M415524 五、新型說明: 【新型所屬之技術領域】 本創作有關於一種無線充電式行動通訊裝置、具有 整合充電功能的天線裝置及無線充電系統,且特別是有 關於利用天線實行電磁感應之無線充電式行動通訊裝 置、具有整合充電功能的天線裝置及無線充電系統。 【先前技術】 隨著無線傳輸技術日益的成熟,現今各類行動通訊 裝置中所設置的天線通常用來作為發射或接收無線電 波之用途,以讓行動通訊裝置與遠端裝置之間達到傳遞 或交換無線電資料之目的。另外,隨著多種不同的無線 傳輸協定的需求,例如無線區域網路(WLAN)、藍芽無線 技術或數位電視訊號,天線也可被設計用來傳輸多種不 同頻帶的無線訊號。 另外,各類的行動通訊裝置都設置有接觸式電極 (contact electrode)的充電口(Charge Port),並且透 過接觸式電極與相應的充電器(adapter)連接,以進行 内部二次電池的充電。然而,當充電器被頻繁地插拔 (Plug in and Plug out)於行動通訊裝置的充電口時, 將會造成充電口中的接觸式電極發生氧化及磨損,因而 產生接觸不良的問題,進而影響内部二次電池的充電效 果。 又,消費性電子產品已經成為現代人生活中不可或 缺的一部分,而幾乎每個電子產品都會搭配一個充電器 ,當數量多時不管是攜帶或是電線的整理上都會造成困 擾。而“無線充電”產品就能解決以上的問題,無線充 3/14 M415524 電技術可以不用利用電源線就可以隔空充電,並且同時 可以支援不同產品充電,如此就解決了充電器互相不能 支***換使用及攜帶上的困擾。 【新型内容】 本創作實施例提供一種無線充電式行動通訊裝置 、具有整合充電功能的天線裝置及無線充電系統。本創 作實施例之無線充電式行動通訊裝置具有二種切換模 式,在第一切換模式時,無線充電式行動通訊裝置的天 線模組被用來發射/接收無線電波,另外,在第二切換 模式時,無線充電式行動通訊裝置的天線模組則被用來 電磁感應出交流電,以對二次電池進行充電。 依據一實施例,本創作之無線充電式行動通訊裝置 包括無線通訊模組、儲電模組、轉換模組、天線模組及 切換模組。天線模組接收/發射無線信號或電磁感應出 交流電。轉換模組電氣連接於儲電模組,係將交流電轉 換成直流電以對儲電模組充電。切換模組電氣連接於天 線模組、無線通訊模組及轉換模組,其中切換模組提供 天線模組連接至無線通訊模組或提供天線模組連接至 轉換模組。 依據另一實施例,本創作之具有整合充電功能的天 線裝置電氣連接於儲電模組與無線通訊模組。具有整合 充電功能的天線裝置包括天線模組、轉換模組及切換模 組,其中天線模組用來接收/發射無線信號或電磁感應 出交流電。轉換模組電氣連接於儲電模組,係將交流電 轉換成直流電以對儲電模組充電。切換模組電氣連接於 天線模組、轉換模組及無線通訊模組,其中切換模組提 4/14 M415524 供天線馳連接至無線通訊模組或提供 至轉換模組。 、、、且适# 實施例,本創作之無線充電系統包括前述 之熙,,泉充笔式行動通訊裝置與電磁感應裝置 感應裝置包括容置槽與主動線圈。容置槽用以收容;: =充”行動通訊裝置。主動線圈電氣連接於二 ㈣軌裝置_容於容置槽時: ;、,、'.泉充电式仃動通訊裝置中的天線模組電磁减庫 (electromagnetic inducti〇n)。 砍應 為使能更進—步瞭解本創作之特徵及技術内容,往 以下有關本創作之詳細說明與附圖 : 範圍作任何的限制。 ^了奉創作的催利 【實施方式】 本創作實施例所提供的益線 係能夠透過天線模組取得感庫:t;式仃動通訊裝置 而對内部電池進行充電。換二:,二依據感應電流 線充電式行動通訊裝置所使用的天線、模列的無 土接收/傳輸無線訊號’還 交流::: 電之用途。 山乂机电以作為充 清荼考m,圖]為本創作實施例之 動通訊褒置之電路錢*意圖。线;^充电式行 置1包括天線模組H)、⑽彳 ::仃動通訊裝 、轉換模組16及儲電模組^天訊模组μ 發射無線錢SbS1,或來接收/ 模組16電氣連接於儲電模 ^ AC。轉換 丁、將父流電AC轉換成 5/14 M415524 直流電DC以對儲電模組18充電。切換模組12電氣連 接於天線模組10、無線通訊模組14及轉換模組16,其 中切換模組12提供天線模組10連接至無線通訊模組14 或提供天線模組10連接至轉換模組16。 復參考圖1。天線模組10、切換模組12及轉換模 組16能夠被整合成為一種具有整合充電功能的天線裝 置(圖1未標示),如此,具有整合充電功能的天線裝 置即可以被設置在無線充電式行動通訊裝置1中’並且 電氣連接無線通訊模組14與儲電模組18。 復參考圖1。切換模組12包括二種切換模式,其中 當切換模組12被控制在第一切換模式時5天線模組10 即可以經由切換模組12而與無線通訊模組14連接。此 時,無線通訊模組14用來處理天線模組10從遠端所接 收到的無線信號S1,並且將所要回覆的無線信號S1’ 送至天線模組10,進而經由天線模組10將所要回覆的 無線訊號S1’發射到遠端。前述天線模組10與無線通 訊模組14之間的無線通訊原理與動作係為一般的行動 通訊技術,在此不再贅述。 另外,當切換模組12被控制在第二切換模式時, 天線模組10從與無線通訊模組14的連接關係改為連接 到轉換模組16,換句話說,天線模組10即經由切換模 組12與轉換模組16連接。此時,天線模組10被用來 電磁耦合於外部的電磁感應裝置2(標示在圖2中),進 而電磁感應出交流電AC。同時,與天線模組10連接的 轉換模組16,即將交流電AC轉換成為直流電DC,並且 將直流電DC輸出至儲電模組18,以對儲電模組18進行 6/14 M415524 充電。 综上所述,無線充電式行動通訊裝置1的天線模組 10可以被用來發射/接收無線信號S1、S1’ ,也可以被 用來電磁感應出交流電AC。如此,藉由切換模組12的 切換選擇,無線充電式行動通訊裝置1即可以透過天線 模組10進行無線通訊功能,也可以透過天線模組10而 對儲電模組18進行充電。 復參考圖1。無線充電式行動通訊裝置1的轉換模 組16包括一整流單元160,整流單元160用來將交流電 AC轉換成直流電DC。進一步來說,整流單元160可以 為橋式整流器,然而橋式整流器不為本創作之限制,舉 凡可以將交流電轉換成直流電的整流單元都可以用來 實施本創作。 另外,轉換模組16還可以包括一穩壓單元162,其 中穩壓單元162電氣連接於整流單元160並且用以提供 穩定的直流電DC’ 。進一步來說,穩壓單元162用於對 整流單元160輸出的直流電DC進行穩壓以輸出穩定的 直流電DC’ ,並將穩定的直流電DC’傳送到儲電模組 18,以對儲電模組18進行充電操作。前述中,穩壓單 元162可由多個電容並聯組成,以用來改善整流單元160 輸出的直流電DC的波形,並且產生穩定的直流電DC’ 以提高充電效率。然而多個電容並聯組成之穩壓單元 162不為本創作之限制,舉凡可以改善整流單元160輸 出的直流電DC的波形,以產生穩定的直流電DC’的穩 壓單元162都可以用來實施本創作。 復參考圖1。無線充電式行動通訊裝置1的儲電模 7/14 組18可以為 二二人電池模組。進一步來說,二少 模組包括鉛蓄電池、鎳鎘電池、鎳氫電池 :二池 、鋰鐵電池其中之一或其缸八。另外一 ·里雕十电% 通訊裝置1的切換料J 線充電式行動 、、且U可以疋機械式切換 (Mechanical switch),你丨士0弁换μ m 例如扣撥開關(DIP Switch)、 按紐開關(Pushbutton)。 配合圖卜參考圖2。圖2為本創作實施例之無線 兄電糸統之㈣不意圖。無線充電系統3包括前述之無 線充電式行動通訊裝置1與電磁感㈣置2。無線充電 式行動通訊裝置1可以被收容於電磁感應裝置2的容= 槽20中以進订充電操作或是平放在電磁感應裝置2上 。進-步來說,當無線充電式行動通訊裝置"皮收容在 容置槽2G或平放在電磁感應裝置2上時,無線充電式 行動通訊裝置1的天線模組10與電礤感應裝置2的主 動線圈22相對應配置,且天線模組1〇與主動線圈22 電磁麵合。 前述中,主動線圈22電氣連接於市電ΑΠ |從帝 電AC1接收電力且與天線模組1〇進行電磁感應 (electr⑽agnetic mduction)。此時,天線模組 1〇 經 由電磁感應產生交流電AC ’以用來提供充電的操作。如 此,藉由切換模組12的選擇,無綠充電式行動通訊裝 置1即可以透過天線模組10以非接觸的方式進行無線 充電。 配合圖1與圖2,參考圖3,圖3為本創作另,實 施例之無線充電式行動通机裝置之電路方塊示意圖。無 線充電系統3中的無線充電式行動通訊裝置1,還包括 8/14 一監控模組1;[,政由 12,。監 ^中备控核組11電氣連接於切換模虹 r 11用以偵測無線充電式行動通訊裝置 心貞疋則二广於電磁感應裝置2的容置槽20,並且根 豕、'、…果加以控制切換模组12,的切換操作。 ' v來況 ^ li控模組11偵測到益線充雷 :1丨二會控制切換模組丨2’齡在第-切換模式:M415524 V. New description: [New technical field] This creation is about a wireless rechargeable mobile communication device, an antenna device with integrated charging function and a wireless charging system, and in particular, wireless charging using electromagnetic induction by an antenna Mobile communication device, antenna device with integrated charging function and wireless charging system. [Prior Art] With the increasing maturity of wireless transmission technologies, antennas provided in various types of mobile communication devices are generally used for transmitting or receiving radio waves to achieve transmission between a mobile communication device and a remote device. The purpose of exchanging radio data. In addition, with the needs of many different wireless transport protocols, such as wireless local area network (WLAN), Bluetooth wireless technology, or digital television signals, antennas can also be designed to transmit wireless signals in a variety of different frequency bands. In addition, various types of mobile communication devices are provided with a charge port of a contact electrode, and are connected to a corresponding charger through a contact electrode to charge the internal secondary battery. However, when the charger is plugged in and plugged out to the charging port of the mobile communication device, the contact electrode in the charging port will be oxidized and worn, thereby causing a problem of poor contact, thereby affecting the internal The charging effect of the secondary battery. Moreover, consumer electronics has become an indispensable part of modern life, and almost every electronic product will be equipped with a charger. When the number is large, it will cause trouble even if it is carried or wired. The "wireless charging" product can solve the above problems. The wireless charging 3/14 M415524 electric technology can charge the air without using the power cord, and at the same time can support charging of different products, thus solving the problem that the chargers cannot support each other. Trouble with use and carrying. [New Content] The present embodiment provides a wireless charging type mobile communication device, an antenna device with integrated charging function, and a wireless charging system. The wireless rechargeable mobile communication device of the present embodiment has two switching modes. In the first switching mode, the antenna module of the wireless rechargeable mobile communication device is used to transmit/receive radio waves, and in the second switching mode. The antenna module of the wireless rechargeable mobile communication device is used to electromagnetically induce an alternating current to charge the secondary battery. According to an embodiment, the wireless wireless mobile communication device of the present invention comprises a wireless communication module, a power storage module, a conversion module, an antenna module and a switching module. The antenna module receives/transmits a wireless signal or electromagnetically induces an alternating current. The conversion module is electrically connected to the power storage module, and converts the alternating current into direct current to charge the power storage module. The switching module is electrically connected to the antenna module, the wireless communication module and the conversion module, wherein the switching module provides an antenna module connected to the wireless communication module or an antenna module connected to the conversion module. According to another embodiment, the antenna device with integrated charging function of the present invention is electrically connected to the power storage module and the wireless communication module. An antenna device having an integrated charging function includes an antenna module, a conversion module, and a switching module, wherein the antenna module is configured to receive/transmit a wireless signal or electromagnetically induce an alternating current. The conversion module is electrically connected to the power storage module, and converts the alternating current into direct current to charge the power storage module. The switching module is electrically connected to the antenna module, the conversion module and the wireless communication module, wherein the switching module provides 4/14 M415524 for the antenna to be connected to the wireless communication module or to the conversion module. In the embodiment, the wireless charging system of the present invention includes the foregoing, and the spring-filled pen-type mobile communication device and the electromagnetic induction device include a receiving slot and an active coil. The accommodating slot is used for receiving;: = charging "mobile communication device. The active coil is electrically connected to the two (four) rail device _ when it is accommodated in the accommodating slot: ;,,,,,,,,,,,,,,,,,,,,,,,,, Electromagnetic reduction (electromagnetic inducti〇n). Cut should be more advanced - to understand the characteristics and technical content of this creation, to the following detailed description of the creation and the drawings: the scope of any restrictions. The embodiment of the present invention provides a benefit line that can be used to obtain a sense base through the antenna module: t; a type of swaying communication device to charge the internal battery. Change two: two according to the induction current line charging The antenna used in the mobile communication device and the groundless receiving/transmitting wireless signal of the module are also used for communication::: The purpose of the electric power. The Yamaha Electromechanical Co., Ltd.电路 之 之 电路 意图 线 ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ SbS1, or to receive / module 16 is electrically connected to The electric module AC is converted into a 5/14 M415524 DC DC to charge the power storage module 18. The switching module 12 is electrically connected to the antenna module 10, the wireless communication module 14 and the conversion module. The antenna module 10 is connected to the wireless communication module 14 or the antenna module 10 is connected to the conversion module 16. Referring to Figure 1, the antenna module 10, the switching module 12 and the conversion module The group 16 can be integrated into an antenna device having an integrated charging function (not shown in FIG. 1), so that an antenna device having an integrated charging function can be disposed in the wireless cordless mobile communication device 1 and electrically connected to the wireless communication module. The group 14 and the power storage module 18. Referring to Figure 1, the switching module 12 includes two switching modes, wherein the 5 antenna module 10 can be switched via the switching module 12 when the switching module 12 is controlled in the first switching mode. The wireless communication module 14 is configured to process the wireless signal S1 received by the antenna module 10 from the remote end, and send the wireless signal S1' to be replied to the antenna module 10. ,and then The wireless signal S1' to be replied to is transmitted to the remote end via the antenna module 10. The wireless communication principle and operation between the antenna module 10 and the wireless communication module 14 are general mobile communication technologies, and will not be described herein. In addition, when the switching module 12 is controlled in the second switching mode, the connection relationship between the antenna module 10 and the wireless communication module 14 is changed to be connected to the conversion module 16, in other words, the antenna module 10 is via The switching module 12 is connected to the conversion module 16. At this time, the antenna module 10 is used to electromagnetically couple to the external electromagnetic induction device 2 (shown in FIG. 2), thereby electromagnetically inducing the alternating current AC. At the same time, the conversion module 16 connected to the antenna module 10 converts the alternating current AC into a direct current DC, and outputs the direct current DC to the power storage module 18 to charge the power storage module 18 by 6/14 M415524. In summary, the antenna module 10 of the wireless rechargeable mobile communication device 1 can be used to transmit/receive the wireless signals S1, S1', and can also be used to electromagnetically induce the alternating current AC. Thus, the wireless charging mobile communication device 1 can perform the wireless communication function through the antenna module 10 or the power storage module 18 through the antenna module 10 by the switching selection of the switching module 12. Refer to Figure 1 for details. The conversion module 16 of the wireless plug-in type mobile communication device 1 includes a rectifying unit 160 for converting an alternating current AC into a direct current DC. Further, the rectifying unit 160 can be a bridge rectifier. However, the bridge rectifier is not limited by this creation. Any rectifying unit that can convert alternating current into direct current can be used to implement the present invention. In addition, the conversion module 16 can also include a voltage stabilizing unit 162, wherein the voltage stabilizing unit 162 is electrically coupled to the rectifying unit 160 and is configured to provide a stable DC current DC'. Further, the voltage stabilizing unit 162 is configured to regulate the DC power output of the rectifying unit 160 to output a stable DC power DC′, and transmit the stable DC power DC′ to the power storage module 18 to the power storage module. 18 performs a charging operation. In the foregoing, the voltage stabilizing unit 162 may be composed of a plurality of capacitors in parallel for improving the waveform of the direct current DC output from the rectifying unit 160, and generating a stable direct current DC' to improve the charging efficiency. However, the voltage stabilizing unit 162 composed of a plurality of capacitors in parallel is not limited by the present invention. The voltage stabilizing unit 162 which can improve the waveform of the direct current DC output from the rectifying unit 160 to generate a stable direct current DC' can be used to implement the present invention. . Refer to Figure 1 for details. The storage mode 7/14 group 18 of the wireless rechargeable mobile communication device 1 can be a two-person battery module. Further, the two modules include a lead storage battery, a nickel cadmium battery, and a nickel hydrogen battery: one of the second pool and the lithium iron battery or the cylinder eight thereof. The other one is the 10% of the electric power. The communication device 1 is switched by the J-line charging action, and the U can be mechanically switched. You can change the m m for example, such as the DIP Switch. Push button (Pushbutton). Refer to Figure 2 for the cooperation. Fig. 2 is a fourth embodiment of the wireless brother-in-law of the present embodiment. The wireless charging system 3 includes the aforementioned wireless charging type mobile communication device 1 and an electromagnetic sense (4). The wireless rechargeable mobile communication device 1 can be housed in the capacitor 20 of the electromagnetic induction device 2 to subscribe to the charging operation or to be placed on the electromagnetic induction device 2. In the case of the step-by-step, when the wireless rechargeable mobile communication device is housed in the receiving slot 2G or placed on the electromagnetic sensing device 2, the antenna module 10 of the wireless rechargeable mobile communication device 1 and the power detecting device The active coil 22 of the second embodiment is correspondingly arranged, and the antenna module 1A is electromagnetically combined with the active coil 22. In the foregoing, the active coil 22 is electrically connected to the mains ΑΠ | receives power from the ECU AC1 and performs electromagnetic induction (electr (10) agnetic mduction) with the antenna module 1 。. At this time, the antenna module 1 产生 generates an alternating current AC ′ by electromagnetic induction to provide charging operation. Therefore, by the selection of the switching module 12, the green-free mobile communication device 1 can be wirelessly charged through the antenna module 10 in a non-contact manner. Referring to FIG. 1 and FIG. 2, referring to FIG. 3, FIG. 3 is a circuit block diagram of a wireless charging mobile device according to another embodiment of the present invention. The wireless rechargeable mobile communication device 1 in the wireless charging system 3 further includes an 8/14 monitoring module 1; [, Zheng 12,. The monitoring and control core group 11 is electrically connected to the switching mode rainbow r 11 for detecting the wireless charging type mobile communication device, and the second is wider than the receiving groove 20 of the electromagnetic induction device 2, and the root, ',... The switching operation of the switching module 12 is controlled. 'v to the situation ^ li control module 11 detected the benefit line to fill the mine: 1 丨 two will control the switching module 丨 2' age in the first - switching mode:
二=:==,°從遠端所接 … ^ 亚且將所要回覆的無線信號幻, 组Μ ’進而經由天線模組1〇將所要回覆的 …、、旅讯5虎S1發射到遠端。 壯/外’當1^_組11侧到無線充電式行動通訊 二批制容置槽2G的結果時,監控模組11 ^工仙換模組12,操作在第二切換模式。此時,天 與電磁感應裝置2的主動線圈22電磁感應以Two =:==, °From the far end... ^Aya will respond to the wireless signal illusion, group Μ 'and then via the antenna module 1 〇 will be the reply ...,, travel 5 Tiger S1 transmitted to the far end . Zhuang/Outside' When the 1^_Group 11 side is connected to the wireless charging mobile communication. When the results of the second batch of the slotting 2G are set, the monitoring module 11 replaces the module 12 and operates in the second switching mode. At this time, the antenna and the active coil 22 of the electromagnetic induction device 2 are electromagnetically induced to
由’而天線模組10所產生的交流電乩係經 榦換杈組16以對儲電模組18進行充電。 2 ’無線充電式行動通訊裝置i,根據監控模組 切換r 7結果’射以自祕達卿—娜模式與第二 输=式之間的切換。換句話說,根據監控模組u的 =7果’、無線充電式行動通訊裝置Γ即可以透過天 吴、、且10進订热線通訊功能或透過天線模組⑺而 電核組18進行充電。 心之監控额U為紅外線監控模組或監控開關 然而,紅外線監控模組或監控開關組不為本創 作的限制’舉凡可㈣來❹i麟充電式行動通訊裝置 9/14 M415524 Γ是否被收容於容置槽20,並且根據 換模組12,的監控模組都可實施本創作。、、工制刀 _切換=12’可以是電子式切換開關 ec romc switc ) > H ^ t m ^ M (Magnetic tWltCh)^#^g(Pr〇—^ ^tch) (f s恤swltd〇。城模組12, f控於監控模組 11而刼作於第一切換模式或第二切換 配合圖2,請參考圖4。圖4為本㈣另一實施例 之電磁感應裝置外觀示意圖。相較於圖2所示的電磁感 應裝置^,@ 4所揭示的電磁感應裝置4包括多個不同 ^寸的容置槽40'42,電磁感應裝置4藉由不同尺寸的 谷置槽4G、42來提供不同種類的無線充電式行動通訊 裝置|a、lb進行無線充電,以達到擴充的目的。 综上所述,本創作實施例所提供的無線充電式行動 通成裝置所使㈣天龍組可以细來純/發射益線 信號,以作為域㈣傳輸之用途。料,天線模乡:也 可以被用來與電磁錢裝置進行電磁感應以產生出交 流電’進而作為充電之用途。 以上所述僅為本創作之實施例’其並非用以侷限 創作之專利範圍。 【圖式簡單說明】 圖1為本創作實施例之無線充電式行動通訊裝置之 電路方塊示意圖; ~ 圖2為本創作實施例之無線充電系統之架構示意圖 圖3為本創作另一實施例之無線充電式行動通訊裝 10/14 M415524 置之電路方塊不意圖,及 圖4為本創作另一實施例之電磁感應裝置外觀示意 圖。 【主要元件符號說明】 1、Γ :無線充電式行動通訊裝置 10 :天線模組 12、12’ :切換模組 14 :無線通訊模組 16 :轉換模組 18 :儲電模組 S1、S Γ :無線信號 AC :交流電 DC、DC’ :直流電 160 :整流單元 162 :穩壓單元 3:無線充電系統 2 :電磁感應裝置 20 :容置槽 22 :主動線圈 AC1 :市電 11 :監控模組 Π/14The AC power generated by the antenna module 10 is subjected to the dry switching group 16 to charge the power storage module 18. The 2' wireless charging mobile communication device i switches the r 7 result according to the monitoring module to shoot between the secret mode and the second mode. In other words, according to the monitoring module u's =7 fruit', the wireless rechargeable mobile communication device can be charged through the Tianwu, and 10 hotline communication functions or through the antenna module (7) and the battery pack 18 is charged. . The monitoring amount of the heart U is the infrared monitoring module or the monitoring switch. However, the infrared monitoring module or the monitoring switch group is not limited by the creation of the 'fourth' to the 麟i Lin rechargeable mobile communication device 9/14 M415524 Γ is contained in The creation of the slot 20 and the monitoring module according to the change module 12 can implement the creation. , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , The module 12 is controlled by the monitoring module 11 and is used in the first switching mode or the second switching mode. Please refer to FIG. 4. FIG. 4 is a schematic diagram of the appearance of the electromagnetic induction device according to another embodiment of the present invention. The electromagnetic induction device 4 disclosed in FIG. 2 includes a plurality of different accommodating grooves 40'42. The electromagnetic induction device 4 is provided by different sizes of valley grooves 4G, 42. Provide different types of wireless rechargeable mobile communication devices |a, lb for wireless charging, in order to achieve the purpose of expansion. In summary, the wireless charging type mobile device provided by the present creative embodiment enables (4) Tianlong group can be fine The pure/transmitted line signal is used for the transmission of the domain (four). The material, the antenna model can also be used for electromagnetic induction with the electromagnetic money device to generate the alternating current' and thus for charging purposes. The embodiment of the present creation 'is not intended to limit the scope of patent creation BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic block diagram of a wireless charging type mobile communication device according to an embodiment of the present invention; FIG. 2 is a schematic structural diagram of a wireless charging system according to an embodiment of the present invention. FIG. The wireless charging mobile communication device 10/14 M415524 is not intended to be used, and FIG. 4 is a schematic diagram of the appearance of the electromagnetic induction device according to another embodiment of the present invention. [Main component symbol description] 1. Γ: Wireless charging mobile communication device 10: Antenna module 12, 12': Switching module 14: Wireless communication module 16: Conversion module 18: Power storage module S1, S Γ: Wireless signal AC: AC DC, DC': DC 160: Rectifier unit 162: Voltage stabilizing unit 3: Wireless charging system 2: Electromagnetic induction device 20: accommodating groove 22: Active coil AC1: Mains 11: Monitoring module Π/14