201231946 六、發明說明: 0 【發明所屬之技術領域】 [0001] 本發明涉及一種夾持組件,尤其涉及—種用於測試背光 模組的光學參數時失持筆記型電腦螢幕的夾持組件及應 用該夹持組件的背光模組測試裝置。 【先前技術】 [0002] 可視角度、輝度等作為筆記型電腦螢幕的重要光學性能 ’通常需要在生產製造過程中對其進行測試。例如,可 視角度越大,用戶可選擇的觀看範圍越大,從而使螢幕 Ο 具有更好的適用性。惟I在可視角度的測試過程中,由 於現有的測試裝置移動性及靈活性較差,導致很多螢幕 的可視角度測試精度仍不夠高。為了提高筆記型電腦的 螢幕的光學性能測試精度,需要設計性能更好的背光模 組測試裝置。 【發明内容】 [0003] G [0004] 有鑒於此’有必要提供一種用於測試背光模組光學性能 時夾持筆記型電腦榮幕的夾持組件。 另,還有必要提供一種應用上述夾持組件的螢幕背光模 組測試裝置。 [0005] 一種夾持組件,用於夾持筆記型電腦,該筆記型電腦包 括螢幕區和按鍵區,所述夾持組件包括底板、多個限位 塊、二個止擋件、二個抵持件及夾持板,該多個限位塊 可滑動地定位於底板上,以定位筆記型電腦的螢幕區, 該一個止擋件裝配於底板上’二個抵持件活動地裝配於 底板上,該夹持板可轉動地鉸接於止擋件上,並與抵持 100103011 表單編號A0I01 第3頁/共21頁 1002005333-0 201231946 件共同夾持筆記型電腦的按鍵區。 _6]-種背光模组測試裝置,用於測試筆記型電腦榮幕的光 學性能,該背光模組測試裝置包括光學測試裝置、夾持 組件和翻轉組件,該光學測試裝置用以計算螢幕的光學 參數,該夾持組件包括底板、多個限位塊、二個止擋件 、二個抵持件及夾持板,該多個限位塊可滑動地裝配於 底板上,以定位筆記型電腦,該二個止擋件裝配於底板 上,二個抵持件活動地裝配於底板上,該夾持板可轉動 地錢接於止擋件上,並與抵持件共同夾持筆記型電腦, 該底板裝配於翻轉組件上,該翻轉組件帶動底板沿不同 方向翻轉。 [0007] 本發明的背光模組測試裝置通過夾持組件失持筆記型電 腦,並通過翻轉組件實現筆記型電腦不同方向的翻轉, 進而便於光學賴裝置_ 1姨組件的夾持板可轉 動地定位不同尺寸的筆記型電腦,导卷否取出筆記型電 腦的鉸鏈對定位筆記型電腦沒有影響,靈活性高◊該背 光模組測試裝置測試方便,測試結果準綠。 【實施方式】 [0008] 請參閱圖1及圖2,本發明較佳實施方式提供一種背光模 組測試裝置100,用於測試筆記型電腦2〇〇的螢幕的光學 性能,如可視角度、輝度等》該筆記型電腦2〇〇包括螢幕 區220及按鍵區240,螢幕區22〇和按鍵區24〇通過鉸鏈( 圖未示)鉸接。 [0009] 所述背光模組測試裝置1〇〇包括移動工作臺1〇、光學測試 裝置20、運動組件30、微調組件5〇、夾持組件6〇翻^ 100103011 表單編號A0101 第4頁/共21頁 轉 1002005333-0 201231946 調組件50用於定位 和翻轉組件70分別用於定 組件70及電控箱8G。運動組件30及微 光學測試裝置20 ’夾持組件6〇 位和翻轉筆記型電腦2〇〇。 [0010] [0011]201231946 VI. INSTRUCTIONS: 0 [Technical Field of the Invention] [0001] The present invention relates to a clamping assembly, and more particularly to a clamping assembly for a laptop screen that is used to test optical parameters of a backlight module and A backlight module testing device using the clamping assembly. [Prior Art] [0002] Viewing angle, brightness, etc. as important optical properties of a notebook screen 'usually need to be tested during manufacturing. For example, the larger the viewing angle, the larger the user-selectable viewing range, which makes the screen 更好 more adaptable. However, during the visual angle test, the visibility and flexibility of the existing test equipment are poor, resulting in a lot of screen viewing angle accuracy is still not high enough. In order to improve the optical performance test accuracy of the screen of a notebook computer, it is necessary to design a backlight module test device with better performance. SUMMARY OF THE INVENTION [0003] In view of this, it is necessary to provide a clamping assembly for holding a notebook computer glory when testing the optical performance of a backlight module. In addition, it is also necessary to provide a screen backlight module test apparatus using the above-described clamping assembly. [0005] A clamping assembly for holding a notebook computer, the notebook computer comprising a screen area and a button area, the clamping assembly comprising a bottom plate, a plurality of limiting blocks, two stops, and two a holding member and a clamping plate, the plurality of limiting blocks are slidably positioned on the bottom plate to position the screen area of the notebook computer, the one stopping member is mounted on the bottom plate; the two resisting members are movably assembled to the bottom plate The clamping plate is rotatably hinged to the stopper and holds the button area of the notebook together with the resisting 100103011 Form No. A0I01 Page 3 of 211002005333-0 201231946. _6] a backlight module testing device for testing the optical performance of a notebook computer glory, the backlight module testing device includes an optical testing device, a clamping assembly and a flipping component, the optical testing device is used to calculate the optical properties of the screen Parameter, the clamping assembly comprises a bottom plate, a plurality of limiting blocks, two stopping members, two resisting members and a clamping plate, the plurality of limiting blocks being slidably mounted on the bottom plate for positioning the notebook computer The two stoppers are assembled on the bottom plate, and the two resisting members are movably mounted on the bottom plate, and the clamping plate is rotatably attached to the stopper and holds the notebook computer together with the resisting member. The bottom plate is mounted on the flipping assembly, and the flipping assembly drives the bottom plate to flip in different directions. [0007] The backlight module testing device of the present invention loses the notebook computer through the clamping component, and realizes the flipping of the notebook computer in different directions by the flipping component, thereby facilitating the rotation of the clamping plate of the optical device _1姨 component Positioning notebook computers of different sizes, whether the guide rolls take out the hinge of the notebook computer has no effect on positioning the notebook computer, and the flexibility is high. The test module of the backlight module is convenient to test, and the test result is quasi-green. [0008] Referring to FIG. 1 and FIG. 2, a preferred embodiment of the present invention provides a backlight module testing apparatus 100 for testing the optical performance of a screen of a notebook computer, such as a viewing angle and a brightness. The notebook computer 2 includes a screen area 220 and a button area 240, and the screen area 22〇 and the button area 24〇 are hinged by a hinge (not shown). [0009] The backlight module testing device 1 includes a moving table 1 , an optical testing device 20 , a moving component 30 , a fine tuning component 5 , and a clamping component 6 ^ 100 100103011 Form No. A0101 Page 4 / Total Page 21 Turning 1002005333-0 201231946 The adjustment assembly 50 is used for the positioning and turning assembly 70 for the fixed assembly 70 and the electrical control box 8G, respectively. The motion assembly 30 and the micro-optical test device 20' clamp the assembly 6 to position and flip the notebook 2'. [0011] [0011]
[0012][0012]
該光學測狀置20設置·調組侧上㈣計算筆記 坦電腦200的螢幕區220的光學參數。在本實施例中該 先學測試裝置20與_筆記型電卿0之_距離約為 5 0〇毫米。 請結合參關3 ’運動組件_以定位光學測試裝置2〇。 "衾運動組件30包括二個滑轨31、二個滑座32、第一連接 板33、第二連接板34、第—電機35、第—連接塊352、 第一絲桿354、第二電機36、第二連接塊362、第二絲桿 364、第二電機37、第三連接塊372及第三絲桿374。該 二個滑軌31平行地設置於移動工作臺1〇上,該二個滑座 32可沿一個滑軌31滑行。第一遠接板33橫跨設置於二個 滑座32上’第二連接板34通過第二連接塊362固定於第一 連接板3 3上,如此當滑座3 2沿滑軌31滑動時,即可通過 第一連接板33帶動第二連接板34運動。該第一電機35、 第二電機36及第三電機37均與電控箱80電性連接,分別 用以驅動第一絲桿354、第二絲桿364及第三絲桿374轉 動。第一連接塊352固定於第一連接板33的一侧,第一絲 桿354穿過第一連接塊352,以在第一電機35驅動下帶動 第一連接塊352沿圖3中所示0-ΧΥΖ直角座標系的X軸方向 運動。第二連接塊362固定於第一連接板33的另一侧,第 100103011 表單編號A0101 第5頁/共21頁 1002005333-0 201231946 —絲桿3 6 4穿過第二連接塊3 6 2,以在第二電機3 6的驅動 下帶動第二連接塊362沿圖3中所示0-ΧΥΖ直角座標系的Y 轴方向運動。第三連接塊372固定於第二連接塊362上, 第三絲桿374穿過第三連接塊372,以在第三電機37的驅 動下帶動第三連接塊3 7 2沿圖3中所示0 - X Y Z直角座標系 的Z轴方向運動。 [0013] [0014] 100103011 明再參閱圖2,微調組件5 0用以調節光學測試裝置2 〇在γ 轴方向和Z抽方向的垂直度。該微調組件5 〇包括滑塊連接 板51、二個微調平臺52、多個彈簧(圖未示)、第一調節 件54及第二調節件55。該滑塊連接板51的一端固定於運 動組件30的第三連接塊372上,以使微調組件5〇隨第三連 接塊372運動。二個微調平臺52相對設置於滑塊連接板51 上,光學測試裝置2〇定位於微調平臺52上,彈簧設於二 個微調平臺52之間。在本實施例巾,第_調節件54和第 調節件55均可為螺紋絲桿,二者可穿過二個微調平臺 52。通過轉動第—㈣件54和第:調節件55可使二個微 調平臺52之間的彈簧縮放,進而調節二個微調平臺52的 相對距離’以分別微調光學測試裝置別在?軸和Y轴方向 的垂直度。 处待組件60用从处符鞏記型電腦2〇〇, =持包括底⑽、多個夾持旋娜、多個限位 爽持擋件66、滑動連接板67、二她持件672 爽持板68及多個調節旋紐⑽ 位槽622,失㈣知_ X底板62上開设多個限 轉心63f祕料6怖限 位塊64可滑動地鎖 乂將限 於底板62上。該多個限位塊64用於 表單編號A0101 第6頁/共21頁 1002005333-0 201231946 從不同方向止擋筆記型電腦⑽的螢幕區22〇 區220被多個限位塊64所夹持。通過調節多個限位塊64的 相對位置,可定位不同兄4 欲 , I尺寸的筆圯型電腦2〇〇。該二個止 擋件Μ裝配於底板l端的兩側,二個止擋侧相對設 置’每-止擋侧上開設滑槽⑽。滑動連接板67固定於 底板62上’滑動連接板67上開設多個通孔674。二個抵持 件672活動地裝崎滑動連接板67的_。該夹持板⑽可The optical measurement unit 20 is set on the group side (4) to calculate the optical parameters of the screen area 220 of the notebook computer 200. In the present embodiment, the distance between the test device 20 and the _note type 00 is about 50 mm. Please use the 3' motion component to locate the optical test unit 2〇. "衾Motion assembly 30 includes two slide rails 31, two slides 32, a first connecting plate 33, a second connecting plate 34, a first motor 35, a first connecting block 352, a first screw 354, and a second The motor 36, the second connecting block 362, the second screw 364, the second motor 37, the third connecting block 372 and the third screw 374. The two slide rails 31 are disposed in parallel on the movable table 1 , and the two slides 32 are slid along a slide rail 31. The first distal plate 33 is disposed across the two sliding blocks 32. The second connecting plate 34 is fixed to the first connecting plate 33 by the second connecting block 362, so that when the sliding block 3 2 slides along the sliding rail 31, The second connecting plate 34 can be moved by the first connecting plate 33. The first motor 35, the second motor 36 and the third motor 37 are electrically connected to the electric control box 80 for driving the first screw 354, the second screw 364 and the third screw 374 to rotate. The first connecting block 352 is fixed to one side of the first connecting plate 33, and the first screw 354 passes through the first connecting block 352 to drive the first connecting block 352 under the driving of the first motor 35 along the 0 shown in FIG. - The X-axis direction of the right angle coordinate system. The second connecting block 362 is fixed on the other side of the first connecting plate 33, 100103011 Form No. A0101, Page 5 / 21 pages 1002005333-0 201231946 - the screw 3 6 4 passes through the second connecting block 3 6 2 to The second connecting block 362 is driven to move in the Y-axis direction of the 0-ΧΥΖ rectangular coordinate system shown in FIG. 3 under the driving of the second motor 36. The third connecting block 372 is fixed on the second connecting block 362, and the third screw 374 passes through the third connecting block 372 to drive the third connecting block 3 7 2 under the driving of the third motor 37. 0 - XYZ right angle coordinate system moves in the Z axis direction. [0014] Referring again to FIG. 2, the fine adjustment component 50 is used to adjust the perpendicularity of the optical testing device 2 in the gamma axis direction and the Z pumping direction. The fine adjustment assembly 5 includes a slider connecting plate 51, two fine adjustment platforms 52, a plurality of springs (not shown), a first adjustment member 54, and a second adjustment member 55. One end of the slider connecting plate 51 is fixed to the third connecting block 372 of the moving assembly 30 to move the fine adjustment assembly 5 to follow the third connecting block 372. The two fine adjustment platforms 52 are oppositely disposed on the slider connecting plate 51, the optical testing device 2 is positioned on the fine adjustment platform 52, and the spring is disposed between the two fine adjustment platforms 52. In the embodiment, the first adjusting member 54 and the adjusting member 55 may each be a threaded screw which can pass through the two fine adjustment platforms 52. By rotating the -fourth member 54 and the:adjusting member 55, the spring between the two fine adjustment stages 52 can be scaled, thereby adjusting the relative distances of the two fine adjustment platforms 52 to fine tune the optical test device separately. The perpendicularity of the axis and Y-axis directions. The component 60 is to be used in a computer-readable computer, 2, including a bottom (10), a plurality of clamping knobs, a plurality of limit-holding members 66, a sliding connecting plate 67, and two holding members 672. Holding plate 68 and a plurality of adjusting knobs (10) bit slots 622, missing (four) knowing _ X bottom plate 62 is provided with a plurality of limiting cores 63f secret material 6 horrible limiting block 64 slidably locked will be limited to the bottom plate 62. The plurality of limit blocks 64 are used for form number A0101. Page 6 of 21 1002005333-0 201231946 The screen area 22 of the notebook computer (10) is blocked by a plurality of limit blocks 64 from different directions. By adjusting the relative positions of the plurality of limit blocks 64, it is possible to position the pen-type computers of different sizes and sizes. The two stoppers Μ are fitted on both sides of the end of the bottom plate, and the two stopper sides are oppositely disposed to open a chute (10) on each of the stop sides. The sliding connecting plate 67 is fixed to the bottom plate 62. A plurality of through holes 674 are formed in the sliding connecting plate 67. The two resisting members 672 are movably mounted on the slat sliding plate 67. The clamping plate (10) can
轉動地固定於止擋件66上’並與底板62保持—定間距, 以與抵持件672共同夾持筆記型電腦2〇〇的按鍵區24〇。 該夾持板68上開設多個定位槽682,定位槽682與通孔 674相對設置,調節旋鈕69可滑動地穿過所述定位槽682 和抵持件672並與通孔674配合,通過調節賴節旋钮69 可以調節抵持件672靠近或遠離夾持板68,進而夾持筆記It is rotatably fixed to the stopper 66 and is spaced apart from the bottom plate 62 to hold the key area 24 of the notebook computer 2 with the resisting member 672. A plurality of positioning slots 682 are defined in the clamping plate 68. The positioning slots 682 are disposed opposite to the through holes 674. The adjusting knob 69 slidably passes through the positioning slot 682 and the resisting member 672 and cooperates with the through hole 674. The slider knob 69 can adjust the resisting member 672 to approach or away from the clamping plate 68, thereby holding the note
型電腦200。該夾持板68的兩端各設置一個卡柱684,該 卡柱684沿轴線方向開設卡孔(圖未標),該卡孔與滑槽 662相對設置。另一調節旋鈕69沿滑槽66g滑動,並與卡 孔相卡持,進而使夾持板68可轉動地鉸接於止擔件66上 。由於該夹持板68可相對止搶件66轉動,其與底板62之 間的角度可調。故在夾持筆記型電腦2〇〇的按鍵區240時 ’按鍵區240和螢幕區220之間的绞鍵可不必取下,而直 接將按鍵區240插入夾持板68和滑動連接板67之間,並通 過調節調節旋紐69改變抵持件672和底板62之間的間距以 夾持按鍵區240。顯然,無論筆記型電腦200的鉸键是否 已被拆卸,該夾持組件60均可夾持的筆記型電腦2〇〇,通 用性較高。 100103011 表單編號A0101 第7頁/共21頁 1002005333-0 201231946 參閱叫圖5,翻轉組件7Q用於帶動筆記型電腦 現繞Υ_σΖ軸翻轉,該翻轉組件7()包括框體了2、 弟—驅動组件74、支禮旋轉模組76及第二驅動组件^。 7該框體72包括水平板722及設置於水平板如㈣的側板 24 ’该二個側板724分別固定於夾持組侧的底板㈣ 兩側。該第一駆動組件74包括電機(圖未標)和轉向器 (圖未禚),支撐旋轉模組76固定於水平板722上,第— 2動馬達用以在電控獅的控制下通過支律旋轉模組Μ 帶動水平板722繞Z軸方向實現±88度的轉動,進而帶動筆 記型電腦200的螢幕區22〇在錄方向的轉動。該第二驅動 組件78也包括電機(圖未標)和轉向器(圖未標),其 裝配於一個侧板724—側,以在電控箱80的控制下帶動側 板724繞Y軸方向實現±88度的轉動,進而帶動筆記型電腦 200的螢幕區220在Y軸方向的轉動。 [0016] 請一併參閱圖1及圖5,當需要對筆記型電腦2〇〇的螢幕的 光學參數進行測試時,首先將通過電控箱8 0控制使第一 電機35、第二電機36及第三電機37分別帶動第一絲桿 354、第二絲桿364及第三絲桿374轉動,進而帶動第一 連接板33和第二連接板34運動,直到光學測試裝置20對 準於夾持組件60的底板62的中部位置,從而實現光學測 試裝置20的定位。其後,通過調節微調組件50的第一調 節件54和第二調節件55,以調整二個微調平臺52的相對 距離,進而調節光學測試裝置20的垂直度。然後,拆除 筆記型電腦200的鉸鏈,使螢幕區220和按鍵區240處於 同一水準位置,並將螢幕區220放置於夾持組件60的限位 100103011 表單編號A0101 第8頁/共21頁 1002005333-0 201231946 塊64之間’並依據螢幕區220的大小調整多個限位塊64之 間的相對位置進而固定螢幕區22〇。另一方面,將按鍵區 240穿過夾持組件6〇的底板62和夾持板68之間,並通過 調節旋鈕69與通孔674配合使抵持件672和夾持板68夾緊 按鍵區240,如此該筆記型電腦2〇〇即為夹持組件6〇所定 位。最後,電控箱8 0先後控制第一驅動組件7 4和第二驅 動組件78作動’以通過框體72帶動筆記型電腦2〇〇沿γ軸 和Z軸方向實現±88度的轉動。如此,光學測試裝置2〇便 Ο [0017] 可採集螢幕區220的光線,並進一步計算出該筆記型電腦 200的螢幕的光學參數。 當筆記型電腦200的鉸鏈無需拆卸時,此時按鍵區240與 螢幕區220呈一定角度,按鍵區24〇仍然穿過底板62和夾 持板68之間。首先旋轉夾持板68,使爽持板68緊貼按鍵 區240,再通過調節旋鈕69調節抵持件672和夾持板68之 間的間距,進而使夾持板68和抵持件672共同夾持按鍵區 240 ° Q [0018] 可以理解,夾持組件60的底板62的中心可設置坐標轴, 當光學測試裝置2 0發出光學的焦點對準坐標軸的中心位 置時’即可實現光學測試裝置2〇的精定位。 [0019] 可以理解,該翻轉組件70翻轉筆記型電腦2〇〇的角度可依 據不同型號的電腦進行調整,同時為避免筆記型電腦2〇〇 的按鍵區240在Z軸方向翻轉時碰揸光學測試裝置2〇,其 翻轉角度也可作適應調整。 [0020] 本發明的背光模組測試裝置100爽持組件6G夾持筆記型電 100103011 表單編號A0101 第9頁/共21頁 1002005333-0 201231946 腦200,並通過翻轉組件70實現筆記型電腦200不同方向 的翻轉,進而便於光學測試裝置20測試。在測試過程中 ,由於夾持組件60的炎持板68可轉動,故是否取出鉸鏈 對筆記型電腦200的定位沒有影響,且夾持組件60可定位 不同尺寸的筆記型電腦,靈活性高。該背光模組測試裝 置100測試方便,測試結果準確。 [0021] 綜上所述,本發明符合發明專利要件,爰依法提出專利 申請。惟,以上所述者僅為本發明之較佳實施方式,舉 凡熟悉本案技藝之人士,於爰依本發明精神所作之等效 修飾或變化,皆應涵蓋於以下之申請專利範圍内。 【圖式簡單說明】 [0022] 圖1係本發明較佳實施方式的背光模組測試裝置的立體圖 [0023] [0024] [0025] [0026] [0027] [0028] [0029] 圖2係圖1所示背光模組測試裝置的分解示意圖; 圖3係圖1所示背光模組測試裝置的運動組件的立體圖; 圖4係圖1所示背光模組測試裝置的夾持組件的分解示意 圖; 圖5係圖1所示背光模組測試裝置的夾持組件和翻轉組件 的組裝圖。 【主要元件符號說明】 背光模組測試裝置:100 移動工作臺:10 光學測試裝置:20 100103011 表單編號A0101 第10頁/共21頁 1002005333-0 [0029] 201231946 [0030] 運動組件:30 [0031] 滑軌:31 [0032] 滑座:32 [0033] 第一連接板:33 [0034] 第二連接板:34 [0035] 第一電機:35 [0036] 第一連接塊:352 Θ [0037] 第一絲桿:354 [0038] 第二電機:36 [0039] 第二連接塊:362 [0040] 第二絲桿:364 [0041] 第三電機:37 [0042] 第三連接塊:372 〇 [0043] 第三絲桿:374 [0044] 微調組件:50 [0045] 滑塊連接板:51 [0046] 微調平臺:52 [0047] 第一調節件:54 [0048] 第二調節件:55 100103011 表單編號A0101 第11頁/共21頁 1002005333-0 201231946 [0049] 夾持組件:60 [0050] 底板:62 [0051] 限位槽:62 2 [0052] 夾持旋紐:6 3 [0053] 限位塊:64 [0054] 止擋件:66 [0055] 滑槽:662 [0056] 滑動連接板:67 [0057] 抵持件:672 [0058] 通孔:674 [0059] 夾持板:68 [0060] 定位槽:682 [0061] 卡柱:684 [0062] 卡孔:686 [0063] 調節旋鈕:69 [0064] 翻轉組件:70 [0065] 框體:72 [0066] 水平板:722 [0067] 側板:724 100103011 表單編號A0101 第12頁/共21頁 1002005333-0 201231946 [0068] [0069] [0070] [0071] [0072] [0073] [0074] ❹ 第一驅動組件 支撐旋轉模組 第二驅動組件 電控箱:80 筆記型電腦: 螢幕區:220 按鍵區.2 4 0 :74 :76 :78 200 100103011 表單編號A0101 第13頁/共21頁 1002005333-0Computer 200. A clamping post 684 is disposed at each end of the clamping plate 68. The clamping post 684 defines a hole (not shown) along the axial direction, and the locking hole is disposed opposite to the sliding slot 662. The other adjustment knob 69 slides along the chute 66g and is engaged with the card hole, thereby causing the clamping plate 68 to be rotatably hinged to the stopper 66. Since the clamping plate 68 is rotatable relative to the stopper 66, its angle with the bottom plate 62 is adjustable. Therefore, when the button area 240 of the notebook computer 2 is held, the button between the button area 240 and the screen area 220 can be removed, and the button area 240 is directly inserted into the holding board 68 and the sliding connection board 67. The gap between the resisting member 672 and the bottom plate 62 is changed to adjust the key area 240 by adjusting the adjusting knob 69. Obviously, regardless of whether or not the hinge key of the notebook computer 200 has been detached, the notebook computer that can be held by the clamp unit 60 has a high degree of versatility. 100103011 Form No. A0101 Page 7 / Total 21 Page 1002005333-0 201231946 Referring to Figure 5, the flipping component 7Q is used to drive the notebook computer to rotate around the Υ σ axis. The flipping component 7 () includes the frame 2, the brother-driver The component 74, the ritual rotation module 76 and the second drive component ^. 7 The frame body 72 includes a horizontal plate 722 and side plates 24' disposed on the horizontal plate (such as (4)). The two side plates 724 are respectively fixed on both sides of the bottom plate (4) on the side of the clamping group. The first swaying assembly 74 includes a motor (not shown) and a steering device (not shown). The supporting rotating module 76 is fixed on the horizontal plate 722. The second moving motor is used to pass the control under the control of the electric lion. The rotation module Μ drives the horizontal plate 722 to rotate by ±88 degrees around the Z-axis direction, thereby driving the screen area 22 of the notebook computer 200 to rotate in the recording direction. The second driving component 78 also includes a motor (not shown) and a steering device (not shown) mounted on a side plate 724 side to drive the side plate 724 around the Y-axis under the control of the electrical control box 80. The rotation of ±88 degrees drives the rotation of the screen area 220 of the notebook computer 200 in the Y-axis direction. [0016] Please refer to FIG. 1 and FIG. 5 together. When it is required to test the optical parameters of the screen of the notebook computer, the first motor 35 and the second motor 36 are first controlled by the electric control box 80. And the third motor 37 drives the first screw 354, the second screw 364 and the third screw 374 to rotate, thereby driving the first connecting plate 33 and the second connecting plate 34 to move until the optical testing device 20 is aligned with the clip. The central position of the bottom plate 62 of the assembly 60 is held to enable positioning of the optical test device 20. Thereafter, the relative adjustment of the two fine adjustment stages 52 is adjusted by adjusting the first adjustment member 54 and the second adjustment member 55 of the fine adjustment assembly 50, thereby adjusting the perpendicularity of the optical test apparatus 20. Then, the hinge of the notebook computer 200 is removed, so that the screen area 220 and the button area 240 are at the same level position, and the screen area 220 is placed at the limit of the clamping unit 60 100103011 Form No. A0101 Page 8 / Total 21 Page 1002005333- 0 201231946 Between blocks 64' and adjust the relative position between the plurality of limit blocks 64 according to the size of the screen area 220 to fix the screen area 22〇. On the other hand, the button area 240 is passed between the bottom plate 62 of the clamping assembly 6〇 and the clamping plate 68, and cooperates with the through hole 674 through the adjusting knob 69 to clamp the button area of the resisting member 672 and the clamping plate 68. 240, so the notebook computer 2 is positioned for the clamping component 6〇. Finally, the electric control box 80 controls the first drive unit 724 and the second drive unit 78 to operate </ RTI> to drive the notebook computer 2 through the frame 72 to achieve ±88 degrees of rotation in the γ-axis and Z-axis directions. Thus, the optical test device 2 can collect the light of the screen area 220 and further calculate the optical parameters of the screen of the notebook computer 200. When the hinge of the notebook computer 200 does not need to be disassembled, the button area 240 is at an angle to the screen area 220 at this time, and the button area 24 is still passed between the bottom plate 62 and the holding plate 68. First, the clamping plate 68 is rotated to make the holding plate 68 abut the button area 240, and then the spacing between the resisting member 672 and the clamping plate 68 is adjusted by the adjusting knob 69, so that the clamping plate 68 and the resisting member 672 are common. Clamping button area 240 ° Q [0018] It can be understood that the center of the bottom plate 62 of the clamping assembly 60 can be set with a coordinate axis, and when the optical testing device 20 emits the optical focus of the coordinate axis, the optical position can be realized. Fine positioning of the test device 2〇. [0019] It can be understood that the angle of the flipping unit 70 flipping the notebook computer 2 can be adjusted according to different types of computers, and the optical area of the notebook computer 2 is prevented from being reversed when the button area 240 of the notebook computer is turned over in the Z-axis direction. The test device 2〇 can also be adjusted for its flip angle. [0020] The backlight module testing device 100 of the present invention holds the notebook device 6G holding the notebook type 100103011 Form No. A0101 Page 9 / 21 pages 1002005333-0 201231946 Brain 200, and realizes the difference of the notebook computer 200 by the flipping component 70 The flipping of the direction facilitates the testing of the optical test device 20. During the test, since the squeezing plate 68 of the clamping unit 60 is rotatable, whether or not the hinge is taken out has no influence on the positioning of the notebook computer 200, and the clamping unit 60 can position the notebook computer of different sizes with high flexibility. The backlight module testing device 100 is easy to test and the test result is accurate. [0021] In summary, the present invention complies with the requirements of the invention patent, and submits a patent application according to law. However, the above description is only the preferred embodiment of the present invention, and equivalent modifications or variations made by those skilled in the art will be included in the following claims. BRIEF DESCRIPTION OF THE DRAWINGS [0022] FIG. 1 is a perspective view of a backlight module testing device according to a preferred embodiment of the present invention [0023] [0023] [0029] FIG. 1 is an exploded perspective view of the backlight module testing device shown in FIG. 1; FIG. 3 is a perspective view of the moving component of the backlight module testing device shown in FIG. 1; FIG. 4 is an exploded perspective view of the clamping assembly of the backlight module testing device shown in FIG. FIG. 5 is an assembled view of the clamping assembly and the flipping assembly of the backlight module testing device shown in FIG. 1. [Main component symbol description] Backlight module test device: 100 Mobile workbench: 10 Optical test device: 20 100103011 Form number A0101 Page 10/Total 21 page 1002005333-0 [0029] 201231946 [0030] Motion component: 30 [0031 Slide rail: 31 [0032] Slide: 32 [0033] First connection plate: 33 [0034] Second connection plate: 34 [0035] First motor: 35 [0036] First connection block: 352 Θ [0037 First screw: 354 [0038] Second motor: 36 [0039] Second connecting block: 362 [0040] Second screw: 364 [0041] Third motor: 37 [0042] Third connecting block: 372 〇[0043] Third screw: 374 [0044] Fine adjustment component: 50 [0045] Slider connection plate: 51 [0046] Fine adjustment platform: 52 [0047] First adjustment member: 54 [0048] Second adjustment member: 55 100103011 Form No. A0101 Page 11 of 21 1002005333-0 201231946 [0049] Clamping assembly: 60 [0050] Base plate: 62 [0051] Limiting groove: 62 2 [0052] Clamping knob: 6 3 [ 0053] Limit block: 64 [0054] Stop: 66 [0055] Chute: 662 [0056] Slide connection plate: 67 [0057] Resistor: 672 [0058] Through hole :674 [0059] Clamping plate: 68 [0060] Locating groove: 682 [0061] Clamping: 684 [0062] Snap hole: 686 [0063] Adjustment knob: 69 [0064] Flip assembly: 70 [0065] Frame : 72 [0066] Horizontal plate: 722 [0067] Side plate: 724 100103011 Form number A0101 Page 12 / Total 21 page 1002005333-0 201231946 [0068] [0070] [0071] [0072] [0074] ] ❹ First drive unit support Rotary module Second drive unit Electrical control box: 80 Notebook: Screen area: 220 Button area. 2 4 0 : 74 : 76 : 78 200 100103011 Form number A0101 Page 13 of 21 Page 1002005333-0