M376915 五、新型說明: 【新型所屬之技術領域】 本創作係有關於一種電池檢測裝置,少一 光來檢測不同型式電池的電池檢測裝置。L曰一 1用 【先前技術】 一般電子裝置,例如影像裝置、通訊 醫療儀器或筆記型電腦,廣泛地使用鋰 予義益、M376915 V. New description: [New technical field] This creation is about a battery detection device that detects less than one light to detect battery types of different types of batteries. L曰一 1 【Prior Art】 General electronic devices, such as imaging devices, communication medical instruments, or notebook computers, widely use lithium to Yiyi,
單元。鐘電池包括有-金屬罐及_凝膠二作為電力儲存 捲繞狀的方式放置於金屬罐内部。然而,,,凝膠輕筒以 電池須進行檢測,以符合IEEE1725 a 後的鐘 IEEEl% i人、目,丨描· 的電池檢測標準。 电爛標準中,多項審核 -致性提出要求。例如,在極片錯位的要求:二見::: 製造商須採用目視*** 、私池 進行全檢。 τ、足(如X先)對卷芯極片的錯位程度 習知電池檢測裝置係採用X光穿過一顆待測電池電 極二亚將電池的電芯影像成像於顯示器。之後,利用人工 靖的方式’以兩個人針對同一顆待測電池進行判讀。惟, 白知電池檢測裝置須藉由人工判讀以完成電池檢測’往往 造成判讀標準不—欵及檢測時間費時等待解決的問題。再 者,隧著IEEE1725電池檢測標準的發佈,電池製造商須針 對王σ卩的電池進行檢測,嚴重地影響電池的生產製造速度。 緣是’本創作人有感上述缺失之可改善,乃特潛心研 究並配合學理之運用,終於提出一種設計合理且有效改善 上述缺失之本創作。 3 M376915 【新型内容】 ^創作之目的,在於可提供—種電池檢測裝置 用電池移載單元翻轉待測電池 X光间眛咖、R二/ 從Λ九產生盗所產生的 析兩yr:設置的電池電極,可同時檢測分 汴旬们電池,增加電池檢測的效率。 為了達成上述之目的,本創作将 裝置,包括:一太㉟乍料供一種電池檢測 器及-影像產生亡所本體内部包含有-X光產生 所述影,所述X光產生器具有-出光口, 至,丨、—+、早70的位置對應所述出光口的位置;以及 夕也移载單元’所述電池移载單元設有-穿載有 多數個電池的笛—^ 褒载有 二電池夾座,所;ΐ 裝载有多數個電池的第 電池夹座的^=1池夾座的電池電極與所述第二 丄的I池電極同時對應所述出光σ的位置。 作具有以下的有益效果:Χ光產生哭所產… 芯的相::置的電池電極,兩個電池電 測分析兩個電池,增加電:檢二生…同時檢 參閱步'解本創作之特徵及技術内容,請 僅提供參考與說明:之詳細'兄明與附圖,然而所附圖式 【實施方式】 ,並非用來對本創作加以限制者。 裝置第二圖,本創作係提供一種電池檢測 單元3、兩個電池移i單:1料輸送 /Γ2、一電池定位 像產生單元6戟早704、一 x光產生器5、一影 正料單元7及一卸料輸送單元8。 以x本二1内部設有一工作空間1 1,於工作”” 1肉 以X光針對電池雷# 卜二間1 1内 規定標準,用以確電池電芯是否符合 为別設有-入料口1 2及一出料口 i 3,入料本71兩側 經由進料輸送單元2進二二二= :4 X先產生器5與影像產生單载: 的X来二 及下方,x光產生器5所產生 上的待測電池…電極(陽 生單元6 I著=將電池電芯嶋^ :’以判斷待測電池10A是否符合規定標準, 訊池1 Q Α所對應的電芯影像資料與檢測分;析 =^後:整料單元7接收影像產生單元6傳送的檢測 口斤。K號’亚依據檢測分析訊號將已測電池丄〇 b區分為 =。及不良ασ,進而將良品及不良品轉移到卸料輸送 後’將良品及不良品分批地放置於不同的已測電池 承載盤22B。 進料輸送單元2包括有一進料輸送帶2 1、多數個待 測電池承載盤2 ? Ai-9 # 默·及5十數益2 3,進料輸送帶2 1連 、本體1的入料口 1 2,每一個待測電池承載盤2 2 a妒 f有多數個待測電池1 “(如第二圖)。待測電池承載 • 2 2A放置於進料輸送帶2 1上方,以進料輸送帶2工 輸送待測電池承載盤2 2A進入本體丄的入料口 i 2。計 5 ivu/oyo 數益2 3設於進料輸送帶2 i靠近入料口丄2的附近, 二=測電池承載盤2 2 A的移動位置,同時控制進料 月j迗τ 2 1的啟動或停止。換句話說,當計數器2 到待測電池承載盤2 2 Α進入入料口 1 2時,計數器^ 控制進料輸送帶2 1停止運轉,使待測電池承裁盤2 $本體1内部停留—段時間,以等待電池定 如第二圖)。再者,當待測電池It 載L 3送f卸料輸送單元8下游’轉變成已測電池承 可用以裝载檢測後的已測電池1 〇 電池檢測裝置的自動化效果。 彡曰加 單元單元3設於進料輸送單元2下游’電池定位 元2及電又池内電池定位單元3位於進料輸送單 執3 1及—2:之間,電池定位單元3包括有-滑 單元2及電機!手3 2,滑轨31設於進料輪送 於滑軌J 電池^曰1 ’電池定位機器手3 2滑設 2及電池移载單元4之^、=益手3 2可於進料輸送單元 戟早凡4之間滑動。於檢測之益主 載盤2 2 A停留;n 剃之别,待測電池承 持待、、計、“本體1内部,電池定位機器手3 2可央 持待測電池承載盤2 2 A上的待 夹 池1 ◦ A分批次地裝載於電巷二1 0A’將待測電 如,每一個待測電池承载盤2早几4以進行檢測。例 1 0A,電池定位機器二有一百顆待測電池 載單元4裝载有批次將一個所述電池移 料單元7失= = 行檢測。於檢測之後,整 移载早凡4上的已測電池10B,將已 6 M376915 剛電池1 Ο B傳送至卸料輸送單元8。 電池移载單元4設於電池定位輩 電池移載單元4执於太^3下子,所述兩個 Γ 部,且位於X光產生Μ 像;生孕706之間。請參閱第三圖及第四圖,每一個 2池移載早70 4包含有-水平移動機構4 i、—垂 翻轉機構4 3及—電控裝置4 4。水平‘動 2構4 1 W有-水平移動台4 i i '兩個水平滑執 $二動力傳動件413及-馬達414。水平移動台4 1 1底部兩側分別滑設於所述兩個水平滑軌4 i 2 傳動件4 1 3-端連接馬達4工4,動力傳動件4工3另 —端固接於水平移動台4 1 1,馬達4 1 4驅動動力傳動 件4 1 3而帶動水平移動台4丄丄於水平滑執4丄2上 滑動。再者,垂直移動機構42包括有一垂直板42工、 兩個垂直滑轨4 2 2及-氣缸4 2 3。垂直板4 2工大致 垂直地固設於水平移動台4 1 1頂部,所述兩個垂直滑執 4 2 2及氣缸4 2 3固設於垂直板4 2 1,翻轉機構4 3 滑設於所述兩個垂直滑執4 2 2,氣缸4 2 3驅動翻轉機 構4 3於所述兩個垂直滑執4 2 2滑動。又,翻轉機構4 3包括有一電池移載座4 3 1、一齒輪組4 3 2、一第一 電池夾座4 3 3、一第二電池夾座4 3 4及一動力裝置4 3 5 (如第四圖)。電池移載座431滑設於垂直滑執4 2 2,齒輪組4 3 2設於電池移載座4 3 1—側,第一電 池夾座4 3 3與第一電池夹座4 3 4可轉動地設於電池 移載座4 3 1内,且第一電池夾座4 3 3與第二電池夾座 4 3 4相向設置。齒輪組4 3 2連接第一電池夾座4 3 7 M376915 3、第二電池夾座4 3 4及動力裴置4 3 5。齒輪組4 3 2包含有一主動皮帶輪4 3 2 1、一第一被動皮帶輪4 3 2 2、一第二被動皮帶輪4 3 2 3、一惰輪4 3 2 4及一 皮帶4325。惰輪432 4介於第一被動皮帶輪4 3 2 2與苐一被動皮帶輪4 3 2 3之間,第一被動皮帶輪4 3 2 2與第二被動皮帶輪4 3 2 3分別連接第一電池夾座 4 3 3及第二電池夾座4 3 4。主動皮帶輪4 3 2 1連接 動力裝置4 3 5與皮帶4 3 2 5。藉此,動力裝置4 3 5 的輸出動力驅動主動皮帶輪4 3 2 1轉動,而利用皮帶4 325來連動第一被動皮帶輪432 2及第二被動皮帶 輪4 3 2 3轉動,進而帶動第一電池夾座4 3 3及第二電 池丈座4 3 4於電池移載座4 3 1上翻轉。 但付 〜〜〜田及,巾兮〇乙3职動第一被動皮帶奉 4 3 2 2及第二被動皮帶輪4 3 2 3轉動時,設置於第一 被動皮贡輪4 3 2 2及第二被動皮帶輪4 3 2 3之間合 =4 3 2 4使得第-被動皮帶輪4 3 2 2的轉動方冷 :、第一被動皮帶輪4 3 2 3的轉動方向不同,造成第一话 tit 3 3與第二電池夾座4 3 4相向翻轉,待測電対 ▲ Ο念電極兩兩之間呈相向地設置(如第四圖), 夹座4 3 3的待測電池1〇A的陽性電極與筹 電池夾座4 3 4的待測電池1 〇 A的陽 + ,。同理’亦可使第-電池夹座4 3 3== A的陰性電極與第二電池炎座4 3 4的待':二土 的陰性電極呈相向設置。因此,χ光產 光同時穿過兩個相向設置的電池電極,而; M376915 的影像成像於影像產生單元6。影像產生單元 測分析兩個電池,增加電池檢測的效率。 千古再者’電池移载座4 3 1滑設於垂直移動機構4 2 動機構4 2滑設於水平移動機構4 i,水平移動機 1於進料輸送單元2及卸料輸送單元8之間水 ::於是’所述兩個電池移載座4 3工相對於水平移“ 構41垂直移動,使得所述兩個電池移载座 低設置,可同時檢測電池與裝載電池 ^、 圖,所述兩個電池移載座43lp J如^閱弟四 電池移載座43i水平移動至影像產 方中個 個電池移載座431水平移動至 方另— 二當其广個電池移載座431所裝载的待測電池“、 電池電芯檢測時’另―個電池移載 ^裝載待測電池1 m到連續地自動㈣1 =二 仏測的效率。因此,電控Ii 4 d 42 3及Μ㈣乂 制馬達4 1 4、氣缸 Ί " 435,用以分別驅動水平移動機構4 1、垂直移動機構4 2及翻鏟嬙媸β。 饮勒微稱4 Α雷福“”二 機構4 3 ’使待測電池1 ◦ 的:Γ:傻地設置,同時對應x光產生器5 、^置β像產生早元6同時掘取兩顆電池 々unit. The clock battery includes a metal can and a gel 2 placed inside the metal can as a power storage winding. However, the gel light bulb must be tested with the battery to comply with the IEEE1 s. In the electro-corrosion standard, a number of audits have been requested. For example, in the case of pole piece misalignment: 2 see::: Manufacturers must use the visual system, private pool for full inspection. The degree of misalignment of the τ, foot (such as X) to the core piece is known. The battery detection device uses X-rays to image the battery cell image of the battery through a battery electrode to be tested. Thereafter, the method of artificially arranging was used to interpret the same battery to be tested by two people. However, the Baizhi battery test device must be manually interpreted to complete the battery test, which often results in a problem that the interpretation criteria are not--and the time-consuming waiting for the test. Furthermore, with the release of the IEEE 1725 battery test standard, battery manufacturers must test the battery of Wang 卩 ,, seriously affecting the production speed of the battery. The reason is that the creator feels that the above-mentioned deficiencies can be improved. He is devoted to research and the use of academics, and finally proposes a creation that is reasonable in design and effective in improving the above-mentioned deficiencies. 3 M376915 [New content] ^The purpose of creation is to provide a kind of battery detection device with battery transfer unit to flip the battery to be tested X-ray, R 2 / from the smashing of the smashing two yr: setting The battery electrode can simultaneously detect the batteries of the minute and increase the efficiency of battery detection. In order to achieve the above object, the present invention comprises a device comprising: a battery detector for a battery detector and an image-generating body containing -X light to generate the shadow, the X-ray generator having a light output The position of the mouth, the 丨, the +, the early 70 corresponds to the position of the light exit port; and the migrating unit of the eve also the battery transfer unit is provided with a flute carrying a plurality of batteries - a battery holder, wherein the battery electrode of the battery holder of the battery holder of the plurality of batteries and the battery electrode of the second battery simultaneously correspond to the position of the light output σ. It has the following beneficial effects: the light is produced by crying... The phase of the core:: the battery electrode of the battery, the two batteries are electrically analyzed and analyzed, and the two batteries are added to increase the electricity: check the second life... For the characteristics and technical content, please provide only the reference and description: the details of 'brothers and drawings, but the drawings [implementation] are not used to limit the creation. The second diagram of the device, the present invention provides a battery detection unit 3, two battery transfer i: 1 material delivery / Γ 2, a battery positioning image generation unit 6 戟 early 704, an x-ray generator 5, a shadow Unit 7 and a discharge conveying unit 8. Take a work space of 1 in the interior of the first two 1 in the work "" 1 meat to X-ray for the battery mine # 卜二1 1 1 within the standard, to determine whether the battery cell is in compliance with the Port 1 2 and a discharge port i 3, both sides of the feed 71 are fed through the feed conveying unit 2 2: 2: 4 X first generator 5 and image generation single load: X to 2 and below, x-ray The battery to be tested... generated by the generator 5 (the solar cell 6 I = the battery cell : ^ : ' to determine whether the battery 10A to be tested meets the prescribed standard, the cell image data corresponding to the cell 1 Q Α And the detection score; after the analysis = ^: the whole material unit 7 receives the detection volume transmitted by the image generation unit 6. The K number 'sub-based detection analysis signal distinguishes the measured battery 丄〇b into =. and the bad α σ, and then the good product After the defective product is transferred to the unloading and conveying, the good and defective products are placed in batches on different tested battery carrying trays 22B. The feeding conveying unit 2 includes a feeding conveyor belt 2 1 and a plurality of battery carrying trays to be tested. 2 ? Ai-9 #默·和5十数益2 3, feeding conveyor belt 2 1 connection, body 1 inlet port 1 2, each waiting The battery carrying tray 2 2 a妒f has a plurality of batteries to be tested 1 (as shown in the second figure). The battery to be tested is loaded. 2 2A is placed above the feeding conveyor 2 1 , and the feeding conveyor is transported to be tested. The battery carrying tray 2 2A enters the inlet port i 2 of the body 。. The meter 5 ivu/oyo number 益 2 2 is set in the vicinity of the feed conveyor belt 2 i near the inlet port , 2, and the second battery cell 2 2 A Move the position while controlling the start or stop of the feed month j迗τ 2 1. In other words, when the counter 2 reaches the battery carrying tray 2 2 待 to enter the inlet port 1 2 , the counter ^ controls the feed conveyor 2 1 Stop the operation, so that the battery under test tray 2 is to be tested inside the body 1 for a period of time, waiting for the battery to be as shown in the second figure. Moreover, when the battery to be tested is loaded with L 3 to send the f discharge conveying unit 8 The downstream 'converted to the tested battery can be used to load the tested battery 1 〇 battery detection device automation effect. The addition unit unit 3 is located downstream of the feed conveying unit 2 'battery positioning unit 2 and electric pool The battery positioning unit 3 is located between the feed conveying sheets 3 1 and - 2 :, and the battery positioning unit 3 includes a sliding sheet 2 and motor! Hand 3 2, slide rail 31 is set on the feed wheel to the slide rail J battery ^ 曰 1 'battery positioning robot 3 2 slide set 2 and battery transfer unit 4 ^, = Yi hand 3 2 can In the feed conveying unit 戟 凡 凡 4 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 于 于 于 于 主 主 主 主 主 主 主 主 主 主 主 主 主 主 主 主 主 主 主 主 主2 can hold the battery carrying tray to be tested 2 2 A on the pool to be clamped 1 ◦ A batch is loaded in the electric lane 2 10A' will be tested, such as each battery tray 2 to be tested Test. Example 1 0A, the battery positioning machine 2 has one hundred batteries to be tested. The loading unit 4 is loaded with a batch to lose one of the battery moving units 7 == line detection. After the test, the tested battery 10B on the 4th is transferred, and the 6 M376915 rigid battery 1 Ο B is transferred to the discharge conveying unit 8. The battery transfer unit 4 is disposed in the battery locating unit. The battery transfer unit 4 is disposed at the bottom of the battery, and the two sides are located between the X-ray generating images and the pregnancy 706. Referring to the third and fourth figures, each of the 2-pool transfer early 70 4 includes a horizontal moving mechanism 4 i, a vertical turning mechanism 4 3 and an electronic control unit 4 4 . Horizontal 'moving 2 4 1 W has - horizontal moving table 4 i i 'two horizontal slips $ two power transmission parts 413 and - motor 414. The two sides of the bottom of the horizontal moving table 4 1 1 are respectively slid on the two horizontal sliding rails 4 i 2, the transmission member 4 1 3-terminally connected to the motor 4 work 4, and the power transmission member 4 is fixed at the other end to the horizontal movement The table 4 1 1 , the motor 4 1 4 drives the power transmission member 4 1 3 to drive the horizontal moving table 4 to slide on the horizontal sliding block 4丄2. Furthermore, the vertical movement mechanism 42 includes a vertical plate 42, two vertical slides 42 2 and a cylinder 4 23 . The vertical plate 4 is fixed substantially vertically on the top of the horizontal moving table 4 1 1 , and the two vertical sliding blocks 4 2 2 and the cylinder 4 2 3 are fixed to the vertical plate 4 2 1 , and the turning mechanism 4 3 is slid The two vertical slides 4 2 2, the cylinders 4 2 3 drive the turning mechanism 43 to slide on the two vertical slides 42 2 . Moreover, the inverting mechanism 43 includes a battery transfer seat 433, a gear set 433, a first battery holder 433, a second battery holder 433, and a power unit 4 3 5 ( As shown in the fourth picture). The battery transfer seat 431 is slidably disposed on the vertical slide 4 2 2 , the gear set 433 is disposed on the side of the battery transfer seat 4 3 1 , and the first battery holder 4 3 3 and the first battery holder 4 3 4 It is rotatably disposed in the battery transfer seat 433, and the first battery holder 433 is disposed opposite to the second battery holder 434. The gear set 4 3 2 is connected to the first battery holder 4 3 7 M376915 3, the second battery holder 4 3 4 and the power unit 4 3 5 . The gear set 4 3 2 includes a drive pulley 4 3 2 1 , a first driven pulley 4 3 2 2, a second driven pulley 4 3 2 3, an idler pulley 4 3 2 4 and a belt 4325. The idler pulley 432 4 is interposed between the first passive pulley 4 3 2 2 and the first passive pulley 4 3 2 3 , and the first passive pulley 4 3 2 2 and the second passive pulley 4 3 2 3 are respectively connected to the first battery holder 4 3 3 and the second battery holder 4 3 4. The drive pulley 4 3 2 1 is connected to the power unit 4 3 5 and the belt 4 3 2 5 . Thereby, the output power of the power unit 435 drives the driving pulley 4 3 2 1 to rotate, and the belt 4 325 is used to link the first passive pulley 432 2 and the second passive pulley 4 3 2 3 to rotate, thereby driving the first battery clip. The seat 4 3 3 and the second battery holder 4 3 4 are turned over on the battery transfer seat 4 3 1 . But pay ~ ~ ~ Tianhe, the towel 兮〇 B 3 positions first passive belt belt 4 3 2 2 and the second passive pulley 4 3 2 3 when rotating, set in the first passive pebon wheel 4 3 2 2 and The combination of the two passive pulleys 4 3 2 3 = 4 3 2 4 causes the rotation of the first-passive pulley 4 3 2 2 to be cold: the direction of rotation of the first passive pulley 4 3 2 3 is different, resulting in the first words tit 3 3 Reversed with the second battery holder 4 3 4 , the electric 対 ▲ Ο 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极With the battery holder 4 3 4 of the battery to be tested 1 〇A yang +,. Similarly, the negative electrode of the first battery holder 4 3 3== A may be disposed opposite to the negative electrode of the second battery holder 4:4. Therefore, the light-emitting light passes through the two oppositely disposed battery electrodes, and the image of the M376915 is imaged in the image generating unit 6. The image generation unit measures and analyzes two batteries to increase the efficiency of battery detection. In the past, the battery shifting seat 4 3 1 is slidably disposed in the vertical moving mechanism 4 2 the moving mechanism 4 2 is slidably disposed in the horizontal moving mechanism 4 i , and the horizontal moving machine 1 is between the feeding conveying unit 2 and the discharging conveying unit 8 Water:: then the two battery transfer blocks are vertically moved relative to the horizontal movement 41, so that the two battery transfer seats are set low, and the battery and the battery can be simultaneously detected. The two battery transfer seats 43lp J are moved horizontally to the battery production side, and the battery transfer seats 431 are horizontally moved to the other side - two when the wide battery transfer seat 431 Loaded battery to be tested "When battery cell is detected" another battery transfer ^ Load the battery to be tested 1 m to continuously automatic (four) 1 = two measured efficiency. Therefore, the electric control Ii 4 d 42 3 and the 四 (4) brake motor 4 1 4 and the cylinder Ί 435 are used to drive the horizontal moving mechanism 4 1 , the vertical moving mechanism 4 2 and the shovel 嫱媸 β, respectively. Drinking micro-weighing 4 Α雷福 "" two institutions 4 3 ' make the battery to be tested 1 ◦: Γ: silly setting, at the same time corresponding to x-ray generator 5, ^ set β image to produce early 6 while dig two Battery pack
進行檢測分析’增加電,,也檢..則的 ^,5V 兩個相向設置“然而’本創作具有 目不加以侷限。每-個但電池移载單元4的數 兩個待測電池使 加電池檢測的效率。 % 產生态5,而增 X光產生器5與影德姦;ip ’、象產生早TL 6兩者相向設置,分別 9 M376915 =移方及下方。X光產生器5具有-出 置,第一—Λ 元6的位置對應出光口51的位 I池夾座4 3 3的電池電極與第二電 =電極同時對應出光口 51的位置。影像產= 6匕3有一影像增強器6 1 (Image inters.f.、 :且6 2、一影像擷取分析器6 3及一顯示器1二 =5所產生的/光穿過出光σ51及待測電池 而進旦入影像增強器61以增強χ光影像訊號,增 訊號進而穿過鏡頭組6 2而於影像操取分 析裔6 3之前形成電芯影像。影像操取分析器 = 物芯爾料以判斷待測= 疋付〇規疋私準,亚記錄每一個待測電池1 〇 A :輯f的電芯影像資料與檢測分析訊號。再者,卸料輸送 早=8设於電池移載單元4下游,整料單元7位於 載早兀4與卸料輸送單元8之間,卸料輪送單元8包括^ -良品輸送帶8工、一不良品輸送帶8 2及一卸料 83 (請參閱第五圖)。影像產生單元6電性連接整料 兀7’影㈣取分析器6 3將電芯影像資料傳送至顯 6 4,且影像操取分析器6 3將檢測分析訊號傳送至^ 整料單元7接收檢測分析訊號,進而驅動整: = 規定標準的已測電池1〇B : 輸达早兀8的良品輸送帶81 (如第五圖),而 = 規定標準的已測電池1 〇 B放置於卸料輸送單的口 良品輸送帶8 2。最後’利用卸料機械手8 3分 肖= 輸送帶8 1上符合規定標準的已測電池i 〇 B以及又°σ 品輸送帶上不符合規定標準的已測電池丄〇 B取下, M376915 批地放置於不同的已測電池承載盤2 2 B。 綜上所述,本創作具有以下特色: 一、X光產生器5所產生的X光同時穿 巧池電極,而將兩個電池電芯的影像成像於 二=單元6可同時檢測分析兩個電池,增加 力#置435^氣紅423及動 j置4 3 5,用以为別驅動水平移動機構 動機構4 2及翻轉機構4 3,使待測 =呈,設置,同時對應X光產生器5的:= 生早706同時擷取兩顆電池的電芯影像 分析,增加電池檢測的效率。 丁杬劂 整接收㈣分析職,分卿符合規定 ==已測電池1C)B及不符合較標準的已測電池工 刀批地放置於不同的已測電池承載盤2 2 B。Carry out detection analysis 'increase power, also check.. Then ^, 5V two opposite direction settings "However, this creation has no limitation. Each of the battery transfer unit 4 has two batteries to be tested. The efficiency of battery detection. % produces state 5, and X-ray generator 5 and shadow traits; ip ', like the generation of early TL 6 face-to-face, respectively 9 M376915 = shift and below. X-ray generator 5 has - the position of the first - unit 6 corresponds to the position of the battery electrode of the position I of the light outlet 51 and the second electrode = electrode simultaneously corresponding to the light exit 51. The image output = 6匕3 has an image Enhancer 6 1 (Image inters.f., and 6 2, an image capture analyzer 63 and a display 1 2 = 5 generated / light through the light σ51 and the battery to be tested into the image enhancement The device 61 enhances the calender image signal, and the signal is transmitted through the lens group 62 to form a cell image before the image processing analysis. The image manipulation analyzer = the core material to judge the test = payment 〇 疋 疋 , , 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚The unloading conveyance is early = 8 is set downstream of the battery transfer unit 4, the monolithic unit 7 is located between the preloaded crucible 4 and the unloading and conveying unit 8, and the unloading and conveying unit 8 includes a good conveyor belt 8 Good conveyor belt 8 2 and a discharge 83 (please refer to the fifth figure). The image generation unit 6 is electrically connected to the whole material 兀 7' shadow (4) takes the analyzer 6 3 to transfer the battery image data to the display 64, and the image The operation analyzer 6 3 transmits the detection analysis signal to the processing unit 7 to receive the detection and analysis signal, thereby driving the whole: = the measured battery of the specified standard 1 〇 B: the good delivery belt 81 of the early 兀 8 (as in the first Figure 5, and = the standard test battery 1 〇 B is placed on the discharge conveyor of the discharge conveyor. 8 2 Finally, the use of the discharge robot 8 3 points Xiao = conveyor belt 8 1 meets the required standards The tested battery 〇B and the measured battery 丄〇B on the σ product conveyor that do not meet the specified standards are removed, and the M376915 batch is placed on different tested battery carriers 2 2 B. In summary, this The creation has the following characteristics: 1. The X-ray generated by the X-ray generator 5 simultaneously wears the pool electrode, and the two electrodes The image of the cell is imaged in the second=unit 6 and the two cells can be simultaneously detected and analyzed. The force is set to 435^gas red 423 and the moving j is set to 4 3 5 for the purpose of driving the horizontal moving mechanism 4 2 and the turning mechanism. 4 3, make the test to be tested, set, and corresponding to the X-ray generator 5: = 早早 706 simultaneously capture the battery image analysis of the two batteries, increase the efficiency of battery detection. Ding 杬劂 whole reception (four) analysis The sub-clear meets the requirements == tested battery 1C)B and the tested battery tool that does not meet the standard is placed on the different tested battery carrier 2 2 B.
=、當制電池承載盤2 2A的制電Μ 〇a被夹 寺=,空的待測電池承載盤2 2A輸送至卸料輸送單元 變成已測電池承載盤22β,可用以装載檢測 後的已測電池1 〇B,增加電池檢測裝置的自動化效果。 惟以上所述僅為本創作之較佳可行實施例,非因此即 2本創作之專利範gj,故舉凡運用本創作說明書及圖式 谷所為之等效結構變化,均同理皆包含於本 内,合予陳明。 固 M376915 【圖式簡單說明】 第一圖係本創作電池檢測裝置之示意圖。 第二圖係本創作待測電池承載盤及電池定位機器手之示意圖。 第三圖係本創作電池移載單元之側視圖。 第四圖係本創作電池移載單元之俯視圖。 第五圖係本創作卸料輸送單元之示意圖。 【主要元件符號說明】 本體 1 工作空間 1 1 出料口 13 進料輸送單元 2 進料輸送帶 2 1 已測電池承載盤 2 2 B 電池定位單元 3 滑軌 3 1 電池移載單元 4 入料口 12 水平移動機構 41 水平滑軌 412 馬達 4 14 垂直移動機構 42 垂直滑執 422 翻轉機構 4 3 齒輪組 432 待測電池承載盤 22A 計數器 2 3 電池定位機器手 32 水平移動台 411 動力傳動件 413 垂直板 421 氣缸 4 2 3 電池移載座 431 主動皮帶輪 4321 12 M376915 第一被動皮帶輪 4 3 2 2 第二被動皮帶輪 4323 惰輪 4324 皮帶 4325 第一電池夾座 433 第二電池夾座 434 動力裝置 435 電控裝置 4 4 X光產生器 5 出光口 51 影像產生單元 6 影像增強器 61 鏡頭 組 6 2 影像擷取分析器 63 顯示 器 6 4 整料單元 7=, when the battery carrying tray 2 2A of the power Μ 被 a is jiji =, the empty battery carrying tray 2 2A is transported to the discharge conveying unit becomes the measured battery carrying tray 22β, which can be used to load the detected The battery 1 〇B has been tested to increase the automation of the battery detection device. However, the above description is only a preferred and feasible embodiment of the present invention, and thus is not a patent of the two creations, so the equivalent structural changes of the present specification and the schema valley are all included in the same. Within, combined with Chen Ming. Solid M376915 [Simple description of the diagram] The first diagram is a schematic diagram of the battery detection device of the present invention. The second picture is a schematic diagram of the battery carrying tray and the battery positioning robot of the present invention. The third figure is a side view of the battery shifting unit of the present creation. The fourth figure is a top view of the battery shifting unit of the present creation. The fifth figure is a schematic diagram of the original unloading conveying unit. [Main component symbol description] Body 1 Work space 1 1 Discharge port 13 Feed conveying unit 2 Feed conveyor belt 2 1 Battery carrier tray 2 2 B Battery positioning unit 3 Slide rail 3 1 Battery transfer unit 4 Feeding Port 12 Horizontal moving mechanism 41 Water smoothing rail 412 Motor 4 14 Vertical moving mechanism 42 Vertical sliding 422 Inverting mechanism 4 3 Gear set 432 Battery carrying tray 22A to be tested Counter 2 3 Battery positioning robot 32 Horizontal moving table 411 Power transmission member 413 Vertical plate 421 cylinder 4 2 3 battery transfer seat 431 drive pulley 4321 12 M376915 first passive pulley 4 3 2 2 second passive pulley 4323 idler 4324 belt 4325 first battery holder 433 second battery holder 434 power unit 435 Electric control device 4 4 X-ray generator 5 Light exit port 51 Image generation unit 6 Image intensifier 61 Lens group 6 2 Image capture analyzer 63 Display 6 4 Monolithic unit 7
整料機械手 7 1 卸料輸送單元 8 良品輸送帶 8 1 不良品輸送帶 82 卸料機械手 8 3 待測電池 10 A 已測電池 10 B 13Monolithic manipulator 7 1 Unloading conveyor unit 8 Good conveyor belt 8 1 Defective conveyor belt 82 Discharge robot 8 3 Battery to be tested 10 A Battery tested 10 B 13