200832857 九、發明說明: 【發明所屬之技術領域】 =發明係有關於_種充電裝置,尤指一 收線圈之充雷驻恶 、巧射接 工作兩、:不僅可經由無線€磁感應方式以提供 可攜二充::裝置,亦可預先儲存工作電源,以成為-私衣置,而增加充電時之便利性。 【先前技術】 =”肖費性可攜式電子產品於產品内部往 一 手機、PDA、MP3隨身聽等等久 ;充其 =規格會隨著電子產品之不同而做不-樣二 计,甚至同樣功能之帝工立 卜m的汉 Ο 跟著改變。因此,斗士 : f品也會因為不同廠商所出產而 充電器或供電裝置子產品必須使用相對應規格之 源。 才—電子產品進行充電或提供工作電 們心門如的電子產品:並且攜帶著它 如必須尋找-電源插座,a成,肖費者非常大的困擾,例 限作用範圍内,或者因$者必須侷限在電源連接線之有 接收裝置時之不便性及危連接線而造成使用者在使用 【發明内容】 為此,如何針對上 白用充电器之缺點,以設計出一 4 200832857 種新穎之充電骏置,以改善上述習用充電裝置之弊端,此 即為本發明之發明重點。 本發明之主要目的,在於提供一種充電裝置,藉由一 發射接收線圈之電磁感應作用,而接收一工作電源,9並可 將工作,雜,—#電池内,或錢將工作電源傳遞給 一接收裝置’輪此以提高充電時之便利性。 f200832857 IX. Description of the invention: [Technical field to which the invention belongs] = The invention relates to a kind of charging device, especially the charging and retreating of a coil, and the coincidence of the work, two: not only through the wireless magnetic induction method Portable two-charge:: device, can also pre-store the working power, in order to become a private clothing, and increase the convenience of charging. [Previous technology] = "Shaw fee portable electronic products in the product to a mobile phone, PDA, MP3 player, etc. for a long time; charge it = specifications will not be the same as the electronic products, even The same function of Emperor Lib's Han Wei followed the change. Therefore, the fighter: f products will also be produced by different manufacturers and the charger or power supply sub-products must use the corresponding specifications. Providing the electronic products of the working power: If you have to carry it, you must look for it - the power socket, the a, the Xiao Fei is very troubled, within the scope of the limit, or because the $ must be confined to the power cable The inconvenience of receiving the device and the dangerous connection line cause the user to use [invention content] For this reason, how to design a 4200832857 novel charging device for the disadvantage of the charger for the whitening to improve the above The disadvantages of the conventional charging device are the focus of the invention. The main object of the present invention is to provide a charging device with electromagnetic induction by a transmitting and receiving coil. And receiving a working power supply, 9 and can work, miscellaneous, - battery, or money to transfer the working power to a receiving device' wheel to improve the convenience of charging.
本發明之次要目的,在於提供一種充電裝置,可預先 :存工作電源於充電裝置中,使用者可於無電源插座之環 境下,仍可對於〜接收裝置提供工作電源或進行充電,藉 此以擴大充電裴置之作用範圍。 本毛月之又〜目的,在於提供一種充電裝置,藉由一 發射接㈣電磁感應仙,而可在無電源線之^態下 2 T收衣置提供工作電源或充電作用,藉此以降低有線 電源線對❹以造紅我性及餘性。+低有,泉 本發明之 頻率調敕命效—目的,在於提供一種充電裝置,藉由一 以符合之作用,而可調整所輸出工作電源之頻率, 僅可、、固接收裝置所能感應之電源接收頻率,藉此不 =電裝置之使用個數,又可降低資源之浪費。 結構係包^_的’本發明提供—種充電裝置,其主要 -控制電略,二電源供應器’可用以產生-工作電源; 用以接收兮接5亥電源供應器,内設有一微處理器,可 台,内設有而轉換產生一交流訊號;及-充電平 該控制電故夕一發射接收線圈,發射接收線圈電性連接 並可接收及發軸交流訊號。 5 200832857 【實施方式】 工上餘為使貴審查委員對本發明之結構特徵及所達成之 更進步之瞭解與認識,謹佐以較佳之實施例圖及 配合詳細之說明,說明如後: α 良士首先,請參閱第1圖、第1Α圖及第1Β圖,係分別 :毛月充置一較佳實施例之構造示意圖、俯視圖及 ^路方不意圖。如圖所示,本發明充電裝置1Q主要係 右S ^平台U及—控制電路15,於充電平台U内埋設 4 i:r;"rr"i5ma#^4asi51' 包路圖,如第1c圖所示。 於此實施例中,充電裝置 ⑽,電源線:=;組二及接二A secondary object of the present invention is to provide a charging device capable of preserving a working power supply in a charging device, and the user can still provide working power or charge to the receiving device in the environment without a power outlet. In order to expand the scope of the charging device. The purpose of this month is to provide a charging device that can provide a working power supply or charging function without a power line by means of a transmitting (four) electromagnetic induction sensor, thereby reducing the power supply or charging function. Wired power cords are used to create redness and redundancy. + low, the purpose of the invention is to provide a charging device. By means of a function, the frequency of the output working power can be adjusted, and only the solid receiving device can sense The power receiving frequency can not reduce the waste of resources by not using the number of electrical devices. The invention provides a charging device, which mainly controls the electric power, and the two power supply 'is used to generate the working power; the receiving power supply is connected to the power supply, and a micro processing is provided therein. The device can be configured to convert and generate an AC signal; and - the charging control unit can transmit the receiving coil, and the transmitting and receiving coil can be electrically connected and can receive and send the AC signal. 5 200832857 [Embodiment] In order to enable the reviewing committee to understand and understand the structural features of the present invention and the progress achieved, please refer to the preferred embodiment and the detailed description to explain the following: First of all, please refer to Fig. 1, Fig. 1 and Fig. 1 for the structure, top view and schematic diagram of a preferred embodiment. As shown in the figure, the charging device 1Q of the present invention is mainly a right S^ platform U and a control circuit 15, and 4 i:r; "rr"i5ma#^4asi51' road map is embedded in the charging platform U, as in the 1c The figure shows. In this embodiment, the charging device (10), the power line: =; the group two and the second
C f座,而傳輪線連接介面135,例如此〜:泉以連接-電源 ft,則可包括有—連接線以連接示之咖連 此而產生一工作 、,咬牧 子裴置,皆可Μ 再者,請參閱制,。 發明充電裝置3。可搭配;用❿^ =置21内至少設有一感應線圈23接收裝置21, 充池27,其中該感應線圈電保護電 ^ 而電性連接充電電池L 經由第— --置30之電源供應器u 的工作電源137 6 200832857 將可透過微處理器 而可將工作電源137賴成一交流 訊號3Π,再透過發射接收線圈115而將該交流訊號317以 無線電磁感應方式發射傳送至接收裝置21。 接收裝置21之感應、_ 23以無線電磁感應接收 =裝置30所發射之交流訊細後,即可將交流訊號 3 7傳运以-充電保妓路25。μ —充電保護電路烈 則,過内部設置的-整流器255,以將交流訊號31?轉換成 -充電電壓,而有利於充電電池27進行充電動作。 充電電池27所儲存之工作電源將可提供一接 體29使用’該接收裝置本體29係可選擇n肖^ 產品、手機、PDA、MP3隨身聽、電熱器、電熱杯等。、 機為例’該接收裝置21即可直接設置於手機電池内。C f seat, and the transmission line connection interface 135, for example, the ~: spring to connect - power ft, may include - a connection line to connect the display of the coffee to create a job, bite the herd, can be Μ Again, please refer to the system. The charging device 3 is invented. It can be matched with at least one induction coil 23 receiving device 21 and a charging pool 27, wherein the induction coil is electrically protected and electrically connected to the rechargeable battery L via the first power supply 30 The working power supply of the 137 6 200832857 can be used to transmit the working power supply 137 to an alternating current signal 3 through the microprocessor, and then transmit the alternating current signal 317 to the receiving device 21 by wireless electromagnetic induction through the transmitting and receiving coil 115. The sensing of the receiving device 21, _ 23 is received by the wireless electromagnetic induction = the communication signal transmitted by the device 30 is finely circulated, and the alternating current signal 3 7 is transmitted to the charging and protecting circuit 25. μ—The charging protection circuit is strong, and the internally-configured rectifier 255 converts the AC signal 31 to a charging voltage, which facilitates the charging operation of the rechargeable battery 27. The working power stored in the rechargeable battery 27 will provide a connector 29 for use. The receiving device body 29 can select a product, a mobile phone, a PDA, an MP3 player, an electric heater, an electric cup, and the like. For example, the receiving device 21 can be directly disposed in the battery of the mobile phone.
C 而在第一充電保護電路25持續對於充電電池27進广 充電動作之同時’第-充電保護電路25會持續監控充電; 池27之充電情況,假如充電電池27過熱或是充電電池& 已經充滿’ m賴電路25將停止對於充電電池2? 之充電動作,以避免充電電池27過度充電而造成蓄電能 祕、縮短使用壽命或轉爆炸的危險。其巾,第 保4 =路25及整流器255之詳細電路圖,如帛2 A圖所示兒 田然,經由第一充電保護電路25及整流器255作用 產生之工作電源亦可直接提供接收裝置本體烈 經由充電電池27提供工作電源。 而不 直、、^、择充電裝置3〇所接收或產生之工作電源,例如 直-毛源,亦可受控於微處理器151而傳送至蓄電池”中 7 200832857 w U無法再提供工作電源以7時,微處 m s 17提供—工作電源m至控制電路 15,以取代電源供應器u之功能。 又’在本發明又—實施例中,充電裝置30之控制電路 15與發射接收_ 115間尚設置有-第二充電賴電路 3j。该弟-充電保護電路34之設置目的與接收裝置21之 =-充電賴f路25相同1是作為減時之保護措施。 fC, while the first charging protection circuit 25 continues to charge and recharge the rechargeable battery 27, the 'first charging protection circuit 25 will continuously monitor the charging; the charging condition of the pool 27, if the rechargeable battery 27 is overheated or the rechargeable battery & The full-filled circuit 25 will stop the charging operation for the rechargeable battery 2 to avoid overcharging of the rechargeable battery 27, resulting in a hidden power, shortened service life or a risk of explosion. The detailed circuit diagram of the towel, the first protection 4 = the way 25 and the rectifier 255, as shown in Fig. 2A, the child's working power generated by the first charging protection circuit 25 and the rectifier 255 can also directly provide the receiving device body. The operating power is supplied via the rechargeable battery 27. The working power source received or generated by the charging device 3, such as the direct-hair source, may also be controlled by the microprocessor 151 and transmitted to the battery. 7 200832857 w U can no longer provide working power At 7 o'clock, the micro-ms ms 17 provide a working power supply m to the control circuit 15 in place of the function of the power supply u. In the further embodiment of the invention, the control circuit 15 of the charging device 30 and the transmission reception_115 The second charging circuit 3j is provided between the second charging circuit 3j. The setting purpose of the charging-protection circuit 34 is the same as that of the charging device 25 of the receiving device 21 as a protection measure for time reduction.
第二充電賴電路34之電路結構可與第—充電賴電路25 ^致相同’其差異之處在於第二充電保護電路34缺少整流 器255之整流功能。 一接差貝’ 5月夢閱第3 @ ’係為本發明又一實施例之電路 示意圖,充電裝置40的充電平台u内亦可設置有複數個 發射接收線圈315,例如此實施例所示之兩組發射接收線圈 3151/3155,而控制電路15與兩組發射接收線圈3i5i/3i55 之間將可設置-頻率調整電路39,而料難電路39之詳 細電路圖’可參照第3 A圖所示。 又,請參閱第4圖所示,當充電裝置4〇之充電平台u 内設有複數個發射接收線圈3151/3155,而每一個發射接收 線圈3151/3155皆有個相對應之接收裝置21/21〇。者充帝 裝置40欲對接收裝置21/210進行充電或提供作用田電: 時,頻率調整電路39可將第-組發射接收線圈3i5i之發 射頻率調整成係與接《置21之感應線圈23相同之感應 頻率,如此接收裝置21即可接收第_組發射接I線圈咖 所發射之交流誠,並相對提供充電電池27之充電作用。 8 200832857 反之’假如充電裝置40欲對接收裝置210提供工作電源 時,頻率調整電路;39亦可調整第二組發射接收線圈3155 之發射頻率,以將第二組發射接收線圈3155之發射頻率調 整成與接收裝置210之感應線圈230可互相匹配之感應頻 率,如此接收裝置21〇即可提供工作電源給接收裝置本體 290使用。 在本實施例中,其電源供應器53係可為一太陽能板The circuit structure of the second charging circuit 34 can be identical to that of the first charging circuit 25, the difference being that the second charging protection circuit 34 lacks the rectifying function of the rectifier 255. A schematic diagram of a circuit according to another embodiment of the present invention is also provided, and a plurality of transmitting and receiving coils 315 may be disposed in the charging platform u of the charging device 40, for example, as shown in this embodiment. The two sets of transmitting and receiving coils 3151/3155, and the control circuit 15 and the two sets of transmitting and receiving coils 3i5i/3i55 will be able to set the frequency adjusting circuit 39, and the detailed circuit diagram of the hard-working circuit 39 can refer to FIG. 3A. Show. Moreover, referring to FIG. 4, when the charging platform 4 of the charging device 4 is provided with a plurality of transmitting and receiving coils 3151/3155, and each of the transmitting and receiving coils 3151/3155 has a corresponding receiving device 21/ 21〇. When the charging device 40 is to charge or provide the function of the receiving device 21/210: the frequency adjusting circuit 39 can adjust the transmitting frequency of the first group of transmitting and receiving coils 3i5i to be connected to the sensing coil 23 of the set 21 The same sensing frequency, so that the receiving device 21 can receive the communication transmitted by the first group of transmitting I coil coffee, and provide charging effect of the rechargeable battery 27. 8 200832857 Conversely, if the charging device 40 is to provide operating power to the receiving device 210, the frequency adjusting circuit 39 can also adjust the transmitting frequency of the second group of transmitting and receiving coils 3155 to adjust the transmitting frequency of the second group of transmitting and receiving coils 3155. The sensing coils 230 of the receiving device 210 can match the sensing frequencies of each other, so that the receiving device 21 can provide operating power to the receiving device body 290. In this embodiment, the power supply 53 is a solar panel.
Ο 53。、該太陽能板53係可接收一光源532,而將光源5犯轉 ,成工作電源137,以提供充電裝置仙使用。利用太陽 ^板53之供電方式,其優點在於太陽能光是個取之不盡之 貝源’並且具冑清潔安全之特點,如祕可減少能源過度 的浪費,達到環保之目的。 、又’在本發明又-貫施例巾,充電裝置4Q内並無蓄電 池(Π) ’電源供應$ 13所提供之工作電源137將直接提供 發射接收線圈3151/3155使用。 請參㈣5®,係為本發日収_實_之電路示意 圖,本發明充電裝置60之電源供應器63係為—乾電池, 並且充電裝置60内未設置,池U7)。當乾電池63工 作電源使用完畢,充電裝置60必須更換新的乾電池⑽才 能對於接收裝置21持續充電。 貝β 私衣^…诉口j—藉由頻率調蹩冤路⑽ 彈性調整自身之發射接收線圈115所發射頻率,以調整頻 率符合各種接收裝i 21/210因具有不同捲繞之感應線圈 23/230而產生出之不_€應頻率,不僅可達到對於多組 9 200832857 之接收裝置21/21G同時充電之目的,也可增加資源之利用 性。 又,在本毛明又—實施例中,其接收裝i 21内亦可選 擇不設置有第一充電保護電路(25),同樣還是可達到充電 電池27充電的目的。 '月爹閱第6圖及第6 A圖,係分別為本發明又-實施 例之私路不心圖及構造不意圖,本發明充電裝置7〇之發射 接收線圈115係可接收1源供應器^,例如此實施例所 示之交流訊號傳輪器73,所傳輸之交流訊號观,並且將 交流訊號735傳运至與發射接收線圈ιΐ5戶斤電性連接之^ 制電路15,而控制電路15則透過内部之整流器755作用, 而將交流訊號挪轉換% Ο ,㈣傳送至電性連接之_傳輸線連二 此貫施例所示之萬用序列連接介面⑽)13 多餘之=電_,控制電路15之㈣㈣ 餘之工作1源傳达至電性連接之蓄電池17儲存。 又,接收裝置71之—傳輪線連接孔Μ 線77而連接充電裝置7〇之傳輸 曰由一傳輸 電裝置7。所提供之工作電源137。接嫩充 保護電路25在接收工作電源137後, 弟一充電 換成-充電電Μ,如此將可對於電 :琢137轉 行充電動作:或者直接提供接㈣置本體池27進 由方;此貫施例中係藉由傳輪 。 及接收裝置7卜而不需要經由| Μ連接充電裝置70 …、、,表电磁感應方式以傳輸工 10 200832857 作兒源或資料,所以接收裝置71或接收裝置本體29内並 不而要特別設置有一感應線圈(23),藉此本發明充電裝置 7〇亦可適用於現有存在或較舊型之接收裝置η或接收裝置 本體29。 -又,由於充電平台11内之發射接收線圈^ π係可在無 傳輪線連接之情況下,以無線電磁感應方式接收來自於交 流汛旎傳輸器73之交流訊號735,如此不僅可有效消弭有Ο 53. The solar panel 53 can receive a light source 532, and the light source 5 is turned into a working power source 137 to provide a charging device. The advantage of using the power supply of the solar panel 53 is that the solar light is an inexhaustible source of water and has the characteristics of being clean and safe, such as reducing the waste of excessive energy and achieving environmental protection. Further, in the present invention, there is no battery (charge) in the charging device 4Q. The power supply 137 provided by the power supply $13 is directly supplied to the transmitting and receiving coils 3151/3155. Please refer to (4) 5®, which is a circuit diagram of the present invention. The power supply 63 of the charging device 60 of the present invention is a dry battery, and is not disposed in the charging device 60, and the cell U7). When the dry battery 63 is used, the charging device 60 must be replaced with a new dry battery (10) to continue charging the receiving device 21. Bell β 私服^... 告口 j—by adjusting the frequency of the transmitting and receiving coil 115 of its own by the frequency tuning circuit (10) to adjust the frequency to meet the various receiving devices i 21/210 because of the different winding induction coils 23 /230 and the resulting frequency should not only achieve the purpose of simultaneous charging of the receiver 21/21G of multiple groups of 9 200832857, but also increase the availability of resources. Further, in the present invention, in the embodiment, the receiving device i 21 may alternatively be provided with the first charging protection circuit (25), and the charging battery 27 may be charged. </ RTI> </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; For example, the AC signal transmitter 73 shown in this embodiment transmits the AC signal and transmits the AC signal 735 to the control circuit 15 electrically connected to the transmitting and receiving coils. The circuit 15 acts through the internal rectifier 755, and converts the AC signal to % Ο , (4) to the _ transmission line of the electrical connection, and the universal serial connection interface (10) shown in the example. 13 Excess = _ (4) (4) The remaining work 1 source is transmitted to the electrically connected battery 17 for storage. Further, the transmission line of the receiving device 71 is connected to the aperture line 77 to connect the transmission device 7 to the transmission device 7. The working power source 137 is provided. After receiving the working power supply 137, the charging and charging circuit 25 is replaced with a charging battery, so that the charging operation can be performed for the electricity: 琢137: or directly connected to the body pool 27; In the case of the example, the pass is passed. And the receiving device 7 does not need to connect the charging device 70 via the | Μ, and the meter electromagnetic induction mode is used as the source or data of the transmission worker 10 200832857, so the receiving device 71 or the receiving device body 29 is not specially set. There is an induction coil (23) whereby the charging device 7 of the present invention can also be applied to existing or older receiving devices n or receiving device bodies 29. - In addition, since the transmitting and receiving coils π in the charging platform 11 can receive the AC signal 735 from the AC transmitter 73 by wireless electromagnetic induction without the transmission line connection, the not only can effectively eliminate the
線傳輸線所造成之麻煩,亦可因為充電裝置7〇可以攜帶移 動而不叉有線傳輸線之長度限制,因此也可提升使用時 之方便性。 請參閱第7圖及第7a圖,係分別為本發明又一實施 例之包路不意圖及構造示意圖,本發明充電裝置別為了搭 配更二樣化之接收裝置8卜可增設有至少—插電端口,例 如此κ施例所示之兩値插電端口 83、85,而接收裝置Μ之 適吾位+置有存在有相對應之至少一充電端+謂及/或 850 ’精由接收裝置81之充電端子830/850直接插合於充 電裝置80之插電端0 83/85,即可在不需要傳輸線(77)之 狀況下直接進灯充電電池27之充電動作或資料傳輸動作。 田然,在本發明又一實施例中,傳輸線連接介面135、 插^^而口 83/85及傳輸線連接孔79、充電端子8別亦 可同^存在二:方便使用者自由搭配選擇。 又充电裒置80中之該控制電路15與該傳輸線連接 ”面135 83/85之間尚設置-第二充電保護電路 34其可皿控控制電路15所轉換之工作電源是否過電流的 200832857 假如有以上情況’第二充電保護電路34將不循、、, =至傳輸線連接介面135、插電端口 83/85,、, 收衣置81將不會接收過雷义你帝 此,接 27之損耗。要㈣⑽之工作以,以避免充電電池 =後’請參_8圖,係為本發 本發明接收裝置91亦可為-充電電二例:構造 合充電電池91之充電端子930及可平穩‘ 為了配 卡槽 95,卡槽 95 91 ’ =口 93,如此當充電電池91置放於充電平台π Γ插 充笔端子930與插電端〇93接觸時, 上’且 内之工作電源以對充電 田龟池17 用太陽能板53所產生你 二% #。或者亦可利 電動作。 生"'作電源即時對充電電池91進行充 當然’如果充電以91上設錢應線圈2 充電端子腳未與插⑼口⑽接觸時 、使在 線圈115與感應線圈h ^ ^ ⑴用發射接收 太陽能板53產生之工=;乍用广,蓄電池Π或 電電池91之充電動作。$源傳遞給充電電池91,以完成充 又’請參閱第, 置91上之第-充電保:M二 又一實施例巾’接收裂 或充電平台丨1内,當充^路25Q亦了直接設於充電裝置9〇 以上所述者,僅ΪΓ 收裝置91之體積。 用來蚊本剌實施之—較佳實施例而已,並非 之钯圍,即凡依本發明申請專利範圍 200832857 所述之形狀,構造,特徵及精神所為之均等變化與修飾,均 應包括於本發明之申請專利範圍内。 【圖式簡單說明】 第1圖:係為本發明充電裝置一較佳實施例之構造示意圖。 第1A圖:係為本發明如第1圖所示實施例之俯視圖。 第1 B圖:係為本發明如第1圖所示實施例之電路示意圖。 第1 C圖:係為本發明控制電路一實施例之詳細電路圖。 f 第2圖:係為本發明另一實施例之電路示意圖。 第2 A圖:係為本發明第一充電保護電路及整流器之詳細 電路圖。 第3圖:係為本發明又一實施例之電路示意圖。 第3 A圖:係為本發明控制電路及頻率調整電路之詳細電 路圖。 第4圖:係為本發明又一實施例之電路示意圖。 第5圖:係為本發明又一實施例之電路示意圖。 I 第6圖:係為本發明又一實施例之電路示意圖。 第6 A圖:係為本發明如第6圖所示實施例之構造示意圖。 第7圖:係為本發明又一實施例之電路示意圖。 第7 A圖:係為本發明如第7圖所示實施例之構造示意圖。 第8圖:係為本發明又一實施例之構造示意圖。 第9圖:係為本發明又一實施例之構造示意圖。 【主要元件符號說明】 200832857 10 充電裝置 115 發射接收線圈 131 電源線插孔組 137 工作電源 151 微處理器 21 接收裝置 23 感應線圈 25 第一充電保護電路 255 整流器 29 接收裝置本體 30 充電裝置 3151 發射接收線圈 317 交流訊號 39 頻率調整電路 53 太陽能板 60 充電裝置 71 接收裝置 735 父流訊號 77 傳輸線 83 插電端口 830 充電端子 90 充電裝置 93 插電端口 95 卡槽 11 充電平台 13 電源供應器 135 傳輸線連接介面組 15 控制電路 17 蓄電池 210 接收裝置 230 感應線圈 250 第一充電保護電路 27 充電電池 290 接收裝置本體 315 發射接收線圈 3155 發射接收線圈 34 第二充電保護電路 40 充電裝置 532 光源 70 充電裝置 73 交流訊號傳輸器 755 整流器 79 傳輸線連接孔 85 插電端口 850 充電端子 91 充電電池 930 充電端子 14The trouble caused by the line transmission line can also be facilitated by the fact that the charging device 7 can carry the movement without restricting the length of the wired transmission line, thereby also improving the convenience in use. Please refer to FIG. 7 and FIG. 7a , which are schematic diagrams of the bypass and the structure of the present invention. The charging device of the present invention may be provided with at least a plug-in for the matching device 8 . The electrical port, for example, the two plug-in ports 83, 85 shown in the κ embodiment, and the receiving device is provided with a corresponding one of the at least one charging terminal + and/or 850 'precisely received The charging terminal 830/850 of the device 81 is directly inserted into the plug-in terminal 83/85 of the charging device 80, so that the charging operation or the data transmission operation of the rechargeable battery 27 can be directly entered without the transmission line (77). Tian Ran, in another embodiment of the present invention, the transmission line connection interface 135, the insertion port 83/85, the transmission line connection hole 79, and the charging terminal 8 can also be used in the same way: it is convenient for the user to freely match the selection. In addition, the control circuit 15 in the charging device 80 is connected to the transmission line 135 83/85. The second charging protection circuit 34 can control whether the operating power converted by the control circuit 15 is overcurrent. In the above case, the second charging protection circuit 34 will not follow, ,, = to the transmission line connection interface 135, the plug-in port 83/85, and the clothing set 81 will not receive the Lei Yi, this is the 27th. Loss. To work in (4) (10), to avoid charging the battery = after 'Please refer to the figure _8, the receiving device 91 of the present invention may also be - charging electricity two examples: the charging terminal 930 of the rechargeable battery 91 and Smooth 'In order to match the card slot 95, the card slot 95 91 ' = port 93, so when the rechargeable battery 91 is placed on the charging platform π, the plug-in pen terminal 930 is in contact with the plug-in terminal 〇 93, the upper and the inner working power supply In the charging field turtle pool 17, you can use the solar panel 53 to generate your second % #. Or you can also operate the power. Raw " 'for the power supply to charge the rechargeable battery 91, of course, if the charge is set on the 91 should be the coil 2 When the charging terminal pin is not in contact with the plug (9) port (10), The coil 115 and the induction coil h ^ ^ (1) are generated by the emission receiving solar panel 53; the charging operation of the battery, the battery cartridge or the electric battery 91. The source is transmitted to the rechargeable battery 91 to complete the charging and 'see the first , the first on the 91-charge protection: M two further embodiment of the towel 'receive crack or charging platform 丨1, when the charging circuit 25Q is also directly set in the charging device 9 〇 above, only the sputum device The volume of 91. It is used for the implementation of the mosquitoes, the preferred embodiment, and not the palladium circumference, that is, the shape, structure, characteristics and spirit of the invention as described in the patent application scope 200832857 are equally changed and modified. It is intended to be included in the scope of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing the structure of a preferred embodiment of the charging device of the present invention. Fig. 1A is a view of the present invention as shown in Fig. 1. Fig. 1B is a schematic circuit diagram of an embodiment of the present invention as shown in Fig. 1. Fig. 1C is a detailed circuit diagram of an embodiment of the control circuit of the present invention. f Fig. 2: A schematic representation of a circuit in accordance with another embodiment of the present invention 2A is a detailed circuit diagram of the first charging protection circuit and the rectifier of the present invention. FIG. 3 is a schematic circuit diagram of another embodiment of the present invention. FIG. 3A is a control circuit and frequency of the present invention. 4 is a schematic diagram of a circuit according to still another embodiment of the present invention. FIG. 5 is a schematic diagram of a circuit according to still another embodiment of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 6A is a schematic view showing the configuration of an embodiment of the present invention as shown in FIG. 6. FIG. 7 is a circuit diagram showing still another embodiment of the present invention. Fig. 7A is a schematic view showing the construction of the embodiment shown in Fig. 7 of the present invention. Figure 8 is a schematic view showing the configuration of still another embodiment of the present invention. Figure 9 is a schematic view showing the configuration of still another embodiment of the present invention. [Main component symbol description] 200832857 10 Charging device 115 Transmitting and receiving coil 131 Power cord jack group 137 Operating power supply 151 Microprocessor 21 Receiving device 23 Inductive coil 25 First charging protection circuit 255 Rectifier 29 Receiving device body 30 Charging device 3151 Transmitting Receiving coil 317 AC signal 39 Frequency adjustment circuit 53 Solar panel 60 Charging device 71 Receiving device 735 Parent stream signal 77 Transmission line 83 Plug-in port 830 Charging terminal 90 Charging device 93 Plug-in port 95 Card slot 11 Charging platform 13 Power supply 135 Transmission line Connection interface group 15 control circuit 17 battery 210 receiving device 230 induction coil 250 first charging protection circuit 27 rechargeable battery 290 receiving device body 315 transmitting receiving coil 3155 transmitting receiving coil 34 second charging protection circuit 40 charging device 532 light source 70 charging device 73 AC signal transmitter 755 rectifier 79 transmission line connection hole 85 plug-in port 850 charging terminal 91 rechargeable battery 930 charging terminal 14