201240885 六、發明說明: 【發明所屬之技術領域】 本發明係關於一種具有無線射頻辨識標籤且用以容納一鋁膜覆蓋包裝 物之包裝盒,更詳而言之,本發明之包裝盒具有一無線射頻辨識標籤,在 此包裝盒中,該無線射頻辨識標籤係與容納於該包裝盒内之鋁膜覆蓋包裝 物隔離’藉此預防鋁膜覆蓋包裝物與無線射頻辨識標藏間之無線射頻干擾。 【先前技術】 一般而言,泡般包用於包裝小型消費產品之主要包裝,如食品、口香 糖、巧克力、藥丸(藥鍵)、膠囊等等’以預防渔氣、氧氣及陽光等外部因素 透入產品,同時亦提供吸震功能,可預防各別包裝中之產品不致破裂損壞。 第一圖續示一包裝物品之泡般包。參閱第一圊,泡般包10包括一上膜 1 ’係由一65泖厚之聚氯乙稀(PVC)層、一55/zrn厚之鋁層以及一25/ΛΠ厚之尼 龍層貼合而成。該上膜1係經熱壓形成一端開口之凹穴或袋狀部1a。之後於 袋狀部1a中置入小型物品。而後,將以黏性樹脂製程之黏夥層2設置於該上 膜1之PVC層表面,再將以擠壓包裝(PTP)鋁箔製成之下膜3緊密貼合於該黏 膠層2。接著,將該上膜1與黏膠層2緊密接觸之表面以19〇。(:加熱約0.7秒, 使其熔融於下膜3,因此上下膜體1及3相互結合,形成密封包覆物品之泡殻 包。 一般而言’待上述之主要密封包裝完成後,可將複數之泡殼包置入一 包裝盒内》所述之包裝盒通常係以單一紙型根據所需容納之包袠量製成, 藉以構成雙重包裝。此種雙重包裝有助於提升產品外觀並增加豪華感。 該包裝盒之外表面印有圖案,如以英文及本國文字書寫之商品名稱, 201240885 以及成分及商品數量、製造及銷售商或進口單位等說明。此外,該包裝盒 上並附有條碼以便包裝盒之管理。 然而,此種條碼讀取時易受周遭障礙物之影響,因此讀取距離較短(約 20公分)。一般而言,係以一短距離準接觸式讀取器逐一讀取每只包裝盒上 之條碼,因此’具有條碼之包裝盒於大批分發時不易管理。此外,由於條 碼之複製及偽造較為容易,亦對包裝盒之安全性構成隱憂。 相較於條碼,無線射頻辨識標籤(RFID)之優點在於具有較長之非接觸 式讀取距離(約500公分)’且較不受周遭障礙物之影響,再者,其讀取器可 同時讀取一組300至500枚之無線射頻辨識標藏《此外,無線射頻辨識標籤 可包含防止複製之設計,因而可透過存取編碼及讀取產品資料提升安全 性。所以,就技術應用性而言,包裝盒上使用無線射頻辨識標籤之優點遠 多於使用條碼,包括存貨清單、保全、預防複製,以及經銷管道之追蹤, 而在機能性方面也有讀取距離較長、較不受障礙物限制以及讀寫速度更快 等優點。 儘管無線射頻辨識標籤具有上述優點,但其使用上的問題之一即在於 射頻波之干擾。亦即’若將覆蓋有鋁箔之泡殼包裝於具有無線射頻辨識標 籤之包裝盒中,由於鋁箔具有反射射頻波之性質,因此產生無線射頻干擾。 尤其,若於包裝盒上以超高頻(UHF)波段被動標籤提供存貨清單及經銷管理 資訊’當射頻波在標籤附加處之材料影響下轉換時,將嚴重影響標籤之讀 取率。 此外’也需考量無線射頻辨識標籤片易受震動及外部刺激影響,因而 應防止無線射頻辨識標籤之損壞。 201240885 再者,即便已於包裝盒之設計納入上述考量,尚應思及若能維持包裝 盒形狀不變,則消費者不致察覺其中之變化。 【發明内容】 有鑑於此,本發明提供一具有防止無線射頻干擾隔間之包裝盒,其中 形成有一段差,與該包裝盒内容納之一鋁膜覆蓋包裝物隔開,因此避免該 鋁膜覆蓋包裝物與該無線射頻辨識標籤間之無線射頻干擾。 此外,本發明提供之包裝盒係可利用現有之製造程序製作,且不改變 包裝盒之傳統外觀。 根據本發明之第一概念,一包裝盒上附加有無線射頻辨識標籤,且用 以容納一鋁膜覆蓋包裝物,該包裝盒包含: 一前板; 複數側板,其分別自該前板兩相對側緣各延伸一預設長度; 一後板,其自該二側板之一延伸一預設長度; 一上蓋,其自該後板之上緣延伸一預設長度; 複數下蓋,其分別自該前、後板之下緣延伸一預設長度;以及 至少一防止無線射頻干擾隔間,其自該等側板之上緣延伸弩折一預設 長度’其中該防止無線射頻干擾隔間覆蓋容納於該包裝盒中之鋁膜覆蓋包 裝物’同時形成一段差以與該鋁膜覆蓋包裝物隔開。 根據本發明之第二概念,一包裝盒上附加有無線射頻辨識標籤,且用 以容納一鋁膜覆蓋包裝物,該包裝盒包含: 一前板; 複數側板,其分別自該前板兩相對側緣各延伸一預設長度; 201240885 一後板,其自該等側板之一之側緣延伸彎折一預設長度; 一上蓋,其自該後板之上緣延伸彎折一預設長度; 複數下蓋其为別自該别板及後板之下緣延伸弯折一預設長度;以及 一防止無線射頻干擾隔間,其自該前板之上緣延伸—預設長度,該防 止無線射頻干擾關係經彎折以覆蓋該銘膜覆蓋包裝物,同時形成一段差 以與該包裝盒中之鋁膜覆蓋包裝物隔開。 【實施方式】 應知該等實施例係屬說明性質而非為限制之目的。此外,不同圖式中, 相同或相似之元件係以相同之元件符號加以指示。 第二圖為根據本發明第一實施例繪之包裝盒立體外觀圖,其上蓋呈開 啟狀態;而第三圖為第二圖包裝盒之展開圖。 如第一圖及第二圖所示,本發明之包裝盒1〇Q為一六面盒趙,其中容納 複數鋁膜覆蓋包裝物10,如泡殼包《此包裝盒100包括一前板20、第一及 第二侧板40及41、-後板50、-上蓋60、第-及第二下蓋7〇及71 ,以及複 數防止無線射頻干擾隔間90,上述各部係一體成形於單一紙型。 第一及第二側板40及41之下緣各設有輔助支撲片似及从。一黏貼部泣 形成於該後板50之側緣。或者’該黏貼部52可形成於該第一側板4〇之側緣。 標號62之元件為自該上蓋60延伸而出之插入部。 該第一及第二側板40及41自該前板2〇之相對二側緣延伸彎折一預設長 度。該後板50自該第一或第二側板40或41(圖示實施例為第二側板41)之側 緣延伸彎折一預設長度。該上蓋60自該後板5〇之上緣延伸彎折一預設長 度。該第一及第一下蓋7〇及71分別自該前後板20及50之下緣延伸彎折一預 201240885 設長度。該防止無線射頻干擾隔間90自該第一側板4〇及/或該第二側板41之 上緣延伸弩折一預設長度,且覆蓋該等鋁膜覆蓋包裝物1〇,同時形成一預 設段差G與該等鋁膜覆蓋包裝物10隔開。 在此實施例中’如所示及所述,該防止無線射頻干擾隔間9〇係形成於 該前板20二側邊之上緣,且該上蓋60係形成於該後板5〇之上緣。然應知該 防止無線射頻干援隔間90亦可形成於該後板50之上緣,而使該上蓋6〇形成 於該前板20之上緣。 該第一及第二下蓋70及71於其左右側各具有第一及第二固定片74及 76。各該第二固定片76具有一切口72。組立此盒時,係將該第一固定片74 插入對向第二固定片76之切口72,藉以使該等下蓋7〇及71部份重疊且彼此 結合。 各該防止無線射頻干擾隔間90包括一内蓋部94,其自該等側板4〇及41 之上緣延伸弩折一預設長度,且該無線射頻干擾隔間90亦包含一或多個位 於該内蓋部94中間之間隔部92,各間隔部92係劃分為相等部分,彼此摺4。 該側板40及41上之内蓋部94覆蓋位於包裝盒1〇〇内之該等鋁膜覆蓋包裝物 1〇,同時藉由該等間隔部92形成段差G。據此’該防止無線射頻干擾隔間 90所維持與該等鋁膜覆蓋包裝物10之段差係相當於該間隔部等92之宽度。 當然,可依據該包裝盒100内所容納之該等鋁膜覆蓋包裝物1〇高度調整該間 隔部92之寬度。 第四圊顯示第二圖之包裝盒1〇〇中該防止無線射頻干擾隔間之修改實 施例。 如第四困所示,該防止無線射頻干擾隔間90包括一覆蓋部104,其自該 201240885 側板40及41任一之上緣延伸彎折。該防止無線射頻干擾隔間9〇並包括間隔 部1〇2 ’其自該覆蓋部104延伸彎折以形成一段差G ^在此情況下,該防止 無線射頻干擾隔間90亦與包裝盒1〇〇中所容納之該等鋁膜覆蓋包裝物1〇維 持一相當於該間隔部102寬度之段差。 同時’如第二圖及第三圖所示,本發明之包裝盒1〇〇進一步包括一無線 射頻辨識標籤80,設置於一上内蓋部94。雖然此實施例之無線射頻辨識標 藏80係附加於該上内蓋部94,但該無線射頻辨識標籤80亦可附加於下蓋部 94、間隔部92,或第一側板40對應於該間隔部92或該前板20上部之位置》 在第四圖之實施例中,該無線射頻辨識標籤80可附加於該等間隔部102,或 該側板40及41對應於該間隔部1〇2之處,或前及/或後板2〇及/或50之上部。 在本發明實施例之包裝盒1〇〇中,由該防止無線射頻干擾隔間9〇之間隔 部92將一或多枚無線射頻辨識標籤8〇與在該包裝盒1〇〇内之鋁膜覆蓋包裝 物10隔開,藉此預防該等鋁膜覆蓋包裝物1〇與無線射頻辨識標籤8〇彼此接 觸,從而預防其間之無線射頻干擾。 同時,即使該無線射頻辨識標藏80係附加於該上蓋60或該後板50之上 部,也可發揮一定程度之阻隔無線射頻干擾效果。然而,由於大量包裝盒 可能疊放,因此無線射頻辨識標藏8〇較佳的是附加於該間隔部92或1〇2或 對應於該間隔部92或102之位置。該無線射頻辨識標蕺8〇亦可附加於上蓋 60,因為無線射頻辨識標籤8〇與該鋁膜覆蓋包裝物1〇之間隔距離在此為最 大。然而,應知該無線射頻辨識標籤8〇亦可附加於該間隔部92或1〇2或上、 下覆蓋部104’只要該無線射頻辨識標籤8〇設置之處不影響射頻波之接觸即 201240885 第五圓為根據本發明第二實施例之包裝盒立體外觀圓,其中包裝盒上 蓋開啟;第六囷為第五囷包裝盒展開之狀態;而第七囷為一立體圊,顯示 具有無線射頻辨識標籤之包裝盒中,該防止無線射頻干擾隔間如第五圖所 示之内蓋部蓋合之情況。 如第五圖及第六圓所示,本發明之包裝盒110為一六面盒體,其中容納 複數鋁膜覆蓋包裝物10,如泡殼包。該包裝盒110包括一前板20、第一及第 二側板40及41、一後板50、一上蓋60、第一及第二下蓋7〇及71,以及一防 止無線射頻干擾隔間90,,上述各部係一體成形於單一紙型。 該第一及第二側板40及41自該前板20之相對二側緣延伸彎折一預設長 度。該後板50自該第一或第二側板40或41(圏示實施例為第二側板41)之側 緣延伸彆折一預設長度。該上蓋60自該後板50之上緣延伸背折一預設長 度。該第一及第二下蓋70及71分別自該前後板20及50之下緣延伸臀折一預 設長度。 第一及第二側板40及41之下緣各設有輔助支撐片42及44 » —黏貼部52 形成於該後板50之側緣。或者,該黏貼部52可形成於該該第一或第二側板 40或41之側緣。標號62之元件為自該上蓋60延伸而出之插入部。 此外,如圓中可見,該防止無線射頻干擾隔間90係形成於該前板20之 上緣,且該上蓋60係形成於該後板50之上緣。或者,不同於此一配置,該 上蓋60可形成於該前板2〇之上緣上’且該防止無線射頻干擾隔間90可形成 於該後板50之上緣上。 該第一及第二下蓋70及71之左右兩側各具有第一及第二固定片74及 76。各第二固定片76設有一切口72 »於組立該包裝盒1〇〇時,係以該第一 201240885 固定片74插入對向第二固定片76之切口π,藉以使下蓋7〇及71部分重疊並 彼此結合。 該防止無線射頻干擾隔間90包括一間隔部92,其自該前板20之上緣 延伸彎折一預設長度,該防止無線射頻干擾隔間90並包括一内蓋部94,其 自該間隔部92延伸彎折一預設長度。該間隔部92係連附於該前板20之一内 表面而成彎折狀。該内蓋部94覆蓋該等容納於包裝盒1〇〇中之鋁膜覆蓋包裝 物10,而以彎折之間隔部92空出該段差G。據此,該防止無線射頻干擾隔 間90構成對該包裝盒11〇内該等鋁膜覆蓋包裝物1〇之段差。當然,可依據盒 中該等鋁膜覆蓋包裝物10之高度而調整該間隔部92之寬度。 或者’該防止無線射頻干擾隔間9〇亦可不由前板2〇之上緣延伸,而是 以具有間隔部92及内蓋部94之防止無線射頻干擾隔間90直接取代形成於該 侧板40及41上緣之輔助支撐片42。該無線射頻干擾隔間9〇以内蓋部94覆蓋 該鋁膜覆蓋包裝物,並藉由間隔部92形成段差。 同時,如第五圖及第六圖所示,該包裝盒彳1〇進一步包括一附加於該後 板50上部之無線射頻辨識標籤8〇。或者,如第七圖所示,該無線射頻辨識 標藏80係附加於該間隔部92,或該側板4〇及41之上部對應於該間隔部92 處,或該前板20之上部。 因此’在本發明之包裝盒11〇中,該防止無線射頻干擾隔間9〇以間隔部 92將該無線射頻辨識標齡〇與該等銘膜覆蓋包裝物川隔開藉此預防該等 銘膜覆蓋包裝物10與無線射頻辨識標卿彼此接觸,從而預防其間之無線 射頻干擾。 即使該無線射頻辨識標籤80係附加於該上蓋60之上部,也可發揮一定 11 201240885 程度之阻隔無線射頻干擾效果。然而,由於大量包裝盒可能疊放,因此無 線射頻辨識標籤80較佳的是附加於間隔部92或該後板50對應於該間隔部 92之位置。 如上所述,本發明提供一包裝盒,利用該防止無線射頻干擾隔間9〇之 間隔部92使該包裝盒内部所容納之該等鋁膜覆蓋包裝物1〇與附加於包裝盒 内部之無線射頻辨識標籤80隔開。據此,即使當多數包裝盒疊置時,亦可 彼此間隔一預設空間,藉此預防無線射頻辨識標籤與該鋁膜覆蓋包裝物間 之無線射頻干擾,並預防該等鋁膜覆蓋包裝物10與無線射頻辨識標藏80接 觸碰撞,從而提高無線射頻辨識標籤之辨識效率。 此外,本發明提供之包裝盒外觀與現有包裝盒相同,展開形狀亦與現 有包裝盒無異,因而此包裝盒之製作可不需大幅變更包裝盒之製程。此外 ’本發明提之包裝盒可解決無線射頻辨識標籤易受震動與外部刺激影響之 弱點’預防無線射頻辨識標籤意外受損,且不影黎消費者之視覺感受。 雖然本案係透過上述最佳實施例闡明,但精於此技藝者應可於不脫離 本案精神與範疇下進行各種變化修改。舉凡不違本案精神所從事之種種修 改或變化,俱屬本案申請專利範圍。 201240885 【圖式簡單說明】 第一圖為相關技術中一泡殼包之剖視圖。 第二圖為根據本發明第一實施例繪之包裝盒立體外觀圖。 第三圖為第二圖包裝盒之展開圖。 第四圖為第二圖包裝盒中防干擾隔間之修改實施例之立體外觀圖。 第五圖為根據本發明第二實施例之包裝盒立體外觀圖。 第六圖為第五圖包裝盒之展開圖。 第七圖為一具有無線射頻辨識標籤之包裝盒之立體外觀圖,其中如第五圖 所示之該防止無線射頻干擾隔間其内蓋部為關閉狀態。 【主要元件符號說明】 鋁膜覆蓋包裝物10 前板20 無線射頻辨識標蕺80 防止無線射頻干擾隔間9〇 間隔部92 内蓋部94 包裝盒100 覆蓋部104 間隔部102 第一側板40 第二側板41 輔助支標片42 輔助支撐片44 後板50 黏貼部52 包裝盒110 上蓋60 插入部62 第一下蓋70 第二下蓋71201240885 VI. Description of the Invention: [Technical Field] The present invention relates to a package having a radio frequency identification tag for accommodating an aluminum film covering package, and more particularly, the package of the present invention has a A radio frequency identification tag in which the RFID tag is isolated from the aluminum film covering package contained in the package, thereby preventing the radio frequency between the aluminum film covering package and the radio frequency identification tag. interference. [Prior Art] In general, the bubble-like package is used to package the main packaging of small consumer products, such as food, chewing gum, chocolate, pills (drugs, capsules, etc.) to prevent external factors such as fish gas, oxygen and sunlight. Into the product, it also provides shock absorption function, which can prevent the products in the individual packaging from rupture and damage. The first picture continues with a bubble-like package of packaged items. Referring to the first aspect, the bubble pack 10 includes an upper film 1 'attached from a 65 inch thick polyvinyl chloride (PVC) layer, a 55/zrn thick aluminum layer, and a 25/inch thick nylon layer. Made. The upper film 1 is heat-pressed to form a recess or a pocket portion 1a which is open at one end. Then, a small article is placed in the pocket portion 1a. Then, the adhesive layer 2 of the adhesive resin process is placed on the surface of the PVC layer of the upper film 1, and the lower film 3 made of extruded packaging (PTP) aluminum foil is closely attached to the adhesive layer 2. Next, the surface of the upper film 1 in close contact with the adhesive layer 2 was 19 Å. (: heating for about 0.7 seconds to melt it into the lower film 3, so the upper and lower film bodies 1 and 3 are bonded to each other to form a blister pack for sealing the coated article. Generally, after the main sealed package described above is completed, The package of the plurality of blister packs placed in a package is usually made of a single paper type according to the amount of the package to be accommodated, thereby forming a double package. This double package helps to enhance the appearance of the product. Add a sense of luxury. The exterior of the box is printed with a pattern, such as the name of the product in English and national script, 201240885 and the number of ingredients and products, manufacturing and sales or importing units. In addition, the box is attached There is a bar code for the management of the box. However, such bar code is easy to be affected by the surrounding obstacles, so the reading distance is short (about 20 cm). Generally speaking, it is read by a short distance contact type. The barcodes on each box are read one by one, so 'package boxes with barcodes are not easy to manage when mass-distributed. In addition, because the copying and forgery of barcodes is easier, the package is also safe. Sexuality constitutes a concern. Compared to bar codes, the advantage of radio frequency identification (RFID) tags is that they have a longer non-contact reading distance (about 500 cm) and are less affected by surrounding obstacles. The reader can simultaneously read a set of 300 to 500 radio frequency identification tags. In addition, the RFID tag can include a copy-protection design, so the security can be improved by accessing the code and reading the product data. In terms of technical applicability, the advantages of using radio frequency identification tags on the package are far more than the use of bar codes, including inventory, security, copy prevention, and tracking of distribution channels. In terms of functionality, there are also longer reading distances. Unobstructed by obstacles and faster reading and writing. Although the RFID tag has the above advantages, one of the problems in its use lies in the interference of radio frequency waves. That is, if the blister package is covered with aluminum foil. In a package with a radio frequency identification tag, since the aluminum foil has the property of reflecting radio frequency waves, radio frequency interference is generated. The inventory and distribution management information is provided on the box with ultra-high frequency (UHF) band passive tags. When the RF wave is converted under the influence of the material attached to the tag, the tag reading rate will be seriously affected. In addition, it is also necessary to consider wireless. The RFID tag is susceptible to vibration and external stimuli, so the damage of the RFID tag should be prevented. 201240885 Furthermore, even if the design of the package has been included in the above considerations, it should be considered that if the shape of the box is maintained, The present invention is not aware of the changes therein. SUMMARY OF THE INVENTION In view of the above, the present invention provides a package having a radio frequency interference preventing compartment in which a gap is formed, and an aluminum film covering package is contained in the package. Separating, thus avoiding radio frequency interference between the aluminum film covering package and the RFID tag. Furthermore, the package provided by the present invention can be fabricated using existing manufacturing procedures without changing the conventional appearance of the package. According to a first aspect of the present invention, a package is provided with a radio frequency identification tag, and is configured to receive an aluminum film covering package, the package comprising: a front panel; a plurality of side panels respectively opposite to the front panel The side edges each extend a predetermined length; a rear plate extending from the one of the two side plates by a predetermined length; an upper cover extending from the upper edge of the rear plate by a predetermined length; the plurality of lower covers respectively The lower edges of the front and rear panels extend a predetermined length; and at least one of the radio frequency interference prevention compartments is extended from the upper edge of the side panels by a predetermined length 'where the radio frequency interference compartment coverage is prevented The aluminum film covering the package in the package simultaneously forms a gap to be separated from the aluminum film covering package. According to a second aspect of the present invention, a package is provided with a radio frequency identification tag, and is configured to receive an aluminum film covering package, the package comprising: a front panel; a plurality of side panels respectively opposite to the front panel Each of the side edges extends a predetermined length; 201240885 a rear panel extending from a side edge of one of the side panels by a predetermined length; an upper cover extending from the upper edge of the rear panel by a predetermined length a plurality of lower covers which are bent from a predetermined length of the lower edge of the side plate and the rear plate; and a radio frequency interference preventing compartment extending from the upper edge of the front plate - a predetermined length, the prevention The radio frequency interference relationship is bent to cover the film covering the package while forming a gap to be separated from the aluminum film covering package in the package. [Embodiment] It is to be understood that the embodiments are illustrative and not limiting. In the various figures, the same or similar elements are denoted by the same reference numerals. The second drawing is a perspective view of a package according to a first embodiment of the present invention, the upper cover being in an open state; and the third view is an expanded view of the package of the second figure. As shown in the first and second figures, the package 1〇Q of the present invention is a six-sided box Zhao, which accommodates a plurality of aluminum film covering packages 10, such as a blister pack. The package 100 includes a front panel 20 , first and second side panels 40 and 41, a rear panel 50, an upper cover 60, first and second lower covers 7A and 71, and a plurality of radio frequency interference preventing compartments 90, each of which is integrally formed in a single body Paper type. The lower edges of the first and second side plates 40 and 41 are each provided with an auxiliary baffle. An adhesive portion is formed on the side edge of the rear plate 50. Alternatively, the adhesive portion 52 may be formed on a side edge of the first side plate 4A. The element numbered 62 is the insertion portion that extends from the upper cover 60. The first and second side panels 40 and 41 are bent from the opposite side edges of the front panel 2 by a predetermined length. The rear panel 50 is bent from a side edge of the first or second side panel 40 or 41 (the second side panel 41 of the illustrated embodiment) by a predetermined length. The upper cover 60 is bent and extended from the upper edge of the rear plate 5 by a predetermined length. The first and first lower covers 7A and 71 respectively extend from the lower edges of the front and rear plates 20 and 50 and are bent to a length of 20,040,885. The radio frequency interference preventing compartment 90 is extended from the upper edge of the first side panel 4 and/or the second side panel 41 by a predetermined length, and covers the aluminum film to cover the package, and forms a pre-form. The step G is spaced apart from the aluminum film covering packages 10. In this embodiment, as shown and described, the radio frequency interference preventing compartment 9 is formed on the upper edges of the two sides of the front panel 20, and the upper cover 60 is formed on the rear panel 5 edge. It should be understood that the radio frequency interference prevention compartment 90 can also be formed on the upper edge of the rear panel 50 such that the upper cover 6 is formed on the upper edge of the front panel 20. The first and second lower covers 70 and 71 have first and second fixing pieces 74 and 76 on the left and right sides thereof. Each of the second fixing pieces 76 has a predetermined opening 72. When the cartridge is assembled, the first fixing piece 74 is inserted into the slit 72 facing the second fixing piece 76, whereby the lower covers 7 and 71 are partially overlapped and joined to each other. Each of the radio frequency interference prevention compartments 90 includes an inner cover portion 94 extending from the upper edges of the side panels 4 and 41 to a predetermined length, and the radio frequency interference compartment 90 also includes one or more The partition portion 92 located in the middle of the inner lid portion 94 is divided into equal portions and folded by four. The inner cover portions 94 on the side panels 40 and 41 cover the aluminum film covering the package 1 in the package 1 while forming the step G by the spacers 92. Accordingly, the difference between the step of preventing the radio frequency interference compartment 90 and the aluminum film covering package 10 is equivalent to the width of the spacer 92 or the like. Of course, the width of the spacer 92 can be adjusted according to the height of the aluminum film covering package 1 accommodated in the package 100. The fourth embodiment shows a modified embodiment of the radio frequency interference preventing compartment in the package of the second figure. As shown in the fourth sleepy, the radio frequency interference prevention compartment 90 includes a cover portion 104 that extends from any of the upper edges of the 201240885 side panels 40 and 41. The radio frequency interference preventing compartment 9 〇 includes a spacer 1 〇 2 ′ which is bent from the covering portion 104 to form a gap G ^ in this case, the radio frequency interference preventing compartment 90 is also associated with the package 1 The aluminum film covering packages 1 accommodated in the crucible maintain a step corresponding to the width of the spacer 102. Meanwhile, as shown in the second and third figures, the package 1 of the present invention further includes a radio frequency identification tag 80 disposed on an upper inner cover portion 94. Although the radio frequency identification tag 80 of this embodiment is attached to the upper inner cover portion 94, the radio frequency identification tag 80 may be attached to the lower cover portion 94, the spacer portion 92, or the first side plate 40 corresponds to the interval. The position of the portion 92 or the upper portion of the front plate 20. In the embodiment of the fourth embodiment, the RFID tag 80 may be attached to the spacers 102, or the side plates 40 and 41 correspond to the spacers 1 and 2. At or above the front and/or rear panel 2〇 and/or 50. In the package 1 of the embodiment of the present invention, one or more radio frequency identification tags 8 are attached to the aluminum film in the package 1 by the spacer 92 for preventing the radio frequency interference compartment 9〇. The cover wrappers 10 are spaced apart to prevent the aluminum film cover wraps 1 and the radio frequency identification tag 8 from contacting each other, thereby preventing radio frequency interference therebetween. At the same time, even if the RFID tag 80 is attached to the upper cover 60 or the upper portion of the rear plate 50, the radio frequency interference effect can be blocked to a certain extent. However, since a large number of packages may be stacked, the radio frequency identification tag 8 is preferably attached to the spacer 92 or 1 2 or to the position corresponding to the spacer 92 or 102. The radio frequency identification tag 8〇 can also be attached to the upper cover 60 because the distance between the radio frequency identification tag 8〇 and the aluminum film covering package 1 is the largest here. However, it should be noted that the RFID tag 8〇 may also be attached to the spacer 92 or 1〇2 or the upper and lower cover portions 104' as long as the radio frequency identification tag 8〇 is not affected by the contact of the radio frequency wave, that is, 201240885 The fifth circle is a three-dimensional appearance circle of the packaging box according to the second embodiment of the present invention, wherein the upper cover of the packaging box is opened; the sixth 囷 is the state in which the fifth 囷 packaging box is unfolded; and the seventh 囷 is a three-dimensional 圊, the display has a radio frequency In the package of the identification tag, the inner radio cover is prevented from being closed as shown in the fifth figure. As shown in the fifth and sixth circles, the package 110 of the present invention is a six-sided box in which a plurality of aluminum film covers the package 10, such as a blister pack. The package 110 includes a front panel 20, first and second side panels 40 and 41, a rear panel 50, an upper cover 60, first and second lower covers 7 and 71, and a radio frequency interference preventing compartment 90. Each of the above components is integrally formed in a single paper type. The first and second side panels 40 and 41 are bent from the opposite side edges of the front panel 20 by a predetermined length. The rear panel 50 extends from the side edge of the first or second side panel 40 or 41 (the second side panel 41 of the illustrated embodiment) by a predetermined length. The upper cover 60 is folded back from the upper edge of the rear plate 50 by a predetermined length. The first and second lower covers 70 and 71 extend from the lower edges of the front and rear panels 20 and 50, respectively, to a predetermined length. The lower edges of the first and second side plates 40 and 41 are respectively provided with auxiliary support pieces 42 and 44. - The adhesive portion 52 is formed on the side edge of the rear plate 50. Alternatively, the adhesive portion 52 may be formed on a side edge of the first or second side plate 40 or 41. The element numbered 62 is the insertion portion that extends from the upper cover 60. Further, as seen in the circle, the radio frequency interference preventing compartment 90 is formed on the upper edge of the front panel 20, and the upper cover 60 is formed on the upper edge of the rear panel 50. Alternatively, unlike this configuration, the upper cover 60 may be formed on the upper edge of the front panel 2' and the radio frequency interference preventing compartment 90 may be formed on the upper edge of the rear panel 50. The first and second lower covers 70 and 71 have first and second fixing pieces 74 and 76 on the left and right sides. Each of the second fixing pieces 76 is provided with a predetermined opening 72. When the packaging box 1 is assembled, the first 201240885 fixing piece 74 is inserted into the slit π opposite to the second fixing piece 76, so that the lower cover 7 is 71 partially overlap and combine with each other. The radio frequency interference prevention compartment 90 includes a spacer 92 extending from the upper edge of the front panel 20 by a predetermined length. The radio frequency interference prevention compartment 90 includes an inner cover portion 94. The spacer 92 is extended to be bent by a predetermined length. The spacer 92 is attached to one of the inner surfaces of the front panel 20 to be bent. The inner lid portion 94 covers the aluminum film covering package 10 accommodated in the package 1 and the gap G is vacated by the bent portion 92. Accordingly, the radio frequency interference preventing compartment 90 constitutes a step of the aluminum film covering package 1 in the package 11. Of course, the width of the spacer 92 can be adjusted depending on the height of the aluminum film covering the package 10 in the case. Or 'the prevention of the radio frequency interference compartment 9〇 may not be extended by the upper edge of the front panel 2〇, but may be directly replaced by the radio frequency interference preventing compartment 90 having the spacer 92 and the inner cover portion 94. Auxiliary support sheets 42 on the upper edges of 40 and 41. The radio frequency interference compartment 9 covers the aluminum film covering package with the inner cover portion 94, and a step is formed by the spacer 92. Meanwhile, as shown in the fifth and sixth figures, the package cassette further includes a radio frequency identification tag 8A attached to the upper portion of the rear panel 50. Alternatively, as shown in the seventh figure, the RFID tag 80 is attached to the spacer 92, or the upper portions of the side panels 4 and 41 correspond to the spacer 92 or the upper portion of the front panel 20. Therefore, in the package 11 of the present invention, the radio frequency interference preventing compartment 9 is separated from the film covering package by the spacer 92 to prevent such a mark. The film covering package 10 and the RFID tag are in contact with each other to prevent radio frequency interference therebetween. Even if the RFID tag 80 is attached to the upper portion of the upper cover 60, the radio frequency interference effect can be blocked by a certain degree of 201240885. However, since a large number of packages may be stacked, the radio frequency identification tag 80 is preferably attached to the spacer 92 or the position of the rear plate 50 corresponding to the spacer 92. As described above, the present invention provides a package which utilizes the spacer 92 for preventing the radio frequency interference compartment 9 to cover the aluminum film covering package 1 inside the package and the wireless attached to the inside of the package. The RFID tags 80 are separated. Accordingly, even when a plurality of packages are stacked, a predetermined space can be spaced apart from each other, thereby preventing radio frequency interference between the RFID tag and the aluminum film covering package, and preventing the aluminum film covering the package. 10 contact collision with the radio frequency identification tag 80, thereby improving the identification efficiency of the radio frequency identification tag. In addition, the package provided by the present invention has the same appearance as the existing package, and the unfolded shape is no different from the existing package, so that the manufacture of the package can be made without significantly changing the process of the package. In addition, the package of the present invention can solve the vulnerability of the RFID tag to vibration and external stimuli, preventing accidental damage of the RFID tag and not affecting the visual experience of the consumer. Although the present invention has been illustrated by the above-described preferred embodiments, those skilled in the art should be able to make various changes and modifications without departing from the spirit and scope of the invention. All kinds of modifications or changes that are not in violation of the spirit of the case are the scope of patent application in this case. 201240885 [Simple description of the drawings] The first figure is a cross-sectional view of a blister pack in the related art. The second figure is a perspective view of a package according to a first embodiment of the present invention. The third picture is an expanded view of the package of the second figure. The fourth figure is a perspective view of a modified embodiment of the anti-interference compartment in the package of the second figure. Figure 5 is a perspective view of a package according to a second embodiment of the present invention. The sixth picture is an expanded view of the package of the fifth figure. Figure 7 is a perspective view of a package having a radio frequency identification tag, wherein the inner radioshield portion of the radio frequency interference preventing compartment is closed as shown in Fig. 5. [Main component symbol description] Aluminum film covered package 10 Front panel 20 Radio frequency identification mark 80 Radio frequency interference prevention compartment 9 〇 spacer 92 Inner cover part 94 Package 100 Covering portion 104 Spacer 102 First side plate 40 Two side plates 41 auxiliary support piece 42 auxiliary support piece 44 rear plate 50 adhesive portion 52 package 110 upper cover 60 insertion portion 62 first lower cover 70 second lower cover 71