201226949 六、發明說明: 【發明所屬之技術領域*】 [0001] 本發明涉及一種檢測裝置,尤其涉及一種瓖境光感測器 之檢測裝置。 【先前技術】 [0002] 為了使消費者在不同之環境下,都能夠以較好之效果觀 看電子裝置之螢幕’電子裝置内部一般設有環境光感測 器,環境光感測器可感知外部環境之光線強度,I產生 相應之光強信號傳送給電子裴置之處理器,處理器根據 光強信號來調整螢幕之亮度,以使消費者護得較佳之觀 看效果。而且’根據外部環境來調整螢幕之亮度亦可減 小電子裝置之電能消耗,以達到節能目的。環境光感測 器在裝入電子裝置前一般需採用檢測裝置進行,以保證 其可以正常工作。 [0003] 然,一般環境光感測器之轉·測裝置通常具有較大之體積 、結構較為複雜,且相應具有較高之製造成本。 【發明内容】 :.::: : [0004] 鑒於以上内容,有必要提供一種結構簡單、製造成本較 低之檢測裝置。 [0005] 一種檢測裝置,其包括檢測台及檢測光源,檢測台開設 有容納待檢測元件之容納部,檢測光源設置於檢測台上 且與容納部相對’檢測裝置還包括與檢測台轉動連接之 蓋板及設置於檢測台上之控制電路板,蓋板上連接有探 頭及轉接電路板,探頭相對容納部設置且與轉接電路板 電連接’轉接電路板電連接至控制電路板。 099147058 表單編號A0101 第4頁/共14頁 0992080844-0 201226949 [0006] [0007] [0008] Ο [0009] 〇 [0010] [0011] 上述檢測裝置僅由蓋板與檢測台之容納部配合形成檢測 二間,並藉由蓋板上之探頭及轉接電路板將檢測資訊傳 輪給控制電路板,結構簡單且相應具有較低之製造成本 0 實施方式】 下面將結合附圖及實施方式對本發明之檢測裝置作進一 步之詳細說明。 月參閱圖1至圖3,本發明實施方式之檢測展置包括底 座31 '複數支撐杆32、檢測台33、蓋板34、檢測光源35 、轉接電路板36、控制電路板37及探針38。檢測台33藉 由支擇杆32與底座31連接,蓋板34轉動連接於檢測台33 上’檢測光源35及控制電路板37設置於檢測台33上,轉 接電路板36與探針38設置於蓋板34上。本實施例中,底 座31為矩形板狀’檢測台33藉由複數支撑杆32與底座31 連接。 檢測台33之一侧開設有避讓槽330,其包括支撐板331及 設置於支撐板331上之檢測板332。 支撐板331之中部開設有開設有一通光槽3311,該通光槽 3311之兩侧連接分別連接有定位板3312,定位板3312上 開設有滑槽3313。 檢測板332上開設有容納部3320以容納待檢測元件(圖未 示)。本實施方式中,容納部3320包括依次連通之第一 容納槽3321、第二容納槽3322及第三容納槽3323。第一 容納槽3321及第二容納槽3322大致為矩形槽,第三容納 099147058 表單编號Α0101 第5頁/共14頁 0992080844-0 201226949 槽3323大致為τ形槽。可以理解,容納部332〇之形狀可 根據待檢測元件之形狀設計。第—容納槽則之底壁上 開。又有貫穿檢測板332,且與支樓板331之通光槽3311相 連通之通光孔3324。為便於取玫待檢測元件,檢測台33 於鄰近第二容納槽3322之部位,開設有深度大於第二容 納槽3322之凹槽3325。檢測板M2鄰近避讓槽mo之υ 形成有兩個㈣之連接部3326。待檢測元件為環境光感 測器。 [0012] [0013] [0014] [0015] 檢測光源35之二端延伸形成有定位部351,定位部351卡 。於疋位板3312之滑槽3313中,且可沿滑槽3313相對定 位板3312運動’以調節檢測光源35與通光槽如〗之距離 。本實施方式中’檢測光源35為發光二極體(LED)光源 〇 控制電路板37連接於支撐板331上,且位於檢測光源35一 側’並與檢測光源3 5電連接。 蓋板34之一端形成有二相對之樞轉部341,其藉由轉軸 342與檢測板332之連接部3326轉動連接,另一端形成有 一把手343,以便於轉動蓋板34。蓋板34之中部固定有彈 性件344,以在蓋板34合上後,壓緊待檢測元件。 探針38安裝於蓋板34之中部,在蓋板34合上後,可與待 檢測元件上之電連接器連接。本實施方式中,探針38由 高分子塑膠材料製成。 轉接電路板36連接於蓋板34上,且與探針38電連接。轉 接電路板36還藉由導線(圖未示)與控制電路板37電連 099147058 表單編號A0101 第6頁/共14頁 0992080844-0 [0016] 201226949 接。 [0017] Ο [0018] [0019] 〇 [0020] [0021] [0022] 使用檢測裝置30時,先將待檢測元件放入檢測板332之容 納部3320内,然後合上蓋板34,蓋板34上之探針38與待 檢測元件之電連接器連接,彈性件344壓緊工件,接著調 節好檢測光源35相對通光槽3311之距離並開始檢測:將 檢測光源35設定為低亮度、中亮度及高亮度,光線將藉 由通光槽3311及通光孔3324後進入容納部3320 ,在三種 冗度模式下为別測試待檢測元件之感光能力,並將探針 3 8獲付之檢測為机經轉接電路板3 6傳送至控制電路板3 7 ,由控制電路板37進行分析,以驗證待檢測元件係否能 正常工作。檢測完成後,翻開蓋板34,:從:凹槽3325處將 待檢測元件取出。 檢測裝置3 0僅由檢測台3 3與蓋板3 4配奋.形成檢測空間, 並藉由蓋板上之探頭38及轉接電路板36將檢測資訊傳輸 給控制電路板37,結構簡單且製造成本較俾。 综上所述,本發明確已符合發β月專利之要件,遂依法提 出專利申請。惟’以上該者僅為·本發明之較佳實施方式 ,自不能以此限制本案之申請專利範圍。舉凡熟悉本案 技藝之人士援依本發明之精神所作之等效修飾或變化, 皆應涵蓋於以下申請專利範圍内。 【圖式簡單說明】 圖1係本發明實施方式之檢測裝置之立體示意圖。 圖2係圖1所示檢測裝置之蓋板合上後之立體示意圖。 圖3係圖1所示檢測裝置去除底座及支撐柱後之立體示意 099147058 表單編號Α0101 第7頁/共14頁 0992080844-0 201226949 圖。 【主要元件符號說明】 [0023] 檢測裝置30 [0024] 底座31 [0025] 支撐杆 32 [0026] 檢測台 33 [0027] 避讓槽 330 [0028] 支稽板 331 [0029] 通光槽 3311 [0030] 定位板 3312 [0031] 滑槽3313 [0032] 檢測板 332 [0033] 容納部 3320 [0034] 第一容納槽3321 [0035] 第二容納槽3322 [0036] 第三容納槽3323 [0037] 通光孔 3324 [0038] 凹槽3325 [0039] 連接部 3326 [0040] 蓋板34 表單編號A0101 099147058 第8頁/共14頁 0992080844-0 201226949 [0041] [0042] [0043] [0044] [0045] [0046] [0047] ❹ [0048] [0049] 枢轉部341 轉軸342 把手343 彈性件344 檢測光源3 5 定位部3 51 轉接電路板36 控制電路板37 探針38 099147058 表單編號A0101 第9頁/共14頁 0992080844-0201226949 VI. Description of the Invention: [Technical Field of the Invention] [0001] The present invention relates to a detecting device, and more particularly to a detecting device for an ambient light sensor. [Previous Technology] [0002] In order to enable consumers to view the screen of an electronic device with better effects in different environments, an electronic light sensor is generally provided inside the electronic device, and the ambient light sensor can sense the outside. The light intensity of the environment, I generates a corresponding light intensity signal to the processor of the electronic device, and the processor adjusts the brightness of the screen according to the light intensity signal, so that the consumer can protect the viewing effect better. Moreover, adjusting the brightness of the screen according to the external environment can also reduce the power consumption of the electronic device to achieve energy saving. The ambient light sensor is generally required to be tested before it is loaded into the electronic device to ensure that it can work normally. [0003] However, the general measuring device of the ambient light sensor usually has a large volume, a complicated structure, and correspondingly has a high manufacturing cost. SUMMARY OF THE INVENTION :.::: [0004] In view of the above, it is necessary to provide a detecting device which is simple in structure and low in manufacturing cost. [0005] A detecting device includes a detecting station and a detecting light source. The detecting station is provided with a receiving portion for accommodating the component to be detected, and the detecting light source is disposed on the detecting platform and opposite to the receiving portion. The detecting device further comprises a rotating connection with the detecting platform. The cover plate and the control circuit board disposed on the test bench are connected with the probe and the transfer circuit board, and the probe is disposed opposite to the receiving portion and electrically connected to the transfer circuit board. The transfer circuit board is electrically connected to the control circuit board. 099147058 Form No. A0101 Page 4 of 14 0992080844-0 201226949 [0007] [0008] [0009] [0011] The above detecting device is formed only by the cover plate and the receiving portion of the detecting table. Detecting two rooms, and transmitting the detection information to the control circuit board by using the probe on the cover plate and the transfer circuit board, the structure is simple and correspondingly has a low manufacturing cost. 0 Embodiments Hereinafter, the present invention will be described with reference to the accompanying drawings and embodiments. The detection device of the invention is further described in detail. Referring to FIGS. 1 to 3, the detection display of the embodiment of the present invention includes a base 31' plurality of support bars 32, a detection stand 33, a cover 34, a detection light source 35, an adapter circuit board 36, a control circuit board 37, and a probe. 38. The detecting table 33 is connected to the base 31 by the supporting rod 32, and the cover plate 34 is rotatably connected to the detecting table 33. The detecting light source 35 and the control circuit board 37 are disposed on the detecting table 33, and the switching circuit board 36 and the probe 38 are disposed. On the cover plate 34. In the present embodiment, the base 31 has a rectangular plate shape. The detecting table 33 is connected to the base 31 by a plurality of support bars 32. One side of the detecting table 33 is provided with a relief groove 330, which includes a supporting plate 331 and a detecting plate 332 disposed on the supporting plate 331. A light-passing groove 3311 is defined in the middle of the support plate 331. The two sides of the light-passing groove 3311 are respectively connected with a positioning plate 3312, and the positioning plate 3312 is provided with a sliding groove 3313. The detecting plate 332 is provided with a receiving portion 3320 to accommodate an element to be detected (not shown). In the present embodiment, the accommodating portion 3320 includes a first accommodating groove 3321, a second accommodating groove 3322, and a third accommodating groove 3323 which are sequentially connected. The first receiving groove 3321 and the second receiving groove 3322 are substantially rectangular grooves, and the third receiving portion 099147058 Form No. 1010101 Page 5 of 14 0992080844-0 201226949 The groove 3323 is roughly a τ-shaped groove. It can be understood that the shape of the receiving portion 332 can be designed according to the shape of the element to be detected. The first receiving groove is opened on the bottom wall. Further, there is a light-passing hole 3324 which penetrates the detecting plate 332 and communicates with the light-passing groove 3311 of the branch floor 331. In order to facilitate the detection of the component to be detected, the detecting station 33 is provided with a recess 3325 having a depth greater than that of the second receiving groove 3322 at a portion adjacent to the second receiving groove 3322. The detecting plate M2 is formed with two (four) connecting portions 3326 adjacent to the escape groove mo. The component to be detected is an ambient light sensor. [0015] [0015] [0015] The two ends of the detecting light source 35 are extended to form a positioning portion 351, and the positioning portion 351 is stuck. In the sliding groove 3313 of the clamping plate 3312, and along the sliding groove 3313 relative to the positioning plate 3312' to adjust the distance between the detecting light source 35 and the light passing groove. In the present embodiment, the detecting light source 35 is a light emitting diode (LED) light source. The control circuit board 37 is connected to the support plate 331 and is located on the side of the detecting light source 35 and is electrically connected to the detecting light source 35. One end of the cover plate 34 is formed with two opposite pivoting portions 341 which are rotatably connected to the connecting portion 3326 of the detecting plate 332 by the rotating shaft 342, and a handle 343 is formed at the other end to facilitate the rotation of the cover plate 34. An elastic member 344 is fixed to the middle of the cover plate 34 to press the member to be detected after the cover plate 34 is closed. The probe 38 is mounted to the middle of the cover 34 and, after the cover 34 is closed, can be coupled to the electrical connector on the component to be tested. In the present embodiment, the probe 38 is made of a polymer plastic material. The patch circuit board 36 is coupled to the cover plate 34 and is electrically coupled to the probe 38. The transfer board 36 is also electrically connected to the control board 37 by wires (not shown). 099147058 Form No. A0101 Page 6 of 14 0992080844-0 [0016] 201226949. [0018] [0020] [0020] [0022] When the detecting device 30 is used, the component to be detected is first placed in the receiving portion 3320 of the detecting plate 332, and then the cover 34 is closed, and the cover is closed. The probe 38 on the board 34 is connected to the electrical connector of the component to be detected, the elastic member 344 is pressed against the workpiece, and then the distance between the detecting light source 35 and the light-passing groove 3311 is adjusted and detection is started: the detecting light source 35 is set to low brightness, In the middle brightness and high brightness, the light will enter the accommodating portion 3320 through the light-passing groove 3311 and the light-passing hole 3324, and the photographic ability of the component to be detected is tested in three redundancy modes, and the probe 38 is paid. The detection is transmitted to the control circuit board 37 via the transit circuit board 36, and analyzed by the control circuit board 37 to verify whether the component to be tested is working properly. After the detection is completed, the cover plate 34 is opened, and the component to be detected is taken out from the groove 3325. The detecting device 30 is only used by the detecting station 3 3 and the cover plate 34 to form a detection space, and the detection information is transmitted to the control circuit board 37 by the probe 38 and the transfer circuit board 36 on the cover plate, and the structure is simple and simple. Manufacturing costs are slim. In summary, the present invention has indeed met the requirements for issuing a beta patent, and has filed a patent application in accordance with the law. However, the above is only a preferred embodiment of the present invention, and it is not possible to limit the scope of the patent application in this case. Equivalent modifications or variations made by those skilled in the art to the spirit of the invention are intended to be included within the scope of the following claims. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a detecting device according to an embodiment of the present invention. 2 is a perspective view of the cover of the detecting device shown in FIG. 1 after being closed. Figure 3 is a perspective view of the detection device shown in Figure 1 after removing the base and the support column. 099147058 Form No. 1010101 Page 7 of 14 0992080844-0 201226949 Figure. [Description of Main Component Symbols] [0023] Detection Device 30 [0024] Base 31 [0025] Support Rod 32 [0026] Detection Table 33 [0027] Avoidance Tank 330 [0028] Shield Plate 331 [0029] Light-passing groove 3311 [ 0030] positioning plate 3312 [0031] chute 3313 [0032] detecting plate 332 [0033] receiving portion 3320 [0034] first receiving groove 3321 [0035] second receiving groove 3322 [0036] third receiving groove 3323 [0037] Light-passing hole 3324 [0038] Groove 3325 [0040] Connector 3326 [0040] Cover 34 Form No. A0101 099147058 Page 8 of 14 0992080844-0 201226949 [0041] [0044] [0044] [0047] [0049] [0049] [0049] Pivot portion 341 Rotary shaft 342 Handle 343 Elastic member 344 Detection light source 3 5 Positioning portion 3 51 Transfer circuit board 36 Control circuit board 37 Probe 38 099147058 Form No. A0101 Page 9 of 14 0992080844-0