201104942 六、發明說明: 【發明所屬之技術領域】 本發明涉及一種電池技術,尤其涉及一種減緩電池老化方 法。 【先前技術】 當前,鋰電池等可進行充電的電池在日常生活中有廣泛的 應用。該等電池在使用-段時間後,會出現老化問題,從而給 使用者帶來使用上的不便。 為了解決上述問題,如專利申請號為2〇〇71〇113846的中 國大陸專利揭示了一種減緩鋰電池老化的工藝方案,該方案 為:首先,將老化的鋰電池用吸水紙和塑料膜密封包裝;其次, 將密封包裝的链電池放進冰箱的冷束室裡,在零下18度下冰 冷40至56小時;最後’取出密封包裝較電池後,常溫環境 下放置40至56小時。如此,即可減緩電池老化。 惟,上述減緩鐘電池老化的工藝方案複雜及成本高。 【發明内容】 本發明的主要目的係針對上述習知技術存在之缺陷提供 一種操作簡單且低成本的減緩電池老化方法。 為實現上述目的,本發明提供一種減緩電池老化方法,電 池設置於充電系統内,該方法包括如下步驟··首先,充電系統 檢測充電中之電池的溫度是否上升至設定的溫度;然後,若檢 測出充電中之電池的溫度上升至設定的溫度,則充電系統會調 節自身的充電電壓與充電電流使之下降—定幅度。 如上所述,本發明減緩電池老化方法藉由充電系統自動檢 測電池的溫度,依據溫度大小調整充電電流及充電電壓,因而 201104942 可實現減緩電池老化’從而實現操作簡單且低成本β 【實施方式】 為詳細說明本發明之技術内容、構造特徵、所達成的目的 及功效,以下茲例舉實施例並配合圖式詳予說明。 在本發明減緩電池老化方法中,電池設置於充電系統内充 電’在本實施例中電池為經電池。該方法包括如下步驟:首先, 充電系統檢測充電中之電池的溫度是否上升至設定的溫度,假 設充電系統檢測到電池之溫度上升至τ攝氏度;然後,若檢測 出充電中之電池的溫度上升至設定的溫度,則充電系統調節自 身的充電電壓與充電電流使之分別下降的幅度為Ν和Μ。 在一種實施例中’溫度升高到Τ攝氏度後,充電系統提供 的充電電壓和充電電流的下降幅度如下表1。 表1溫度與充電電壓及充電電流的下降幅度關係 T 30< Τ ^35 35< Τ ^40 40< Τ ^45 45< Τ ^50 50< Τ ^55 55< Τ ^ 60 60< Τ N 2% 3% 4% 5% 6% 7% 8% Μ 10% 20% 30% 40% 50% 60% 70% 從上表1可知’假設充電系統提供的基準充電電壓和充電 電流分別為VI伏和II毫安。當溫度上升至τ攝氏度後,則將 充電系統提供的充電電壓為V伏及充電電流為Ϊ毫安調整為: 充電電壓V= Vl*(l-N),充電電流1= II* (1-Μ),從而可減 緩電池老化。 综上所述’本發明減緩電池老化方法藉由充電系統自動檢 測電池的溫度,依據溫度大小調整充電電流及充電電壓,因而 可減緩電池老化,從而操作簡單且低成本。201104942 VI. Description of the Invention: [Technical Field] The present invention relates to a battery technology, and more particularly to a method for mitigating battery aging. [Prior Art] Currently, a battery that can be charged, such as a lithium battery, has a wide range of applications in daily life. These batteries may have an aging problem after being used for a period of time, thereby causing inconvenience to the user. In order to solve the above problems, the Chinese patent of Patent Application No. 2〇〇71〇113846 discloses a process scheme for slowing down the aging of a lithium battery, which is: first, sealing and packaging an aged lithium battery with an absorbent paper and a plastic film. Secondly, put the sealed packaged battery into the cold-beam chamber of the refrigerator and freeze it for 40 to 56 hours at minus 18 degrees. Finally, 'take out the sealed package and place it for 40 to 56 hours under normal temperature. In this way, battery aging can be slowed down. However, the above-mentioned process scheme for slowing down the aging of the clock battery is complicated and costly. SUMMARY OF THE INVENTION The main object of the present invention is to provide a simple and low-cost method for mitigating battery aging in view of the above-mentioned drawbacks of the prior art. To achieve the above object, the present invention provides a method for mitigating battery aging, wherein the battery is disposed in a charging system, the method comprising the following steps: First, the charging system detects whether the temperature of the battery being charged rises to a set temperature; When the temperature of the battery being charged rises to the set temperature, the charging system adjusts its own charging voltage and charging current to decrease it - a certain amplitude. As described above, the aging method for mitigating the battery of the present invention automatically detects the temperature of the battery by the charging system, and adjusts the charging current and the charging voltage according to the temperature. Therefore, 201104942 can achieve aging to slow down the battery, thereby achieving simple operation and low cost β. In order to explain the technical contents, structural features, objects and effects of the present invention in detail, the embodiments are described in detail below with reference to the drawings. In the method of mitigating battery aging of the present invention, the battery is placed in the charging system to be charged. In the present embodiment, the battery is a battery. The method includes the following steps: First, the charging system detects whether the temperature of the battery being charged rises to a set temperature, assuming that the charging system detects that the temperature of the battery rises to τ degrees Celsius; and then, if the temperature of the battery during charging is detected to rise to At the set temperature, the charging system adjusts its own charging voltage and charging current to decrease by Ν and 分别, respectively. In one embodiment, the decrease in the charging voltage and charging current provided by the charging system after the temperature has risen to Τ Celsius is as shown in Table 1 below. Table 1 shows the relationship between the temperature and the voltage drop and the charging current. T 30 < Τ ^35 35< Τ ^40 40< Τ ^45 45< Τ ^50 50< Τ ^55 55< Τ ^ 60 60< Τ N 2% 3% 4% 5% 6% 7% 8% Μ 10% 20% 30% 40% 50% 60% 70% As can be seen from Table 1 below, it is assumed that the reference charging voltage and charging current provided by the charging system are VI volts and II, respectively. mAh. When the temperature rises to τ degrees Celsius, the charging voltage provided by the charging system is V volts and the charging current is Ϊ mA adjusted to: Charging voltage V = Vl * (lN), charging current 1 = II * (1-Μ) , which can slow down battery aging. In summary, the method for mitigating battery aging of the present invention automatically detects the temperature of the battery by the charging system, adjusts the charging current and the charging voltage according to the temperature, thereby slowing down the aging of the battery, thereby being simple in operation and low in cost.