201220581 六、發明說明: 【發明所屬之技術領域】 [0001] 本發明涉及一種電子裝置,更具體地,涉及一種更換電 池不斷電的電子裝置。 【先前技秫亍】 [0002] 通常情況下,一使用電池供電的電子裝置,如手機、筆 記本電腦,在電池電量欲使用完的情況下,必須關機更 換另一備用電池或用直充進行充電。然而關機更換電池 會中斷手機的當前操作,且關機後再開機要花費一定的 時間及有些手機關機後重新開機需要重新設置曰期和時 間,給用戶帶來極大的不便。而如果使用直充又必須靠 近電源,同樣會給用戶帶來不便。 【發明内容】 [0003] 為了解決上述存在的問題,本發明的目的在於,提供一 種更換電池不斷電的電子裝置,其包括一主體、一電路 板、一主電池和一備用電池,該電路板上設置有電連接 件,該電連接件可移動的連接於該電路板,該電連接件 包括第一末端和第二末端,該第一末端用於穿過備用電 池背部與該主電池相接觸以建立電連接,該第二末端用 於與該備用電池相接觸以建立電連接;該主體上設置有 彈性連接部,該彈性連接部受到外部壓力能發生彈性形 變0 [0004] 當該主電池和備用電池同時放置於該電子裝置中後,該 電連接件被推動至一預定位置而使得該第二末端壓迫該 彈性連接部而建立電連接,此時,該第一末端與該主電 099138907 表單編號A0101 第4頁/共17頁 0992067790-0 201220581 [0005] Ο [0006] [0007]Ο [0008] 099138907 池相接觸,該第二末端與該備用電池相分離;當該主電 池被取出後,該彈性連接部對該電連接件施加彈性推力 ,使得該電連接件移動直至該第二末端與該備用電池相 接觸而建立電連接。 本發明一種更換電池不斷電的電子裝置,在主電池和備 用電池都裝入電子裝置中時,只有主電池給該電子裝置 供電;在更換主電池過程中由備用電池給電子裝置供電 ,從而保持電池電源與電路板的持續接通,無需關機, 無手機電源中斷的狀況。 【實施方式】 請參考圖1、圖2及圖3,本發明電子裝置1可為各種使用 電池的電子裝置,如手機、筆記本電腦等,下面以手機 為例來描述本發明。該手機1包括一主體10、一主電池20 、一備用電池30和一電路板50。 該主電池20的一侧設有電極21,該備用電池30的一側設 有傾斜的電極31,該備用電池30的背部形成有腔體32。 該主電池20的厚度和備用電池30的厚度大致相同,主電 池20的尺寸大於備用電池30的尺寸。 該主體10形成有一電池倉40。在電池倉40的邊緣處設有 多個凹進的收容部11。在本實施方式中,該收容部11的 數量為3。每個收容部11均收容有一彈性連接部12,該彈 性連接部12連接在收容部11的一侧壁上,該彈性連接部 12受到外部壓力能發生彈性形變。在本實施方式中,該 彈性連接部12為彈簧。該電池倉40兩個相對的沿縱向延 伸的側壁各凸出有一分隔體41,該兩個分隔體41之間形 表單編號Α0101 第5頁/共17頁 0992067790-0 201220581 成開口 42。在本發明的另一實施方式中,該分隔體41為 一整體,該分隔體41形成有一通孔。該分隔體41把電池 倉40分為兩部分,即第一電池倉43及第二電池倉44,該 第一電池倉43用於收容該主電池20,該第二電池倉44用 於收容該備用電池30。 [0009] 在電池倉4 0的沿橫向延伸的兩個邊緣處還分別設有一凹 進部,即第一凹進部1 3和第二凹進部1 4。該兩個凹進部 13、14允許用戶的手指部分伸入以對主電池20和備用電 池30施加作用力以取出主電池20和備用電池30。 [0010] 該電路板50位於電池倉40的底部,其設置有多個電連接 件60,每個電連接件60可移動的連接於該電路板50,通 過連接到該電連接件60的電池給該電子裝置1供電。每個 電連接件60包括第一末端61和第二末端62,該第一末端 61用於穿過備用電池30的背部與該主電池20相接觸以建 立電連接,該第二末端62用於與該備用電池30相接觸以 建立電連接。每個電連接件60為大致為圓柱體狀,在本 實施方式中,該第二末端62凸出有凸塊621,該凸塊621 具有與備用電池30的電極31對應的斜面。該電連接件60 由銅、is及銀中的一種或多種金屬材料製成。 [0011] 在本實施方式中,該電路板50上還設置有一凸出部51, 該凸出部51位於該第二電池倉44中。裝配後,該備用電 池30的腔體32與該凸出部51相配合,該腔體32收容該凸 出部51後該備用電池30位於該凸出部51上。該電連接件 60的第一末端61穿過該凸出部51後進而再穿過該分隔體 41的開口42,故,該電連接件60的第一末端、第二末端 099138907 表單編號A0101 第6頁/共17頁 0992067790-0 201220581 、62都露出於該凸出部51。在本實施方式中,該電連 接件60的第二末端62的高度與主體1〇的高度相同。 [0012] Ο [0013] 0 [0014] 請一併參考圖4,當裝入主電池2〇於第一電池倉43中時, 该電連接件60被推動至一預定位置而使得該第二末端62 壓迫該彈性連接部12而建立電連接,此時,該第—末端 61與該主電池20相接觸’該第二末端62與該備用電池3〇 相分離,即該主電池20的電極21壓接該電連接件60的第 —末端61 ’該電連接件60的第一末端61電連接該主電池 20及該電連接件6〇連接該電路板5〇,故,該主電池2〇給 該電子裝置1供電。此時朱出的備用電池3〇將不會影響該 電子裝置1的使用。 當裝入主電池20和備用電池30於電池倉40中時,該主電 池2 0的電極21電連接該電連接件60的第一末端61及推動 電連接件60的第二末端62壓接彈性連接部12產生一彈性 推力(與圖4裝入主電池20情況相同),該第二末端62與 該備用電池30相分離,故,僅有主零崦20給該電子裝置1 供電。 請一併參考圖5,當取出主電池20只剩下備用電池3〇在電 池倉40中時’該彈性連接部12對該電連接件60施加該彈 性推力’使得該電連接件60移動直至該第二末端62與該 備用電池30相接觸而建立電連接,即該電連接件的第 一末端62電連接該備用電池30的電極31及該電連接件 連接該電路板50,故,該備用電池30給該電子裝置1供電 。在取出耗盡完電量的主電池20後裳入一備用主電池( 圖中未示)時,該備用主電池和備用電池3〇與電連接件 099138907 表單編號Α0101 第7頁/共17頁 0992067790-0 201220581 6 0的連接關係又回到圖1中所示的關係,即為裝入主電池 20和備用電池30於電池倉40中的情形。 [0015] 在主電池20被取出時,由於第二末端62的斜面凸塊621先 與備用電池30的斜面電極31接觸建立電連接,在該短暫 的時間裏,主電池20和備用電池30處於並聯的連接關係 ,故,提供給手機不變的電源電壓,使得手機此時不會 斷電。 [0016] 本發明的電子裝置1無論是裝入主電池20、備用電池30或 備用主電池中的一個或兩個,都只有一個電池連接到該 電連接件6 0,即只有一個電池給該電子裝置1供電。因此 ,本發明在主電池和備用電池都裝入電子裝置中時,只 有主電池給該電子裝置供電;在更換主電池過程中由備 用電池給電子裝置供電,從而保持電池電源與電路板的 持續接通,無需關機,無手機電源中斷的狀況。 [0017] 儘管對本發明的優選實施方式進行了說明和描述,但是 本領域的技術人員將領悟到,可以作出各種不同的變化 和改進,這些都不超出本發明的真正範圍。因此期望, 本發明並不局限於所公開的作為實現本發明所設想的最 佳模式的具體實施方式,本發明包括的所有實施方式都 有所附權利要求書的保護範圍内。 【圖式簡單說明】 [0018] 圖1是本發明電子裝置一實施方式的示意圖; [0019] 圖2是本發明電子裝置一實施方式的分解結構示意圖; [0020] 圖3是本發明電子裝置的主電池和備用電池的連接關係圖 099138907 表單編號Α0101 第8頁/共17頁 0992067790-0 201220581 [0021] 圖4是本發明電子裝置一實施方式被取出備用電池的示意 圖;及 [0022] 圖5是本發明電子裝置一實施方式被取出主電池的示意圖 〇 [0023] 【主要元件符號說明】 電子裝置:1 [0024] 〇 [0025] 主體:10 收容部:11 [0026] 彈性連接部:12 [0027] 第一凹進部:13 [0028] 第二凹進部:14 [0029] 主電池:20 π [0030] 〇 電極:21 [0031] 備用電池:3 0 [0032] 電極:31 [0033] 腔體:32 [0034] 電池倉:40 [0035] 分隔體:41 [0036] 開口 : 42 099138907 表單編號A0101 第9頁/共Π頁 0992067790-0 201220581 [0037] 第一電池倉:43 [0038] 第二電池倉:44 [0039] 電路板:50 [0040] 凸出部:51 [0041] 電連接件:60 [0042] 第一末端:61 [0043] 第二末端:6 2 [0044] 凸塊:621 0992067790-0 099138907 表單編號A0101 第10頁/共17頁201220581 VI. Description of the Invention: [Technical Field] [0001] The present invention relates to an electronic device, and more particularly to an electronic device for replacing a battery without power. [Previous Technology] [0002] Under normal circumstances, a battery-powered electronic device, such as a mobile phone or a laptop computer, must be turned off to replace another backup battery or be charged with a direct charge when the battery power is used up. . However, shutting down the battery will interrupt the current operation of the mobile phone, and it takes a certain amount of time to turn it off and then turn it on again. Some mobile phones need to be reset after the power is turned off. This brings great inconvenience to the user. If you use a direct charge and you must be close to the power supply, it will also cause inconvenience to the user. SUMMARY OF THE INVENTION [0003] In order to solve the above problems, an object of the present invention is to provide an electronic device for replacing a battery without power, including a main body, a circuit board, a main battery, and a backup battery. An electrical connector is disposed on the board, the electrical connector is movably coupled to the circuit board, the electrical connector includes a first end and a second end, the first end is configured to pass through the back of the backup battery and the main battery Contacting to establish an electrical connection, the second end is for contacting the backup battery to establish an electrical connection; the body is provided with an elastic connection portion, and the elastic connection portion is elastically deformed by external pressure energy. [0004] After the battery and the backup battery are simultaneously placed in the electronic device, the electrical connector is pushed to a predetermined position such that the second end presses the elastic connecting portion to establish an electrical connection. At this time, the first end and the main battery 099138907 Form No. A0101 Page 4 of 17 0992067790-0 201220581 [0005] 0006 [0006] [0007] 0008 [0008] 099138907 Pool contact, the second end and the backup battery Phase separation; when the primary battery is removed, the resilient connection applies an elastic thrust to the electrical connector such that the electrical connector moves until the second end contacts the backup battery to establish an electrical connection. The electronic device for replacing the battery uninterrupted power, when the main battery and the backup battery are all loaded into the electronic device, only the main battery supplies power to the electronic device; during the process of replacing the main battery, the backup device supplies power to the electronic device, thereby Keep battery power and circuit board continuously connected, no need to shut down, no power supply interruption. [Embodiment] Referring to FIG. 1, FIG. 2 and FIG. 3, the electronic device 1 of the present invention can be used for various electronic devices using batteries, such as mobile phones, notebook computers, etc., and the present invention is described below by taking a mobile phone as an example. The mobile phone 1 includes a main body 10, a main battery 20, a backup battery 30, and a circuit board 50. One side of the main battery 20 is provided with an electrode 21, and one side of the backup battery 30 is provided with an inclined electrode 31, and a cavity 32 is formed at the back of the backup battery 30. The thickness of the main battery 20 is substantially the same as the thickness of the backup battery 30, and the size of the main battery 20 is larger than the size of the backup battery 30. The body 10 is formed with a battery compartment 40. A plurality of recessed receiving portions 11 are provided at the edges of the battery compartment 40. In the present embodiment, the number of the accommodating portions 11 is three. Each of the accommodating portions 11 receives an elastic connecting portion 12, and the elastic connecting portion 12 is coupled to a side wall of the accommodating portion 11, and the elastic connecting portion 12 is elastically deformed by external pressure. In the present embodiment, the elastic connecting portion 12 is a spring. The two opposite longitudinally extending side walls of the battery compartment 40 each protrude with a partition 41 between the two partitions. Form number Α0101 Page 5 of 17 0992067790-0 201220581 is an opening 42. In another embodiment of the invention, the separator 41 is a unitary body, and the separator 41 is formed with a through hole. The partition 41 divides the battery compartment 40 into two parts, namely a first battery compartment 43 and a second battery compartment 44, the first battery compartment 43 is for accommodating the main battery 20, and the second battery compartment 44 is for accommodating the battery compartment 40. Backup battery 30. Further, a recessed portion, that is, a first recessed portion 13 and a second recessed portion 14 are respectively provided at both edges of the battery compartment 40 which extend in the lateral direction. The two recessed portions 13, 14 allow the user's finger portion to extend to apply a force to the main battery 20 and the backup battery 30 to take out the main battery 20 and the backup battery 30. [0010] The circuit board 50 is located at the bottom of the battery compartment 40, and is provided with a plurality of electrical connectors 60, each of which is movably connected to the circuit board 50 by a battery connected to the electrical connector 60. The electronic device 1 is powered. Each electrical connector 60 includes a first end 61 for contacting the back of the backup battery 30 and a second end 62 for establishing an electrical connection, the second end 62 for Contact with the backup battery 30 to establish an electrical connection. Each of the electrical connectors 60 has a substantially cylindrical shape. In the present embodiment, the second end 62 protrudes from a bump 621 having a slope corresponding to the electrode 31 of the backup battery 30. The electrical connector 60 is made of one or more of copper, is, and silver. [0011] In the embodiment, the circuit board 50 is further provided with a protruding portion 51, and the protruding portion 51 is located in the second battery compartment 44. After assembly, the cavity 32 of the backup battery 30 cooperates with the projection 51. After the cavity 32 receives the projection 51, the backup battery 30 is located on the projection 51. The first end 61 of the electrical connector 60 passes through the protrusion 51 and then passes through the opening 42 of the partition 41. Therefore, the first end and the second end of the electrical connector 60 are 099138907. Form No. A0101 6 pages/total 17 pages 0992067790-0 201220581, 62 are exposed to the protruding portion 51. In the present embodiment, the height of the second end 62 of the electrical connector 60 is the same as the height of the body 1〇. [0012] [0014] Please refer to FIG. 4 together, when the main battery 2 is mounted in the first battery compartment 43, the electrical connector 60 is pushed to a predetermined position such that the second The end 62 presses the elastic connecting portion 12 to establish an electrical connection. At this time, the first end 61 is in contact with the main battery 20. The second end 62 is separated from the backup battery 3, that is, the electrode of the main battery 20. 21 is crimped to the first end 61 of the electrical connector 60. The first end 61 of the electrical connector 60 is electrically connected to the main battery 20 and the electrical connector 6 is connected to the circuit board 5, so the main battery 2供电 Powering the electronic device 1. At this time, the spare battery 3 will not affect the use of the electronic device 1. When the main battery 20 and the backup battery 30 are loaded into the battery compartment 40, the electrode 21 of the main battery 20 is electrically connected to the first end 61 of the electrical connector 60 and the second end 62 of the push electrical connector 60 is crimped. The elastic connecting portion 12 generates an elastic thrust (the same as in the case of the main battery 20 of Fig. 4), and the second end 62 is separated from the backup battery 30, so that only the main zero 20 supplies power to the electronic device 1. Referring to FIG. 5 together, when the main battery 20 is taken out and only the backup battery 3 is left in the battery compartment 40, the elastic connecting portion 12 applies the elastic thrust to the electrical connector 60 so that the electrical connector 60 moves until The second end 62 is in contact with the backup battery 30 to establish an electrical connection, that is, the first end 62 of the electrical connector is electrically connected to the electrode 31 of the backup battery 30 and the electrical connector is connected to the circuit board 50. The backup battery 30 supplies power to the electronic device 1. After the main battery 20 that has been depleted of power is taken out and a spare main battery (not shown) is thrown in, the spare main battery and the backup battery are connected to the electrical connector 099138907. Form No. 1010101 Page 7 / 17 pages 0992067790 The connection relationship of -0 201220581 60 again returns to the relationship shown in FIG. 1, that is, the case where the main battery 20 and the backup battery 30 are loaded in the battery compartment 40. [0015] When the main battery 20 is taken out, since the bevel bump 621 of the second end 62 first contacts the bevel electrode 31 of the backup battery 30 to establish an electrical connection, the main battery 20 and the backup battery 30 are in the short time. Parallel connection relationship, therefore, to provide a constant power supply voltage to the mobile phone, so that the mobile phone will not be powered off at this time. [0016] The electronic device 1 of the present invention, whether loaded in one or both of the main battery 20, the backup battery 30, or the backup main battery, has only one battery connected to the electrical connector 60, that is, only one battery is provided for the The electronic device 1 is powered. Therefore, in the present invention, when both the main battery and the backup battery are loaded into the electronic device, only the main battery supplies power to the electronic device; during the process of replacing the main battery, the backup battery supplies power to the electronic device, thereby maintaining the battery power and the continuity of the circuit board. Turn on, no need to shut down, no power supply interruption. While the invention has been described and described with reference to the preferred embodiments of the present invention, it will be understood that various changes and modifications may be made without departing from the true scope of the invention. It is therefore intended that the invention not be limited to the particular embodiments of the invention disclosed herein, 1 is a schematic view of an embodiment of an electronic device according to the present invention; [0019] FIG. 2 is an exploded perspective view of an embodiment of an electronic device of the present invention; [0020] FIG. FIG. 4 is a schematic diagram of a backup battery in which an embodiment of the electronic device of the present invention is taken out; and [0022] FIG. 4 is a schematic diagram of a connection between a main battery and a backup battery. 099138907 Form No. 1010101 Page 8 of 17 0992067790-0 201220581 [0021] FIG. 5 is a schematic diagram of the main battery in which an embodiment of the electronic device of the present invention is taken out [0023] [Description of main component symbols] Electronic device: 1 [0024] 〇 [0025] Main body: 10 accommodating portion: 11 [0026] Elastic connection portion: 12 [0027] First recessed portion: 13 [0028] Second recessed portion: 14 [0029] Main battery: 20 π [0030] 〇 electrode: 21 [0031] Backup battery: 3 0 [0032] Electrode: 31 [0033] Cavity: 32 [0034] Battery compartment: 40 [0035] Separator: 41 [0036] Opening: 42 099138907 Form No. A0101 Page 9 / Total Page 0992067790-0 201220581 [0037] First Battery Compartment: 43 [0038] Second battery compartment: 44 [0039] Circuit board: 50 [0040] Projection: 51 [0041] Electrical connector: 60 [0042] First end: 61 [0043] Second end: 6 2 [0044] Bump: 621 0992067790-0 099138907 Form number A0101 Page 10 of 17