五、新型說明: 【新型所屬之技術領域】 [0001] 本新型有關隨身電子設備的電力來源,尤其關於用 於隨身電子設備的無線充電電池模組。 【先前技術】 [0002] 無線充電技術,主要是利用法拉第電磁感應定律, 當一個線圈通電後產生磁力後,對應位置的另一線圈會 相生感應而產生磁力,因而透過磁場的變化便可產生電 力。 [0003] 請參閱「圖1」與「圖2」所示,為習知應用無線充 電技術的實際產品使用與充電架構圖,其包含一隨身電 子設備1與一充電平台2,該隨身電子設備1内設有一電池 3、一處理電路4與一感應線圏5,其中該處理電路4與該 感應線圈5為固定在該隨身電子設備1上,而該電池3—般 是可拆裝的裝設在該隨身電子設備1。 [0004] 此習知隨身電子設備1,當該隨身電子設備1的電池3 電力不足,需要充電的時候,可將該隨身電子設備1置放 於該充電平台2上,該充電平台2在輸入電力之後(通常是 連接市電供給所需的電力),會產生一感應磁場,該隨身 電子設備1的感應線圈5,在感應到磁場的變化之後,會 產生電,再經過該處理電路4的處理,即可輸入儲存於該 電池3中,以對該電池3進行充電。 [0005] 此種習知無線充電的方式,在充電的時候,該隨身 電子設備1會被限制要置放於該充電平台2上,亦即在充 表單編號A0101 第3頁/共Π頁 M419329 電的時候,該隨身電子設備1會處於無法使用的狀態,因 而在使用者臨時急需使用該隨身電子設備1的時候,必須 打斷充電程序,導致電池3在沒有充飽的情況下,即開始 使用,目前主流電池如鋰電池,雖然已無電池記憶效應 ,但是此種使用方式,會大大的增加充電次數,其最後 仍會減少電池3的壽命,導致電池3快速毀損。 【新型内容】 [0006] 爰是,本新型的主要目的在於揭露一種可單獨拆卸 進行無線充電的電池,其使用於隨身電子設備時,不但 可無線充電,且當該隨身電子設備急需使用,但電池的 電力不足時,可直接拆換新的電池,以滿足使用上的需 求。 [0007] 基於上述目的,本新型為一種無線充電電池模組, 其包含一電池單元、一電感應線圈與一電處理單元,其 中該電池單元設有一殼體,該電感應線圈則黏設於該殼 體上,且該電處理單元亦黏設於該殼體上,且該電處理 單元分別電性連接該電感應線圈與該電池單元。 [0008] 據此,本創作無線充電電池模組可供隨身電子設備 使用,並可使用一無線充電座進行充電,該無線充電座 設有充滿一感應磁場的一充電平台,該無線充電電池模 組可以單獨置放於該無線充電座進行充電,因此當隨身 電子設備的電力不足時,可直接進行充電,且當急需使 用隨身電子設備時,可直接更換新的無線充電電池模組 即可使用,同時電力不足的無線充電電池模組可單獨置 放於該無線充電座上,以進行無線充電,故可滿足使用 表單編號A0101 第4頁/共17頁 M419329 上的需求。 【實施方式】 ' [0009] 茲有關本新型的詳細内容及技術說明,現以實施例 來作進一步說明,但應瞭解的是,該等實施例僅為例示 說明之用,而不應被解釋為本新型實施之限制。 [0010] 請參閱「圖3」與「圖4」,本新型為一無線充電電 池模組10,其包含一電池單元20、一電感應線圈30與一 電處理單元40,該電池單元20設有一殼體21,該殼體21 的大小為依據實際使用上的需求而設計,且該殼體21内 為充填二次電池原料,目前一般大多為使用鋰電池。 [0011] 該殼體21可以設有一底面22與垂直該底面22的一側 面23,該電感應線圈30為黏設於該殼體21上,更精確地 說,該電感應線圈30為黏設於該底面22上,又該電感應 線圈30與該電池單元20之間可以設置一隔磁板50,亦即 該隔磁板50為先黏設在該殼體21上*而該電感應線圈30 再黏設於該隔磁板50上,其可以避免該電池單元20與該 電感應線圈30互相干擾。又該電感應線圈30的中心可以 設置一鐵磁材料31,其可用於增加該電感應線圈30的感 應效果,以增加產生的電量。 [0012] 該電處理單元40亦黏設於該殼體21上,更精確地說 ,該電處理單元40可以黏設於該側面23上,並該電處理 單元40實際實施上可以乘載於一印刷電路板41上,另如 「圖5」所示,為該電處理單元40 —較佳可行的實施電路 圖,其申該電處理單元40分別電性連接該電感應線圈30 與該電池單元20,其作用在於接收該電感應線圈30感應 表單編號A0101 第5頁/共17頁 M419329 生成的電,再經過整流變壓以儲存於該電池單元20,而 對該電池單元20進行充電。 [0013] 請再參閱「圖6」與「圖7」所示,本創作可供使用 於一隨身電子設備70,其作為一般電池使用,且當該無 線充電電池模組10電力不足時,可以使用一無線充電座 60進行充電,該無線充電座60設有充滿一感應磁場的一 充電平台61,該無線充電座60—般是連接市電,藉由市 電的電力供給,而於該充電平台61上產生該感應磁場。 因而隨身電子設備70置放於該無線充電座60的該充電平 台61上時,即可進行無線充電,且當電力不足且急需使 用隨身電子設備70時,可直接更換新的該無線充電電池 模組10使用。 [0014] 又請再參閱「圖8」所示,而本創作無線充電電池模 組10在電力不足的時候,亦可將該無線充電電池模組10 置放於該充電平台61上,以進行充電。且值得注意的是 ,該無線充電電池模組10要置放於該無線充電座60上進 行充電時,需要讓該電感應線圈30靠近面對該充電平台 61,以取得較佳的充電效果。 [⑻ 15] 如上所述,本創作除了可供隨身電子設備70使用之 外,亦可單獨置放於該無線充電座60進行充電,因此當 隨身電子設備70的電力不足時,可直接進行無線充電, 且當急需使用隨身電子設備70時,直接更換新的無線充 電電池模組10後即可使用,同時電力不足的無線充電電 池模組10可單獨置放於該無線充電座60上進行無線充電 ,故可滿足使用上的需求。 表單編號A0101 第6頁/共17頁 M419.329 [0016] 惟上述僅為本新型之較佳實施例而已,並非用來限 定本新型實施之範圍。即凡依本新型申請專利範圍所做 的均等變化與修飾,皆為本新型專利範圍所涵蓋。 【圖式簡單說明】V. New description: [New technology field] [0001] This new type of power source for portable electronic devices, especially for wireless rechargeable battery modules for portable electronic devices. [Prior Art] [0002] The wireless charging technology mainly uses Faraday's law of electromagnetic induction. When a coil is energized to generate a magnetic force, another coil of the corresponding position will be induced to generate a magnetic force, so that the magnetic field can be generated by the change of the magnetic field. . [0003] Please refer to FIG. 1 and FIG. 2 for the actual product usage and charging architecture diagram of the conventional wireless charging technology, which includes a portable electronic device 1 and a charging platform 2, the portable electronic device. 1 is provided with a battery 3, a processing circuit 4 and a sensing coil 5, wherein the processing circuit 4 and the induction coil 5 are fixed on the portable electronic device 1, and the battery 3 is generally detachable It is provided in the portable electronic device 1. [0004] The conventional portable electronic device 1 can place the portable electronic device 1 on the charging platform 2 when the battery 3 of the portable electronic device 1 is insufficient in power and needs to be charged, and the charging platform 2 is input. After the power (usually the power required to connect the mains supply), an induced magnetic field is generated, and the induction coil 5 of the portable electronic device 1 generates electricity after sensing the change of the magnetic field, and then passes through the processing of the processing circuit 4. Then, it can be input and stored in the battery 3 to charge the battery 3. [0005] In the conventional wireless charging mode, when charging, the portable electronic device 1 is restricted to be placed on the charging platform 2, that is, in the charging form number A0101, page 3 / total page M419329 When the battery is powered, the portable electronic device 1 is in an unusable state. Therefore, when the user temporarily needs to use the portable electronic device 1, the charging program must be interrupted, causing the battery 3 to start without being fully charged. The current mainstream battery, such as a lithium battery, has no battery memory effect, but this type of use will greatly increase the number of times of charging, and will eventually reduce the life of the battery 3, resulting in rapid destruction of the battery 3. [New Content] [0006] The main purpose of the present invention is to disclose a battery that can be separately disassembled for wireless charging. When used in a portable electronic device, it can be wirelessly charged, and when the portable electronic device is urgently needed, When the battery power is insufficient, the new battery can be directly replaced to meet the demand for use. [0007] Based on the above object, the present invention is a wireless rechargeable battery module, comprising a battery unit, an electric induction coil and an electric processing unit, wherein the battery unit is provided with a casing, and the electric induction coil is adhered to The electrical processing unit is also attached to the housing, and the electrical processing unit is electrically connected to the electrical induction coil and the battery unit. According to the present invention, the wireless charging battery module of the present invention can be used by the portable electronic device, and can be charged by using a wireless charging stand. The wireless charging stand is provided with a charging platform filled with an induced magnetic field, and the wireless charging battery module The group can be placed separately in the wireless charging stand for charging, so when the power of the portable electronic device is insufficient, the charging can be directly performed, and when the portable electronic device is urgently needed, the new wireless rechargeable battery module can be directly replaced. At the same time, the wireless rechargeable battery module with insufficient power can be separately placed on the wireless charging stand for wireless charging, so that the requirements on the form number A0101, page 4/17, M419329 can be satisfied. [Embodiment] [0009] The detailed description and technical description of the present invention will now be further described by way of examples, but it should be understood that these embodiments are for illustrative purposes only and should not be construed This is a limitation of the implementation of the new model. [0010] Please refer to FIG. 3 and FIG. 4 . The present invention is a wireless rechargeable battery module 10 including a battery unit 20 , an electric induction coil 30 and an electrical processing unit 40 . There is a casing 21, and the size of the casing 21 is designed according to actual needs, and the casing 21 is filled with secondary battery materials. Currently, lithium batteries are generally used. [0011] The housing 21 can be provided with a bottom surface 22 and a side surface 23 perpendicular to the bottom surface 22. The electric induction coil 30 is adhered to the housing 21, and more specifically, the electric induction coil 30 is adhesively attached. On the bottom surface 22, a magnetic isolation plate 50 may be disposed between the electric induction coil 30 and the battery unit 20, that is, the magnetic isolation plate 50 is first adhered to the housing 21; and the electric induction coil 30 is further adhered to the magnetic isolation plate 50, which can prevent the battery unit 20 and the electric induction coil 30 from interfering with each other. Further, a center of the electric induction coil 30 may be provided with a ferromagnetic material 31 which can be used to increase the inductive effect of the electric induction coil 30 to increase the amount of electric power generated. [0012] The electrical processing unit 40 is also adhered to the housing 21. More precisely, the electrical processing unit 40 can be attached to the side surface 23, and the electrical processing unit 40 can be actually carried on the housing. A printed circuit board 41, as shown in FIG. 5, is a preferred implementation circuit diagram of the electrical processing unit 40. The electrical processing unit 40 is electrically connected to the electrical induction coil 30 and the battery unit. 20, the function is to receive the electric induction coil 30 to sense the electricity generated by the form number A0101 page 5 / page 17 M419329, and then rectify and transform to store in the battery unit 20, and charge the battery unit 20. [0013] Please refer to FIG. 6 and FIG. 7 again. The present invention can be used in a portable electronic device 70, which is used as a general battery, and when the wireless rechargeable battery module 10 has insufficient power, Charging is performed using a wireless charging stand 60. The wireless charging stand 60 is provided with a charging platform 61 filled with an induced magnetic field. The wireless charging stand 60 is generally connected to the mains, and is supplied to the charging platform 61 by the power supply of the commercial power. The induced magnetic field is generated. Therefore, when the portable electronic device 70 is placed on the charging platform 61 of the wireless charging stand 60, wireless charging can be performed, and when the power is insufficient and the portable electronic device 70 is urgently needed, the new wireless charging battery module can be directly replaced. Group 10 is used. [0014] Please refer to FIG. 8 again, and the wireless rechargeable battery module 10 can also be placed on the charging platform 61 when the power is insufficient. Charging. It should be noted that when the wireless rechargeable battery module 10 is to be placed on the wireless charging stand 60 for charging, the electric induction coil 30 needs to be close to the charging platform 61 to achieve a better charging effect. [(8) 15] As described above, in addition to being used by the portable electronic device 70, the present invention can be separately placed in the wireless charging stand 60 for charging, so that when the power of the portable electronic device 70 is insufficient, wireless can be directly performed. When charging, and when the portable electronic device 70 is urgently needed, the new wireless rechargeable battery module 10 can be directly replaced, and the wireless rechargeable battery module 10 with insufficient power can be separately placed on the wireless charging stand 60 for wireless. Charging, so it can meet the needs of use. Form No. A0101 Page 6 of 17 M419.329 [0016] The foregoing is only a preferred embodiment of the present invention and is not intended to limit the scope of the present invention. That is, the equal changes and modifications made by the scope of the new patent application are covered by the scope of the new patent. [Simple description of the map]
[0017] 圖1 ,為習知無線充電產品使用示意圖。 [0018] 圖2 ,為習知無線充電技術的充電架構圖 [0019] 圖3 \ ·- ,為本新型結構圖。 [0020] 圖4 ,為本新型結構分解圖。 [0021] 圖5 ,為本新型電處理單元電路圖。 [0022] 圖6 ,為本新型使用於隨身電子設備示意圖。 [0023] 圖7 ,為本新型隨身電子設備充電示意圖。 [0024] 圖8 ,為本新型充電示意圖。 【主要元件符號說明】 [0025] 習知 [0026] 1 : 隨身電子設備 [0027] 2 : 充電平台 [0028] 3 : 電池 [0029] 4 :處理電路 [0030] 5 :感應線圈 [0031] 本創作 [0032] 10 :無線充電電池模組 表單編號A0101 第7頁/共17頁 M419329 [0033] 20 :電池單元 [0034] 21 :殼體 [0035] 22 :底面 [0036] 23 :側面 [0037] 30 :電感應線圈 [0038] 31 :鐵磁材料 [0039] 40 :電處理單元 [0040] 41 :印刷電路板 [0041] 50 :隔磁板 [0042] 60 :無線充電座 [004a] 61 :充電平台 [0044] 70:隨身電子設備 表單編號A0101 第8頁/共17頁[0017] FIG. 1 is a schematic diagram of the use of a conventional wireless charging product. 2 is a charging architecture diagram of a conventional wireless charging technology. [0019] FIG. 3 is a structural diagram of the present invention. 4 is an exploded view of the structure of the present invention. [0021] FIG. 5 is a circuit diagram of the electrical processing unit of the present invention. [0022] FIG. 6 is a schematic diagram of the present invention for use in a portable electronic device. [0023] FIG. 7 is a schematic diagram of charging of the portable electronic device of the present invention. [0024] FIG. 8 is a schematic diagram of charging of the present invention. [Main component symbol description] [0025] Conventional [0026] 1 : Portable electronic device [0027] 2 : Charging platform [0028] 3 : Battery [0029] 4 : Processing circuit [0030] 5 : Induction coil [0031] Creation [0032] 10 : Wireless Rechargeable Battery Module Form No. A0101 Page 7 of 17 M419329 [0033] 20 : Battery Unit [0034] 21 : Housing [0035] 22 : Bottom [0036] 23 : Side [0037 ] 30 : Electric induction coil [0038] 31 : Ferromagnetic material [0039] 40 : Electrical processing unit [0040] 41 : Printed circuit board [0041] 50 : Magnetic isolation plate [0042] 60 : Wireless charging stand [004a] 61 : Charging platform [0044] 70: Portable electronic device form number A0101 Page 8 of 17