1301690 先、發明說明: 【發明所屬之技術領域】 特別是一種感應式電源供 本發明係關於一種電源供應裝置 應裝置及其應用設備。 【先前技術】 隨著科技的進步,電子用品 =發展⑽梅峨 =更:隨時隨地的使用各項電子產品,並且更:普及於每 =豕庭中。然m切子產品往往是勤小容量之電源供岸 2,如·電池等儲電裝置,以隨時隨地提供所需之電力。當 ,讀I裝置的電力耗盡時,制者就 置更換電池或充電。目前,_置_ 發展=二 電池匕小’其所能供應之電力也有限,以致使用者將 =池=,並且需隨時儲備_電池才能及時為電子裝置不充 =十刀不便。而若使用儲電裝置,於電子裝置 ^用^由將充電裝置的輸電埠欽輕埠而進行充電。於此, 欲時時保持電力時,賴置的輸電埠將頻繁地差拔於 衣的充電埠,如此一來反而增加使用者於使用上的 【發明内容】 、雜座馨独上的醜’本㈣駐要目的在贿供—種感應式電 源i、應衣置及其劾設備,藉以解決先前技術所存在之問題。 1301690 , 因此,為達上述目的,本發明所揭露之感應式電源供應裝 置,用以提供一感應裝置所需之一電流訊號,包括有一供能基座、 一磁吸元件以及一感應線圈。 、 此供能基座具有:一電力單元,以提供一直流訊號;一振盪 、 早元,以將直流訊號轉為一衝訊號;一磁簧開關,連接於電力 單元和振盪單元之間,以控制直流訊號的流通;一驅動單元,用 以將脈衝訊號驅動放大;以及一主動線圈,以根據驅動單元的驅 • 動而得到來自驅動單元之脈衝訊號,並將得到之脈衝訊號轉換為 一電磁能量。 此磁吸元件則係利用磁性吸引而導通磁簧開關;因此使設置 於感應裝置内之感應線圈,可感應主動線圈產生之電磁能量,而 產生感應裝置所需之電流訊號。 其中,磁黃開關包括有不會被磁化之一可磁吸之開關單元。 並且,此可磁吸之開關單元可由铑或釕等材質所製成。而主動線 •圈和感應線圈主要係以銅等材質所製成。 另外,此磁吸元件亦可設置於感應裝置内或外。 再者,因此,為達上述目的,本發明更揭露一種感應式電源 供應衮置之應用設備,包括有:一供能基座、一磁吸元件以及一 感應裝置。 於此,供能基座包括有:一電力單元,以提供一直流訊號; 一振盪單70,以將直流訊號轉為一脈衝訊號;一磁簧開關,連接 於電力單元和振盪單元之間,以控制直流訊號的流通;一驅動單 61301690 First, invention description: [Technical field to which the invention pertains] In particular, an inductive power supply is provided. The present invention relates to a power supply device and an application device thereof. [Prior Art] With the advancement of technology, electronic products = development (10) Mei Long = more: use electronic products anytime, anywhere, and more: popular in every court. However, the m-cut product is often a small-capacity power supply port 2, such as a battery and other storage devices to provide the required power anytime, anywhere. When the power of the reading I device is exhausted, the manufacturer replaces the battery or charges. At present, _ set _ development = two batteries 匕 small 'the power that can be supplied is also limited, so that the user will = pool =, and need to reserve _ battery in time to not charge for the electronic device in time = 10 inconvenience. When the power storage device is used, the electronic device is charged by charging the power of the charging device. Here, when you want to maintain power from time to time, the power transmission 赖 will be frequently pulled out of the charging 衣 of the clothes, thus increasing the user’s use of the invention, and the ugly of the singularity. The purpose of this (4) is to provide a bribe supply—inductive power supply i, clothing and equipment, to solve the problems of the prior art. 1301690. Therefore, in order to achieve the above object, the inductive power supply device of the present invention provides a current signal required by an inductive device, including a power supply base, a magnetic element, and an induction coil. The power supply base has: a power unit to provide a direct current signal; an oscillation, early element to convert the direct current signal into a pulse signal; and a reed switch connected between the power unit and the oscillation unit to Controlling the flow of the DC signal; a driving unit for driving the pulse signal to be amplified; and an active coil for obtaining the pulse signal from the driving unit according to the driving of the driving unit, and converting the obtained pulse signal into an electromagnetic energy. The magnetic element utilizes magnetic attraction to turn on the reed switch; thus, the induction coil disposed in the sensing device senses the electromagnetic energy generated by the active coil to generate a current signal required by the sensing device. Among them, the magnetic yellow switch includes a switching unit that can be magnetically attracted by one of the magnetizations. Moreover, the magnetically movable switch unit can be made of a material such as 铑 or 钌. The active wire and the induction coil are mainly made of copper or the like. In addition, the magnetic element can also be disposed inside or outside the sensing device. Furthermore, in order to achieve the above object, the present invention further discloses an application device for an inductive power supply device, comprising: a power supply base, a magnetic attraction element and an inductive device. The power supply base includes: a power unit for providing a DC signal; an oscillation unit 70 for converting the DC signal into a pulse signal; and a reed switch connected between the power unit and the oscillation unit. To control the circulation of DC signals; a drive single 6
明如下 1301690 光’用以將脈衝訊號驅動放大;以及一主動、線圈,以根據驅動單 7G的驅動而得到來自驅動單元之脈衝訊號,並將得到之脈衝訊號 轉換為一電磁能量。 而此磁吸元件則係利用磁性吸引而導通磁簧開關。此外,此 磁吸元件可設置於感應裝置内或外。 此感應裝置包括有··—感絲圈,喊應電魏量而產生一 電流訊號;一整流單元,用以將電流訊號整流;以及一輸出單元, 以藉由整流後之電流訊號產生一輸出訊號。 其中,磁簧開關包括有不會被磁化之一可磁吸之開關單元。 並且,此可磁吸之糊單元可域或料材質所製成。而主動線 圈和感應線圈主要係以銅等材質所製成。 此外,此電力單元可為—電池,或者係包括有—儲能電路和 一充電埠,此儲能電路可透過充電埠取得一外部電能。 再者,輸出單兀可包括一個以上之發光二極體或一發聲單 元乂根據正k後之電流訊號的驅動而發光或發聲。然而,此輪 出單元亦可為諸如風扇等致動裝置。 日綜合上述,根據本發明,使用者可透過非接觸的方式輕鬆地 提ί、感應衣置所需之電力,並透過磁吸元件搭配磁簧開關的設 汁,而輕易地控制感應裝置的啟動與否,進而節省電源消耗。 有關本發明的齡績貫作,茲配合圖示作最佳實施例詳細說 【實施方式】 7 1301690 以下舉出具體實麵以詳細酬本發明之内容,並以圖示作 為輔助說明。說明中提及之符號係參照圖式符號。 請參照第1圖,係為根據本發明一實施例之感應式電源供應 裝置之應用設借,包括有—供能基座議、一磁吸元件以及 一感應裝置300。 供能基座⑽内部設置有—電力單元11〇、-磁簧開關120、 一振盪單元130、一驅動單元140以及一主動線圈15〇。 此電力單元110主要係為一電池、一儲能電路或一儲能元 件’以提供-默直流峨。若為舰電路賴能元件時,此此 電力單元更具有-充電埠’以透過與充電裝輸電埠相連接, 而致使儲能電路或儲能元件可取得電能並儲存之(圖中未顯示)。 此充電裝置可為一電腦通用序列匯排流(USB)裝置或一交流/直 流轉接器(A/Dadaptor)。 振盪單元130可將直流訊號轉為脈衝訊號,而後輪出。 於此’電力單元110與振盪單元U0係透過磁菁開關相 連,其中磁吸元件200可用以控制磁簧開關12〇導通與否,也就 是說,當磁吸元件200置於磁簧開關120上時,磁簧開關12〇受 磁吸元件200的磁性吸引而導通,此時電力單元11〇會提供一額 定之直流訊號給振盪單元130,再經由振盪單元m的轉換後, 產生-脈賊號;反之,當磁吸元件自磁簧開關12()上移開 時’磁簧開關120則不導通,因而電力單元11〇巾之直流訊號則 不再提供給振盪單元130 〇 1301690 驅鮮元14G雜賴至振料元130,補號驅動 放大。此軸單元14G主要係為—半導體元件,例如··電晶體, 可根據振盪單元130產生之脈衝旬觫而道、s 心撒衡Λ唬而導通,進而驅動主動線 ,150。 ‘ 於此’主動線圈150與振盪單元削相連,可藉由驅動單元 140的驅動而獲得一脈衝訊號,並將其轉換為電磁能量。 再者’於感應裝置300内部具有一感應線圈31〇。當此感應 •線圈310與主動線圈150相互靠近時,根據法拉第定律(Famday,s law),於感應線圈310四周會因主動線圈15〇所發出的電磁能量 而形成-感應電動勢,經由感應電動勢的推動而使得感應線圈31〇 產生-感應電流峨。於是,此感應電流訊號即可作為此感應裝 置300的驅動電流。 換句話說,此感應裝置300可另包括一整流單元32〇和一輸 出單το 330,如第2圖所示。因此,感應線圈31〇感應主動線圈 φ I50所發出的電磁能量而產生之感應電流訊號,經由整流單元320 整流後,會致使輸出單元330產生輸出訊號。於此,整流單元可 為一二極體。 舉例來說’當輸出單元包括有一個或多個發光二極體時,此 . 些一極體元件會受到整流單元整流後之感應電流訊號的驅動而發 • 光’而’當輸出單元包括有一壓電元件及一音樂積體電路(1C) 時’壓電元件會接收整流單元整流後之感應電流訊號,以產生一 壓電訊號,進而驅動音樂積體電路(IC)因而發出聲音。除此之 9 1301690 .外,此輸出單元亦可為發聲單元或係諸如風扇等致動裝置。 於此’主動線圈和感應線圈之材質主要係為銅,也就是★兒, 主動、_和感應線圈可藉__繞喊;此外,亦可利用_ ,技娜_電路板(PCB)之鱗設計細餘體,以作為主動 -線圈或感應顧。再者,主動_和感應線_纏繞方式,可為 鐵芯捲繞、無鐵芯積層堆疊捲繞或無鐵芯扁平捲繞等方式。並且, 於用以纏繞成主動線圈和/或感應線圈之銅線表面可塗佈一層樹 ❿月旨,而藉由加熱此層樹脂使其相互黏著,以形成一絕緣層並二用 ' 以固定捲繞之線圈。 ⑻此磁簧開關包括有一可磁吸之關單元,且此可磁吸之開關 皁几不會被磁化。換句話說,磁簧開關中具有以可磁吸材質製成 之開關單元。此可磁吸材質較佳係為铑(Rhodium)或釕 (Ruthenium)。而磁吸元件可為一磁鐵。 另外,磁吸元件200亦可設置於感應裝置3〇〇内部,因此當 φ 感應衣置細中之感應線圈310和磁吸元件200分別對應供能基 座100内之主動線圈15〇和磁簧開關120時,即可提供電力給此 感應裝置300以驅動其中之輸出單元330產生輸出訊號,如第3 圖所示。 * 紅合上述,根據本發明,使用者可透過非接觸的方式輕鬆地 • 提供感應裝置所需之電力,並且透過磁吸元件搭配磁簧開關的設 计而輕易地控制感應裝置的啟動與否,進而節省電源消耗。 雖然本發明以前述之較佳實施例揭露如上,然其並非用以限 1301690 '之精神和範圍 走本發明,任何熟習相像技藝者,在不脫離本發明. :,當可作些許之更動與潤飾’因此本發明之專利;二項視 本說明書所附之申請專利範圍所界定者為準。 /、 【圖式簡單說明】 a第1圖係為根據本發明一實施例之感應式電源供應裝置之應 用設備之概要結構圖; 第2圖係為根據本發明另一實施例之感應式電源供應裝置之 應用設備之概要結構圖;以及 第3圖係為根據本發明再一實施例之感應式電源供應裝置之 應用設備之概要結構圖。 【主要元件符號說明】 100.... 110.... 120.... 130…·. 140.... 150.... 200.... 300.... 310.... 320.... 330........ 11The following 1301690 light is used to drive the pulse signal to be amplified; and an active coil is used to obtain the pulse signal from the driving unit according to the driving of the driving single 7G, and convert the obtained pulse signal into an electromagnetic energy. The magnetic element is magnetically attracted to turn on the reed switch. Furthermore, the magnetic element can be placed inside or outside the sensing device. The sensing device comprises a sensing coil, which generates a current signal, a rectifying unit for rectifying the current signal, and an output unit for generating an output by the rectified current signal. Signal. Wherein, the reed switch comprises a switching unit that is magnetically non-magnetizable. Moreover, the magnetically permeable paste unit can be made of a domain or material. The active coil and the induction coil are mainly made of copper or the like. In addition, the power unit can be a battery, or include a storage circuit and a charging port, and the energy storage circuit can obtain an external power through the charging device. Furthermore, the output unit can include more than one light emitting diode or a sounding unit, and emit or emit sound according to the driving of the current signal after the positive k. However, the turn-off unit can also be an actuating device such as a fan. In view of the above, according to the present invention, the user can easily raise and control the power required for the clothing through a non-contact manner, and easily control the activation of the sensing device through the magnetic component and the reed switch. Whether or not, thereby saving power consumption. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT OF THE INVENTION The present invention will be described in detail with reference to the accompanying drawings. FIG. The symbols mentioned in the description refer to the schema symbols. Referring to Fig. 1, there is shown an application of an inductive power supply device according to an embodiment of the present invention, comprising a power supply base, a magnetic element and a sensing device 300. The power supply base (10) is internally provided with a power unit 11A, a reed switch 120, an oscillating unit 130, a driving unit 140, and an active coil 15A. The power unit 110 is mainly a battery, a tank circuit or an energy storage unit ’ to provide a silent current. In the case of a marine circuit, the power unit has a charging port to be connected to the charging device, so that the energy storage circuit or the energy storage device can obtain power and store it (not shown). . The charging device can be a computer universal serial bus (USB) device or an AC/DC adapter (A/Dadaptor). The oscillating unit 130 can convert the DC signal into a pulse signal and then rotate it out. Here, the 'power unit 110 and the oscillating unit U0 are connected through a magnetic cyanine switch, wherein the magnetic element 200 can be used to control whether the reed switch 12 is turned on or off, that is, when the magnetic element 200 is placed on the reed switch 120. When the reed switch 12 is magnetically attracted by the magnetic element 200, the power unit 11 提供 provides a rated DC signal to the oscillating unit 130, and after the conversion of the oscillating unit m, the thief is generated. Conversely, when the magnetic element is removed from the reed switch 12(), the reed switch 120 is not turned on, so the DC signal of the power unit 11 wipe is no longer supplied to the oscillating unit 130 〇1301690 Miscellaneous to the vibration element 130, the complement drive amplification. The shaft unit 14G is mainly a semiconductor element, for example, a transistor, which can be turned on according to the pulse generated by the oscillating unit 130, and is driven to drive the driving line 150. The active coil 150 is connected to the oscillating unit, and a pulse signal is obtained by driving the driving unit 140 and converted into electromagnetic energy. Furthermore, there is an induction coil 31〇 inside the sensing device 300. When the induction coil 310 and the active coil 150 are close to each other, according to Faraday's law, the electromagnetic energy generated by the active coil 15 turns around the induction coil 310 to induce an electromotive force, which is induced by the electromotive force. Pushing causes the induction coil 31 to generate an induced current 峨. Thus, the induced current signal can be used as the driving current of the sensing device 300. In other words, the sensing device 300 can further include a rectifying unit 32A and an output unit το330, as shown in Fig. 2. Therefore, the induction current signal generated by the induction coil 31 〇 sensing the electromagnetic energy generated by the active coil φ I50 is rectified by the rectifying unit 320, so that the output unit 330 generates an output signal. Here, the rectifying unit can be a diode. For example, when the output unit includes one or more light-emitting diodes, the one-pole element is driven by the induced current signal rectified by the rectifier unit to emit light. In the piezoelectric element and a music integrated circuit (1C), the piezoelectric element receives the induced current signal after rectification by the rectifying unit to generate a piezoelectric signal, thereby driving the music integrated circuit (IC) to emit sound. In addition to this, the output unit can also be a sounding unit or an actuating device such as a fan. Here, the material of the active coil and the induction coil is mainly copper, that is, the children, the active, the _ and the induction coil can be shouted by __; in addition, the _, the technical _ circuit board (PCB) scale can also be used Design the fine body as an active-coil or induction. Furthermore, the active _ and the induction line _ winding method may be a method of winding a core, stacking without a core stack, or winding a core without a core. Moreover, a surface of the copper wire for winding into the active coil and/or the induction coil may be coated with a layer of resin, and the resin is heated to adhere to each other to form an insulating layer and used to fix Winding coil. (8) The reed switch includes a magnetically slidable unit, and the magnetically permeable switch soap is not magnetized. In other words, the reed switch has a switching unit made of a magnetically permeable material. The magnetically permeable material is preferably Rhodium or Ruthenium. The magnetic element can be a magnet. In addition, the magnetic element 200 can also be disposed inside the sensing device 3, so that the induction coil 310 and the magnetic element 200 corresponding to the φ inductive clothing are respectively corresponding to the active coil 15 and the magnetic spring in the energy supply base 100. When the switch 120 is turned on, power can be supplied to the sensing device 300 to drive the output unit 330 to generate an output signal, as shown in FIG. * In combination with the above, according to the present invention, the user can easily provide the power required for the sensing device in a non-contact manner, and easily control the activation of the sensing device through the design of the magnetic element and the reed switch. To save power consumption. While the present invention has been described above in terms of the preferred embodiments thereof, it is not intended to be limited to the spirit and scope of the present invention. Any skilled in the art will not depart from the invention. </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic structural view of an application device of an inductive power supply device according to an embodiment of the present invention; FIG. 2 is an inductive power supply according to another embodiment of the present invention. A schematic structural view of an application device of a supply device; and a third diagram is a schematic configuration diagram of an application device of the inductive power supply device according to still another embodiment of the present invention. [Description of main component symbols] 100.... 110.... 120.... 130...·. 140.... 150.... 200.... 300.... 310.... 320.... 330........ 11