201128863 六、發明說明: 【發明所屬之技術領诚】 [0001] 本發明涉及〆種筆記型電腦,尤其涉及一種筆記型電腦 的連接器。 【先前技術】 [0002] 通常,筆記塑電腦裝上電池後’即使筆記型電腦處於關 機狀態,筆記塑的電池通過連接器一直與電腦主板電連 接。在這種情況下’容易造成電池奇命的縮短。 【發明内容】 f'、 \ ^ [〇〇〇3] 有黎於此’有必要提供一種筆記型電腦,:筆記型的連接 器能夠自動斷開電池與主板的電連接。 闺-種筆記型電腦,包括殼體、電池、主板和連接裝置’ 電池和主板通過連接裝置電連接,電、地包括有第-連接 器連接裝置包括有第二連接器,筆記型電腦還包括電 磁鐵控制單元。第二連接器包括底座、滑動部、第一磁 性件、第二磁性件,該滑動部包括導電端子底座固定 於該殼體,滑動部可滑動地連接於底座,底座設置有第 ϋ 一磁性件,滑動部設置有第二磁性件。當檢測到開機訊 號時,電磁鐵控制單元控制第一磁性件通電以產生磁場 ,滑動部在第二磁性件和第一磁性件的磁力作用下滑動 至第二位置,使得導電端子用於與第一連接器建立電連 接;當檢測到關機訊號時,電磁鐵控制單元控制第一磁 性件通電以產生磁場’滑動部在第二磁性件和第一磁性 件的磁力作用下滑回至第一位置。 [0005] 一種筆記型電腦,包括殼體、電池、主板和連接裝置, 099103725 表單編號Α0101 第4頁/共25頁 0992006998-0 電池和主板通過連接裝置電連接,電池包括第一連接器 ,連接裝置包括有第二連接器,筆記型電腦還包括電磁 鐵控制單元,第二連接器包括固定於殼體的底座、鎖定 件、滑動部、彈性件'第一電磁鐵、第二電磁鐵 、磁鐵 、磁性件。鎖定件轉動連接於底座,鎖定件用於將滑動 部保持於第一位置,滑動部滑動地連接於底座,滑動部 包括有導電端子’導電端子用於與第一連接器建立電連 接’彈性件的兩端分別連接於底座和滑動部,第一電磁 鐵和第二電磁鐵設置於底座,磁鐵設置於鎖定件,磁性 件設置於滑動部。當檢測到開機訊號時,磁鐵控制單元 控制第二電磁鐵通電以產生磁.場,鎮定件在第二電磁鐵 和磁鐵之間的磁力作用下轉動而與滑動部脫離,滑動部 在彈性件的彈力作用下滑動至第二位置,使得該導電端 子與該第一連接器建立電連接;當檢測到關機訊號時, 磁鐵控制單元第一電磁鐵通電,滑動部在該第一磁鐵和 磁性件間的磁性作用下滑動回第一位置。 一種連接裝置’連接尊置用於連择筆記型電腦的主板和 電池,電池包括有第一連接器,連接裝置包括有第二連 接器,筆記型電腦還包括電磁鐵控制單元,第二連接器 包括底座、滑動部、第一磁性件、第二磁性件,滑動部 包括導電端子,底座固定於該殼體,滑動部滑動地連接 於底座,底座設置有第一磁性件,滑動部設置有第二磁 性件。當檢測到開機訊號時,電磁鐵控制單元控制該第 一磁性件通電以產生磁場,滑動部在第二磁性件和第一 磁性件的磁性斥力作用下滑動至第二位置,使得導電端 表單編號A0101 第5頁/共25頁 201128863 子第一連接器建立電連接;當檢測到關機訊號時,該電 磁鐵控制單元控制該第一磁性件通電以產生磁場,該滑 動部在該第二磁性件和該第一磁性件的磁性吸力作用下 滑回至第一位置。 [0007] [0008] [0009] 與現有技術相比,筆記型電腦的連接器可以自動斷開與 電池的連接。 【實施方式】 如圖1、2所示,該筆記型電腦1包括殼體10、電池20、連 接裝置30、電磁鐵控制單元40。 電池20安裝在殼體10内側,電池20包括有第一連接器 201。電池20和筆記型電腦1的主板(圖未示)通過連接 裝置30建立電連接。 [0010] [0011] [0012] [0013] 099103725 請一併參閱圖3,連接裝置30包括有第二連接器31,第二 連接器31包括底座32、滑動部33。 底座32固定於殼體10内側,底座32上設置有第一磁性件 34,在本實施例中,第一磁性件34為一電磁鐵。 滑動部33可滑動地連接於底座32,滑動部33包括滑動部 主體331、導電端子332。導電端子332固定於滑動部主 體331—端,滑動部主體331的另一端設置有第二磁性件 35,在本實施例中,第二磁性件35為磁鐵。 筆記型電腦1還包括開關裝置50、固定電池60。開關裝置 50用於控制筆記型電腦1的開啟和關閉,即發送開機訊號 和關機訊號。固定電池60用於給電磁鐵控制單元40和第 二連接器31供電,在本實施例中,固定電池60可為固定 表單編號A0101 第6頁/共25頁 0992006998-0 201128863 [0014] [0015] ❹ [0016] ❹ [0017] [0018] 在筆記型電腦1的主板的CMOS電池。 7磁鐵控制單元40包括判斷單元41和執行單元42。判斷 單元41·朗筆記㈣腦丨的開機訊號和_訊號並 判斷筆記型電腦1是否連接到外接電源。 當檢測到開機訊號並且筆記型電腦丨沒有連接到外接電源 時’該判斷單元41發送訊號至執行單元42,執行單元= 控制第-磁性件34通電,第—雜件34產生磁性,使得 第-磁性件34和第二磁性件35之間產生磁性斥力,滑動 部33在該磁性斥力的作甩下由第一也置移動至第二位置 ,使得第二連接器31的導電端子332與第一連接器2〇1接 觸’從而使得第一連接器2〇1和第二連接器31建立電連接 ;:i . sfir 當檢測到關機訊號時,該_單元41發送訊號至執行單 兀42,執行單元42控制第一磁性件34通電,第一磁性件 34產生磁性,使得第一磁性件34和第二磁性件35之間產 生磁性吸力,滑動部33在該磁性吸力的作用下由第二位 置移動至第-位置’使得第二連接器31的導電端子饥與 第-連接器201脫離接觸,從而使得第一連接器2〇1和第 二連接器31斷開電連接。 如圖4、5、6所示,在本發明的第二實施方式中,筆記型 電腦la和筆記型電腦i不同之處在於筆記型電腦la的連接 裝置30a。連接裝置30a包括第二連接器以,第二連接器 81包括底座82、滑動部83、鎖定件84及彈性件85。 底座82固定於殼體i〇a内側,底座82兩側形成有導軌821 099103725 表單編號A0101 第7頁/共25頁 0992006998-0 201128863 ’導軌821上表面形成有轉細22。底座82還形成有兩凸 起端823,凸起端823一側形成有固定軸824。底座82設 置有第-電磁鐵86和第二電磁鐵87。在本實施例中具有 兩個第二電磁鐵87,分別為第二電磁鐵87ι和第二電磁 872 ° [0019] 滑動部83包括滑動部主體831、導電端子832。導電端子 832固定於滑動部主體831_側。滑動部主體831大致呈τ 形狀,滑動部主體831較寬處8311兩側形成凸緣8312。 滑動部主體8 31較寬處8 311兩倒還形成有兩鎖定孔8313 ,滑動部主體831較寬處8311形成有固定軸8314。滑動 部主體831較窄處8315設置有磁性件88,在本實施例中 ’磁性件88為磁鐵。 .' ' [0020] 滑動部8 3的凸緣8 312和底座8 2的導軌8 21.相配合,使滑 動部83可以滑動地連接於底座82。 [0021] 在本實施例t,鎖定件84說置有Ϊ磁减該鎖定件84包 括第一鎖定件841和第f鎖定件842丨,_鐵89包括第一磁 鐵891和第二磁鐵892。 [0022] 第一鎖定件841開有通孔8411,第一鎖定件841 —端垂直 延伸有鎖定扣8412。第一鎖定件841另一端垂直延伸有固 定端8413,固定端8413設置有第一磁鐵891。通孔8311 穿過底座82的轉轴822,使得第一鎖定件841轉動連接於 底座82。第二鎖定件842和第一鎖定件841具有相同的構 造。第二磁鐵892設置於第二鎖定件842。 [0023] 鎖定件84的鎖定扣8412扣在滑動部83的鎖定孔8313,使 099103725 表單編號A0101 第8頁/共25頁 0992006998-0 201128863 [0024] [0025] Ο [0026] Ο [0027] [0028] 滑動部83保持於第一位置。 在本實施例中,彈性件85包括兩彈簧。彈性件85 一端連 接於滑動部主體831的固定軸8314,另一端連接於在底座 82的固定轴824。 请一併參閱圖7 ,筆記型電腦la開機時,開關裝置5〇a發 出開機訊號。判斷單元41a識別開機訊號,並判斷筆記型 電腦1 a是否連接到外接電源,當筆記型電腦沒有連接到外 接電源時,電磁鐵控制單元4〇a的執行單元42a控制第二 連接器81的第二電磁鐵87通電》 當第二電磁鐵87接通電流後,;第二電磁鐵π產生磁性, 其產生的第一磁場與磁鐵89:的磁場相同.,則第二電磁鐵 87和磁鐵89在磁力作用下相吸,鎖定件84轉動,鎖定件 84的鎖定扣8412打開,鎖定件84與滑動#83脫離,滑動 部83在彈性件85的彈力作用下滑動至第二位置,使得第 二連接器81的導電端子832和第一連接器201建立電連接 ,從而使得第一連接器201 a和第二連接器81建立電連接 〇 請一併參閱圖8,筆記型電腦la關機時,判斷單元41a識 別關機訊號。 在本實施例中,電磁鐵控制單元控制依次控制第一電 磁鐵86和第二電磁鐵87通電’當第一電磁鐵86接通電流 後,第一電磁鐵86產生磁性,第一電磁鐵86和磁性件88 在磁力作用下相吸,滑動部8 3滑動回第一位置。第二電 磁鐵87接通電流後,其產生的第二磁場與磁鐵89的磁場 099103725 表單編號A0101 第9頁/共25頁 0992006998-0 201128863 相反,則第二電磁鐵87和磁鐵89在磁力作用下排斥,鎖 定件84轉動至與滑動部83接觸,鎖定件84的鎖定扣8412 扣在滑動部83的鎖定孔8313,從而滑動部83被保持在第 一位置。 [0029] 在本發明的第三實施例中,筆記型電腦lb和筆記型電腦 la不同僅在於:筆記型電腦lb關機時,當判斷單元41b識 別關機後,電磁鐵控制單元40b的執行單元42b控制第一 電磁鐵86b通電,第二電磁鐵87b不通電。當第一電磁鐵 86b接通電流後,第一電磁鐵86b產生磁性,第一電磁鐵 ..... :;··::. . :. ...... 86b和磁性件88b在磁力作用下相吸,滑氣部83b滑動回 第一位置。第_一磁鐵B91b和第二磁鐵892b磁場相反,則 在第一磁鐵891b和第二磁鐵良.92b'相排斥,鎖定件84b轉 動至與滑動部83b接觸’鎖定件84b的鎮定扣8412b扣在 滑動部83b的鎖定孔8313b,從而滑動部83b被保持在第 一位置。 【圖式簡單說明】 [0030] 圖1係本發明第一實施方式的筆記型電鉍之示意圖。 [0031] 圖2係本發明筆記型電腦的硬體架構圖。 [0032] 圖3係圖1所示的筆記型電腦的第二連接器的分解圖。 [0033] 圖4係本發明第二實施方式的筆記型電腦示意圖。 [0034] 圖5係圖4所示的筆記型電腦的第二連接器的分解視圖。 [0035] 圖6係圖4所示的筆記型電腦的第二連接器的另一角度的 分解圖。 099103725 表單編號A0101 第10頁/共25頁 0992006998-0 201128863 [0036] 圖7係圖4所示的筆記型電腦的第二連接器和第一連接器 [0037] 電連接的放大圖。 圖8係圖4所示的筆記型電腦的第二連接器和第一連接器 相分離的放大圖。 [0038] 【主要元件符號說明】 筆記型電腦:1/la/lb [0039] 殼體:10 [0040] 〇 [0041] 電池:20 第一連接器:201 [0042] 連接裝置:30/30a [0043] 電磁鐵控制單元:40/40a [0044] 判斷單元:41/41a/41b [0045] 執行單元:42/42a/42b [0046] 〇 第二連接器:31/81 [0047] .-•-.'ν' '· ί· ·ί ' ,:. . r-' 底座:32/82 [0048] 滑動部:33/83 [0049] 第一磁性件:34 [0050] 第二磁性件:35 [0051] 滑動部主體:331/831 • [0052] 導電端子:332/832 099103725 表單編號Α0101 第11頁/共25頁 0992006998-0 201128863 [0053]開關裝置:50/50a [0054] 固定電池:60/60a [0055] 鎖定件:84 [0056] 第一鎖定件:841 [0057] 通孔:8411 [0058] 鎖定扣:8412 [0059] 固定端:8413 [0060] 第二鎖定件:842 [0061] 彈性件:85 [0062] 第一電磁鐵:86 [0063] 磁性件:88 [0064] 磁鐵:89 [0065] 第一磁鐵:891 [0066] 第二磁鐵:892 [0067] 第二電磁鐵:87/871/872 [0068] 導軌:821 [0069] 轉軸·· 822 [0070] 凸起端:823 [0071] 固定軸:824/8314 099103725 表單編號A0101 第12頁/共25頁 0992006998-0 201128863 [0072]凸緣:8312 8313 [0073] 鎖定孔201128863 VI. Description of the Invention: [Technology of the Invention] [0001] The present invention relates to a notebook computer, and more particularly to a connector for a notebook computer. [Prior Art] [0002] Usually, after the notebook is equipped with a battery, even if the notebook is turned off, the battery of the notebook is electrically connected to the motherboard through the connector. In this case, it is easy to shorten the battery life. [Summary of the Invention] f', \^ [〇〇〇3] There is a need for a notebook computer. The notebook type of the notebook can automatically disconnect the battery from the motherboard.闺-type notebook computer, including the casing, battery, main board and connecting device' The battery and the main board are electrically connected by a connecting device, and the electric connector includes a first connector connecting device including a second connector, and the notebook computer also includes Electromagnet control unit. The second connector includes a base, a sliding portion, a first magnetic member, and a second magnetic member. The sliding portion includes a conductive terminal base fixed to the housing, the sliding portion is slidably coupled to the base, and the base is provided with a first magnetic member The sliding portion is provided with a second magnetic member. When the power-on signal is detected, the electromagnet control unit controls the first magnetic member to be energized to generate a magnetic field, and the sliding portion slides to the second position under the magnetic force of the second magnetic member and the first magnetic member, so that the conductive terminal is used for A connector establishes an electrical connection; when a shutdown signal is detected, the electromagnet control unit controls the first magnetic member to be energized to generate a magnetic field. The magnetic force of the sliding portion at the second magnetic member and the first magnetic member slides back to the first position. [0005] A notebook computer, comprising a casing, a battery, a main board and a connecting device, 099103725 Form No. Α0101 Page 4 of 25 0992006998-0 The battery and the main board are electrically connected by a connecting device, and the battery includes a first connector, and the connection The device comprises a second connector, the notebook computer further comprises an electromagnet control unit, and the second connector comprises a base fixed to the housing, a locking member, a sliding portion, an elastic member 'the first electromagnet, the second electromagnet, the magnet , magnetic parts. The locking member is rotatably coupled to the base, the locking member is configured to hold the sliding portion in the first position, the sliding portion is slidably coupled to the base, and the sliding portion includes a conductive terminal 'conductive terminal for establishing electrical connection with the first connector' The two ends are respectively connected to the base and the sliding portion, the first electromagnet and the second electromagnet are disposed on the base, the magnet is disposed on the locking member, and the magnetic member is disposed on the sliding portion. When the power-on signal is detected, the magnet control unit controls the second electromagnet to be energized to generate a magnetic field, and the ballast rotates under the magnetic force between the second electromagnet and the magnet to be detached from the sliding portion, and the sliding portion is in the elastic member. Sliding to the second position by the elastic force, so that the conductive terminal establishes electrical connection with the first connector; when the shutdown signal is detected, the first electromagnet of the magnet control unit is energized, and the sliding portion is between the first magnet and the magnetic member The magnetic action slides back to the first position. A connecting device 'connects a motherboard and a battery for selecting a notebook computer, the battery includes a first connector, the connecting device includes a second connector, the notebook computer further includes an electromagnet control unit, and the second connector The base includes a base, a sliding portion, a first magnetic member, and a second magnetic member. The sliding portion includes a conductive terminal. The base is fixed to the housing, and the sliding portion is slidably coupled to the base. The base is provided with a first magnetic member, and the sliding portion is provided with a first portion. Two magnetic parts. When the start signal is detected, the electromagnet control unit controls the first magnetic member to be energized to generate a magnetic field, and the sliding portion slides to the second position under the magnetic repulsion of the second magnetic member and the first magnetic member, so that the conductive end form number A0101 Page 5 of 25 201128863 The first connector establishes an electrical connection; when a shutdown signal is detected, the electromagnet control unit controls the first magnetic member to be energized to generate a magnetic field, and the sliding portion is at the second magnetic member And the magnetic attraction of the first magnetic member slides back to the first position. [0009] [0009] Compared to the prior art, the connector of the notebook computer can automatically disconnect from the battery. [Embodiment] As shown in Figs. 1 and 2, the notebook computer 1 includes a casing 10, a battery 20, a connecting device 30, and an electromagnet control unit 40. The battery 20 is mounted inside the casing 10, and the battery 20 includes a first connector 201. The battery 20 and the main board (not shown) of the notebook computer 1 are electrically connected by the connecting device 30. [0013] [0013] 099103725 Referring to FIG. 3 together, the connecting device 30 includes a second connector 31 including a base 32 and a sliding portion 33. The base 32 is fixed to the inner side of the casing 10. The base 32 is provided with a first magnetic member 34. In the embodiment, the first magnetic member 34 is an electromagnet. The sliding portion 33 is slidably coupled to the base 32, and the sliding portion 33 includes a sliding portion main body 331, and a conductive terminal 332. The conductive terminal 332 is fixed to the end of the sliding portion main body 331, and the other end of the sliding portion main body 331 is provided with the second magnetic member 35. In the embodiment, the second magnetic member 35 is a magnet. The notebook computer 1 further includes a switching device 50 and a fixed battery 60. The switch device 50 is used to control the opening and closing of the notebook computer 1, that is, to send a power-on signal and a power-off signal. The fixed battery 60 is used to supply power to the electromagnet control unit 40 and the second connector 31. In the present embodiment, the fixed battery 60 can be a fixed form number A0101. Page 6/25 pages 0992006998-0 201128863 [0015] ❹ [0016] [0018] A CMOS battery in the main board of the notebook computer 1. The magnet control unit 40 includes a judging unit 41 and an executing unit 42. The judging unit 41·lang notes (4) the brain start signal and the _ signal and judges whether the notebook computer 1 is connected to an external power source. When the boot signal is detected and the notebook computer is not connected to the external power source, the determination unit 41 sends a signal to the execution unit 42, the execution unit = controls the first magnetic member 34 to be energized, and the first miscellaneous member 34 generates magnetism, so that - A magnetic repulsive force is generated between the magnetic member 34 and the second magnetic member 35, and the sliding portion 33 is moved from the first position to the second position by the magnetic repulsive force, so that the conductive terminal 332 of the second connector 31 is first The connector 2〇1 contacts 'so that the first connector 2〇1 and the second connector 31 establish an electrical connection;: i. sfir When the shutdown signal is detected, the _ unit 41 sends a signal to the execution unit 42 to execute The unit 42 controls the first magnetic member 34 to be energized, the first magnetic member 34 generates magnetism such that a magnetic attraction is generated between the first magnetic member 34 and the second magnetic member 35, and the sliding portion 33 is moved by the magnetic attraction by the second position. Moving to the first position ' causes the conductive terminals of the second connector 31 to be out of contact with the first connector 201, thereby causing the first connector 2〇1 and the second connector 31 to be electrically disconnected. As shown in Figs. 4, 5, and 6, in the second embodiment of the present invention, the notebook computer 1a and the notebook computer i differ in the connecting device 30a of the notebook computer la. The connecting device 30a includes a second connector, and the second connector 81 includes a base 82, a sliding portion 83, a locking member 84, and an elastic member 85. The base 82 is fixed to the inner side of the housing i〇a, and the guide rail 821 is formed on both sides of the base 82. 099103725 Form No. A0101 Page 7 of 25 0992006998-0 201128863 The upper surface of the guide rail 821 is formed with a turn 22 . The base 82 is also formed with two raised ends 823, and a fixed shaft 824 is formed on one side of the raised end 823. The base 82 is provided with a first electromagnet 86 and a second electromagnet 87. In the present embodiment, there are two second electromagnets 87, respectively a second electromagnet 871 and a second electromagnetic 872. [0019] The sliding portion 83 includes a sliding portion main body 831 and a conductive terminal 832. The conductive terminal 832 is fixed to the side of the slider main body 831_. The sliding portion main body 831 has a substantially τ shape, and the sliding portion main body 831 has flanges 8312 formed on both sides of the wide portion 8311. Two locking holes 8313 are formed in the wider portion 8 311 of the sliding portion main body 8 31 , and a fixed shaft 8314 is formed at the wide portion 8311 of the sliding portion main body 831 . The sliding portion main body 831 is provided with a magnetic member 88 at a narrow portion 8315. In the present embodiment, the magnetic member 88 is a magnet. [0020] The flange 8 312 of the slider 8 3 mates with the rail 8 21. of the base 8 2 such that the slider 83 is slidably coupled to the base 82. [0021] In the present embodiment t, the locking member 84 is said to be magnetized. The locking member 84 includes a first locking member 841 and a f-locking member 842, and the iron 89 includes a first magnet 891 and a second magnet 892. [0022] The first locking member 841 is provided with a through hole 8411, and the first locking member 841 has a locking buckle 8412 extending perpendicularly at the end. The other end of the first locking member 841 extends vertically with a fixing end 8413, and the fixed end 8413 is provided with a first magnet 891. The through hole 8311 passes through the rotating shaft 822 of the base 82 such that the first locking member 841 is rotatably coupled to the base 82. The second locking member 842 and the first locking member 841 have the same configuration. The second magnet 892 is disposed on the second locking member 842. [0023] The locking buckle 8412 of the locking member 84 is fastened to the locking hole 8313 of the sliding portion 83 so that 099103725 Form No. A0101 Page 8 / Total 25 Page 0992006998-0 201128863 [0024] [0025] [0026] [0027] [0028] The sliding portion 83 is held in the first position. In the present embodiment, the elastic member 85 includes two springs. The elastic member 85 has one end connected to the fixed shaft 8314 of the sliding portion main body 831, and the other end connected to the fixed shaft 824 of the base 82. Please refer to FIG. 7 together. When the notebook computer is turned on, the switch device 5〇a sends a power-on signal. The judging unit 41a recognizes the boot signal and determines whether the notebook computer 1a is connected to the external power source. When the notebook computer is not connected to the external power source, the execution unit 42a of the electromagnet control unit 4A controls the second connector 81. The second electromagnet 87 is energized. When the second electromagnet 87 is turned on, the second electromagnet π generates magnetism, and the first magnetic field generated is the same as the magnetic field of the magnet 89: the second electromagnet 87 and the magnet 89 When the magnetic force is attracted, the locking member 84 rotates, the locking buckle 8412 of the locking member 84 is opened, the locking member 84 is disengaged from the sliding #83, and the sliding portion 83 is slid to the second position by the elastic force of the elastic member 85, so that the second The conductive terminal 832 of the connector 81 and the first connector 201 establish an electrical connection, so that the first connector 201 a and the second connector 81 establish an electrical connection. Referring to FIG. 8 , when the notebook computer is powered off, it is determined. Unit 41a identifies the shutdown signal. In the present embodiment, the electromagnet control unit controls to sequentially control the first electromagnet 86 and the second electromagnet 87 to be energized. 'When the first electromagnet 86 is turned on, the first electromagnet 86 generates magnetism, and the first electromagnet 86 generates magnetic The magnetic member 88 is attracted by the magnetic force, and the sliding portion 83 is slid back to the first position. After the second electromagnet 87 is turned on, the second magnetic field generated by the magnet is 89. Under the repulsion, the locking member 84 is rotated to come into contact with the sliding portion 83, and the locking buckle 8412 of the locking member 84 is fastened to the locking hole 8313 of the sliding portion 83, so that the sliding portion 83 is held at the first position. [0029] In the third embodiment of the present invention, the notebook computer 1b and the notebook computer 1a are different only in that: when the notebook computer 1b is turned off, when the determining unit 41b recognizes the shutdown, the execution unit 42b of the electromagnet control unit 40b The first electromagnet 86b is controlled to be energized, and the second electromagnet 87b is not energized. When the first electromagnet 86b is turned on, the first electromagnet 86b generates magnetism, and the first electromagnet ..... :;··:: . . . . . . . . . . and the magnetic member 88b are Under the action of the magnetic force, the sliding portion 83b slides back to the first position. When the magnetic fields of the first magnet B91b and the second magnet 892b are opposite to each other, the first magnet 891b and the second magnet Liang 92b' repel each other, and the locking member 84b is rotated to the calming buckle 8412b of the locking member 84b in contact with the sliding portion 83b. The locking hole 8313b of the sliding portion 83b is such that the sliding portion 83b is held at the first position. BRIEF DESCRIPTION OF THE DRAWINGS [0030] FIG. 1 is a schematic view of a notebook type electric cymbal according to a first embodiment of the present invention. 2 is a hardware architecture diagram of a notebook computer of the present invention. 3 is an exploded view of the second connector of the notebook computer shown in FIG. 1. 4 is a schematic diagram of a notebook computer according to a second embodiment of the present invention. [0034] FIG. 5 is an exploded view of the second connector of the notebook computer shown in FIG. 4. 6 is an exploded perspective view showing another angle of the second connector of the notebook computer shown in FIG. 4. 099103725 Form No. A0101 Page 10 of 25 0992006998-0 201128863 [0036] FIG. 7 is an enlarged view of the second connector of the notebook computer shown in FIG. 4 and the first connector [0037]. Figure 8 is an enlarged view showing the second connector of the notebook computer shown in Figure 4 separated from the first connector. [Description of main component symbols] Notebook computer: 1/la/lb [0039] Housing: 10 [0040] 〇 [0041] Battery: 20 First connector: 201 [0042] Connecting device: 30/30a [0043] Electromagnet Control Unit: 40/40a [0044] Judgment Unit: 41/41a/41b [0045] Execution Unit: 42/42a/42b [0046] 〇 Second Connector: 31/81 [0047] .- •-.'ν' '· ί· ·ί ' ,:. . r-' Base: 32/82 [0048] Slide: 33/83 [0049] First magnetic member: 34 [0050] Second magnetic member :35 [0051] Sliding body: 331/831 • [0052] Conductive terminal: 332/832 099103725 Form number Α0101 Page 11/Total 25 page 0992006998-0 201128863 [0053] Switching device: 50/50a [0054] Fixed Battery: 60/60a [0055] Locking member: 84 [0056] First locking member: 841 [0057] Through hole: 8411 [0058] Locking buckle: 8412 [0059] Fixed end: 8413 [0060] Second locking member: 842 [0061] Elastic member: 85 [0062] First electromagnet: 86 [0063] Magnetic member: 88 [0064] Magnet: 89 [0065] First magnet: 891 [0066] Second magnet: 892 [0067] Two electromagnets: 87/871/872 [0068] Rails: 821 [0069] Rotary shaft · · 822 [0070] Raised end: 823 [0071] Fixed shaft: 824/8314 099103725 Form number A0101 Page 12 / Total 25 page 0992006998-0 201128863 [0072] Flange: 8312 8313 [0073 ] Locking hole
099103725 表單編號A0101 第13頁/共25頁 0992006998-0099103725 Form No. A0101 Page 13 of 25 0992006998-0