五、新型說明: 【新型所屬之技術領域】 本創作是關於一種薄膜及具有裝飾圖案之殼體,並且特 別是關於一種具有立體圖案之薄膜及具有裝飾圖案之殼體。 【先前技術】 模内裝飾(In-Mold Decoration,IMD)近年來已成表面 裝飾主要技術之一,其主要應用於家電產品的表面裝^及 功能性面板,例如手機視窗鏡片及外殼、洗衣機控制面 板、冰箱控制面板、空調控制面板、汽車儀表板、電銷控 制面板夕種領域的面板、標s态專外觀件上。模内裝飾係屬 轉印(transfer printing)技術的一種,其大致包含平面膜内 裝飾(In-Mold Label, IML)、立體成型膜内轉印裝都(in-Mold Roller, IMR) 及立體成型膜内裝飾 (In_M〇ld Film, IMF)。 ’ 模内裝飾主要係將油墨事先印刷於載體上,在將載體 連同其上的油墨置於模中,於塑件射出成型的同時,該油 墨(形成的圖案)即直接轉印於該射出件上,以達到裳飾的 目的。然而,一般的油墨印刷仍屬平面印刷,縱使多重印 刷可因油墨堆疊而帶來許些許立體視覺效果,但成效實在 有限。因此,就整體而言,欲突顯圖案仍僅多以色彩對比 來達成。 【新型内容】 伽f於f先技術的問題,本創作揭露—種薄膜及具有裝 圖案之趙’ _於具有賴效果的硬化層上形成 構,即可產明顯的立體視覺效果 、'Ό 果不足的問題。 1 S改善^技術立體視覺效 本創作之薄膜包含—承載膜、—結構層、—硬化异、 収-黏著層。該結構層形成於該承載膜上,且 2-弟-圖案。該硬化層具有—第一面及一第二面,該 弟面具有一凹陷部,該凹陷部形成一第二圖案,一 第:圖案相同。該離形層形成於該硬化層與該i 構層之間。該黏著層設置於該硬化層之第二面。 r邻地’該結構層包含複數個顆粒,該等顆粒於該凹 二η表切成複數個微小凹洞。其中,該顆粒之粒徑可 ί槿米至微米之顆粒。_該硬化層形成之立體 i層之;;二體3效果,但本創作亦得於該硬化層與該黏 效果。 層(例如印刷油墨),可更加強整體視覺 該本具有裝飾圖案之殼體包含—本體及一薄膜。 a表面,該薄膜黏貼於該表面。該薄膜包含一 及-黏著層。該硬化層具有―第—面及—第二面, 著層設部’該凹陷部形成一裝案。該黏 應用 弟—面,用以固定該硬化層於該本體上。於 制離案即前述該第二圖案’該殼體之薄膜即 地,=膜、該結構層及該離形層後之前述薄膜。同樣 ~結構層之該等顆粒於該凹陷部之表面上形成複數個微 M380245 小凹洞 ,以加強整體視覺效果 且有立體处槿 出薄膜之硬化層除具有保護作用外,亦 呈現立體視覺效果。該硬化層進-步地於 體視^要用微小的顆粒形成複數個微小關,以強化立 果’確實有效改善先前技術中立體視覺效 關於本創作之優點與精神可以藉由以 所附圖式得到進一步的瞭解。 劓作咩述及 【實施方式】 請參閱圖―’圖一係緣示根據本創作之一具 之薄膜1之剖面示意圖。薄膜1包含承載膜12、結才^ 14、硬化層16、離形層18、黏著層2〇、裝飾層u : 靜電層24。承載膜12用以承載多層結構,其材料^ 聚酉旨㈣yester,PET)、聚碳酸酷(p〇lycarb〇nate,^)、、: 延聚丙烯(Casted PolyproPylene,Cpp)或其他可用以仙· 具有載載多層結構功能的膜之材料,其厚度可介於, 米至200微米,較佳的厚度約為2〇微米;但本創5微 此為限。 不以 結構層14形成於承載膜12上且具有第一圖安 ㈡系,該社 構層14之材料主要包含樹脂142及複數個顆粒I## ° 粒144混合於樹脂142中。樹脂142之材料可選’顆 化、紫外線或電子束快速固化之樹脂,顆粒144之熱固 選用粒徑0·5微米至200微米之有機或無機粉體,幹H了 5 =徑^為1微米,顆粒144之形狀不 形、棒狀、片狀均可。 κ賵马I良、夕角 於結構層14形成承載膜12後,其厚度 〇微米,該等顆粒144將使結 ς /、至 點。該第-圖案可參閱圖二。圖= 二=4多個凸 之第一圖案之干音日結構層14形成 圖一所不’該第—随呈現花朵 t 限定於實體相連,圖_中結_14二; 個彼此分離的花朵,並且花瓣盘圖案為夕 不以此為限。簡言之,結構層;:^^離=本創作 設計而定,且社構戶14中舰^成之弟—圖案可依實 & 42混合顆粒144之密度 的顆結構層14可經由分別印刷混合有不同 = 密度之樹脂142來達到具有不同粗造度表面^ 層18七成於^構層Η上’其材料可選用石夕利 康吳耐皿、氟性樹脂或其他可作為分離層狀社構 料’其厚度約為0.05微米至〇75微 :'I 中,姓man . U.n微水。由於本實施例 :構層U以印刷方式形成於承載膜u上,故 成無結構層14輕,故轉層18亦有部分 形成於承載膜12上;_,若結構層Μ 所有區域,則離形層18當然僅需形成於結構層μ載上、。原 離形層18主要用以轉印後,使承载膜12與結構層 16 Hi化層16分離,故離形層18即需存在於硬化層 16與承載膜12、結構層14之間。因此, M380245 ^系以後續的硬化層16 $與結構層14及承載膜i2直 併觸為知作基準。當然,若承載膜12與硬化層16之間本 二上即不易附著’則硬化層16與承載膜12接觸的部分, 右有的話,亦可不必存在離形層18。 硬化層16形成於離形層18上,其材料可選用變性壓 克力聚脂型可紫外線或電子束快速固化之樹脂,其厚度約 為5微米至微米。硬化層16具有第一面及第二面 164 ’硬化層16以其第一面162與承載膜η及結構層μ 接合(但其間仍存有離形層18),因此硬化層16於第一面 162因結構層14之立體結構(用以形成該第 對應的凹陷部166,形成第二圖案,與該第—圖案)相^有 並且為凹凸相對應的結構’故該第二圖案之示意圖亦可袁 閱圖二。惟需留意的是’該第一圖案中凹 第 1案Μ起部分;反之’該第—圖案中凸起部^ = 第二圖案中凹入部分。 刀亥 糾,因顆粒Μ4使結構層14表面呈凹凸輪摩,故 於凹1½部166之表面上亦形成複數個微小凹洞购,且 有消光效果,可触該第二圖案之立體視覺效果。此夕卜、 由於此實施例中硬化層16厚度不厚,因此硬化層Μ 二面實際上非如圖-所示之平坦’而是隨^構層μ 之:廓=而起伏’惟為便於說明仍以平坦直接表 -中。當然,若硬化層16之厚度足夠厚時,前 伏的情形則可大幅被抑制。補充說明的是,由 用於裝飾其他物體之外觀,又需聚飾 ' '、、 的一6需具有-定的二 7 起伏的表面而可能造成的龜裂問題’於此具體實施例中, 硬化層16且100%至180%之拉伸率,使得薄膜1可適用 於大部分滑順的表面裝飾。 雖然硬化層16因結構層14之結構而具有立體結構, 並產生立體視覺效果,但若輔以色彩表現,但更可大幅增 加裝飾效果。因此於本具體實施例中,在形成黏著層2〇 如,先行於硬化層16之第二面164上形成裝飾層22,其 可由單色或彩色油墨印刷而成。若於對應第一面162之凹 陷部166處,塗以深色油墨,可更增加立體視覺效果。 於裝飾層22形成之後,黏著層2〇即可形成於該裝飾 :22 士硬化層16之第二面164(未印刷有油墨的區域) 換σ之裝都層22形成於硬化層π與黏著層20之 ΐ 層2G之材料原則上需因薄膜1使用的環境而 :模L:模=時二其產生黏著功能的溫度可設定為 以避免不溫下不轉有錄固定的特性, Η之承載膜12上开^體。/然,若於相對於結構層 黏。但i办柄各成—隔離層,則可避免薄膜1相互沾 抗靜電i:,如^!目對於結構層、15之承载膜12上形成 理承載膜I2㈣以所不;其可為額外披覆或是直接處 具黏著特性之材=者^可、。通常黏著層20選用室溫下不 克力樹脂。 /成,以避免上述問題,例如改性之壓 乳裝置32吸住承載膜12,以使承載膜12連同結構層 14、離形層18脫離硬化層16。如圖三所示,圖三係繪示 f載膜12連同結構層14、離形層18剝離之示意圖。吸 氣裝置32包含吸盤322及與吸盤322連接之抽氣管 324’吸氣裝置32利用經由抽氣管324對吸盤322抽氣, f导吸盤322可吸住承載膜12(及抗靜電層24),再拉吸 二322以使離形層ls、結構層M、承載膜U及抗靜電層 併脫離硬化層16 ’以達到獅的目的。前述吸氣裝 ^ 32利於自動化剝離操作’但本創作不以此為限 。使用 '' "'他工具以黏著該承載膜12(及抗靜電層 24),同樣可具有前述吸氣裳置%之功效。 辟疋St:的是’圖—及圖三中所示之薄· 1,其各 等比例表目的在於清楚表示各層結構及 其關係,於後續各圖中,亦同。 四’圖四鱗示根據本創作之另—具體實施 Μ 體5之局部剖面示意圖。殼體5包 ===:表面342上的薄膜r。薄膜 ,Λ諸形麻㈣剝離承載膜12(及抗靜電層24)、結構層 -声2〇 ,二18之薄膜1此薄膜r包含硬化層16及黏 荦,f匕層Μ之第一面162之凹陷部166形成一裝 Si本^層,設置於第二面164,用以固定該硬化 ^圖三中之細^將圖二中之物體30視為本體34時,則 ;。完成後,即可形成前述具有裝_案之殼 ^,殼體飾酿即細1之。於實際應用 ^ 、、電子裝置之外殼,例如筆記型電腦、手機 =心:殼體,車— 明:=薄膜1’之說 充說明的是,若殼體丄5 /不再贅述。另外補 殼,則可先將薄膜^ w 34係採用射出成型的塑膠V. New description: [New technical field] The present invention relates to a film and a casing having a decorative pattern, and in particular to a film having a three-dimensional pattern and a casing having a decorative pattern. [Prior Art] In-Mold Decoration (IMD) has become one of the main techniques of surface decoration in recent years. It is mainly used for surface mounting and functional panels of home appliances, such as mobile phone window lenses and housings, washing machine control. Panels, refrigerator control panels, air conditioning control panels, car dashboards, panel panels for the field of electric control panels, and s-type appearances. In-mold decoration is a kind of transfer printing technology, which generally includes In-Mold Label (IML), in-Mold Roller (IMR) and three-dimensional molding. In_M〇ld Film (IMF). 'In-mold decoration mainly prints the ink on the carrier in advance, and puts the carrier together with the ink thereon in the mold, and the ink (formed pattern) is directly transferred to the injection member while the plastic member is injection molded. On, to achieve the purpose of the dress. However, general ink printing is still a flat printing, and even though multiple printing can bring a little stereoscopic effect due to ink stacking, the effect is limited. Therefore, on the whole, the pattern to be highlighted is still only achieved by color contrast. [New content] The problem of gamma f first technology, this creation reveals that the film and the patterned Zhao ' _ on the hardened layer with the effect of the formation can produce obvious stereoscopic effect, 'Ό果Insufficient problems. 1 S Improvement ^Technical Stereoscopic Effect The film of this creation consists of a carrier film, a structural layer, a hardened, and a sticky-adhesive layer. The structural layer is formed on the carrier film and has a 2-dipole-pattern. The hardened layer has a first face and a second face, and the mask has a recessed portion, the recessed portion forming a second pattern, and the first pattern is the same. The release layer is formed between the hardened layer and the i-layer. The adhesive layer is disposed on the second side of the hardened layer. r. The structural layer comprises a plurality of particles, and the particles are cut into a plurality of minute pits in the concave n. Wherein, the particle size of the particle may range from 槿 to micron. The solid layer formed by the hardened layer; the two-body 3 effect, but the creation also results from the hardened layer and the adhesive effect. A layer (such as printing ink) can enhance the overall vision. The decorative casing has a body and a film. a surface, the film is adhered to the surface. The film comprises an and an adhesive layer. The hardened layer has a "first surface" and a second surface, and the depressed portion forms a package. The adhesive is applied to the body to fix the hardened layer on the body. In the case of the separation, the film of the second pattern, the film of the casing, the film, the structure layer and the film after the release layer. Similarly, the particles of the structural layer form a plurality of micro-M380245 small pits on the surface of the depressed portion to enhance the overall visual effect, and the hardened layer of the thin film is provided with a stereoscopic visual effect in addition to the protective effect. . The hardened layer advances in a stereoscopic manner to form a plurality of tiny passes with tiny particles to enhance the effect of the fruit. It is effective to improve the stereoscopic visual effects of the prior art. The advantages and spirit of the present invention can be The formula is further understood.劓 咩 及 【 【 【 【 【 【 【 【 【 【 ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ 。 。 。 The film 1 comprises a carrier film 12, a bonding layer 14, a hardened layer 16, a release layer 18, an adhesive layer 2, and a decorative layer u: an electrostatic layer 24. The carrier film 12 is used to carry a multi-layer structure, and the material thereof is composed of (y) yester, PET), polycarbonate (p〇lycarb〇nate, ^), : (Casted PolyproPylene, Cpp) or other available A material having a film carrying a multi-layer structure function may have a thickness of from 200 m to 200 μm, preferably a thickness of about 2 μm; The structural layer 14 is not formed on the carrier film 12 and has a first pattern (II). The material of the social layer 14 mainly comprises a resin 142 and a plurality of particles I##° particles 144 mixed in the resin 142. The material of the resin 142 may be selected from the group consisting of 'polymerized, ultraviolet or electron beam fast curing resin. The heat of the particles 144 is selected from organic or inorganic powders having a particle diameter of 0.5 micrometers to 200 micrometers, and dry H is 5 = diameter ^1. In the micron, the shape of the particles 144 is invisible, rod-shaped, or sheet-like. After forming the carrier film 12 on the structural layer 14, the thickness of the κ 赗 I I 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 The first pattern can be seen in Figure 2. Figure = two = more than four convex first pattern of the dry sound of the day structure layer 14 formed Figure 1 does not 'the first - with the presentation of the flower t is limited to the physical connection, Figure _ middle knot _14 two; separate flowers And the pattern of the petal disk is not limited to this. In short, the structural layer;: ^^ is dependent on the design of the creation, and the structure of the structure of the granules 14 of the socialist households 14 Printing mixed with different density = resin 142 to achieve a different degree of rough surface ^ 18 layers of 70% on the layer of the layer 'the material can be selected from Shi Xi Li Kang Wu Nai, fluororesin or other as a separate layer The community material 'its thickness is about 0.05 micron to 〇75 micro: 'I, surname man. Un micro water. In this embodiment, the layer U is formed on the carrier film u by printing, so that the unstructured layer 14 is light, so that the layer 18 is also partially formed on the carrier film 12; _, if the structure layer Μ all areas, then The delamination layer 18 of course only needs to be formed on the structural layer μ. The original release layer 18 is mainly used for transfer, and the carrier film 12 is separated from the structural layer 16 Hi-layer 16, so that the release layer 18 is required to exist between the hardened layer 16 and the carrier film 12 and the structural layer 14. Therefore, M380245^ is based on the subsequent hardened layer 16$ and the structural layer 14 and the carrier film i2. Of course, if the carrier film 12 and the hardened layer 16 are not easily adhered to each other, then the portion where the hardened layer 16 is in contact with the carrier film 12, if any, may not necessarily have the release layer 18. The hardened layer 16 is formed on the release layer 18, and the material may be selected from a denatured acrylic polyester type ultraviolet or electron beam fast curing resin having a thickness of about 5 μm to μm. The hardened layer 16 has a first side and a second side 164. The hardened layer 16 has its first side 162 joined to the carrier film η and the structural layer μ (but with the release layer 18 still present), so the hardened layer 16 is first The surface 162 is a schematic structure of the second pattern due to the three-dimensional structure of the structural layer 14 (to form the second corresponding pattern to form the second recessed portion 166, and to form a second pattern, corresponding to the first pattern) You can also read the picture two. It should be noted that the concave portion of the first pattern is in the first pattern; otherwise, the convex portion in the first pattern is the concave portion in the second pattern. Knife, because the surface of the structural layer 14 is concavely cammed by the particle Μ4, a plurality of micro-cavities are formed on the surface of the concave portion 166, and a matting effect is obtained, and the stereoscopic effect of the second pattern can be touched. . Further, since the thickness of the hardened layer 16 is not thick in this embodiment, the two sides of the hardened layer are not actually flat as shown in the figure - but are arranged along with the layer μ: The description is still in a flat direct table - in the middle. Of course, if the thickness of the hardened layer 16 is sufficiently thick, the front undulation can be greatly suppressed. It is to be noted that, in order to decorate the appearance of other objects, it is necessary to splicing the '', a 6 to have a fixed surface of 2 undulations and the cracking problem may be caused. In this embodiment, The hardened layer 16 and 100% to 180% stretch ratio make the film 1 suitable for most smooth surface finishes. Although the hardened layer 16 has a three-dimensional structure due to the structure of the structural layer 14, and produces a stereoscopic effect, if it is complemented by color, it can greatly increase the decorative effect. Thus, in this embodiment, a decorative layer 22 is formed on the second side 164 of the hardened layer 16, which may be formed from a single color or color ink. If the concave portion 166 corresponding to the first surface 162 is coated with a dark ink, the stereoscopic effect can be further increased. After the decorative layer 22 is formed, the adhesive layer 2 can be formed on the decorative surface: the second surface 164 of the 22-hardened layer 16 (the area where the ink is not printed). The σ-packed layer 22 is formed on the hardened layer π and adhered. Layer 20 of the layer 2G material in principle depends on the environment used by the film 1: the mode L: mode = time 2, the temperature at which the adhesive function is generated can be set to avoid the characteristics of not being fixed under the temperature, The carrier film 12 is opened. / However, if it is sticky relative to the structural layer. However, if the handles are separated into layers, the film 1 can be prevented from being mutually resistant to static electricity i: for example, for the structural layer, the carrier film 12 of the carrier film 12 is formed on the carrier film 12 (4); Cover or directly with the adhesive properties of the material = can ^. Usually, the adhesive layer 20 is made of a resin at room temperature. In order to avoid the above problems, for example, the modified breast pressure device 32 sucks the carrier film 12 to disengage the carrier film 12 from the structural layer 14 and the release layer 18 from the hardened layer 16. As shown in FIG. 3, FIG. 3 is a schematic diagram showing the peeling of the f-loaded film 12 together with the structural layer 14 and the release layer 18. The air suction device 32 includes a suction cup 322 and an air suction pipe 324 ′ connected to the suction cup 322. The air suction device 32 draws the suction cup 322 through the air suction pipe 324, and the suction guide disk 322 can suck the carrier film 12 (and the antistatic layer 24). The second layer 322 is pulled again to make the release layer ls, the structural layer M, the carrier film U and the antistatic layer and separate from the hardened layer 16' to achieve the purpose of the lion. The aforementioned suction device is advantageous for automated stripping operations', but the present invention is not limited thereto. Using the '' "' tool to adhere the carrier film 12 (and the antistatic layer 24), it is also possible to have the aforementioned effect of % suction.疋 : : : ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ ’ The four-figure four scales show a partial cross-sectional view of the body 5 according to another embodiment of the present invention. Housing 5 package ===: film r on surface 342. Film, Λ 形 ( (4) peeling carrier film 12 (and antistatic layer 24), structural layer - sound 2 〇, film 18 of 1 18 This film r contains hardened layer 16 and adhesive, the first side of the f 匕 layer The recessed portion 166 of the 162 forms a layer of Si, which is disposed on the second surface 164 for fixing the hardening of the object in FIG. 2, and the object 30 in FIG. 2 is regarded as the body 34; After completion, the shell having the package can be formed, and the shell is decorated as a thin one. In practical applications ^, the housing of the electronic device, such as notebook computer, mobile phone = heart: housing, car - Ming: = film 1 '. It is said that if the housing 丄 5 / no longer repeat. In addition, if the shell is replenished, the film can be firstly molded into plastic.
— 1置於一模具設備中,人握紱、隹一 L ,猎此射出成型的塑膠 、仃射 射出成型;接著剝離即本體34)即可與薄膜1 一併 14及離形層18,即電層24)、結構層 _式可參閱前述關於上2:=。5。其中 實施:示根據本創作之—具體 對薄m之說明實施例之 44膜之製造方法包含下列步驟。 如步驟s1〇2所示’先準備承载膜12 上,其中結構層14具有該 於承載膜12上,接著視結構層二= ==因此,本創作利用印刷方式形成該第: :1、\用以產生粗糙表面。其他關於結構層14找 明,匕έ成份、厚度、輪廓特徵等 1 結構層u之說明,於此不再贅述等均了直接參閱别述關於 如步驟S106所示,接英形士 上。離靜成離形層18於結構層14 / θ传以凹版印刷、微凹版或狹縫式塗佈頭印刷 M380245 形成於結構層14(及承載膜12)上;但本創作不以此為限。其 他關於離形層18塗佈區域、成份、厚度等之其他事項說 明’均可直接參閱前述關於離形層18之說明,於此不再贅 述0 接著如步驟S108所示,形成硬化層16於離形層18之 上。硬化層16得以凹版印刷、微凹版或狹縫式塗佈頭印刷 形成於離形層18上,接著以紫外線照射或電子束照射等方 式使其固化,但本創作不以此為限。因離形層18相對於結構 層14之輪廓(包含由顆粒144造成的粗糖表面)仍屬薄層,故 離形層18形錢’結構層14之輪輪鱗持,而後的硬化 層16因此將密貼結構層14及未被結構層14覆蓋的承載膜 12(兩者之間仍存離_ 18);亦即結構層14之輪扉”轉印”於 硬化層16上。因此,硬化層16之第一面162對應結構層μ 形成凹陷部166,凹陷部166形成該第二圖案,故該第二圖 案與該第-圖餘同。其他關於硬化層16成份、厚度 廓特徵等之其他事項朗,均可直接參_侧於硬^ 16之說明,於此不再贅述。 日 基於前述具體實施例,於形成黏著層2〇之前 形成裝飾層22於硬化層16上;但本創作不以此為巧 =形成麟層22係屬可選擇的。 \ : 裝飾層22於硬化層16上。料層22得以凹版 版或狹缝式塗佈頭印卿成於硬化 相 此為限。裝飾層22不以给蚀仁本創作不以 視產品設計蚊。1他關靴層16絲為必要,應 其他事項朗,均22絲、_徵等之 直接參,侧於裝飾層22之說明, 11 M380245 於此不再贅述。 々最後如步驟S112所示’形成黏著層2〇於硬化層16 ^第一面164上,若步驟sll〇已施作,則黏著層2〇亦覆 蓋裝飾層22(或謂印刷有油墨的區域)。其他關於黏著層 2〇成二分等之其他事項說明,均可直接參閱前述關於黏著層 之就明,於此不再贅述。上述各步驟sl〇2〜SU2均實施 後,即可得到根據本創作之薄膜丨,如圖一所示。 、、補充說明的是,圖一中薄膜丄之抗靜電層24可於 述步驟S102〜S112完成後’再行於相對於結構層14之 1膜2二之表面上形成抗靜電層24,或是於前述步驟 S102〜S112 始實施前,即先對承戴膜u 靜電層24或實施抗靜電處理。 ㈣元成抗 請參閱圖四及圖六’圖六係紛示根據本創作之另一且 體實施例之殼體之製造方法之流程圖。A :、 之對具有裝飾圖案之殼體5及薄膜丨之說明,該殼體之製 造方法包含下列步驟。 如步驟遞所示,先準備薄膜,即圖—所示之薄膜 ,其得以前述之薄膜之製造方法製備,或謂該殼體之製 造方法包含該薄膜之製造方法,以製備薄膜i。接著,準 儀待裝飾之本體(如前述之本體34或物體3〇),如步驟 幻04所示。此兩步驟S2〇2、S204亦得同時進行。 接著,將薄膜1以其黏著層20貼附於本體34上,如 步驟呂观所示。基於不同黏著層20之材料,需施以不房 12 的黏著操作。根據前述各具體實施例,於薄膜1貼附後, 尚需對黏著層2G加熱,以使薄膜1固定黏著於本體34 再接著,藉由離形層18剝離承載膜12(及抗靜電層 24)、結構層14及離形層18,以脫離硬化層16,如步驟 S208所示;補充說明的是,其可利用前述吸氣裝置32來 實施剝離步驟’但本創料以此為限。最後,貼附有薄膜 1’(或未剝離承載膜12及結構層M _膜之殼體即為 具有裝飾圖案之殼體5。 補充說明的是,於該殼體之製造方法中,步驟S204 中本體34之準傷與步驟S206之薄膜1貼附可近乎同時實 施。<請參=圖七,圖七係綠示薄膜i與本體34 ―同㈣ 、“卞〜圖例如將薄膜1(以粗短虛線表示於圖七中) 置於模具設備36巾,於本體%未綠示於圖七中)射 形的同時’薄膜1先伏貼於模穴362内壁,塑膠充填模 穴,待模穴362充滿塑膠時,即形成本體3使薄膜 本Γ構亦即具有裝飾_之殼體5(未I 冓層14)可一讀型;同時,若黏著層20 能直接注入模穴362的塑膠所帶有的熱能即 接對黏者層20加熱,達到固化、黏著的目的。 化體實蘭之制,賴作提4薄膜之硬 效果。該硬化層進—步地於立體結射_微小2見見 複數個微小凹洞,以強化立體視覺效果,確實有效改以 13 技術中立體視覺效果不足的問題。 藉由以上較佳具體實關之詳述, 描述本創作之特徵與精神,而並非以上述=加清楚 體實施例來對本創作之料加以關。相反地1較佳具 希望志涵1_各種改變及具相等性的安排於本創作^目的疋 之專利範圍的範嘴内。 欲申请 【圖式簡單說明】 一立圖一係繪示根據本創作之一具體實施例之薄犋之 不意圖。 圖一係繪示結構層形成之第一圖案之示意圖。 圖三係繪示承載膜連同結構層、離形層剝離之示意 圖四係繪示根據本創作之另一具體實施例之具有裝飾 圖案之殼體之局部剖面示意圖。 圖五係缯示根據本創作之一具體實施例之薄膜之製造 方法之流程圖。 圖六係緣示根據本創作之另一具體實施例之殼體之製 造方法之流程圖。 圖七係綠示薄膜與本體一同射出成形之示意圖。 【主要元件符號說明】 14 M380245 卜Γ :薄膜 5 :殼體 12 :承載膜 14 :結構層 16 :硬化層 18 :離形層 20 :黏著層 22 :裝飾層 24 :抗靜電層 30 :物體 32 :吸氣裝置 36 :模具設備 34 :本體 142 :樹脂 144 :顆粒 162 :第一面 164 :第二面 166 :凹陷部 166a :微小凹洞 322 :吸盤 324 :抽氣管 342 :表面 362 :模穴 S102〜S112 、 S202〜S208 : :步驟 15— 1 placed in a mold device, the person holds the 绂, 隹 L L, hunts the injection molded plastic, 仃 injection molding; then peels off the body 34) can be combined with the film 1 and the release layer 18, ie Electrical layer 24), structural layer _ formula can be referred to the above regarding 2:=. 5. Wherein: The method of manufacturing the film according to the present invention - specifically for the description of the thin m, comprises the following steps. As shown in step s1〇2, the carrier film 12 is prepared first, wherein the structural layer 14 has the carrier film 12, and then the structural layer 2 === Therefore, the creation uses the printing method to form the first: :1. Used to create a rough surface. Other descriptions of the structural layer 14, 匕έ composition, thickness, contour features, etc. 1 description of the structural layer u, which will not be described herein, are directly referred to as described in the step S106. The static separation layer 18 is formed on the structural layer 14 / θ by gravure printing, micro gravure or slit coating head printing M380245 on the structural layer 14 (and the carrier film 12); however, this creation is not limited thereto. . For other descriptions about the coating area, composition, thickness and the like of the release layer 18, the description of the release layer 18 can be directly referred to, and the description of the release layer 18 will not be repeated here. Next, as shown in step S108, the hardened layer 16 is formed. Above the delamination layer 18. The hardened layer 16 is formed by gravure printing, microgravure or slit coating head printing on the release layer 18, followed by curing by ultraviolet irradiation or electron beam irradiation, but the present invention is not limited thereto. Since the profile of the release layer 18 relative to the structural layer 14 (including the surface of the raw sugar caused by the particles 144) is still a thin layer, the release layer 18 is shaped as the wheel scale of the structural layer 14, and the subsequent hardened layer 16 is thus The adhesive structure layer 14 and the carrier film 12 not covered by the structural layer 14 (there is still _ 18 between them); that is, the rim of the structural layer 14 is "transferred" onto the hardened layer 16. Therefore, the first surface 162 of the hardened layer 16 forms the depressed portion 166 corresponding to the structural layer μ, and the depressed portion 166 forms the second pattern, so the second pattern is the same as the first pattern. Other matters concerning the composition and thickness profile of the hardened layer 16 can be directly referred to in the description of the hard ^ 16 and will not be described here. On the basis of the foregoing specific embodiment, the decorative layer 22 is formed on the hardened layer 16 before the formation of the adhesive layer 2; however, this creation is not optional. \ : The decorative layer 22 is on the hardened layer 16. The layer 22 is limited to the intaglio plate or the slit coat. The decorative layer 22 does not design mosquitoes for the purpose of designing the eclipse. 1 It is necessary for him to close the 16 layers of the boot layer. In other cases, the direct reference of 22 silk, _ levy, etc., is on the side of the decorative layer 22, 11 M380245 will not be repeated here. Finally, as shown in step S112, 'the adhesive layer 2 is formed on the first surface 164 of the hardened layer 16^. If the step s11〇 has been applied, the adhesive layer 2〇 also covers the decorative layer 22 (or the area where the ink is printed). ). For other descriptions of the adhesive layer 2, etc., the above description of the adhesive layer can be directly referred to, and will not be repeated here. After each of the above steps sl2 to SU2 is carried out, the film defect according to the present invention can be obtained, as shown in FIG. In addition, the antistatic layer 24 of the film crucible in FIG. 1 can be formed on the surface of the film 2 with respect to the structural layer 14 after the steps S102 to S112 are completed, or Before the steps S102 to S112 are performed, the antistatic treatment is performed on the protective film u electrostatic layer 24. (4) Yuan Cheng Kang Refer to FIG. 4 and FIG. 6 'FIG. 6 is a flow chart showing a method of manufacturing a casing according to another embodiment of the present invention. A:, for the description of the casing 5 having a decorative pattern and the film crucible, the method of manufacturing the casing comprises the following steps. As shown in the step, a film, i.e., a film as shown in Fig. 1, is prepared, which is prepared by the above-described method for producing a film, or a method of producing the film comprising the method for producing the film to prepare a film i. Next, the body to be decorated (such as the body 34 or the object 3 described above) is as shown in step Magic 04. The two steps S2〇2 and S204 have to be performed simultaneously. Next, the film 1 is attached to the body 34 with its adhesive layer 20 as shown in the step. Based on the material of the different adhesive layers 20, an adhesive operation of the room 12 is required. According to the foregoing specific embodiments, after the film 1 is attached, it is necessary to heat the adhesive layer 2G so that the film 1 is fixedly adhered to the body 34, and then the carrier film 12 is peeled off by the release layer 18 (and the antistatic layer 24). The structural layer 14 and the release layer 18 are separated from the hardened layer 16, as shown in step S208. It is additionally noted that the stripping step can be performed by the aspirating device 32, but the present invention is limited thereto. Finally, the film 1 ′ (or the case where the carrier film 12 and the structure layer M _ film are not detached) is the case 5 having a decorative pattern. In addition, in the manufacturing method of the case, step S204 The defect of the middle body 34 and the film 1 attached to the step S206 can be carried out almost simultaneously. <Refer to Fig. 7, Fig. 7 is a green film i and the body 34 - (4), "卞~图, for example, film 1 ( It is shown in Figure 7 in the thick and short dashed line. It is placed in the mold device 36, and the body is not green. It is shown in Figure 7. The film 1 is first attached to the inner wall of the cavity 362, and the plastic is filled with the cavity. When the hole 362 is filled with plastic, the body 3 is formed to make the film structure, that is, the casing 5 having the decoration _ (not the 冓 layer 14) can be read first; meanwhile, if the adhesive layer 20 can directly inject the plastic of the cavity 362 The heat energy is connected to the adhesive layer 20 to achieve the purpose of curing and adhesion. The solid body of the system is used for the hard effect of the film. The hardened layer is stepped into the stereoscopic _ tiny 2 Seeing a number of tiny pits to enhance the stereoscopic effect, it is really effective to change the stereoscopic visual effect in 13 technologies. Insufficient problem. The characteristics and spirit of the creation are described by the detailed description of the above specific details, and the material of the creation is not closed by the above-mentioned = clear embodiment. Conversely, 1 is better with hope. _All kinds of changes and equivalence are arranged in the scope of the patent scope of this creation. To apply for a simple description of the drawings, a diagram showing a thin example according to a specific embodiment of the present creation BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a schematic view showing a first pattern formed by a structural layer. Figure 3 is a schematic view showing a carrier film together with a structural layer and a release layer, and is a schematic diagram showing another embodiment according to the present invention. FIG. 5 is a flow chart showing a method of manufacturing a film according to a specific embodiment of the present invention. FIG. 6 is a view showing a housing according to another embodiment of the present invention. Flowchart of the manufacturing method. Fig. 7 is a schematic view of the green film formed together with the body. [Main component symbol description] 14 M380245 Dimensional: Film 5: Housing 12: Carrier film 14: Structure 16: hardened layer 18: release layer 20: adhesive layer 22: decorative layer 24: antistatic layer 30: object 32: getter device 36: mold device 34: body 142: resin 144: particle 162: first face 164: Second surface 166: recessed portion 166a: minute recess 322: suction cup 324: exhaust pipe 342: surface 362: cavity S102~S112, S202~S208: : Step 15