TWI243029B - Shoe pad structure and its manufacturing method - Google Patents

Abstract

Provided is one kind of shoe pad structure good for decreasing the amount of trash ready to be buried by using a wooden fiber layer to joint with a brace layer which is capable of being degraded by light or microorganisms. Among which, the wooden fiber layer is located on the surface layer of the shoe pad, and by means of the cell hole tissues sticking closely to the users' foot sole, it can elaborate the characteristic of naturally sweat absorbing and ventilation. To prevent the shoe pad to forwardly shrink, roll up and displace, the wooden fiber layer can be made by using the wooden fiber approximately the same as the length direction of the shoe pad. The better one is obtained by pasting a fabric layer underneath the wooden fiber layer to strengthen the structure wherein the fabric layer is added with a substance emitting far infrared rays with wavelength between 4 to 14 micrometer, thus making the shoe pad structure having the healthy function of far infrared rays. And for guarding against odors and disinfecting, thin slices constituting the wooden fiber layer can be selected from tree species containing abundant phytoncid, and materials manufacturing the brace layer can be selected from known light cracking or biodegradable compounds. Therefore after the shoe pads being discarded, a majority of them can be voluntarily degraded and help decrease the volume of the trash ready to be buried.

Description

1243029 Μ is a correction number 9111812 V. Description of the invention (1) [Technical Field] The present invention relates to a method that can be used to bury the dead corpses after being discarded, and then resolved first, or buried through a micro-bio book. Garbage is reduced by insoles 纴 J insole structure of natural wood organization, so as to mention two and sweat two: or = [Background of the Invention] = Insoles made of or animal skin after wearing thin, long The tissue is elastic, and it will become dry and easy to wear or brittle: 4 Shi Jian constantly withstands the weight given by the sole of the foot = the surface of the insole must become very easy to slip after checking :; The surname is smooth, and the most toothy feel uncomfortable and uncomfortable. According to the ergonomic shoes, your position H > will make the palm smoke 4 pull, two &, ν 疋 after the south and front low 'so potential to cause dry feet to occur, and do not slip; once the potential insole The strength must be sufficient to withstand the movement along the sliding direction ^ = two movements. At this time, it will be forced to shrink and displace and be rolled up in the shoes. Otherwise, it will lose the support of the insole and make the shoe soles. According to some standards, like Such shoe lasts are already inconsistent; in addition to the 'for foamed materials used as-block soft cuffs ;: = the original requirements, the original, was originally only function has been upgraded to assist shoes: the progress of technology' The function of this type of insole is as follows. Hyundai excellent, prevent 2 The surface of the footbed in ^ zi is generally mediocre, and the correction of the travelling person == tThe bottom surface of the human foot is usually three-dimensional, so it is stomping in steps: make each step more expensive A little energy to control the two body two: when you are walking, it is easy to increase various traumas. If you use feet == you can fill in the space between the soles of your feet and the footbed to reduce the occurrence of slippery feet in the shoes. Second, support and shock absorption, and help the ribs h li h, reading handle Feng-i MV V cutting stability. With the addition of the insole, -V can be followed by the swing of the ground, ^ ^ ^ ^ ^ opportunity for trauma. It reduces fatigue and material comfort, but it has a three-dimensional shape. After the teeth, foot odor is still easy to occur. The reason for this is that it has a silky factor that can cause trouble ... The cause of foot odor is the growth of mold, especially in the closed, warm and hot environment in shoes. The mold grows continuously and the faster it grows, the more serious the malodor. Presence of Ammonia (NH4 +) in Khan Acid. NH4 + in a closed or sultry condition ’can produce a foul odor in a very short period of time. Influence of insole material. The physical structure of the material is an important factor in determining whether or not foot odor occurs. At the same time, the chemical structure of the material cannot be ignored. For example, the chance of foot odor in rubber insoles must be greater than that of EVA shoe lasts.

1243029 Amended case number 9111812 5. Description of the invention (3) The four shoes are too dirty: the insoles, like the clothes, must be washed with water or disinfected with sunlight within a certain period of time, otherwise the growth of emblem bacteria will cause foot odor. . Lactic acid in human sweat acid is also an important source of odor. For this reason, a pair of insoles can be described as ideal. According to research, they should have at least the following multiple functions at the same time: The material of the insoles should preferably have excellent functions of absorbing sweat and moisture. '、 Ability to adsorb odor: such as ammonia radical (N Η 4 +) in sweat acid. Second, it has extremely excellent breathability. Fourth, long-term wear resistance, not easy to deform and thin. g and other three categories if not moldy. Due to its location, it is easy to slip the material. Therefore, the leather and foot shoes are made of special animal materials, and the material is the main material. The flat shoe quilt is flat and flat, but I still see animal skins, plastic or rubber. Although the animal skins have good breathability characteristics, they learn to deal with the long-wearing shoes in the total meaning. # # Medium is prone to odor, even though w 叩 贝 仁 is not the most ideal flat and the thickness change is quite limited, so ::: The shape of the foot is suitable for the sole, so the shortcomings of wearing animal skin and insoles = ^ . A 91111812

Structural breakdown 1243029

___jS V. Description of the invention (4) The microscopic brand name of the body is that in terms of plastic or rubber, the insole can be foamed into the following three types: Open air bubble structure: the cross-section has a porous open connection to allow gas or water The ability to breathe and sweat. In this type of foamed structure, a compound of g "POLIYORN" is representative.

2. Semi-open bubble structure: In this kind of structure, about 20 ~ 40% of the thin film between the P bubbles can be separated and separated, and the microscopic particles pass through, so that water vapor condenses on the thin. After the accumulation, the moisture and water vapor will be returned to the surface due to external pressure during use. The moisture will be greatly reduced. This type of structure is represented by PU foam and cotton. It is a closed structure: the internal air bubbles of this structure are all irrespective of air or moisture. Therefore, because of I, moisture will remain on the surface. And it is difficult to diverge, which will cause the wearing of 2 suitable materials, such as the known EVA (the resin brand name of DuPont of the United States " E's Shu is currently used in insoles and _ like foam boards, (EVA),), poly Materials such as acrylic (pp) or polyethylene (PE) are included. Times ι (ρυ

This kind of plastic or rubber insoles can form a variety of three-dimensional shapes that conform to the soles of the feet. # A large number of days can not absorb or decompose the odor in the shoes, nor can they voluntarily ^ ^, which is the lack of functions of such insoles. Η 1243029 Modified SS_9U11812 V. Description of the invention (5) [Content overview and purpose] / μ The main purpose of the present invention is to create an insole structure that can use natural light cracking or U-blade 2 knife solution to help buried waste reduction. Can use the eight ,, and ° structure to play the natural wood structure on the soles of the feet of sweat absorption, ventilation and deodorization functions. The insole structure provided by the present invention is formed by joining a layer of biodegradable support layer of a wood fiber layer, wherein the wood fiber is pinched from the surface layer of the dream pad, and the cell pore tissue is close to the user's foot to make hair =; With the characteristics of air, in order to prevent the shoe last from shrinking for a long time, the wood fiber layer can be formed using the same layer as the length of the insole. Preferably, the wood fiber layer is attached under the wood fiber layer. Γ Structure :; The pad structure has the health function of far-infrared rays. It is manufactured with a variety of fine tree species r. == The thin layer of the layer can be decomposed by itself to help bury most of it after disposal. : Force: The elasticity of the shoe last can still be changed by ::: Stimulating massage or surface to give undulations; better, teeth s, shape, make shoes = points, Keli page 91243029

The material of the layer makes the insole discarded ~ Slowly increase the amount of garbage. > It can be decomposed by itself later, so as to reduce it. [Detailed description] In order to make the above-mentioned present invention easier to understand, here are a few examples: his purpose, characteristics and advantages are more clearly explained. Another example is the implementation example, and it is shown in detail with the accompanying drawings. [Exemplary implementation example 1] Go to ‘利 ί ί 木’: The structure of the insole 10 implemented according to the present invention is made. The wood fiber layer 30 constitutes the soles of the users of the upper and lower weight group. From shock absorption II "11 'to approach or contact the supporting layer of the example structure; f is formed based on the consideration of molding, which includes the aforementioned. Or rubber material foaming shots, legs, PU , ΕΛΛνν ^^ / name; materials for the production of injection molds for hunger 1 Y_ " /, flexible people, flexible and can use the material constituting the support layer 20 to use the biodegradable compounds as the support声 月 〇 ＝= can be photolysed or starch can be mixed into P by a known technique.

mu surface i page 10 1243029

In order to prevent the insole 10 from being shrunk, rolled and shifted after a long period of wear, the solid wood fiber layer 30 can be made of a wooden fabric that is approximately the same length as the insole; preferably, it can be made on a thin piece of wood. Fitting below 3010 — ^ to strengthen the structure, and a layer of fabric with a radiation wavelength of two '= two 14 microns can be added to the far-infrared material 3030, so that the structure of the shoe last is the same as I 1. Healthy function. Regarding the emission of far-infrared substances 3030, Hi-Hi is not the focus of the present invention. Readers 1 may refer to the formulas contained in US Patent No. 4,886, 97 P. Yi, '^ 85, 5' 894, 067, etc., as well as their related functions, Experimental effects in deodorization.

Page 11 According to the present invention, the wood flakes created in this embodiment are appropriately in between. The flakes of natural wood have multiple capillaries, each of which contains a series of pores. The cell wall also has many hollow capillaries and pores. The wall pores communicate with adjacent cell cavities, which can give play to the characteristics of wood and provide considerations in odor absorption. Different essences, such as ivy with fendol and alder tree ... each have its own fendol. The so-called phyon to sterilize (c IDE) wood fiber layer 30 is a porous structure with a thickness ranging from 0.5 to 0.8 mm from natural wood. In each piece of wood, pores, cell cavity and cell wall, the upper layer Very fine fibers, each cell cavity between the fibers penetrates the cell wall. Therefore, the insole structure of this embodiment is an ideal function of the insole 10. There are different kinds of Fendo in wood or plants. There are Fondos in alder, Hinoki cypress, Sophora Fendin (PHYTONCIDE) means ‘Amended by Leningrad University ’s Special Education 1243029

t number 91111812 V. Description of the invention (8) Named. Fendoline has the functions of neutralizing and eliminating odors and eliminating fresh and refreshing scent. The scent is natural and scentless, and it is non-thorny. = 2: Everyone is suitable to enjoy. For example, the volatile gases contained in the known pine, cypress, cypress, cypress, fragrant, camphor or camphor trees have the effect of inhibiting the growth of human bacteria, so they are also suitable for making the wood fiber layer of the present invention. 30 current slices. 2. Two implementation examples in the embodiment ^ Refer to the second figure. This embodiment uses the upper and lower rain exhibition men # cognition layer 30, 31 to enclose a support layer 20, and Naoki, Maru-A, the first example is disclosed. The decision of layer 20 & material can be referred to for implementation. To promote ventilation, the air between the wood fiber layers can be set on the insole 10 to reduce the dry holes 21, so that the two are comfortable and breathable. 〇 Two holes serve to shorten the path of the parent flow and increase the insole 10 [Example 3] Please refer to the third figure. Because it moves with the weight of the foot, the insole table jL sheet 3010 is combined with a fabric 3020 after the shoe is worn. More preferably, it can make the entire wood fiber layer 30 1243029

toughness. The raw material of the wood sheet 3 0 1 is in addition to the non-toxic, non-toxic, # t to the tree, in the country " ALABAZU FALCATA ", the artificial forest tree that is //, its scientific name is: Bh 筻 H q η 1 λ is called temporary Ze Zuo · Xinwang Wood), also suitable for making wood fiber layer 30 or 31 for wood rafter 3010. [Example 4]

Refer to the third figure again. According to various embodiments of the present invention, the shoe last surface 11 ′ may also be based on the natural shape of the human foot sole, or the need to stimulate the sole of the foot, or increase the stepping elasticity of the insole 10, and change the shape of the support layer 20 to provide a number of The protruding portion 20 (π, 30 0 1) enables the insole surface layer u to have a concave and convex surface 1101, which is provided for consumers to purchase and use as required. [Example 5] According to the present invention, the above-mentioned embodiments are produced. The method of the insole structure can be referred to the fifth figure, and includes the following steps: First, the wood sheet preparation step 40. Use the currently known wood planer equipment to plan the wood sheet from the tree 3 0 1 0 for use. The choice can be general forest trees, or pine, cypress, alder, maple, Youjiali, sandalwood, camphor or artificial forest trees with the scientific name `` ALABAZIA FALCATA " (Chinese name temporary translation · Xinwang wood);

Page 13! 243〇29x --91111812 V. Invention Day 77 ^ 1. Fabric Preparation Step 41. Pre-borrowed 婢 cloth, or other blended nets. 30 examples: cotton, net or cotton, surface coating-the glue is better 'can also be used on the fabric 3020 Ϊ 3 ^ 2 = ^ the wood sheet prepared in the previous step 3 ° 1 0 and weaving 〇2 0 fits into a wood fiber layer 3; ^:: 4, and cuts the wood fiber layer 3. Make its outline become-the wood fiber layer of which the outline has been cut into the shape of the insole on the step "": = 2 ° fit to form a finished insole. The support layer "also ^ Ϊ The wood material is cut into the same outline as the wood fiber layer 30; but two; only; the M · 3 fiber layer 30 is placed in an injection molding mold, and then the injection = Qiu Guang, to be solidified It is automatically combined with the wood fiber layer 30 to form an insole 10. The finished product is q, three, four, five, and PF. The material can be the aforementioned "P0LIY0UR" compound, EVA, and pu. Two: Dagger is soft and elastic. The material of layer 2 ° should be selected as currently known as the supporting layer 2: Already :: Decomposable compound is used as P ϋ ϋh 1 For example, using a known technique, starch is mixed In this way, the insole 10 can self-defeat / knife in the landfill after being discarded, so as to reduce the environmental protection problem of waste. [Performance Example 6] The insole according to the present invention is produced according to the present invention Structure method V. Description of the invention Reference is made to the sixth figure, which includes the following steps: 1. A wood sheet preparation step 50. Use currently known wood planer equipment to plan the wood sheet 3 0 1 0 from the tree for future use. The choice of tree can be general forest or pine , Cypress, Alder, Maple, Youjiali, Sandalwood, Cinnamomum, or Artificial Forest Tree (Simplified Chinese Name · Xinwang Wood) Special Forest Tree with Scientific Name ALABAZIA FALCATA; 2. Fabric Preparation Step 51. Prepare the fabric 3 002, such as cotton mesh or cotton woven fabric, or other blended mesh, cloth; preferably, a layer of adhesive can also be coated on the surface of the fabric 302 to prepare; 3. Preparation steps of the support layer 52. The foam material is made into a blank material with a thickness of i ~ 3mm by using a mold. On the blank material, a plurality of protrusions 2000 and / or a plurality of ventilation holes 21 can be formed by the mold. Fourth, an adhesion step 53. The wood sheet 3010, the fabric 3020 and the blank material completed in the previous steps are laminated into a composite layer; and 5. The cutting step 54. The composite layer is cut so that its outline becomes the shape of an insole 10. Preferably, the foamed material of step 3 can be decomposed by using materials that are currently known to be able to be produced, such as: using a shot that has been injected so that the insole can be used; [〇 在 解 'will reduce the waste The environmentally friendly materials can use the currently known photodegradable compounds as the supporting layer technology. The starch is mixed into pp and then disposed of in the landfill after it is discarded. [Example 7] 1243029 Case No. 91111812 V. Description of the invention (12) According to the present invention, the method for producing the insole structure of the above embodiment can also refer to the seventh figure ', which includes the following steps:-Step 60 of preparing a wood sheet. ㈣Currently known wood-making machine equipment is used to plan the wood slice from the tree 3,010. The tree can be selected from general forest trees, or pine, cypress, alder, maple, youcanali, sandalwood, camphor or Artificial forest trees with a scientific name of n ALABAZIA FALCATA (, temporary translation of the Chinese name: Xinwang wood) and other forest trees; 2. Fabric preparation step 61. Prepare the fabric Mα, such as a cotton mesh or cotton fabric, or other blended mesh, cloth; preferably, a layer of glue can also be coated on the surface of the fabric 300 2 for backup; 3. A support layer preparation step 62. Use the mold to make the foam material into a blank with a thickness of i ~ 3mm; 4. Step 4 wither. The wood sheet 3, the fabric 3020, and the blank material completed in the previous steps are laminated into a composite layer; 5. Step 64 of molding or punching. On the composite layer completed in the previous step, a plurality of protruding portions 20001, 301, and or 2,000 pores 21 are formed by pressing with a mold; and 6. A cutting step 65. The outer layer of the composite layer is cut into the shape of an insole 10. The fifth and sixth steps in this example can be reversed, that is, first perform the cutting step 65, first change the outer layer of the composite layer into the shape of an insole, then perform the molding or punching step 64, and finally make the insole 1 The concave and convex surfaces 1101 and or Ruoqian ventilation holes 21 are provided.

Page 16 1243029 --- surface 9111 · _ year, month and year of repair _ V. Description of the invention (13) In addition, the so-called foaming material of the aforementioned step 3 can also be selected from currently known photo-crackable or can be obtained by the currently known Biodegradable compounds are used as the material of the support layer 20, for example: a known technique is used to mix the palace powder into P · P · and then injection, so that the insole 10 can be decomposed by itself in a landfill after being disposed of. To alleviate the environmental problems of garbage. [Important Statement] Although the present invention has been disclosed in detail by the preferred embodiment, the purpose is not to limit the present invention. Any person skilled in the art of this invention will depart from the spirit and scope of the present invention. Have the ability to make some equivalent = ^ and retouch; the inventor will claim that the rights to these equivalent designs should still be included in the scope of the patent application of the present invention.

Page 17 1243029 Case No. 91118812 Revised Brief Description of the Drawings The first figure, the first embodiment of the present invention. The second figure is the second exemplary embodiment of the present invention. The third figure is the third exemplary embodiment of the present invention. The fourth figure is the fourth exemplary embodiment of the present invention. Figure 5: Schematic diagram of the implementation steps of the present invention (Example 5) Figure 6: Schematic diagram of the implementation steps of the present invention (Example 6) Figure 7: Schematic diagram of the implementation steps of the present invention (Example 7) [Element code]

Page 18 10 Insole 11 Shoe last surface 1101 Concave-convex surface 20 Support layer 20 0 1 Projection 21 Ventilation hole 30 Wood fiber layer 30 0 1 Projection 3010 Wood sheet 3020 Fabric 30 30 Far-infrared material 31 Wood fiber layer 1243029 Case No. 91118812 Brief description of the revised diagram 40 41 42 43 44 Wood sheet preparation steps Fabric preparation steps Adhesive steps Cutting steps Fitting steps 50 51 52 53 54 Wood sheet preparation steps Fabric preparation steps Support layer preparation steps Adhesion steps Cutting steps 60 61 62 63 64 65 Wood sheet preparation step Fabric preparation step Support layer preparation step Adhesion step Molding or punching step Cutting step

Page 19

Claims (1)

1243029 --- ^ Emperor 91111R19 ___------ ^-Amendment VI. Application for patent scope Structure. 6. The insole structure according to item 1 of the scope of patent application, wherein the support layer is made of a biodegradable material. 7. The insole structure according to item 6 of the scope of patent application, wherein the support layer is formed by P · P · and starch injection. 8. The insole structure according to item 1 of the scope of the patent application, wherein the support layer has a plurality of ventilation holes, so as to improve the air circulation between the two sides of the insole. The surface insole structure described in item 1 of the patent scope, wherein the insole 2 must be concave and convex, so as to provide and adapt to the natural shape of the human foot sole, stimulate the massage of the foot sole and increase the stepping elasticity of the insole. 10 types of shoe last structures, including at least: user :: tf on the surface layer of the insole for access to or contact with the thin sheet; wood • dimension layer _ increase from wood created by a tree ^ 2 to 0 And 5 ~ 〇 · 8_, and is attached to the wood with a layer of fabric: a structural layer formed by material processing, and functions of elasticity or shock absorption. To increase the thickness of the shoe last and provide Page 12 1243029 11. The insole structure according to item 丨 0 of the scope of the patent application, wherein the thickness of the wood fiber layer is between 0.5 and 0.8 mm, which is planed from any forest tree containing g fenton IDE Wood flakes, and the wood flakes are attached to at least one layer of fabric to increase toughness. 1 2. The insole structure according to item 丨 丨 in the scope of the patent application, wherein the forest tree is described from pine, cypress, cypress, mahogany, sandalwood, camphor, and an artificial forest named "ALABAZIA FALCATA" (Temporary translation of Chinese name: Xinwang Wood) A sheet made of one of the forest trees. 1 3. The insole structure according to item 11 of the patent application scope, wherein the fiber direction of the wood fiber layer is roughly the same as the insole The length direction is approximately the same. 1 4. The insole structure as described in item 10 of the scope of patent application, wherein the support layer material is a foamable molding material that is molded by a mold. 1 5. If the scope of patent application is The insole structure according to item 10, wherein the supporting layer is made of a biodegradable material. 1 6 i The insole structure according to item 15 of the patent application scope, wherein the supporting layer is composed of P · P · Add starch injection into plastic. 1243029 "Repair"-Emperor No. 91 Chuan, Mo A VI. Patent application scope 1 7. The insole structure described in item 10 of the patent application scope, wherein the support layer has a plurality of ventilation holes, which can be used to enhance the insole Air flows on both sides. 18. The insole structure according to item 10 of the scope of the patent application, wherein the surface of the insole is subject to irregularities, thereby providing and adapting to the natural shape of the human foot sole, stimulating the massage of the sole, and increasing the stepping elasticity of the insole. 19 'The insole structure according to item 10 of the scope of the patent application, wherein a layer of fabric is still provided between the wood fiber layer and the support layer, thereby strengthening the strength of the wood fiber layer. A method for producing an insole structure may include at least the following steps: a sheet preparation step, which uses a planer machine to plan a wood sheet with a thickness between 0.5 mm and 0.8 mm from a tree, and prepares the sheet; Preparing a fabric that can be attached to the wood sheet; step, attaching the wood sheet to the fabric to make it a complex and fitting step, cutting the composite layer to make its outline into the shape of an insole; steps, The composite layer completed by the cutting step is adhered to a support layer to form a finished insole, wherein the support layer is manufactured by using an injection mold to a foamed material. HI Page 23 1243029 _Case No. 91118812_Year Month Date__ VI. Application for Patent Scope 2 1. A method for producing an insole structure may include at least the following steps: A wood sheet preparation step is performed using a planer equipment from 5mm ~ 0. 8mm thickness of wood sheet spares on a tree; a fabric preparation step, preparing a fabric that can be attached to the wood sheet; an adhesion step, the wood sheet Affixed with the fabric to make it into a composite layer; a cutting step to cut the composite layer into the shape of an insole; and a bonding step to combine the composite layer and a support layer completed by the cutting step It fits together to form a finished insole. The support layer is made of a foamed material by using a cutting device. 8 mm 之间 的 2 2. A method of producing an insole structure, which may include at least the following steps: a wood sheet preparation step, using a planer equipment to plan a thickness from 0. 5 ~ 0. 8 mm between Wood sheet spares; a fabric preparation step, preparing a fabric that can be attached to the wood sheet; a support layer preparation step, using a mold to make a foam material with a thickness of 1 to 3 mm, and A mold can be used to form a number of protrusions on the blank; a sticking step, which joins the wood sheet, fabric and blanks completed in the previous step into a composite layer; and a cutting step, which cuts the composite layer so that its outline becomes The shape of an insole. 2 3. A method for producing an insole structure may include at least the following steps: Page 24 Case No. 91111812 1243029 VI. Scope of patent application A wood chip preparation step is to use a planer with a degree between G.5 ~. .- Between the wood on the wound-i support step :: a fabric that can be attached to the wood sheet; 3 with a thick blank, and on the blank can use the mold and the top: made of 1 ~- In the sticking step, the wood sheet completed in the previous step is formed into a plurality of air holes and bonded into a composite layer; and the fabric and the blank are cut in a cutting step to cut the composite layer to take the shape of the insole. 24 kinds of insole structure production methods, which can at least include a wooden sheet preparation step, which uses a row of wood to create the first row of steps: a take-thickness between 0.5 · ~~ quot; wood fabric preparation steps Prepare one that can be attached to the wood sheet to the user '. The support layer preparation step is to use a mold to make a foamed two fabric, 3mm thick blank; X package material is made 1 ~ =: η The sheet fabric is attached to the blank. The handle is the compound completed in step "," said: a few protruding parts; and Wk is pressed to form a cutting sub-step, and the outer layer of the composite layer is cut into a The shape of the shoe last. 25. The method for producing an insole structure as described in item 24 of the scope of application for patents, including: a molding between the adhesion step and the cutting step, aimed at: completed by the adhesion step The composite layer is then pressed by a mold to form a plurality of protrusions. Page 25 1243029 Case No. 9111] Magic 9 VI. Scope of patent application 26. The method for producing an insole structure according to item 24 of the scope of patent application, wherein a punching step is further included between the adhesion step and the cutting step, and the composite layer completed by the adhesion step is further processed. Those who pressed the mold to form a plurality of air holes. 27. The method for producing an insole structure according to item 24 of the scope of the patent application, wherein after the cutting step, a molding is still carried out, and the composite layer completed by the cutting step is further applied with a mold to form a plurality of molds. Those protruding. 28. The method for producing an insole structure according to item 24 of the scope of patent application, wherein a punching step is further included after the cutting step, and the composite layer completed by the cutting step is further subjected to die pressing to form a plurality of breathers. Hole. 29. A method for producing an insole structure, which may include at least the following steps: A wood sheet preparation step is to use a planer equipment to plan a wood sheet thickness from 0.5 to 0.8 mm from a tree. A fabric preparation step, preparing a stack of fabrics to be laminated with the wood sheet; a support layer preparation step, which uses a mold to make a foam material with a thickness of 1 to 3 mm; a dead step, The wood sheet fabric and the blank material are laminated into a composite layer Punching step, pressing with a die on the composite layer completed in the previous step Page 26 1243029 Page 27