201240934 六、發明說明: 【發明所屬之技術領域】 [0001] 本發明是有關於一種表面異型處理及其方法,特別是一 種適用於異型處理之玻璃及其製造方法。 [0002] [先前技術] 玻璃基板係屬於不易加工之材質,而玻璃加工傳統採用 電腦數值控制(Computer Numerical Control)製法時 ,雖然具有許多優點,但是往往會耗費許多時間。 〇 _] 【發明内容】 有鑑於此,本發明之目的就是在提供一種異型處理之玻 璃及其製造方法,利用在玻璃基板上形成無接缝的固化 膠以解決時間耗費過多的問題。 [0004] 緣是,為達上述目的,依本發明之一種異型處理之玻璃 ,包含:玻璃基板及固化膠。其中固化膠係設於玻璃基 板上,並且此固化膠係藉由注入具注入孔的中空治具成 形並固化於此玻璃基板上,此外,固化膠係與此玻璃基 板形成光滑界面以達到無接縫之效果。 [0005] 另外’本發明更提出一種異型處理之玻璃之製造方法, 包含:提供一玻璃基板及具一注入孔之一中空治具,其 100111951 中該治具係選擇性設於該玻璃基板上,使該玻璃基板與 該中空治具之間形成一空間;接著提供一固化膠,該固 化膠係藉由該注入孔注入該中空治具中,使該固化膠形 成於該空間中;接著使該固化膠固化;以及使該中空治 具脫離該固化膝及該玻璃基板,以得到具固化後之該固 化膠之該玻璃基板,其中該固化膠係與該玻璃基板形成 表單編號删! B 3 I/* 13 I 1002019958-0 201240934 [0006] [0007] [0008] [0009] 100111951 光滑界面。 承上所述,依本發明之異型處理之玻璃及其製造方法, 其可具下述優點: (1) 本發明係透過固化膠固化形成於玻璃表面,並且固化 膠與玻璃表面無接縫介面’以節省時間成本,並且本發 明之異型處理之㈣在與细電腦數值控制製法的玻璃 基板在外觀上皆不具有接縫介面。 (2) 玻璃基板上的固化膠可做為緩衝部,避免玻璃基板表 面直接與外界碰觸造成損傷。 兹為使貴審查委員對本發明之技術特徵及所達到之功效 有更進一步之瞭解與認識,謹佐以較佳之實施例及配合 詳細之說明如後。 【實施方式】 以下將參照相關圖式,說明依本發明較佳實施例之異型 處理之玻璃及其方法,為使便於理解,下述實施例中之 相同元件係以相同之符號標示來說明。 請參閱第1至3圖,第1圖係為本發明之異型處理之玻璃之 立體示意圖、第2圖係為第1圖中沿著A_A,剖面線之剖面 示意圖以及第3圖係為中空治具與玻璃基板形成一空間之 立體示意圖。第1至3圖中,本發明之異型處理之玻璃包 含玻璃基板200及固化膠300。其中,玻璃基板200係例 如強化玻璃基板’固化膠300係例如光固化膠或熱固化膠 。固化膠300係設於玻璃基板200上,其中固化膠300係 藉由注入具注入孔410的中空治具4〇〇成形於玻璃基板 200上,接著使固化膠固化’固化膠300就會與玻璃基板 表單編號A0101 第4頁/共13頁 1002019958-0 201240934 Ο 200形成光滑界面。其中,中空治具400之内部係例如具 有一預定形狀’因此當固化膠3〇〇經由注入孔410注入至 中空治具400的内部,接著固化膠3〇〇固化之後,會具有 此預定形狀。另外’中空治具4〇〇係例如更設有排氣孔 420,當固化膠300注入中空治具4〇〇時,原本位於中空 治具400内部的空氣可以透過排氣孔42〇排出,除此之外 ’排氣孔亦可做為確認固化膠3〇〇是否注滿中空治具4〇〇 内部之功能,舉例而言,當固化膠300透過注入孔410注 入中空治具400内部後,若是固化膠3〇〇已經注滿中空治 具400内部,多注入的固化膠3〇〇會從排氣孔42〇排出, 此時就可以確認固化膠3〇〇已經完整填滿了中空治具400 的内部》 [0010] ο [0011] 另外’為了節省中空治具4〇〇的使用成本,中空治具400 之材質係例如採用軟性模或鋼性模,或中空治具4〇〇之材 質係例如採用矽膠、橡膠、鐵氟龍或氟系塑膠。簡言之 ’固化膠300在固化過程中,雖會與玻璃基板2〇〇相黏接 ’但是固化後固化膠3〇〇會與矽膠脫離,因此中空治具 400就可以一直重覆再利用。 在這邊要特別提到的是,傳統電腦數值控制製法係直接 將一塊玻璃基板切割成需要的形狀,因此不會有接縫的 形成’而本發明之異型處理之玻璃係透過固化膠300形成 於玻璃基板200上而達到所需要的形狀,其中固化膠3〇〇 與玻璃基板200表面界面處可以透過拋光處理而達到無接 縫的界面,因此,本發明之異型處理之玻璃在外觀上與 利用電腦數值控制製法的玻璃基板相同。 100111951 表單編號Α0101 第5頁/共13頁 1002019958-0 201240934 [0012] 實際上,為了增加固化膠之硬度或耐候性,本發明之異 型處理之玻璃更可以在固化膠中加入架橋基。舉例而言 ,若是想要增加固化膝之硬度,架橋基之材料係例如選 用丙烯酸異冰片酯,使得固化膠之硬度提升至6〜8H,換 言之,此硬度係接近玻璃基板之硬度。另外,若是要增 加固化膠之耐候性,架橋基之材料係例如選用團環氧丙 基異氰尿酸丙烯酸酯,藉以提升固化膠之耐候性。 [0013] 此外,本發明更提出一種異型處理之玻璃之製造方法, 請參閱第4圖,第4圖係為本發明之異型處理之玻璃之製 造方法之方塊流程圖。第4圖中,步驟500及510係提供一 玻璃基板及具一注入孔之一中空治具,其中該治具係選 擇性設於該玻璃基板上,使該玻璃基板與該中空治具之 間形成一空間。接著提供一固化膠,該固化膠係藉由該 注入孔注入該中空治具中,使該固化膠形成於該空間中 。詳言之,玻璃基板與中空治具之間形成的空間係例如 具有一預定形狀,因此固化膠就會依照此預定形狀形成 在此空間中。其中,中空治具之材質係例如採用矽膠、 橡膠、鐵氟龍或氟系塑膠,而固化膠係例如光固化膠或 熱固化膠。 [0014] 接著進行步驟530,亦即使該固化膠固化。此為固化膠固 化為預定形狀之過程,而固化膠經過此固化過程後會成 形於玻璃基板上。 [0015] 接著進行步骤5 4 0,亦即使該中空治具脫離該固化膠及該 玻璃基板,以得到具固化後之該固化膠之該玻璃基板, 其中該固化膠係與該玻璃基板形成光滑界面。換言之’ 1002019958-0 100111951 表單編號A0101 第6頁/共13頁 201240934 [0016] Ο 此即為脫模之步驟,其中,中空治具之材質係例如以矽 膠製成,由於固化膠在固化之後會與矽膠分離,因此矽 膠材質的中空治具可以脫離固化膠與玻璃基板,並且可 再利用於下一次的製程中。 另外,為了製作時的方便性,在步驟510後,更提供固化 膠流出該中空治具之一排氣孔之步骤520。具體來說,由 於將固化膠注入中空治具之内部時,内部的空氣會無法 流通而造成固化膠注入的困擾,因此中空治具係例如更 具有排氣孔,使得固化膠注入時,中空治具的内部的空 氣就可以從排氣孔流出。除此之外,當固化膠填滿中空 治具的内部後,多餘的固化膠會從排氣孔流出,此時即 可確定固化膠已經填滿中空治具的内部,亦即固化膠已 經具有預定形狀。 [0017] 此外,本發明之異型處理之玻璃之製造方法在步驟540之201240934 VI. Description of the Invention: [Technical Field] [0001] The present invention relates to a surface profile treatment and a method thereof, and more particularly to a glass suitable for profile treatment and a method of manufacturing the same. [0002] [Prior Art] A glass substrate is a material that is difficult to process, and when the glass processing is conventionally carried out by a computer numerical control (Computer Numerical Control) method, although it has many advantages, it often takes a lot of time. SUMMARY OF THE INVENTION In view of the above, an object of the present invention is to provide a glass of a profiled treatment and a method of manufacturing the same, which utilizes the formation of a seamless curing adhesive on a glass substrate to solve the problem of excessive time consumption. [0004] The edge is that, in order to achieve the above object, a special-shaped glass according to the present invention comprises: a glass substrate and a cured glue. The curing glue is disposed on the glass substrate, and the curing glue is formed by the hollow jig injecting the injection hole and solidified on the glass substrate. In addition, the curing glue forms a smooth interface with the glass substrate to achieve no connection. The effect of the seam. [0005] In addition, the present invention further provides a method for manufacturing a special-shaped glass, comprising: providing a glass substrate and a hollow jig having an injection hole, wherein the jig is selectively disposed on the glass substrate in 100111951 Forming a space between the glass substrate and the hollow jig; then providing a curing glue, the curing glue is injected into the hollow jig through the injection hole, so that the curing glue is formed in the space; The curing adhesive is cured; and the hollow fixture is detached from the cured knee and the glass substrate to obtain the glass substrate with the cured adhesive after curing, wherein the cured adhesive is formed with the glass substrate and the form number is deleted! B 3 I/* 13 I 1002019958-0 201240934 [0006] [0008] [0009] 100111951 Smooth interface. According to the invention, the shaped glass and the manufacturing method thereof have the following advantages: (1) The invention is formed on the surface of the glass by curing the curing adhesive, and the seamless interface between the cured adhesive and the glass surface is provided. 'To save time and cost, and the special-shaped treatment of the present invention (4) does not have a seam interface in appearance with the glass substrate of the fine computer numerical control method. (2) The curing adhesive on the glass substrate can be used as a buffer to prevent damage to the surface of the glass substrate directly from the outside. For a better understanding and understanding of the technical features and the efficacies of the present invention, the preferred embodiments and the detailed description are as follows. [Embodiment] Hereinafter, the same type of elements in the following embodiments will be described with the same reference numerals in the following description of the preferred embodiments of the present invention. Please refer to FIG. 1 to FIG. 3 , which are schematic perspective views of the glass of the special-shaped treatment of the present invention, and FIG. 2 is a cross-sectional view along the line A_A in FIG. 1 , and FIG. 3 is a hollow treatment. A three-dimensional schematic diagram of forming a space with a glass substrate. In the first to third embodiments, the shaped glass of the present invention comprises a glass substrate 200 and a cured adhesive 300. Among them, the glass substrate 200 is, for example, a tempered glass substrate. The cured adhesive 300 is, for example, a photocurable adhesive or a thermosetting adhesive. The curing adhesive 300 is disposed on the glass substrate 200, wherein the curing adhesive 300 is formed on the glass substrate 200 by the hollow jig 4 injected into the injection hole 410, and then the curing adhesive is cured. Substrate Form No. A0101 Page 4 of 13 1002019958-0 201240934 Ο 200 forms a smooth interface. Here, the interior of the hollow jig 400 has, for example, a predetermined shape. Therefore, when the cured adhesive 3 is injected into the inside of the hollow jig 400 via the injection hole 410, and then the cured adhesive 3 is cured, it has such a predetermined shape. In addition, the hollow fixture 4 is further provided with a vent hole 420. When the curing glue 300 is injected into the hollow fixture 4, the air originally located inside the hollow fixture 400 can be discharged through the vent hole 42. In addition, the 'venting hole' can also be used as a function of confirming whether the curing adhesive 3 is filled with the inside of the hollow jig 4, for example, when the curing adhesive 300 is injected into the hollow jig 400 through the injection hole 410, If the curing adhesive 3〇〇 has been filled inside the hollow fixture 400, the multi-injected curing adhesive 3〇〇 will be discharged from the vent hole 42〇, and it can be confirmed that the curing adhesive 3〇〇 has been completely filled with the hollow fixture. [0010] ο [0011] In addition, in order to save the use cost of the hollow jig 4, the material of the hollow jig 400 is, for example, a soft mold or a steel mold, or a material of a hollow jig 4 For example, silicone rubber, rubber, Teflon or fluorine plastic is used. In short, the curing adhesive 300 will adhere to the glass substrate during the curing process, but the cured adhesive 3 will be detached from the silicone after curing, so that the hollow fixture 400 can be reused repeatedly. It should be particularly mentioned here that the conventional computer numerical control system directly cuts a piece of glass substrate into a desired shape, so that no seam formation is formed, and the shaped glass of the present invention is formed by the curing adhesive 300. The desired shape is achieved on the glass substrate 200, wherein the surface of the surface of the cured adhesive 3〇〇 and the glass substrate 200 can be polished to achieve a seamless interface. Therefore, the shaped glass of the present invention is similar in appearance. The glass substrate using the computer numerical control method is the same. 100111951 Form No. Α0101 Page 5 of 13 1002019958-0 201240934 [0012] In practice, in order to increase the hardness or weather resistance of the cured adhesive, the shaped glass of the present invention can further incorporate a bridging group into the cured adhesive. For example, if it is desired to increase the hardness of the cured knee, the material of the bridging base is, for example, isobornyl acrylate, so that the hardness of the cured adhesive is raised to 6 to 8H, in other words, the hardness is close to the hardness of the glass substrate. Further, in order to increase the weather resistance of the cured adhesive, the material of the bridging base is, for example, agglomerated propylene-acrylic isocyanuric acid acrylate, thereby improving the weather resistance of the cured adhesive. Further, the present invention further proposes a method for producing a glass of a profiled treatment. Referring to FIG. 4, FIG. 4 is a block flow diagram of a method for producing a glass of a profiled process of the present invention. In the fourth embodiment, steps 500 and 510 provide a glass substrate and a hollow fixture having an injection hole, wherein the fixture is selectively disposed on the glass substrate to connect the glass substrate to the hollow fixture. Form a space. Next, a cured adhesive is provided, which is injected into the hollow jig through the injection hole to form the cured adhesive in the space. More specifically, the space formed between the glass substrate and the hollow jig has, for example, a predetermined shape, and thus the cured adhesive is formed in this space in accordance with the predetermined shape. Among them, the material of the hollow jig is, for example, silicone rubber, rubber, Teflon or fluorine-based plastic, and the curing adhesive is, for example, a light-curing adhesive or a heat-curing adhesive. [0014] Next, step 530 is performed, even if the cured adhesive is cured. This is a process in which the cured adhesive is cured into a predetermined shape, and the cured adhesive is formed on the glass substrate after the curing process. [0015] Next, step 504 is performed, even if the hollow jig is separated from the cured adhesive and the glass substrate to obtain the glass substrate with the cured adhesive after curing, wherein the cured adhesive and the glass substrate are smooth. interface. In other words, '1002019958-0 100111951 Form No. A0101 Page 6 of 13 201240934 [0016] Ο This is the step of demoulding, in which the material of the hollow jig is made, for example, of silicone, since the cured adhesive will cure after curing. Separated from the silicone, the silicone fixture can be removed from the cured adhesive and the glass substrate and reused in the next process. In addition, for convenience in production, after step 510, a step 520 of flowing the curing glue out of one of the vent holes of the hollow jig is further provided. Specifically, when the curing glue is injected into the interior of the hollow jig, the internal air may not flow and cause the injection of the curing glue. Therefore, the hollow jig has, for example, a vent hole, so that the curing glue is injected, and the hollow treatment is performed. The internal air can flow out of the vent. In addition, when the curing glue fills the inside of the hollow fixture, the excess curing glue will flow out from the vent hole, and it is determined that the curing glue has filled the inside of the hollow fixture, that is, the curing glue already has Predetermined shape. [0017] In addition, the method for manufacturing the shaped glass of the present invention is in step 540.
後’更包含步驟550,亦即打磨該玻璃基板。其主要為對 玻璃基板進行表面處理之步驟,然而,在這邊要強調的 是’打磨玻璃基板並非必要之步驟,在一般良好的製程 中,到達步驟540之良品並不需要額外再打磨玻璃基板之 步驟550。然而,若是在製程中產品不盡理想,舉例而言 ,玻璃基板的邊角處可能具有較銳利之尖端或尖邊,利 用打磨的方式可以將此尖端或尖邊消除。 [0018] 實際上,為了增加固化膠之硬度或耐候性,本發明之異 型處理之玻璃之製造方法的步驟510中,更可以提供架橋 基添加於固化膠(步驟515)。其架橋基材料之選用已在上 述内容闡明,故在此不再贅述。 100111951 表單編號Α0101 第7頁/共13頁 1002019958-0 201240934 [0019] 綜上所述,本發明之異型處理之玻璃及其方法係透過固 化膠與玻璃基板形成需要的玻璃基板形狀,其中,固化 膠更具有緩衝的功能,避免玻璃基板直接與外界接觸而 損傷。 [0020] 以上所述僅為舉例性,而非為限制性者。任何未脫離本 發明之精神與範疇,而對其進行之等效修改或變更,均 應包含於後附之申請專利範圍中。 【圖式簡單說明】 [0021] 第1圖係為本發明之異型處理之玻璃之立體示意圖。 第2圖係為第1圖中沿著A-A’剖面線之剖面示意圖。 第3圖係為中空治具與玻璃基板形成一空間之立體示意圖 〇 第4圖係為本發明之異型處理之玻璃之製造方法之方塊流 程圖。 【主要元件符號說明】 [0022] 20 0 :玻璃基板 300 :固化•膠 400 :中空治具 410 :注入孔 420 :排氣孔 500〜550 :步驟 100111951 表單編號A0101 第8頁/共13頁 1002019958-0The latter step further includes a step 550 of grinding the glass substrate. It is mainly a step of surface treatment of the glass substrate. However, it is emphasized here that 'the step of sanding the glass substrate is not necessary. In a generally good process, the product which reaches step 540 does not need to be additionally polished. Step 550. However, if the product is not ideal in the process, for example, the corners of the glass substrate may have sharper tips or sharp edges, which can be eliminated by sanding. [0018] In practice, in order to increase the hardness or weather resistance of the cured adhesive, in step 510 of the method for producing a shaped glass of the present invention, a bridging group may be further added to the cured adhesive (step 515). The selection of the bridging base material has been clarified in the above description, and therefore will not be described herein. 100111951 Form No. 101 0101 Page 7 / Total 13 Page 1002019958-0 201240934 [0019] In summary, the shaped glass of the present invention and the method thereof form a desired glass substrate shape through a curing adhesive and a glass substrate, wherein curing The glue has a buffering function to prevent the glass substrate from directly contacting the outside and being damaged. [0020] The foregoing is illustrative only and not limiting. Any equivalent modifications or alterations to the spirit and scope of the invention are intended to be included in the scope of the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS [0021] Fig. 1 is a perspective view of a glass of a profiled process of the present invention. Fig. 2 is a schematic cross-sectional view taken along line A-A' in Fig. 1; Fig. 3 is a perspective view showing a space in which a hollow jig and a glass substrate are formed. 〇 Fig. 4 is a block flow chart showing a method of manufacturing the shaped glass of the present invention. [Description of main component symbols] [0022] 20 0 : Glass substrate 300 : Curing • Glue 400 : Hollow jig 410 : Injection hole 420 : Exhaust hole 500 to 550 : Step 100111951 Form No. A0101 Page 8 / Total 13 Page 1002019958 -0