M301550 -—^ 财祕f手 八、新型說明: _濟无 【新型所屬之技術領域】 ~ 本創作係關於一種「鞋内緩衝彈性體」,尤指一種適 -用於任何鞋體内部置設,而為一體成型所構成具缓衝彈性 力月b,同日守可確保吸震結構強度之鞋内緩衝彈性結構,且 本創作係延續德國新型第202004012472號之創作衍生而產 生之創作。 【先前技術】 按’為提高鞋體穿戴之舒適性,早期大多針對鞋體與 鞋墊之材質加以改良’但其效果仍極為有限,因此近年來 乃有業者將氣體具緩衝功能之原理應用於 ::運動=多之氣塾鞋,即是在鞋體之鞋底部設計二 、、。冓’ ι加料騎走動作時之雜緩衝絲,並可減 低腳底於:走動作時所受之壓迫力’惟該氣囊結構係屬封 _ 、、弋、”構°又十-當氣囊破損時,即失去功能,而在極易流 汗之鞋内上,氣墊無法同時達到透氣效果,另氣墊需要特 殊之成型技術,其成本亦較高。 【新塑内容】 (所欲解決之技術問題) _上述士氣囊結構之鞋墊雖具有極佳吸震緩衝效果,然 誠如上述祝明中發現其在實際穿戴使用中所發生之缺失, M301550 以及製造成本較高之因辛, 丨- 排耽不_之因素,有其尋求替代改善方式之市場需求。 (解決問題之技術手段) 研製創作者乃針對上述W用結構之缺失與弊端, =裏4種不需氣囊之緩衝彈性體結構,主要係利用一 彈性體上層面、一個彈性體ψ ^ 、 袓㈣蘭、i性體下層面 丨、、且成緩衝彈性體,三個構件完全連接成m 出成型’可以單-構件運用,也可以搭配多個運用,並且 可以結合較大之構件與較小之構件組合運用,具有簡單、 易成型、排氣流暢、不易破損之多重優點者。 (對照先前技術之功效) 本創作相較先前技術,最主要在於本創作鞋内 3面係由;ΓΓ面片體上層面、一彈性之中間緩衝 體層面、—彈性之平面片體下層面組成,三者連接並以— 次射出成型’不容易破損’而且上下層面間的中間緩衝層 具有空隙,裝置於鞋内後與鞋子組合後,自然形成氣室7 具有氣體彈簧功能,同時當彈性體上層面承受壓力時 力經由彈性體上層面下方之直立片體向下壓’將連接於直 立片體之斜向片體往下壓,斜向片體再由彈性體下層面上 之直立片體支撐,藉由斜向片體之壓縮與回復產生彈性, 配合上述氣室所形成之氣體彈簧,達到雙重彈簀之效果. 同時生產製作成本較低’可以一體成型’並且可以視運用 方式組合成較大型的彈性緩衝功能,整體構件更較習式精M301550 -—^ 财秘f手八, new description: _济无无 [New technical field] ~ This creation is about a kind of "shoe cushioning elastic body", especially one suitable for use in any shoe body interior The one-piece molding is composed of a cushioning elastic force b, and the same day can ensure the shock-absorbing structural strength of the in-shoe cushioning elastic structure, and the creation department continues the creation of the German new type 202004012472. [Prior Art] According to 'to improve the comfort of the shoe body, most of the early improvements were made to the material of the shoe body and the insole', but the effect is still very limited. Therefore, in recent years, the industry has applied the principle of the gas cushioning function to: : Sports = more airy shoes, that is, in the sole of the shoe body design two,.冓' ι feeds the miscellaneous cushioning wire when riding, and can reduce the sole of the foot: the pressure exerted when walking. 'But the airbag structure is sealed _, 弋, 构 ° and ten - when the airbag is broken , that is, lost function, and in the shoes that are easy to sweat, the air cushion can not achieve the breathable effect at the same time, and the air cushion needs special molding technology, and the cost is also high. [New plastic content] (Technical problem to be solved) _The above-mentioned insole of the airbag structure has excellent shock absorbing cushioning effect. However, as mentioned above, Zhu Mingzhong found that it is missing in the actual wearing and use, M301550 and the manufacturing cost is higher, the 丨- 排丨There is a market demand for alternative improvement methods. (Technical means to solve the problem) The creators of the development are aimed at the lack and disadvantages of the above-mentioned W structure, = four types of buffered elastomer structures that do not require airbags, mainly using an elastic The upper layer of the body, an elastic body ψ ^, 袓 (four) blue, the lower layer of the i-sex body, and the buffering elastic body, the three members are completely connected into the m-formed 'can be used for single-components, or With multiple applications, and can be combined with larger components and smaller components, it has the advantages of simple, easy to form, smooth exhaust, and not easy to break. (Compared with the efficacy of the prior art) This creation is compared with the prior art. The most important thing is that the three sides of the shoe are made up of the upper surface of the shoe, the upper layer of the elastic body, the lower layer of the elastic film, and the lower layer of the elastic plane. The three are connected and the injection molding is not easy. Breakage' and the intermediate buffer layer between the upper and lower layers has a gap. After the device is assembled in the shoe and combined with the shoe, the air chamber 7 is naturally formed to have a gas spring function, and when the upper layer of the elastic body is under pressure, the force passes through the upper layer of the elastic body. The upright sheet is pressed downwards to press down the oblique sheet attached to the upright sheet, and the oblique sheet is supported by the upright sheet on the lower layer of the elastic body, and is produced by compression and recovery of the oblique sheet. Elastic, with the gas spring formed by the above air chamber, achieves the double elastic effect. At the same time, the production cost is lower, 'can be integrated' and can be used Synthesis of larger elasticity buffer function, compared with conventional unitary member more refined formula
M301550 簡,實為一具特殊實用性之首先創作者 _ 【實施方式】 . 凊參閱第一至四圖所示,係為本創作緩衝彈性體10之 基本構造不意圖,由第一圖中可見其係由一彈性體上層面 11、一個彈性體中間緩衝層12a、一彈性體下層面13所組 成直立型緩衝彈性體1〇a,如圖中所示,該中間緩衝層12a 攀疋由兩個直立片體121所組成,該直立片體121為均勻同 、,厚度之片體,並且寬度也是均一,直立片體121之間為 平打設置,具有一定的間距,在如第二圖所示承受壓力時, 兩直立片體121會撓曲,而產生緩衝及吸震之效能,一樣 的h形,若將中間緩衝層改變設計如第三圖所示彎曲型緩 衝彈性體10b之彎曲片體丨22,該預先設定的彎曲形狀,會 ,彈性緩衝體12b受壓迫時,撓曲反應的速度加快,再如 第四圖所不連體型緩衝彈性體l〇c,其中間緩衝層i2c是由 鲁一向中内凹之Η形片體所構成,η形片體是由四片向中斜向 2斜片體123與一水平片體124組成,當該彈性緩衝體i2c "又置於鞋子内部時,由於片體以Η形連體時,受到壓力時 的撓曲變化穩定而且方向變化也穩定,整體在壓縮與回復 過程都會比較穩定。 >另睛參閱第五圖及第九圖,連體型緩衝體l〇d之中間 緩衝層改變設計如圖所示,由一彈性體上層面Η連接連續 且相同間隔之直立片體125,每一個直立片體125分別向^ 右延伸各一個斜向片體126,其中,相鄰的直立片體125 所L伸的斜向片體126,左邊的斜向片體126會與相鄰的右 7M301550 Jane, the first creator of a special practicality _ [Embodiment] 凊 See the first to fourth figures, the basic structure of the creative cushioning elastic body 10 is not intended, as can be seen from the first figure It consists of an elastomeric upper layer 11, an elastomeric intermediate buffer layer 12a, and an elastomeric lower layer 13 composed of an upright cushioning elastic body 1a, as shown in the figure, the intermediate buffer layer 12a is smashed by two The upright sheet body 121 is composed of the same piece, the thickness of the sheet body, and the width is also uniform, and the upright sheet bodies 121 are arranged in a flat shape with a certain spacing, as shown in the second figure. When subjected to pressure, the two upright sheets 121 are deflected to produce cushioning and shock absorbing performance, and the same h-shape, if the intermediate buffer layer is changed, the curved sheet body of the curved cushioning elastic body 10b is shown in the third figure. 22, the predetermined curved shape, when the elastic buffer body 12b is pressed, the speed of the flexing reaction is accelerated, and as in the fourth figure, the non-continuous type buffering elastic body l〇c, the intermediate buffer layer i2c is Lu Yizhong concave concave piece The n-shaped sheet body is composed of four obliquely inclined bodies 2 and a horizontal sheet body 124. When the elastic cushioning body i2c " is placed inside the shoe, the sheet body is connected by a beak In the case of body, the deflection change under pressure is stable and the direction change is also stable, and the whole process is relatively stable in the compression and recovery process. > Further, referring to the fifth and ninth views, the intermediate buffer layer of the conjoined buffer body l〇d is designed as shown in the figure, and the continuous and identically spaced upright sheets 125 are connected by an elastic upper layer. Each of the upright sheets 125 extends to the right of each of the oblique sheets 126, wherein the oblique sheets 126 of the adjacent upright sheets 125 are extended, and the left oblique sheets 126 are adjacent to each other. Right 7
M301550 邊斜向片體126連接,由連接的地方與下層面i3的直5 體125連接,構成如圖所示五角形之空間,而且連接連續 且相同間隔’上層面H的五角形與下層面13的五角形交 •錯排列成完整的彈性緩衝體;如第七圖所示,整個彈性緩 衝體12d受壓迫時,上面的直立片體125受壓縮時,會讓 斜向片體126撓曲變形,再傳遞給下面的直立片體125,不 同的區域會有不同的撓曲反應,同時氣室也會提供反彈的 力量。 再請參閱第六圖及第十圖,連體型緩衝體W之中間 緩衝廣改變設計如圖所示,由一彈性體上層面^連接連續 且相同間隔之直立片體125,每一個直立片體125分別向左 右延伸各-個彎曲片體127’其中,相鄰的直立片體125 所延伸㈣曲片體127,左邊的彎曲片冑⑵會與相鄰的右 邊彎曲片體127連接,由連接的地方與下層面13的直立片 體士125連接’構成如圖所示近似五角形之空間,而且連接 籲連續且相同間隔’上層面u的近似五角形與下層面Η的 .近似五角形交錯排列成完整的彈性緩衝體;如第八圖所 不:整個彈性緩衝體12e受壓迫時,上面的直立片體125 受壓縮時’會讓已彎曲的f曲片體127挽曲變形,再傳遞 給下面的直立片體125,同樣的氣室也會提供反彈的力量, 此一設計會有較佳之吸震功能。 ,一再者明參見弟十一及苐十二圖所示,係由連體型緩 衝體10e變化之第一種分段式連體型緩衝體1〇f,其上層面 11與下層面12可以分別製作再結合,並且以不同的軟^度 實施於上層面11與下層面12,例如上層面丨丨較軟,提供 8The M301550 is connected to the oblique body 126, and is connected to the straight body 125 of the lower layer i3 to form a space of a pentagon as shown in the figure, and is connected to the pentagon of the upper layer H and the lower layer 13 at the same interval. The pentagon is misaligned into a complete elastic buffer; as shown in the seventh figure, when the entire elastic buffer 12d is pressed, when the upper vertical piece 125 is compressed, the oblique piece 126 is flexed and deformed, and then Passed to the underlying slab 125, the different zones will have different flexing responses, and the plenum will also provide the power to bounce. Referring to the sixth and tenth drawings, the intermediate buffer of the connected body buffer W is changed as shown in the figure, and an upright piece 125 of continuous and identical intervals is connected by an elastic upper layer, each of the upright pieces. The body 125 extends to each of the left and right curved body 127', wherein the adjacent vertical piece 125 extends (4) the curved body 127, and the left curved piece 胄 (2) is connected with the adjacent right curved piece 127, The connection is connected to the upright sheet 125 of the lower layer 13' to form a space of approximately pentagon as shown in the figure, and the connection is continuous and the same interval 'the approximate pentagon of the upper layer u and the lower layer .. The approximately pentagon is staggered. The complete elastic buffer body; as shown in the eighth figure: when the entire elastic buffer body 12e is pressed, when the upper vertical piece body 125 is compressed, the bent f-shaped piece body 127 will be bent and deformed, and then transmitted to the lower side. The upright sheet 125, the same air chamber will also provide the power of the rebound, this design will have better shock absorption. As shown in the figures of the eleventh and the twelfth, the first type of segmented type buffer body 1〇f which is changed by the conjoined type buffer body 10e, the upper layer 11 and the lower layer 12 can be Separately produced and recombined, and implemented in the upper layer 11 and the lower layer 12 with different degrees of softness, for example, the upper layer is softer, providing 8
M301550 cushion減震功能,下層面12較硬,提供stabi 1 ity支撐 穩定功能。 再請參見第十三至第十五圖所示,係由連體型缓衝體 10e變化之第一種分段式連體型緩衝體10g,其上層面11 可以局部與下層面12分離再結合,由較軟的上層面11提 供特定部位的cushion減震功能,仍由較硬的下層面提供 stability支撐穩定功能。 請再參見第十六至第十八圖所示,係由連體型緩衝體 10e變化之第一種分段式連體型緩衝體10h,其上層面11 由上述第十二圖之方式稍加變化,與下層面12再結合,由 較軟的上層面11提供特定部位的cush i on減震功能,仍由 較硬的下層面提供stability支樓穩定功能。 另如第十九圖所示,係為本創作緩衝彈性體之第一較 大組合實施例立體圖,緩衝彈性體20C的上層面11與下層 面13之間,自兩側前端開始呈U型排列複數個容置孔30 至後端,容置孔30則一樣裝置複數個緩衝彈性體10,U型 排列複數個緩衝彈性體10的上層面11與下層面之間的中 央部份則夾置複數個小間距直立片體121b,使緩衝彈性體 主體中間設有較小間距之直立片體121b,在主體周圍規則 的設置排列複數個缓衝彈性體10,成為一個單一個體的較 大缓衝彈性體,也一樣可以提供同一缓衝彈性體不同的彈 性;而第二十圖所示,係為本創作緩衝彈性體之第二較大 組合實施例立體圖,缓衝彈性體20D的上層面11與下層面 之間,由分隔用直立片體121c分隔為兩區,一區不規則排 列複數個容置孔30,每一容置孔30則一樣裝置一個緩衝彈 M301550 / 性體10,另一區排列夾置複數個小間距直立片體121b",也 同樣可以提供同一缓衝彈性體不同的彈性,都得以發揮彈 性緩衝效果,以提供使用者舒適穿戴與行走者。 請配合參閱第二十一圖所示為第五圖之連體型緩衝彈 ^ 性體10d裝置於鞋中之示意圖,由於各直立片體12均有間 距,故可均勻彎曲變形,以提供腳底之吸震與彈性,使運 用該緩衝彈性體獲得最適切之彈性壓縮與回復量,以發揮 壓縮緩衝效果者。 ® 綜上所述,本創作「鞋内緩衝彈性體」,係提供一種 適用於任何鞋體内部置設,而為組合或一體成型所構成具 緩衝彈性功能,使整體確具產業實用性及成本效益者,且 其構成結構又未曾見於諸書刊或公開使用,誠符合新型專 利申請要件,懇請鈞局明鑑,早日准予專利,至為感禱。 需陳明者,以上所述乃是本創作之具體實施例及所運 用之技術原理,若依本創作之構想所作之改變,其所產生 之功能作用仍未超出說明書及圖式所涵蓋之精神時,均應 在本創作之範圍内,合予陳明。 M301550M301550 cushion damping function, the lower level 12 is hard, providing stabi 1 ity support stability. Referring again to the thirteenth to fifteenth drawings, the first type of segmented type buffer body 10g which is changed by the joint type buffer body 10e, the upper layer 11 can be partially separated from the lower layer 12 In combination, the soft upper layer 11 provides the cushioning function of the specific part, and the stability support function is still provided by the hard lower layer. Referring again to the sixteenth to eighteenthth drawings, the first type of segmented type buffer body 10h which is changed by the joint type buffer body 10e, the upper layer 11 is slightly in the manner of the above twelfth figure. Adding changes, combined with the lower layer 12, provides a cushioning function for the specific part by the soft upper layer 11, and still provides the stable stability of the stability of the building by the harder lower level. In addition, as shown in FIG. 19, it is a perspective view of the first larger combined embodiment of the cushioning elastic body. The upper layer 11 and the lower layer 13 of the cushioning elastic body 20C are arranged in a U-shape from the front ends of the two sides. A plurality of accommodating holes 30 are provided to the rear end, and the accommodating holes 30 are provided with a plurality of buffering elastic bodies 10, and the central portion between the upper layer 11 and the lower layer of the U-shaped array of the plurality of cushioning elastic bodies 10 is sandwiched The small-pitch upright sheets 121b are provided with a small pitch of the upright sheets 121b in the middle of the buffering elastic body, and a plurality of cushioning elastic bodies 10 are arranged regularly around the main body to become a single individual's large cushioning elasticity. The body can also provide different elasticity of the same cushioning elastic body; and the twentieth figure is a perspective view of the second larger combined embodiment of the cushioning elastic body, the upper layer 11 of the cushioning elastic body 20D Between the lower layers, the partition is separated into two regions by the upright sheet 121c, and a plurality of accommodating holes 30 are irregularly arranged in one area, and each of the accommodating holes 30 is provided with a buffer bomb M301550 / trait 10, and another area Arrange a plurality of Vertical spacing sheet 121b ", also may provide different elastic body elastically same buffer, both elastic cushioning effect to play, in order to provide the wearer with comfortable user's walking. Please refer to the schematic diagram of the connected type buffering elastic body 10d of the fifth figure shown in the figure 21 in the shoe. Since the vertical pieces 12 are spaced apart, the bending can be uniformly deformed to provide the sole of the foot. The shock absorption and elasticity make it possible to use the cushioning elastic body to obtain the optimum elastic compression and recovery amount to exert the compression buffer effect. ® In summary, the creation of "shoe cushioning elastomer" provides a suitable cushioning function for any shoe body, and it has a cushioning elastic function for combination or integral molding, which makes the whole industry practical and cost-effective. The benefit, and its structure has not been seen in the publications or public use, in line with the requirements of the new patent application, please ask the Bureau to understand the patent, as soon as possible to grant patents, to pray. To be clear, the above is the specific embodiment of the creation and the technical principles applied. If the changes made according to the concept of this creation, the functional role produced by it does not exceed the spirit of the manual and the drawings. At the time, it should be combined with Chen Ming within the scope of this creation. M301550
【圖式簡單說明】 第一圖係為第一種緩衝彈性體之基本構造示意圖。 第二圖係為第一種緩衝彈性體之受壓撓曲示意圖。 第二圖係為第二種緩衝彈性體之基本構造示意圖。 第四圖係為第三種緩衝彈性體之基本構造示意圖。 第五圖係為第四種緩衝彈性體之基本構造示意圖。 苐六圖係為第五種緩衝彈性體之基本構造示意圖。 第七圖係為第四種緩衝彈性體之受壓變化示意圖。 第八圖係為第五種緩衝彈性體之受壓變化示意圖。 第九圖係為本創作第四種緩衝彈性體之立體圖。 第十圖係為本創作第五種緩衝彈性體之立體圖。 第十一圖係為本創作第五種緩衝彈性體之第一變化立 體圖。 第十二圖係為本創作第五種緩衝彈性體之第一變化平 面分解圖。 第十三圖係為本創作第五種緩衝彈性體之第二變化立 體圖。 第十四圖係為本創作第五種缓衝彈性體之第二變化平 面分解圖。 第十五圖係為本創作第五種緩衝彈性體之第二變化平 面組合圖。 第十六圖係為本創作第五種緩衝彈性體之第三變化立 體圖。 第十七圖係為本創作第五種緩衝彈性體之第三變化平 變化平 M301550 面分解圖。 第十八圖係為本創作第五種緩衝彈性體之第三 面組合圖。 第十九圖係為本創作緩衝彈性體之第一較大組合實施 ' 例裝置於鞋中之示意圖。 第二十圖係為本創作缓衝彈性體之第二較大組合實施 例裝置於鞋中之示意圖。 第二十一圖本創作第四種緩衝彈性體裝置於鞋中之示 ®意圖。 【主要元件符號說明】 10 · ••緩衝彈性體 l〇a · ••緩衝彈性體 10b · ••緩衝彈性體 10c · ••缓衝彈性體 10d · ••緩衝彈性體 10e · ••緩衝彈性體 11 · ••上層面 12a •··直立型緩衝體 12b · ••彎曲型緩衝體 12c、12d、12e · · ·連體型緩衝體 12f、12g、12h· · ·分段式連體型緩衝體 121、 121b、121c、125 · · · ·直立片體 122、 127 · · · ·彎曲片體 123、 126 · · · ·斜片體 124 · · · ·水平片體 13 · · ·下層面 20C、20D · · ·較大缓衝彈性體 12 M301550 滅月λ 手 補无 30 · · •容置孔 13[Simple description of the drawings] The first figure is a basic structural diagram of the first type of cushioning elastomer. The second figure is a schematic view of the compression of the first type of cushioning elastomer. The second figure is a basic structural diagram of the second cushioning elastomer. The fourth figure is a basic structural diagram of a third type of cushioning elastomer. The fifth figure is a basic structural diagram of the fourth cushioning elastomer. The sixth figure is a basic structural diagram of the fifth cushioning elastomer. The seventh figure is a schematic diagram of the pressure change of the fourth buffer elastomer. The eighth figure is a schematic diagram of the pressure change of the fifth cushioning elastomer. The ninth figure is a perspective view of the fourth type of cushioning elastomer. The tenth figure is a perspective view of the fifth type of cushioning elastomer. The eleventh figure is the first variation of the fifth type of cushioning elastomer. The twelfth figure is the first variational planar exploded view of the fifth type of cushioning elastomer. The thirteenth figure is the second variation of the fifth type of cushioning elastomer. The fourteenth figure is a second variation plan exploded view of the fifth type of cushioning elastomer. The fifteenth figure is a combination of the second variation plane of the fifth type of cushioning elastomer. The sixteenth figure is the third variation of the fifth type of cushioning elastomer. The seventeenth figure is the third variation of the fifth type of cushioning elastomer, the M301550 surface decomposition diagram. The eighteenth figure is the third combined view of the fifth type of cushioning elastomer. The nineteenth figure is a schematic diagram of the first large combination of the creation of the cushioning elastomer in the shoe. The twentieth figure is a schematic view of the second larger combined embodiment of the creation of the cushioning elastomer in the shoe. The twenty-first figure creates a fourth cushioning elastomeric device in the shoe. [Main component symbol description] 10 · •• Buffer elastomer l〇a • •• Buffer elastomer 10b • •• Buffer elastomer 10c • •• Buffer elastomer 10d • •• Buffer elastomer 10e • •• Buffer elasticity Body 11 ·••Upper level 12a •··Upright type buffer body 12b •••Bend type buffer body 12c, 12d, 12e · · Conjoined type buffer body 12f, 12g, 12h · · · Segmented type Buffer bodies 121, 121b, 121c, 125 · · · · Upright sheets 122, 127 · · · · Curved sheets 123, 126 · · · · Inclined body 124 · · · · Horizontal sheet 13 · · · Lower level 20C, 20D · · · Large cushioning elastomer 12 M301550 Dead moon λ Hand complement no 30 · · • accommodating hole 13