M395840 六、新型說明: 【新型所屬之技術領域】 本新型是有關於一種具充電功能之眼鏡,且特別是有 關於一種具非接觸式充電功能之眼鏡及其充電系統。 【先前技術】 快門式3D眼鏡,以高速切換眼鏡的左右鏡片達到人M395840 VI. New description: [New technical field] The present invention relates to a lens with a charging function, and in particular to a lens with a non-contact charging function and a charging system thereof. [Prior Art] Shutter-type 3D glasses, which switch to the left and right lenses of glasses at high speed to reach people
的左右眼可以因高速切換快門鏡片而看到左右眼的影像, 進而達成左右眼的影像不同而使影像而使視覺有3d立體 的感覺。由於切換快門鏡片需要電力,快門鏡片需要電力 因此必需在眼鏡内部放置一個電力供應系統,在眼鏡内部 放置一個電力供應系統如充電或非充電式電池等,提供眼 鏡之電力需求。 其中,通常會在需電源驅動的眼鏡之内部裝設一個小 2電電池,提供電源。此外,會使用金屬式連接器作為The left and right eyes can see the images of the left and right eyes by switching the shutter lens at a high speed, and the images of the left and right eyes are different, so that the image has a 3D stereoscopic view. Since switching shutter lenses requires power, the shutter lens requires power. Therefore, it is necessary to place a power supply system inside the glasses, and a power supply system such as a rechargeable or non-rechargeable battery inside the glasses to provide power for the eyeglasses. Among them, a small 2 battery is usually installed inside the glasses that need to be powered, and the power is supplied. In addition, metal connectors will be used as
=使m ’在頻繁使用金層式連接器充電下, 點=連接器防鏽處理磨損,因而易造成金屬氧化或連接 點鏽蝕,進而使得充電功能不良。 恢 利用非接觸式充電方式,透過一次 圈的磁通量鯉人u办 人側線圈與二次側線 造A耦合,達成電力傳輸,以改善因實體連接Hπ k成的接觸問題。其中,在—般非接心=體連接益而 係利用雷“ * &㈣觸式充電的架構上, 電感線圈纏铖趨、. 扑欢羊。然而,若採用 品之體積。^〜之5又计,產品需設計特殊結構並增加產 較不適合需隨身禮重量較重,將增加產品之重量, 身攜帶之產品。由於上述限制,使得許魏 4 M395840 要充電之產品,例如眼鏡,無法使用非接觸式充電。因此, 如何使眼鏡藉由非接觸之方式充電,便成為一個重要的課 題。 【新型内容】 因此,本新型之一態樣是在提供一種具非接觸式充電 功能之眼鏡。至少一個二次側電感線圈配置於眼鏡之鏡框 中,以感應由一次側線圈所傳送出之交流時變磁力,作為 充電之用。具非接觸式充電功能之眼鏡包含兩鏡框、至少 一二次側電感線圈、一充電電池以及一充電模組。兩鏡框 相連接。兩鏡腳分別連接於兩鏡框。充電模組電性連接至 少一二次側電感線圈以及充電電池。至少一二次側電感線 圈配置於兩鏡框的至少其中之一,且沿著所配置之鏡框纏 繞。在至少一二次側電感線圈感應到一交流時變磁力時, 產生一感應電流。充電模組藉由感應電流,對充電電池充 電。 本新型之另一態樣是在提供一種充電系統。在充電系 統中,至少一二次側電感線圈配置於鏡框中,以因應交流 時變磁力產生電流,作為充電之用。充電系統包含一充電 座以及一具非接觸式充電功能之眼鏡。充電座提供一交流 時變磁力。具非接觸式充電功能之眼鏡包含兩鏡框、兩鏡 腳、至少一二次側電感線圈、一充電電池以及一充電模組。 兩鏡框相連接。兩鏡腳分別連接於兩鏡框。充電模組電性 連接至少一二次側電感線圈以及充電電池。至少一二次側 電感線圈配置於兩鏡框的至少其中之一,且沿著所配置之 5 M395840 鏡框纏繞。在至少一一次側電感線圈感應到充電座所提供 之交流時變磁力時,產生-感應電流。充電模組藉由感應 電流,對充電電池充電。 應用本新型具有下列優點。不需於具非接觸式充電功 能之眼鏡設置金屬接點,即可對具非接觸式充電功能之眼 鏡進行充電。此外,由於用以電感線圈所纏繞之鏡框之截 面積較大,故不需鐵心置於電感線圈之中間,即可產生充 足之感應電流進行充電,進而可減輕鏡框重量、縮小鏡框 • 體積。 【實施方式】 以下將以圖式及詳細說明清楚說明本新型之精神,任 何所屬技術領域中具有通常知識者在瞭解本新型之較佳實 施例後,當可由本新型所教示之技術,加以改變及修飾, 其並不脫離本新型之精神與範圍。 第1圖繪示依照本新型一實施方式的一種充電系統之 φ 不意圖。第2圖係依照本新型一實施方式的一種充電系統 , 之功能方塊圖。同時參照第1圖以及第2圖。在充電系統 中’至少一一次侧電感線圈纏繞於鏡框中,以因應交流時 變磁力產生電流,作為充電之用。 具非接觸式充電功能之眼鏡100包含兩鏡框U1、 112、至少一二次側電感線圈131、一充電電池140以及一 充電模組150。兩鏡框in、! 12相互連接。此外,可將兩 鏡片171、172嵌設於兩鏡框1U、112〇具非接觸式充電功 能之眼鏡100亦可包含兩鏡腳m、U2,且兩鏡腳m、 M395840 112分別連接於兩鏡框121、122,或可依使用者需求設置 其他適當的配帶結構。充電模組15〇電性連接至少一二次 側電感線圈131以及充電電池14〇。充電電池14〇及充電 模組150可因應眼鏡結構設置於適當處。至少一二次側電 感線圈131配置於兩鏡框111、丨丨2的至少其中之一,且沿 著所配置之鏡框111纏繞。在至少一二次侧電感線圈131 感應到一交流時變磁力300時,產生一感應電流。換言之, 至少一二次側電感線圈丨31可因應交流時變磁力3〇〇而產 生感應電流。其中,鏡框1U具有較大之截面積,使得纏 繞於其中之一次側電感線圈131亦有較大之截面積。因 此’二次側電感線圈131不需鐵心插設於中間,即可產生 較大之感應電流。此外,鏡框111若嵌設鏡片171時,亦 無法於二次側電感線圈131插設鐵心。 於是,充電模組150藉由感應電流,對充電電池14〇 充電。其中’充電模組150可包含一整流電路151,用以 將二次侧電感線圈131所產生之感應電流轉換為一直流電 流。於是,充電模組150可傳送直流電流至充電電池14〇, 以對充電電池140充電。此外,具非接觸式充電功能之眼 鏡100更可包含電性連接充電模組150之一充電按紐16〇。 在充電按鈕160被按壓時,充電模組150開始藉由感應電 流,對充電電池140充電。 為使至少一二次侧電感線圈Π1可感應到交流時變磁 力300’故配置至少一二次側電感線圈ι31之鏡框m為非 金屬材質所製造。此外,在其他實施例中’具非接觸式充 電功能之眼鏡1〇〇可包含電性連接於充電模組15〇之兩個 M395840 二次側電感線圈131、132。二次側電感線圈131配置於鏡 框111,且沿著所配置之鏡框111纏繞。二次側電感線圈 132配置於鏡框112,且沿著所配置之鏡框112纏繞。如此 一來,可藉由兩個二次側電感線圈131、132,產生更多感 應電流。 充電系統可包含一充電座200,用以提供交流時變磁 力300。充電座200包含相互電性連接之--次側電感線 圈210以及一電源供應模組220。電源供應模組220提供 一交流電源至一次側電感線圈210,藉此使一次側電感線 圈210產生交流時變磁力300。如此一來,僅需將具非接 觸式充電功能之眼鏡100置於充電座200旁,即可對具非 接觸式充電功能之眼鏡100進行充電。於是,不需要在具 非接觸式充電功能之眼鏡100上設置金屬接點,作為充電 之用。因此,可避免金屬接點氧化或鏽蝕所造成之充電不 良。 由上述本新型實施方式可知,應用本新型具有下列優 點。不需於具非接觸式充電功能之眼鏡設置金屬接點,即 可對具非接觸式充電功能之眼鏡進行充電。此外,由於用 以電感線圈所纏繞之鏡框之截面積較大,故不需鐵心置於 電感線圈之中間,即可產生充足之感應電流進行充電,進 而可減輕鏡框重量、縮小鏡框體積。 雖然本新型已以實施方式揭露如上,然其並非用以限 定本新型,任何熟習此技藝者,在不脫離本新型之精神和 範圍内,當可作各種之更動與潤飾,因此本新型之保護範 圍當視後附之申請專利範圍所界定者為準。 8 M395840 【圖式簡單說明】 為讓本新型之上述和其他目的、特徵、優點與實施例 能更明顯易懂,所附圖式之說明如下: 第1圖繪示依照本新型一實施方式的一種充電系統之 示意圖。 第2圖係依照本新型一實施方式的一種充電系統之功 能方塊圖。 【主要元件符號說明】 1〇〇 :具非接觸式充電功能之160 :充電按鈕 眼鏡 171、172 :鏡片200 :充電座 111、112 :鏡框 210 : —次側電感線圈 121、122 :鏡腳 220 :電源供應模組 131、132 :二次側電感線圈300 :交流時變磁力 140 :充電電池 150 :充電模組 151 :整流電路= When m ’ is frequently used to charge the gold-plated connector, the point = connector rust-proof treatment is worn, which may cause metal oxidation or rust at the connection point, resulting in poor charging function. By using the non-contact charging method, the magnetic flux is transmitted through the primary coil and the secondary side coil is coupled with the secondary side wire to achieve power transmission to improve the contact problem caused by the physical connection Hπ k. Among them, in the general non-connected body = body connection benefits and the use of Ray "* & (four) touch charging architecture, the inductor coils entangled, and fluttering sheep. However, if the volume of the product is used. ^ ~ 5, the product needs to design a special structure and increase the production is not suitable for the weight of the weight of the gift, will increase the weight of the product, the product carried. Due to the above restrictions, Xu Wei 4 M395840 products to be charged, such as glasses, can not Non-contact charging is used. Therefore, how to make the glasses charging by non-contact means becomes an important issue. [New content] Therefore, one aspect of the present invention is to provide a non-contact charging function glasses. At least one secondary side inductor coil is disposed in the frame of the glasses to sense the alternating time variable magnetic force transmitted by the primary side coil for charging. The glasses with non-contact charging function include two frames, at least one The secondary side inductor coil, a rechargeable battery and a charging module. The two frames are connected. The two mirror legs are respectively connected to the two frames. The charging module is electrically connected at least one or two. a side inductor coil and a rechargeable battery. At least one secondary side inductor coil is disposed in at least one of the two frames and is wound along the configured frame. When at least one secondary side inductor coil induces an alternating current time-varying magnetic force, An inductive current is generated. The charging module charges the rechargeable battery by inducing a current. Another aspect of the present invention is to provide a charging system. In the charging system, at least one secondary side inductive coil is disposed in the frame, The charging system generates electric current in response to the alternating magnetic force. The charging system includes a charging stand and a non-contact charging function lens. The charging stand provides an alternating time variable magnetic force. The non-contact charging function glasses include two frames. Two mirror legs, at least one secondary side inductor coil, one rechargeable battery and one charging module. The two frames are connected. The two mirror legs are respectively connected to the two frames, and the charging module is electrically connected to at least one secondary side inductor coil and Rechargeable battery. At least one secondary side inductor coil is disposed in at least one of the two frames, and along the configured 5 M395840 frame Winding generates an induced current when at least one side of the inductive coil senses an alternating current variable magnetic force provided by the charging base. The charging module charges the rechargeable battery by inducing a current. The present invention has the following advantages. The glasses with non-contact charging function can be used to charge the glasses with non-contact charging function. In addition, since the cross-sectional area of the frame wrapped by the inductor coil is large, the core is not required. In the middle of the inductor coil, sufficient induction current can be generated for charging, thereby reducing the weight of the frame and reducing the size of the frame. [Embodiment] The spirit of the present invention will be clearly illustrated by the drawings and detailed description, and any technical field. Those having ordinary skill in the art will be able to change and modify the present invention by the teachings of the present invention without departing from the spirit and scope of the present invention. FIG. 1 is a schematic diagram of a charging system according to an embodiment of the present invention. 2 is a functional block diagram of a charging system in accordance with an embodiment of the present invention. Refer to both Figure 1 and Figure 2. In the charging system, at least one of the side inductor coils is wound around the frame to generate a current in response to the alternating time-varying magnetic force for charging. The glasses 100 with non-contact charging function include two frames U1, 112, at least one secondary side inductor 131, a rechargeable battery 140, and a charging module 150. Two frames in,! 12 are connected to each other. In addition, the two lenses 171 and 172 can be embedded in the two frames 1U and 112. The glasses 100 having the non-contact charging function can also include two mirror legs m and U2, and the two mirror legs m and M395840 112 are respectively connected to the two frames. 121, 122, or other suitable strap structure can be set according to user requirements. The charging module 15 is electrically connected to at least one secondary side inductor 131 and the rechargeable battery 14A. The rechargeable battery 14 and the charging module 150 can be placed in place in response to the eyeglass structure. At least one secondary side inductor coil 131 is disposed at least one of the two frames 111 and 丨丨2, and is wound along the arranged frame 111. When at least one secondary side inductor 131 senses an alternating current time varying magnetic force 300, an induced current is generated. In other words, at least one of the secondary side inductor coils 31 can generate an induced current in response to the alternating magnetic force 3 交流. The frame 1U has a large cross-sectional area, so that the primary-side inductor 131 wound therein also has a large cross-sectional area. Therefore, the secondary side inductance coil 131 can generate a large induced current without the core being inserted in the middle. Further, when the lens 171 is embedded in the lens frame 111, the iron core cannot be inserted into the secondary side inductance coil 131. Thus, the charging module 150 charges the rechargeable battery 14 by inducing a current. The charging module 150 can include a rectifying circuit 151 for converting the induced current generated by the secondary side inductor 131 into a DC current. Therefore, the charging module 150 can transmit a direct current to the rechargeable battery 14 〇 to charge the rechargeable battery 140. In addition, the eyeglass 100 with the non-contact charging function may further include a charging button 16 of the electrical connection charging module 150. When the charging button 160 is pressed, the charging module 150 begins to charge the rechargeable battery 140 by inductive current. In order to allow at least one secondary side inductor coil Π1 to sense the alternating current time varying magnetic force 300', the frame m on which at least one secondary side inductor ι 31 is disposed is made of a non-metal material. In addition, in other embodiments, the glasses 1 having a non-contact charging function may include two M395840 secondary side inductors 131, 132 electrically connected to the charging module 15A. The secondary side inductor coil 131 is disposed in the mirror frame 111 and wound along the arranged frame 111. The secondary side inductor coil 132 is disposed on the frame 112 and wound along the disposed frame 112. In this way, more inductive currents can be generated by the two secondary side inductive coils 131, 132. The charging system can include a charging stand 200 for providing alternating time varying magnetic force 300. The charging stand 200 includes a secondary side inductor coil 210 and a power supply module 220 electrically connected to each other. The power supply module 220 provides an alternating current power source to the primary side inductor coil 210, thereby causing the primary side inductor coil 210 to generate an alternating current time varying magnetic force 300. In this way, the glasses 100 having the non-contact charging function can be charged by simply placing the glasses 100 with the non-contact charging function next to the charging stand 200. Thus, it is not necessary to provide a metal contact on the glasses 100 having the non-contact charging function for charging. Therefore, poor charging due to oxidation or rust of metal contacts can be avoided. As can be seen from the above-described embodiments of the present invention, the application of the present invention has the following advantages. Glasses with non-contact charging function can be charged without setting metal contacts on glasses with non-contact charging function. In addition, since the cross-sectional area of the frame wrapped by the inductor coil is large, it is possible to generate sufficient induced current for charging without placing the core in the middle of the inductor coil, thereby reducing the weight of the frame and reducing the volume of the frame. Although the present invention has been disclosed in the above embodiments, it is not intended to limit the present invention. Any one skilled in the art can make various changes and retouchings without departing from the spirit and scope of the present invention. The scope is subject to the definition of the scope of the patent application attached. 8 M395840 [Brief Description of the Drawings] The above and other objects, features, advantages and embodiments of the present invention will become more apparent and understood. A schematic diagram of a charging system. Figure 2 is a functional block diagram of a charging system in accordance with an embodiment of the present invention. [Main component symbol description] 1〇〇: 160 with non-contact charging function: charging button glasses 171, 172: lens 200: charging stand 111, 112: frame 210: - secondary side inductive coil 121, 122: temple 220 : power supply module 131, 132: secondary side inductor coil 300: alternating current time varying magnetic force 140: rechargeable battery 150: charging module 151: rectifier circuit