1313639 九、發明說明: 【發明所屬之技術領域】 種用以成形導光 本發明有關於一種模具,特別 板之模具。 【先前技術】 第模具大致包括模仁與模座,請參閱第1圖, 第來製作背光模組之導光板的習知㈣示意圖,習 二10包括固定側取付板、間隔塊12、模座13、 = '第-鎖固件15、第二鎖固件16以 腔二固定側取付板11與間隔塊u中設 盥第—鎖固件15肖以鎖固模座13 S t而第二鎖固件16用以鎖固間隔塊12:模座 =及可動側取付板17,成形型腔㈣ = 二取:板11間,由圖可知,在拆卸模座U與模;、14 ㈣人員必須先行將第二鎖固件16卸下以分14 塊12、模座13以及可動侧取付板i7,接著才 固件15卸下以分離模座13與模仁14 、弟一鎖 ::方法耗時耗力’非常不符合經濟效益,進二二= 月光模組中之導光板的模具1G說明,由於 = 模組中扮演極為重要的肖色,而導光板上料學微光 設計會影響到顯像效果,若是模具ig不 / j之 具有不同光學微結構的導光板時⑷卩要學微^ = 版時),操作人S必須將模仁14*模座n ^微4改 板U、F_12以及可動側取付板=1313639 IX. Description of the Invention: [Technical Field of the Invention] The present invention relates to a mold, a mold for a special board. [Prior Art] The first mold generally includes a mold core and a mold base. Please refer to FIG. 1 for a conventional (four) schematic diagram of a light guide plate for a backlight module. The second embodiment includes a fixed side take-up plate, a spacer block 12, and a mold base. 13, = 'the first lock firmware 15, the second lock 16 with the cavity two fixed side take-up board 11 and the spacer block u is provided with the first lock member 15 to lock the mold base 13 S t and the second lock 16 Used to lock the spacer block 12: mold base = and movable side take-up board 17, forming cavity (four) = two take: between the board 11, as shown in the figure, in the removal of the mold base U and the mold;, 14 (four) personnel must first The two lock fasteners 16 are removed to divide the 14 blocks 12, the die holder 13 and the movable side take-up plate i7, and then the firmware 15 is removed to separate the die holder 13 from the mold core 14 and the lock one: the method is time-consuming and laborious. Not in line with economic benefits, the mold 1G of the light guide plate in the moonlight module indicates that because the = module plays an extremely important color, the light micro-light design on the light guide plate will affect the development effect, if When the mold ig is not / j has a light guide plate with different optical microstructures (4) when you want to learn micro ^ = version), the operator S must be the mold 14* mold base n ^ micro 4 change board U, F_12 and movable side take-off board =
Client’s Docket No.AU0703049 TT’s Docket No:〇632-A51055tw^Sheiry 1313639 具有新光學微結構圖案的模仁與模座,應用習知模具ίο 的拆裝過程會耗費大量時間,非常不符合產品製造的經濟 效益。 ' 【發明内容】 本發明提供一種模具包括模座、模仁以及調整件,模 座具有容置槽,而模仁設於容置槽中,並且調整件設於容 置槽中並位於模座與模仁之間,而模具更可包括逼塊,逼 • 塊設於調整件上並與模仁相鄰,本發明之模具更包括有二 鎖固件,利用一鎖固件將調整件以及模仁互相固定,另一 鎖固件則使逼塊、調整件以及模座互相固定。 除此之外,逼塊包括一傾斜面,傾斜面與模座鄰接, 透過傾斜面推動模仁,可達到調校模仁之位置也可利於拆 卸模仁。 為讓本發明之特徵和優點能更明顯易懂,下文特舉出 Φ 較佳實施例,並配合所附圖式,作詳細說明如下: 【實施方式】 請參閱第2圖,模具20包括模座21、模仁23、調整 ' 件22、鎖固件28、29、滑塊24a、24b、複數定位件25、 - 彈性件26以及二逼塊27a、27b,其中模座21上設有一 容置槽211,而調整件22設於該容置槽211中並位於模 座21與模仁23之間,調整件22上設有第一鎖固孔221, 而模仁23上設有第二鎖固孔231,第一鎖固孔221與第 二鎖固孔231位置互相對應,並且利用鎖固件28穿過第Client's Docket No.AU0703049 TT's Docket No:〇632-A51055tw^Sheiry 1313639 The mold and mold base with new optical microstructure pattern, the application process of the conventional mold ίο will take a lot of time, which is very inconsistent with the economics of product manufacturing. benefit. The present invention provides a mold including a mold base, a mold core, and an adjusting member. The mold base has a receiving groove, and the mold core is disposed in the receiving groove, and the adjusting member is disposed in the receiving groove and is located at the mold base. Between the mold and the mold, the mold may further comprise a forced block, and the block is disposed on the adjusting member and adjacent to the mold core. The mold of the invention further comprises two lock fasteners, and the adjusting member and the mold core are mutually Fixed, the other lock makes the block, adjustment and mold base fixed to each other. In addition, the pressing block includes an inclined surface which is adjacent to the mold base, and the mold core is pushed through the inclined surface to adjust the position of the mold core and facilitate the removal of the mold core. In order to make the features and advantages of the present invention more comprehensible, the preferred embodiment of the present invention will be described in detail below with reference to the accompanying drawings, and the following detailed description is made as follows: [Embodiment] Referring to Figure 2, the mold 20 includes a mold. a seat 21, a mold core 23, an adjustment member 22, a lock member 28, 29, a slider 24a, 24b, a plurality of positioning members 25, an elastic member 26, and two force blocks 27a, 27b, wherein the mold base 21 is provided with an accommodation The adjusting member 22 is disposed in the receiving groove 211 and located between the die holder 21 and the mold core 23. The adjusting member 22 is provided with a first locking hole 221, and the mold member 23 is provided with a second lock. The fixing hole 231, the first locking hole 221 and the second locking hole 231 are mutually corresponding to each other, and pass through the first locking hole 28
Client’s Docket N〇.AU0703049 6 TT's Docket No:0632-A51055twf/Sherry 1313639 一鎖固孔221以及第二鎖固孔231將調整件22以及模仁 23鎖固,模座21上也設有滑動面212以及陣列定位孔 213 ’滑塊24a、24b以可移動的方式設於滑動面212上, 而該等定位件25凸設於該等陣列定位孔213中以提供滑 塊24a、24b定位。 ’ 滑塊24a、24b上靠近模仁23之一端處設有容設槽 242,該容設槽242用以容納彈性件26,因此彈性件26 設於滑塊24a、24b與模仁23之間以彈開滑塊24a、24b $ 便於成品離型,而滑塊24a、24b上也設有成形槽241, 模仁23與成形槽241相鄰,藉以成形導光板上之一凸出 部(未圖示)。 請搭配參考第5圖,調整件22包括初始面222以及隆 起面223’初始面222與隆起面223平行,並且隆起面223 位置由初始面222上向外隆起,即隆起面223浮凸於初始 面222上,並且隆起面223之寬度W1與模仁23之寬度 W2相等,而初始面222之寬度W3大於隆起面223之寬 度W1 ’再到第2圖可發現,逼塊27a、27b之位置設於初 籲 始面222上並與模仁23相鄰,並且逼塊27a、27b上皆挖 設第三鎖固孔271,調整件22上之初始面222上挖設第 四鎖固孔224,而模座21之容置槽211上挖設第五鎖固 • 孔214 ’第三鎖固孔271、第四鎖固孔224以及第五鎖固 孔214位置互相對應,再利用鎖固件29穿過第三鎖固孔 271、第四鎖固孔224以及第五鎖固孔214藉以將逼塊27、 調整件22以及模座21互相鎖固,另外應注意的是,本實 施例中,鎖固件29係為螺絲,而第三鎖固孔271為提供 鎖固件29直接貫穿其最小直徑之螺紋孔,當鎖固件29(相Client's Docket N〇.AU0703049 6 TT's Docket No:0632-A51055twf/Sherry 1313639 A locking hole 221 and a second locking hole 231 lock the adjusting member 22 and the mold core 23, and the mold base 21 is also provided with a sliding surface 212. And the array positioning holes 213' sliders 24a, 24b are movably disposed on the sliding surface 212, and the positioning members 25 are protruded in the array positioning holes 213 to provide positioning of the sliders 24a, 24b. The sliders 24a, 24b are provided with a receiving groove 242 at one end of the mold core 23, and the receiving groove 242 is for accommodating the elastic member 26, so that the elastic member 26 is disposed between the sliders 24a, 24b and the mold core 23. The sliders 24a, 24b are used to facilitate the release of the finished product, and the sliders 24a, 24b are also provided with a forming groove 241, and the die 23 is adjacent to the forming groove 241, thereby forming a projection on the light guide plate (not Graphic). Referring to FIG. 5, the adjusting member 22 includes an initial surface 222 and a raised surface 223'. The initial surface 222 is parallel to the raised surface 223, and the raised surface 223 is raised outward from the initial surface 222, that is, the raised surface 223 is convex at the initial surface. On the surface 222, the width W1 of the raised surface 223 is equal to the width W2 of the mold core 23, and the width W3 of the initial surface 222 is greater than the width W1 of the raised surface 223. It can be seen from Fig. 2 that the positions of the blocks 27a, 27b are forced. The first locking surface 222 is disposed on the initial surface 222 and adjacent to the mold core 23, and the third locking hole 271 is dug on the pressing blocks 27a and 27b, and the fourth locking hole 224 is dug on the initial surface 222 of the adjusting member 22. The fifth locking hole 214 is inserted into the receiving slot 211 of the die holder 21, and the third locking hole 271, the fourth locking hole 224 and the fifth locking hole 214 are corresponding to each other, and the locking member 29 is used again. The third locking hole 271, the fourth locking hole 224, and the fifth locking hole 214 are used to lock the pressing block 27, the adjusting member 22 and the die holder 21 to each other. In addition, in this embodiment, The locking member 29 is a screw, and the third locking hole 271 is a threaded hole for providing the locking member 29 directly through the smallest diameter thereof. Fasteners 29 (phase
Clients Docket N〇.AU0703049 TT!s Docket No:0632-A51055twf/Sherry 7 1313639 配之螺絲)轉入第三鎖固孔271時,可以藉由第三鎖固孔 271(螺紋孔)反向強迫逼塊27退出。 第3、4圖之實施例顯示模具20由鎖固模式欲拆解之 作動圖,以下說明模具20之拆解步驟,當操作人員要將 第3圖中的模仁23與模座21拆卸時,首先先將定位件 25卸下,本實施例之定位件25為螺絲,此時,可將滑 塊24a、24b以箭頭A方向左右推開,當滑塊24a、24b 推離逼塊27a、27b上方後,即可將鎖固件29卸下使逼塊 27a、27b、模仁23與調整件22跟模座211分離(沿著箭 頭B方向脫開),最後再將鎖固件28卸下即可將模仁23 與調整件22分離,應注意的是,在應用時,可製作多個 具有不同高度之調整件22,當更換不同模仁23時,可透 過選擇適合高度的調整件22來補償模仁23所產生的高度 差。 最後請參考第6圖,第6圖為本發明之另一實施例, 模具30大致與第2-4圖中所顯示之模具20構造相似,不 同處在於逼塊37a、37b中至少有一個逼塊37a上設有一 第一傾斜面371而容置槽311包括第二傾斜面315,第二 傾斜面315與第一傾斜面371相鄰且對應,並且第一傾斜 面371與第二傾斜面315鄰接並可於第二傾斜面315上滑 動,當鎖固件39固定具有第一傾斜面371之逼塊37時, 可藉由第一傾斜面371配合第二傾斜面315作位置控制以 調校(推動)模仁33,另外,當操作人員欲取出模仁33時, 也可透過逼塊37a的反向逼出而將第一傾斜面371與第二 傾斜面315分離,模仁33與容置槽311便產生空隙而使 模仁33鬆開。Clients Docket N〇.AU0703049 TT!s Docket No:0632-A51055twf/Sherry 7 1313639 with screw) When turning into the third locking hole 271, it can be forced by the third locking hole 271 (threaded hole) Block 27 exits. The embodiment of Figs. 3 and 4 shows an operation diagram of the mold 20 to be disassembled by the locking mode. The disassembly step of the mold 20 will be described below. When the operator removes the mold core 23 and the mold base 21 in Fig. 3 First, the positioning member 25 is first removed, and the positioning member 25 of the embodiment is a screw. At this time, the sliders 24a and 24b can be pushed left and right in the direction of the arrow A, and when the sliders 24a and 24b are pushed away from the pressing block 27a, After the upper portion 27b, the lock member 29 can be removed to separate the retaining blocks 27a, 27b, the mold core 23 and the adjusting member 22 from the die holder 211 (disengaged in the direction of the arrow B), and finally the lock 28 is removed. The mold core 23 can be separated from the adjustment member 22. It should be noted that, in application, a plurality of adjustment members 22 having different heights can be produced. When the different mold cores 23 are replaced, the adjustment member 22 suitable for the height can be selected. The height difference generated by the mold core 23 is compensated. Finally, please refer to FIG. 6. FIG. 6 is another embodiment of the present invention. The mold 30 is substantially similar in construction to the mold 20 shown in FIGS. 2-4, except that at least one of the forced blocks 37a, 37b is forced. The block 37a is provided with a first inclined surface 371 and the receiving groove 311 includes a second inclined surface 315. The second inclined surface 315 is adjacent to and corresponding to the first inclined surface 371, and the first inclined surface 371 and the second inclined surface 315 Adjacent and slidable on the second inclined surface 315, when the locking member 39 fixes the pressing block 37 having the first inclined surface 371, the first inclined surface 371 can be adjusted with the second inclined surface 315 for position control ( The mold core 33 is further pushed. In addition, when the operator wants to take out the mold core 33, the first inclined surface 371 and the second inclined surface 315 can be separated by the reverse force of the pressing block 37a, and the mold core 33 is accommodated. The groove 311 creates a gap to loosen the mold core 33.
Client’s Docket NO.AU0703049 TT's Docket No:0632-A51055twf/Sherry 8 1313639 本發明之模具20、30可免於習知技術中(請參考第1 圖)在將模仁14卸下時,必須先行將第二鎖固件16卸下 以分離間隔塊12與模座13,接著才能將第一鎖固件15 卸下以分離模座13與模仁14,由前可知,由於導光板上 的光學微結構之設計會影響到顯像效果,故欲製造具有不 ' 同光學微結構的導光板時,操作人員必須更換習知模具 10中之將模仁14,因此拆裝習知模具10會耗費大量時 間,非常不符合產品製造的經濟效益,而使用本發明之模 φ 具20、30時,不但可以快速地拆裝模仁23、33(原因在於 本發明拆解模仁時不須先拆卸間隔塊12與可動侧取付板 17),更可利用具有不同高度的調整件22提供具有不同高 度的模仁23、33做為高度補償,因此,在要製作具有不 同光學微結構的導光板時,不必過分更動模具20、30之 設計。 雖然本發明已以較佳實施例揭露如上,然其並非用以 限定本發明,任何熟習此項技藝者,在不脫離本發明之精 神和範圍内,仍可作些許的更動與潤飾,因此本發明之保 • 護範圍當視後附之申請專利範圍所界定者為準。Client's Docket NO.AU0703049 TT's Docket No:0632-A51055twf/Sherry 8 1313639 The molds 20, 30 of the present invention are free from the prior art (please refer to FIG. 1). The two locking fasteners 16 are removed to separate the spacer block 12 from the die holder 13, and then the first locking member 15 can be removed to separate the die holder 13 from the mold core 14. As previously known, due to the design of the optical microstructure on the light guide plate It will affect the development effect. Therefore, when manufacturing a light guide plate having a non-optical microstructure, the operator must replace the mold core 14 in the conventional mold 10. Therefore, it takes a lot of time to disassemble the conventional mold 10, which is very It does not meet the economic benefits of product manufacturing, and when the mold φ 20 and 30 of the present invention are used, not only the mold cores 23 and 33 can be quickly disassembled (because the disassembly of the mold core does not require the removal of the spacer block 12 and the movable side first). The take-up plate 17) can further provide the mold cores 23, 33 having different heights by using the adjusting members 22 having different heights as the height compensation. Therefore, when the light guide plates having different optical microstructures are to be produced, it is not necessary to excessively change the mold 20 , 30 design. Although the present invention has been described above in terms of the preferred embodiments, it is not intended to limit the invention, and the invention may be modified and modified without departing from the spirit and scope of the invention. The scope of protection of the invention is subject to the definition of the scope of the patent application.
Client’s Docket N〇.AU0703049 9 TT,s Docket N〇:0632-A51055tw^Sheny 1313639 【圖式簡單說明】 第1圖係為用來製作背光模組之導光板的習知模具示 意圖; 第2圖係為本發明之模具分解圖; 第3圖係為本發明之模具在鎖固模式時之示意圖; 第4圖係為本發明之模具拆解時之示意圖; 第5圖係為本發明之模仁與調整件之示意圖;以及 第6圖係為本發明模具之另一實施例。 【主要元件符號說明】 習知技術 模具10 ; 固定側取付板11 ; 間隔塊12 ; 模座13 ; 模仁14 ; 第一鎖固件15 ; 第二鎖固件16 ; 可動側取付板17 ; 成形型腔18。 本發明 模具20、30; 模座21 ; 容置槽211 ; 滑動面212 ; 陣列定位孔213 ; 第五鎖固孔214 ; 調整件22 ; 第一鎖固孔221 ; 初始面222 ; 隆起面223 ; 第四鎖固孔224 ; 模仁23、33 ; 第二鎖固孔231 ; 第一嵌合部232 ; 滑塊 24a、24b ; 成形槽241 ; 容設槽242 ; 複數定位件25 ; 彈性件26 ; 逼塊 27a、27b、37a、37b ; 第三鎖固孔271 ; 鎖固件28、29、39 ; 第二傾斜面315 ; 第一傾斜面371; 寬度 π、W2、W3 ; 箭頭A、B。Client's Docket N〇.AU0703049 9 TT,s Docket N〇:0632-A51055tw^Sheny 1313639 [Simplified Schematic] Figure 1 is a schematic diagram of a conventional mold used to make a light guide plate for a backlight module; The figure is an exploded view of the mold of the present invention; FIG. 3 is a schematic view of the mold of the present invention in the locking mode; FIG. 4 is a schematic view of the mold of the present invention when disassembled; A schematic view of the adjusting member; and Fig. 6 is another embodiment of the mold of the present invention. [Main component symbol description] Conventional technology mold 10; fixed side take-up plate 11; spacer block 12; mold base 13; mold core 14; first lock member 15; second lock member 16; movable side take-up plate 17; Cavity 18. The mold 20, 30; the mold base 21; the receiving groove 211; the sliding surface 212; the array positioning hole 213; the fifth locking hole 214; the adjusting member 22; the first locking hole 221; the initial surface 222; the raised surface 223 The fourth locking hole 224; the mold core 23, 33; the second locking hole 231; the first fitting portion 232; the slider 24a, 24b; the forming groove 241; the receiving groove 242; the plurality of positioning members 25; 26; forced block 27a, 27b, 37a, 37b; third locking hole 271; locking member 28, 29, 39; second inclined surface 315; first inclined surface 371; width π, W2, W3; arrow A, B .
Client's Docket N〇.AU0703049 TT^ Docket No:0632-A51055tw£/Sherry 10Client's Docket N〇.AU0703049 TT^ Docket No:0632-A51055tw£/Sherry 10