201201563 六、發明說明: 【發明所屬之技術領域】 [0001] 本發明是一種電能產生裝置,特別是有關於一種行動電 子設備之電能產生裝置。 【先前技術】 [0002] 按,隨著行動電話越來越普及,應用範圍也越來越廣泛 ,因上述電子設備的電池容量是有限的,當電池的能量 被消耗殆盡後,必須充電後才能繼續使用該設備。但是 在不具備充電條件的環境下,如,沒有電源供應的荒郊 野外,如果遇到緊急情況下需要用行動電話進行連絡時 ,就可能會因為行動電話沒電而喪失求救的機會,也有 時因為行動電話沒電的原故錯失生意上的合作機會。 [0003] 現有技術解決上述問題的方法一般是:加大電池的容量來 增加待機時間,或降低電子設備的能量消耗,或是盡可 能的帶著更多的備用電池等,但這些手段都不能從根本 上解決問題。 【發明内容】 [0004] 有鑑於上述習知技藝之問題,本發明之目的就是在提供 一種行動電子設備之電能產生裝置,能夠將隨時隨地收 集的動能轉化為電能,供行動電話使用或為電池充電。 [0005] 根據本發明之目的,提出一種行動電子設備之電能產生 裝置,包括動能產生模組、動能傳遞模組、發電模組、 穩壓模組、電源管模組。其中,動能產生模組用於產生 動能,動能傳遞模組用於將動能產生模組產生的動能傳 遞給發電模組,發電模組用於將動能轉化為電能,穩壓 099121332 表單編號A0101 第4頁/共14頁 0992037582-0 201201563 [0006] [0007]201201563 VI. Description of the Invention: [Technical Field] [0001] The present invention relates to an electric energy generating device, and more particularly to an electric energy generating device for a mobile electronic device. [Prior Art] [0002] According to the increasing popularity of mobile phones, the scope of application is becoming more and more extensive. Because the battery capacity of the above electronic devices is limited, when the energy of the battery is exhausted, it must be charged. In order to continue using the device. However, in an environment where there is no charging condition, such as a wilderness where there is no power supply, if you need to use a mobile phone to contact in an emergency, you may lose the opportunity to seek help because the mobile phone has no power, and sometimes Because of the lack of power in the mobile phone, I missed the opportunity of cooperation in business. [0003] The prior art methods for solving the above problems generally include: increasing the capacity of the battery to increase the standby time, or reducing the energy consumption of the electronic device, or carrying more spare batteries as much as possible, but these methods cannot Solve the problem fundamentally. SUMMARY OF THE INVENTION [0004] In view of the above-mentioned problems of the prior art, the object of the present invention is to provide a power generation device for a mobile electronic device capable of converting kinetic energy collected anytime and anywhere into electrical energy for use in a mobile phone or as a battery. Charging. [0005] According to an object of the present invention, an electrical energy generating device for a mobile electronic device is provided, including a kinetic energy generating module, a kinetic energy transmitting module, a power generating module, a voltage stabilizing module, and a power tube module. The kinetic energy generating module is configured to generate kinetic energy, and the kinetic energy transmitting module is configured to transmit the kinetic energy generated by the kinetic energy generating module to the power generating module, and the power generating module is configured to convert the kinetic energy into electrical energy, and the voltage regulator 099121332 Form No. A0101 No. 4 Page / Total 14 pages 0992037582-0 201201563 [0006] [0007]
[0008] ❹ [0009] [0010] [0011] 模組用於對輸入的電能進行穩壓後輸出,電源管理模組 用來管理穩壓模組的輸出端所連接的元件。 其中,動能產生模組為一懸擺,固定於行動電話内的一 端被固定,另一端被懸空,重心偏向懸空的那一端,根 據重力作用,在靜止的情況下,它是垂直向下的,懸空 的一端可以圍繞著固定在行動電話的一端運動,類似於 鐘擺一樣的裝置。 其中,動能傳遞模組包括一主動輪、一從動輪和一傳動 機構、該傳動機構可以將主動輪的動能傳遞給從動輪, 該主動輪與該懸擺同軸固定,該從動輪與該發電模組的 轉子同軸固定,該傳動機構為至少一傳動輪。其中,當 該懸擺向一個方向擺動時,有奇數個該傳動輪參與動能 傳遞,使該主動輪與從動輪的旋轉方向相同,當該懸擺 向另一個方向擺動時,有偶數個傳動輪參與動能傳遞, 使該主動輪與從動輪的旋轉方向相反。 其中,穩壓模組接收發電模組產生的電能,同時可以產 生固定電壓,由電源管理模組判斷其輸出端連接的接口 ,其接口有可能是行動電話驅動電路或是電池。 承上所述,依本發明之行動電子設備之電能產生裝置, 其可具有一或多個下述優點: (1) 可以節約能源,能夠收集動能轉化成電能,不需要花 錢在電費上或是花時間在充電上。 (2) 能夠通過運動,迅速的使行動電話能夠隨時隨地的工 作,免除了因為沒電的後顧之憂。 099121332 表單編號A0101 第5頁/共14頁 0992037582-0 201201563 [0012] [0013] [0014] [0015] ⑻收集能源的方式簡便易行,收集的地點沒有任何限制 ,行走的路上,用力揮揮手都可以收集。 【實施方式】 睛參閱第1®,為本發明之行動電子設備之電能產生裝置 之系統示意®。®巾,電能產生裝置係設於行動電子設 備中,此電能產生裝置包括了動能產生模組u、動能^ 遞模組12、發電模組13、穩壓模組14及電源管理模組15 。動能產生模組11藉由行動電子設備晃動之外力,進而 產生的動能,此動能經過動能傳遞模組12將動能傳遞給 發電模組13,讓動能在發電模組13轉化成電能,電能再 經過穩壓模組14穩壓後,在電源管理模組15控制下供應 電池充電或直接提供行動電話來使用。 再請參閱第1圖,在本發明中,動能產生模組丨丨為一懸擺 111所構成,懸擺Π1 —端固定於行動電話内,另—端懸 二,懸擺111的重心偏向懸空的那一端,根據重力作用, 在靜止的情況下’懸擺111是垂直向下的,懸擺i丨1懸空 的一端可以圍繞固定的一端擺動,進而產生動能,因此 ’只要電子設備裝設有動能產生模組,只要靠晃動該電 子設備,就可以隨時隨地產生動能。 在本發明中,該動能傳遞模組12由一個主動輪121、傳動 機構123和一個從動輪122。主動輪121與懸擺111的固定 端同軸固定。從動輪122與發電模組13的轉子同軸固定。 傳動機構123係設在主動輪121及從動輪122之間。當懸 擺111左右擺動時,懸擺111帶動主動輪121旋轉,主動 輪121通過傳動機構123帶動從動輪122,使得與從動輪 099121332 表單編號A0101 第6頁/共14頁 0992037582-0 201201563 的發電模組13的轉子以單-固定方向旋轉。 另外,可根擔 得 主動輪121、從動輪122與傳動機構123 規格(如:尺吟 的 τ及齒輪比),用以控制發電模組13 的旋轉速度。+ 们轉子 u為懸擺111左、右擺動時,主動輪 旋轉方向會改蟛 1的 變,由於發電模組13的轉子是沿固定 旋轉,因此,⑥am 疋万向 兩要保證主動輪121與從動輪122的榦私+ 向與發電模級13的錢工^ 士人 轉動方 的轉子為同方向。以下將舉例進 [0016] Ο ❹ [0017] 請參閲第2圖逝坌& — , m ^ ·~^、第3圖所不,如果在主動輪121和從動輪 122中間加入奇數個傳動輪,那麼主動輪121與從動輪 122將治著同一個方向旋轉;若加入了偶數個傳動輪’那 麼主動輪121與從動輪122的旋轉“將相反,如此,不P 論主動輪121之轉動為何,發電模祖13:的轉子都沿固定相 同方向旋轉。為此,在與主動輪121直接嚙合的該奇數個 傳動輪上增加—個滑軌,懸擺111左右擺動時,可帶動該 等偶數個傳動輪在滑軌内移動,令該等偶數個傳動輪可 以相互响合在主動輪121與從動輪122之間。 請參閱第2圖所示,在主動輪'121和從動輪122中間加入第 一傳動輪1230,主動輪121和從動輪122將沿著一個方向 旋轉(圖示為同時順時針旋轉)。因此,當懸擺U1沿著噸 時針方向擺動時(向左擺動)’帶動主動輪121順時針旋轉 ,此時與主動輪121嚙合的第一傳動輪1230直接與從動輪 122嚙合’從而帶動從動輪122延順時針方向旋轉》 [0018] 099121332 請參閱第3圖所示,在主動輪121和從動輪122中間加入第 一傳動輪1230和第二傳動輪1232,主動輪121和從動輪 122將沿著相反的方向旋轉(圖中’主動輪121逆時針旋轉 表單編號A0101 第7頁/共Μ頁 0992 201201563 ,而從動輪仍然延順時針方向旋轉)。因此,當懸擺111 沿逆時針方向擺動時,帶動主動輪121逆時針旋轉,此時 與主動輪121嚙合的第一傳動輪1 230在滑軌内滑動,釋放 與從動輪122的嚙合,並與第二傳動輪1 232嚙合,然後再 與從動輪122嚙合,從而帶動從動輪122沿順時針方向旋 轉。需要說明的是,除上述齒輪換向的方式外,還可以 利用皮帶、齒輪、離合、螺旋等等方式來實現換向。 [0019] 在本發明中,請參閱第1圖,發電模組13用於將動能傳遞 模組12從懸擺111所接受的動能轉化為電能,發電模組13 輸出端與穩壓模組14的輸入端相連接。由於,動能傳遞 模組12中的從動輪122和發電模組13的轉子同軸固定,當 懸擺111帶動主動輪121轉動時,會帶動發電模組13的轉 子旋轉,即動能傳遞模組12會把動力傳給發電模組13, 發電模組13產生電能後,輸出給穩壓模組14。 [0020] 在本發明中,穩壓模組14它可以接收發電模組13產生的 電能,同時可以產生固定的電壓,例如:將發電模組13 產生的電能穩定地以五伏特之電壓輸出,再由電源管理 模組15判斷發電模組13之輸出端連接的行動電話的電源 電極或是電池。 [0021] 在本發明中,電源管理模組15,用於控制穩壓模組14的 輸出端所連接的元件,當行動電話的電池裝置需要充電 時,穩壓模組14的輸出端與電池的電極相連接;當行動 電話本身工作需要供電時,穩壓模組1 4的輸出端與行動 電話的電源電極相連接。 099121332 表單編號A0101 第8頁/共14頁 0992037582-0 201201563 、 [0022] 因此,當使用者的行動電話配置有該電能產生裝置,使 用者不論是在行走,或是晃動該行動電話,懸擺111會進 行左右擺動產生動能,動能產生後會由動能傳遞模組12 將懸擺的動能傳遞至發電模組13,接著動能會在發電模 組13中轉化成電能,該電能會在電源管理模組15的安排 下供行動電話使用。又,本發明之電能產生裝置可裝設 於任何小型化的可攜帶電子產品,一舉解決習知產品所 產生之問題。 [0023] ❹ 以上所述僅為舉例性,而非為限制性者。任何未脫離本 發明之精神與範疇,而對其進行之等效修改或變更,均 應包含於後附之申請專利範圍中。 [0024] 【圖式簡單說明】 第1圖係為本發明之系統示意圖; 第2圖係為本發明之同向運動圖;以及 第3圖係為本發明之反向運動圖。 η :。 ◎ [0025] 【主要元件符號說明】 11 :動能產生模組; 111 :懸擺; 12 :動能傳遞模組; 121 :主動輪; 122 :從動輪; 123 :傳動機構; 1 230 :第一傳動輪; 1232 :第二傳動輪; 13 :發電模組; 099121332 表單編號A0101 第9頁/共14頁 0992037582-0 201201563 1415 穩壓模組;以及 電源管理模組。 099121332 表單編號A0101 第10頁/共14頁 0992037582-0[0010] [0011] The module is used to regulate the input power and output, and the power management module is used to manage the components connected to the output of the voltage regulator module. Wherein, the kinetic energy generating module is a pendulum, the one end fixed in the mobile phone is fixed, the other end is suspended, and the center of gravity is biased toward the hanging end. According to gravity, in the case of static, it is vertically downward. One end of the suspension can be moved around one end of the mobile phone, similar to a pendulum-like device. The kinetic energy transfer module includes a driving wheel, a driven wheel and a transmission mechanism, and the transmission mechanism can transmit the kinetic energy of the driving wheel to the driven wheel, the driving wheel is coaxially fixed with the hanging pendulum, the driven wheel and the generating die The rotor of the group is coaxially fixed, and the transmission mechanism is at least one transmission wheel. Wherein, when the pendulum swings in one direction, an odd number of the transmission wheels participate in kinetic energy transmission, so that the driving wheel and the driven wheel rotate in the same direction, and when the hanging pendulum swings in the other direction, there are even number of transmission wheels. Participate in kinetic energy transfer, so that the driving wheel and the driven wheel rotate in opposite directions. The voltage regulator module receives the power generated by the power generation module, and at the same time generates a fixed voltage. The power management module determines the interface connected to the output end, and the interface may be a mobile phone drive circuit or a battery. According to the above, the power generating device of the mobile electronic device according to the present invention may have one or more of the following advantages: (1) Energy can be saved, and kinetic energy can be collected and converted into electric energy without spending money on the electricity fee or It is time to charge. (2) Being able to quickly make the mobile phone work anytime and anywhere through exercise, eliminating the worry of having no electricity. 099121332 Form No. A0101 Page 5 of 14 0992037582-0 201201563 [0012] [0015] [8] The way to collect energy is simple and easy, and there is no restriction on the place to be collected. Can be collected. [Embodiment] The first aspect is referred to as a system schematic diagram of an electric energy generating device of a mobile electronic device of the present invention. The electric energy generating device is disposed in the mobile electronic device. The electric energy generating device includes a kinetic energy generating module u, a kinetic energy generating module 12, a power generating module 13, a voltage stabilizing module 14, and a power management module 15. The kinetic energy generating module 11 shakes the external force by the mobile electronic device to generate kinetic energy, and the kinetic energy is transmitted to the power generating module 13 through the kinetic energy transmitting module 12, so that the kinetic energy is converted into electric energy in the power generating module 13, and the electric energy passes through After the voltage regulator module 14 is stabilized, the battery is charged under the control of the power management module 15 or directly provided by the mobile phone. Referring to FIG. 1 again, in the present invention, the kinetic energy generating module 丨丨 is composed of a pendulum 111. The swaying Π 1 end is fixed in the mobile phone, the other end is suspended, and the center of gravity of the pendulum 111 is vacant. At the end, according to the action of gravity, in the case of static, the 'hanging 111 is vertically downward, and one end of the hanging cantilever i丨1 can swing around the fixed end, thereby generating kinetic energy, so 'as long as the electronic device is equipped The kinetic energy generation module, as long as the electronic device is shaken, can be vividly with the real estate at any time. In the present invention, the kinetic energy transfer module 12 is comprised of a drive wheel 121, a transmission mechanism 123 and a driven wheel 122. The driving wheel 121 is coaxially fixed to the fixed end of the pendulum 111. The driven wheel 122 is coaxially fixed to the rotor of the power generation module 13. The transmission mechanism 123 is disposed between the driving wheel 121 and the driven wheel 122. When the pendulum 111 swings left and right, the pendulum 111 drives the driving wheel 121 to rotate, and the driving wheel 121 drives the driven wheel 122 through the transmission mechanism 123, so that the power generation with the driven wheel 099121332 Form No. A0101 Page 6 / 14 pages 0992037582-0 201201563 The rotor of the module 13 rotates in a single-fixed direction. In addition, the driving wheel 121, the driven wheel 122, and the transmission mechanism 123 specifications (e.g., τ and gear ratio of the ruler) can be used to control the rotational speed of the power generating module 13. + When the rotor u is swinging left and right of the pendulum 111, the direction of rotation of the driving wheel will change by 1; since the rotor of the power generating module 13 is fixedly rotated, the 6am 疋 universal two must ensure the driving wheel 121 and The dry-and-sinking direction of the driven wheel 122 is in the same direction as the rotor of the turning person of the power generating die stage 13. The following will be exemplified [0016] Ο ❹ [0017] Please refer to Fig. 2, 坌 坌 & — , m ^ ·~^, Fig. 3, if an odd number of transmissions are added between the driving wheel 121 and the driven wheel 122 The wheel, then the driving wheel 121 and the driven wheel 122 will rotate in the same direction; if an even number of transmission wheels are added, then the rotation of the driving wheel 121 and the driven wheel 122 will be reversed, so that the rotation of the driving wheel 121 is not discussed. Why, the rotors of the power generation die 13: are all rotated in the same direction. For this purpose, a sliding rail is added to the odd number of transmission wheels directly meshed with the driving wheels 121, and the suspension 111 can be driven when swinging left and right. An even number of transmission wheels are moved within the slide rail so that the even number of transmission wheels can reciprocate between the drive wheel 121 and the driven wheel 122. Referring to Fig. 2, the drive wheel '121 and the driven wheel 122 are added. The first transmission wheel 1230, the driving wheel 121 and the driven wheel 122 will rotate in one direction (illustrated to rotate clockwise at the same time). Therefore, when the hanging U1 swings in the tonnoid direction (swing to the left) Wheel 121 rotates clockwise, at this time with the initiative 121 meshing first transmission wheel 1230 directly meshes with the driven wheel 122 to drive the driven wheel 122 to rotate in the clockwise direction. [0018] 099121332 Referring to FIG. 3, the first between the driving wheel 121 and the driven wheel 122 is added. The driving wheel 1230 and the second transmission wheel 1232, the driving wheel 121 and the driven wheel 122 will rotate in opposite directions (in the figure, the driving wheel 121 rotates counterclockwise, the form number A0101, page 7 / total page 0992 201201563, and the driven wheel Still rotating in the clockwise direction. Therefore, when the pendulum 111 swings in the counterclockwise direction, the driving wheel 121 is rotated counterclockwise, and the first transmission wheel 1 230 engaged with the driving wheel 121 slides in the sliding rail, releasing and releasing The driven wheel 122 meshes with the second transmission wheel 1 232 and then engages with the driven wheel 122 to drive the driven wheel 122 to rotate in a clockwise direction. It should be noted that, besides the above-mentioned manner of gear reversal, The reversing can be realized by means of a belt, a gear, a clutch, a screw, etc. [0019] In the present invention, referring to FIG. 1 , the power generating module 13 is used to move the kinetic energy transfer module 12 from the pendulum 111. The kinetic energy is converted into electrical energy, and the output end of the power generation module 13 is connected to the input end of the voltage regulator module 14. Since the driven wheel 122 in the kinetic energy transfer module 12 and the rotor of the power generation module 13 are coaxially fixed, when the pendulum is suspended When the driving wheel 121 rotates, the rotor of the power generating module 13 rotates, that is, the kinetic energy transmitting module 12 transmits power to the power generating module 13. After the power generating module 13 generates electric energy, the power generating module 13 outputs the power to the voltage stabilizing module 14. [0020] In the present invention, the voltage regulator module 14 can receive the power generated by the power generation module 13, and can generate a fixed voltage, for example, the power generated by the power generation module 13 is stably outputted at a voltage of five volts. Then, the power management module 15 determines the power electrode or the battery of the mobile phone connected to the output end of the power generation module 13. [0021] In the present invention, the power management module 15 is used to control the components connected to the output end of the voltage regulator module 14. When the battery device of the mobile phone needs to be charged, the output terminal of the voltage regulator module 14 and the battery The electrodes are connected; when the mobile phone itself needs to be powered, the output of the voltage regulator module 14 is connected to the power electrode of the mobile phone. 099121332 Form No. A0101 Page 8 of 14 0992037582-0 201201563, [0022] Therefore, when the user's mobile phone is equipped with the power generating device, the user swings the mobile phone regardless of whether he is walking or shaking the mobile phone. 111 will swing left and right to generate kinetic energy. After the kinetic energy is generated, the kinetic energy transfer module 12 transmits the kinetic energy of the pendulum to the power generation module 13, and then the kinetic energy is converted into electric energy in the power generation module 13, and the electric energy is in the power management mode. Group 15 is arranged for use by mobile phones. Further, the electric energy generating device of the present invention can be installed in any miniaturized portable electronic product to solve the problems caused by the conventional products. [0023] The above description is by way of example only and not as a limitation. Any equivalent modifications or alterations to the spirit and scope of the invention are intended to be included in the scope of the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view of the system of the present invention; Fig. 2 is a view of the same direction of motion of the present invention; and Fig. 3 is a diagram of the reverse motion of the present invention. η :. ◎ [0025] [Main component symbol description] 11: Kinetic energy generation module; 111: Overhang; 12: Kinetic energy transfer module; 121: Driving wheel; 122: Follower wheel; 123: Transmission mechanism; Wheel; 1232: second transmission wheel; 13: power generation module; 099121332 form number A0101 page 9 / total 14 page 0992037582-0 201201563 1415 voltage regulator module; and power management module. 099121332 Form number A0101 Page 10 of 14 0992037582-0