is not breathable, the odor component of shoes and feet passes through the sheet-like breathable material (4) only from the surface of the present invention, and the basic powder Touch the body (2) to neutralize. If the insole body (1) is provided with minute holes through which the basic granules (2) or moisture absorption-contributing granules (3) do not pass, and air permeability is provided, odor components of shoes and feet can be seen from the back side. Passing through the insole body (1), the basic powder (2) is touched and neutralized. In this case, moisture also passes through the insole body (1) from the back side and is absorbed by the moisture absorption-contributing powder (3). In this example, a shoe insole that contributes to the deodorizing effect is produced even if an odor eliminating contribution granule such as activated carbon, copper powder, inorganic antibacterial agent, etc. is used instead of the basic granule (2). I can do it. Moreover, a basic powder (2), activated carbon, copper powder, an inorganic antibacterial agent, a water absorption contribution granular material (3), etc. can also be combined to make a product. However, the structure of the present invention shown in this example can also be provided on both sides of the insole body (1) without holes.
Example 5
FIG. 14 is an exploded perspective view of the embodiment when a hole is provided in the insole body in the present invention.
FIG. In this example, the hole (5) is recessed in the insole body (1) as shown in FIG. That is, the hole (5) does not penetrate the insole body (1). The hole (5) recessed in the insole body (1) is filled with both the basic powder (2) or the basic powder (2) and the moisture absorption-contributing powder (3). The sheet-like breathable material (4) is stuck to the surface of the insole body (1) by sticking means such as adhesive, stitching, thermocompression bonding, etc., and these are enclosed. Except for the fact that the hole (5) does not penetrate the insole body (1), it is the same as in the case of Example 1. However, since the hole (5) does not penetrate the insole body (1), it is not necessary to stick the sheet-like breathable material (4) to the back surface of the insole body (1). Also in this example, if the insole body (1) is not breathable, the odor component of shoes and feet passes through the sheet-like breathable material (4) only from the surface of the product of the present invention and is basic. It touches and neutralizes the powder (2). If the insole body (1) is provided with minute holes through which the basic granules (2) or moisture absorption-contributing granules (3) do not pass, and air permeability is provided, odor components of shoes and feet can be seen from the back side. Passing through the insole body (1), the basic powder (2) is touched and neutralized. In this case, moisture also passes through the insole body (1) from the back side and is absorbed by the moisture absorption-contributing powder (3). In the present invention having a structure in which the hole (5) is recessed in the insole body (1), the thickness of the insole body (1) is the same, and the shape, size, and number of the holes (5) are the same. Compared to the case of Example 1, the amount of the basic powder (2) or the moisture absorption-contributing powder (3) filled in the hole (5) is reduced. For this reason, when the effect of this invention is considered, it can be said that it is desirable to penetrate the hole (5) in the insole body (1). This also applies to Example 2 and Example 3 when the hole (5) recessed in the insole body (1) is used. In this example, instead of the basic powder (2), a shoe insole that contributes to the deodorizing effect even if filled with odor elimination contributing powder such as activated carbon, copper powder, inorganic antibacterial agent, etc. is produced. I can do it. In addition, the basic powder (2), activated carbon, copper powder, inorganic antibacterial agent, moisture absorption-contributing powder (3), etc. are filled in an appropriate number of holes (5), and several types are combined. It can also be a product.

Since the present invention can be industrially mass-produced, it has industrial applicability.

DESCRIPTION OF SYMBOLS 1 Insole body 2 Basic granule 3 Moisture absorption contribution granule 4 Breathable material 5 Hole 6 Basic granule inclusion member 7 Moisture absorption contribution granule inclusion member

Claims (8)

  An insole body having the shape of an insole is formed using an arbitrary material having a certain thickness, and a hole having an arbitrary shape is formed in the insole body in a direction perpendicular to the surface of the insole body. At least one of them is penetrated, and the hole is filled with basic powder particles whose aqueous solution exhibits alkalinity or water absorption-contributing particles having the property of absorbing water by molding with pressure or a binder. A method for manufacturing a shoe insole, in which a sheet-like breathable material is attached to both sides of the insole body to obtain a shoe insole. The method for producing a shoe insole according to claim 1, wherein the basic powder is baking soda or scallop calcined calcium, and the water absorption-contributing powder is silica gel or diatomaceous earth. An insole body having the shape of an insole is formed using an arbitrary material having a certain thickness, and a hole having an arbitrary shape is formed in the insole body in a direction perpendicular to the surface of the insole body. Insert more than one piece into the hole and mold the odor elimination contributing granule that itself contributes to eliminating odor or the moisture absorption contributing granule that has the property of absorbing moisture with pressure or binder Filling
A method for manufacturing a shoe insole, in which a sheet-like breathable material is attached to both sides of the insole body to obtain a shoe insole. The method for producing a shoe insole according to claim 3, wherein the odor eliminating contributing granule is an inorganic antibacterial agent, copper powder or activated carbon, and the moisture absorbing contributing granule is silica gel or diatomaceous earth.

An insole body having the shape of an insole is formed using an arbitrary material having a certain thickness, and a hole having an arbitrary shape is formed in the insole body in a direction perpendicular to the surface of the insole body. A basic granular material enclosing member in which at least one piece is formed, and a stick-like shape is formed with a sheet-like breathable material in the hole and the aqueous solution is filled with basic granular material in which the aqueous solution is alkaline. Moisture-absorbing contribution granule inclusion member filled with moisture-absorption contribution granule that has the property of absorbing moisture itself, so that the stick-shaped longitudinal direction is parallel to the surface of the shoe insole body A method for producing a shoe insole, which is arranged and filled in the direction of, and obtains a shoe insole by sticking a sheet-like breathable material on both sides of the insole body using a sticking method. The method for producing a shoe insole according to claim 5, wherein the basic powder is baking soda or scallop calcined calcium, and the water absorption-contributing powder is silica gel or diatomaceous earth. An insole body having the shape of an insole is formed using an arbitrary material having a certain thickness, and a hole having an arbitrary shape is formed in the insole body in a direction perpendicular to the surface of the insole body. The odor is eliminated by filling the hole with a stick-like shape made of sheet-like breathable material and filling the inside with odor eliminating contribution particles that contribute to eliminating the odor itself. A moisture-absorbing contribution granule inclusion member filled with a contribution granule-containing member or a moisture-absorption contribution granule that itself absorbs moisture, the stick-shaped longitudinal direction of the surface of the shoe insole body A method for producing a shoe insole, which is arranged and filled in an arbitrary direction so as to be parallel to each other, and a sheet-like breathable material is stuck on both surfaces of the insole body to obtain a shoe insole. The method for producing a shoe insole according to claim 7, wherein the deodorizing contribution granule is an inorganic antibacterial agent, copper powder or activated carbon, and the moisture absorption contributing granule is silica gel or diatomaceous earth.