五、新型說明: 【新型所屬之技術領域】 本創作係有關一種用於鞋體之磁力緩衝避震裝置,尤指一 種兼具同時達到氣壓避震與磁斥力避震之結構、加壓力與磁斥 力成正比的避震結構及結構簡單之用於鞋體之磁力緩衝避震 裝置。 【先前技術】 傳統溜冰鞋主要係將一鞋體固定於一溜冰鞋座上,讓使用 者腳穿鞋體,並以溜冰鞋座進行溜冰。 傳統溜冰鞋產生以下問題: [1] 無氣壓避震功效。傳統溜冰鞋主要供作溜冰運動、表 演之用,除鞋體與鞋墊可能以較佳、較柔軟之材質製成外,目 前尚沒有在溜冰鞋座底部設置氣壓避震的設計。 [2] 無磁力避震功效。傳統溜冰鞋座並沒有相當良好的避 震效果(例如磁力避震)’但又常常用於激烈的運動或比赛(諸 如:短距離競赛、花式溜冰中之海纟躍轉身後的著地),造成運 動員腳部承受相當大的踩踏力,使運動員在運動或比赛後,腳 部可能感到疼痛。 有鑑於此,必需研發出用於鞋體之磁力緩衝避震裝置。 【新型内容】 本創作之目的,在於提供一種用於鞋體之磁力緩衝避震裝 置,其兼具同時達到氣壓避震與磁斥力避震之結構、加壓力與 磁斥力成正_避震結構,及結_單之優I _是,本創 作所欲解決之問題包括:傳統溜冰鞋座無避震裝置等問題。 解決上述問題之技術手段係提供一種用於鞋體之磁力緩 衝避震裝置,其包括: 氣壓緩衝部’係用以固定於一鞋部,該氣壓緩衝部具有 可撓性,並具有: 一内部空間; 複數個彈性支撑牆件,用以將該内部空間分隔成複數個 氣室,該每-彈性支樓牆件皆具有至少一氣孔,用以使該相鄰 之氣室内的氣壓力可相互流通; 磁力緩衝部’係包括複數個第一磁性件及複數個第二磁 f生件’额數個第―、第二磁性件係分獅對應社下固定於 該每一氣室内,且概呈上下同極相斥; 藉此’當該鞋部供-使用者穿著踩踏,且對該氣壓緩衝部 產生加壓力時’ 5緣壓緩衝部内之氣壓力受到壓縮,而於該 複數個氣飼移動流通’配合該第―、該第二磁性件產生之磁 斥力’達到緩衝避震者。 本創作之上述目的與優點,不難從下述所選用實施例之詳 細說明與附圖中,獲得深入瞭解。 茲以下列實施例並配合圖式詳細說明本創作於後: 【實施方式】 本創作係為-種用於鞋體之磁力緩衝避震裝置,參閱第 -、第一、第三及第四圖(即本創作之第一實施例),其包括·· -氣壓緩衝部U),伽關定於—鞋部9卜該氣壓緩衝 部10具有可挽性,並具有: 一内部空間11 ; 、複數個彈性支標牆件12,用以將該内部空間n分隔 成複數個氣室m ’該每-彈性切牆件12皆具有至少一氣 孔121,用以使該相鄰之氣室lu内的氣壓力ρι可相互流通; -磁力緩_ 20,係包括複數個第—雜件21及複數個 第二磁性件22,該複數個第_、第二磁性件21與22係分別 相對應的上下固定於縣—氣室11内,且概呈上下同極相斥; 藉此,當該鞋部91供一使用者叫參閱第五圖)穿著踩踏, 且對該氣壓緩衝部K)產生—加壓力p2時,該氣壓緩衝部1〇 内之耽壓力P1 $到壓縮,而於該複數個氣室ηι間移動流通, 配合該第-、該第二磁性件21與22產生之磁斥力P3(參閱第 六圖)’達到緩衝避震者。 實務上,該氣壓緩衝部10及該複數個彈性支撲牆件12可 為軟耀·質結構(一體成型)。 該鞋部91可包括一溜冰鞋體911及-鞋底座912,該氣 壓緩衝部H)係固定於該溜冰鞋體911與該鞋底座912之間。 參閱第七及第”本創作之第二實施例,其為第一實 施例的兩個氣壓緩衝部10上下連結之實施例;且 該其中-氣顧衝部1G(例如為上側的氣壓緩衝部1〇)内 M429366 之該複數個第一、第二磁性件21與22之間概呈上下異極相 吸。加上其間之氣壓力P1被壓縮,使該第一、該第二磁性件 21與22之間同時具有磁吸力及氣壓緩衝效果。當使用者 踩踏於其上,能感受到柔軟舒適。 本創作之實際動作過程係如下所述: 當該鞋部91未供穿著踩踏時,該氣壓緩衝部1〇内之各氣 至111内的氣壓力P1,係通過相鄰之該彈性支撑牆件12上之V. New description: [New technical field] This creation is related to a magnetic buffer shock absorber for shoe body, especially a structure that combines both pneumatic and magnetic repulsion shocks, pressure and magnetic The shock absorber is proportional to the shock absorber structure and the magnetic shock absorber for the shoe body is simple. [Prior Art] Conventional skates mainly fix a shoe body on an ice skate shoe seat, let the user wear the shoe body, and skate on the skate shoe. Traditional skates have the following problems: [1] No air pressure suspension. Traditional skates are mainly used for skating sports and performances. In addition to the fact that the shoe body and insole may be made of a better and softer material, there is currently no air shock absorber at the bottom of the skate seat. [2] No magnetic shock absorber effect. Traditional skate seats don't have quite good shock absorption (such as magnetic shock absorbers)' but they are often used for intense sports or competitions (such as: short distance races, skating in the sea, and the land behind the sea ), causing the athlete's foot to withstand considerable pedaling force, so that the athlete may feel pain after the exercise or competition. In view of this, it is necessary to develop a magnetic shock absorber for the shoe body. [New content] The purpose of this creation is to provide a magnetic buffer shock absorber for a shoe body, which has a structure that simultaneously achieves a gas shock absorber and a magnetic repulsion shock absorber, and a pressure and magnetic repulsion force is positive _ suspension structure. And the knot _ single excellent I _ is, the problem that this creative is to solve includes: the traditional skates without shock absorbers and other issues. The technical means for solving the above problems is to provide a magnetic shock absorber for a shoe body, comprising: a pneumatic buffer portion for fixing to a shoe portion, the air pressure buffer portion having flexibility and having: an interior a plurality of elastic support wall members for dividing the inner space into a plurality of air chambers, each of the elastic branch wall members having at least one air hole for allowing air pressure in the adjacent air chambers to mutually The magnetic buffering portion includes a plurality of first magnetic members and a plurality of second magnetic f-shaped members, and a plurality of second magnetic members are fixed in each of the gas chambers, and The upper and lower ends are repelled; thereby, when the shoe portion is supplied to the user and the user presses the pedal, and the pressure is applied to the air pressure buffer portion, the air pressure in the edge pressure buffer portion is compressed, and the plurality of gas feed moves are performed. The circulation 'cooperating with the first--the magnetic repulsion generated by the second magnetic member' reaches the buffer absorber. The above objects and advantages of the present invention are not limited by the detailed description of the selected embodiments described below and the accompanying drawings. The following examples will be described in detail with reference to the drawings: [Embodiment] This creation is a magnetic shock absorber for the shoe body, see the first, first, third and fourth figures. (i.e., the first embodiment of the present invention), comprising: - air pressure buffering portion U), the gamma is fixed to the shoe portion 9 and the air pressure buffering portion 10 is of a manageability and has: an internal space 11; a plurality of elastic support wall members 12 for dividing the internal space n into a plurality of air chambers m'. Each of the elastic cut wall members 12 has at least one air hole 121 for making the adjacent air chambers The air pressures ρι may be mutually circulated; the magnetic tempo -20 includes a plurality of first and second miscellaneous pieces 21 and a plurality of second magnetic members 22, and the plurality of first and second magnetic members 21 and 22 respectively correspond to each other. The upper and lower portions are fixed in the county-air chamber 11 and are repelled by the upper and lower ends; thereby, when the shoe portion 91 is provided by a user, refer to the fifth figure), the pedal is worn, and the air pressure buffer portion K) is generated - When the pressure p2 is applied, the pressure P1 $ in the air pressure buffer portion 1 is compressed, and the flow is moved between the plurality of gas chambers η , With the first - and the second magnetic member 21 and the magnetic repulsion forces arising P3 22 (see FIG. VI) 'to cushion the shock by. In practice, the air pressure cushioning portion 10 and the plurality of elastic baffle wall members 12 may be of a soft and sleek structure (integral molding). The shoe portion 91 can include a skate body 911 and a shoe base 912 that is secured between the skate body 911 and the shoe sole 912. Referring to the seventh embodiment of the present invention, the second embodiment of the present invention is an embodiment in which the two air pressure buffer portions 10 of the first embodiment are connected up and down; and wherein the air pressure portion 1G (for example, the upper air pressure buffer portion) 1〇) between the plurality of first and second magnetic members 21 and 22 of M429366, there is an upper and lower differential attraction, and the air pressure P1 is compressed therebetween, so that the first and second magnetic members 21 are There is magnetic attraction and air pressure buffering effect at the same time. 22 When the user step on it, the soft and comfortable feeling can be felt. The actual operation process of the present invention is as follows: When the shoe portion 91 is not worn for stepping on the shoe portion 91, The air pressure P1 of each gas in the air pressure buffer portion 1 to 111 passes through the adjacent elastic support wall member 12
氣孔121 ’概呈均勻散佈於各該氣室U1内(參閱第四圖);該 第一、该第二磁性件21與22之間概呈同極相斥狀態(也可能 疋尚未達到同極相斥的距離)。 當該使用者92(例如為溜冰者)腳踩該鞋部91(亦即溜冰輪 鞋)進行溜冰時,係透過該溜冰鞋體911對該氣壓緩衝部10施 予加壓力P2(參閱第五圖),進而產生以下兩種緩衝作用(參閱 第六圖):The air holes 121' are evenly distributed in each of the air chambers U1 (refer to the fourth figure); the first and second magnetic members 21 and 22 are in the same polarity repulsive state (may also have not reached the same pole) Repelled distance). When the user 92 (for example, a skater) pedals the shoe portion 91 (ie, the skater shoe) to perform ice skating, the air pressure cushioning portion 10 is applied with a pressure P2 through the skate body 911 (see the fifth). Figure), which in turn produces the following two buffering effects (see Figure 6):
W氣壓緩衝(避震)。被該加壓力π接觸到之該氣室山, 八内之射”的祕力ρι係透過該彈性支雜件η上之氣孔 ⑵,分舰_找氣室⑴内,在賴力ρι分韻過程中, 達到“氣壓緩衝(避震),,功效。 L J磁斤力緩衝(避震)。當該氣室111之頂部受該加壓力 P2加壓而下降’同時帶動位於其内之該第-磁性件21朝該第 -磁性件22的方向移動,此時該第―、該第二磁性件21盘 22間因嘱目㈣⑽力p3,彳咖繼p2的衝 6 M429366 擊,達到“磁斥力緩衝(避震),,功效。 本創作之優點及功效可歸納如下: [1] 同時達到氣壓緩衝(避震)與磁斥力緩衝(避震)。本創作 於氣壓緩衝部内設置複數個彈性支撐牆件,將内部空間分隔成 複數個氣室,並於每一氣室内設置概呈上下同極相斥之兩個磁 性件;當加壓力施予氣壓緩衝部,其内之氣壓力受到壓縮,而 在複數個氣室間移動流通,且使上下兩個磁性件相對接近,造 成兩個同極之磁性件產生磁斥力,而同時達到氣壓緩衝(避震) 與磁斥力緩衝(避震)者。 [2] 加壓力與磁斥力成正比的避震結構。瞬間施予氣壓缓 衝部之加壓力愈大,使兩個同極之磁性件愈快速接近,而產生 愈大的磁斥力,避震效果愈好。 [3] 結構簡單。本創作只是於溜冰鞋體與鞋底座之間設置 机壓緩衝部’再於其内之複數個相通的氣室中㈣氣體(產生 亂壓力)’且設置複數組上下方向同極相斥的雜件。概為公 知技術可達成者。故,結構簡單。 以上僅疋藉由較佳實施例詳細說明本創作 ,對於該實施例 所做的任何簡單修改與變化,料麟本雜之精神與範圍。 7 M429366 【圖式簡單說明】 第一圖係本創作之第一實施例之分解示意圖 第二圖係第一圖之示意圖 第三圖係第二圖之主要結構之剖視圖 第四圖係第三圖之局部放大之示意圖 第五圖係本創作之應用例之示意圖 第六圖係第五圖之部份結構之動作示意圖 第七圖係本創作之第二實施例之示意圖 第八圖係第七圖之局部放大之示意圖 【主要元件符號說明】 10氣壓緩衝部 11内部空間 111氣室 12彈性支撐牆件 121氣孔 20磁力緩衝部 21第一磁性件 22第二磁性件 91鞋部 911溜冰鞋體 912鞋底座 92使用者 P1氣壓力 P3磁斥力 P2加壓力 8W air pressure buffer (shock absorber). The secret force ρι of the air chamber mountain, which is contacted by the pressing force π, passes through the air hole (2) on the elastic supporting piece η, and is divided into the air chamber (1), in the process of resolving the rhyme In the middle, the "air pressure buffer (shock absorber), the effect. L J magnetic force buffer (shock absorber). When the top of the air chamber 111 is pressurized by the pressing force P2 to descend 'while driving the first magnetic member 21 located therein to move toward the first magnetic member 22, the first and second magnetic portions The 21 pieces of the 22 discs are due to the eye (4) (10) force p3, and the 彳 继 following the p2 rushing 6 M429366 hits the magnetic repulsion buffer (shock absorber), and the effect. The advantages and effects of this creation can be summarized as follows: [1] At the same time, the air pressure is reached. Buffer (shock absorber) and magnetic repulsion buffer (shock absorber). The creation of a plurality of elastic support wall members in the air pressure buffer portion, the internal space is divided into a plurality of air chambers, and the upper and lower homopolar phases are arranged in each gas chamber. Two magnetic members are repelled; when the pressure is applied to the air pressure buffering portion, the air pressure therein is compressed, and the air is circulated between the plurality of air chambers, and the upper and lower magnetic members are relatively close to each other, resulting in two identical poles. The magnetic member generates magnetic repulsion, and at the same time, it reaches the air pressure buffer (shock absorber) and the magnetic repulsion buffer (shock absorber). [2] The shock absorber structure is proportional to the magnetic repulsion force. The pressure applied to the air pressure buffer portion is instantaneously applied. The larger, the faster the two magnetic parts of the same pole are connected Nearly, the larger the magnetic repulsion, the better the shock absorbing effect. [3] The structure is simple. The creation is only to provide a mechanical pressure buffer between the skate body and the shoe sole and then a plurality of communicating gases. In the room (4) gas (generating chaotic pressure)' and setting up the miscellaneous pieces of the same array in the up and down direction of the same array. It is a well-known technique that can be achieved. Therefore, the structure is simple. The above description is only described in detail by the preferred embodiment. Any simple modification and change made to this embodiment, the spirit and scope of the material. 7 M429366 [Simple description of the drawing] The first drawing is the second schematic diagram of the first embodiment of the present creation. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 3 is a cross-sectional view showing a main structure of a second diagram. FIG. 4 is a partial enlarged view of the third diagram. FIG. 5 is a schematic diagram of an application example of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 7 is a schematic view of a second embodiment of the present invention. FIG. 8 is a partially enlarged schematic view of the seventh embodiment. [Main component symbol description] 10 air pressure buffer portion 11 internal space 111 air chamber 12 elastic branch Shoe portion 91 hole 20 magnetic wall member 121 of the first buffer portion 22 of the second magnetic member 21 of the magnetic member 911 of the base 92 skate shoe 912 users air pressure P1 P2 P3 magnetic repulsion member pressing force 8