1301424 九、發明說明: 【發明所屬之技術領域】 本發明有關於m破壞柄封邊之方法與裝置,—種運用 於勵辅片,特別於光碟封邊交錯排列著正電極與負電極,藉 以上述二極形成-電弧,並由電弧進行破壞光碟金屬層。曰 【先前技術】 按,目前-般對於廢DVD光碟片之處理方法,如中 明專利公告第125麗號「廢議光碟片之資源再生方 ^ ^揭露二係藉以剪裁工具進行作動,錢,於廢_光碟片邊緣 处’以减工具施以剪切—缺π,經由分離器將其缺口上下 層pc塑膠片撐開分離,然而,經由上述操作述明,使其 碟片需經由上述操作手續步驟重複作動,使其增加操㈣ ί用對,也增加耗費回收處理DVD光碟片作業時間。益法 運用於處理大量_光碟片作業,降低產業利用性。 【發明内容】 本發明顧m弧破壞光顧叙方法 決破壞DVD光碟片封邊之問題。 ”震置’以解 本發明係以電弧破壞光碟封邊之方法,包括·· 電極a•.以—高觀電電路連接至少―組長型的正電極與長型的負 b·將正電極與負電極依序交錯制於光碟周邊; c·使正電極與負電極二者間距大於 範圍; 電弧作用 1301424 d·以正電極與負電極產生電弧放電,破壞光碟之封邊金 層。 *蜀 上述正電極、負電極與光碟的封邊金屬層之間係相 以改變電弧放電作用於光碟之封邊金屬層的位置。 本發明亦係一種以電弧破壞光碟封邊之裝置,包括: 一咼壓放電電路,供輸出高電壓; -環列長型電極,連接於上述高壓放電電路,具有至小 依序交錯排列之長型的正電極與長型的負電極;、乂—、、且 置之2台,設置於上述長型的正電極、長型的負電極之環列位 ^述高壓放電電路包括有返馳式轉換電路 路、=二換電路、全橋式轉換電路與半橋式轉換電路換電 〜銳電電路係材輸蚊電流或定功率之 本發明具有下列之優點: (非使用溶劑)即可破壞光碟封邊金屬声。 •糟由正電極與負電極所產生之電弧曰 屬層,操作簡單、便利,可縮短破 破覆光碟封邊金 3.藉由正電極、負電極相對 ^金初之時間。 變破壞辆封邊全如之㈣轉於柄封邊金屬層,使其改 之效果。f邊金屬層之位置,可產生充分破壞光碟封邊金屬層 4·_光碟片可以疊置而同時 用,處理效率高。 电極、負電極之電弧作 【實施方式】 1301424 如第一圖所示,本發明係以電弧破壞光碟封邊之方法, 下列步驟: a·以-高壓放電電路⑴連接至少—組長型的正電極⑵與長 型的負電極(3);即經由高壓放電電路⑴分別連接於至少一組長 型的正電極(2)及-組長型的負電極⑶,並透過正電極⑵與 電極(3)釋放出高電壓之正電荷及負電荷。 /、、 ^將正電極⑵與負電極⑶依序交錯排列於光碟⑷周邊; 圖所示’將上述正電極⑵與負電極⑶依序環形交錯排列 於光碟(4)之封邊金屬層(41)外圍。 C·使正电極⑵與負電極⑶二者間距位於電弧制範圍内. 7正電極⑵與㈣極⑶產生電弧,破壞光碟⑷之封邊 金屬層(41),藉由正電極⑵與負電極⑶將 於正電極⑵與負電極⑶二_形成—,由糾碟(4)之= ^金^層⑹錄正電極⑵與負電極⑶之電弧放電作 内’因此封邊金屬層⑹將成為電弧之路徑,亦即,封邊】 較魏之侧,藉魏之高溫朗輕 ^ 變化而裂解或破壞。 」座生應力 之門==(2)、負電極⑶與光碟⑷之封邊金屬層⑷) 「,广變電弧放電作用於封邊金屬層(4⑽ ⑵、負itm此—相職轉之手段,彳_合正電極 員電極(3)數量較少之實施狀態。 1301424 • 如第三圖與第四圖所示,本發明係以電極破壞光碟封邊之裝 置,包括1¾壓放電電路(1)、正電極(2)、負電極(3)及平台(5), 其中: 南壓放電電路(1),供輸出南電壓,該高麈放電電路(1)可以 ' 選擇返馳式轉換電路(11)、順向式轉換電路、推挽式轉換電路、 : 王橋式轉換電路或半橋式轉換電路其中之一;本實施例係以返馳 式轉換電路(11)配合一緩震電路(12)為例作說明,該返驰式轉換 _ f路⑴)係具錢壓ϋ(111)、整流二極體⑽)及舰儲能電容 器(113) ’藉由變壓liCHDm侧繞組使其轉換電壓升 或電壓降’透過整流二極體⑴2)將其轉換之電壓進行整流,並由 濾波儲旎電容器(113)過濾電壓漣波及儲存能量、釋放能量, 穩定輸出電壓。該緩震電路(12)具有二極體⑽)、電阻器 (122)、電容器(123),透過二極體(121)將上述變壓器^⑴一次 側切換開關(13)之損失轉移至電阻器〇22),以降低切換開關⑽ 損失熱與延長使用壽命。 •—一環列長型電極,連接於上述高壓放電電路⑴,具有複數組 〔每組均為-長型正電極⑵與—長型負電極⑶〕依序交錯排列 之長型的正電極(2)與長型的負電極(3)。 -平台⑸,位於上述環列長型正電極⑵與負電極⑶之下 方,呈可固定或可旋轉之型態。 實施時,將光碟⑷置放於平台⑸上,利用正電極⑵盘負 電極(3)所釋放之電孤作用於光碟⑷的封邊金屬層⑹,藉由電 弧之高熱作用,使光碟⑷的封邊金屬層⑹被解離破壞。曰 1301424 此外’正電極(2)、負電極⑶與光碟⑷之封邊金肩層(41) =間可以相對旋轉,以改變正電極⑵、負電極⑶之電弧放電作 用於封邊金屬層(41)之位置。 如第五圖所示,亦可將複數個光碟⑷疊置於平台⑸上 =先碟⑷之封邊金屬層⑷)同時接受正電極⑵與 所產生之電弧,以同時對所有聶 、罨桎(3) 破壞,縮短處雜1 m碟⑷之封邊金屬物)進行 【圖式簡單說明】 圖係本發似雜破壞麵封邊綠之方塊圖。 第二圖係本發明之相長型電極之配置示意的前視圖,圖 々 列長型電極係分佈於光碟封邊。 展 圖係本判之返馳式轉換電路與緩震電路之電路圖。 第四圖係本發明以電極破壞光碟封邊之使用狀態圖㈠〔 DVD光碟片〕。 個 第五圖係本發明以電極破軌碟封邊之使綠態圖( 二) 複數個 DVD光碟片〕。 【主要元件符號說明】 (1) 高壓放電電路 (111) 變壓器 (113) 遽波儲能電容器 (121) 二極體 (123) 電容器 (2) 正電極 (11) 返驰式轉換電路 (112) 整流二極體 (12) 缓震電路 (122) 電阻器 (13) 切換開關 (3) 負電極 1301424 (4) 光碟 (41) 封邊金屬層 (5) 平台1301424 IX. Description of the invention: [Technical field of the invention] The present invention relates to a method and a device for m-breaking the edging of the shank, which are used for the splicing of the squeegee, in particular, the positive electrode and the negative electrode are staggered in the edge of the optical disc, thereby The above two poles form an arc and the arc metal layer is destroyed by the arc.曰[Prior Art] Press, the current method for the disposal of waste DVD discs, such as the Zhongming Patent Announcement No. 125 丽 "Recycling of the discs of the resources of the reproducer ^ ^ expose the second line by the cutting tool to act, money, At the edge of the waste_optical disc, the shearing-deficient π is applied by the reducing tool, and the plastic sheet of the upper and lower layers of the gap is separated and separated by the separator. However, it is stated through the above operation that the disc needs to pass the above operation. The procedure steps are repeated to increase the operation (4) ί, and the operation time of the DVD disc is also increased. The method is applied to handle a large number of optical disc operations, and the industrial utilization is reduced. [Invention] The method of destroying the sacred method is to destroy the edge of the DVD disc. The method of "dissolving" to solve the invention is to destroy the edge of the disc by arc, including ······································· The positive electrode and the long negative b· the positive electrode and the negative electrode are sequentially interleaved on the periphery of the optical disc; c· the distance between the positive electrode and the negative electrode is greater than the range; the arc action 1301424 d· is the positive electrode The negative electrode arc discharge, damage the disc Edge gold layer. * 蜀 The phase between the positive electrode and the negative electrode and the edge-sealing metal layer of the optical disk is changed to change the position of the arc discharge on the edge-sealing metal layer of the optical disk. The invention also relates to a device for destroying an optical disc by an arc, comprising: a piezoelectric discharge circuit for outputting a high voltage; - a long-length electrode connected to the high-voltage discharge circuit, having a length of staggered to a small order a positive electrode of the type and a negative electrode of a long type; two sets of 乂-, and, and are disposed in the ring of the long positive electrode and the long negative electrode, and the high-voltage discharge circuit includes a flyback type The conversion circuit circuit, the second circuit, the full bridge conversion circuit and the half bridge conversion circuit are switched to the power supply of the power supply to the mosquito power or the constant power. The invention has the following advantages: (non-use solvent) can be destroyed The disc is sealed with metal sound. • The arc-corrugated layer produced by the positive electrode and the negative electrode is simple and convenient to operate, and can shorten the breakage of the gold-covered edge of the coated disc. 3. The positive electrode and the negative electrode are relative to each other. Change the edge of the seal to the full extent (4) Turn the metal layer on the edge of the handle to change the effect. The position of the metal layer on the f side can produce a sufficient destruction of the metal layer of the optical disc edge seal. 4. The optical disc can be stacked and used at the same time, and the processing efficiency is high. The arc of the electrode and the negative electrode is used as an embodiment. 1301424 As shown in the first figure, the present invention is a method for arc-breaking the edge of the optical disk, and the following steps are as follows: a·Connecting at least the high-voltage discharge circuit (1) The electrode (2) and the long negative electrode (3); that is, respectively connected to at least one set of the long positive electrode (2) and the set length negative electrode (3) via the high voltage discharge circuit (1), and through the positive electrode (2) and the electrode (3) The positive and negative charges of high voltage are released. /,, ^ The positive electrode (2) and the negative electrode (3) are staggered in sequence around the periphery of the optical disc (4); as shown in the figure, the positive electrode (2) and the negative electrode (3) are sequentially arranged in a ring shape on the edge-sealing metal layer of the optical disc (4) ( 41) Periphery. C. The distance between the positive electrode (2) and the negative electrode (3) is within the range of the arc. 7 The positive electrode (2) and the (four) pole (3) generate an arc, destroying the edged metal layer (41) of the optical disk (4), with the positive electrode (2) and the negative The electrode (3) will be formed by the positive electrode (2) and the negative electrode (3), and the arc discharge of the positive electrode (2) and the negative electrode (3) will be recorded by the correction plate (4) = ^ gold layer (6), so the edge-sealing metal layer (6) will Become the path of the arc, that is, the edge banding. On the side of the Wei, it is cracked or destroyed by the high temperature of Wei. "The gate of the seat stress == (2), the negative electrode (3) and the edged metal layer of the optical disc (4) (4)" ", the wide-variable arc discharge acts on the edge-sealing metal layer (4(10) (2), negative itm--" Means, 彳 _ positive electrode electrode (3) implementation state is small. 1301424 • As shown in the third and fourth figures, the present invention is a device for destroying the optical disc edge of the electrode, including a 13⁄4 piezoelectric discharge circuit ( 1), positive electrode (2), negative electrode (3) and platform (5), wherein: a south voltage discharge circuit (1) for outputting a south voltage, the high temperature discharge circuit (1) can 'select a flyback conversion One of the circuit (11), the forward conversion circuit, the push-pull conversion circuit, the king bridge conversion circuit or the half bridge conversion circuit; the embodiment is a flyback conversion circuit (11) coupled with a cushioning The circuit (12) is exemplified as an example. The flyback conversion _f road (1) is provided with a pressure compression 111 (111), a rectifying diode (10), and a ship storage capacitor (113) 'by transforming the liCHDm side winding Switching the voltage rise or voltage drop through the rectified diode (1) 2) to rectify the converted voltage and filter the tantalum capacitor The device (113) filters the voltage and stores the energy, releases the energy, and stabilizes the output voltage. The cushioning circuit (12) has a diode (10), a resistor (122), a capacitor (123), and a diode (121). Transferring the loss of the primary side switch (13) of the above transformer (1) to the resistor 〇 22) to reduce the loss of heat and extend the service life of the switch (10). • A ring-length long electrode connected to the high-voltage discharge circuit (1), A long positive electrode (2) and a long negative electrode (3) having a complex array (each group is a long-length positive electrode (2) and a long negative electrode (3)). - Platform (5), located The ring-shaped long positive electrode (2) and the negative electrode (3) are fixed or rotatable under the above-mentioned ring-shaped positive electrode (2). In practice, the optical disk (4) is placed on the platform (5) and released by the positive electrode (2) negative electrode (3) The electric isolation acts on the edge-sealing metal layer (6) of the optical disc (4), and the edge-sealing metal layer (6) of the optical disc (4) is disintegrated and destroyed by the high heat of the arc. 曰1301424 In addition, the positive electrode (2), the negative electrode (3) and the optical disc (4) Edge gold shoulder layer (41) = can be rotated relative to each other To change the arc discharge of the positive electrode (2) and the negative electrode (3) to the position of the edge-sealing metal layer (41). As shown in the fifth figure, a plurality of optical disks (4) may be stacked on the platform (5) = first disk (4) The edge-sealing metal layer (4)) simultaneously receives the positive electrode (2) and the generated arc to simultaneously destroy all the Nie and 罨桎(3), and shorten the edge-sealing metal of the 1 m dish (4). The figure is a block diagram of the green surface of the miscellaneous damage surface. The second figure is a front view showing the arrangement of the phase-type electrodes of the present invention, and the long electrode type of the array is distributed on the edge of the optical disc. The circuit diagram of the flyback conversion circuit and the cushioning circuit is determined. The fourth figure is a use state diagram (1) [DVD disc] of the invention for destroying the edge of the optical disc by the electrode. The fifth figure is a green state diagram (2) of a plurality of DVD discs by the edge of the electrode breaking the disc. [Explanation of main component symbols] (1) High-voltage discharge circuit (111) Transformer (113) Chopper storage capacitor (121) Diode (123) Capacitor (2) Positive electrode (11) Flyback conversion circuit (112) Rectifier diode (12) Cushioning circuit (122) Resistor (13) Switch (3) Negative electrode 1301424 (4) Disc (41) Edge metal layer (5) Platform