1269295 九、發明說明: 【發明所屬之技術領域】 本發明係關於-種光資訊儲存媒體,特別關於一種具 有夜光粉體之光資訊儲存媒體。 【先前技術】 隨著資訊與多媒體世代的來臨,包括電腦、通訊、消 費性電子之 3C(Computer,Communicati〇n,c〇nsmner electronics)產品對於儲存媒體的儲存密度及容量之需求也 不斷的增加。傳統的儲存媒體,大致上可分為兩大類,分 別是磁記錄媒體與光資訊儲存媒體。目前市場上是以光資 訊儲存媒體佔優勢,其係包含唯讀型光碟(CD-R〇m)、可 寫一次型光碟(CD-R)、可重覆讀寫型光碟(CD-RW)、 唯讀型數位影音光碟(DVD-ROM)、可寫一次型數位影音 光碟(DVD_R)、可重覆讀寫式數位影音光碟(DVI>RW, DVD+RW)、動態隨機記憶數位影音光碟(DVD-RAM)、 高解晰度數位視訊影碟(HD-DVD)、以及藍光光碟(Blu_ray disc)等等。 請參照圖1,習知的光資訊儲存媒體1,以一唯讀型 光碟為例,其係具有一基板11、一反射層12、一保護層 13、以及一印刷層14。其中,基板η係以聚碳酸酯為材 質’利用射出成形機台而射出形成,以製成具有預刻溝槽 (Pre-grooved)之基板。反射層12係設於基板11之上,反 射層12之材質係為純金屬或其合金,例如是銀或銀合金、 1269295 、、及銘或銘合、金或金合金等等,通常是利用來形成機聲 或蒸鍍方式來形成。光資訊儲存媒體1係利用反射層12 反射一雷射光束,進而可讀取位於光資訊儲存媒體1之 位資料。 為了避免上述反射層12之金屬材質,會暴露於外界 而產生氧化或者到傷,因此通常在反射層12上會塗佈保 護層13。其中,保護層13之材質係使用壓克力樹脂單體, • 其係具有照射紫外光後會產生聚合反應硬化之特性,藉此 可保護反射層12。 . 此外’為了獲取消費者的青睞,製造光資訊儲存媒體 的業者莫不挖空心思、求新求變,以設計出造型更炫的產 品,來提昇市場佔有率。例如:利用不同顏色之印刷油墨, 在保護層13上進行網版印刷,將油墨印刷至保護層13 上,以形成不同顏色且圖案豐富之印刷層14,使碟片之表 面更加美觀’藉此刺激消費者的購買欲望,提昇業者整體 • 競爭力。 然而,上述之產品已普遍存在於市場上,對消費者而 言,旅不具有非常大的吸引力。因此,如何能研發出一種 更能吸引消費者之光資訊儲存媒體,以提昇廠商於市場上 之佔有率’一直是業者持續追求的目標。 有鑑於上述問題’本案發明人亟思一種新穎之「光資 訊儲存媒體」’以吸引更多消費者的眼光,並刺激其購買 的欲望。 6 1269295 【發明内容】 訊儲 有鑑於上述課題,本發明之目的為提供—種光資 存媒體,其係具有一夜光粉體。 、 緣是,為達上述目的,依本發明之光資訊儲存媒體 包含一基板、一反射層、以及一印刷層。其中,e ^ 久射層係 設置於基板之一側,印刷層係設置於反射層之—辆 ^ 顶〗,印刷 層具有一夜光粉體。 又,為達上述目的,依本發明之光資訊儲存媒體,包 含一基板、一反射層、以及一覆蓋層。其中,基板係具有 一夜光粉體,反射層係設於基板上,覆蓋層係設置於反射 層相對於基板之一侧。 再者,為達上述目的’依本發明之光資訊儲存媒體’ 包含一第一基板、一反射層、以及一第二基板。其中,反 射層係設置於第一基板上,第二基板係具有一夜光粉體, 第二基板係設置於反射層之上相對於第一基板之一側。 承上所述,本發明之光資訊儲存媒體,其基板或印刷 層中係具有一夜光粉體。與習知技術相比,本發明之光資 訊儲存媒體係利用夜光粉體,來吸收環境中之日光或是電 器所發出之光線,待環境較暗或是夜晚時,即可放出光 線,以吸引消費者的注意。對消費者而言,此光資訊儲存 媒體係具有獨特性及新奇的效果,故可吸引消費者購買, 藉以提昇業者的市場銷售率。 【實施方式】 7 !269295 以下將參照相關圖式,說明依本發明較佳實施例之光 資5孔儲存媒體。本發明之光資訊儲存媒體可為唯讀型光碟 (CD_ROM)、可寫一次型光碟可重覆讀寫型光 碟(CD_RW)、唯讀型數位影音光碟(DVD_R〇M)、可寫 一次型數位影音光碟(DVD_R)、可重覆讀寫式數位影音 光碟(DVD-RW,DVD+RW)、動態隨機記憶數位影音光碟 (DVD-RAM)、南解晰度數位視訊影碟(hd_dvD)、藍光 • 光碟(Blu-ray disc)或是其他熟知此項技術者所熟知之光資 訊儲存媒體。 ' 、 請參閱圖2所示,其係為本發明第一較佳實施例之光 資訊儲存媒體之剖面示意圖。其中,本實施例之光資訊儲 存媒體可為唯讀型光碟、可寫一次型光碟、或覆寫式 碟,以下係以唯讀型先碟(CD.⑽M)為例= 第一較佳實施例之光資訊儲存媒體。 本實施例之光資訊儲存媒體2,係包含一基板21、一 • 反射層22、以及一印刷層24。 基板21係為一透明基板,厚度約為12mm,並且基 , 板21之材質可為丙烯酸Acrylic、聚碳酸酯樹脂 (Polycarbonate,PC)、或丙烯·丁二晞_笨乙烯三共聚物 (Acrylonitrile-butadiene-styrene,ABS)。基板 21 係利用一 刻有記錄數據的凹洞(Pit)與溝軌(Grooves)的模板,將塑膠 原料藉由射出成形技術來產生基板21。而形成於基板21 之凹洞(pit),則可將§孔號資料存於光資訊儲存媒體2中, 利用雷射光即可讀取光資訊儲存媒體2之訊號資料。 8 1269295 反射層22係設置於基板21之一側,本實施例中,反 射層22之材質係為純金屬或其合金,例如是銀或銀合金、 鋁或鋁合金、金或金合金、以及半導體合金薄膜等等。另 外,反射層22通常是利用濺鍍、或蒸鍍方式來形成。 再請參考圖2,本實施例中,光資訊儲存媒體2更包 含一保護層23,其係設置於印刷層24與反射層22之間, 用以保護反射層22之金屬材質不易刮傷、並可防止水氣 φ 進入及氧化的問題。 印刷層24係設置於反射層22之一侧,印刷層24係 具有一夜光粉體P,可將夜光粉體P與印刷油墨混合,再 a 以喷墨、網印、或熱轉印方式將印刷層24形成於反射層 ‘ 22之一侧,本實施例中,印刷層24係形成於保護層23上。 另外,夜光粉體P之材質係可為一螢光材質或一磷光材 質。夜光粉體P係具有一主體化合物(host compound), 主體化合物係可為硫化物系列(例如:ZnS、CdS、SrS、 • CaS)、鹵磷酸系列(例如:3Ca3(P04) · Ca(F,Cl)2)、磷酸 鹽系歹)J (例如:Sr2P2〇7、Ba2P2〇7、(Ca,Zn)3(P〇4)2)、梦 酸鹽系列(例如:Zn2Si04、CaSi03、(Sr,Ba,Mg)3Si207)、 鎢酸鹽系列(例如:CaW04、MgW04)、鋁酸鹽系列化合 物(例如·· BaMg2Ali6〇27、CeMgAlu〇i9、Sr4Ali4〇25)或 其他化合物(例如:Y2O3、YV〇4、SrB407F、MgGa204)。 由於印刷層24中具有夜光粉體P’因此’夜光粉體P 可吸收日光、或是電器用品之光線,到了晚上或是周圍環 境較暗時,具有夜光粉體P之光資訊儲存媒體2即可發出 9 1269295 光線’吸引他人的目光’故也能刺激消費者的購買您望。 請參閱圖3所示,其係為本發明第二較佳實施例之光 資訊儲存媒體之剖面示意圖。光資訊儲存媒體3係包含: 一基板31、一反射層32以及一覆蓋層(c〇ver iayer)33。其 中,本實施例之光資訊儲存媒體可為一藍光光碟。 基板31(亦可稱為保護層,protective layer)具有一夜光 粉體P,基板31之厚度約為i.imm。本實施例中,夜光粉 • 體P可先與塑膠原料均勻混合後,再藉由射出成形機台, 而將夜光粉體P摻雜於基板31内。由於藍光光碟之雷射 . 光入光面是覆蓋層33,因此,摻雜於基板31内之夜光粉 一 體P並不會阻礙雷射光線之行進。另外,夜光粉體P也可 與一油墨混合,再以喷墨、網印、或熱轉印方式形成於基 板31之一表面。 夜光粉體P之材質及其功效特徵,係與第一實施例中 之夜光粉體P相同,再此不再贅述。 鲁 反射層32係設置於基板31上,其中,反射層32之 材質係為純金屬或其合金,例如是銀或銀合金、鋁或鋁合 , 金、金或金合金、以及半導體合金薄膜等等。另外,反射 • 層32之形成方式,通常是利用濺鍍或蒸鍍方式來形成。 覆蓋層33係設置於反射層32相對於基板3丨之一侧。 通常覆蓋層33之厚度為o.lmm,用以保護反射層32。 接著,請參考圖4,其係為本發明第三較佳實施例之 光資訊儲存媒體之剖面示意圖。光資訊儲存媒體4係包 s •一第一基板41、一反射層42、以及一第二基板43。 1269295 其中’本實施例之光資訊儲存媒體可為一唯讀型數位視訊 景多碟(DVD-ROM)、寫一次型數位視訊影碟(DVD+/_R)、可 覆寫式數位視訊影碟(DVD + / _ RW )、隨機存取數位光碟 (DVD-RAM)、或是高解晰度數位視訊景多碟(HD-DVD),以 下,係以一唯讀型數位視訊影碟為例,來說明本發明之光 資訊儲存媒體。 第一基板41係為一透明基板,其厚度約為〇.6lnm, ❿ 第一基板41之其材質可為一塑膠,例如丙烯酸Acrylic、 聚碳酸酯樹脂(Polycarbonate,PC)或丙烯丁二稀·苯乙稀 二共聚物(Acrylonitrile-butadiene-styrene,ABS)。第一基 板41係利用一刻有記錄數據的凹洞(pit)與溝軌(Gr〇〇ves) 的模板上,將塑膠藉由射出成形技術即可以產生第一基板 41 ’此外’第一基板41藉由凹洞(pit),用以將訊號資料儲 存於光資訊儲存媒體4中。 反射層42係設置於第一基板41上。其中,反射層42 籲之功效與特徵可參考第一實施例之反射層22,於此不再贅 述。 , 第二基板43係具有一夜光粉體P,第二基板43係設 置於反射層42之上相對於第一基板41之一侧。第二基板 43之厚度約為〇 6mm,第二基板43之其材質可為丙烯酸 Acrylic、聚石炭酸酯樹脂(p〇iyCarbonate,PC)、或丙稀-丁二 烯-本乙烯二共聚物(Acrylonitrile-butadiene-styrene,ABS)0 本實施例中,係將夜光粉體P先與塑膠原料均勻混合 後’再藉由射出成形機台射出形成第二基板43,而將夜光 11 1269295 粉體P摻雜於第二基板43内。另外,也可以將夜光粉體P 與一油墨混合,再以喷墨、網印、或熱轉印方式形成於第 二基板43之一表面。由於雷射光係由第一基板41側進 入,因此,摻雜於第二基板43内或是印刷於第二基板43 表面之夜光粉體P,並不會阻礙雷射光線之行進。 夜光粉體P之材質及其功效特徵,係與第一實施例中 之夜光粉體P相同,再此不再贅述。 φ 由上可知,業者可依據不同之光資訊儲存媒體,將夜 光粉體摻雜於基板内或是印刷於光資訊儲存媒體之表面 處。當然,業者亦可同時摻雜於基板内或是印刷於光資訊 儲存媒體之表面,端看使用需求選用之。 ’ 綜上所述,本發明之光資訊儲存媒體,其基板或印刷 層中係具有一夜光粉體。與習知技術相比,本發明之光資 訊儲存媒體係利用夜光粉體,來吸收環境中之日光或是電 器所發出之光線,待環境較暗或是夜晚時,即可放出光 • 線,以吸引消費者的注意。對消費者而言,此光資訊儲存 媒體係具有獨特性及新奇的效果,故可吸引消費者購買, 藉以提昇業者的市場銷售率。 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】 圖1為習知之光資訊儲存媒體之一示意圖; 12 1269295 圖2為本發明第一較佳實施例之光資訊儲存媒體之一剖 面不意圖, 圖3為本發明第二較佳實施例之光資訊儲存媒體之一剖 面示意圖;以及 圖4為本發明第三較佳實施例之光資訊儲存媒體之一剖 面示意圖。 元件符號說明: 1 光資訊儲存媒體 11 基板 12 反射層 ' 13 保護層 14 印刷層 2 光資訊儲存媒體 21 基板 • 22 反射層 23 保護層 24 印刷層 3 光資訊儲存媒體 “ 31 基板 32 反射層 33 覆蓋層 4 光資訊儲存媒體 41 第一基板 13 1269295 42 反射層 43 第二基板 P 夜光粉體1269295 IX. Description of the Invention: [Technical Field of the Invention] The present invention relates to an optical information storage medium, and more particularly to an optical information storage medium having a luminous powder. [Prior Art] With the advent of information and multimedia generations, the demand for storage density and capacity of storage media is increasing due to 3C (Computer, Communicati〇n, c〇nsmner electronics) products including computers, communications, and consumer electronics. . Traditional storage media can be roughly divided into two categories, namely magnetic recording media and optical information storage media. Currently, the market is dominated by optical information storage media, which include CD-R〇m, CD-R, and CD-RW. , Read-only digital audio and video disc (DVD-ROM), write-once digital audio and video disc (DVD_R), repeatable digital audio and video disc (DVI> RW, DVD+RW), dynamic random memory digital video disc ( DVD-RAM), high-definition digital video discs (HD-DVD), and Blu-ray discs. Referring to FIG. 1, a conventional optical information storage medium 1 is exemplified by a readable optical disc having a substrate 11, a reflective layer 12, a protective layer 13, and a printed layer 14. Here, the substrate η is formed by using a polycarbonate molding material to be formed by an injection molding machine to form a substrate having a pre-grooved shape. The reflective layer 12 is disposed on the substrate 11. The material of the reflective layer 12 is pure metal or an alloy thereof, such as silver or silver alloy, 1269295, and Ming or Ming, gold or gold alloy, etc., usually utilized To form a machine sound or vapor deposition method to form. The optical information storage medium 1 reflects a laser beam by the reflective layer 12, and can read the data located in the optical information storage medium 1. In order to avoid the metal material of the above-mentioned reflective layer 12, it may be exposed to the outside to cause oxidation or damage, and therefore the protective layer 13 is usually applied on the reflective layer 12. Among them, the material of the protective layer 13 is made of an acrylic resin monomer, and it has a property of curing by polymerization after irradiation with ultraviolet light, whereby the reflective layer 12 can be protected. In addition, in order to gain the favor of consumers, the manufacturers of optical information storage media are not digging for ideas and seeking new changes, in order to design products with more sleek products to enhance market share. For example, screen printing is performed on the protective layer 13 by using printing inks of different colors, and the ink is printed onto the protective layer 13 to form a printed layer 14 of different colors and rich in patterns, so that the surface of the disc is more beautiful. Stimulate consumers' desire to purchase and enhance the overall competitiveness of the industry. However, the above products are already ubiquitous in the market, and for consumers, travel is not very attractive. Therefore, how to develop a light information storage medium that is more attractive to consumers to enhance the market share of manufacturers has always been the goal pursued by the industry. In view of the above problems, the inventor of this case thinks of a novel "light storage media" to attract more consumers' eyes and stimulate their desire to buy. 6 1269295 SUMMARY OF THE INVENTION In view of the above problems, it is an object of the present invention to provide an optical storage medium having a luminous powder. For the above purpose, the optical information storage medium according to the present invention comprises a substrate, a reflective layer, and a printed layer. Wherein, the e ^ long-term layer is disposed on one side of the substrate, the printed layer is disposed on the top of the reflective layer, and the printed layer has a luminous powder. Further, in order to achieve the above object, an optical information storage medium according to the present invention comprises a substrate, a reflective layer, and a cover layer. The substrate has a luminous powder, the reflective layer is disposed on the substrate, and the covering layer is disposed on one side of the reflective layer relative to the substrate. Furthermore, the optical information storage medium according to the present invention for the above purpose comprises a first substrate, a reflective layer, and a second substrate. The reflective layer is disposed on the first substrate, the second substrate has a luminous powder, and the second substrate is disposed on the reflective layer above the one side of the first substrate. As described above, the optical information storage medium of the present invention has a luminous powder in the substrate or the printed layer. Compared with the prior art, the optical information storage medium of the present invention uses the luminous powder to absorb the sunlight emitted by the environment or the electric light emitted by the electric appliance, and when the environment is dark or at night, the light is emitted to attract Consumer attention. For consumers, this optical information storage media is unique and novel, so it can attract consumers to buy, in order to increase the market sales rate of the industry. [Embodiment] 7!269295 Hereinafter, a light-source 5-hole storage medium according to a preferred embodiment of the present invention will be described with reference to the related drawings. The optical information storage medium of the present invention can be a read-only optical disc (CD_ROM), a write-once optical disc re-readable optical disc (CD_RW), a read-only digital audio and video disc (DVD_R〇M), and a writable digital type. Audio and video discs (DVD_R), re-readable digital audio and video discs (DVD-RW, DVD+RW), dynamic random memory digital audio and video discs (DVD-RAM), South resolution digital video discs (hd_dvD), Blu-ray Blu-ray discs or other light information storage media well known to those skilled in the art. Referring to Figure 2, there is shown a cross-sectional view of an optical information storage medium in accordance with a first preferred embodiment of the present invention. The optical information storage medium of the embodiment may be a read-only optical disc, a write-once optical disc, or an overwrite type disc. The following is a CD-ROM (CD) (10) M as an example = first preferred implementation For example, the light information storage media. The optical information storage medium 2 of the present embodiment comprises a substrate 21, a reflective layer 22, and a printed layer 24. The substrate 21 is a transparent substrate having a thickness of about 12 mm, and the base material of the plate 21 may be Acrylic Acrylic, Polycarbonate (PC), or Acrylonitrile-butadiene-Acrylonitrile-butadiene- Styrene, ABS). The substrate 21 generates a substrate 21 by injection molding using a template of a pit and a Grooves in which data is recorded. The pits formed on the substrate 21 can store the § hole number data in the optical information storage medium 2, and the signal data of the optical information storage medium 2 can be read by using the laser light. 8 1269295 The reflective layer 22 is disposed on one side of the substrate 21. In the embodiment, the material of the reflective layer 22 is pure metal or an alloy thereof, such as silver or silver alloy, aluminum or aluminum alloy, gold or gold alloy, and Semiconductor alloy films and the like. Further, the reflective layer 22 is usually formed by sputtering or vapor deposition. Referring to FIG. 2 , in this embodiment, the optical information storage medium 2 further includes a protective layer 23 disposed between the printed layer 24 and the reflective layer 22 to protect the metal material of the reflective layer 22 from scratching. It also prevents the entry and oxidation of moisture φ. The printing layer 24 is disposed on one side of the reflective layer 22, and the printing layer 24 has a luminous powder P, which can mix the luminous powder P with the printing ink, and then a will be inkjet, screen printing, or thermal transfer. The printed layer 24 is formed on one side of the reflective layer '22. In the present embodiment, the printed layer 24 is formed on the protective layer 23. In addition, the material of the luminous powder P may be a fluorescent material or a phosphorescent material. The luminous powder P has a host compound, and the host compound can be a sulfide series (for example, ZnS, CdS, SrS, • CaS) or a halogen acid series (for example, 3Ca3(P04) · Ca(F, Cl) 2), phosphate system 歹) J (for example: Sr2P2〇7, Ba2P2〇7, (Ca, Zn)3(P〇4)2), dream acid series (for example: Zn2Si04, CaSi03, (Sr, Ba,Mg)3Si207), a series of tungstates (for example: CaW04, MgW04), a series of aluminate compounds (for example, BaMg2Ali6〇27, CeMgAlu〇i9, Sr4Ali4〇25) or other compounds (for example: Y2O3, YV〇) 4. SrB407F, MgGa204). Since the printing layer 24 has the luminous powder P', the luminous powder P can absorb the sunlight or the light of the electrical appliance. When the night or the surrounding environment is dark, the light information storage medium 2 with the luminous powder P is It can emit 9 1269295 light 'attracting others' eyes', so it can also stimulate consumers to buy. Please refer to FIG. 3, which is a cross-sectional view of a light information storage medium according to a second preferred embodiment of the present invention. The optical information storage medium 3 includes: a substrate 31, a reflective layer 32, and a cover layer 33. The optical information storage medium of the embodiment may be a Blu-ray disc. The substrate 31 (also referred to as a protective layer) has a luminous powder P having a thickness of about i.imm. In the present embodiment, the luminous powder P can be uniformly mixed with the plastic material, and then the luminous powder P is doped into the substrate 31 by the injection molding machine. Since the laser light of the blue light disc is the cover layer 33, the phosphor powder doped into the substrate 31 does not hinder the progress of the laser light. Further, the luminous powder P may be mixed with an ink and formed on one surface of the substrate 31 by ink jet, screen printing, or thermal transfer. The material of the luminous powder P and its functional characteristics are the same as those of the luminous powder P in the first embodiment, and will not be described again. The reflective layer 32 is disposed on the substrate 31. The material of the reflective layer 32 is pure metal or an alloy thereof, such as silver or silver alloy, aluminum or aluminum alloy, gold, gold or gold alloy, and semiconductor alloy film. Wait. Further, the formation of the reflective layer 32 is usually formed by sputtering or vapor deposition. The cover layer 33 is disposed on one side of the reflective layer 32 with respect to the substrate 3 . Typically, the cover layer 33 has a thickness of 0.1 mm to protect the reflective layer 32. Next, please refer to FIG. 4, which is a cross-sectional view of a light information storage medium according to a third preferred embodiment of the present invention. The optical information storage medium 4 package s includes a first substrate 41, a reflective layer 42, and a second substrate 43. 1269295 wherein the optical information storage medium of the present embodiment can be a read-only digital video multi-disc (DVD-ROM), a write-once digital video disc (DVD+/_R), and an overwriteable digital video disc (DVD + / _ RW ), random access digital optical disc (DVD-RAM), or high resolution digital video multi-disc (HD-DVD), the following is a readable digital video disc as an example to illustrate the present invention Light information storage media. The first substrate 41 is a transparent substrate having a thickness of about 61.61 nm. The first substrate 41 may be made of a plastic material such as Acrylic, Polycarbonate (PC) or Propylene. Acrylonitrile-butadiene-styrene (ABS). The first substrate 41 is formed on the template of the pit and the groove track (Gr〇〇ves), and the first substrate 41 can be produced by the injection molding technique. The pit data is used to store the signal data in the optical information storage medium 4. The reflective layer 42 is disposed on the first substrate 41. The function and characteristics of the reflective layer 42 can be referred to the reflective layer 22 of the first embodiment, which will not be described again. The second substrate 43 has a luminous powder P, and the second substrate 43 is disposed on one side of the reflective layer 42 with respect to the first substrate 41. The thickness of the second substrate 43 is about mm6 mm, and the material of the second substrate 43 may be acrylic Acrylic, polycarboxylate resin (PC), or acrylonitrile-butadiene-ethylene ethylene copolymer ( Acrylonitrile-butadiene-styrene, ABS)0 In this embodiment, the luminous powder P is first uniformly mixed with the plastic raw material, and then the second substrate 43 is formed by the injection molding machine, and the luminous 11 11269295 powder P is used. Doped in the second substrate 43. Alternatively, the luminous powder P may be mixed with an ink and formed on one surface of the second substrate 43 by inkjet, screen printing or thermal transfer. Since the laser light enters from the side of the first substrate 41, the luminous powder P doped in the second substrate 43 or printed on the surface of the second substrate 43 does not hinder the progress of the laser light. The material of the luminous powder P and its functional characteristics are the same as those of the luminous powder P in the first embodiment, and will not be described again. φ As can be seen from the above, the manufacturer can mix the luminous powder into the substrate or print on the surface of the optical information storage medium according to different light information storage media. Of course, the manufacturer can also be doped in the substrate or printed on the surface of the optical information storage medium. As described above, the optical information storage medium of the present invention has a luminous powder in the substrate or the printed layer. Compared with the prior art, the optical information storage medium of the present invention uses the luminous powder to absorb the sunlight emitted by the environment or the electric light emitted by the electric appliance, and when the environment is dark or at night, the light and the line can be released. To attract the attention of consumers. For consumers, this optical information storage media is unique and novel, so it can attract consumers to buy, in order to increase the market sales rate of the industry. The above is intended to be illustrative only and not limiting. Any equivalent modifications or alterations to the spirit and scope of the present invention are intended to be included in the scope of the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic diagram of a conventional light information storage medium; 12 1269295 FIG. 2 is a cross-sectional view of a light information storage medium according to a first preferred embodiment of the present invention, and FIG. 3 is a second embodiment of the present invention. A schematic cross-sectional view of a preferred embodiment of the optical information storage medium; and FIG. 4 is a cross-sectional view of the optical information storage medium of the third preferred embodiment of the present invention. Description of component symbols: 1 Optical information storage medium 11 Substrate 12 Reflective layer '13 Protective layer 14 Printed layer 2 Optical information storage medium 21 Substrate • 22 Reflective layer 23 Protective layer 24 Printed layer 3 Optical information storage medium "31 Substrate 32 Reflective layer 33 Cover layer 4 optical information storage medium 41 first substrate 13 1269295 42 reflective layer 43 second substrate P luminous powder