M425685 ' 五、新赉說明: ‘ 【新型所屬之技術領域】 本創作係涉及一種踏步機運動健身器材,特別是指 種其踏桿與組力輪之間係採用連桿傳動式之創新結構型 設計者。 【先前技術】 : 按,踏步機結構設計上,其左、右側踏桿與阻力輪 間必須透過傳動機構加以連結,以使左、右側踏桿隨著 、右側踏板上下作動時,能夠傳動阻力輪旋轉,並配合 ® 設的阻力裝置(如磁控)達到適當的阻力效果。 目前市面上常見的習知踏步機結構,其左、右側踏 與阻力輪之間所設傳動機構係為鋼索傳動型式,惟,此 習知設計於實際應用經耠中發現仍舊存在下述問題點: 鋼索傳動型態因受限於其重力傳動結構型式,為達 預期重力狀態,必須設為兩段式傳動型態,惟如此勢必 在成本高、裝配難度高以及皮帶容易打滑、掉帶、跑帶 斷帶、翻帶等缺弊及問題。 是以,針對上述習知踏步機結構所存在之問題點, • 何開發一種更具理想實用性之創新結構,實使用者所企 ' ,亦係相關業者須努力研發突破之目標及方向。 ' 有鑑於此,創作人本於多年從事相關產品之製造開 與設計經驗,針對上述之目標,詳加設計與審慎評估後 終得一確具實用性之本創作。 【新型内容】 本創作之主要目的,係在提供一種連桿傳動式踏步 ,其所欲解決之問題點,係針對如何研發出一種更具理 實用性之新式踏步機傳動構造為目標加以改良創新突破 態 之 左 預 桿 種 到 存 如 盼 發 機 相 M425685 所述踏步 及踏板所 輪通過立 有心軸; 對二側間 軸下方間 該擺桿連 上一下相 本創 傳動連桿 桿包括前 互樞組連 於阻力輪 應的擺桿 傳動連桿 通過早向 ;且當擺 、後肘部 超越垂吉-述肘動式 槓桿原理 用而驅動 大幅減化 兼具較佳 機基本上. 構成,其 向框架呈 該二擺桿 Pw]處,且 隔位置, 動裝置則 對旋擺作 作解決問 ’藉以分 肘部及後 接,又前 之心車由, 中段部, 的前、後 轴承套接 桿向上旋 之間呈最 角度之後 之傳動連 ’其傳動 阻力輪, 傳動構件 傳動效能 、扶手架、阻力輪、二擺桿 立設於基座装設面上,阻力 於基座上’阻力輪中央橫設 組於基座上且位於阻力輪相 樞組位置對應於阻力輪之心 別組設於二擺桿之旋擺端; 之間,以連動二擺桿互呈一 係包括基座 中該扶手架 橫軸向枢組 之摇接端樞 令該枢接端 一踏板則分 v人於—擺桿 動狀態; 題之技術特 別連結阻力 肘部’該前 肘部.前端設 後肘部後端 俾當二擺桿 肘部產生具 部對心軸的 擺至設定最 小夾角狀態 傾角狀態; 桿傳動阻力 連桿所形成 使本創作對 、降低製造 之實用進步 點主要包括 輪之心轴與 、後肘部之 有一單向轴 則具一後樞 上、下旋擺 夾角變化之 單向帶動以 高擺角而構 時,係令前 藉此創新獨 輪之技術特 的力臂即可 照先前技術 與組立成本 性與較佳產 :呈肘 二擺桿 間通過 承套接 接部連 作動時 肘動, 驅使阻 成傳動 肘部的 特設計 徵,由 達到所 而言, 、裝配 業經濟· 動式之二 ,傳動連 拖接部相 部以套組 接於相對 ,得驅使 並進一步 力輪旋轉 連桿的前 擺角呈不 ,利用所 於是利用 需重力作 傳可達到 更簡單且 效益。 【實施方式』 之較:J s閱第1至5圖所示,係本創作連桿傳動式踏步機 上並不受:惟此等貫施例僅供說明之用,纟專利申請 結構之限制。所述連桿傳動式踏步機係包括下 4 M425685 述構 /基座10,呈橫置向長形延伸態樣,包括著置 及裝铁面12 , 〆祆手架13 ’立設於該基座1〇的裝設面12上; 〆/r且力輪14,通過一立向框架15樞組於基座1〇 軸向投置塑態’該阻力輪14中央橫設有一心轴16 ; >擺桿17及·一踏板18 ’ 5亥—擺桿17包括栖接端 旋擺痛172以及介於該樞接端Π1與旋擺端Π2之 1?3 ,該枢接端171樞組於基座10上且位於阻 段部1 相對二*側間隔處,且令該枢接端171樞組位置對應 於14中夹所設心轴16的下方間隔位置’二踏板18則 ^ 辩桿17之旋擺端172 ; 設於二挪 贫禪連動裝置20 ’設於二擺桿17之間’以連動 ^ _上一下的相對旋擺作動狀態; 莫財動式之二傳動連桿2丨’藉以分別連結該阻 μ心袖16與二擺桿17 ’所述傳動連桿21係包括一 2ΐΓ以及一後肘部212所構成,該前肘部211與後 12之間通過一樞接部22相互榧組連接,又該前肘部 前端設有一單向轴承套接部23以套組於該阻力輪Μ 轴16,後肘部212的後端則具一後樞接部24連接於 的擺桿17中段部173 ’俾當二擺桿17上、下旋擺作 得驅使傳動連桿21的前、後財部211 、212產生具 化之肘動,並進一步通過單向軸承套接部23 (僅標 4圖)對心軸16的單向帶動以驅使阻力輪14旋轉; 復如第2圖所示’係本創作結合於踏步機之實 ,該結步機Α包括一基座、—踏板18、二擺桿17 殼40、一扶手架13、一控制面板41所構成,本創作 於該外殼40内部,藉以踩踏二·踏板18作上、下向旋 的狀態。 部11以 上呈橫 171 、 間的中 力輪Μ 於阻力 分別組 二擺桿 力輪14 前肘部 肘部2 211的 所設心 相對應 動時’ 夾角變 示於第 施例圖 、一外 係設置 擺運動 M425685 如第.5圖所示,其中當擇桿17向上族擺至設定最高擺 角而構成傳動連桿21的前、後肘部211 、 212之間呈最小 夾角狀態時,係令該前財部211的擺角呈不超越垂直角度 之後傾角狀態,藉以避開傳動死點。 復如第1圖所示,其中該擺桿連動裝置20係包括一活 輪30以及一雙頭拉索31,該雙頭拉索31係呈倒U形掛組於. 該活輪30,並令雙頭拉索31之二端分別連結於二擺桿17中 段部173 :又該基座10上介於二擺桿17之間並設有一立架 32,以使該活輪30係樞組於該立架32的頂段部321 。 其中該傳動連桿21的前肘部211可藉由形成一曲型部 位之型態,以當擺桿17向上旋擺至設定最高擺角而構成傳 動連桿21的前211 、後肘部212之間呈最小夾角狀態時, 令該前肘部211的擺角呈不超越垂直角度之後傾角狀態。 補充說明一點是,該擺桿17的枢接端171樞組位置, 可對應於阻力輪14中央所設心轴16的正下方垂直角度間隔 位置。 藉由上述結構組成設計,茲就本創作之使用作動情形 說明如下: 如第3圖所示,係本創作連桿傳動式踏步機二擺桿之 上、下旋擺作動示意圖,藉由向下踩踏左側踏板18,以使 右側踏板18向上升高(如圖(a)所示),反之向下踩踏右 側踏板18,則會使左側踏板18向上升高(如圖(b)所示) ,藉此反覆作動狀態以達到踏步式之運動建身效果。 如第5圖所示,係本創作傳動連桿21之前肘部211相 較於習知一般肘動連桿之狀態對照示意圖,當使用者踩踏 踏板18時,會帶動擺桿17與傳動連桿21作動(作動方向如 L2所示),利用該傳動連桿21的前肘部211係藉由形成一 曲型部位之型態,因此當擺桿17向上旋擺至設定最高擺角 而構成傳動連桿21的前、後肘部211 、 212之間呈最小夾 6 M425685 角肤態時 作之前肘 ’亦即該 位置(間 時(如箭 路徑(如 _更加順 徑與短桿 挫感。) 功效說明 本創作功 本創 動連桿連 特結構組 習知技術 位之型態 傾角狀態 另由於本 即可達到 俾可達到 與組立成 性與較佳 ,孑目於-— 部211的擺 樞接部22位 Pifj距離如L1 號L4所示) L2所示)更 暢無阻。( 旋擺路徑相 艘習知造垣sn夕;皇楼部51也置,木創 角係呈不超越垂直角度之後傾角狀態 置不超過該立向框架丨5中心垂直線L3 所示),藉此,當該擺桿17向下擺動 ,能夠與該傳動連桿21的作動方向與 趨近一致,藉以避開傳動死點’令傳 註:圖中習知連桿5〇會因長桿下拉路 差懸殊而產生死點,造成傳動上的頓 效增進之事 作所揭「連 結該基座上 成型態設計 而言,藉由 ,能夠令該 ,藉以 '避開 創作是利用 所需重力作 大幅減化傳 本、裝配更 產業經濟效 實如下 桿傳動 該阻力 ’使本 該傳動 前肘部 傳動死 槓桿原 用而驅 動構件 簡單且 益。 式踏步 輪所設 創作相 連桿的 的擺角 點,以 理,其 動阻力 而減少 兼具較 機」主要 心轴與二 較於[先 前肘部係 呈不超越 達到使用 傳動連桿 輪,且少 故障發生 佳傳動效 藉由所述二傳 擺桿之創新獨 前技術】所提 形成一曲型部 垂直角度之後 時更加順暢, 所形成的力臂 了皮帶結構, 率、降低製造 能之實用進步 上述實施例所揭示者係藉以星_十、 雖透過特定的術語進行說明,去肢°兄明本創作,且文中 專利範圍;熟悉此項技術領::::此限定本新型創作 精^申與原則後對其進行變更與修 $可在瞭解本㈣ 奪.更輿修故,b u A達至丨丨公丄, 之M425685 ' V. New 赉 Description: ' 【New technology field】 This creation relates to a stepper exercise fitness equipment, especially the innovative structure of the connecting rod transmission between the pedal lever and the group force wheel. Designer. [Prior Art]: According to the design of the stepper, the left and right pedals and the resistance wheel must be connected through the transmission mechanism so that the left and right pedals can be driven with the right and left pedals. Rotate and use the resistance device (such as magnetron) to achieve proper resistance. At present, the conventional stepping machine structure commonly used in the market has a transmission mechanism between the left and right treads and the resistance wheel, which is a cable transmission type. However, this conventional design has found that the following problems still exist in the practical application. : The cable drive type is limited by its gravity transmission structure type. In order to reach the expected gravity state, it must be set to two-stage transmission type. However, it is bound to be high in cost, difficult to assemble and easy to slip, drop and run. There are shortcomings and problems with broken belts and tumbling belts. Therefore, in view of the problems existing in the above-mentioned conventional stepper structure, • how to develop an innovative structure with more ideal and practicality, and the user-oriented enterprise must also strive to develop the breakthrough goal and direction. In view of this, the creator has been engaged in the manufacturing and design experience of related products for many years. With the above-mentioned objectives, the design and careful evaluation will finally result in a practical and practical creation. [New content] The main purpose of this creation is to provide a link-driven step, and the problem to be solved is to improve and innovate in order to develop a more rational and practical new stepper transmission structure. The left-handed pre-bar of the breakthrough state is stored in the cylinder of the step-by-step pedal and the pedal is passed through the mandrel; the lower side of the shaft is connected to the lower side of the shaft. The pendulum rod connecting rod connected to the resistance wheel passes through the early direction; and when the pendulum and the rear elbow exceed the principle of the hook-and-eleth lever, the driving is greatly reduced and the machine is basically the same. The frame is placed at the second pendulum Pw], and the moving device is used to solve the problem of the rotation. The elbow and the rear are connected, and the front and rear car covers, the middle part, the front and rear bearing sleeves. After the pole is rotated upward, the transmission is at the most angle. The transmission resistance wheel, the transmission component transmission efficiency, the armrest frame, the resistance wheel and the second pendulum are erected on the pedestal mounting surface, and the resistance is on the pedestal. The center of the resistance wheel is arranged horizontally on the base and the position of the phase group of the resistance wheel corresponding to the center of the resistance wheel is set at the swing end of the second swing rod; In the seat, the pivoting end of the lateral axial pivoting group of the armrest frame pivots the pedaling end to a swinging state of the pivoting end; the technical special connection resistance elbow part of the front elbow. The rear end of the elbow is swayed when the elbow of the two pendulums produces a tilting state of the mandrel to the set angle of the minimum angle; the rod drive resistance link is formed to make the creation of the pair and reduce the practical progress of manufacturing mainly including the heart of the wheel A unidirectional shaft of the shaft and the rear elbow has a unidirectional drive with a change in the angle between the rear pivot and the lower swing, which is constructed with a high swing angle. According to the prior art and the combination of cost and better production: when the elbow and the pendulum are connected through the socket joint, the elbow is driven to drive the special design of the transmission elbow, as far as it is concerned, assembly Industry economy · The second type, the drive even drag Phase portion to the front portion attached to the kit opposite to give driving force of the wheel and further rotation of the link was not swing angle, using the thus using gravity as required to achieve simpler and can transfer efficiency. [Embodiment] Comparison: J s read Figures 1 to 5, which is not subject to the creation of the link-drive stepper: However, these examples are for illustrative purposes only, and the limitations of the patent application structure . The linkage-driven stepping machine includes a lower 4 M425685 description/base 10 extending transversely to the elongated shape, including a mounting and loading surface 12 on which the scaffolding 13' is erected The 〆/r and the force wheel 14 are pivotally disposed on the base 1 through a vertical frame 15 to axially cast a plastic state. The center of the resistance wheel 14 is horizontally disposed with a mandrel 16; > pendulum rod 17 and a pedal 18 '5 Hai-pendulum rod 17 includes a docking end swaying pain 172 and a 1?3 between the pivoting end Π1 and the swinging end Π2, the pivoting end 171 pivoting On the pedestal 10 and located at the interval between the two sides of the blocking portion 1, and the pivoting position of the pivoting end 171 corresponds to the lower spacing position of the mandrel 16 provided in the middle of the clip. 17 swinging end 172; set in the second Norwegian Zen linkage device 20' is set between the two swinging rods 17 'to move the relative _ _ up and down relative to the swing state; Mo Cai dynamic two transmission link 2 丨The transmission link 21 includes a 2 ΐΓ and a rear elbow 212, and the front elbow 211 and the rear 12 pass through a pivoting portion. 22 mutual 榧The front end of the front elbow portion is provided with a one-way bearing sleeve portion 23 for being sleeved on the resistance rim shaft 16, and the rear end portion of the rear elbow portion 212 has a swing rod 17 to which the rear pivot portion 24 is coupled. The middle portion 173 'the upper and lower swings of the second swing lever 17 are configured to drive the front and rear financial portions 211 and 212 of the transmission link 21 to generate an articulated movement, and further pass through the one-way bearing sleeve portion 23 (only 4) a one-way drive of the mandrel 16 to drive the resistance wheel 14 to rotate; as shown in FIG. 2, the combination of the present invention is integrated with a stepper, the base device includes a base, a pedal 18, The second rocker 17 shell 40, a handrail frame 13, and a control panel 41 are formed inside the casing 40, so that the two pedals 18 are stepped on and down. The upper part of the section 11 is horizontally 171, and the middle force rim is different from the resistance set. The second set of the pendulum force wheel 14 is opposite to the set heart of the elbow elbow 2 211. The angle is shown in the first example and the outer The pendulum movement M425685 is set as shown in Fig. 5, wherein when the selection rod 17 swings up to the set maximum swing angle to form the minimum angle between the front and rear elbows 211, 212 of the transmission link 21, Let the swing angle of the former Treasury 211 not exceed the vertical angle and then the inclination angle, so as to avoid the transmission dead point. As shown in FIG. 1 , the pendulum linkage device 20 includes a movable wheel 30 and a double-headed cable 31 , and the double-headed cable 31 is an inverted U-shaped suspension group. The movable wheel 30 is The two ends of the double-headed cable 31 are respectively connected to the middle portion 173 of the second swinging rod 17 : the base 10 is disposed between the two swinging rods 17 and is provided with a vertical frame 32 for pivoting the movable wheel 30 In the top section 321 of the stand 32. The front elbow portion 211 of the transmission link 21 can form a front portion 211 and a rear elbow portion 212 of the transmission link 21 by swinging the swing rod 17 upward to a set maximum swing angle by forming a curved portion. When there is a minimum angle between the angles, the swing angle of the front elbow 211 is such that it does not exceed the vertical angle and then the tilt angle state. It should be noted that the pivoting position of the pivoting end 171 of the swinging rod 17 can correspond to the position of the vertical angular interval directly below the mandrel 16 provided in the center of the resisting wheel 14. With the above-mentioned structural composition design, the following is a description of the use of the present creation: As shown in Fig. 3, the schematic diagram of the upper and lower swings of the second swinging lever of the connecting rod transmission type stepper is shown by The left pedal 18 is stepped on to raise the right pedal 18 upward (as shown in (a)), and vice versa, the left pedal 18 is raised upward (as shown in (b)). In this way, the action state is repeated to achieve the step-by-step movement bodybuilding effect. As shown in FIG. 5, the state of the elbow 211 before the creation of the transmission link 21 is compared with the conventional elbow link. When the user steps on the pedal 18, the swing lever 17 and the transmission link are driven. 21 actuation (actuation direction is as shown by L2), the front elbow 211 of the transmission link 21 is formed by forming a curved portion, so that the swing lever 17 is swung upward to set the highest swing angle to constitute the transmission. The front and rear elbows 211, 212 of the connecting rod 21 have a minimum clamp of 6 M425685. The angle of the skin is the elbow', that is, the position (such as the arrow path (such as _ more diameter and short rod frustration). Efficacy Description This creation work creates a connecting rod and special structure group. The shape of the known technology position is also due to the fact that it can be achieved with the group and the better, and the focus is on the - 211 The Pifj distance of the pivoting portion 22 is as shown by L1 and L4 (shown by L2). (The swinging path is the same as the customary 垣n ;n; the empire section 51 is also placed, the wood crepe angle is not beyond the vertical angle and the inclination angle is not more than the vertical frame 丨5 center vertical line L3), borrowed Therefore, when the swinging rod 17 swings downward, it can be aligned with the driving direction of the transmission link 21, so as to avoid the dead point of the transmission, so that the conventional connecting rod 5〇 will be pulled down by the long rod. The road difference is disparate and the dead point is generated, causing the effect of the improvement on the transmission. "In connection with the design of the shape on the pedestal, it is possible to use this to avoid the creation by using the required gravity. For the purpose of greatly reducing the cost, the assembly is more economical and the economy is as follows. The resistance of the rod drive is such that the front elbow transmission dead lever of the transmission is used for the original purpose and the driving member is simple and beneficial. The pendulum wheel is provided with the pendulum of the connecting rod. The corner point, the reason, the reduction of the dynamic resistance and the comparison of the main axis and the second [the previous elbow system does not exceed the use of the transmission link wheel, and less failure occurs better transmission effect by the two The innovative technology of the pendulum It is more smooth after the vertical angle of the curved portion is formed, and the force formed by the belt arm structure, the rate and the practical improvement of the manufacturing energy are reduced by the above-mentioned embodiments, which are explained by specific terms. , Departures brothers Mingben creation, and the scope of patents in the text; familiar with this technology collar:::: This limited new creation and principles and changes and repairs after it can be understood in this (four) win. Repairing, bu A reaches the park,
一只仅蚵領域之 、啊型創 之精神與原則後對其進行變更盘 ·可在瞭解本創^ 此等變更與修改’皆應涵蓋於如;達到等效目的,^ 定之範♦中。 ' 迷申請專利範圍所J 7 M425685 意 示 體 立 合 組 構 結 β— 内 機 步 踏 式 動 傳 桿 ]連 明作 說創 單本 簡: 式圖 圖· 1 Γ-第 圖。 第2圖:本創作連桿傳動式踏步機外觀之平面側視圖。 第3圖:本創作連桿傳動式踏步機二擺桿之上、下旋擺作 動示意圖。 第4圖:本創作單向軸承套接部套組於該阻力輪之心軸放 大透視圖。 第5圖:本創作傳動連桿與習知一般肘動連桿狀態對照示 意圖。 【主要元件符號說明 習知部分: 0 連桿 連接部 本創作部份 踏步機 基座 著置部 裝設面 扶手架 阻力輪 立向框架 心轴 擺桿 樞接端 旋擺端 中段部 踏板A change in the spirit and principles of the field only, and the change of the spirit and principles of the model can be included in the understanding of the creation of such changes and modifications should be covered in the equivalent purpose, the scope of the standard. 'The patent application scope of the J 7 M425685 means the combination of the body and the structure of the β-inner step-step type of moving rods] and even the Ming Zuo said a single book Jane: Figure 1 · Figure 1 - Figure. Figure 2: Plane side view of the appearance of the link-connected stepper. Fig. 3: The schematic diagram of the upper and lower swings of the second swinging rod of the connecting rod transmission type stepping machine. Fig. 4: The perspective view of the mandrel of the one-way bearing sleeve of the present invention is set on the mandrel of the resistance wheel. Figure 5: The purpose of this creation transmission link and the conventional elbow linkage state is shown. [Main component symbol description Conventional part: 0 Linkage link Part of the creation Stepper Base Placing Mounting surface Armrest frame Resistance wheel Vertical frame Mandrel Pendant Pivot end Swing end Middle section Pedal
A 0 4 77 1 7 2 7 3 8A 0 4 77 1 7 2 7 3 8
M425685 權桿連動裝詈 傳動連桿 前肘部 後財部 樞接部 單向軸承套接部 後桓接部 活輪 雙頭拉索 立架 頂段部 外殼 控制面板M425685 Stroke linkage assembly Transmission connecting rod Front elbow Rear finance Department pivot joint One-way bearing sleeve Rear joint part Live wheel Double head cable Stand Top section Shell Control panel
3 2 1 4 0 4 13 2 1 4 0 4 1
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