201103659 六、發明說明: 【發明所屬之技術領域】 本發明係關於一種鎖固結構,特別是一種鎂鋰合金板件之鎖 固結構及其製造方法。 【先前技術】201103659 VI. Description of the Invention: [Technical Field] The present invention relates to a locking structure, in particular to a locking structure of a magnesium-lithium alloy plate and a method of manufacturing the same. [Prior Art]
一般筆記型電腦的機殼通t區分為四個構件,第一個構件指 的疋液晶顯示器的外蓋(LCD Rear Cabinet,一般業界俗稱為八 件);第二個構件指的是液晶顯示器的邊框(LCD Front Cabinet,一 般業界俗稱為B件);第三個構件指的是鍵盤邊框(T〇p Cabinet,一 般業界俗稱為c件);第四個構件指的是筆記型電腦的底座(B〇tt〇m Cabinet ’ 一般業界俗稱為d件)。 目前各家製造廠商皆積極朝向筆記型電腦的體積薄型、重量 質輕之設計領域開發’所輯常會顧㈣輕的材料做為製造機 殼的原料’例如可以選用碳纖維材料、鎂合金材料或是塑膠材料, 藉由上述的材料來搭設計成機殼的構件,而選用的材料特性亦 直接影響筆麵細的触結_度。 私舉例來說’右以塑膠材料製成機殼之外蓋(即A件)或是製成 曰曰&座(即D件)’雖然可以大幅降低筆記型電腦的機殼重量, 因為塑膠材料_性強度不^,在強大外力撞擊塑膠機殼 职拖乡易使㈣顯殼產生祕甚至直接碎裂,更嚴重者導致塑 二,,内部的液晶顯示器破裂’或者是絞鍊斷裂等問題產生。再 筆5己型電腦逐漸朝向體積尺寸縮小的情況下,其内部的主 201103659 機板及電子元件《魏職精密的機構設計,倘若以塑膠材料 製成機殼,更容易因為強度不足而造成筆記型電腦内部的工作元 件受撞擊㈣’加上歸機殼散熱性科、不㈣收處理及再循 環利用等諸多問題,塑膠機殼將會逐漸在市場中被淘汰。 是以,為符合筆記型電腦質輕的需求及高強度結構,以及回 收、再利用的環保觀念,便有相關製造廠商以鎂合金(magnesium alloy)材料製成筆記型電腦之機殼。由於鎂合金的優點在於具有 跟鋼(steel) —樣的強度和硬度,但重量卻接近於塑膠。再加上金 屬延展性的優勢,使得鎂合金製成的機殼厚度可以為〇6〜〇8mm 甚至更薄,相較於塑膠機殼的lmm厚度,鎂合金的機殼更加堅固 及輕薄化。另外’鎮合金更具有良好的熱傳導能力以及遮蔽電磁 波干擾等特性,因此不論從重量、厚度或使用特性來說,鎂合金 的機殼已經逐漸取代傳統塑膠機殼。 此外,在製作機殼之外蓋(即A件)時,通常會在外蓋的邊緣 表面設置有一螺柱,以提供一電路板靠i定位在螺柱上,並使電 路板上的穿孔與螺柱的螺孔相互對應。之後,再將液晶顯示器的 邊框(即B件)與外蓋相互組裝,並使邊框的螺孔對應於電路板的穿 孔及螺柱的螺孔,再以一鎖固元件穿設邊框之螺孔及電路板之穿 孔後,鎖固於螺柱的螺孔内,使得電路板可以緊密的鎖固在外蓋 及邊框之間。 為了使上述筆記型電腦的機殼重量更輕、結構強度更強,便 有在鎂金屬中添加密度僅有〇 53g/cm3的鋰金屬,以形成鎂鋰合金 201103659 (magnesium顧um allGy) ’ *輪合金之蚊與質輕是目前已知 的金屬材射最優者,所以各家觀顧歧漸制 材料製成鎂鋰機殼。 、σ备 舉例來說,以鎂鐘合金材料製成一鎂鐘外蓋(即Α件)後因 為鎂料蓋_質特性及_厚度的_,若以機械加工方式再 對驗外蓋本身進行㈣顿造出特定結構(如螺轉)時,則 容易因驗外蓋無法承受過大的加工力量而導致破裂或損壞。是 以,便有相Μ者直接在顯外蓋上以雷射焊接或缺氧膠點合的 方^將已成形的螺柱固定在鎂料蓋的邊緣表面。而此種將螺 柱焊接或黏合在驗外蓋上的加工方式必須分段加I,整體 流程相當的繁瑣、耗費工時。加上料或黏合的方式,容易造成 馳外蓋的表面損紅不美觀,也容易產生各個螺柱固設在馳 外盍上之平整度問題。故’要如何在成形鎂料蓋的同時製作出 螺柱結構,即為從事此行業者欲改善之課題。 【發明内容】 ▲鑑於習知技術的㈣雷鱗接或缺氧職接的方式,將螺柱 f設在鎂频殼表面,使得整體製造流程繁魅相當耗費工時, 貫,不符合機殼製造廠商驗速、大量生產之需求。#於以上的 2本發明之目的在於提供_觀鐘合金板件之麵結構及其 』造方法,在成形駿合金機殼時,可對龜合金機朗步進行 =結構之—體成㈣作,靖決螺鱗接絲接在機殼表面的 201103659 根據本發明所揭露之鎂鋰合金板件之鎖固結構之製造方法, 其包括以下的步驟:提供一鎂鋰合金板,鎂鋰合金板件具有一待 加工區;組裝一鎂鋰合金塊在鎂鋰合金板之待加工區上;對鎮鐘 合金板之待加工區進行壓合’並加壓鎮链合金塊與鎮經合基板— 體成型為一螺柱’以此形成鎂鋰合金板件之鎖固結構。 根據本發明所揭露之鎂鋰合金板件之鎖固結構包括有一鎮鐘 合金板及一鎂鋰合金塊。其中,鎂鋰合金板具有一待加工區鎂 鋰合金塊係組裝在鎂鋰合金板之待加工區上,藉由壓合待加工 區,使得鎂鋰合金塊與鎂鋰合金板一體成型為一螺柱,以構成鎂 鋰合金板件之鎖固結構。 本發月之功效在於鎮鐘合金板件在壓合成形時,可同步製作 出具有螺柱的鎖固結構。僅需以較厚的鎂鋰合金塊組裝在鎂鋰合 金板上’並糊驗合金塊本身的讀厚度提供機械加工處理, 使仔健合金塊與驗合金板經由加工而壓合在並形成螺 柱。以此-體赫方式構成鎂鐘合金板件之綱結構。 以下在實施方式巾詳細敘述本發明之詳細特徵以及優點,其 内容足以使任何熟習相關技藝者了解本發明之技術内容並據以實 施’且根據本_書所揭露之内容、申請補麵及圖式,任何 熟習相關技藝者可㈣地爾本發财述之目的及優點。 【實施方式】 為使對本發明的目的、構造、特徵、及其功能有進一步的瞭 解,茲配合實施例詳細說明如下。 201103659 如「第1圖」及「第2A圖」至「第2E圖」所示,其中「第 1圖」係為根據本發明一實施例之製作流程示意圖,「第2A圖」 至「第2E圖」係為根據本發明一實施例之步驟流程示意圖。 根據本發明所揭露一實施例之鎂鋰合金板件之鎖固結構之製 造方法,至少包含有下列步驟:首先提供一鎂鋰合金板,且鎂鋰 合金板具有一待加工區(步驟1〇〇)。如「第2A圖」所示,其中, 鎮鐘合金板1G之待加玉區n指的是在雜合金板1()上可供鎮經 合金塊2G設置並進行機械加工的—區域部位,而待加王區最佳設 置位置是在_合金板1G的雜表面,但並未以此為限。 接著"且裝鎮鐘合金塊在鎮經合金板之待加工區上(步驟 110)。如「第2B圖」所示,其中’鎂鐘合金塊2〇的厚度係大於 鎮經口金板10的厚度,並啸厚賴經合金塊絲在較薄的 鎂鋰合金板10之待加工區u上。The casing of a typical notebook computer is divided into four components. The first component refers to the outer cover of the liquid crystal display (LCD Rear Cabinet, commonly known as eight pieces in the industry); the second component refers to the liquid crystal display. The border is (LCD Front Cabinet, commonly known as B in the industry); the third component refers to the keyboard frame (T〇p Cabinet, commonly known as c in the industry); the fourth component refers to the base of the notebook ( B〇tt〇m Cabinet 'Generally known as d pieces in the industry. At present, various manufacturers are actively developing the thin materials of the notebook computer in the thin and light weight design field. The light materials are used as the raw materials for manufacturing the casing. For example, carbon fiber materials, magnesium alloy materials or The plastic material is designed into the components of the casing by the above materials, and the selected material properties also directly affect the fine knot of the pen surface. For example, if the right side of the casing is made of plastic material (ie, A piece) or made into a 曰曰 & seat (ie D piece), the weight of the notebook case can be greatly reduced, because plastic Material _ Sexual strength is not ^, in a strong external force impact plastic casing Ou Tuo easy to make (four) shell shell secret or even direct fragmentation, more serious lead to plastic two, the internal LCD display rupture 'or strand breakage and other issues produce. When the pen-type computer gradually shrinks toward the size, the main 201103659 board and electronic components of the internal design of the company are designed. If the casing is made of plastic material, it is easier to take notes because of insufficient strength. The working components inside the computer are subject to impact (four) 'plus the heat dissipation of the chassis, no (four) processing and recycling, and many other problems, the plastic casing will gradually be eliminated in the market. Therefore, in order to meet the light weight requirements of the notebook computer and the high-strength structure, as well as the environmental concept of recycling and reuse, the manufacturer has made a notebook computer case made of magnesium alloy material. Since magnesium alloys have the advantage of having the strength and hardness of steel, they are close to plastic. Coupled with the advantages of metal ductility, the thickness of the casing made of magnesium alloy can be 〇6~〇8mm or even thinner. Compared with the thickness of the plastic casing, the magnesium alloy casing is more sturdy and lighter. In addition, the town alloy has better thermal conductivity and shielding electromagnetic interference, so the magnesium alloy casing has gradually replaced the traditional plastic casing regardless of weight, thickness or use characteristics. In addition, when making the outer cover of the casing (ie, the A piece), a stud is usually arranged on the edge surface of the outer cover to provide a circuit board to be positioned on the stud by the i, and the perforation and snail on the circuit board The screw holes of the columns correspond to each other. After that, the frame of the liquid crystal display (ie, the B piece) and the outer cover are assembled with each other, and the screw hole of the frame corresponds to the hole of the circuit board and the screw hole of the stud, and then the screw hole of the frame is pierced by a locking component. After the perforation of the circuit board, the circuit board is locked in the screw hole of the stud so that the circuit board can be tightly locked between the outer cover and the frame. In order to make the notebook computer's case lighter in weight and stronger in structural strength, lithium metal with a density of only g53g/cm3 is added to the magnesium metal to form a magnesium-lithium alloy 201103659 (magnesium Gu um allGy) ' * The alloy and the light weight of the alloy are the best known metal materials, so each of them looks at the magnesium-lithium casing. For example, in the case of a magnesium alloy cover made of a magnesium alloy material, that is, the magnesium cover has a _ quality characteristic and a thickness _, if the outer cover itself is mechanically processed, (4) When a specific structure (such as a screwing) is created, it is easy to cause cracking or damage due to the inability of the outer cover to withstand excessive processing power. Therefore, the opposite party directly fixes the formed stud on the edge surface of the magnesium material cover by laser welding or anoxic glue on the outer cover. The processing method of welding or bonding the studs on the outer cover must be added in stages, and the overall process is quite cumbersome and time-consuming. Adding material or bonding means that it is easy to cause the surface of the outer cover to be red and not beautiful, and it is easy to cause the flatness of each stud to be fixed on the outer casing. Therefore, how to make a stud structure while forming a magnesium material cover is a problem that people in this industry want to improve. [Summary of the Invention] ▲ In view of the conventional technology (4) lightning scale or oxygen-deficient interface, the stud f is set on the surface of the magnesium frequency shell, making the overall manufacturing process fascinating and time-consuming, and does not conform to the casing. Manufacturers' speed and mass production needs. # The above two objects of the present invention are to provide a surface structure of the _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The method for manufacturing a locking structure of a magnesium-lithium alloy plate member according to the present invention includes the following steps: providing a magnesium-lithium alloy plate, a magnesium-lithium alloy plate, and a method for manufacturing a locking structure of a magnesium-lithium alloy plate member according to the present invention. The piece has a processing area to be processed; a magnesium-lithium alloy block is assembled on the to-be-processed area of the magnesium-lithium alloy plate; and the to-be-processed area of the alloy-shaped alloy plate is pressed together and the pressurized chain-strength alloy block and the town-by-well substrate are assembled. The body is formed into a stud 'to form a locking structure of the magnesium-lithium alloy plate. The locking structure of the magnesium-lithium alloy sheet member according to the present invention comprises a town clock alloy plate and a magnesium-lithium alloy block. Wherein, the magnesium-lithium alloy plate has a magnesium-lithium alloy block to be processed and assembled on the to-be-processed area of the magnesium-lithium alloy plate, and the magnesium-lithium alloy block and the magnesium-lithium alloy plate are integrally formed into one by pressing the area to be processed. Studs to form a locking structure for magnesium-lithium alloy sheets. The effect of this month is that when the Zhenzhong alloy plate is pressed into a shape, the locking structure with studs can be simultaneously produced. It is only necessary to assemble a thick magnesium-lithium alloy block on a magnesium-lithium alloy plate and to provide a machining process for the read thickness of the alloy block itself, so that the Zijian alloy block and the alloy plate are pressed and formed into a snail through processing. column. In this way, the structure of the magnesium alloy alloy plate is formed. The detailed features and advantages of the present invention are described in detail below in the embodiments of the present invention, and the content thereof is sufficient to enable anyone skilled in the art to understand the technical contents of the present invention and to implement the method according to the disclosure of the present application. Anyone who is familiar with the relevant art may (4) the purpose and advantages of the statement. [Embodiment] In order to further understand the objects, structures, features, and functions of the present invention, the embodiments will be described in detail below. 201103659 As shown in "1" and "2A" to "2E", "1" is a schematic diagram of a production process according to an embodiment of the present invention, "2A" to "2E" Figure is a flow diagram of the steps in accordance with an embodiment of the present invention. A method for manufacturing a locking structure of a magnesium-lithium alloy plate member according to an embodiment of the present invention comprises at least the following steps: firstly providing a magnesium-lithium alloy plate, and the magnesium-lithium alloy plate has a region to be processed (step 1〇) 〇). As shown in "Fig. 2A", among them, the 1G of the alloy-shaped alloy plate to be added to the jade area n refers to the area where the alloy block 2G is disposed and machined on the miscellaneous alloy plate 1 (). The best setting position for the addition of the king area is the miscellaneous surface of the 1G alloy plate, but it is not limited to this. Then " and the town block alloy block is placed on the zone to be processed of the alloy plate (step 110). As shown in "Fig. 2B", the thickness of the 'magnesium alloy block 2' is larger than the thickness of the gold plate 10 of the town, and the thickness of the alloy wire is in the area to be processed of the thinner magnesium-magnesium alloy plate 10. u on.
而上述將鎂鐘合金塊20與鎮鐘合金板10的組裝方式,主要 、機械加之處理方式,例如以沖壓加工方式對鎮鐘合金板川的 待加工區11進m帽成形,並將待加工區11經由沖壓後成形有 -槽狀框件丨2,且細轉12 〔形㈣齡並於槽狀框 件與賴合錢1G之間構成—賴13,此賴η的尺寸係匹 配於顧合錢20的尺寸(如「第2A圖」所示)。再將雜合金 塊20以水平方向朝向嵌槽13喊,並以緊配合的方式,將· 合金塊2G嵌設至嵌槽13之中,使彳獅合金塊2G被夾持定位在 鎂鐘合金板iG與槽狀框件12之間,以此—結構進行組裝而使得 201103659 鎂鐘合金板10與鎂鋰合金塊20之間相互緊迫結合。 對鎂鋰合金板的待加工區進行壓合,並加壓鎂鋰合金塊與鎂 鋰合金板一體成型為一螺柱(步驟120)。如「第2C圖」所示, 因為鎂鋰合金塊20結合在鎂鋰合金板1〇後具有一厚度,藉由此 厚度以利於機械加工。舉例來說,機械加工處理方式係可以沖壓 或鍛造之方式對設置在待加工區U上的鎂鋰合金塊2〇進行壓 合,並透過壓合的力量,使得鎂鋰合金板1〇與鎂鋰合金塊2〇之 間相互結合成一鎂鋰合金板塊3〇,並在鎂鋰合金板塊3〇上構成一 螺柱21。 再者,上述鎮鐘合金板1〇與鎮鐘合金塊2〇的堡合過程中可 施以加熱方式,而將鎮鐘合金板1〇與鎂鐘合金塊結合成一 體。因為驗合金塊20與驗合金板10表面之間形成有相對位 移伸展而產生-乾淨介面。又在高溫綠下,使得雜合金塊2〇 表面與鎂齡金板10表蚊間產生冶金結合,促使_合金塊2〇 與鎂鋰合金板1〇之間形成永久性的結合狀態。 在上述步驟120之中,更包括以下的步驟:同步在螺柱的一 侧邊加壓成型一側板(步驟13〇)。如「第2C圖」所示,藉由上 述锻4或/t壓方式對鎂鐘合金板a與鎮鐘合金塊㈤進行塵合 時’因為模具形狀的設計,使得鎂鐘合金板1〇與驗合金塊如 又擠壓後’-部份的結構形成較厚的 2卜而另一部份的結構 形成相恢22 ’並使側板22厚度大致與鎮經合金板1〇厚度相 同’但不以此為限。 201103659 在上述步驟130之後’更包括以下的步驟:將側板成形一角 度,使側板構成鎮裡合金板的一側牆結構(步驟14〇)。如「第2d 圖」所示’以機械加工方式,如沖壓加工或鍛造加工方式將側板 22成形-角度。換句話說’沖壓或鍛造的加I係為—成形加工法 (Forming Process)將侧板22成形豎立在鎂鋰合金板ι〇側邊以 此在鎮裡合金板10四周邊緣構成側牆結構,而在駿合金板1〇 上構成一框架結構。 # 舉例來說’在製作筆記型電腦機殼的外蓋(即A件)時,僅需 在驗合金板U)之上,藉由_合金塊2G —體成型為縣21後, 再同時-體成型有做22,再將側板22、沖壓成形有一角度,使得 側板22豎立在驗合金板1〇上。以此採沖壓成形技術,即可在 鎂鐘合金板H)的四周邊緣分別賢立有侧板22,以構成機殼的外蓋 (即A件)的框架結構(如「第3圖」所示)。是以,根據本發明在 馳合金板1〇上可同步製作出一體成型之鎖固結構及框架結構。 特雜躲意的是,上述在賴成形縣21之結構時,可同 步進行製作驗合金板10的框架結構。主要是因為螺柱2ι需要 較厚的結構’ _板22 _要與_合金板iq大致相同的薄产 即可,所以在屋合雜合金塊2〇時,側板η的部分材料就會^ 向螺柱擠壓流動,讓侧板22的厚度與·合金板1G的厚度大 致相同’而流動過去螺柱21的材料則增加了螺柱2ι的厚度^以 利於在螺柱21之中形成螺孔211。 ^ 在步驟140之後,更包括以下的步驟··形成-螺孔在螺柱内 201103659 部(步驟150)。如「第2E圖」所示,係主要以攻牙或切削的方 式在螺柱21内形成螺孔211,而螺孔211以攻牙與切削方式製成 僅為一較佳實施例說明’並不以此為限。 如第4圖」所示之示思圖,係為根據本發明之另一實施例 的鎂鋰合金板與鎂鋰合金塊的組合結構示意圖。其中,係在鎂鋰 合金塊20的一侧邊開設有一插槽23,並使插槽23的尺寸匹配於 鎂鋰合金板10的尺寸。並將鎂鋰合金板1〇插設在鎂鋰合金塊2〇 的插槽23之中,使得鎂鋰合金板1〇與鎂鋰合金塊2〇之間相互緊 迫結合。如此一來,便可進行步驟12〇,對鎂鋰合金板ι〇的待加 工區11進行壓合,並加壓鎂鋰合金塊2〇與鎂鋰合金板1〇 一體成 型為螺柱21 (如「第2C圖」所示)。 如第5圖」所示之示意圖,係為根據本發明再一實施例的 鎂鐘&金板與鎮鐘合金塊的組合結構示意圖。其中,主要將鎮鐘 合金板10以機械加工之處理方式,例如以沖壓加工方式將鎂鋰合 金板ίο的待加工區u彎折成一槽狀框件12,並使槽狀框件12概 呈一C形狀結構’並於槽狀框件12與鎂鋰合金板1〇之間構成一 嵌槽13。再於鎂鋰合金塊2〇的一側邊開設有一插槽23,並將槽 狀框件12插設在鎂鋰合金塊2〇的插槽23内,而鎂鋰合金塊2〇 則對應嵌設至錢13内,藉由絲13及插槽23之結構設計而將 鎂鋰合金板10與鎂鋰合金塊2〇相互的緊迫結合。如此一來對 鎂鋰合金板10的待加工區u進行壓合,並加壓鎂鋰合金塊2〇與 鎂鋰合金板10—體成型為螺柱21 (如「第2C圖」所示)。 201103659 综上所述’本發明在成形賴合金板件時,可同步在製作出 具有螺柱_固結構。透過尺寸較厚的顧合錢所提供的工件 厚度,以利於_>卫處理,使得雜合錢與輸合金板經由 加工而壓合在-起並成形有螺柱,以此—體成型的方式製作出鎮 鋰合金板件之鎖固結構。 、 雖然本發明以前述之實施纖露如上,然其並翻以限定本 發明。在不脫縣發明之精神和顧内’所為之更動與潤飾,均 屬本發明之專娜護範圍。關於本發賴界定之保護範圍請參考 所附之申請專利範圍。 【圖式簡單說明】 第1圖係為根據本發明一實施例之製作流程示意圖; 第2A圖至第2E圖係為根據本發明一實施例之步驟流程示意圖; 第3圖係為根據本發明一實施例的外觀示意圖; 第4圖係為根據本發明另一實施例的鎂鐘合金板與鎂鋰合金塊的 組裝結構示意圖;以及 第5圖係為根據本發明再一實施例的鎮鐘合金板與鎮經合金塊的 組裝結構示意圖。 【主要元件符號說明】 10 鎂鋰合金板 11 待加工區 12 槽狀框件 13 嵌槽 11 201103659 20 鎮鐘合金塊 21 螺柱 211 螺孔 22 側板 23 插槽 30 鎮經合金板塊The above-mentioned assembly method of the magnesium alloy block 20 and the town bell alloy plate 10 is mainly, mechanically combined with the processing method, for example, by forming a mold into the m-shaped cap of the alloy-shaped alloy plate in the stamping process, and is to be processed. After the stamping, the region 11 is formed with a groove-shaped frame member 丨2, and a fine turn 12 (shaped (four) age and formed between the groove-shaped frame member and the lye 1G--13, the size of the η is matched with The size of the money 20 (as shown in Figure 2A). Then, the miscellaneous alloy block 20 is shouted in the horizontal direction toward the slot 13 and the alloy block 2G is embedded into the slot 13 in a tight fit manner, so that the lion alloy block 2G is clamped and positioned in the magnesium alloy. Between the plate iG and the grooved frame member 12, the structure is assembled to make the 201103659 magnesium alloy plate 10 and the magnesium-lithium alloy block 20 tightly coupled to each other. The region to be processed of the magnesium-lithium alloy plate is pressed, and the pressurized magnesium-lithium alloy block and the magnesium-lithium alloy plate are integrally formed into a stud (step 120). As shown in Fig. 2C, since the magnesium-lithium alloy block 20 has a thickness in combination with the magnesium-lithium alloy plate, the thickness thereof is used to facilitate the machining. For example, the machining process can press or forge the magnesium-lithium alloy block 2〇 disposed on the area to be processed U, and pass the force of the pressing, so that the magnesium-lithium alloy plate is made of magnesium and magnesium. The lithium alloy blocks 2〇 are combined with each other to form a magnesium-lithium alloy plate 3〇, and a stud 21 is formed on the magnesium-lithium alloy plate 3〇. Furthermore, the above-mentioned town bell alloy sheet 1 〇 and the town bell alloy block 2 〇 can be heated in the process of bonding, and the town bell alloy sheet 1 〇 and the magnesium alloy block are combined into one body. Since the alloy block 20 is formed with a relative displacement between the surface of the alloy plate 10, a clean interface is produced. In the high temperature green, the surface of the hybrid alloy block 2〇 is metallurgically bonded to the magnesium-aged gold plate 10, and the permanent bonding state between the alloy block 2〇 and the magnesium-lithium alloy plate 1〇 is formed. In the above step 120, the method further includes the step of: simultaneously molding a side plate on one side of the stud (step 13A). As shown in the "2C figure", when the magnesium alloy plate a and the ball alloy block (5) are dusted by the above-mentioned forging 4 or /t pressing method, 'the design of the mold shape makes the magnesium alloy plate 1〇 After the alloy block is pressed, the '-part structure forms a thicker 2b and the other part of the structure forms a phase-recovery 22' and the thickness of the side plate 22 is substantially the same as the thickness of the ballasted alloy plate. This is limited to this. 201103659 After the above step 130, the method further includes the steps of: forming the side panels at an angle such that the side panels constitute a side wall structure of the inner alloy sheets (step 14). The side plate 22 is formed into an angle by a machining method such as a press working or a forging process as shown in "Fig. 2d". In other words, the 'forming or stamping process' is forming a side plate 22 which is formed on the side of the magnesium-lithium alloy plate to form a side wall structure at the periphery of the inner alloy plate 10. On the other hand, a frame structure is formed on the alloy plate. # For example, when making the cover of the notebook computer case (ie, the A piece), it is only necessary to form the upper part of the alloy plate U) by the _ alloy block 2G as the county 21, and at the same time - The body is formed 22, and the side plates 22 are stamped and formed at an angle such that the side plates 22 are erected on the alloy plate 1 . By adopting the press forming technology, the side plates 22 can be respectively formed on the peripheral edges of the magnesium alloy plate H) to form the frame structure of the outer cover of the casing (ie, the A piece) (for example, "Fig. 3" Show). Therefore, according to the present invention, the integrally formed locking structure and frame structure can be simultaneously produced on the slab of the alloy plate. It is particularly concealed that the frame structure of the alloy plate 10 can be produced in the same manner when the structure of the county 21 is formed. Mainly because the studs 2ι need a thicker structure ' _ plate 22 _ to be roughly the same thin as the _ alloy plate iq, so when the house alloy block 2 ,, part of the material of the side plate η will be The stud is squeezed to flow so that the thickness of the side plate 22 is substantially the same as the thickness of the alloy plate 1G. The material flowing past the stud 21 increases the thickness of the stud 2 to facilitate the formation of a screw hole in the stud 21. 211. ^ After step 140, the following steps are further included: forming a screw hole in the stud 201103659 (step 150). As shown in FIG. 2E, the screw holes 211 are formed in the stud 21 mainly by tapping or cutting, and the screw holes 211 are formed by tapping and cutting, which is only a description of the preferred embodiment. Not limited to this. The illustration shown in Fig. 4 is a schematic view showing the combined structure of a magnesium-lithium alloy plate and a magnesium-lithium alloy block according to another embodiment of the present invention. Among them, a slot 23 is formed on one side of the magnesium-lithium alloy block 20, and the size of the slot 23 is matched to the size of the magnesium-lithium alloy plate 10. The magnesium-lithium alloy plate 1 is inserted into the slot 23 of the magnesium-lithium alloy block 2〇, so that the magnesium-lithium alloy plate 1〇 and the magnesium-lithium alloy block 2〇 are tightly bonded to each other. In this way, step 12〇 can be performed to press-fit the to-be-processed region 11 of the magnesium-lithium alloy plate ι, and the pressurized magnesium-lithium alloy block 2〇 and the magnesium-lithium alloy plate 1〇 are integrally formed into the stud 21 (As shown in Figure 2C). The schematic view shown in Fig. 5 is a schematic view showing the combined structure of a magnesium clock & gold plate and a bell alloy block according to still another embodiment of the present invention. Wherein, the town bell alloy plate 10 is mainly processed by mechanical processing, for example, by stamping processing, the to-be-processed region u of the magnesium-lithium alloy plate ίο is bent into a groove-like frame member 12, and the groove-shaped frame member 12 is represented. A C-shaped structure 'and a groove 13 is formed between the grooved frame member 12 and the magnesium-lithium alloy plate 1'. Further, a slot 23 is formed on one side of the magnesium-lithium alloy block 2〇, and the slot-shaped frame member 12 is inserted into the slot 23 of the magnesium-lithium alloy block 2〇, and the magnesium-lithium alloy block 2〇 is correspondingly embedded. In the money 13, the magnesium-lithium alloy plate 10 and the magnesium-lithium alloy block 2 are tightly combined with each other by the structural design of the wire 13 and the slot 23. In this way, the to-be-processed region u of the magnesium-lithium alloy plate 10 is pressed, and the pressurized magnesium-lithium alloy block 2〇 and the magnesium-lithium alloy plate 10 are integrally formed into the stud 21 (as shown in “2C”). . 201103659 In summary, the present invention can be fabricated with a stud-solid structure simultaneously in forming a Lai alloy sheet. Through the thicker thickness of the workpiece provided by Gu Heqian, in order to facilitate the treatment, the hybrid money and the transfer alloy plate are pressed together by processing and formed with studs. The method is to manufacture a locking structure of a lithium alloy plate. Although the present invention has been described above in the light of the foregoing, it is intended to limit the invention. The spirit of the invention and the changes and refinements of the invention are all within the scope of the invention. Please refer to the attached patent application scope for the scope of protection defined by this issue. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic diagram of a manufacturing process according to an embodiment of the present invention; FIGS. 2A to 2E are schematic flowcharts showing steps according to an embodiment of the present invention; FIG. 3 is a schematic diagram of a process according to the present invention; FIG. 4 is a schematic view showing the assembled structure of a magnesium alloy plate and a magnesium-lithium alloy block according to another embodiment of the present invention; and FIG. 5 is a town clock according to still another embodiment of the present invention. Schematic diagram of the assembly structure of the alloy plate and the Zhenjing alloy block. [Main component symbol description] 10 Magnesium-lithium alloy plate 11 Area to be processed 12 Grooved frame member 13 Inlay groove 11 201103659 20 Town clock alloy block 21 Stud 211 Screw hole 22 Side plate 23 Slot 30 Zhenjing alloy plate