201228149 六、發明說明: 【發明所屬之技術領域】 [0001] 本發明涉及一種插座,尤其涉及一種可自動彈出插頭的 插座。 【先前技術·】 [0002] 現有技術下,用戶在使用完電器後,通常忘記將電器的 插頭從插座上取下,由此而產生很多的隱患,如資源的 浪費、火災的發生等,從而給用戶及社會帶來了一些不 必要的損失。 ❹ 【發明内容】 [0003] 本發明的主要目的在於提供一種可自動彈出插頭的插座 ,其通過感測電器的插頭上的電流變化狀態,自動將插 座上的插頭彈出,以此解決上述的問題。 [0004] 〇 本發明提供一種可自動彈出插頭的插座,其包括一外殼 及外殼上設置的至少兩個導電孔,Ί亥至少兩個導電孔内 分別設置有導電片,該導電片用吟與插頭進行電連接, 該插座還包七有一内置於外殼内的彈開機構及一固定連 接於彈開機構上的感測器,該感測器用於感測插頭上的 電流變化狀態,該彈開機構用於當感測器感測到插頭上 的電流變化狀態為從有到無時,自動將插頭從插座上彈 出。 [0005] 本發明的可自動彈出插頭的插座,其通過感測電器插頭 上的電流變化狀態來自動彈出插頭,從而避免了由於插 頭未拔出而產生的很多隱患。 【實施方式】 099144661 表單編號A0101 第3頁/共11頁 0992077165-0 201228149 [0006] 請參考圖1至圖3所示,該可自動彈出插頭2的插座1包括 一外殼1 0及外殼1 0上設置的至少兩個導電孔11。該至少 兩個導電孔11内分別設置有導電片12。該導電片12用於 與插頭2進行電連接。在本實施方式中,該至少兩個導電 孔11的數量為三。 [0007] 該插座1還包括有一内置於外殼10内的彈開機構20及一固 定連接於彈開機構20上的感測器30。該感測器30用於感 測插頭2上的電流變化狀態。該彈開機構20用於當感測器 30感測到插頭2上的電流的狀態從有到無時,自動將插頭 2從插座1上彈出。 [0008] 為了更好理解本發明,以下對本發明於一具體實施方式 中各元件的具體結構和運動配合關係進行詳細描述。 [0009] 該外殼1 0於兩個導電孔11之間還設置有一開口 1 3,該外 殼10的底部還設置有一孔14。該外殼10的内壁上設置有 兩個對稱的收容孔(未標識)。 [0010] 該彈出結構20通過外殼10上的孔14内置於該外殼10的内 部,其包括一電機21、一電連接於電機21上的齒輪22及 一與齒輪22齒合的齒條23。該感測器30固定設置於齒條 23的頂部,用於當插頭2插入插座1時,感測插頭2上的電 流變化狀態。該電機21用於當感測器30感測到插頭2上的 電流變化狀態為從有到無時,驅使該齒輪22轉動,從而 驅使該齒條23上下運動。該齒條23橫截面大小與外殼10 上所設置的開口 13相匹配,所以該齒條23在齒輪22的驅 使下,可在開口 13中上下運動,從而在齒條23向上運動 099144661 表單編號A0101 第4頁/共11頁 0992077165-0 201228149 時,可將插座1上的插頭2自動彈出。 [0011] 該齒輪22兩側的中間部分分別向外延伸出一延伸部220, 兩個對稱的延伸部220分別轉動收容於外殼10内壁上的兩 個收容孔中。在電機21的驅動下,該齒輪22的兩個延伸 部220將在兩個收容孔中轉動,從而驅使該齒輪22轉動。 [0012] 如圖4所示,該齒條23在齒輪22的帶動下被從外殼10的開 口 13處彈出,從而將該插座1上的插頭2彈出,以此斷開 插頭2與插座1上導電片12的電連接。在插頭2被彈出後, 0 電機21控制齒輪22停止運動,從而控制該齒條23繼續彈 出。 .[0013] 當用戶再次插入該插頭2於該插座1上時,只需施加一外 力克服該齒條23與齒輪22之間的作用力,直至該插頭2被 完全的插入至插座1上。 【圖式簡單說明】 [0014] 圖1係本發明可自動彈出插頭的插座的立體視圖。 [0015] 圖2係本發明可自動彈出插頭的插座的分解視圖。 [0016] 圖3係本發明可自動彈出插頭的插座於另一角度上的分解 視圖。 [0017] 圖4係本發明可自動彈出插頭的插座的狀態圖。 【主要元件符號說明】 [0018] 插頭:2 [0019]插座:1 外殼:10 099144661 表單編號A0101 第5頁/共11頁 0992077165-0 [0020] 201228149 [0021] 導電孔:11 [0022] 導電片:12 [0023] 彈開機構:20 [0024] 感測器:30 [0025] 開口 : 1 3 [0026] 孔:14 [0027] 電機:21 [0028] 齒輪:22 [0029] 齒條:23 [0030] 延伸部:220 099144661 表單編號A0101 第6頁/共11頁 0992077165-0201228149 VI. Description of the Invention: [Technical Field] [0001] The present invention relates to a socket, and more particularly to a socket that can automatically eject a plug. [Prior Art·] [0002] In the prior art, after using the electric appliance, the user usually forgets to remove the plug of the electric appliance from the socket, thereby causing many hidden dangers, such as waste of resources, occurrence of fire, and the like. It has brought unnecessary losses to users and society. SUMMARY OF THE INVENTION [0003] The main object of the present invention is to provide a socket that can automatically eject a plug, which automatically solves the above problem by sensing the current change state on the plug of the appliance and automatically ejecting the plug on the socket. . [0004] The present invention provides a socket that can automatically eject a plug, and includes a casing and at least two conductive holes disposed on the casing, and at least two conductive holes are respectively disposed in the conductive holes, and the conductive sheets are respectively The plug is electrically connected, and the socket further comprises a spring opening mechanism built in the outer casing and a sensor fixedly connected to the spring opening mechanism, wherein the sensor is used for sensing a current change state on the plug, and the spring is opened. The mechanism is configured to automatically eject the plug from the socket when the sensor senses that the current change state on the plug is from no time to no time. [0005] The socket of the present invention which can automatically eject a plug automatically ejects the plug by sensing the state of current change on the plug of the appliance, thereby avoiding many hidden troubles caused by the plug being unplugged. [Embodiment] 099144661 Form No. A0101 Page 3 of 11 0992077165-0 201228149 [0006] Referring to FIG. 1 to FIG. 3, the socket 1 of the auto-ejection plug 2 includes a casing 10 and a casing 10. At least two conductive holes 11 are provided thereon. Conductive sheets 12 are respectively disposed in the at least two conductive holes 11. The conductive sheet 12 is for electrical connection with the plug 2. In the present embodiment, the number of the at least two conductive holes 11 is three. The socket 1 further includes a pop-up mechanism 20 built into the outer casing 10 and a sensor 30 fixedly coupled to the pop-up mechanism 20. The sensor 30 is for sensing a state of current change on the plug 2. The pop-up mechanism 20 is for automatically ejecting the plug 2 from the socket 1 when the sensor 30 senses the state of the current on the plug 2 from time to time. In order to better understand the present invention, the specific structure and motion fit relationship of each component of the present invention in a specific embodiment will be described in detail below. The housing 10 is further provided with an opening 13 between the two conductive holes 11, and a hole 14 is further disposed at the bottom of the housing 10. Two symmetrical receiving holes (not labeled) are provided on the inner wall of the outer casing 10. [0010] The ejecting structure 20 is built in the inner portion of the outer casing 10 through a hole 14 in the outer casing 10, and includes a motor 21, a gear 22 electrically connected to the motor 21, and a rack 23 that meshes with the gear 22. The sensor 30 is fixedly disposed at the top of the rack 23 for sensing the state of current change on the plug 2 when the plug 2 is inserted into the socket 1. The motor 21 is used to drive the gear 22 to rotate when the sensor 30 senses that the current change state on the plug 2 is from no time to no time, thereby driving the rack 23 up and down. The cross-sectional size of the rack 23 matches the opening 13 provided on the outer casing 10, so that the rack 23 can be moved up and down in the opening 13 by the gear 22 to move upward in the rack 23 099144661 Form No. A0101 When the 4th/11th page 0992077165-0 201228149, the plug 2 on the socket 1 can be automatically ejected. [0011] The intermediate portions of the two sides of the gear 22 extend outwardly from an extending portion 220, and the two symmetric extending portions 220 are respectively rotated and received in the two receiving holes on the inner wall of the outer casing 10. Under the drive of the motor 21, the two extensions 220 of the gear 22 will rotate in the two receiving apertures to urge the gear 22 to rotate. [0012] As shown in FIG. 4, the rack 23 is ejected from the opening 13 of the outer casing 10 by the gear 22, thereby ejecting the plug 2 on the socket 1, thereby disconnecting the plug 2 from the socket 1. Electrical connection of the conductive sheets 12. After the plug 2 is ejected, the 0 motor 21 controls the gear 22 to stop moving, thereby controlling the rack 23 to continue to eject. [0013] When the user inserts the plug 2 on the socket 1 again, it is only necessary to apply an external force against the force between the rack 23 and the gear 22 until the plug 2 is completely inserted into the socket 1. BRIEF DESCRIPTION OF THE DRAWINGS [0014] FIG. 1 is a perspective view of a socket of the present invention that can automatically eject a plug. 2 is an exploded view of a socket of the present invention that can automatically eject a plug. [0015] FIG. 3 is an exploded view of the socket of the present invention capable of automatically ejecting the plug at another angle. [0016] FIG. 4 is a state diagram of a socket of the present invention that can automatically eject a plug. [Main component symbol description] [0018] Plug: 2 [0019] Socket: 1 Case: 10 099144661 Form No. A0101 Page 5 / Total 11 Page 0992077165-0 [0020] 201228149 [0021] Conductive hole: 11 [0022] Conductive Sheet: 12 [0023] Pop-up mechanism: 20 [0024] Sensor: 30 [0025] Opening: 1 3 [0026] Hole: 14 [0027] Motor: 21 [0028] Gear: 22 [0029] Rack: 23 [0030] Extension: 220 099144661 Form No. A0101 Page 6 / Total 11 Page 0992077165-0