201141402 六、發明說明: 【發明所屬之技術領域】 本發明實關大體上涉及賴_域,且尤其涉及魏錄襪類,例 如用於防止撞傷、起水泡及濕氣積聚的襪子。 【先前技術】 當跑步和運動時腳的重複運動可引起如擦傷(例如,來自撞擊)、起水 泡(例如,㈣摩擦、變熱以及流汗或潮濕)及其他刺激的問題。傳統的 效能襪峨_錢供祕紐。細,雜賴额錢婦大的,並 覆蓋較大面積,例如襪子·個襪底,增加了重i並關了賴。可將通 風板加入機^中,但是這些通風板通常覆蓋了腳的整個上表面其上表面 為鞋舌所覆蓋的區域並不特別地用於通風。 、 【發明内容】 本發明-方面提供-種動力緩衝襪,包括:一襪 襪底部分,該襪底部分包含一足尖區域、一足 3 ° f個跨段通道,並且鮮跨段通触置叫導濕氣以雜輕該機底部 本發明另-方面提供-種動力緩衝襪,包括:_機主體,包含 -機底部分,賴底部分包含—足尖區域、—足弓^ 該足弓區域包含概個分_緩誠域,轉分離,後^域, 複數個跨段,並且鱗輕通道配置㈣導戦及 份,該等緩衝區域被對齊以與解剖學岐部撞擊圖底部 -步包含減個後跟緩衝_及/或複數個足尖緩麵域二二=體進 擊期間保護賴者的後跟及或足尖贼撞擊;°P撞 以允許熱及/或濕氣離開該動力緩衝機;—個或多個夂=風區,配置 在疏骨區域及/或足弓區域的上部附近產生機子的皴稽;置以防止 域、-襪口區域、-内側凸舌或其等的結合。 、形支樓區 201141402 【實施方式】 在以下詳池述中’參考構成本發明一部分的所關式,並通過實施 說明實蘭的方式賴示。可以理解的是可使料他實關並且在不脫離 範圍而做^構或邏馳b。因此,以下詳細贿未採取限制意義,並且 實施例的翻由卿_請專概圍及其等量而限定。 各種操作可依次描述為多個離散操作,這樣可有助於理解實施例;然 而’描述敝料紐解魏明該㈣作為次序從屬。 本說明可使用基於透視的說明如上/下,後/前以及頂/底。該等說明僅用 於便於討論並不旨於限制公開實施例的應用。 可使用術語“結合’,和“連接”及其衍生。應理解的是該等術語不是 彼此的Μ詞。相反’在特定實關中,“連接,,可麟表示兩個或多個 元件為相互直接物理或電接I “結合’’可表示兩個或多個元件為直接物 理或電接觸。然而’、结合”也可表示兩個或多個元件沒有相互直接接觸, 但仍相互作用或影響。 為了說明目的,“Α/Β”形式或“八及/或Β”形式的短語意思是(Α), (Β)或(Α和Β)。為了說明目的,“α,β和C的至少其中之一”形式的 短語意思是⑷’⑻,(C),(A和Β),(Α和C),(B和C)或(Α,Β 和C)。為了說明目的’ “(a) Β”形式的短語意思是⑻或即a 未可選元件。 本說明可使用術語“實施例,’或“複數個實施例”,每個可指的是一 個或多個相同或不同的實施例。此外,關於實施例使用的術語“包含,,, “具有”等為同義的。 本發明的實施例可涉及效能襪,該等效能襪可在如跑步、走路及其他 撞擊產生活動的運動期間有助於防止對腳的刺激及傷害。在各種實施例 中’提供動力緩衝襪,其在足弓區域包括獨立的緩衝區域,從而允許改善 撞擊緩衝’同時還減小了重量並提高了通風。在一些實施例中,該等獨立 的緩衝區域可分別地移動,並可適合及/或映射腳的正常撞擊腳區域及/或地 形條件。在各種實施例中,獨立緩衝區域允許襪底比傳統效能襪的襪底更 為開放’其可沿著鞋墊相應地增加通風。在特定實施例中,獨立緩衝區域 201141402 也可減小襪子的重量。 各種實施例可在後跟及/或足尖區域提供增強的緩衝,可提供對高撞擊 活動的撞雜護’並還可在高磨観域巾提供額外㈣祕。本發明的其 他實施例還可在襪子上包括通風區域,其可被成型並放置以最大化鞋内氣 流,及/或減小或緩解彎曲區域中的摩擦。其他實施例可包括内麵口凸舌, 其可保護内側踝關節(如腳踝)避免受傷。 根據各種實施例,第1A圖、第1B圖、第lc圖、第1〇圖以及第m 圖說明動力緩衝襪實例的側視圖(第1A圖)、内側視圖(第1B圖)、俯視 圖(第1C圖)、前視圖(第10圖)以及後視圖(第則)。動力緩衝機 ίο的實施航括上部12和襪底部分14,還有足尖區域16、足弓區域18、 以及後跟區域20。在-些實補巾,足起域16和舰_ 2()可包括撞 擊保護緩衝22 ’職擊倾_可在郷產生活議間紐賴這些高壓 區域。 在各種實施例中,足弓區域18可包括一個或多個緩衝區域24,該等緩 衝區域可在解剖學地映射穿用者的正常足部撞擊。在各種實施例中,緩衝 區域24可置於襪子賴底部分14上,並且每個緩衝區域%可單獨地及動 態地移動及反細顧穿用者的足部郷及/或轉n實施例中,可 分離並定位緩衝區域24以提供通道,該等通道引導濕氣和熱量遠離鞋塾底 向機子的外部及上部。該等定位可增強襪子的通風並依次幫助 減小由於在腳的絲區域中積累的濕氣㈣致的刺激。 雜’緩衝區域24及/或撞擊保護緩衝22可由組成動力 =以:相同類型的紗線編織而成,例如面紗,諸如 CoolMax、美歡平毛、尼龍齡、聚賴維、 酸纖維,ThermoCool说纖罐、四洁助狀· γ L ^ 接直古M ^ 聚旨纖維、活性炭顆粒、碳纖維或選 擇具有排汗特性的其他紗線。在其他實施例中,緩衝區域 緩衝22可由組成動力緩衝襪1〇剩 及離擎计隻 的實例中,撞擊保護緩衝^及°在另外 •^替福I 丨 缺^域可包括彈性材料,例如橡膠 被編織或針織’或者通過其他應用技術而應用。 在-些實例t,利用彈力織物編織法(又已知 物編織法(又已知為簡單反針)、羅紋編織法或其結合編織動m 201141402 體及保同針純圈布(_)緩衝_法來編織緩衝區 料為厚,並可自内表面%^=緩衝區域24 —般較周圍襪子材 選擇緩衝區域的高度和材料以提供適於特=卜::=種實施例中’可 疋有必要的。,.、·''、 * *' ‘材料或&二狀 调〜像(第2B圖、第2C圖以及第2D圖)。如 il2D第==撞=在Γ嶋並從側面腳跟著地移至内側= 圖,第ΐ 腳跟著轉分細_解上足部撞擊 -步L 足弓過渡部分期間的圖式,以及第2D圖顯示了 離地期間_式。該料部郷模式—般留下緩舰域 局如第2Α圖所示。 1 在各種實施例中’緩衝區域24的每個單獨脊線可分離並獨立於相鄰脊 線’從而可獨立移動並相應單獨步態。例如,相對於傾向於外翻的跑步者, 傾向於内翻或過度_的個別跑步者可使用不_緩衝區域24。相似地, 可使用不同的緩衝區域24相應不同試驗條件。 。在第2Α圖、第4Α圖和第4Β圖說明的實例中,在足尖及/足弓區域緩 ^區域24也可分離於撞擊保護緩衝22,從而緩衝區域24可為撞擊保護緩 f 22的獨立使用區域。此外,在各種實施例中,緩衝區域%可彼此相對 定位以在其間形成通道38。在一些實施例中,該等通道38可用於引導熱及 /或濕氣遠離腳的中心並朝向側面,其中熱及/或濕氣可通過鞋上面的通風從 鞋出去。因此,緩衝區域24之間的空間(如通道38)可用於減小動力緩衝 襪10的重量。在各種實施例中,例如,為了改變所提供的緩衝度,緩衝區 域可具有不同高度、組成及/或尺寸。在一些實施例中,在腳的一些區域 内’可使用一個或多個閉環部分40,例如以增加更高撞擊區域中的緩衝量。 201141402 根據本發明實施例,第4A圖和第4B圖說明了動力緩衝效能襪的可選 實例的兩個實例的底部内視圖。在第4A圖所示的實施例中,例如,緩衝區 域24以對稱模式排列,並包括閉環部分4〇以額外地緩衝。相比之下,在 第4B圖所示的實施例中,不包括閉環部分4〇,以及緩衝區域24以一般對 稱模式排列。該等實施例是可預期的,例如,當機子設計為可同時右腳和 左腳穿時。第4A圖和第4B圖所示的實施例顯示了當襪子未被穿時緩衝區 域24和通道38的結構,然而對於熟悉本領域的技術人員顯而易見的是當 穿上襪子時通道38可圍繞腳的輪廓伸展,並可環繞腳的側面以將熱及/或濕 氣遠離腳掌。 ' 在一些實施例中,動力緩衝襪1〇還可包括一個或多個通風區域26,該 等通風區域26 —般位於動力緩衝襪10的上部12中,並且可配置以允許熱 和濕氣離開動力緩衝襪10。在各種實施例中,可改變該等通風區域26的尺 寸以最大化通風,同時仍允許足夠的填充置於動力緩衝襪10的上部12的 更高壓區域中。在說明的實施例令,通風區域26可提供在動力緩衝襪10 的上部12的内側面及側面上。在各種實施例中,通風區域26可由與動力 緩衝機10剩餘部分相同的材料編織’例如面紗(如由C〇〇uy[axTM、美利奴 羊毛、尼龍纖維、聚醋纖維’ Cocona™、竹纖維、丙烯酸纖維、Therm〇c〇〇1TM 纖維、四通道聚酯纖維、活性炭顆粒、碳纖維或選擇具有排汗特性的其他 紗線所製成的)結合如編織紗線的不同類型的紗線,例如由尼龍、彈性纖 維、聚酯纖維或氨綸所製成。在一些實施例中,利用如網狀編織法或蜂巢 式編織法的寬鬆編織來編織通風區域26以允許更多的氣流和排汗通過通風 區域26。在一些實施例中,網狀板可適當的提花以允許更多的氣流和排汗 通過通風區域26。 在各種實施例中,可包括一個或多個彎曲區域28,例如以幫助減少纖 維皺褶並最大化易於皺褶區域的氣流,如足尖區域16連接足弓區域(也稱 為腳的職骨區域)18的區域,以及足弓區域18連接襪口區域30的區域。 在說明的實施例中,彎曲區域28包括一個或多個延伸區域32,該等延伸區 域朝向腳側延伸’並且該等延伸區域32由較大中心區域34連接。在一些 實施例中’在襪子較厚區域内的延伸區域32可促進彎曲同時還抑制纖維的 皺褶。在各種實施例中,延伸區域32 —般為Η型,這可有助於最大化彎曲 201141402 ,域内網狀通風量。在-些實施例t ’ f曲區域28可由與動 剩餘部分相同的材料編織,例如面紗(如由、美如 龍纖維、聚醋纖維、c_a™、竹纖維、丙缔酸纖維、Therm〇c。。維尼 :通道聚醋纖維、活性炭顆粒、碳纖維或選擇具有排汗特性的1他吩線所 製成的)結合如編織紗線的不同類型的紗線,例如由尼龍ς維= 或氨綸所製成。在一些實施例中,利用如 = ,彎曲區域28以允許更多的氣流和排汗通過通風區域26。^卜^ =施例中,該編織可能為其-㈣於動力_襪丨㈣厚度以助於減: 緩衝襪10的較厚區域中的敏褶傾向。 、 力 各種實施例還可包括支撐區域42 (見如第1B ,第2A _ 圖)。在-些實施例中’藉由壓縮編織可提供拱形支撐區域42,例 用可用於支觀/紐縮__區_緊、_。在_些實施财 標區域42 (第2A圖)可從編織紗線而編織,例如由尼龍、彈性維 =纖維=/或氨綸製成。在-些實施财,藉由應用如聚苯乙_額外壓縮 材料可提供自拱形支樓區域42的額外支撲,其可織成拱形支魏域42。、 在各種實補巾,動力緩_ 1G射包_ σ區域3(),舰域包 側凸舌36,用於保護腳踩骨(如腳踩)避免擦傷、摩傷 如第⑽、第1D圖以及第1E圖)。在實施例中,内側凸舌 力緩衝機ίο剩餘部分相同的材料編織,例如面紗(如由c〇〇j^axTM、美利 奴羊毛、尼龍纖維、聚醋纖維、co_™、竹纖維、丙晞酸纖維、The_coolm 纖維、四通道聚賴維、活性炭顆粒、碳纖維或選擇具有排㈣性的其他 紗線所製成的)結合如編織紗線的不同類型的紗線,例如由尼龍、彈性纖 維、聚峨維或氨綸所製成。在一些實施财,可不同編織法,例如, 毛圈布(terry)緩衝編織法來編織關凸舌36。在其他實關巾,内側凸 舌36可包括如橡膠的彈性材料,該树料可被編織或針織,或者藉由其他 方法而應用。在各種實施例中,内側凸舌36可能略微厚於周圍襪子材才斗。 儘管在第1A圖至第m圖中說明了低筒襪,可考慮其他襪子類型,如 短筒襪,如第3A圖所示’以及中筒機或中高型機,如第3B圖所示。相似 地,該襪可適於與如運動鞋的特定鞋配對,並且在各種實施例中,通風區 域26可被安置以對應特定類型鞋的通風區域。 201141402 儘管已說明並描述一定實施例,在不脫離範圍内計算以實現相同目的 的交替及/或等量實施例或實施的各種變更可代替所示及所述的實施例對於 熟悉本領域的人員是顯而易見的。熟悉本領域的人員將易於理解的是可以 各種方式實施該等實施例。本發明旨在覆蓋由此處討論的實施例的任何修 飾和變更。因此,顯而易見的是該等實施例僅由所附申請專利範圍和相等 量所限制。 【圖式簡單說明】 實施例將可藉由以下詳細描述結合所附圖式而易於理解。通過實例而 不疋通過所附圖式的圖式限制來說明實施例。 第1A圖、第1B圖、第1C圖、第1D圖以及第1E圖根據各種實施例 說明動力緩衝襪實例的側視圖(第1A圖)、内側視圖(第1B圖)、俯視圖 (第1C圖)、前視圖(第1D圖)以及後視圖(第1E圖); 第2圖根據各種實施例說明了動力緩衝機實例的仰視圖(第2a圖), 以及自步態週期解剖學的足部撞擊圖的三個影像(第2B圖、第2C圖以及 第2D圖); 第3A圖和第3B圖根據各種實施例說明動力緩衝襪的短筒型(第3八 圖)’以及動力緩衝襪的中筒或中高型(第3B圖)的側視圖;以及 第4A圖和第4B圖根據各種實施例說明了動力緩衝襪可選實施例的實例 的底部内視圖。 【主要元件符號說明】 10 #/» ^ && 4*- 10 動力緩衝襪 12 上部 14 襪底部分 16 足尖區域 18 足弓區域 20 後跟區域 22 撞擊保護緩衝 24 緩衝區域 201141402 26 通風區域 28 彎曲區域 30 襪口區域 32 延伸區域 34 中心區域 36 内側凸舌 38 通道 40 閉環部分 42 支撐區域201141402 VI. Description of the Invention: TECHNICAL FIELD OF THE INVENTION The present invention relates generally to the Lai domain, and more particularly to Weishen hosiery, such as socks for preventing bruises, blisters, and moisture buildup. [Prior Art] Repeated movement of the foot during running and exercising can cause problems such as abrasion (e.g., from impact), blisters (e.g., (4) friction, heat and sweat or moisture), and other stimuli. The traditional performance socks _ money for the secret. Fine, miscellaneous, and covering a large area, such as socks and a sock, increased the weight and shut down. Ventilation panels may be incorporated into the machine, but these venting panels typically cover the entire upper surface of the foot and the upper surface thereof is the area covered by the tongue and is not particularly intended for ventilation. SUMMARY OF THE INVENTION [The present invention] provides a power cushioning sock comprising: a sock bottom portion, the sole portion comprising a toe region, a foot 3 ° f span passage, and a fresh span section The invention relates to another aspect of the invention, which provides a power cushioning socks, comprising: a machine body, comprising a bottom portion, a bottom portion comprising a toe region, a foot arch, an arch region Including the sub-segment _ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ a heel buffer _ and / or a plurality of toe slow field 2 two = body impact during the protection of the heel and or the point thief impact; °P collision to allow heat and / or moisture to leave the power buffer ; one or more 夂 = wind zone, configured to generate a machine near the upper part of the sparse area and / or the arch area; to prevent the domain, - sock area, - medial tongue or the like Combine. , and the branch building area 201141402 [Embodiment] In the following detailed description, reference is made to the closed form which constitutes a part of the present invention, and the method of explaining the real blue is shown. It can be understood that it is possible to make him a real and to do it without going out of scope. Therefore, the following detailed bribes are not meant to be limiting, and the embodiment is not limited by the scope of the application. The various operations may be described in turn as a plurality of discrete operations, which may be helpful in understanding the embodiments; however, the description of the data is discussed as a sequence dependent. This description may use perspective-based instructions for top/bottom, back/front, and top/bottom. The descriptions are for ease of discussion and are not intended to limit the application of the disclosed embodiments. The terms "incorporated", and "connected" and their derivatives may be used. It should be understood that the terms are not mutually exclusive. In contrast, in the particular context, "connected," can mean that two or more elements are mutually Direct physical or electrical connection I "in combination" may mean that two or more elements are in direct physical or electrical contact. However, ', combination' may also mean that two or more elements are not in direct contact with each other, but still interact or affect . For the purposes of this description, the phrase "Α/Β" or "eight and/or Β" means "(Α), (Β) or (Α and Β). For the purpose of explanation, the phrase "at least one of α, β and C" forms means (4) '(8), (C), (A and Β), (Α and C), (B and C) or (Α) , Β and C). For the purpose of illustration, the phrase "(a) Β" means "(8) or that a is not an optional element. The description may use the terms "embodiment," or "plurality of embodiments," each of which may refer to one or more of the same or different embodiments. In addition, the term "includes,", has "It is synonymous." Embodiments of the present invention may be directed to a performance sock that can help prevent irritation and injury to the foot during exercise such as running, walking, and other impact-generating activities. In various embodiments, a powered cushioning sock is provided that includes a separate cushioning region in the arch region, thereby allowing for improved impact cushioning while also reducing weight and increasing ventilation. In some embodiments, the separate buffer regions can be moved separately and can be adapted and/or mapped to the normal impact foot region and/or terrain conditions of the foot. In various embodiments, the separate cushioning region allows the sole to be more open than the sole of a conventional performance sock' which can increase ventilation accordingly along the insole. In a particular embodiment, the independent buffer zone 201141402 can also reduce the weight of the sock. Various embodiments may provide enhanced cushioning in the heel and/or toe region, provide a high impact impact, and may also provide additional (four) secrets in the high wear area. Other embodiments of the present invention may also include a venting area on the sock that may be shaped and placed to maximize airflow within the shoe and/or reduce or mitigate friction in the curved region. Other embodiments may include an in-line flap that protects the medial ankle (such as an ankle) from injury. 1A, 1B, 1c, 1st, and mth, a side view (1A), an inner side view (1B), and a top view (example) of a power cushioning shoe example will be described. 1C picture), front view (Fig. 10) and rear view (seventh). The implementation of the power buffer ίο includes the upper portion 12 and the sole portion 14, as well as the toe region 16, the arch region 18, and the heel region 20. In the case of some real patches, the foot-up field 16 and the ship _ 2 () may include a collision protection buffer 22 ’ 职 倾 _ 可 可 郷 郷 郷 郷 郷 郷 郷 郷 郷 郷 郷 郷 郷 郷 郷 郷 郷 郷 郷 郷 这些 这些 这些 这些In various embodiments, the arch region 18 can include one or more cushioning regions 24 that can anatomically map the wearer's normal foot impact. In various embodiments, the cushioning region 24 can be placed on the bottom portion 14 of the sock, and each buffer region % can be individually and dynamically moved and retracted by the wearer's foot and/or n. The buffer zone 24 can be separated and positioned to provide channels that direct moisture and heat away from the sole to the exterior and upper portions of the machine. Such positioning enhances the ventilation of the sock and in turn helps to reduce irritation due to moisture (4) accumulated in the silk area of the foot. The miscellaneous 'buffer zone 24 and/or the impact protection buffer 22 may be woven by the composition of the same type of yarn, such as a veil, such as a coil, such as CoolMax, Mei Huan Ping, nylon age, poly weiwei, acid fiber, ThermoCool said Fibre can, Si Jie help · γ L ^ Connect straight M ^ fiber, activated carbon granules, carbon fiber or other yarns with perspiration characteristics. In other embodiments, the buffer zone buffer 22 may be comprised of an example of a power buffering shoe 1 remaining and an off-board, and the impact protection buffer and the angle may include an elastic material, such as Rubber is woven or knitted' or applied by other application techniques. In some examples t, using the elastic fabric weaving method (also known as the weaving method (also known as simple reverse needle), the rib weaving method or a combination thereof weaving m 201141402 body and the same needle pure circle cloth (_) buffer The method of weaving the buffer material is thick, and the height and material of the buffer area are selected from the inner surface %^=buffer area 24 as compared with the surrounding sock material to provide a suitable fit:疋 is necessary.,.··'', * *' 'Materials or & two-tone ~ image (2B, 2C and 2D). If il2D ===== Moving from the side heel to the inside = Fig., the third heel, the turning point _ solving the pattern of the foot impact - step L during the transition part of the arch, and the 2D drawing shows the _ formula during the grounding period. The partial mode is generally left as shown in Figure 2. In various embodiments, 'each individual ridgeline of buffer zone 24 can be separated and independent of adjacent ridges' so that it can move independently and correspondingly Separate gait. For example, individual runners who tend to varus or excessive _ can use non-buffered areas relative to runners who tend to valgus 24. Similarly, different buffer zones 24 can be used for different test conditions. In the examples illustrated in Figures 2, 4, and 4, the relief region 24 can also be separated in the toe and/or arch regions. The impact protection buffer 22 is impacted such that the buffer region 24 can be a separate use area for the impact protection retardation 22. In addition, in various embodiments, the buffer regions % can be positioned relative to one another to form a channel 38 therebetween. In some embodiments, The channels 38 can be used to direct heat and/or moisture away from the center of the foot and toward the sides, wherein heat and/or moisture can exit the shoe through ventilation above the shoe. Thus, the space between the buffer areas 24 (eg, channels) 38) can be used to reduce the weight of the power cushioning socks 10. In various embodiments, for example, to vary the degree of cushioning provided, the cushioning regions can have different heights, compositions, and/or sizes. In some embodiments, at the feet One or more closed loop portions 40 may be used in some areas, for example to increase the amount of cushioning in higher impact regions. 201141402 Figure 4A and Figure 4B illustrate power buffering in accordance with an embodiment of the present invention. A bottom internal view of two examples of alternative examples of performance socks. In the embodiment illustrated in Figure 4A, for example, the buffer regions 24 are arranged in a symmetrical pattern and include a closed loop portion 4〇 for additional cushioning. Next, in the embodiment shown in Fig. 4B, the closed loop portion 4〇 is not included, and the buffer regions 24 are arranged in a generally symmetrical pattern. These embodiments are contemplated, for example, when the machine is designed to be simultaneously right footed When worn with the left foot, the embodiments shown in Figures 4A and 4B show the structure of the cushioning region 24 and the passage 38 when the sock is not worn, however it will be apparent to those skilled in the art that when putting on the socks The hour channel 38 can extend around the contour of the foot and can wrap around the sides of the foot to keep heat and/or moisture away from the foot. In some embodiments, the power cushioning shoe 1〇 may also include one or more venting regions 26 that are generally located in the upper portion 12 of the power cushioning stock 10 and that are configurable to allow heat and moisture to exit Power cushioning socks 10. In various embodiments, the dimensions of the venting regions 26 can be varied to maximize ventilation while still allowing sufficient filling to be placed in the higher pressure region of the upper portion 12 of the power cushioning stocking 10. In the illustrated embodiment, the venting region 26 can be provided on the inner side and sides of the upper portion 12 of the power cushioning stocking 10. In various embodiments, the venting region 26 may be woven from the same material as the remainder of the power damper 10, such as a veil (eg, by C〇〇uy [axTM, merino wool, nylon fiber, polyester fiber] CoconaTM, bamboo Fiber, acrylic fiber, Therm〇c〇〇1TM fiber, four-pass polyester fiber, activated carbon granules, carbon fiber or other yarns with wicking characteristics) combined with different types of yarns such as woven yarns, For example, it is made of nylon, elastic fiber, polyester fiber or spandex. In some embodiments, the venting region 26 is woven with loose weave such as a mesh weave or honeycomb weave to allow for more airflow and perspiration to pass through the venting region 26. In some embodiments, the mesh panel may be suitably jacquard to allow for more airflow and perspiration to pass through the venting region 26. In various embodiments, one or more curved regions 28 may be included, for example to help reduce fiber wrinkles and maximize airflow that is prone to wrinkle regions, such as toe region 16 connecting the arch region (also known as the foot bone) The area of the region 18, and the region of the arch region 18 connecting the sock region 30. In the illustrated embodiment, the curved region 28 includes one or more extended regions 32 that extend toward the foot side and that are joined by a larger central region 34. In some embodiments, the extended region 32 in the thicker region of the sock can promote bending while also inhibiting wrinkles of the fibers. In various embodiments, the extended region 32 is generally of the Η type, which can help maximize bending 201141402, the amount of mesh ventilation within the domain. In some embodiments, the t-curved region 28 may be woven from the same material as the remaining portion of the movement, such as a veil (eg, from, for example, a dragon fiber, a polyester fiber, a c_aTM, a bamboo fiber, a cellulose acetate, a Therm〇c). Pooh: channel polyester fiber, activated carbon granules, carbon fiber or a material selected from the lining line with perspiration characteristics) combined with different types of yarns such as woven yarns, for example, nylon ς = = or spandex production. In some embodiments, a curved area 28 is utilized, such as = to allow more airflow and perspiration to pass through the venting area 26. ^卜^ In the example, the weaving may be - (d) in the power_socks (four) thickness to help reduce: the tendency of the pleats in the thicker regions of the cushioning socks 10. Forces Various embodiments may also include a support region 42 (see, for example, 1B, 2A_FIG.). In some embodiments, the arched support region 42 can be provided by compression weaving, for example, can be used for the support/contraction__zone_tight, _. The implementation of the financial indicator area 42 (Fig. 2A) can be woven from a woven yarn, such as nylon, elastic dimension = fiber = / or spandex. In some implementations, additional plies from the arched floor region 42 may be provided by application of, for example, polystyrene-external compression material, which may be woven into an arched support region 42. In various kinds of real towel, the power slow _ 1G shot _ σ area 3 (), the ship side flap 36, used to protect the foot bone (such as the foot) to avoid scratches, bruises such as (10), 1D Figure and Figure 1E). In an embodiment, the inner tongue force buffer ίο the remainder of the same material is woven, such as a veil (eg, by c〇〇j^axTM, merino wool, nylon fiber, polyester fiber, co_TM, bamboo fiber, C Lithium silicate fiber, The_coolm fiber, four-channel poly-relay, activated carbon granules, carbon fiber or other yarns selected from row (four) properties) combined with different types of yarns such as woven yarns, such as nylon, elastane Made from Polysaccharide or Spandex. In some implementations, the weaving tongue 36 can be woven by a different weaving method, such as a terry cushion weave. In other actual closures, the inner tab 36 may comprise an elastic material such as rubber which may be woven or knitted or applied by other methods. In various embodiments, the inner tab 36 may be slightly thicker than the surrounding sock. Although low socks are illustrated in Figures 1A through m, other types of socks may be considered, such as short socks, as shown in Figure 3A, and in the middle or mid-high machine, as shown in Figure 3B. Similarly, the sock may be adapted to mate with a particular shoe, such as a sports shoe, and in various embodiments, the venting area 26 may be positioned to correspond to a venting area of a particular type of shoe. Having described and described certain embodiments, various changes and/or equivalents of the embodiments or implementations may be substituted for the same purpose without departing from the scope of the invention. It is obvious. It will be readily understood by those skilled in the art that the embodiments can be carried out in various ways. The present invention is intended to cover any modifications and variations of the embodiments discussed herein. Therefore, it is apparent that the embodiments are limited only by the scope and equivalents of the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS The embodiments will be readily understood by the following detailed description in conjunction with the drawings. The embodiments are illustrated by way of example and not by way of limitation of the drawings. 1A, 1B, 1C, 1D, and 1E, a side view (1A), an inner side view (Fig. 1B), and a top view (Fig. 1C) of an example of a power cushioning shoe are described based on various embodiments. ), front view (Fig. 1D) and rear view (Fig. 1E); Fig. 2 illustrates a bottom view of the power damper example (Fig. 2a), and the anatomy of the foot from the gait cycle, in accordance with various embodiments. Three images of the impact map (2B, 2C, and 2D); 3A and 3B illustrate a short tube type (3rd 8th) of the power cushioning socks and dynamic cushioning socks according to various embodiments. Side view of a middle or middle height type (Fig. 3B); and Figs. 4A and 4B illustrate bottom bottom views of an example of an alternative embodiment of a power cushioning shoe in accordance with various embodiments. [Main component symbol description] 10 #/» ^ && 4*- 10 Power cushioning socks 12 Upper 14 Sock part 16 Toe area 18 Arch area 20 Heel area 22 Impact protection buffer 24 Buffer area 201141402 26 Ventilation Area 28 Bending area 30 Sock area 32 Extension area 34 Center area 36 Inner tab 38 Channel 40 Closed loop portion 42 Support area