M332267 - 八、新型說明: 【新型所屬之技術領域】 本創作係有關於一種充電電池,尤其是一種具充電 功能之插片式防呆電池組。本裝置之電池組於充電時, 可由兩插片直接***充電器中之正、負極;當使用該電池 組的時候,該正、負極導電片可分別外接一電裝置的正、 ,負極,以提供電力於該裝置。 I 【先前技術】 在習知技術中若要置入四顆電池的電器裝置時,使 用者常常無法明確的分辨電池的極性,必須反覆的測試 才能夠得到正確的方向。 習知技術中相關技術如中華民國公告號Μ 3 0 2 7 7 6係 一種鋰聚電池之結構改良,該鋰聚電池係由多數電池單體所疊 設而成,並使各電池單體之正、負極加以串聯而連接至一連接 器上;並於該二外侧之電池單體之端面分別設置有一固定板, _ 且可依所需於各電池單體之相互對應之接觸面間另設一固定 板,並於各固定板之外部連同電池單體環設有束緊單元。藉 此,可使各電池單體受壓力之變化量變小,並降低放電溫度, 改善鐘聚電池之老化現象,而可產生較佳電能之功效。 上述習知技術中,電池的極性具等方向性,每個方向 ,可以置入電裝置中’所以使用者無法輕易分辨電池的 置入方向,無法立即得到正確極性連接方式,必須要操 作數次才能達到置換電池的目的,相當不具便利性。 5 M332267 【新型内容】 所以本創作的目的係為解決上述習知技術上的問 題,本創作中提出一種具充電用之外插片的防呆電池 組。該電池組具不等方向性,只有一個方向可以置入電 裝置中,所以使用者可以輕易分辨電池的置入方向,而 得到正確極性連接方式,所以只要一次操作即可將達成 置換電池的目的,而不需重複操作以得到正確的極性連 接。 • 為達到上述目的本創作中提出一種具充電功能之插 片式防呆電池組,包含下列元件:一上殼體’該上殼體略 呈8字型之中空殼體;一下殼體,該下殼體略呈8字型之 中空殼體,且有一底面包覆;;一電池組,該電池組以二 顆電池相互並聯的方式,且該電池組置於上、下殼體中; 一絕緣基板,該絕緣基板内設有一過電壓保護電路裝 置,用來防止過電壓、過電流的情況發生,使電流能夠 流通;一正、負極導電片,該正、負極導電片位在絕緣基 板的上方之左右兩側,用來連結該絕緣基板中的正、負 • 極輸出端;一絕緣板,該絕緣板用來阻隔各元件之間電流 的流通,且該絕緣板位在絕緣基板及正、負極導電片之 間;一定位框,該定位框略呈8字型之中空殼體,用來阻 隔各元件之間電流的流通,且該定位框置於絕緣基板與 電池組之間;兩片插片’該兩片插片位於該絕緣基板的下 方之左、右兩側,該兩片插片之一插片連結一正極輸出 端,該兩片插片之另一插片連結一負極輸出端;以及其中 該電池組中具有兩相互並聯之電池,兩電池的正極由一 正極延伸線並聯,兩電池的負極由一負極延伸線並聯, 6 M332267 該兩電池之正負兩極透過正、負極延伸線連接到絕緣基 板中的正極輸入端及負極輸入端;且該正極導電片連接 到正極輸入出端,該負極導電片連接到負極輸出端,使 電流能夠流通,達到利用電池組供電之目的;其中電池組 於充電時,可由兩插片直接***充電器中之正、負極;當使 用該電池組的時候,該正、負極導電片可分別外接一 ^裝 置的正、負極,以提供電力於該裝置。 由下文的說明可更進一步瞭解本創作的特徵及其優 點,閱讀時並請參考附圖。 【實施方式】 茲謹就本案的結構組成,及所能產生的功效與優 點,配合圖式,舉本案之一較佳實施例詳細說明如下。 請參考圖一至圖四,顯示本創作之具充電功能之插 片式防呆電池組,包含下列元件: 一上殼體2,該上殼體2略呈8字型之中空殼體, 在該上殼體2的兩側之中間部位延伸出兩條連接條2 〇, 該兩連接條20上各有一扣柱201,用來與其他元件固 定之用,該上殼體2之上端面中各有一左、右圓孔21、 22,該上殼體2之一侧面上各有一左、右之定位孔23、 24〇(如圖一 A所示) 一下殼體3,該下殼體3略呈8字型之中空殼體, 具有一底面包覆;該下殼體3的兩側之中間部位延伸出兩 連接條3 0,且該兩連接條3 0上各有一扣孔3 〇 1,可與 扣柱201扣合。(如圖一 B所示) 7 M332267 一電池組4,該電池組4以二顆電池相互並聯的方 式;且該電池組4置於上、下殼體中。其中該電池組可以 為經電池。 一絕緣基板5 3,該絕緣基板5 3内設有一過電壓保 護電路裝置5 3 0,用來防止過電壓、過電流的情況發生, 使電流能夠流通。 • 一正、負極導電片51、52,該正、負極導電片51、 -5 2位在絕緣基板的上方之左右兩側,用來連結該絕緣基 φ 板中的正、負極輸出端。 一絕緣板5 5,該絕緣板5 5用來阻隔各元件之間電 流的流通,且該絕緣板5 5位在絕緣基板5 3及正、負極 導電片5 1、5 2之間;其中該絕緣板5 5可以是雙面膠。 一定位框54,該定位框54略呈8字型之中空殼體, 用來阻隔各元件之間電流的流通,且該定位框5 4置於絕 緣基板5 3與電池組4之間。 φ 兩片插片6,該兩片插片位於該絕緣基板5 3的下方 之左、右兩側,該兩片插片 6之一插片連結一正極輸出 端,該兩片插片6之另一插片連結一負極輸出端,且該 兩片插片6分別可突出於上殼體的左、右之定位孔23、 24之外。(請參考圖二) 本創作中電池組4中具有兩相互並聯之電池,兩電 池的正極由一正極延伸線5 0 1並聯,兩電池的負極由一 負極延伸線502並聯,該兩電池之正負兩極透過正、負 極延伸線5 0 1、5 0 2連接到絕緣基板5 3中的正極輸入 8 M332267 • 端及負極輸入端;且該正極導電片51連接到正極輸入出 端,該負極導電片5 2連接到負極輸出端,使電流能夠流 通,達到利用電池組供電之目的。 如圖三所示,本創作中正、負極導電片與絕緣基板 相互連結,且固定於定位框之上,且設置於上殼體之内, 之後上、下殼體再套入電池組的正、負極端,則上殼體 的連接條與下殼體的連接條藉由扣孔及扣柱相互連結固 定0 • 如圖四所示,本創作中之電路圖顯示電池的正極及 負極的輸出端之間並聯該過電壓保護電路裝置,包含一電 池保護IC及相關的匹配元件,以做為過電壓保護電路。 當電池的電壓或電流過大時,該保護電路可以適當的抑 制,以使的電池組可以安全的操作。 本創作的操作說明如下: 係當本裝置之電池組於充電時,可由兩插片直接插 入充電器中之正、負極;當使用該電池組的時候,該正、 ® 負極導電片可分別外接一電裝置的正、負極,以提供電 力於該裝置。 本創作的優點如下: 不等方向性,只有一個方向可以置入電裝置中,所 以使用者可以輕易分辨電池的置入方向,而得到正確極 性連接方式,所以只要一次操作即可將達成置換電池的 百的,而不需重複操作以得到正確的極性連接。 綜上所述,本案人性化之體貼設計,相當符合實際需 9 M332267 求。其具體改進現有缺失 性之進步優點,確實具有 案未曾公開或揭露於國内 專利法規定。 上列詳細說明係 明,惟該實施例並非 離本發明技藝精神所 案之專利範圍中。 ’相較於習知技術明顯 功效之增進,且非易於 與國外之文獻與市場上 針對本發明之一可行實施例 用以限制本發明之專利範圍 為之等效實施或變更,均應 具有突破 達成。本 ,已符合 之具體說 ,凡未脫 包含於本M332267 - VIII. New description: [New technical field] This creation is about a rechargeable battery, especially a plug-in type foolproof battery pack with charging function. When the battery pack of the device is charged, the positive and negative poles of the charger can be directly inserted into the charger by the two inserts; when the battery pack is used, the positive and negative conductive strips can be respectively connected to the positive and negative poles of an electric device, respectively. Provide power to the device. I [Prior Art] In the prior art, when an electric device of four batteries is to be placed, it is often impossible for the user to clearly distinguish the polarity of the battery, and the test must be repeated to obtain the correct direction. Related technologies in the prior art, such as the Republic of China Announcement No. 0 3 0 2 7 7 6 is a structural improvement of a lithium poly battery which is formed by stacking a plurality of battery cells and making each battery cell The positive and negative electrodes are connected in series to a connector; and a fixing plate is respectively disposed on the end faces of the battery cells on the outer side of the two outer batteries, and may be separately provided between the mutually corresponding contact faces of the battery cells. A fixing plate is provided, and a tightening unit is provided outside the fixing plates together with the battery cell ring. As a result, the amount of change in the pressure of each battery cell can be reduced, the discharge temperature can be lowered, the aging phenomenon of the battery can be improved, and the effect of better electric energy can be produced. In the above-mentioned prior art, the polarity of the battery is equidirectional, and each direction can be placed in the electric device. Therefore, the user cannot easily distinguish the direction in which the battery is placed, and the correct polarity connection method cannot be obtained immediately, and must be operated several times. In order to achieve the purpose of replacing the battery, it is quite inconvenient. 5 M332267 [New content] Therefore, the purpose of this creation is to solve the above-mentioned problems in the prior art. In the present invention, a foolproof battery pack having a plug for charging is proposed. The battery pack has unequal orientation, and only one direction can be placed in the electric device, so the user can easily distinguish the placement direction of the battery and obtain the correct polarity connection mode, so the purpose of replacing the battery can be achieved in one operation. Without repeating the operation to get the correct polarity connection. • In order to achieve the above objectives, a plug-in type foolproof battery pack with charging function is proposed in the present invention, which comprises the following components: an upper casing 'the upper casing has a slightly 8-shaped hollow casing; the lower casing, The lower casing has a slightly 8-shaped hollow casing and has a bottom surface covering; a battery pack, wherein the battery pack is in parallel with two batteries, and the battery pack is placed in the upper and lower casings. An insulating substrate, wherein the insulating substrate is provided with an overvoltage protection circuit device for preventing overvoltage and overcurrent from occurring, so that current can flow; a positive and negative conductive sheet, the positive and negative conductive sheets are insulated The upper and lower sides of the upper side of the substrate are used to connect the positive and negative pole output ends of the insulating substrate; an insulating plate for blocking the flow of current between the components, and the insulating plate is located on the insulating substrate And a positive and negative conductive sheet; a positioning frame, the positioning frame is slightly 8-shaped hollow shell, used to block the flow of current between the components, and the positioning frame is placed on the insulating substrate and the battery pack Between; two pieces of inserts The chip insert is located on the left and right sides of the insulating substrate, and one of the two inserts is connected to a positive output end, and the other insert of the two inserts is coupled to a negative output end; The battery pack has two batteries connected in parallel with each other. The positive poles of the two batteries are connected in parallel by a positive extension line, and the negative poles of the two batteries are connected in parallel by a negative extension line. 6 M332267 The positive and negative poles of the two batteries are connected to the insulating substrate through the positive and negative extension lines. The positive input terminal and the negative input end; and the positive conductive sheet is connected to the positive input terminal, the negative conductive plate is connected to the negative output terminal, so that the current can flow to achieve the purpose of using the battery pack for power supply; wherein the battery pack is charged The positive and negative electrodes in the charger can be directly inserted into the charger by the two inserts; when the battery pack is used, the positive and negative conductive sheets can be externally connected to the positive and negative electrodes of the device to provide power to the device. The features and advantages of this creation can be further understood by the following description. Please refer to the attached drawings when reading. [Embodiment] In view of the structural composition of the case, and the functions and advantages that can be produced, in conjunction with the drawings, a preferred embodiment of the present invention will be described in detail below. Please refer to FIG. 1 to FIG. 4 to show the plug-in type foolproof battery pack with the charging function of the present invention, which comprises the following components: an upper casing 2, the upper casing 2 has a slightly 8-shaped hollow casing, The middle portion of the upper side of the upper casing 2 extends two connecting strips 2 〇, and each of the connecting strips 20 has a buckle 201 for fixing with other components. The upper end surface of the upper casing 2 is Each of the left and right circular holes 21, 22 has a left and right positioning holes 23, 24 侧面 on one side of the upper casing 2 (as shown in FIG. 1A). The lower casing 3 is lower. A substantially 8-shaped hollow casing has a bottom cover; a middle portion of the lower casing 3 extends from the two connecting bars 30, and each of the connecting bars 30 has a fastening hole 3 〇 1, can be fastened with the buckle 201. (As shown in Figure 1B) 7 M332267 A battery pack 4 in which two batteries are connected in parallel with each other; and the battery pack 4 is placed in the upper and lower casings. The battery pack can be a battery. An insulating substrate 53 is provided with an overvoltage protection circuit device 530 for preventing overvoltage and overcurrent from occurring and allowing current to flow. • A positive and negative conductive sheets 51 and 52. The positive and negative conductive sheets 51 and -5 are placed on the left and right sides of the insulating substrate to connect the positive and negative output terminals of the insulating substrate. An insulating plate 5 5 for blocking the flow of current between the components, and the insulating plate 55 is located between the insulating substrate 53 and the positive and negative conductive sheets 51, 52; The insulating plate 55 may be a double-sided tape. A positioning frame 54 is a substantially 8-shaped hollow casing for blocking the flow of current between the components, and the positioning frame 54 is disposed between the insulating substrate 53 and the battery pack 4. Φ two inserts 6, the two inserts are located on the left and right sides of the insulating substrate 53, and one of the two inserts 6 is connected to a positive output end, and the two inserts 6 The other insert is connected to a negative output end, and the two inserts 6 respectively protrude beyond the left and right positioning holes 23, 24 of the upper casing. (Please refer to Figure 2) In this creation, the battery pack 4 has two batteries connected in parallel with each other. The positive poles of the two batteries are connected in parallel by a positive extension line 501, and the negative poles of the two batteries are connected in parallel by a negative extension line 502. The positive and negative poles are connected to the positive input 8 M332267 of the insulating substrate 53 through the positive and negative extension lines 5 0 1 , 5 0 2 • the terminal and the negative input terminal; and the positive conductive sheet 51 is connected to the positive input terminal, the negative conductive The chip 5 2 is connected to the negative output terminal to allow current to flow to achieve the purpose of powering the battery pack. As shown in FIG. 3, in the present invention, the positive and negative conductive sheets and the insulating substrate are connected to each other, and are fixed on the positioning frame and disposed in the upper casing, and then the upper and lower casings are then inserted into the battery pack. At the negative end, the connecting strip of the upper casing and the connecting strip of the lower casing are fixed to each other by the fastening hole and the buckle column. • As shown in FIG. 4, the circuit diagram in the present invention shows the output ends of the positive and negative electrodes of the battery. The overvoltage protection circuit device is connected in parallel, and includes a battery protection IC and related matching components as an overvoltage protection circuit. When the voltage or current of the battery is too large, the protection circuit can be appropriately suppressed so that the battery pack can be operated safely. The operation of this creation is as follows: When the battery pack of the device is charged, the positive and negative poles of the charger can be directly inserted into the charger; when the battery pack is used, the positive and negative conductive sheets can be externally connected. The positive and negative poles of an electrical device provide electrical power to the device. The advantages of this creation are as follows: unequal orientation, only one direction can be placed in the electrical device, so the user can easily distinguish the placement direction of the battery and get the correct polarity connection mode, so the replacement battery can be achieved in one operation. Hundreds without repeating the operation to get the correct polarity connection. In summary, the humanized design of this case is quite in line with the actual needs of 9 M332267. It has specifically improved the existing advantages of the missing, and indeed has not been disclosed or disclosed in the domestic patent law. The above detailed description is illustrative, but the embodiment is not intended to be limited by the scope of the invention. 'Effective improvements in the performance of the prior art, and which are not readily compatible with foreign patents and markets. The breakthrough was reached. Ben, has been in line with the specifics, where not included in this
10 M332267【圖式簡單說明】 圖一(A)顯示本創作中上殼體的示意圖。 圖一(B )顯示本創作中下殼體的示意圖。 圖一(C )顯示本創作中電池組、絕緣基板、 片及絕緣板所對應的位置的示意圖。 ' 圖二顯示本創作中電池組、正、負極導電片 -電路的關係圖。 圖三顯示本創作中該裝置的組合立體圖。 圖四顯示本創作中電池組及絕緣基板之電【主要元件符號說明】 正、負極導電 與絕緣基板的 路圖。 2 上殼體 3 下殼體 4 電池組 6 插片 2 0 連接條 2 1 圓孔 2 2 圓孔 2 3 定位孔 2 4 定位孔 3 0 連接條 5 1 正極導電片 5 2 負極導電片 11 M332267 5 3 絕緣基板 5 4 定位框 5 5 絕緣板 2 0 1 扣柱 3 0 1 扣孔 5 0 1 延伸線 5 0 2 延伸線 530 過電壓保護電路裝置10 M332267 [Simple description of the drawing] Figure 1 (A) shows a schematic view of the upper casing in this creation. Figure 1 (B) shows a schematic view of the lower casing in the present creation. Figure 1 (C) shows a schematic view of the position of the battery pack, the insulating substrate, the sheet, and the insulating sheet in the present creation. Figure 2 shows the relationship between the battery pack, positive and negative conductive strips - circuits in this creation. Figure 3 shows a combined perspective view of the device in this creation. Figure 4 shows the circuit diagram of the battery pack and the insulating substrate in this creation. [Main component symbol description] The positive and negative conductive and insulating substrates are shown. 2 Upper housing 3 Lower housing 4 Battery pack 6 Insert 2 0 Connecting strip 2 1 Round hole 2 2 Round hole 2 3 Positioning hole 2 4 Positioning hole 3 0 Connecting strip 5 1 Positive electrode tab 5 2 Negative electrode sheet 11 M332267 5 3 Insulation board 5 4 Positioning frame 5 5 Insulation board 2 0 1 Buckle 3 0 1 Button hole 5 0 1 Extension line 5 0 2 Extension line 530 Overvoltage protection circuit device
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