201018039 九、發明說明: 【發明所屬之技術領域】 本發明疋有關於一種儲電模組,特別是有關於一種儲 電器’、電路板之連接係-角插人或平行焊接的儲電模組。 【先前技術】 、電能的儲存部件在我們的生活之中佔了重要的一部 ❺ 力’例如用於電路中的電容以及用於可播式裝置的電池之 m的件’電能健存部件影響了電子裝置的執行效能以及 作業時間,而性能和可靠性是每個設計所要求的β 在過去’備份電源的解決方案就是電池,主要是鉛酸 電池°而現在有更多的選擇來滿足備份電源的需求,包括 鋰離子、鎳氫電池等先進的電池技術、燃料電池、太陽能 電池以及雙層電容等。 鐘離子、錄氫電池和其它電池技術在提供可靠的能量 Φ 儲存解決方案上已取得很大進步。它們已在許多設計中得 到應用,並解決了以往的許多成本問題,但仍面臨著與使 用錯酸電池時一樣的問題,即所有這些技術都是基於化學 反應’它們的使用壽命有限並受溫度的限制,而且對大電 流的需求也會直接影響它們的使用壽命。因此,這些電池 技術在持久性和可靠應用方面還面臨著一些挑戰。 超級電容,或者稱為電化學雙層電容(EDLC),與電解 電容相比’具有非常高的功率密度和實質的能量密度。在 -過去幾年,這些元件已應用在消費電子、工業和汽車等許 201018039 多領域。如今,已有超級電容是功率密度高達廳⑽的 率元件’超級電容的尺寸非常緊凑(小的超級電容通 常^有郵票大小或者更小)’但它們可儲存的能量比傳統電 今要高得多,大多數超級電容的容量用法拉(f)標定,通常 在1F到5’_F H且放電速度可錢快也可以很慢。 它們的使用壽命非常長’可被設計成用於終端產品的整個 生命週期。 參 未來如超級電容及磁電容這類的高效能儲電元件會更 為廣泛地應用在許多領域上,因此,提出—種储電模組以 利其實際需求^ 【發明内容】 因此本發明之目的在於提供一種儲電模組。 依據本發明之-種實施例,儲電模組包括電路板以及 至少-儲電器。儲電器是置於電路板上,儲電器具有至少 -正極及至少-負極,正極及負極係匕型,一端與儲電器 連接,另一端插入電路板與電路板電性連接。 【實施方式】 接下來請參照本發明實施例的詳細說明,其中所提到 的範例會連同圖式一同進行說明。在任何可能的情況下, 圖式及說明中所使用的相同參考數標都代表了相同或類似 的部件。 下述實施例中的儲電器是儲電元件封裝後的構造,而 201018039 儲電元件具有高效能且可做到如郵票或者更小的尺寸,如 超級電容、磁電容、以及微(小)型平面式電池等,其儲電容 量大,可提供多次的充放電,就某特定儲電元件而言,其 能量密度可達500wh/kg。再者,下述實施例以儲電器具有 二組正負極為例加以說明,在其他的實施例中,單個儲電 器可具有一組或三組以上的正負極以供各種相關產業作不 同之應用。 ❹ 參照第1圖’其係螬'示本發明第一個實施例的一種儲 電模組的俯視圖。此儲電模組包括儲電器11〇及電路板 130。儲電器11〇是置於電路板130上,儲電器具有二 組正負極l〇5a、105b及106a、106b與電路板130電性連 接。在此實施例中’儲電元件102上之正極接點(如1 〇7)或 負極接點(如108)的數目只是用以舉例說明,並非用以限制 本發明。將不同數目之正極接點或負極接點進行串聯或並 聯連接後’可形成不同組數之正負極,如l〇5a、l〇5b及 ❹ i〇6a、106b。正極及負極可視實際應用之需求而置於同邊、 鄰邊、或對邊。 參照第2圖,其係繪示本發明第二個實施例的一種儲 電模組的側視圖。此儲電模組包括儲電器210及電路板 230。儲電器210是置於電路板230上。儲電器210之正極 205a及負極205b是位於對邊上,正極205a及負極205b皆 是L型,一端與儲電器210連接,另一端插入電路板230 與電路板230電性連接❶也就是說’儲電器210的正極205a •及負極205b具有彎角且插入電路板230而與電路板230電 201018039 性連接。圖中標為291及292之部分為電路板230上之電 路。電路板230可以是印刷電路板、印刷電路軟板、或陶 瓷電路板。電路板230内可具有至少一導線,當有多個儲 電器置於電路板230上時,儲電器之間的串聯或並聯可利 用置於電路板230内的導線來完成,只需在電路板23〇上 設置導線之外接點即可。 在其他的實施例中’儲電器與電路板電性連接的方式 可以是平行焊接的,如第3圖及第4囷所示。在第3圖中, 儲電器310之正極305a及負極305b是位於對邊上,正極 305a及負極305b與電路板33〇平行,並以焊接方式與電路 板330電性連接。在第4圖中,儲電器41〇之正極4〇5a及 負極405b是位於底邊上,其亦是以平行焊接方式與電路板 430電性連接。 雖然本發明已以一較佳實施例揭露如上,然其並非用 以限定本發明’任何熟習此技術者,在不脫離本發明之精 神和範圍内,當可作各種之更動與潤飾,因此本發明之保 護範圍當視後附之申請專利範圍所界定者為準。 【圖式簡單說明】 為讓本發明之上述和其他目的、特徵、優點與實施例 能更明顯易懂,所附圖式之詳細說明如下: 第1圖係繪示依照本發明第一個實施例的一種儲電模 組的俯視圖。 201018039 第2圖係繪示依照本發明第二個實施例的一種儲電模 組的側視圖。 第3圖係繪示依照本發明第三個實施例的一種儲電模 組的側視圖。201018039 IX. Description of the invention: [Technical field of the invention] The present invention relates to a power storage module, and more particularly to a storage device, a connection system of a circuit board, a corner insertion or a parallel welding power storage module. . [Prior Art] The storage component of electrical energy has occupied an important part in our lives, such as the capacitance used in the circuit and the component of the battery for the broadcastable device. The performance and operation time of the electronic device, while the performance and reliability are required for each design. In the past, the solution for backup power supply was the battery, mainly lead-acid battery. Now there are more options to meet the backup. Power requirements include advanced battery technologies such as lithium-ion and nickel-metal hydride batteries, fuel cells, solar cells, and double-layer capacitors. Clock ions, hydrogen recording batteries and other battery technologies have made great strides in providing reliable energy Φ storage solutions. They have been used in many designs and have solved many of the cost problems of the past, but still face the same problems as when using acid-corrected batteries, ie all of these technologies are based on chemical reactions 'they have a limited lifetime and are subject to temperature The limits, and the need for high currents, also directly affect their useful life. As a result, these battery technologies face some challenges in terms of durability and reliability. Supercapacitors, or electrochemical double layer capacitors (EDLC), have very high power densities and substantial energy densities compared to electrolytic capacitors. In the past few years, these components have been used in many fields of consumer electronics, industry and automobiles. Today, supercapacitors are power-density devices with a high density (10). The size of the supercapacitors is very compact (small supercapacitors usually have a stamp size or smaller) but they can store more energy than traditional electrics. Much more, the capacity of most supercapacitors is pulled (f), usually at 1F to 5'_F H and the discharge rate can be fast or slow. They have a very long service life' that can be designed for the entire life cycle of an end product. In the future, high-performance energy storage components such as supercapacitors and magnetic capacitors will be more widely used in many fields. Therefore, a storage module is proposed to meet its actual needs. [Inventive content] Therefore, the present invention The purpose is to provide a power storage module. According to an embodiment of the invention, the power storage module comprises a circuit board and at least a storage device. The storage device is placed on the circuit board, and the storage device has at least a positive electrode and at least a negative electrode, a positive electrode and a negative electrode, and one end is connected to the storage device, and the other end is inserted into the circuit board and electrically connected to the circuit board. [Embodiment] Reference is now made to the detailed description of embodiments of the invention, in which Wherever possible, the same reference numerals are used in the drawings and the description The storage device in the following embodiments is a packaged structure of the storage element, and the 201018039 storage element has high performance and can be implemented as a stamp or a smaller size, such as a super capacitor, a magnetic capacitor, and a micro (small) type. A flat battery, etc., has a large storage capacity and can provide multiple charge and discharge. For a particular power storage component, its energy density can reach 500 wh/kg. Furthermore, the following embodiments are described by taking a storage device having two sets of positive and negative electrodes as an example. In other embodiments, a single storage device may have one or more sets of positive and negative electrodes for different applications in various related industries. BRIEF DESCRIPTION OF THE DRAWINGS A top view of a power storage module according to a first embodiment of the present invention is shown in Fig. 1 ''system''. The power storage module includes a storage device 11 and a circuit board 130. The storage device 11 is placed on the circuit board 130. The storage device has two sets of positive and negative electrodes l〇5a, 105b and 106a, 106b electrically connected to the circuit board 130. The number of positive contacts (e.g., 1 〇 7) or negative contacts (e.g., 108) on the storage element 102 in this embodiment is for illustrative purposes only and is not intended to limit the invention. Different numbers of positive or negative contacts are connected in series or in parallel to form a different number of positive and negative electrodes, such as l〇5a, l〇5b and ❹i〇6a, 106b. The positive and negative electrodes can be placed on the same side, adjacent side, or opposite side depending on the needs of the actual application. Referring to Fig. 2, there is shown a side view of a power storage module in accordance with a second embodiment of the present invention. The power storage module includes a storage device 210 and a circuit board 230. The storage device 210 is placed on the circuit board 230. The positive electrode 205a and the negative electrode 205b of the storage device 210 are located on opposite sides, and the positive electrode 205a and the negative electrode 205b are both L-shaped, one end is connected to the storage device 210, and the other end is inserted into the circuit board 230 and electrically connected to the circuit board 230. The positive electrode 205a and the negative electrode 205b of the storage device 210 have an angled shape and are inserted into the circuit board 230 to be electrically connected to the circuit board 230. Portions labeled 291 and 292 in the figure are circuits on circuit board 230. Circuit board 230 can be a printed circuit board, a printed circuit board, or a ceramic circuit board. The circuit board 230 can have at least one wire therein. When a plurality of storage devices are placed on the circuit board 230, the series or parallel connection between the storage devices can be completed by using wires placed in the circuit board 230, only on the circuit board. Set the external contacts on the 23 〇. In other embodiments, the manner in which the electrical storage device is electrically connected to the circuit board may be parallel welded as shown in Figures 3 and 4. In Fig. 3, the positive electrode 305a and the negative electrode 305b of the electrical storage device 310 are located on opposite sides, and the positive electrode 305a and the negative electrode 305b are parallel to the circuit board 33A, and are electrically connected to the circuit board 330 by soldering. In Fig. 4, the positive electrode 4〇5a and the negative electrode 405b of the accumulator 41 are located on the bottom side, and are also electrically connected to the circuit board 430 in a parallel soldering manner. Although the present invention has been described above in terms of a preferred embodiment, it is not intended to limit the invention, and the invention may be modified and modified without departing from the spirit and scope of the invention. The scope of the invention is defined by the scope of the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features, advantages and embodiments of the present invention will become more <RTIgt; A top view of a power storage module of an example. 201018039 Figure 2 is a side elevational view of a storage module in accordance with a second embodiment of the present invention. Figure 3 is a side elevational view of a storage module in accordance with a third embodiment of the present invention.
第4圖係繪示依照本發明第四個實施例的一種儲電模 組的側視圖。 【主要元件符號說明】 102 :儲電元件 291 : 電路 105a :正極 292 : 電路 105b :負極 305a :正極 110 :儲電器 305b :負極 130 :電路板 310 : 儲電器 107 :正極接點 330 : 電路板 108 :負極接點 405a :正極 205a :正極 405b :負極 205b :負極 410 : 儲電器 210 :儲電器 430 : 電路板 230 :電路板Figure 4 is a side elevational view of a storage module in accordance with a fourth embodiment of the present invention. [Main component symbol description] 102: Power storage element 291: Circuit 105a: Positive electrode 292: Circuit 105b: Negative electrode 305a: Positive electrode 110: Storage device 305b: Negative electrode 130: Circuit board 310: Storage device 107: Positive contact 330: Circuit board 108: negative electrode contact 405a: positive electrode 205a: positive electrode 405b: negative electrode 205b: negative electrode 410: storage device 210: storage device 430: circuit board 230: circuit board