M439052 五、新型說明: 【新型所屬之技術領域】 本創作闕於-種模具結構,尤指一種用來製造模造玻璃 結構 夂模具 【先前技術】 一般而言’玻射材麵-平板狀。若欲生產—具有造型 璃,習知的作法係將平板狀的玻璃素材設置於一上模件盘—下 =辛Γ加熱上模件、下模相及設置於塌件與下模件之間的 以使玻璃素材軟化。當上述之玻璃素材軟化時,上模件 "下模件便可進行合模動作,藉_造玻璃素材的外形。 然而m㈣上模顿下模料财切結構,故 璃素材於加熱棘+會處於散狀態。目此 2 熱至軟鱗,大部分之玻 致該大部分玻璃素材之表面產生波浪狀敝導 影響產品品質而降低產品於市場上的競爭力。4翻度’進而 【新型内容】 以解決 上述:’。本創作提供種用來製造模造玻私模具結構, 破螭之模具結 .本創作之申請專難_露-顧來製造—模造 M439052 構其包3有-母型模具件、一第一公型模具件、一第二公型模具 2以及-支撐件。該第—公型模具件以可開合之方式設置於該母型 • m °亥第一公型核具件設置於該母型模具件與該第一公型模 ^二件之間糾—公賴具件絲與該第—公雜具件共同夾持該 棋造玻璃。該支撐件抵接於該母型模具件與該第二公型模具件,該 支撐倾料-公麵具件姆該母麵躲軸至-合模位置的 匕私中施力於4第—公型模具件,以使該第二公型模具件與該第一 鲁公型模具件共同夾持該模造璩璃。 本創作之申請專利範圍另揭露該第一公型模具件包含有一平么 結構’該平台結構用來於該第一公型模具件相對該母型模具件移: 至該合模位置的過財與該第二公麵具件之—第一側共同夹持該 =造玻璃之-平板區’該母麵具件包含有—模穴結構,該支撑件Z 設置於該模穴結構之底面,賴穴結構於該第—公賴且件相對1 I母麵具件移動雜合模位麟容平綠構、賴造玻璃^ 平板區與該第二公賴具件,且誠穴結構於該第—公型模具件相 對該母型模具件移駐該合模位置的過財與該平台結構朗 該模造玻璃之連接於該平板區邊緣之一模塑區。 本創作之申請翻範圍·露該支撐件為—玻璃平板, ^模具件機H第二賴有H該突她 接h玻璃平板,且該模具結構另包含有一支擇部以及—凹陷部“亥 支撐部形成於該模穴結構之底面對應該冑出部處,該支撐2來= 5 M439052 接於該玻璃平板之周圍,陷部連接於社撐部,細 第-公型件減該母顯具件聽至該合歡置時.二署二 突出部以及該玻璃平板。 4置該 本創作之巾請專職圍另揭露該支撐件為至少—玻 構,且該模具結構包含有至少—弧面凹部以及至少—容置^。 至少-弧面凹部形娜输結構之底面域至少―:二亥 狀對應部分之該至少-麵珠狀結構,該至少—弧面 =犧谢繼_棘置㈣㈣至;== 底面本露至少—穿孔形成於賴穴結構之 與該第二公型模具件脫:::::叙陶第-公嶋 =====_账公細 成 本創作之申請專利細另揭露該支撐件係由可熱 變形材質所製 M439052 本創作之申請專利範圍另揭露該模具結構另包含有一導引結 構二該導引結構用來導引該第一公型模具件相對該母型模具件沿一 第一方向移動至該合模位置或沿相反於該第-方向之-第1方向脫 離該合模位置。 本創作之申請專利範圍另揭露該導引結構另包含有一第一導孔 導孔結構以及—導柱。鶴—導孔結構職於該第一 上’該第二導孔結構形成於該母型模具件上。該導柱之 二=二平行於該第—方向與該第二方向,該導柱之—端部固設 導I结2孔結軸,且該導柱之另1部可滑動地綠於該第一 、尚述i本創作之模具結構係利用支料於模造玻璃成型的 ^力於第二公型模具件,以使第二公型模具件能於模造 =的過程中與第-公型模具件分別爽持模造玻璃之平板區的 標結構支標而導致熱變形。如此—來,模==== 述過程中保持平坦, 域上的顯示晝面。 、。亥颂不杈組的顯不區 圖式 得到==㈣调㈣调觸述及所附 M439052 【實施方式】 請參閱第1圖以及第2_,第1圖為本創作第一實施例模具結 構30之元件外觀示意圖’第2圖為第1圖所示之模具結構30沿剖 面線Α-Α’之元件剖面示意圖。如第1圖以及第2圖所示,模具結構 30用來製造一模造玻璃32。於此實施例中,模造玻璃32可應用於 電子裝置(未繪示於圖中),例如手機等的顯示模·纟且。請參閱第2 圖以及第3圖,第3圖為第2圖所示之模造玻璃32經模具結構3〇 成^•後之元件示思圖。如第2圖以及第3圖所示,模造玻璃32包含 有一平板區321以及連接於平板區321邊緣之一模塑區3Β。模造 玻璃32之平板區321於成型前後保持平坦,藉以保持較佳之透光 度。於實務上’平板區321可應用於該顯示模組的顯示區域。此 模造玻璃32之模塑區323可藉由模具結構3〇自如第2圖所示之平 坦狀態成型為如第3圖所示之圓弧狀態。藉此,本創作之模具結構 )〇便可用來製造於平板區%丨邊緣處具有圓孤造型之模塑區切的 模k玻璃32 ’以符合具有多樣化造型之電子裝置。 34以及第2騎^模具結構3G包含有—母型模糾 公型模具件36,且第—公型模具件36以可開合之 ί所干;ΓΓΓ具件34上。請參閱第2圖以及第4圖,第4圖為 2 圖所不之模具結構3〇處人 圖以及第4騎示,轉剖面示意圖。如第 結㈣於合模的過財^有—導引結構38。當鮮 沿一第—方向幻移動嗜/ 具件36係相對母型模具件3 匕日宁,導引結構38可用來導引第—公型本 8 M439052 =件36相對母麵具件34自如第2 _示之—_位置沿第一方 辦^移動如第4圖所示之—合模位置。另—方面,當模具結構30 \換的過€巾,第—公顺具件36係相對翻模具件%沿相反 =第—方向XI之-第二方向χ2移動。此時,導引結構%可用來 ⑽-公麵具件36相對母賴具件34自如第4 _示之該合 果位置沿第二方向.Χ2移動如第2圖所示之該開模位置。M439052 V. New description: [New technical field] This creation is based on a mold structure, especially one used to make a molded glass structure. [Prior Art] Generally, the glass surface is flat. If you want to produce - with a glazed glass, the conventional method is to set the flat glass material on an upper mold plate - the lower = the upper heating mold, the lower mold phase and the between the collapsed and the lower mold To soften the glass material. When the above glass material is softened, the upper mold part can be clamped, and the shape of the glass material can be borrowed. However, the m (four) upper mold is under the cutting structure, and the glass material is in a scattered state. This is a hot to soft scale, most of which causes the surface of most of the glass material to have a wavy shape that affects the quality of the product and reduces the competitiveness of the product on the market. 4 turning 'and further' [new content] to solve the above: '. This creation provides a kind of mold structure for making mold glass, and the mold of the broken mold. The application for this creation is difficult _ 露-顾来制造-Molding M439052 Build its package 3-mother mold parts, a first type A mold part, a second male mold 2, and a support member. The first-shaped mold part is arranged in the openable manner to the female type. The first male type of the nuclear fixture is disposed between the female mold part and the first male mold part. The public splicing wire and the first hobby member jointly hold the chess glass. The support member abuts the mother mold member and the second male mold member, and the support tilting-male mask member applies the force to the 4th in the smuggling of the mother plane to the axis-closing position. The male mold member is such that the second male mold member and the first Lu male mold member jointly hold the molded glass. The scope of the patent application of the present invention further discloses that the first male mold member includes a flat structure. The platform structure is used to move the first male mold member relative to the female mold member: to the mold position Cooperating with the first male mask member, the first side, the glazing-plate area, the female mask member includes a cavity structure, and the support member Z is disposed on the bottom surface of the cavity structure. The Lai cave structure is in the first--------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- The first male mold member is moved relative to the female mold member to the mold clamping position and the platform structure is connected to one of the molding regions of the edge of the flat plate region. The application of this creation is turned over. The support piece is a glass plate, and the second part of the mold piece machine H has a H-shaped glass plate, and the mold structure further includes a selection part and a depression. The support portion is formed on the bottom surface of the cavity structure corresponding to the crotch portion, the support 2 is 5 M439052 is connected to the periphery of the glass plate, the trap portion is connected to the social support portion, and the fine-male member is reduced by the mother portion. The display piece is heard when the acacia is set. The second part of the two protrusions and the glass plate. 4 The towel of the creation is required to cover the support member at least as a glass structure, and the mold structure contains at least an arc. The at least concave portion and the at least one portion of the bottom surface of the at least the arcuate concave portion are at least ―the at least one-sided bead structure of the corresponding portion of the second hexagram, the at least—the curved surface=sacrificial _the thorn (4) (4) to; == The bottom surface of the dew is at least - the perforation is formed in the Lai cave structure and the second male mold part is removed::::: Syriandi-gong =====_ The patent further discloses that the support member is made of a heat-deformable material, M439052. The mold structure further includes a guiding structure for guiding the first male mold member to move relative to the female mold member in a first direction to the clamping position or opposite to the first portion The direction of the first direction is separated from the clamping position. The scope of the patent application of the present invention further discloses that the guiding structure further comprises a first guiding hole guiding hole structure and a guiding column. The crane-guide hole structure is on the first position. The second guiding hole structure is formed on the female mold part. The second guiding pole of the guiding column is parallel to the first direction and the second direction, and the end of the guiding column is fixed with a guiding I knot 2 hole knot a shaft, and the other part of the guide post is slidably green to the first, and the mold structure of the present invention is formed by the support of the molded glass to force the second male mold member to make the second The male mold part can be thermally deformed by the standard structure of the flat plate area of the molded glass in the process of molding = respectively. Thus, the mold ==== is kept flat during the process , the display area on the field. ,. The display of the map of the map of the group is == (four) tone (four) tone Referring to the attached M439052 [Embodiment] Please refer to FIG. 1 and FIG. 2, which is a schematic view of the appearance of the component of the mold structure 30 of the first embodiment of the present invention. FIG. 2 is a view of the die structure 30 shown in FIG. A cross-sectional view of the cross-section of the element 。-Α'. As shown in Figures 1 and 2, the mold structure 30 is used to fabricate a molded glass 32. In this embodiment, the molded glass 32 can be applied to an electronic device (not shown). (shown in the figure), for example, a display die of a mobile phone, etc. Please refer to FIG. 2 and FIG. 3, and FIG. 3 is a component of the molded glass 32 shown in FIG. 2 which is formed by the mold structure 3. As shown in Fig. 2 and Fig. 3, the molded glass 32 includes a flat plate region 321 and a molding zone 3Β connected to the edge of the flat plate region 321. The flat plate region 321 of the molded glass 32 remains flat before and after molding to maintain a preferred light transmittance. In practice, the flat area 321 can be applied to the display area of the display module. The molding zone 323 of the molded glass 32 can be formed into a circular arc state as shown in Fig. 3 by the mold structure 3 from the flat state shown in Fig. 2. Thereby, the mold structure of the present invention can be used to manufacture a mold-k glass 32' having a round-shaped molding die-cut area at the edge of the flat plate region to conform to an electronic device having a variety of shapes. 34 and the second riding mold structure 3G include a mother mold correcting mold member 36, and the first male mold member 36 is opened and opened; the cookware member 34 is attached. Please refer to Fig. 2 and Fig. 4, and Fig. 4 is a schematic view of the mold structure and the fourth section of the mold structure. For example, the knot (4) is used to close the mold and has a guiding structure 38. The guiding structure 38 can be used to guide the first male version of the M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M The 2nd_shown-_ position moves along the first side ^ as shown in Fig. 4 - the clamping position. On the other hand, when the mold structure 30 is changed, the first fluent member 36 is moved relative to the tumbling member % in the opposite direction - the first direction XI - the second direction χ 2 . At this time, the guiding structure % can be used to move the opening position of the (10)-male mask member 36 relative to the female draping member 34 freely from the fourth position to the second direction. Χ2 is moved as shown in FIG. .
進-步地’導引結楫38包含有一第一導孔結構划、一第二導 383 導柱385 °於此實施例中,第一導孔結_形 於-公型模具件36上,且第二導孔結構383形成於母 34上。導柱胸走向實質上平行於第—方向幻與第二方向χ2, 導柱385之一端部固設於第二導孔結構撕内,且導柱撕之另一 端啊滑動峨構㈣(如㈣以及第 不^ 〇 首如此一來’當模具結構30合模時,第一公型模具件36上的筹 —WL结構381便可用來與導柱地之另一端部配合 沿第一方向X1移動而閉合於母型模娜藉以成; 仏玻璃32。另―方面,當模具結構30開模時,第—公型模呈科 二 =導孔結構381:亦可用來與導㈣之另-端部配合:, 弟a她具件36沿第二方向χ2移動而相 =脫離該合模位置。藉此,模造玻璃32便可_= )052 導引結構38的結構設計可 戶斤速,喊貫《求喊。峰是說,只妓可八二= 36相對母型模具件34沿第一 件 結構犯的結構設計,皆屬本創作所向X2移動之導引 如第2圖以及第4圖所示,模具結構30另包含有一第二公型模 具件40,且第二公型模具件4〇設 、 具件36之間。賴具結構3Q 、^件34與第—公型模 一公麵具们6制^,弟―公麵具件4G絲與第 ^ 5 ^ 一贫… 1模具件36之讀示意圖。如第5圖所 L -,二件36包含有—平台結構361。如第2圖以及第4 \ ^十公型模具件36相對母型模具件如自如第2圖所示 之1纖位置沿第—方向X1移動如第,所示之該合模位置的過 +台結構361可用來與第二公型模具件40之-第一側S1乒 同夾持模造玻璃32之平板區321,以使模造玻璃%之平板區切、 於的過程中能被第—公型模具件36之平台結細以及第二公 型核具件40之第-側S1所紐而保持平坦。 於此實施财,平台結構361與第二公型模具件初之第一側 S1係可以鏡面加工的方式所製成,藉以增加模造玻璃32之平板區 功於成型後之表面平整度,如此平板區32H更能清楚顯示於該顯 不模組的顯示區域上的顯示畫面。 M439052 如第2圖以及第4圖所示,模具結構3〇另包含有一支 其抵接於母具件34與第二公_具件4Q。於此實施例, :㈣係由可熱變形材質,例如玻璃所製成,但不受此限。請二 第6圖’第6圖為本創作第一實施例支撐件42之元件示意圖。如 6圖所示’支餅π轉板狀,意即切件42為―玻辭第 參閱第7圖,第7圖為本創作第—實施例母型模具件如之元件干^ 圖。如第7圖所示’母麵具件34包含有—模穴結構341。如第: 圖以及第4圖麻,域件42錢砂母顏躲 341的底面上。 保八、、、。構 請參閱第8圖’第8圖為本創作第—實施例第二公型模且件如 之耕示意圖。如第8圖所示’第二公型模具件4g相對第一側& 之-第二側S2形成有一突出部4〇1,且突出部係用來抵接支撐 件42 (即玻璃平板)。藉此,模具結仙便可處於如第2圖所示之 該開模狀態。請參閱第5圖至第1〇圖,第9圖為第丨圖所示之模具 姑構30沿剖面線Β·Βι之元件剖面示意圖,第1〇圖為第9圖所示之 模具結構30處於該合模狀態之元件剖面示意圖。如第5圖至第1〇、 圖所示,模具結構3G另包含有—支撐部44以及—凹陷料,支撐 部44形成於母型模具件34之模穴結構341之底面對應第二公型模 具件4〇之第一側S2上的突出部4〇1處,且凹陷部46連接於支樓部 44。支撐部44用來抵接於支擇件42 (即玻璃平板)之周圍。當模 造玻璃32未成型時’支撐部44可施力於第二公型模具件•藉以 11 M439052 支撐第一公型模具件40。藉此,第二公型模具件40與第一公型模 具件36便共同夾持模造玻璃32,以使模造玻璃32處於如第9圖所 示之狀態。 當模造玻璃32成型時,模具結構3G可被—外部熱源(未繪示 於圖中)加熱,以使模造玻璃Μ以及支撐件42的溫度上升^本 創作可設収料42触造賴32具有接近之受錄化溫度,例 如可採用與模造玻璃32 _材質之支撐件42,故當模造玻璃D 、支禮件42 ό^皿度上升達該軟化溫度時,模造玻璃μ以及支禮 件42便可被同時軟化。此時,第一公型模具件%係可推動第二公 型模具件40相對母型模具件34自如第9圖所示之位置沿第一方向 幻移動。於上述過程中’母型模具件34之模穴結構341用來與第 一公型模具件36之平台結構361共同成型模造玻璃32之模塑區 奶。此外,於上述過程中,雖然支撐件42亦軟化,但於其軟化過 知中支撐件42仍可持續施力於第二公_具件4()。藉此,第二公 賴具件4G之第-側S1便可施力於模造玻璃%,以使模造玻璃% 之平板區321能於上述過射持續緊貼於第-公型模具件36之平台 結構36卜藉以保持模造玻璃32之平板區32丨的平坦度。 综上所述’本創作之模具結構3〇係利用支撐件42於模造玻璃 2=型的過程中持續施力於第二公型模具件你以使第二公型模且 造玻璃32細過程中與第-公型模具㈣分別夹持 々玻璃32之平板區321的上下兩側,以防止模造玻璃%之平板 12 M439052 區321之一側於成型的過程中因無支樓結構支樓而導致熱變形。如 此:來’模造_ 32之平板區321便可於上述過程中保持平坦,以 使平板區321能清楚顯示於該顯示模組的顯示區域上的顯示晝面。 當第一公型模具件36推動第二公型模具件4〇相對母型模具件 34沿第—方向X1移動至如第1〇圖所示之該合模位置時,母型模具 件34之松穴結構341便可用來容置第一公型模具件%之平台結構 • 361、模造玻璃32之平板區奶以及第二公型模具件4〇,且模具結 構30之凹陷部46便可用來容置第二公型模具件4〇之突出部4〇ι 以及支撐件42 (即玻璃平板)。如此一來,模具結構3〇便可完成合 模過程,進而成型模造玻璃32如第3.圖所示之造型。 值得一提的是,兩個穿孔48係形成於模穴結構341之底面(如 第7圖所示)。如第1〇圖所示,當作業人員欲取出模造玻璃32時, 鲁可利用一治具50,其上係設置有兩個突柱5〇1。該兩個穿孔48可允 許該兩個突柱501穿過,使突柱5〇1可經由穿孔48沿第二方向χ2 推抵於第二公型模具件40之第二側S2,藉以驅動第一公型模具件 36與第二公型模具件40脫離如第10圖所示之該合模位置。如此一 來’模造玻璃幻便可自模具結構30中取出。 請參閱第11圖至第14圖,第Π圖為本創作第二實施例模具結 構30'之元件剖面示意圖,第12圖為本創作第二實施例母型模具件 34’之元件示意圖,第13圖為本創作第二實施例第二公型模具件4〇| 13 M439052 之元件示賴,第14圖為補作第二實施例支餅421之元件示意 圖。於此實施例中,支撐件42|亦由可熱變形材質,例如玻璃所製成, 但不受此限。如第M圖所示’支樓件似呈珠狀,意即支樓件犯, 為:玻璃珠狀結構。而第二實施例中與第—實施例中具有相同標號 的70件,其具有相關結構設計及作用顧,為求簡潔,故於此不 再贅述。 於此實施财,模具結構30,另包含有至少一弧面凹部52。弧面 凹。I3 52也成於模穴結構341之底面且弧面凹部52之形狀對應部分 =支撐件42,(即玻璃珠狀結構)。藉此,弧面凹部52便可用來分別 疋位支料42’(即越珠狀結構),靖止战件42,於模穴結構 341之底面滾動。於此實施例中,模具結構30,包含有七個旅面凹部 52,但弧面凹部52的數量可不偶限於此實施例中所述,其端視實際 需求而定。 除此之外,模具結構30’另包含有至少—容置凹部%,其形成於 第二公型模具件4G,之相對第-側S1之第二側S2上。於此實施例 中,模具結構30'包含有二個谷置凹部54,但容置凹部54的數量可 不侷限於此實施例中所述’其端視實際需求而定。請參閱第15圖以 及第16圖’第15圖為本創作第二實施例模具結構於另一視角之 元件剖面示意圖,第16圖為第1S圖所示之模具結構3〇,處於該合模 狀態之元件剖面示意圖。如第15圖以及第16圖所示,當模造玻璃 32成型時,模具結構30,可被一外部熱源(未繪示於圖中)加熱, M439052 以使模造朗32缝狀件42,的溫度上升。賴造玻璃32以及支 樓件42的/Ja度上升達一軟化溫度時,模造玻璃%以及支擇件a, 便可被軟化。此時’第一公型模具件36係可推動第二公型模具件 4〇|相對母型模具件34,自如第15圖所示之位置沿第一方向幻移動。 於上述過程中,母型模具件34,之模穴結構341用來與第一公型 核具件36之平台結構361共同成型模造玻璃32之模塑區323。此 #外’於上述過程中,雖然支撐件似,亦軟化,但於其軟化過程中支撐 件42’仍可持續施力於第二公型模具件4〇,。藉此,第二公麵具件 40'之第-側SH更可施力於模造玻璃32,以使模造玻璃%之平板區 321能於上述過程中持續緊貼於第-公型模具件36之平台結構 361,藉以保持模造玻璃32之平板區321的平坦度。 進一步地’當第-公型模具件36推動第二公 •麵具件娜第,X1_如第 日寸’母型模具件34’之模穴結構341便可用來容置第一公型模具件 36之平台結構36卜模造玻璃32之平板區321以及第二公型模具件 40 ’且模具結構3〇1之容置凹部M便可用來容置炫化後之另一部分 之支撐件42’(如第16圖所示)。如此一來,模具結構職可完成 合模過程,進而成型模造玻璃32如第3圖所示之造型。 、相較於先前技術,本創作之模具結構係利用支樓件於模造玻璃 成型的過程中持續施力於第二公型模具件,以使第二公型模具件能 15 M439052 於模造玻璃細_程巾與第—公麵具件分顺持模造辆之平 板區的上下_ ’以防止模造玻璃之平板區之-側於成型的過程中 因無支撐結構支撐轉致熱娜。如此—來,模造㈣之平板區便 可於上述過程中簡平坦,以使平板區能清楚顯示於該顯示模也的 顯示區域上的顯示晝面。 以上所述僅為本創作之較佳實施例,凡依本創作申請專利範圍 所做之均輕化與修飾,皆應屬本創作之涵蓋範圍。 【圖式簡單說明】 第1圖為本創作第—實施例模具結構之元件外觀示意圖。 圖。弟2圖為第丨圖所示之模具結構沿剖面線a_a,之元件剖面示意 圖 第3圖為帛2 _示之模造玻魏模具結構成型後之元件 示意 態之元件剖面 第4圖為第2圖所示之模具結構處於—合模狀 第一實施例第一公型模具件之元件示意圖 〃圖為本創作第__實關描件之元件示意圖。 第7圖為本創作第—實關母麵具件之元件示音圖。 之元件剖面示意The stepping guide 38 includes a first guide hole structure and a second guide 383. The guide 385 is in the embodiment. The first guide hole is formed on the male mold member 36. And the second via structure 383 is formed on the mother 34. The guiding column chest is substantially parallel to the first direction and the second direction χ2, one end of the guiding column 385 is fixed in the tearing of the second guiding hole structure, and the other end of the guiding column is slid sliding (4) (eg (4) And the first step is such that when the mold structure 30 is clamped, the WL structure 381 on the first male mold member 36 can be used to move along the other end of the guide post in the first direction X1. And closed to the mother mold Na to make; 仏 glass 32. On the other hand, when the mold structure 30 is opened, the first male mold is in the second = the guide hole structure 381: can also be used to guide the other end of the (four) Part cooperation:, brother a, she has 36 moves in the second direction χ 2 and the phase = off the clamping position. Thereby, the molded glass 32 can be _= ) 052 The structure of the guiding structure 38 can be rushed, shouting Throughout, ask for shouting. The peak is said that only the structure design of the first piece structure relative to the parent mold part 34 is the guide of the creation of the X2 movement as shown in Fig. 2 and Fig. 4, the mold The structure 30 further includes a second male mold member 40, and the second male mold member 4 is disposed between the members 36. Lai structure 3Q, ^ 34 and the first - public model a public mask 6 system ^, brother - male mask parts 4G wire and the first ^ ^ ^ a poor ... 1 mold piece 36 read schematic. As shown in Figure 5, L-, the two pieces 36 include a platform structure 361. As shown in Fig. 2 and the 4th - 4th male mold member 36, as shown in Fig. 2, the 1 fiber position is moved along the first direction X1 as shown in the first direction, and the mold clamping position is shown as + The table structure 361 can be used to clamp the flat plate region 321 of the mold glass 32 with the first side S1 of the second male mold member 40, so that the flat glass portion of the molded glass can be cut in the process. The platform of the mold member 36 is thin and the first side S1 of the second male fixture 40 is kept flat. In this implementation, the platform structure 361 and the first side S1 of the second male mold member can be made by mirror processing, thereby increasing the flatness of the flat plate region of the molded glass 32 after molding, such a flat plate. The area 32H is more clearly displayed on the display area of the display module of the display module. M439052 As shown in Fig. 2 and Fig. 4, the mold structure 3 further includes a pair of the base member 34 and the second male member 4Q. In this embodiment, : (4) is made of a heat-deformable material such as glass, but is not limited thereto. Please refer to Fig. 6 which is a schematic view of the components of the support member 42 of the first embodiment of the present invention. As shown in Fig. 6, the cake π turns into a plate shape, that is, the cutting member 42 is "glass". Referring to Fig. 7, Fig. 7 is a diagram of the elemental mold member of the first embodiment. As shown in Fig. 7, the 'mother mask member 34' includes a cavity structure 341. As shown in the figure: Fig. 4 and Fig. 4, the domain member 42 is covered with sand and 341. Bao Ba,,,. Please refer to Fig. 8'. Fig. 8 is a schematic view of the second male mold of the first embodiment of the present invention. As shown in Fig. 8, the second male mold member 4g is formed with a protruding portion 4〇1 from the first side & the second side S2, and the protruding portion is used to abut the support member 42 (ie, the glass plate). . Thereby, the mold knot can be in the mold opening state as shown in Fig. 2. Please refer to FIG. 5 to FIG. 1 , and FIG. 9 is a schematic cross-sectional view of the component of the mold 30 along the section line Β·Βι shown in FIG. 1 , and the first drawing is the mold structure 30 shown in FIG. 9 . A schematic cross-sectional view of the component in the closed state. As shown in FIG. 5 to FIG. 1 , the mold structure 3G further includes a support portion 44 and a recessed material, and the support portion 44 is formed on the bottom surface of the cavity structure 341 of the female mold member 34 corresponding to the second male type. The protruding portion 4〇1 on the first side S2 of the mold member 4 is connected to the branch portion 44. The support portion 44 is for abutting against the periphery of the support member 42 (i.e., the glass plate). When the molded glass 32 is not formed, the support portion 44 can be applied to the second male mold member. The first male mold member 40 is supported by 11 M439052. Thereby, the second male mold member 40 and the first male mold member 36 collectively hold the molded glass 32 so that the molded glass 32 is in the state as shown in Fig. 9. When the molded glass 32 is molded, the mold structure 3G can be heated by an external heat source (not shown) to increase the temperature of the molded glass crucible and the support member 42. Close to the recorded temperature, for example, the support member 42 of the molded glass 32 can be used, so when the molded glass D and the gift member 42 are raised to the softening temperature, the molded glass μ and the gift member 42 are used. It can be softened at the same time. At this time, the first male mold member % can push the second male mold member 40 to move in a first direction with respect to the position of the female mold member 34 from the position shown in Fig. 9. In the above process, the cavity structure 341 of the female mold member 34 is used to co-form the molded portion of the molded glass 32 with the platform structure 361 of the first male mold member 36. Further, in the above process, although the support member 42 is also softened, the support member 42 can continue to be applied to the second male member 4 () in its softening. Thereby, the first side S1 of the second male component 4G can be applied to the molded glass %, so that the molded glass% flat plate region 321 can continue to be in close contact with the first male mold member 36 during the above-mentioned overspray. The platform structure 36 serves to maintain the flatness of the flat zone 32 of the molded glass 32. In summary, the mold structure of the present invention uses the support member 42 to continuously apply force to the second male mold member during the process of molding the glass 2= type, so that the second male mold and the glass forming process are fine. The middle and the first male molds (4) respectively hold the upper and lower sides of the flat plate region 321 of the bismuth glass 32, so as to prevent one side of the molded glass slab 12 M439052 region 321 from being formed in the process of forming without a branch structure. Causes thermal deformation. Therefore, the flat area 321 of the mold _ 32 can be kept flat during the above process, so that the flat area 321 can be clearly displayed on the display surface of the display area of the display module. When the first male mold member 36 pushes the second male mold member 4 to move relative to the female mold member 34 in the first direction X1 to the mold clamping position as shown in FIG. 1 , the female mold member 34 The loose hole structure 341 can be used to accommodate the platform structure of the first male mold part, 361, the flat plate milk of the molded glass 32, and the second male mold part 4, and the recessed portion 46 of the mold structure 30 can be used. The protrusion 4〇 of the second male mold member 4 以及 and the support member 42 (ie, the glass plate) are accommodated. In this way, the mold structure 3 can complete the mold clamping process, and the molded glass 32 is molded as shown in Fig. 3. It is worth mentioning that two perforations 48 are formed on the underside of the cavity structure 341 (as shown in Figure 7). As shown in Fig. 1, when the operator wants to take out the molded glass 32, Luke uses a jig 50 on which two studs 5〇1 are disposed. The two perforations 48 allow the two studs 501 to pass through, so that the studs 5〇1 can be pushed in the second direction χ2 through the perforations 48 to the second side S2 of the second male mold member 40, thereby driving the first The male mold member 36 and the second male mold member 40 are separated from the mold clamping position as shown in FIG. In this way, the molded glass can be removed from the mold structure 30. Please refer to FIG. 11 to FIG. 14 . FIG. 12 is a cross-sectional view showing the components of the mold structure 30 ′ according to the second embodiment of the present invention. FIG. 12 is a schematic view showing the components of the female mold member 34 ′ according to the second embodiment of the present invention. Fig. 13 is a view showing the components of the second male mold member 4 〇 | 13 M439052 of the second embodiment of the present invention, and Fig. 14 is a view showing the components of the second embodiment of the support member 421. In this embodiment, the support member 42| is also made of a heat-deformable material such as glass, but is not limited thereto. As shown in Figure M, the branch building is like a bead, which means that the branch is made of glass. In the second embodiment, 70 pieces having the same reference numerals as in the first embodiment have the related structural design and function, and are not described here for the sake of brevity. In this implementation, the mold structure 30 further includes at least one curved recess 52. The curved surface is concave. I3 52 is also formed on the bottom surface of the cavity structure 341 and the shape corresponding portion of the curved concave portion 52 = support member 42, (i.e., glass bead structure). Thereby, the curved recess 52 can be used to respectively clamp the support 42' (i.e., the more beaded structure), and the warfighting member 42 rolls on the bottom surface of the cavity structure 341. In this embodiment, the mold structure 30 includes seven travel recesses 52, but the number of curved recesses 52 may not be limited to that described in this embodiment, depending on actual needs. In addition to this, the mold structure 30' further includes at least a accommodating recess % formed on the second side S2 of the second male mold member 4G opposite to the first side S1. In this embodiment, the mold structure 30' includes two valley recesses 54, but the number of the recesses 54 is not limited to that described in the embodiment, and its end depends on actual needs. Please refer to FIG. 15 and FIG. 16 'FIG. 15 is a schematic cross-sectional view of the second embodiment of the mold structure in another view, and FIG. 16 is a mold structure 3〇 shown in FIG. 1S. Schematic diagram of the component of the state. As shown in Figures 15 and 16, when the molded glass 32 is molded, the mold structure 30 can be heated by an external heat source (not shown), M439052 to mold the temperature of the slit 32. rise. When the /Ja degree of the glass 32 and the floor member 42 rises to a softening temperature, the molded glass % and the support member a can be softened. At this time, the first male mold member 36 can push the second male mold member 4〇|relative to the female mold member 34 to move magically in the first direction from the position shown in Fig. 15. In the above process, the die structure 34 of the female mold member 34 is used to form the molding zone 323 of the molded glass 32 together with the platform structure 361 of the first male fixture 36. In the above process, although the support member is similar, it is softened, but the support member 42' can continue to be applied to the second male mold member 4〇 during the softening process. Thereby, the first side SH of the second male mask member 40' can be applied to the molded glass 32 so that the molded glass panel portion 321 can continue to be in close contact with the first male mold member 36 during the above process. The platform structure 361 is used to maintain the flatness of the flat plate region 321 of the molded glass 32. Further, when the first-male mold member 36 pushes the second male mask member Nadi, the cavity structure 341 of the X1_first-day 'mother mold member 34' can be used to accommodate the first male mold. The platform structure 36 of the piece 36 is used to cover the flat plate portion 321 of the mold glass 32 and the second male mold member 40', and the receiving recess M of the mold structure 3〇1 can be used to accommodate the other portion of the support member 42' (as shown in Figure 16). In this way, the mold structure can complete the mold clamping process, and the molded glass 32 can be molded as shown in Fig. 3. Compared with the prior art, the mold structure of the present invention uses the branch member to continuously apply force to the second male mold part during the molding process, so that the second male mold part can be 15 M439052 in the molded glass. _ Cheng towel and the first - public mask parts are divided into the upper and lower sides of the flat plate area of the molded mold _ 'to prevent the surface of the flat glass of the molded glass from being supported by the unsupported structure during the forming process. In this way, the flat area of the mold (4) can be flattened in the above process, so that the flat area can be clearly displayed on the display surface of the display area of the display mold. The above is only the preferred embodiment of the present invention, and all the lightening and modification of the patent application scope of the present invention should be covered by the present invention. [Simple description of the drawings] Fig. 1 is a schematic view showing the appearance of the components of the mold structure of the first embodiment. Figure. 2 is the mold structure shown in the second figure along the section line a_a, the cross-sectional view of the element is shown in Fig. 3, which shows the component profile of the component after the molding of the molded glass fiber mold structure. The mold structure shown in the figure is in the form of a mold. The schematic view of the first male mold member of the first embodiment is a schematic view of the components of the first __ real cut. The seventh picture shows the component sound map of the first real part mask of the creation. Component cross section
實施例第二公麵具件之“轉圖 圖為弟1圖所示之模具結構沿剖面線B_B 16 M439052 圖。 第 意圖。 第 第 第 第 第 示意圖 第 示意圖 10圖為第9®所示之模具結構處於該合模狀態之元件剖面示 11圖為本創作第二實施例模具結構之元件剖面示意圖。 12圖為本創作第—實施例母型模具件之元件示意圖。 13圖為本創作第二實施例第二公型模具件之树示意圖。 14圖為本創作苐一貫施例支掠件之元件示意圖。 b圖為本創作第二實施讎具結構於另一視角之元件剖面 態之元件剖面 I6圖為第I5圖所示之模具結構處於該合模狀 【主要元件符號說明】 30、301 321 34、34' 36 38 383 40、40丨 42 ' -42' 46 50 模具結構 平板區 母型模具件 第一公型模具件 導引結構 第二導孔結構 第二公型模具件 支撐件 凹陷部 治具 32 323 341 361 381 385 401 44 48 501 模造玻璃 模塑區 模穴結構 平台結構 第一導孔結構 導柱 突出部 支撐部 穿孔 突柱 17 M439052The second figure of the second male mask member is shown in Fig. 1 as a cross-sectional line B_B 16 M439052. The first intent is shown in Fig. 9 FIG. 11 is a cross-sectional view showing the components of the mold structure of the second embodiment of the present invention. FIG. 12 is a schematic view showing the components of the female mold member of the first embodiment. 2 is a schematic diagram of a tree of a second male mold part. Fig. 14 is a schematic view of the components of the conventional embodiment of the arranging member. The section I6 is the mold structure shown in Fig. I5 in the mold mode. [Main component symbol description] 30, 301 321 34, 34' 36 38 383 40, 40丨42 ' -42' 46 50 Die structure flat zone Type mold part first male mold part guiding structure second guide hole structure second male mold part support part recessed fixture 35 323 341 361 381 385 401 44 48 501 Molded glass molding area cavity structure platform structure One via structure Guide post projection support perforation stud 17 M439052
52 弧面凹部 54 容置凹部 SI 第一側 S2' 第二側 XI 第一方向 X2 第二方向 A-A' ' B-B' 剖面線 1852 curved concave portion 54 accommodating concave portion SI first side S2' second side XI first direction X2 second direction A-A' 'B-B' section line 18