M414021 五、新型說明: 【新型所屬之技術領域】 本創作係有關一種電源供應裝置,特別是指一種操作容 易、方便攜帶,以便能夠隨時對電氣產品進行充電、供電的 攜帶式電源供應裝置。 【先前技術】 按,一般行動電話、數位相機、筆記型電腦等行動數位 裝置多係利用充電電池做為主要的電力供應來源,其之所以 選擇充電電池除了為能滿足隨身攜帶之便利性以外,更期望 能夠透過充電電池可重複充電使用之特性減少使用者更換電 池之成本,也因此類似的行動數位裝置多會配備有充電器, 以讓所屬裝置能夠透過充電器之使用,而經由一般市電之電 源插座(交流電源)進行充電。 其次,坊間亦出現有一種具儲電功能的充電器,類似之 充電器主要係設有一儲電單元,於平時透過電源線連接市 電,並對其内部的儲電單元充電,使得以在無法獲得市電供 應的情況下,仍然可以由其儲電單元預先儲存的電力供應所 連接之行動數位裝置使用,或對所連接之行動數位裝置進行 充電。 上揭具有儲電功能之充電器雖然具有自備電力之特性, 但由於其本體係同時包含有電源線、交/直流電源轉換電路、 穩壓電路,以及儲電單元,因此並不適合外出時攜帶使用; 縱使,可以透過將電源線改為插拔連接使用之設計,以稍為 M414021 改善充電器收納之便利性,但仍然無法解決整體充電器主體 不易攜帶之課題。 【新型内容】 、有鑑於此,本創作即在提供一種方便攜帶、操作容易, 以便能夠隨時對電氣產品進行充電、供電的攜帶式電源供應 裝置,為其主要目的者。 , 為,上揭目的,本創作之攜帶式電源供應裝置主要具有 一儲電杰;其中,儲電器係在一儲電器外殼内部整合有至少 一儲電單元、一感應線圈、一極性反轉單元,以及至少一傳 輸介面;主要由極性反轉單元感應儲電器所貼近之電磁波發 射器主動線圈極性,並令感應線圈電磁性地耦合至主動線 圈,使得以受主動線圈通電後之電磁波作用而形成感應電動 勢,並文感應電動勢之推動而產生回饋至儲電單元之直流 源。 。據以,本創作之主動線圈只需將儲電器放在一電磁波發 射器上’即可透過電磁波感應,將譜振電動勢能量轉換為回 !饋至儲電單元的電能,對儲電單元之電力進行補充。並且口 須要攜帶儲電器即可透過傳輸介面隨時對電氣產品進行/充 電、供電使用。 原則上,本創作中的儲電器只需要放置在一般市售具有 非接觸式充電功能之產品所附的電磁波發射器上,即可利用 在該電磁波發射器通電之後,對儲電器内部之儲電單元 達到電力補充。 # 當然,本創作之攜帶式電源供應裝置於實施時,亦可進 M414021 二二ΐ — Μ波發射11 ;所述電磁波發射器係具有一供 器之發射器外殼;該發射器外殼内部設有一主動線 圈2電源供應模組.,透過電源供應模組將外部電源傳送至 主-圈I主動線圈發出電磁波。讓使用者可以自備電磁 波發射器’方便對儲電器之電力進行補充。 上述電磁波發射器當中之電源供應模組係設有一相射伸 出發射器外殼之電源線,—波發射H透過電源線連接 市電使用。 上述電磁波發射器當中之電源供應模組係設有_供連接 電源線的電源連接ϋ ’使在電磁波發射器未使麟,可透過 簡單之插拔動作將電源線移除,方便電磁波發射器之攜行、 收納。 上述電磁波發射器當中少带、 τ之電源供應模組與電源線之間’ 係可進一步設置一開關迴路,说▲森& 、略’使在電源線連接外部電源的狀 態下,經由開關迴路之切換飭# 电 本創作中的儲電器係可 , ^ ^ 了進一步在其儲電器外殼處設有至 少一光電兀件’以利用該至φ & 變,顯示該儲電器係處於正在暗或光色之改 之運作狀態。 正在補充電力或是已完成電力補充 之至少一傳輸介面之連接器係可 ,使以對電氣產品所換下的充電 再者,所述儲電器當中 以為預定規格之電池連接器 電池進行充電。 所述儲電器當中之至少—你认人^ 定雷、插孔,Μ#/傳輸”面之連接器係可以為預 疋規格之電_孔Μ方便使用者自行搭 電氣產品進行充電或供電,简持電氣產品之線對 M414021 與習用技術相較,本創作之攜帶式電源供應裝置主要利 用儲電器與電磁波發射器之非接觸式電力補充設計,使得以 大幅縮減儲電器之構造及體積,使儲電器相對更方便收納、 1 攜帶;尤其,本創作利用儲電器内部極性反轉單元感應儲電 器所貼近之電磁波發射器主動線圈極性,並令感應線圈電磁 性地耦合至主動線圈,使儲電器得以利用市售具有非接觸式 充電功能之產品所附的電磁波發射器進行電力補充,故相對 較具適用性及使用便利性。 【實施方式】 本創作之特點,可參閱本案圖式及實施例之詳細說明而 獲得清楚地瞭解。 如第一圖本創作第一實施例之使用配置狀態參考圖、第M414021 V. New description: [New technical field] This creation is about a power supply device, especially a portable power supply device that is easy to operate and portable, so that it can charge and supply electrical products at any time. [Prior Art] According to the general mobile phone, digital camera, notebook computer and other mobile digital devices, the rechargeable battery is used as the main source of power supply. The reason why the rechargeable battery is selected is that it can meet the convenience of carrying it. It is more desirable to reduce the cost of replacing the battery through the rechargeable battery charging feature. Therefore, similar mobile digital devices will be equipped with a charger to allow the device to pass through the charger and pass through the general utility. The power outlet (AC power) is charged. Secondly, there is also a charger with a storage function. The charger is mainly equipped with a storage unit. It is connected to the mains through the power line and charges the internal storage unit. In the case of a commercial power supply, it is still possible to use the mobile digital device to which the power supply unit stored in advance is stored, or to charge the connected mobile digital device. Although the charger with the power storage function has the characteristics of self-supplied power, since the system includes the power line, the AC/DC power conversion circuit, the voltage stabilization circuit, and the power storage unit, it is not suitable for carrying on the go. Use; Even if you can change the power cord to plug-and-connect design, the M414021 can improve the convenience of charger storage, but it still can't solve the problem that the whole charger body is not easy to carry. [New content] In view of this, this creation is to provide a portable power supply device that is easy to carry and easy to operate, so that it can charge and supply electrical products at any time, and its main purpose. For the purpose of the present invention, the portable power supply device of the present invention mainly has a storage battery; wherein the storage device is integrated with at least one electric storage unit, an induction coil and a polarity reversal unit in a storage device casing. And at least one transmission interface; the polar reversing unit senses the polarity of the active wave coil of the electromagnetic wave transmitter that is close to the storage device, and electromagnetically couples the induction coil to the active coil, so that the electromagnetic wave is formed by the action of the active coil The induced electromotive force is generated by the induced electromotive force to generate a DC source that is fed back to the storage unit. . According to the above, the active coil of the present invention only needs to place the storage device on an electromagnetic wave transmitter, which can be converted into electromagnetic energy by the electromagnetic wave, and the electric energy of the storage unit is converted back to the electric energy of the electric storage unit. Add it. And the port needs to carry the storage device to charge/charge and supply the electrical products at any time through the transmission interface. In principle, the electrical storage device in this creation only needs to be placed on the electromagnetic wave transmitter attached to the commercially available product with non-contact charging function, and the electric storage inside the storage device can be utilized after the electromagnetic wave transmitter is energized. The unit reaches the power supplement. # Of course, the portable power supply device of the present invention can also be implemented into M414021 22-chopper emission 11; the electromagnetic wave transmitter has a transmitter housing; Active coil 2 power supply module. The external power supply is transmitted to the main-coil I active coil through the power supply module to emit electromagnetic waves. Allow users to bring their own electromagnetic transmitters to facilitate the replenishment of the electrical energy of the storage appliances. The power supply module of the above electromagnetic wave transmitter is provided with a power line that protrudes out of the outer casing of the transmitter, and the wave emission H is connected to the commercial power through the power line. The power supply module of the above electromagnetic wave transmitter is provided with a power connection 连接 for connecting the power line 使 'so that the electromagnetic wave transmitter does not make the lining, the power line can be removed by a simple plugging action, and the electromagnetic wave transmitter is convenient. Carry and store. In the above electromagnetic wave transmitter, between the power supply module of the τ and the power supply line of the τ, a switching circuit can be further provided, saying that ▲ 森 & slightly, so that the power line is connected to the external power source, via the switching circuit Switching 饬# The electric storage system in the creation of the electric book can, ^ ^ further have at least one photoelectric element in the outer casing of the electric storage device to utilize the φ & change, indicating that the electrical storage system is in the dark or The operational status of the change of light color. A connector that is replenishing power or at least one of the transmission interfaces that have completed the power replenishment enables recharging of the electrical product, in which the battery connector battery of the predetermined specification is charged. At least the connector of the storage device can be used for charging or powering the electrical products of the pre-existing specification. Compared with the conventional technology, the portable power supply device of the present invention mainly utilizes the non-contact power supplement design of the storage device and the electromagnetic wave transmitter, so that the structure and volume of the storage device are greatly reduced, so that the structure and volume of the storage device are greatly reduced. The storage device is relatively more convenient to store and carry; 1 In particular, the creation uses the internal polarity reversal unit of the storage device to sense the polarity of the active coil of the electromagnetic wave transmitter that is close to the storage device, and electromagnetically couples the induction coil to the active coil to make the storage device It is possible to use the electromagnetic wave transmitter attached to the commercially available product with non-contact charging function for power replenishment, so it is relatively more suitable and convenient to use. [Embodiment] The features of this creation can be referred to the drawings and examples of the present invention. The detailed description is clearly understood. As shown in the first figure, the first embodiment uses the configuration state reference map,
I ’二圖本創作第一實施例之組成架構方塊示意圖所示,本創作 之攜帶式電源供應裝置主要具有一透過電磁波感應,將諧振 電動勢能量轉換為電能之儲電器10,該儲電器10係包括有: 一儲電器外殼11、至少一儲電單元12、一感應線圈13、一極 性反轉單元14,以及至少一傳輸介面15 ;其中: 該至少一儲電單元12係設於該儲電器外殼11内部,各儲 電單元12係可以由至少一個可充放電電池所構成。 該感應線圈13係設於該儲電器外殼11内部,並與儲電單 元12電性連接,主要用以受電磁波作用形成感應電動勢,並 ί 受感應電動勢之推動而產生回饋至儲電單元12之直流電源。 該極性反轉單元14係設於該儲電器外殼11内部,並與該 感應線圈13電性連接,主要用以感應外部提供電磁波之主動 1V1H14021 線圈22極性,並令該感應線圈13電磁性地耦合至該主動線圈 至於,各傳輸介面15同樣係設於該儲電器外殼11内部, 並具有一相對外露於該儲電器外殼11外部’並與該儲電單元 12電性連接之連接器151。 據以,本創作於操作時,只需將儲電器10放在一電磁波 發射器20上’即可透過電磁波感應,將諧振電動勢能量轉換 •為回饋至儲電單元12的電能,而對儲電單元12之電力進行補 充。並且只須要攜帶儲電器10即可透過傳輸介面15隨時對電 氣產品進行充電、供電使用。 由於’所述儲電器1〇主要利用極性反轉單元丨4感應儲電 .器10所貼近之電磁波發射器20主動線圈22極性,並令感應線 圈電磁性地耦合至主動線圈22,使得以受主動線圈22通電 後之電磁波作用而形成感應電動勢’並受感應電動勢之推動 而產生回饋至儲電單元12之直流電源。 • 原則上,本創作申的儲電器只需要放置在一般市售具有 非接觸式充電功能之產品所附的電磁波發射器上,即可利用 在該電磁波發射器通電之後,對儲電器内部之儲電單元進行 達到電力補充。 當然,本創作之攜帶式電源供應裝置於實施時,亦可進 步包括有一如圖所示之專用的電磁波發射器20;該電磁波 發射器2〇係具有一供放置儲電器10之發射器外殼21 ;至於, 该發射器外殼21内部則設有一主動線圈2 2及一電源供應模組 23 ’透過電源供應模組將外部電源傳送至主動線圈22,使主 動線圈22發出電磁波。讓使用者可以自備專屬的電磁波發射 7 M414021 器20使用,方便對儲電器10之電力進行補充。 上述電磁波發射器20當中之電源供應模組23係設有一相 對伸出發射器外殼21之電源線231 ’以供電磁波發射器20透過 電源線231連接市電使用。以及,該電源供應模組23係設有一 供連接電源線231的電源連接器232,使在電磁波發射器2〇未 使用時,可透過簡單之插拔動作將電源線移除,方便電磁波 發射器之攜行、收納。 ㈣ί至於’上述電磁波發射器2Q當中之電源供應模組23與 23;連技巧之間,係可進一步設置一開關迴路24,使在電源線 作,^部電源的狀態下,可經由簡單切換開關迴路24之動 心主動線圈22通電與否,以避免造成電力過度浪費。 η處4至的儲電器10係可進-步在其儲電器外殼 光二極體元‘:兀件16 ’該至少-光電元件16係以為發 之改變,顯示該儲電光電州6之明/暗或光色 力補充之在補充電力或是已完成電 儲電器^當中j二第__一圖=斤不’本創作在具體實施時,該 預定規格之"電 /介面15之連接器151係可以為 31進行充電 對電氣產品㈣下的充電電池 凊同時配合參照第四圖所示, 儲電器10當中之至少一傳輸介面j作在具體實施時’該 預定規格之電源插?丨,、;α 5之連接器151係可以為 40對電氣產品"3〇進行丄電^吏^者自行搭配合適的傳輸線 作功能。 充電次供電’以維持電氣產品30之運 Μ14021 接錢發㈣2Q並設有㈣5以供該電源連 體°心道 第五圖及第六圖所示,該插S50係以泡棉 1及導笔層52所構成,並設有複數個插置孔53, 布或鋼落布所製成,導電效果佳,由於泡棉^& 骑有一疋厚度’且彈性效果佳,該導電層52完全包覆於 -51内側面,以便能使電源連接器2犯插置結合於插庙 ^時’可緊密結合,並使泡棉體51 _外覆之導電層Μ鱼 51 搔。。232之間的接觸密合度,供使泡棉體51外覆之 51能與電源連接器232❹卜種全面性密實對接 二 蔽、防止EMI干擾之效果。 ,遮 而上述之泡棉體51外層包覆之導電層52係由内而外八 別為熱溶膠52卜棉布522、聚酯薄膜523及鋁箱(銅箱) 所構成,藉由裡層之熱溶膠521能便於導電層52的黏附固定 結合=泡棉體51上,而棉布522與聚酯薄膜523能提昇鋁箔 (銅箔)524之結構強度,防止鋁箔(銅箔)524破損,且亦 使具導電效果佳之鋁箔(銅箔)524結附於泡棉體51之效果 藉由上述結構設計,本創作之攜帶式電源供應裝置主要 利用儲電器與電磁波發射器之非接觸式電力補充’而得以大 =縮減儲電器之構造及體積,使儲電器相對更方便收納、攜 帶;尤其,本創作利用儲電器内部極性反轉單元感應儲電器 所貼近之電磁波發射器主動線圈極性,並令感應線圈電磁性 地耦合至主動線圈,使儲電器得以利用市售具有非接觸式充 電功能之產品所附的電磁波發射器進行電力補充’故相對較 09 具適用性及使用便利性。 綜上所述,本創作提供一較佳可行之攜帶式電源供應裝 置’友依法提呈新型專狀中請;本創作之技術内容及技術 特點已揭示如上’然而熟悉本項技術之人士仍可能基於本創 作之揭示而作各種不背離本案創作精神之替換及修飾。因 此,本創作之保護範圍應不限於實施例所揭示者,而應包括 各種不背離本創作之替換及修飾,並為以下之巾請專利範圍 所涵蓋。 【圖式簡單說明】 第一圖係為本創作第一實施例之使用配置狀態參考圖。 第二圖係為本創作第一實施例之組成架構方塊示意圖。 第二圖係為本創作之携帶式電源供應裝置第一種使用狀 態參考圖。 第四圖係為本創作之攜帶式電源供應裝置第二種使用狀 態參考圖。 第五圖係為本創作之電磁波發射器第二種使用狀態參考事 圖。 第六圖係為本創作之插座結構示意圖。 【主要元件符號說明】 10儲電器 11儲電器外殼 12儲電單元 13感應線圈 M414021 14極性反轉單元 15傳輸介面 151連接器 16光電元件 20電磁波發射器 21發射器外殼 22主動線圈 23電源供應模組 231電源線 232電源連接器 24開關迴路 3 0電氣產品 31充電電池 40傳輸線 50插座 51泡棉體 52導電層 521熱溶膠 522棉布 523聚酷薄膜 524鋁箔(銅箔)As shown in the block diagram of the first embodiment of the present invention, the portable power supply device of the present invention mainly has a storage device 10 that converts resonant electromotive force energy into electric energy through electromagnetic wave induction, and the storage device 10 is The device includes: a storage device housing 11, at least one power storage unit 12, an induction coil 13, a polarity reversal unit 14, and at least one transmission interface 15; wherein: the at least one power storage unit 12 is disposed in the storage device Inside the casing 11, each of the electricity storage units 12 may be constituted by at least one chargeable and dischargeable battery. The induction coil 13 is disposed inside the storage case 11 and electrically connected to the storage unit 12, and is mainly used to form an induced electromotive force by electromagnetic waves, and is driven by the induced electromotive force to generate feedback to the storage unit 12. DC power supply. The polarity reversing unit 14 is disposed inside the storage case 11 and electrically connected to the induction coil 13 for sensing the polarity of the active 1V1H14021 coil 22 for externally providing electromagnetic waves, and electromagnetically coupling the induction coil 13 To the active coil, each of the transmission interfaces 15 is also disposed inside the electrical storage enclosure 11 and has a connector 151 that is exposed to the outside of the electrical storage enclosure 11 and electrically connected to the electrical storage unit 12 . According to the above, in the operation, the storage device 10 is only placed on an electromagnetic wave transmitter 20, which can be converted by electromagnetic waves, and the resonant electromotive force energy is converted into electric energy that is fed back to the electric storage unit 12, and the electric storage is performed. The power of unit 12 is supplemented. And only need to carry the storage device 10, the electric product can be charged and used at any time through the transmission interface 15. Since the storage device 1 〇 mainly uses the polarity reversal unit 丨 4 to sense the polarity of the active wave coil 22 of the electromagnetic wave transmitter 20 that is close to the storage device 10, and electromagnetically couples the induction coil to the active coil 22, The electromagnetic wave after the active coil 22 is energized acts to form an induced electromotive force ' and is driven by the induced electromotive force to generate a DC power source that is fed back to the power storage unit 12. • In principle, the storage device of this creation only needs to be placed on the electromagnetic wave transmitter attached to the commercially available product with non-contact charging function, and the storage of the internal storage device can be utilized after the electromagnetic wave transmitter is energized. The electric unit performs power replenishment. Of course, the portable power supply device of the present invention can also be implemented to include a dedicated electromagnetic wave transmitter 20 as shown in the drawing; the electromagnetic wave transmitter 2 has a transmitter housing 21 for housing the storage device 10. As for the inside of the transmitter housing 21, an active coil 22 and a power supply module 23' are provided to transmit the external power to the active coil 22 through the power supply module, so that the active coil 22 emits electromagnetic waves. Allow users to bring their own electromagnetic wave emission. 7 M414021 20 is used to supplement the power of the storage device 10. The power supply module 23 of the electromagnetic wave transmitter 20 is provided with a power supply line 231' opposite to the transmitter housing 21 for the electromagnetic wave transmitter 20 to be connected to the commercial power source via the power line 231. And the power supply module 23 is provided with a power connector 232 for connecting the power line 231, so that when the electromagnetic wave transmitter 2 is not in use, the power line can be removed by a simple plugging and unplugging operation, thereby facilitating the electromagnetic wave transmitter. Carrying and storing. (4) 至 As for the power supply modules 23 and 23 of the above electromagnetic wave transmitter 2Q; between the techniques, a switch circuit 24 may be further provided to enable a simple switchover in the state of the power supply line and the power supply of the unit The eccentric active coil 22 of the circuit 24 is energized or not to avoid excessive waste of power. The storage device 10 at η4 can be further advanced in its storage case outer photodiode ': 兀 16 ' at least - the photoelectric element 16 is changed, indicating that the storage battery is 6 Dark or light color complements the supplemental power or has completed the electrical storage device ^ in the second two __ a picture = jin not 'this creation in the specific implementation, the predetermined specification of the "electric / interface 15 connector The 151 series can charge 31 for the rechargeable battery under the electrical product (4). At the same time, as shown in the fourth figure, at least one of the transmission interfaces 10 of the storage device 10 is used for the power supply of the predetermined specification.丨, ,; α 5 connector 151 can be used for 40 pairs of electrical products "3〇 吏 ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ Charging sub-power supply 'To maintain the electrical product 30's operation 14021 to receive money (4) 2Q and set (4) 5 for the power supply conjoining the heart of the fifth and sixth figures, the plug S50 is made of foam 1 and guide pen The layer 52 is formed, and is provided with a plurality of insertion holes 53, which are made of cloth or steel falling cloth, and has good electrical conductivity. Since the foam has a thickness and has a good elastic effect, the conductive layer 52 is completely covered. Covering the inner side of the -51, so that the power connector 2 can be inserted into the temple to be tightly coupled, and the foam body 51 _ overlying conductive layer squid 51 搔. . The contact tightness between the 232, so that the outer cover 51 of the foam body 51 can be fully integrated with the power connector 232 to prevent EMI interference. The conductive layer 52 covering the outer layer of the foam body 51 is composed of a hot melt 52, a cotton cloth 522, a polyester film 523 and an aluminum box (copper box), and the inner layer is formed by the inner layer. The hot sol 521 can facilitate the adhesion and fixation of the conductive layer 52 to the foam body 51, and the cotton cloth 522 and the polyester film 523 can improve the structural strength of the aluminum foil (copper foil) 524 and prevent the aluminum foil (copper foil) 524 from being damaged. The effect of attaching the aluminum foil (copper foil) 524 with good electrical conductivity to the foam body 51 is designed by the above structure, and the portable power supply device of the present invention mainly utilizes the non-contact power supply of the storage device and the electromagnetic wave transmitter. It is possible to reduce the structure and volume of the storage device, so that the storage device is relatively more convenient to store and carry; in particular, the creation uses the internal polarity reversal unit of the storage device to sense the polarity of the active coil of the electromagnetic wave transmitter that is close to the storage device, and makes the induction coil Electromagnetically coupled to the active coil, allowing the storage device to be replenished with an electromagnetic wave transmitter attached to a commercially available product with a non-contact charging function. Ease of use. In summary, this creation provides a better and feasible portable power supply device's friend to submit a new type of special request; the technical content and technical features of this creation have been revealed as above. However, people familiar with the technology may still Based on the disclosure of this creation, various substitutions and modifications are made without departing from the spirit of the creation of the case. Therefore, the scope of protection of this creation should not be limited to those disclosed in the examples, but should include various substitutions and modifications that do not depart from the creation, and are covered by the scope of the following patents. BRIEF DESCRIPTION OF THE DRAWINGS The first figure is a reference configuration diagram of the use configuration of the first embodiment of the present invention. The second figure is a block diagram of the composition of the first embodiment of the present invention. The second figure is the first usage status reference diagram of the portable power supply device of the present invention. The fourth figure is a second use state reference diagram of the portable power supply device of the present invention. The fifth figure is the second use state reference diagram of the electromagnetic wave transmitter of the present invention. The sixth picture is a schematic diagram of the socket structure of the present creation. [Main component symbol description] 10 storage device 11 storage device housing 12 storage unit 13 induction coil M414021 14 polarity reversal unit 15 transmission interface 151 connector 16 photoelectric element 20 electromagnetic wave transmitter 21 transmitter housing 22 active coil 23 power supply mode Group 231 power cord 232 power connector 24 switch loop 3 0 electrical products 31 rechargeable battery 40 transmission line 50 socket 51 foam body 52 conductive layer 521 hot melt 522 cotton cloth 523 poly film 524 aluminum foil (copper foil)