M417159 五'新型說明: 【新型所屬之技術領域】 本創作係有關於健身車發電模組,特別是一種具有内嵌 轉盤加速結構的健身車發電模組。 人M417159 Five's new description: [New technology field] This creation department is about the exercise bike power generation module, especially an exercise bike power generation module with an embedded turntable acceleration structure. people
【先前技術】 近年來,隨著工商經濟迅速發展,都市人口的比例曰益 增加,而在地狹人稠的都市中,由於生活環境狹小,適合戶 二運動的環境及場地亦相#有限,因此各式各樣的室内運動 ,材便應運而生’而在室内運動器材中,最普遍常見的就是 至内健身車,使用方式簡單,並且使用者更可依據個人需 求自行對至内健身車的飛輪阻力進行調整,以達到運動健 身或重量訓練之功效。 ^目前常見的,用於室内健身車内產生飛輪阻力的方式, 係於其飛槪構外部加裝發電裝置喊生電雜力,進而以 此電磁阻力作為飛輪阻力。 習知用以裝設於室内健身車内的發電裝置,主要係 下列四種: 習知的第-種室内健身車發電裝置,係於飛輪的内側環 面上分佈設置複數個永久磁鐵,同時於該等永久磁鐵的相對 應處設置-線圈承座,此線圈承座係由多個錢片所疊置而 成,其中並繞置有複數個線圈,此處各個線圈係與各二磁鐵 相對應,料間並保持一預定間隙。然而,以此種結構作為 毛電裝置,除了體積大及材料成本高的缺點外,由於其結構 3 M417159 複雜,導致組裝不易且人工成本高,另外,以此種方式發電, 在轉速低時發電量較小,且運轉時溫度較高。 習知的第二種室内健身車發電裝置,係於飛輪的内側環 面上設置一行星齒輪的結構,其係藉由複數個齒輪嚅合的結 構產生電力。然而,以此種結構作為發電裝置,除了材料成 本高的缺點之外,由於齒輪結構複雜,導致其組裝不易且人 工成本高,另外,以此種方式發電,其運轉時噪音大,並且 其轉速所能放大的倍數相當有限。 習知的第三種室内健身車發電裝置,係於飛輪的轉軸上 配置一環狀磁鐵,並於面向此環狀磁鐵處配置一線圈承座, 此線圈承座係由多個矽鋼片所疊置而成,其中並繞置有複數 個線圈,且各線圈皆對應至此環狀磁鐵,其間並保持一預定 間隙。雖然此種結構的體積小,然而其材料成本仍高,且結 構複雜更具有組裝不易及人工成本高的缺點,另外,以此種 方式發電,在轉速低時其發電量較小。 習知的第四種室内健身車發電裝置,係於鄰近飛輪的位 置裝設一發電模組,並以一皮帶連結於發電模組的轉子與飛 輪的外環面之間;當飛輪轉動時,皮帶係帶動發電模組的轉 子進而產生電力。然而,以此種結構作為發電裝置必須外接 一發電模組,因而具有材料成本高、組裝麻煩以及維修不易 等缺點。 【新型内容】 綜上所述,習知數種室内健身車發電裝置係皆有其缺失 4 M417159 而有予以改善的必要’本創作係對習知裝設於室 的發電裝置進行改良,其主要係針對發電裝置中的 : 伐良’崎決f知室_身車發電裝置所具有的各 本創作之主要目的’係於室内健身車的飛輪結構中内私 -轉盤加速結構’其中’當飛輪旋轉時,係同步帶動此轉盤 加速結構而使其產生-高速旋轉輸出,進而使室内 Φ 發電模組產生電力。 本創作解決問題之技術手段,係於健身車之飛輪結構中 配置-内嵌轉盤加速結構的健身車發電模組,其係包括一轉 盤加速機構以及-發電模組。其中,轉盤加速機構包括—固 定軸、-第-大轉盤、一第一副軸、一第一小轉盤、—第二 大轉盤、以及-第二小轉盤;其中第一大轉盤、第一小轉盤、 第二大轉盤、以及第二小轉盤皆係為齒輪轉盤;第一大轉盤 可轉動地樞設於固定軸,係供—外加驅動力施加於其上而驅 • 動其旋轉;第一小轉盤可轉動地樞設於第-副軸,並與第一 大轉盤互為喊合,以由第_大轉盤帶動旋轉;第二大轉盤可 . 轉動地樞接於第—副軸,並固定連接於第-小轉盤,以由第 -小轉盤帶動其同步旋轉;第二小轉盤係與第 二大轉盤互為 4口 ’以由第—大轉盤帶動旋轉,進而由第二小轉盤帶動發 電模組產生電力。發電籠包括—轉子、以及—定子,轉子 係結合於第二小轉盤,以由第二小轉盤帶動旋轉;定子係於 轉子旋轉時產生電力。 在本創作之-較佳實施例中,第二小轉盤係經由一第一 5 M4171.59 轴承可轉動地柩接於固定轴而與第―大轉盤同轴。 實施例中’第二小轉盤係可轉動地 樞接於一苐一副軸,其係與第一大轉盤不同軸。 义本創作之内嵌轉盤加速結構的健身車發電模組係突破 刚述習知各種用於室⑽身車發電模組的結構設計,盆體積 小且可整合岐於室内健身車的飛輪的内部空間中,並且除 了材料成本低、結構簡單、組裝容易、人工成本低等優點之 外,本創作之内嵌轉盤加速結構的健身車發電模組更具有發 電品質穩U及高速轉動時噪音小等優點。此外,本創作之 轉盤加速結構係可產生-高速旋轉輸出,其可供發電模组產 生局發電量,並且,其發電量的大小可藉由改變轉盤間之尺 寸比例進行調整。 【實施方式】 請參閱第1至4圖,其中第1圖及第2圖分別係本創作 • 之第一實施例之立體分解圖及立體圖,第3圖係第2圖之 3-3斷面之剖面圖,第4圖係本創作之第一實施例之示意 • 圖。本創作之内嵌轉盤加速結構的健身車發電模組10係包 • 括一轉盤加速機構100以及一發電模組200,其中轉盤加速 機構100包括一固定軸1、一飛輪2、一第一大轉盤3、一 第-副軸4、一第一小轉盤5、一第二大轉盤6以及—第二 小轉盤7,帛一大轉盤3、第一小轉盤5、第二大轉盤6及 第一小轉盤7皆係為齒輪轉盤,發電模組2〇〇包括一轉子$ 以及一定子9。 6 M417159 固定軸1上配置有一飛輪轴承2卜飛輪2係經由飛輪 轴承2】可轉動地檀設於固定輪!,第一大轉盤3可轉動地 樞設於固定轴i ’並經由一連結柱31固定結合於飛輪2的 内側面22 ;當飛輪2受一外加驅動力I驅動而旋轉時,苴 係經由連結柱3】帶動第__大轉盤3时旋轉。第—小轉盤 5可轉動地柩設於第一副軸4,並與第一大轉盤3互為嚙合; 當第-大轉盤3旋轉時’其係帶動第一小轉盤$旋轉。第二 大轉盤6可轉動地樞接於第—抑4,並固定連接於第一小 轉盤5;當第一小轉盤5旋轉時,其係帶動第二大轉盤㈣ 步旋轉第一小轉盤7係經由第一軸承71可轉動地柩接於 固定軸1而與該第—大轉盤3同軸,並且第二小轉盤7係與 第-大轉盤6互為〇§合;當第二大轉盤6旋轉時,其係帶動 第二小轉盤7旋轉。 轉子8包括複數個磁性元件81,其係環繞設置於一承 座Μ的内環面上,承座82係固設於第二小轉盤7,以由第 二小轉盤7帶動旋轉。定子9包括一線圈承座91、以及複 、·氣圈92 ’其中線圈承座91較佳係由複數個石夕鋼片疊置 而成其係經由一固定座93結合於固定軸1 ;該等線圈92 係繞置於線圈承座91上,各別對應於該等磁性元件81,並 保持—預定間隙。當第二小轉盤7高速旋轉時,承座82隨 之旋轉,即可由該等線圈92產生電力。 在本實施例中,一支架94亦經由固定座93固定於固定 車由1 卜 ,( ’支架91的一自由端941係自固定軸1延伸出一長 度自由端941並結合至第一副軸4的一端,以供固定第— 7 M417159 副轴4。 請參照第5圖,其係本創作之第二實施例之示意圖。如 示’在本創作之第二實施例中,第二小轉盤7係設 動地檀接於-第二副轴41上,並與第二大轉盤6 與前述之第一實施例相較,請同時參照第彳圖及 71 了棘*在第—實施财,第二小轉盤7係經由第一軸承 =同轴,而^二實施例中,第二小轉盤7係設置為可轉 動地樞接於一第二副軸41上,1 ·'' 軸。 /、與弟一大轉盤3係為不同 轉盤加速機構HKH系隨飛輪2的旋轉產生一 出,其係供發電模組2〇〇產生A 门、 1 度玍1:力。舉例來說, 盤3與第一小轉盤5的直徑比為5 : 右:大轉 與第二小轉盤7的直徑比亦為5:1。當飛第=轉盤6 力I的驅動而旋轉時,第 &外加驅動 轉,其並同時帶動第-小轉盤5旋轉,此時第 的轉速係為第一大轉盤3 _的5 $ 、轉盤5 的轉速係為飛輪2轉速的5仵。者 第小轉盤5 係帶動第二大轉盤6同步^田傾盤5旋轉時,其 為飛輪2轉速的5倍。去第_ P’ 一大轉盤6的轉速亦 二小轉盤7旋轉,此時轉盤6旋轉時’其係帶動第 盤6轉速的5倍,即,第]轉盤7的轉速係為第二大轉 的25倍。由此可知,盤7的轉逮係為飛輪2轉逮 輪2的轉速放大。由轉盤加速機構_係可有效將飛 8 M417159 並且,發電模組200所產生的電力係與轉盤加速機構 r的,速旋轉輸* _速成正比,因此使用者更可依據所 而發電量的大小’對各轉盤之間的尺寸比例進行改變以調整 轉盤加速機構100的高速旋轉輸出的轉速。另外,在前述之 ^創作之第-實施例以及第二實施例中,轉盤加速機構ι〇〇 皆為二級的加速轉盤結構,使用者更可依據其所欲放大的倍 數需求’將轉盤加速機構100設計為三級以上的加速轉般社 構。 观、。 請參見第6圖,其係將本創作裝設於一室内健身車内部 之實施不意圖。如圖所示,本創作之内嵌轉盤加速結構的健 身車發電模組10係裝設於一室内健身車的内部當使用者 踩踏室内健身車的踏板時,其係㈣飛輪2旋轉,因而使得[Prior Art] In recent years, with the rapid development of the industrial and commercial economy, the proportion of the urban population has increased, and in the densely populated cities, due to the narrow living environment, the environment and venues suitable for the two sports are also limited. Therefore, all kinds of indoor sports, materials will come into being. In indoor sports equipment, the most common is the inner exercise bike, the use is simple, and users can also rely on their own needs to the inner exercise bike The resistance of the flywheel is adjusted to achieve the effects of exercise or weight training. ^ At present, the common method for generating flywheel resistance in an indoor exercise car is to install a power generating device outside the flying structure to call the electric hybrid force, and then use this electromagnetic resistance as the flywheel resistance. The conventional power generation devices installed in indoor exercise vehicles are mainly the following four types: The first type of indoor exercise bike power generation device is provided with a plurality of permanent magnets distributed on the inner ring surface of the flywheel, and The corresponding position of the permanent magnet is set to a coil socket, which is formed by stacking a plurality of money sheets, wherein a plurality of coils are wound around, where each coil system corresponds to each of the two magnets, Keep a predetermined gap between the materials. However, with this structure as a thermal power device, in addition to the disadvantages of large volume and high material cost, due to the complexity of its structure 3 M417159, the assembly is not easy and the labor cost is high. In addition, power is generated in this way, and power is generated when the rotational speed is low. The amount is small and the temperature is high during operation. A second type of indoor exercise bike power generating device is provided with a planetary gear structure on the inner side surface of the flywheel, which generates electric power by a plurality of gear-coupled structures. However, with such a structure as a power generating device, in addition to the disadvantage of high material cost, the gear structure is complicated, resulting in difficulty in assembly and high labor cost. In addition, power generation in this manner is high in noise during operation and its rotational speed. The multiples that can be amplified are quite limited. A third type of indoor exercise bike power generating device is provided with a ring magnet disposed on a rotating shaft of the flywheel, and a coil socket disposed on the annular magnet facing the ring magnet. The coil bearing frame is stacked by a plurality of silicon steel sheets. The plurality of coils are wound around, and each of the coils corresponds to the annular magnet with a predetermined gap therebetween. Although the volume of such a structure is small, the material cost is still high, and the structure is complicated, and the assembly is difficult and the labor cost is high. In addition, power generation is performed in this manner, and the power generation amount is small when the rotation speed is low. A fourth type of indoor exercise bike power generation device is provided with a power generation module adjacent to the flywheel, and is connected by a belt between the rotor of the power generation module and the outer ring surface of the flywheel; when the flywheel rotates, The belt system drives the rotor of the power generation module to generate electricity. However, the use of such a structure as a power generating device requires an external power generating module, and thus has disadvantages such as high material cost, troublesome assembly, and difficulty in maintenance. [New content] In summary, there are several types of indoor exercise bike power generation devices that have their own missing 4 M417159 and have to be improved. 'This creation department improves the conventional power generation device installed in the room, mainly For the power generation unit: The main purpose of each of the creations of the ruins of the ruins of the ruins of the ruins of the ruins of the ruins of the ruins of the ruins When rotating, the turntable accelerates the structure to generate a high-speed rotation output, thereby generating electricity in the indoor Φ power generation module. The technical means for solving the problem in this creation is an exercise bike power generation module equipped with a built-in turntable acceleration structure in the structure of the flywheel of the exercise bike, which comprises a turntable acceleration mechanism and a power generation module. Wherein, the turntable acceleration mechanism comprises: a fixed shaft, a - first large turntable, a first auxiliary shaft, a first small turntable, a second large turntable, and a second small turntable; wherein the first large turntable, the first small The turntable, the second large turntable, and the second small turntable are all gear turntables; the first large turntable is rotatably pivoted on the fixed shaft, and the driving force is applied thereto to drive the rotation thereof; The small turntable is rotatably pivoted on the first-secondary shaft, and is mutually coupled with the first large turntable to be rotated by the first large turntable; the second large turntable is pivotally connected to the first-secondary shaft, and Fixedly connected to the first-small turntable to drive synchronous rotation by the first-small turntable; the second small turntable is connected to the second large turntable by four ports' to be rotated by the first-large turntable, and then driven by the second small turntable The power generation module generates electricity. The power generation cage includes a rotor and a stator, and the rotor is coupled to the second small turntable for rotation by the second small turntable; the stator is coupled to generate electric power when the rotor rotates. In the preferred embodiment of the present invention, the second small turntable is rotatably coupled to the fixed shaft via a first 5 M4171.59 bearing coaxially with the first large turntable. In the embodiment, the second small turntable is rotatably pivotally connected to a first sub-shaft which is different from the first large turntable. The exercise bike power generation module of the built-in turntable acceleration structure created by Yiben has broken through the structural design of the various (10) body power generation modules. The basin is small in size and can be integrated into the interior of the flywheel of the indoor exercise bike. In the space, and in addition to the advantages of low material cost, simple structure, easy assembly, low labor cost, etc., the exercise bike power generation module with the built-in turntable acceleration structure of the present invention has more stable power generation quality and low noise during high-speed rotation. advantage. In addition, the created turntable acceleration structure produces a high-speed rotary output that can be used by the power generation module to generate power, and the amount of power generated can be adjusted by changing the size ratio between the turntables. [Embodiment] Please refer to Figures 1 to 4, wherein Figures 1 and 2 are respectively an exploded perspective view and a perspective view of the first embodiment of the present invention, and Figure 3 is a section 3-3 of Figure 2 The cross-sectional view, Fig. 4 is a schematic view of the first embodiment of the present creation. The exercise bike power generation module 10 of the built-in turntable acceleration structure of the present invention comprises a turntable acceleration mechanism 100 and a power generation module 200, wherein the turntable acceleration mechanism 100 includes a fixed shaft 1, a flywheel 2, and a first large a turntable 3, a first-secondary shaft 4, a first small turntable 5, a second large turntable 6 and a second small turntable 7, a large turntable 3, a first small turntable 5, a second large turntable 6 and A small turntable 7 is a gear turntable, and the power generating module 2 includes a rotor $ and a stator 9. 6 M417159 There is a flywheel bearing on the fixed shaft 1 2 The flywheel 2 is rotatably mounted on the fixed wheel via the flywheel bearing 2]! The first large turntable 3 is rotatably pivoted to the fixed axis i' and fixedly coupled to the inner side surface 22 of the flywheel 2 via a connecting post 31; when the flywheel 2 is driven to rotate by an external driving force I, the twisting system is connected Column 3] rotates when the __large turntable 3 is driven. The first small turntable 5 is rotatably disposed on the first countershaft 4 and meshes with the first large turntable 3; when the first large turntable 3 rotates, the first small turntable is rotated by the first small turntable. The second large turntable 6 is rotatably pivoted to the first to fourth and is fixedly connected to the first small turntable 5; when the first small turntable 5 is rotated, the second large turntable (four) rotates the first small turntable 7 It is rotatably coupled to the fixed shaft 1 via the first bearing 71 to be coaxial with the first large turntable 3, and the second small turntable 7 is coupled with the first large turntable 6; when the second large turntable 6 When rotating, it drives the second small turntable 7 to rotate. The rotor 8 includes a plurality of magnetic members 81 which are disposed around an inner ring surface of a socket, and the socket 82 is fixed to the second small turntable 7 for rotation by the second small turntable 7. The stator 9 includes a coil socket 91 and a complex air ring 92'. The coil socket 91 is preferably formed by stacking a plurality of stone steel sheets, and is coupled to the fixed shaft 1 via a fixing base 93; The equal coils 92 are wound around the coil holders 91, each corresponding to the magnetic elements 81, and held for a predetermined gap. When the second small turntable 7 is rotated at a high speed, the socket 82 is rotated therewith, and electric power can be generated by the coils 92. In the present embodiment, a bracket 94 is also fixed to the fixed vehicle via the fixing base 93. ('A free end 941 of the bracket 91 extends from the fixed shaft 1 to a length free end 941 and is coupled to the first countershaft. One end of 4 for fixing the 7th M417159 sub-axle 4. Please refer to Fig. 5, which is a schematic view of the second embodiment of the present invention. As shown in the second embodiment of the present invention, the second small turntable The 7-series is placed on the second sub-shaft 41, and compared with the second-largest turntable 6 and the first embodiment described above, please refer to the figure and 71 at the same time. The second small turntable 7 is connected via a first bearing = coaxial, and in the second embodiment, the second small turntable 7 is rotatably pivotally connected to a second secondary shaft 41, 1 · '' shaft. The brother of the big turntable 3 is a different turntable acceleration mechanism HKH system with the rotation of the flywheel 2, which is used to generate the A door, 1 degree 玍1 force for the power generation module 2. For example, the disk 3 The ratio of the diameter to the first small turntable 5 is 5: Right: the diameter ratio of the large turn to the second small turntable 7 is also 5:1. When the fly = turntable 6 is driven by the force I and rotates The first & additional drive rotates, and simultaneously drives the first-small turntable 5 to rotate, at which time the first rotational speed is 5 $ of the first large turntable 3 _, and the rotational speed of the turntable 5 is 5 rpm of the flywheel 2 speed. The small turntable 5 series drives the second large turntable 6 synchronously. When the field tilting plate 5 rotates, it is 5 times the speed of the flywheel 2. The speed of the first turntable 6 is also rotated by the second small turntable 7 at this time. When rotating, it drives 5 times the rotation speed of the first plate 6, that is, the rotation speed of the first rotary table 7 is 25 times that of the second large rotation. It can be seen that the rotation of the disk 7 is the rotation of the flywheel 2 to the wheel 2 The speed is amplified. The turret acceleration mechanism _ can effectively fly the fly 8 M417159 and the power system generated by the power generation module 200 is proportional to the speed of the turntable acceleration mechanism r, so that the user can generate electricity according to the power The size of the amount 'changes the size ratio between the respective turntables to adjust the rotational speed of the high-speed rotational output of the turntable acceleration mechanism 100. Further, in the first embodiment and the second embodiment described above, the turntable acceleration mechanism ι 〇〇 are all two-stage acceleration turntable structure, users can also rely on their The multiple demand to enlarge 'The turntable acceleration mechanism 100 is designed to be a three-level or higher-speed acceleration-like structure. View, Please refer to Figure 6, which is intended to be installed inside an indoor exercise bike. As shown in the figure, the exercise bike power generation module 10 of the built-in turntable acceleration structure of the present invention is installed in the interior of an indoor exercise vehicle. When the user steps on the pedal of the indoor exercise vehicle, the (four) flywheel 2 rotates, thereby making
裝"又於至内健身車内部的内嵌轉盤加速結構的健身車發電 模組10產生電力。 X 本創作的發電模組200所產生的電力可以作各種不同 的應用。例如參見第7目,當本創作應用在例如健身車時, 發電模組200所產生的電力,可經由電線傳送至一制動裝置 300’以作為使用者在使用健身車時,提供所需的制動力。 參見第8圖,本創作安裝於室内健身車時,當健身車的 飛輪2轉動,藉由本創作内嵌於飛輪2申的轉盤加速結構而 使健身車發電模組2〇〇產生電力,此電力供應至制動裝置 3〇〇後,可由制動裝置300對飛輪2產生電磁制動力。制動 裝置300可經由簡易的固定架3〇1定位在相對應於健身車的 飛輪2的外環緣鄰近處’而在飛輪2的外環緣可加鋁或鋼環。 9 M417159 參見第9圖所示,此應用例類似於第8圖的配置,其可 將制動裝置300a經由支架94定位在相對應於承座82的外 環緣鄰近處。發電模組200產生之電力供應至制動裝置300a 後,可由制動裝置300a對承座82產生電磁制動力,進而對 飛輪2產生制動力。由於承座82是隨著第二小轉盤7高速 旋轉,故制動裝置300a對承座82所產生的制動力為數倍(例 如25倍)於對飛輪2所產生的制動力,故本實施例的配置可 產生更佳的電磁制動效果。 參見第10圖,本創作安裝於室内健身車,且當健身車 的飛輪2外加鋁或銅材料製成的飛輪碟片23時,可以如圖 所示的制動裝置300b對應配置在飛輪2的飛輪碟片23兩側 邊。發電模組200產生電力供應至制動裝置300b後,可由 制動裝置300b對飛輪2的飛輪碟片23產生電磁制動力,進 而對飛輪2產生制動力。此應用例中,飛輪2可設計成較小 的直徑,可節省材料。再者,在此實施例中,該飛輪碟片 23可整合於例如運動設備的飛輪2,也可以不裝設飛輪2 而僅單獨以鋁或銅製成的飛輪碟片23搭配發電模組200及 制動裝置300b即能達到制動的作用。 參見第11圖所示,此應用例類似於第9圖的配置,其 可將制動裝置300c經由支架94定位在相對應於承座82外 加鋁或銅材料製成的承座碟片821的兩側邊。發電模組200 產生之電力供應至制動裝置300c後,可由制動裝置300c對 承座碟片821產生電磁制動力,進而對飛輪2產生數倍(例 如25倍)的制動力效果。在此實施例中,該承座碟片821可 10 M417159 整合於例如運動設備的飛輪2,也可以不裝設飛輪2而僅單 獨以鋁或銅製成的承座碟片821搭配發電模組200及制動裝 置300e即能達到制動的作用。 參見第12圖,本創作亦可在飛輪2的内側緣配置一金 屬環302(例如可用鋁或銅環)及相對應的制動裝置300d。發 電模組200產生電力供應至制動裝置300d後,可由制動裝 置300d對飛輪2產生電磁制動力。 參見第13圖,本創作應用於自行車訓練器時,係在自 行車訓練器後輪後方配置本創作的運動設備之同軸式轉盤 加速裝置1〇(即包括有轉盤加速機構及發電模組),並延伸結 合一制動輪300e。當使用者踩踏自行車訓練器時,可帶動 本創作的運動設備之同軸式轉盤加速裝置10,再由發電模 組產生電力供應至制動輪300e後,可由制動輪300e對自行 車訓練器後輪產生制動力。 參見第14圖,本創作應用於自行車時,係在自行車的 踏板軸處、前輪軸或後輪軸處配置本創作的運動設備之同軸 式轉盤加速裝置1〇(包括有轉盤加速機構及發電模組)。當使 用者踩踏自行車器時,可帶動本創作的運動設備之同轴式轉 盤加速裝置轉動,再由發電模組200產生電力供應負載。 前述圖式中係以一支第一副軸4且該第一副軸4可結合 一組的第一小轉盤5、第二大轉盤6作為實施例說明,習於 此項技術者亦可以一支以上的第一副軸4各別結合一組的 第一小轉盤5及第二大轉盤6來取代之,亦同樣可以達到相 同的目的及效果。 11 M417159 6 ' —· π阳节、—組以上的第一小轉 f ⑽_目的。例如第15圖所 作之第三實施例之示意圖,一支第一副輪4結合第一組第一 小轉盤5及第二大轉盤6,再由該第—級第一小轉盤$ :大轉盤6結合第二組第一小轉盤5a、第二大轉盤&、再 二組第一小轉盤53、第二大轉盤6a結合第三組第一小 轉盤5b、第二大轉盤6b’最後由第二大轉盤处帶動第二小The exercise bike power generation module 10, which has an in-line turntable acceleration structure inside the exercise bike, generates electric power. The power generated by the power generation module 200 of the present invention can be used for various applications. For example, referring to item 7, when the present application is applied to, for example, an exercise vehicle, the power generated by the power generation module 200 can be transmitted to a brake device 300' via a wire to provide the required system when the user uses the exercise bike. power. Referring to Fig. 8, when the creation is installed in the indoor exercise bike, when the flywheel 2 of the exercise bike rotates, the exercise bike power generation module 2 generates electric power by the turntable acceleration structure embedded in the flywheel 2 application. After being supplied to the brake device 3, the electromagnetic braking force can be generated by the brake device 300 against the flywheel 2. The brake device 300 can be positioned adjacent to the outer rim of the flywheel 2 corresponding to the exercise bike via a simple holder 3〇1 and an aluminum or steel ring can be added to the outer rim of the flywheel 2. 9 M417159 Referring to Fig. 9, this application example is similar to the configuration of Fig. 8 in that the brake device 300a can be positioned via the bracket 94 adjacent the outer rim of the socket 82. After the electric power generated by the power generation module 200 is supplied to the brake device 300a, the brake device 300a generates an electromagnetic braking force to the socket 82, thereby generating a braking force to the flywheel 2. Since the bearing 82 is rotated at a high speed with the second small turntable 7, the braking force generated by the braking device 300a on the socket 82 is several times (for example, 25 times) the braking force generated on the flywheel 2, so the present embodiment is The configuration produces better electromagnetic braking. Referring to FIG. 10, the present invention is installed in an indoor exercise vehicle, and when the flywheel 2 of the exercise bicycle is externally attached with a flywheel disc 23 made of aluminum or copper material, the brake device 300b as shown in the figure may be correspondingly disposed on the flywheel of the flywheel 2. The sides of the disc 23 are on both sides. After the power generation module 200 generates electric power to the brake device 300b, the brake device 300b generates an electromagnetic braking force to the flywheel disc 23 of the flywheel 2, thereby generating a braking force to the flywheel 2. In this application, the flywheel 2 can be designed to be smaller in diameter, saving material. Furthermore, in this embodiment, the flywheel disc 23 can be integrated with the flywheel 2 of the sports equipment, for example, or the flywheel disc 23 can be used alone with the flywheel 2 and the flywheel disc 23 made of aluminum or copper alone. The brake device 300b can achieve the function of braking. Referring to Fig. 11, this application example is similar to the configuration of Fig. 9, which can position the brake device 300c via the bracket 94 at two positions corresponding to the socket 82 plus the socket disc 821 made of aluminum or copper material. Side. After the electric power generated by the power generation module 200 is supplied to the brake device 300c, the brake device 300c can generate an electromagnetic braking force to the socket plate 821, thereby generating a braking force effect of several times (e.g., 25 times) on the flywheel 2. In this embodiment, the socket plate 821 can be integrated with the flywheel 2 of, for example, a sports equipment, or the base plate 821 made of aluminum or copper alone can be used without the flywheel 2, and the power generation module 200 can be used. And the brake device 300e can achieve the function of braking. Referring to Fig. 12, the present invention may also be provided with a metal ring 302 (e.g., an aluminum or copper ring) and a corresponding brake device 300d at the inner edge of the flywheel 2. After the power generation module 200 generates electric power to the brake device 300d, the electromagnetic brake force can be generated by the brake device 300d to the flywheel 2. Referring to Fig. 13, when the creation is applied to a bicycle training device, the coaxial rotary table acceleration device of the created sports equipment is disposed behind the rear wheel of the bicycle training device (ie, includes a turntable acceleration mechanism and a power generation module), and The extension is combined with a brake wheel 300e. When the user step on the bicycle trainer, the coaxial rotary table acceleration device 10 of the created sports equipment can be driven, and after the power generation module generates electric power to the brake wheel 300e, the rear wheel of the bicycle training device can be generated by the brake wheel 300e. power. Referring to Fig. 14, when the present invention is applied to a bicycle, the coaxial rotary table acceleration device of the present exercise device is disposed at the pedal shaft of the bicycle, the front wheel axle or the rear axle, and includes a turntable acceleration mechanism and a power generation module. ). When the user steps on the bicycle, the coaxial rotary device of the motion device of the present invention can be rotated, and the power supply load is generated by the power generation module 200. In the foregoing drawings, a first sub-shaft 4 and the first sub-shaft 4 can be combined with a first small turntable 5 and a second large turntable 6 as an embodiment, and those skilled in the art can also Instead of the first small turntable 5 and the second large turntable 6 of the first sub-shaft 4, the same purpose and effect can be achieved. 11 M417159 6 '-· π yang, the first small turn above the group f (10) _ purpose. For example, in the third embodiment of the fifth embodiment, a first sub-wheel 4 is combined with the first group of first small turntables 5 and the second large turntable 6, and then by the first-stage first small turntable $: large turntable 6 combined with the second group of the first small turntable 5a, the second large turntable &, the second set of the first small turntable 53, the second large turntable 6a combined with the third set of the first small turntable 5b, the second large turntable 6b' The second largest turntable drives the second small
轉盤7高速旋轉。其中第—組第—小轉盤5與第二 係彼此結合同步旋轉,第二組第一 ~ ,, j锝盤5a與第二大轉盤 如係彼此結合同步旋轉,第三叙第一小轉盤%與第二 盤6b係彼此結合同步旋轉。 以^舉實施例僅係心說日林創作,並非用以限制本 二=!,因此’舉凡與上述實施例等效,而能完成者, 均仍應包含於本創作之精神範圍内。 【圖式簡單說明】 第1圖係糊作之第—實_之立體分解圖。 第2圖係本創作之第—實施狀立體圖。 第3圖係第2圖之3_3斷面之剖面圖。 第4圖係本創作之第-實施例之示意圖。 第5圖係本創作之第二實施例之示意圖。 ! 創作裝設於一室内健身車内之實施示意圖。 第8圖俜:創::之發電模組連接有一制動裝置的示意圖 糸本創作應用例一之示意圖。 12 M417159 第9圖係本創作應用例二之示意圖。 第10圖係本創作應用例三之示意圖。 第11圖係本創作應用例四之示意圖。 第12圖係本創作應用例五之示意圖。 第13圖係本創作應用例六之示意圖。 第14圖係本創作應用例七之示意圖。 第15圖係本創作之第三實施例之示意圖。 【主要元件符號說明】 10 内嵌轉盤加速結構的健身車發電模組 100 轉盤加速機構 200 發電模組 1 固定軸 2 飛輪 21 飛輪軸承 22 内側面 3 第一大轉盤 300、300a、300b、 制動裝置 300c、300d、300e 301 固定架 302 金屬壤 31 連結柱 4 第一副軸 41 第二副軸 13 M417159 5 ' 5a ' 5b 第一小轉盤 6、6a、6b 第二大轉盤 7 第二小轉盤 71 第一轴承 8 轉子 81 磁性元件 82 承座 821 承座碟片 9 定子 91 線圈承座 92 線圈 93 固定座 94 支架 941 自由端 I 外加驅動力 14The turntable 7 rotates at a high speed. The first group-the small turntable 5 and the second system are synchronously rotated with each other, and the second group of the first ~, j plate 5a and the second large carousel are combined with each other to rotate synchronously, and the third group is the first small carousel%. The second disk 6b is coupled to rotate in synchronization with each other. The embodiment is only for the purpose of limiting the creation of the Japanese forest, and is not intended to limit the scope of the present invention. Therefore, any equivalent to the above embodiments may be included in the spirit of the present invention. [Simple description of the figure] The first picture is a three-dimensional exploded view of the first-real. Figure 2 is a perspective view of the first embodiment of the present invention. Figure 3 is a cross-sectional view of section 3_3 of Figure 2. Figure 4 is a schematic view of the first embodiment of the present invention. Figure 5 is a schematic view of a second embodiment of the present creation. The schematic diagram of the implementation of the installation in an indoor exercise bike. Figure 8: A schematic diagram of a power generation module connected to a braking device. 12 M417159 Figure 9 is a schematic diagram of the second application example of this creation. Figure 10 is a schematic diagram of the third application example of the present creation. Figure 11 is a schematic diagram of the fourth application example of the present creation. Figure 12 is a schematic diagram of the fifth application example of the present creation. Figure 13 is a schematic diagram of Example 6 of the present application. Figure 14 is a schematic diagram of the seventh application example of the present creation. Figure 15 is a schematic view of a third embodiment of the present creation. [Main component symbol description] 10 Exercise bike power generation module with built-in turntable acceleration structure 100 Turntable acceleration mechanism 200 Power generation module 1 Fixed shaft 2 Flywheel 21 Flywheel bearing 22 Inner side 3 First large turntable 300, 300a, 300b, brake device 300c, 300d, 300e 301 Fixing frame 302 Metallic soil 31 Connecting column 4 First countershaft 41 Second countershaft 13 M417159 5 ' 5a ' 5b First small turntable 6, 6a, 6b Second large turntable 7 Second small turntable 71 First bearing 8 Rotor 81 Magnetic element 82 Bearing seat 821 Bearing plate 9 Stator 91 Coil socket 92 Coil 93 Mounting seat 94 Bracket 941 Free end I External driving force 14