M332401 八、新型說明: 【新型所屬之技術領域】 本新型是涉及一種具有環保功效的鞋墊、具有該鞋墊的鞋 底板及鞋耳。 ι 【先前技術】M332401 VIII. New description: [New technical field] The present invention relates to an environmentally-friendly insole, a sole plate having the same, and a shoe ear. Ip [prior art]
國内專利文獻第1243029號一種「透氣鞋墊及其製造方 法」2005年11月11日公告(下稱前案),在申請專利範圍第工 項及第10項中所述鞋墊結構,是由一木材纖維層及一支標層 所組成,該木材纖維層設於該鞋墊的表層,用於接觸使用者的 腳底’其取自林木所_的木材薄片,且與一層織物貼合。而 前述支撐層是利用,,塑膝,,或,,橡膠”材料加1成型的結構層,其 與前述木材纖維層重疊結合,用以增加該鞋墊的厚度並提供彈 性或吸震功能。 八 【新型内容】 一、所欲解決之問題點·· 前雜塾的支撐層是以,,塑膠,,或”橡膠,,材料製成,其雖能 提供彈輯吸震魏,但不能職、又不具賴及除臭作用: 文不適且作為革土墊。询若作為拖鞋或涼鞋的鞋底板,則因單層 的木材纖維層黏結度不足,在受壓後很料產生脆裂,遂也不 適宜作為鞋底板。若要作為鞋耳使用,則因單層木材纖維層勒 ί·生不足易產生而不適宜實施;因此,前案不論是作為鞋 墊、鞋底板、或鞋耳,要達到商品化階段,尚有諸多問題需要 克服,因此難以實現。 其次,頂面的木材纖維層是以薄木片,,縱向排列”組成,由 5 M332401 於缺乏橫向彎曲彈性空間,遂在腳力下壓後容易造成龜裂及變 形問題發生。 再者,前案鞋墊只有頂面為木材纖維層,底面不是木材纖 維層,所以前案的鞋墊結構只能單面使用,不能雙面使用,所 以使用功能有限。 二、本新型的技術手段: 基於上述的問題點,本新型目的在於提供一種能透氣、吸 濕排汗、及兩面都能使用的鞋墊(10A),及提供一種具有該鞋 ,墊(10A)的鞋底板(10B),以及提供一種具有該鞋塾(ι〇Α)的鞋 耳(10C)。 為解決上述問題點及達到本新型的目的,本新型的技術 手段是這樣實現的,第-實施形態為鞋墊⑽),其特徵在於 是由:一木質纖維頂層(2〇); 一含有黏膠(7〇)並結合在上述木 質纖維頂層⑽)底面下且與該木質纖維頂層⑽相同面積的 織布層(30),及-結合在上述含有黏膠⑽之織布層⑽底面 下並與木質纖維頂層⑽)相同面積的木質纖維底層⑽)所組 ,成。 上述的鞋墊,其特徵在於··所述木__層⑽與木質 纖維底層⑽是由多片薄片狀的木片以橫向排列組成。 上述的鞋墊,其特絲於:輯織布層(⑹是天然織布或 人造織布。 上述的鞋墊’其特齡於:所述人造織布是聚乳酸生物分 解性纖維(Polylactic Acid)的布體。 上述的鞋墊’其概在於··㈣魏酸生物分解性纖維 6 M332401 (Polylactic Acid)布體是呈薄膜狀。 上述的鞋墊,其特徵在於:所述鞋墊⑽)設置貫穿的透 氣穿孔(60)。 第二實施形態’為鞋底板⑽),其特徵在妓由一如第 -實施_魏_墊(舰);及—具魏衝吸震效果並藉黏 膠⑽結合在上述鞋墊⑽)底面下、且與鞋墊⑽)相同面積 的軟墊層(50)。 上述鞋底板’其特徵在於:所述軟墊層⑽為下列其一, 塑膠層、橡膠層、接近於橡膠層的發泡層。 上述鞋底板,其特徵在於:所述軟墊層(5_厚度大於尹 墊(10A)的厚度。 、土 第三實施形態,為鞋耳(loc),其特徵在於是由一如第一 實施形態所賴鞋墊(1GA);及—含絲膠⑺,)並結合在上述 鞋墊(10A)底面下且與該鞋墊⑽)相同面積的織布層(3〇,) 所組成。 上述鞋耳’其特徵在於·所述織布層⑽,)是天然織布或 人造織布。 三、對照先前技術之功效: 本新型鞋墊(10A)疋在二木質纖維頂底層(2〇)、(4〇)之間 結合了織布層⑽),前述木質纖維頂層⑽)與底層⑽的毛細 作用具有透氣、吸濕功效遂能達到舒適及徹底除臭效果。、 上述鞋塾(10A)的頂、底兩面都是木質纖維層,所以具有 雙面使用功能,可利於左右腳替換使用。 木質纖維頂底層⑽、⑽是由薄木片,,橫向排列,,組成, 7 M332401 此能提供橫向彎曲的彈性空間,避免薄木片在縱向排列組成及 腳力下壓後所造成的龜裂及變形問題發生。 再者’二木質纖維頂底層(2〇)、(4〇)在拋棄處理後能自然 分解,而織布層(30)若採用天然織布也能分解,倘若使用人造 的聚乳酸生物分解性纖維布體,也能在廢棄處理時產生生物分 .· 解效果,其聚乳酸在一定的溫度、PH值和水份條件下,分解 ' 成水和二氧化碳,有別於傳統會造成汙染的合成纖維,遂本新 型鞋墊(10A)能符合環保要求。 φ 本新型鞋底板(10B)因擁有彈性及吸震功效的軟墊層 (50),遂能作為拖鞋或涼鞋使用;該鞋底板(10B)是在二木質 纖雉層(20)、(40)之間結合了織布層(3〇),再與軟墊層(5〇) 結合後,結合強度及韌性能大大提升,此能避免單一木質纖維 層(20)與軟墊層(50)結合後易造成日後脆裂的問題出現。 本新型鞋耳(10C)因擁有雙層木質纖維層(20)、(40)及雙 層織布層(30)、(30,),由於具有極佳的韌性及抗拉性,故適 宜作為鞋底板上的鞋耳。 • 【實施方式】 以下即依據圖面所示的實施例詳細說明如後: 第一實施形態: 如圖1所示本新型第一實施形態鞋墊的立體剖視圖,圖 1A所示為圖1的鞋墊局部立體斷面圖,圖2所示為圖1的鞋 塾部份剖視圖,圖3所示為圖1含透氣穿孔的鞋墊部份剖視圖。 上圖中揭示出一種鞋墊(l〇A),是由一木質纖維頂層 (20),一含有黏膠(7〇)並結合在上述木質纖維頂層(2〇)底面下 8 M332401 且與該木質纖維頂層(2〇)相同面積的織布層(3〇);及一結合在 上述s有黏膠(70)之織布層(3〇)底面下並與木質纖維頂層⑽) 相同面積的木質纖維底層(40)所組成。 上述木質纖維頂層(2〇)與木質纖維底層(4〇)是由多片薄 片狀的木片以橫向排顺成,該薄木片可選自於各種不同材質 ,· 的林木,例如·松、柏、檜、搣、戚、櫸、檀、樟木等,將其 创成薄片狀後再予以平舖,其適用厚度在〇1〜1〇刪之間,由 於薄木片具有毛細作用,遂能吸收足底汗水或鞋内澄氣,以維 • 持足部清爽,避免異味及霉菌孳生。其次,薄木片橫向排列的 優點在於使鞋墊(10A)在使用後能具有適當的橫向彎曲彈性空 間’避免以縱向排列組成的薄木片鞋墊在受力後造成龜裂及變 形問題發生。 由於本新型鞋墊(l〇A)的頂、底兩面都是木質纖維層,所 以能兩面使用,故可提供左右腳對應實施。再者,木質纖維層 是天然薄木片製成,日後即使拋棄也能自動分解,不會造成環 保負擔。 藝上述織布層(30)是天然或人造織布所構成,當以人造織布 實施時,能採自於聚酯(PET)、尼龍(Nylon)、聚丙烯(pp)不織 布等材料,當以天然織布實施時,能採自於棉、麻、紙等材質, 其中,以天然織布在使用後不產生臭味的效果為佳。其次,織 布層(30)能為聚乳酸生物分解性纖維(Polylactic Acid)布, 其能以抽絲交織或薄膜狀實施,其中,以薄膜狀的經濟效益優 於交織狀;又,前述聚乳酸生物分解性纖維(P〇lylactie Acid,簡稱PLA)抽絲後的纖維強度與聚酯纖維相近,可成為 9 M332401 柔軟又有熱粘著的不織布產品,該PLA具有良好加工性,擁有 快乾、不收縮、耐光線、低燃性,更能在日後藉由生物分解, 因此與木質纖維頂層(20)、底層(40)結合後,能成為一種具有 環保概念的鞋墊(10A)。 上述織布層(30)塗佈黏膠(70)後,能利於與木質纖維頂層 (20)及底層(40)結合’且結合後具有極佳柔章刃性,另能藉由模 切技術裁切出各種不同規格的透氣鞋墊(10A)。 上述鞋墊(10A)在成型後,能設置複數個貫穿的透氣穿孔 (60),以利於使用時產生空氣對流及透氣功效。 第二實施形態: 如圖4所示本新型第二實施形態鞋底板的立體剖視圖,圖 5所示為圖4鞋底板的局部剖視圖,圖6所示為圖4含透氣穿 孔的鞋底板部份剖視圖。 上圖中揭示出一種具有鞋墊的鞋底板(10B),其特徵在於 是由一如上述第一實施形態的鞋墊(10A)、及一具有緩衝吸震 效果並藉黏膠(80)結合在上述鞋塾(i〇A)底面下、且與上述鞋 墊(10A)相同面積的軟墊層(50)所組成。 本實施形悲與上述實施形態不同處在於增設了軟塾層 (50),該軟墊層(50)可為塑膠層、橡膠層、或接近於橡膠層的 發泡層’如EVA、PVC等。而且軟墊層(5〇)的厚度大於鞋墊(應) 的厚度,使用後能增加彈性而達到吸震緩衝的效果;該軟墊層 (50)藉由黏膠(80)而與木質纖綠底層(4〇)穩固結合,適宜作為 拖鞋或涼鞋使用。 上述鞋底板(10B)以二木質纖維頂底層(2〇)、(4〇)結合了 M332401 織布層(30),此能避免以單層木質纖維層(2〇)與軟墊層(5〇) 結合後造成日後易脆裂的問題出現,因此,本新型鞋底板g〇b) 的結合強度及韌性優於前案(國内公告1243〇29號),不致於造 成脆裂問題,並能增長使用壽命。 其次,上述透氣鞋底板(10B)也能具有貫穿的透氣穿孔 • · (60),以使鞋底板(10B)在使用後能有空氣對流效果,有利於 '足部通風。 ' 第二實施形態: • 如圖7所不本新型第三實施形態的立體圖,圖8所示為圖 7的局部剖視圖。 上圖中揭示出一種鞋耳(10C),其特徵在於是由一如上述 第一實施形態的鞋墊(10A)、及一含有黏膠(7〇,)並結合在上述 鞋墊(10A)底面下且與該鞋墊(10A)相同面積的織布層(3〇,)所 組成。 上述織布層(30’)與第一實施形態的織布層(3〇)結構相 同,因此作用、功能即不再詳加贅述。 _ 由於鞋耳(10C)與鞋底板(10B)在外觀上呈現出木質纖維 的花紋’遂有特殊視覺美感效果,能引起消費者的興趣與喜愛。 以上,是依據圖式詳細說明,唯業者能在不超越本新型要 旨的範圍内進行各種變更結合實施,因此,舉凡利用與本新型 有關結構的實施形態,只要在不超出本新型要旨範圍内的各種 等效變更實施例,皆應涵屬於本新型範疇内。 11 M332401 【圖式簡單說明】 圖1:本新型第一實施形態鞋墊的立體剖視圖。 圖1A :為圖1鞋墊的局部立體斷面圖。 圖2:為圖1鞋墊的部份剖視圖。 圖3:為圖1含透氣穿孔的鞋墊部份剖視圖。 … 圖4:本新型第二實施形態鞋底板的立體剖視圖。 圖5:為圖4鞋底板的局部剖視圖。 圖6:為圖4含透氣穿孔的鞋底板部份剖視圖。 φ 圖7:本新型第三實施形態鞋耳的立體剖視圖。 圖8:為圖7鞋耳的局部剖視圖。 【主要元件符號說明】 10A 鞋墊 10B 墊底板 10C 鞋耳 20 木質纖維頂層 30 織布層 ® 30’織布層 40 木質纖維底層 50 軟墊層 60 透氣穿孔 70 黏膠 70’ 黏膠 80 黏膠 12Domestic Patent Document No. 1243029, a "breathable insole and its manufacturing method" announced on November 11, 2005 (hereinafter referred to as the previous case), the insole structure described in the application for the patent scope and the tenth item is composed of one The wood fiber layer and a standard layer are disposed on the surface layer of the insole for contacting the bottom of the user's sole, which is taken from the wood sheet of the forest, and is attached to a layer of fabric. The foregoing support layer is a structural layer which is formed by using a plastic knee, or rubber, material, which is overlapped with the aforementioned wood fiber layer to increase the thickness of the insole and provide elasticity or shock absorption function. The new content] First, the problem to be solved. · The support layer of the former miscellaneous is made of plastic, or "rubber," material, which can provide the shock and shock absorption, but it can not be used, but not Relief and deodorization: The text is not suitable and acts as a leather pad. If the sole is used as a slipper or a sandal, the layer of the wood fiber layer is insufficiently bonded, and it is likely to be brittle after being pressed, and it is not suitable as a sole. If it is used as a shoe ear, it is not suitable for the single-layer wood fiber layer to be produced; therefore, the front case, whether as an insole, a sole, or a shoe ear, has to be commercialized. Many problems need to be overcome, so it is difficult to achieve. Secondly, the top layer of wood fiber is composed of thin wood chips, which are arranged in the longitudinal direction. The lack of lateral bending elastic space by 5 M332401 is easy to cause cracking and deformation problems when the foot is pressed down. Only the top surface is the wood fiber layer, and the bottom surface is not the wood fiber layer. Therefore, the insole structure of the previous case can only be used on one side, and cannot be used on both sides, so the use function is limited. 2. The technical means of the novel: Based on the above problems, The present invention aims to provide an insole (10A) which can be used for ventilation, moisture wicking, and both sides, and a sole (10B) having the shoe, the pad (10A), and a shoe last therewith The shoe ear (10C) of (ι〇Α). In order to solve the above problems and achieve the object of the present invention, the technical means of the present invention is realized in this way, and the first embodiment is an insole (10), which is characterized by: a top layer of wood fiber (2〇); a woven fabric layer (30) containing a binder (7〇) bonded to the bottom surface of the wood fiber top layer (10) and having the same area as the wood fiber top layer (10), and combined The above-mentioned insole is characterized in that the wooden insole (10) and the wood are composed of the above-mentioned insole layer (10) having the same area as the wood fiber top layer (10) under the bottom surface of the woven fabric layer (10) of the viscose (10). The fiber bottom layer (10) is composed of a plurality of sheet-like wood chips arranged in a lateral direction. The above-mentioned insole is specially made up of: a woven fabric layer ((6) is a natural woven fabric or a synthetic woven fabric. The above-mentioned insole] is of a special age: The artificial woven fabric is a cloth body of polylactic acid. The above-mentioned insole is based on the fact that (4) the ferulic acid biodegradable fiber 6 M332401 (Polylactic Acid) cloth body is in the form of a film. An insole characterized in that: the insole (10) is provided with a perforated perforation (60). The second embodiment is a sole (10), which is characterized by a first-implementation_wei_pad (ship); a cushion layer (50) having a Wei Chong shock absorbing effect and bonded to the underside of the insole (10) by the adhesive (10) and having the same area as the insole (10). The shoe sole is characterized in that the cushion layer (10) is One of the following, plastic layer, rubber layer, close to a foam layer of the rubber layer. The shoe sole is characterized in that the cushion layer (5_thickness is larger than the thickness of the Yin pad (10A). The third embodiment of the soil is a shoe ear (loc), which is characterized in that Thus, a fabric layer (3〇), which is the same as the insole (1GA) and the sericin (7), and which is combined under the bottom surface of the insole (10A) and the same area as the insole (10), is used. The shoe ear is characterized in that the woven fabric layer (10) is a natural woven fabric or a synthetic woven fabric. 3. The effect of the prior art: The new insole (10A) is smashed on the bottom layer of the second wood fiber ( The woven fabric layer (10) is combined between the two layers (10), and the capillary action of the wood fiber top layer (10) and the bottom layer (10) has a gas permeable and moisture absorbing effect, and can achieve a comfortable and thoroughly deodorizing effect. The top and bottom of the shoe last (10A) are made of wood fiber, so they have a double-sided function, which can be used to replace the left and right feet. The top layer (10) and (10) of the wood fiber are composed of thin wood chips, which are arranged horizontally. 7 M332401 can provide a laterally curved elastic space to avoid the cracking and deformation caused by the thin wood chips in the longitudinal direction and the foot force. occur. Furthermore, the 'two wood fiber top layer (2〇), (4〇) can be naturally decomposed after disposal, and the woven layer (30) can be decomposed if natural woven fabric is used, if artificial polylactic acid biodegradability is used. The fiber cloth body can also produce a biological component during the disposal process. The polylactic acid decomposes into water and carbon dioxide under certain temperature, pH and moisture conditions, which is different from the traditional pollution synthesis. Fiber, 遂 This new insole (10A) can meet environmental requirements. φ This new shoe sole (10B) can be used as a slipper or sandal because of its elastic and shock-absorbing cushion layer (50); the soleplate (10B) is in the second wood fiber layer (20), (40) The combination of the woven fabric layer (3〇) and the combination of the cushion layer (5〇) can greatly improve the bonding strength and toughness, which can avoid the combination of the single wood fiber layer (20) and the cushion layer (50). Afterwards, it is easy to cause problems in the future. The new shoe ear (10C) is suitable for use as a double-layered wood fiber layer (20), (40) and a double-layer woven fabric layer (30), (30,) because of its excellent toughness and tensile properties. Shoe ear on the sole of the shoe. [Embodiment] The following is a detailed description of the following embodiments in accordance with the embodiments shown in the drawings: First Embodiment: FIG. 1 is a perspective cross-sectional view of the insole of the first embodiment of the present invention, and FIG. 1A is the insole of FIG. Figure 2 is a partial cross-sectional view of the last of Figure 1, and Figure 3 is a partial cross-sectional view of the insole of Figure 1 with a perforated perforation. The above figure reveals an insole (10A) consisting of a wood fiber top layer (20) containing a viscose (7〇) and bonded to the bottom of the wood fiber top layer (2〇) 8 M332401 and the wood a woven fabric layer (3 〇) of the same area of the fiber top layer (2 ;); and a wood layer bonded to the bottom surface of the woven layer (3 〇) having the viscous (70) and the same area as the wood fiber top layer (10) The fiber bottom layer (40) is composed of. The wood fiber top layer (2 〇) and the wood fiber bottom layer (4 〇) are formed by a plurality of flaky wood chips which are arranged in a lateral direction. The wood chips can be selected from various materials, such as pine and cypress. , 桧, 搣, 戚, 榉, 檀, 樟, etc., and then tiling it, then the thickness is between 〇1~1〇, because the thin wood piece has capillary action, it can absorb The soles of the sweat or the air in the shoes are used to keep the feet fresh and avoid odor and mold growth. Secondly, the advantage of the lateral arrangement of the veneers is that the insole (10A) can have a suitable laterally curved elastic space after use. </ RTI> avoiding the occurrence of cracking and deformation problems after the force is applied to the thin insole composed of the longitudinal arrangement. Since the top and bottom surfaces of the novel insole (l〇A) are both wood fiber layers, they can be used on both sides, so that the left and right feet can be provided correspondingly. Furthermore, the lignocellulosic layer is made of natural wood chips and can be automatically decomposed even if discarded in the future, without causing an environmental burden. The above-mentioned woven fabric layer (30) is composed of natural or artificial woven fabric, and when it is implemented by artificial woven fabric, it can be obtained from polyester (PET), nylon (Nylon), polypropylene (pp) non-woven fabric, etc. When it is made of natural woven fabric, it can be obtained from cotton, hemp, paper, etc., and it is preferable that natural woven fabric does not produce odor after use. Secondly, the woven fabric layer (30) can be a polylactic acid biodegradable fiber (Polylactic Acid) cloth, which can be implemented by spinning or interlacing or film-like, wherein the film-like economic benefit is superior to the interlaced shape; The fiber strength of the lactic acid biodegradable fiber (PLA) after spinning is similar to that of the polyester fiber, and it can be a soft and heat-bonding non-woven product of 9 M332401. The PLA has good processability and has fast drying. It does not shrink, is resistant to light, and is low in flammability. It can be biodegraded in the future. Therefore, it can be combined with the top layer (20) and the bottom layer (40) of wood fiber to become an insole (10A) with an environmentally friendly concept. After the above-mentioned woven fabric layer (30) is coated with the adhesive (70), it can be combined with the top layer (20) and the bottom layer (40) of the wood fiber, and has excellent flexibility of the blade edge, and can be cut by the die-cutting technique. Cut a variety of breathable insoles (10A) of different specifications. After the above insole (10A) is formed, a plurality of penetrating perforations (60) can be provided to facilitate air convection and ventilation during use. 2 is a perspective cross-sectional view of the sole plate of the second embodiment of the present invention, FIG. 5 is a partial cross-sectional view of the sole plate of FIG. 4, and FIG. 6 is a portion of the sole plate of FIG. Cutaway view. The above figure discloses a sole plate (10B) having an insole characterized by an insole (10A) as in the first embodiment described above, and a shoe having a cushioning shock absorbing effect and bonded by the adhesive (80).塾(i〇A) is composed of a cushion layer (50) under the bottom surface and having the same area as the above insole (10A). The difference between the present embodiment and the above embodiment is that a soft layer (50) is added, and the cushion layer (50) may be a plastic layer, a rubber layer, or a foam layer close to the rubber layer such as EVA, PVC, etc. . Moreover, the thickness of the cushion layer (5 inches) is greater than the thickness of the insole (should), and the elasticity can be increased to achieve the shock absorbing cushioning effect after use; the cushion layer (50) is adhered to the wood fiber green layer by the adhesive (80). (4〇) Stable combination, suitable for use as slippers or sandals. The above shoe sole (10B) is combined with a M332401 woven fabric layer (30) with two wood fiber top layers (2 〇) and (4 〇), which can avoid a single layer of wood fiber layer (2 〇) and a cushion layer (5). 〇) The problem of easy brittle cracking occurs in the future. Therefore, the bonding strength and toughness of the new shoe sole g〇b) is superior to the previous case (domestic announcement No. 1243〇29), which will not cause brittle fracture, and Can increase the service life. Secondly, the breathable sole plate (10B) can also have a perforated perforated hole (60) so that the sole plate (10B) can have an air convection effect after use, which is advantageous for 'foot ventilation. Second Embodiment: Fig. 7 is a perspective view showing a third embodiment of the present invention, and Fig. 8 is a partial cross-sectional view of Fig. 7. The above figure discloses a shoe ear (10C) characterized by an insole (10A) as in the first embodiment described above, and a glue (7〇) and bonded under the bottom surface of the insole (10A). And composed of a woven fabric layer (3 〇,) of the same area as the insole (10A). The woven fabric layer (30') has the same structure as the woven fabric layer (3 〇) of the first embodiment, and therefore the functions and functions are not described in detail. _ Because the shoe ear (10C) and the sole plate (10B) appear in the appearance of wood fiber pattern 遂 遂 has a special visual aesthetic effect, can cause consumer interest and love. The above is a detailed description based on the drawings, and the practitioners can carry out various modifications and combinations without departing from the gist of the present invention. Therefore, any embodiment that utilizes the structure related to the present invention is not limited to the scope of the present invention. Various equivalent alteration embodiments are intended to fall within the scope of the present invention. 11 M332401 BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective cross-sectional view of an insole according to a first embodiment of the present invention. Figure 1A is a partial perspective cross-sectional view of the insole of Figure 1. Figure 2 is a partial cross-sectional view of the insole of Figure 1. Figure 3 is a partial cross-sectional view of the insole containing the perforated perforation of Figure 1. Fig. 4 is a perspective cross-sectional view showing the sole plate of the second embodiment of the present invention. Figure 5 is a partial cross-sectional view of the shoe sole of Figure 4. Figure 6 is a partial cross-sectional view of the sole plate of Figure 4 with venting perforations. φ Figure 7 is a perspective cross-sectional view of a shoe ear according to a third embodiment of the present invention. Figure 8 is a partial cross-sectional view of the shoe ear of Figure 7. [Main component symbol description] 10A insole 10B pad bottom plate 10C shoe ear 20 wood fiber top layer 30 woven layer ® 30' woven layer 40 wood fiber bottom layer 50 cushion layer 60 breathable perforation 70 adhesive 70' adhesive 80 adhesive 12