五、新型說明: 【新型所屬之技術領域】 [0001] [0002] [0003] 本創作係有關於一種導光板微結構加工機,尤指一 種可供使用者於導光板加工途中發現加工錯誤時,可以 立即對加工機構進行微調修正,以有效防止導光板於效 個加工製程完成後’因製作瑕疵必須報廢之成本損失及 資源浪費者。 【先前技術】 按,液晶顯示益導光板是用於導引液晶登幕之發光 源所發射之光線,使光線均勻地發散至夕[^界,以使使用 者觀看到一亮度均勻的影像畫面。因此,ΐ光板在製造 加工時,需要極高的加工精度;,,才寸使禾唪均勻地發散 ’以滿足使用者觀看螢幕時的畫面亮度需求。 請參閱我國公告第588805號之「液晶顯示器導光板 之精密加工機」,係主要包命r^具有定位桌與壓固台之 固定裝置及一可對該導光板進行加工作業之加工機構與 ··· 〆· ·'. % —可帶動該定位桌沿一預定^^適!邊過該加工機構之驅動 裝置及一可控制該驅動裝置與加工機構作動之控制模組 該疋位桌是可與該壓固台相配合,以固定該導光板於 ~疋位桌上’該驅動裝置是依照該控制模組設定之作動 資料’帶動該定位桌沿一預定路徑相對該加工機構移動 且當該定位桌通過該加工機構時,該加工機構是依照 °亥控制模級設定之加工資料,對該導光板進行加工作業 第3頁/共16頁 表單編號A0101 [0004]M408444 [0005] [0006] [0007] 然’上述我國公告第588805號之「液晶顯示器導光 板之精密加工機」於實施上僅能藉由控制模組設定之作 動程式,以將整批相疊之複數導光板送往加工機構處輸 送,以進行導光板的拋光、切削作業,然,於加工的過 程中,使用者係無法有效掌握導光板的拋光、切削的確 實情況,只有當導光板跑完整個程式的流程,完全加工 完畢輸出後’使用者才可由已成形的導光板成品得知導 光板是否於製程中發生製作的瑕疵,若發生製作的瑕疵 ,則整批導光板都須廢棄,如此,將造成使用者相當大 的經濟損失以及物資材料上的浪費。 緣是’本創作人有鑑於該我國公告第5888〇5號之「 液晶顯示器導光板之精密加工機」有上述實施缺失,乃 藉其多年於相關領域的製造及設計經驗和知識的輔佐, 並經多方巧思’針對該我國公告第588805號之「液晶顯 不器導光板之精密加工機j做更新的研發改良,以期發 揮其更咼的實用效益性,而研創出本創作。 【新型内容】 本創作係有關於一種導光板微結構加工機,其主要 的係為了提供一種可供使用者於導光板加工途中發現 錯誤時’可以立即對加工機構進行微調修正之導光 板微結構加工機。 為了達到上述實施目的 ,本創作人乃研擬如下技術 要於機趙上設有加工機構及監控裝置;其中: 工機構’係設有基座,並於基座上組設有基板 表單編號AOlOi 第4頁/共16頁 [0008] M408444 ,再於基座與基板間設有對應螺接之螺桿及螺孔,並使 螺桿與旋轉動力源相組接,復於基板上組設有加工機具 t [0009] 該監控裝置,乃設有監測單元,以與加工機構之加 工機具相對設立,並使監測單元電性連接控制單元,而 該控制單元係包含有螢幕、操縱鍵與處理器,又使控制 單元與加工機構之旋轉動力源及加工機具電性連接。 [0010] 藉此,利用該監測單元係可監測加工機構之進給及 拋光、切削等加工狀態,並顯示於控制單元之螢幕上, 以供使用者於導光板加工途中發.現加工錯誤時,可以立 • ..二 ' _»· * }. ' • ν V ί 即對加工機構進行微調修正、據",此,森ίΐ方止導光板於整 個加工製程完成後,因製作瘕痴名須報廢.之涘本損失及 資源浪費者。 【實施方式】 [0011] 而為令本創作之技術友其所能達嘁之效果,能V. New Type Description: [New Technology Field] [0001] [0002] [0003] The present invention relates to a light guide plate microstructure processing machine, and more particularly to a user who can find a processing error during the processing of the light guide plate. The processing mechanism can be fine-tuned immediately to effectively prevent the light guide from being lost due to the cost of production and waste of resources after the completion of the processing. [Prior Art] Press, the liquid crystal display light guide plate is used to guide the light emitted by the light source of the liquid crystal display, so that the light is evenly dispersed to the evening, so that the user can see a uniform brightness image. . Therefore, the calendering board requires extremely high processing precision in manufacturing and processing; however, it is required to evenly diverge the weir to meet the screen brightness requirement of the user when viewing the screen. Please refer to the "Precision Machining Machine for Liquid Crystal Display Light Guides" in our Announcement No. 588805, which is the main package life r^ with a fixing device for the positioning table and the pressing table, and a processing mechanism for processing the light guide plate. ·····. %—The positioning table can be driven along a predetermined driving device and the driving device capable of controlling the driving device and the processing mechanism. Cooperating with the pressing platform to fix the light guide plate on the table, the driving device is driven according to the actuation data set by the control module to drive the positioning table to move relative to the processing mechanism along a predetermined path and when When the positioning table passes the processing mechanism, the processing mechanism processes the light guide plate according to the processing data set by the control mode. Page 3 of 16 Form No. A0101 [0004] M408444 [0005] [0006] [0007] However, the "Precision Processing Machine for Liquid Crystal Display Light Guides" of the above-mentioned China Announcement No. 588805 can only be implemented by the control module to activate the entire batch of multiple light guide plates. The mechanism is transported to polish and cut the light guide plate. However, during the process of processing, the user cannot effectively grasp the actual condition of polishing and cutting of the light guide plate. Only when the light guide plate runs the complete program flow, completely After the processing is completed, the user can know whether the light guide plate is produced during the manufacturing process by the finished light guide plate. If the produced raft is produced, the entire batch of light guide plates must be discarded, thus causing the user to be quite Big economic losses and waste on materials and materials. The reason is that the creator has the above-mentioned implementation flaws in view of the "Precision Processing Machine for Liquid Crystal Display Light Guides" of the China Announcement No. 5888〇5, which is supported by many years of manufacturing and design experience and knowledge in related fields. According to the multi-party ingenuity's research and development improvement of the precision processing machine j of the liquid crystal display device of No. 588805 of the China Announcement, in order to exert its more practical and practical benefits, and to create this creation. [New content] 】 This creation is about a light guide plate microstructure processing machine, the main purpose of which is to provide a light guide plate microstructure processing machine that can be used to directly correct the processing mechanism when the user finds an error in the process of light guide plate processing. In order to achieve the above-mentioned implementation objectives, the creator has developed the following technology to provide a processing mechanism and a monitoring device on the machine Zhao; wherein: the industrial organization has a pedestal, and a substrate form number AOlOi is set on the pedestal. Page 4 of 16 [0008] M408444, and then a corresponding screw and screw hole between the base and the substrate, and the screw and the rotary power source And the processing device is provided on the substrate, and the monitoring device is provided with a monitoring unit, which is opposite to the processing tool of the processing mechanism, and the monitoring unit is electrically connected to the control unit, and the control unit is The utility model comprises a screen, a manipulation button and a processor, and electrically connects the control unit and the rotary power source of the processing mechanism and the processing tool. [0010] Thereby, the monitoring unit can monitor the feeding, polishing and cutting of the processing mechanism. The processing status is displayed on the screen of the control unit for the user to send on the light guide plate. When the machining error occurs, you can set up .. 2' _»· * }. ' • ν V ί The organization will make fine-tuning corrections, according to this, after the completion of the entire processing process, the production of the light guide plate will be scrapped. The loss and resource was wasted. [Embodiment] [0011] To enable the technical friends of this creation to achieve the same effect,
夠有更完整且清楚的揭露,茲明如下,請一併參 閱揭露之圖式及圖號: ΜHThere is a more complete and clear disclosure, as explained below, please refer to the disclosed drawings and drawings: ΜH
[0012] 首先,請參閱第一圖所示,為本創作之導光板微結 構加工機,係主要於機體(1 )上設有加工機構(2 ) 〔該加工機構(2)係由拋光機構(3)與成型機構( 4)所組成〕、監控裝置(5)及輸送裝置(6);其 中: [0013] 該拋光機構(3 ),請一併參閱第二圖所示,係設 有基座(3 1 ),並於基座(3 1 )上設有基板(3 2 表單編號A0101 第5頁/共16頁 M408444 )’且於基座(31)與基板(3 2)間設有對應接合 的'月動早70(3 3) 於基座(31)與基板(3 2 )間有對應螺接之螺桿(3 4 )及螺孔,並使螺桿( 3 4)與旋轉動力源(3 5)相組接,該旋轉動力源( 3 5) S為伺服馬達’復於基板(3 2)上組設有抱光 機(3 6)等加工機具; [0014] 4成型機構(4) ’係位於抛光機構(3) 旁側, 乃6又有基座(4 1 ),並於基座(4丄)上設有基板( 4 2)’且於基座(4 1 )與基板(4 2)間設有對應 接合的滑動單元(43),再於基座(4 1)與基板( 4 2)間设有對應螺接之螺桿(4 4 )及螺孔,並使螺 桿(4 4)與旋轉動力源(4 5)相組接,該旋轉動力 源(4 5)係為伺服馬達,復於基板(4 2)上組設有 切削成型機(4 6)等加工機具; [0015] 該監控裝置(5),請一併參閱第三圖所示,乃設 有監測單元(5 1),以與拋光機構(3)之拋光機( 3 6)及成型機構(4)乏切削成型機(4 6)等加工 機具相對設立’並使監測單元(5 1 )電性連接控制單 疋(5 2),而該控制單元(52)係包含有螢幕(5 2 1 )、操縱鍵(5 2 2 )與處理器(5 2 3),又使 控制單元(5 2)與拋光機構(3)之旋轉動力源(3 5)、拋光機(3 6),以及成型機構(4)之旋轉動 力源(4 5)與切削成型機(4 6)電性連接。 ⑽16] 該輸送裝置(6 ),係組設於機體(1 )上,並通 過加工機構(2),該輸送裝置(6)係包含有一基座 表單編號A0101 第6頁/共16頁 M408444 (6 1),並於基座(6 1 )上設有基板(6 2),且 於基座(6 1 )與基板(6 2)間設有對應接合的滑動 單元(6 3),再於基座(6 1 )與基板(6 2 )間設 有對應螺接之螺桿(6 4)及螺孔,並使螺桿(6 4) 與旋轉動力源(6 5)相組接,該旋轉動力源(6 5) 係為伺服馬達。 [0017] 據此,當使用實施時,請再參閱第一圖所示,係將 欲加工之導光板放置於輸送裝置(6)之基板(6 2) 上,繼之,啟動輸送裝置(6)之旋轉動力源(6 5) ,以使旋轉動力源(6 5)帶動相組接之螺桿(6 4) ,以連動螺紋接設之基板(6 20位移,並依此控制設 置於基板(6 2)上的欲加工導光板進冷速度; [0018] 續之,輸送裝置(6 )係將導光板先行往拋光機構 (3)方向輸送,於同時,請一併參閱第二圖所示,拋 光機構(3 )之旋轉動力源3 5.)係受顏設程式驅動 ,而轉動相接之螺桿(3 4 ),,使設有螺孔之基板(3 2 )藉由螺桿(3 4 )與螺孔:吼巧傳動,帶動拋光機構 (3)之基板(3 2)往前滑動至預定的加工位置,以 將通過拋光機構(3)之導光板側邊受到拋光機(3 6 )予以拋光; 、 [0019] 續之,輸送裝置(6 )係將已側邊拋光之導光板往 成型機構(4)處輸送,於同時,成型機構(4 )係受 預設程式之驅動,而使其旋轉動力源(45)帶動相接 之螺桿(4 4)轉動,進而作動設有螺孔之基板(4 2 )往前位移,而使組設於基板(4 2)的切削成型機( 表單编號A0101 第7頁/共16頁 [0020] 4 6)對通過成型機構(4)之導光板側邊進行定位槽 之銑切。 而於抛光機構(3)及成型機構(4)之旋轉動力 源(3 5)、( 4 5)帶動拋光機(3 6 )與切削成型 機(4 6)進給以使拋光機(3 6)與切削成型機(4 6 )對導缺進行加卫的同時,請—併參㈣三圖所示 ’監控裝置(5)之監測單元(5 i )便會將獲得的影 像傳輸至控制單元(5 2)之螢幕(5 2 1 ),此時, 使用者便可*螢幕(5 2 1 )的·㈣清楚得知拋光機( 3 6)與切削成型機(4 6)料光板的進給深度是否 確實達到預*的《^值,以及抛光與銑切的狀況是否保 持真直度、平行料加工要求,若進給深度與加工狀態 不符合加工所需,使用者便可立即由控制單元(5 2) 之操縱鍵(5 2 2)處進行調整修正,α暫停拋光機( 3 6)或切削成型機(4 6)的作動,並驅動拋光機構 (3) 或成型機構(4)之旋轉動力源(3 5)、( 4 5)將拋光機(3 6)與切削‘型機(4 6)調整到預 疋的加工深度,再進行拋光或切削的動作,如此,即可 在加工途中立即發現錯誤與立即進行修正,以防止整個 製程加工完畢後,導光板因加工等錯誤,而必須報廢、 廢棄之成本上的損失及材料資源上的浪費。 再者,由於本創作係使拋光機構(3)及成型機構 (4) ,以旋轉動力源(35)、(45)與螺桿(3 4)、( 4 4)及螺礼、之組對,以帶動拋光機(3 6 )與切削成型機(4 6)進給,故其作動上較以壓缸推 表單編號Α0101 第8頁/共16頁 [0021] μ鄕444 動拋光機(3 6 )與切削成型機(4 6)位移之作動方 式更為平穩,且可配合使用者進行進給深度的修正,而 達到只有往復二段式作M態之心無法達成的微調效 果 [0022] 點: 由上述結構及實施方式可知,本創作係具有如下優 [0023] [0024] [0025] 、1.本創作之導光板微結構加工機係設有監控裝置, j皿測加工機構之進給及拋光、切料加工狀態並顯 示於螢幕上,以供使用者於導光板的加工途中發現加工 錯誤時’ ”對加工機構進行_修正,藉此,以防止 整個製,加工完畢後,導嫌因製許参必須報廢 之成本損失® .ς 2. 本創作之導光板微結構加工機係設有監控装置, 以供使用構之加从態,並於發現錯誤時 立即進行修正調整,藉此;,崎免加工完畢後朵 板因加工錯誤,必須廢棄之物胁 環保上的實質效益。。L⑽ 3. 本創作之導光板微結構加工 螺桿及螺孔之組對,帶動加卫機構之如工機具進^源與 ,故在作動上較為平##定,1 1仇移 料千紐H可料使用者進行進A /木度的修正,達到微調的效果。 、° 综上所述’本創作實施例確能達_預期功效 其所揭露之具體構造,不僅未曾見諸於同類產品中,= 未曾公開於_請前,誠已完全符合專利法之規2 表單编號A0101 第9頁/共16頁 [0026] M408444 並賜准 ,爰依法提出新型專利之申請,懇請惠予審查, 專利’則實感德便。 【圖式簡單說明】 [0027] 第一圖:本創作之立體圖 [0028] 第二圖:本創作之局部放大立體圖 [0029] 第三圖:本創作之架構圖 【主要元件符號說明】 [0030] (1 ) 機體 (2 ) 加工機構 [0031] (3 ) 拋光機構 (31) 基座 [0032] (32) 基板 (33) 滑動單元 [0033] (34) 螺桿 (35) 旋轉動力源 [0034] (36) 抛光機 (4 ) 成型機構 [0035] (41) 基座 (4 2 ) 基板 [0036] (43) 滑動單元 (44) 螺桿 ..λ [0037] (45) 旋轉動力源(4 6) 切削成型機 [0038] (5 ) 監控裝置 (51) 監測單元 [0039] (52) 控制單元 (521 )螢幕 [0040] (5 2 2 )操縱鍵 (5 2 3 )處理器 [0041] (6 ) 輸送裝置 (61) 基座 [0042] (62) 基板 (63) 滑動單元 表單编號A0101 第10頁/共16頁 M408444 [0043] (64) 螺桿 (65) 旋轉動力源 表單編號A0101 第11頁/共16頁[0012] First, please refer to the first figure, the light guide plate microstructure processing machine of the present invention is mainly provided with a processing mechanism (2) on the body (1) [the processing mechanism (2) is a polishing mechanism (3) and the forming mechanism (4), the monitoring device (5) and the conveying device (6); wherein: [0013] the polishing mechanism (3), please refer to the second figure, a base (3 1 ) and a substrate (3 2 form number A0101 5th page / 16 pages M408444) is disposed on the base (3 1 ) and is disposed between the base (31) and the substrate (32) There is a corresponding joint 'Moon Movement 70 (3 3) between the base (31) and the substrate (3 2 ) with a screw (3 4 ) and a screw hole corresponding to the screw, and the screw (34) and the rotary power The source (3 5) phase is assembled, and the rotary power source (35) is a servo motor's processing tool on the substrate (32), such as a hoist (36); [0014] 4 molding mechanism (4) 'Beside the polishing mechanism (3), there is a base (4 1 ), and a base (4 2)' is provided on the base (4丄) and on the base (4 1 ) a sliding unit (43) corresponding to the substrate (42) Further, a screw (4 4 ) corresponding to the screwing and a screw hole are disposed between the base (4 1) and the substrate (42), and the screw (4 4) is coupled with the rotary power source (45). The rotary power source (45) is a servo motor, and a processing tool such as a cutting machine (46) is disposed on the substrate (42); [0015] The monitoring device (5), please refer to the third As shown in the figure, there is a monitoring unit (5 1) which is set up to be opposite to the processing machine such as the polishing machine (3 6) of the polishing mechanism (3) and the forming machine (4) of the cutting machine (4 6). The monitoring unit (5 1 ) is electrically connected to the control unit (52), and the control unit (52) comprises a screen (5 2 1 ), a manipulation button (52 2) and a processor (52 2). Further, the rotating power source (35) of the control unit (52) and the polishing mechanism (3), the polishing machine (36), and the rotary power source (45) of the molding mechanism (4) and the cutting machine (4) 6) Electrical connection. (10)16] The conveying device (6) is assembled on the body (1) and passes through the processing mechanism (2). The conveying device (6) comprises a pedestal form number A0101 page 6 / 16 pages M408444 ( 6 1), and a substrate (62) is disposed on the base (6 1 ), and a sliding unit (63) corresponding to the joint is disposed between the base (6 1 ) and the substrate (62), and then A screw (6 4) corresponding to the screwing and a screw hole are arranged between the base (6 1 ) and the base plate (62), and the screw (6 4) is combined with the rotary power source (65). The source (6 5) is a servo motor. [0017] Accordingly, when the implementation is used, please refer to the first figure, the light guide plate to be processed is placed on the substrate (62) of the conveying device (6), and then the conveying device is started (6). a rotating power source (6 5), such that the rotating power source (6 5) drives the phase-connected screw (6 4) to interlock the threaded substrate (6 20 displacement, and accordingly is disposed on the substrate ( 6 2) The cooling rate of the light guide plate to be processed; [0018] Continued, the conveying device (6) transports the light guide plate to the polishing mechanism (3) first, and at the same time, please refer to the second figure. The rotary power source 3 of the polishing mechanism (3) is driven by the setting program, and the screw (3 4 ) is connected to rotate, so that the substrate (3 2 ) provided with the screw hole is screwed (3 4 ) ) and the screw hole: the smart drive drives the substrate (32) of the polishing mechanism (3) to slide forward to a predetermined processing position, so that the side of the light guide plate passing through the polishing mechanism (3) is subjected to the polishing machine (3 6 ) Polishing; [0019] Continued, the conveying device (6) transports the side-polished light guide plate to the molding mechanism (4), and at the same time, the molding machine (4) is driven by a preset program, and its rotating power source (45) drives the screw (4 4) that is connected to rotate, and then the substrate (42) with the screw hole is moved forward, and the group is made. The cutting and molding machine (Form No. A0101, page 7/16 pages [0020] 4 6) provided on the substrate (42) performs milling of the positioning grooves on the side of the light guide plate passing through the molding mechanism (4). The rotary power source (3 5) and (45) of the polishing mechanism (3) and the molding mechanism (4) drive the polishing machine (36) and the cutting machine (46) to feed the polishing machine (3 6 ) While the cutting machine (4 6 ) is used to enhance the guidance, please – and refer to the monitoring unit (5 i ) of the monitoring device (5) as shown in the figure (4) and transfer the obtained image to the control unit. (5 2) The screen (5 2 1 ), at this time, the user can clearly understand the progress of the polishing machine (3 6) and the cutting machine (4 6) of the material light board on the screen (5 2 1 ) Whether the depth does achieve the pre-* value, and whether the polishing and milling conditions maintain the true straightness and parallel material processing requirements. If the feed depth and machining state do not meet the processing requirements, the user can immediately use the control unit. (5 2) The adjustment key (5 2 2) is adjusted and corrected, α pauses the operation of the polishing machine (36) or the cutting machine (46), and drives the polishing mechanism (3) or the molding mechanism (4) The rotary power source (3 5), (4 5) adjusts the polishing machine (36) and the cutting 'machine (4 6) to the pre-cut depth, and then polishes or cuts For, so, you can immediately find his way in the processing error and corrected immediately in order to prevent the entire machining process is completed, the light guide plate due to processing errors, and must be scrapped, the loss on the cost of waste and waste of material resources. Furthermore, since the creation mechanism is such that the polishing mechanism (3) and the molding mechanism (4) are paired with the rotary power source (35), (45), the screw (3 4), (4 4), and the screwing ceremony, In order to drive the polishing machine (3 6 ) and the cutting machine (4 6) to feed, so the actuation is compared with the cylinder to push the form number Α 0101 page 8 / a total of 16 pages [0021] μ鄕 444 dynamic polishing machine (3 6 ) It is more stable with the displacement of the cutting machine (4 6), and can be used with the user to correct the feed depth, and achieve the fine adjustment effect that can only be achieved by the reciprocating two-stage M state. [0022] According to the above structure and implementation, the present invention has the following advantages: [0023] [0025] 1. The light guide plate microstructure processing machine of the present invention is provided with a monitoring device, and the feeding of the j-plate measuring processing mechanism And the polishing and cutting processing state is displayed on the screen, so that the user can _correct the processing mechanism when the processing error is found during the processing of the light guide plate, thereby preventing the whole system, and after the processing is finished, the suspicion is caused. Cost Loss Due to the Retirement of the Manufacturing System® .ς 2. Microstructure Processing of the Light Guide Plate of the Creation The monitoring system is equipped with a monitoring device for the use of the structure, and immediately corrects and adjusts when an error is found. After the processing is completed, the board must be discarded due to processing errors. Benefits. L(10) 3. The pair of micro-structured processing screws and screw holes of the light guide plate of this creation drive the auxiliary machine to enter the source and the machine, so it is relatively flat on the action #1,1 1 Thousands of H can be used by the user to make corrections to the A/wood degree to achieve the effect of fine-tuning. In view of the above, the embodiment of the present invention can achieve the expected structure and the specific structure disclosed, not only has not been seen in Among the similar products, = has not been disclosed before _, the company has fully complied with the provisions of the Patent Law 2 Form No. A0101 Page 9 / 16 pages [0026] M408444 and granted, 提出Proposed new patent application according to law, please benefit For review, the patent 'is really sensible. [Simplified illustration] [0027] The first picture: the perspective of the creation [0028] The second picture: the partial enlarged view of the creation [0029] The third picture: the creation of this Architecture diagram [main component symbol description] [0030] ( 1) Body (2) Processing mechanism [0031] (3) Polishing mechanism (31) Base [0032] (32) Base plate (33) Slide unit [0033] (34) Screw (35) Rotary power source [0034] ( 36) Polishing machine (4) Forming mechanism [0035] (41) Base (4 2 ) Substrate [0036] (43) Sliding unit (44) Screw: λ [0037] (45) Rotary power source (4 6) Cutting machine [0038] (5) Monitoring device (51) Monitoring unit [0039] (52) Control unit (521) Screen [0040] (5 2 2) Operation button (5 2 3) Processor [0041] (6 ) Conveying device (61) Base [0042] (62) Base plate (63) Sliding unit form No. A0101 Page 10 of 16 M408444 [0043] (64) Screw (65) Rotary power source form No. A0101 No. 11 Page / Total 16 pages