201010914 六、發明說明 【發明所屬之技術領域】 本發明是關於飲料用容器。 【先前技術】 例如,在便利超商等是將飲料罐或寶特瓶等塡充有飲 料的容器,例如收納在陳列櫃的陳列裝置縱向放置來販賣 φ 。並且’以上的陳列裝置,例如藉著容器本身的重量使容 器朝著陳列櫃的前方移動呈傾斜狀態配置。並且,抽取跟 前側(最前列)的1個容器時,後續的容器會以其自重朝 著跟前側移動。 在此陳列裝置載放有容器之處,設有容器滑動良好用 的例如塑膠平板。並且,近年來有多數配置著可轉動滾柱 的陳列裝置(例如,參閱專利文獻1 )上市。又,容器的 補充一般是從陳列裝置的後方側進行,但是也提出一種可 〇 從跟前側進行容器的投入,並朝著深度側移動的容器,再 度移動至跟前側陳列的陳列裝置(例如,參閱專利文獻2 )。亦即’提出一種自前方側投入的容器呈U字型迴轉返 回的陳列裝置。另外,關於容器則是提出一種形成在罐底 的環型凸部的內周圍壁上,形成有使得內側凹部與縱肋條 交替形成在圓周方向的罐子(例如,參閱專利文獻3)。 但是’在容器的外面設有商品名或商標名等與其他商 品識別用的標記,但是該標記如未朝向購買人的取出方向 時’購買人不但不易進行商品的識別,並且商品陳列時的 -5- 201010914 美觀性不佳。因此,所陳列的容器例如在前方側等,使得 標記朝著預定的方向爲佳。 公報記載的先前技術是提出一種在載放容器的傾斜架 板的上面,朝著架板傾斜方向設置棒形的引導凸條,在容 器的底部設置連結與標記正下方和標示有標記的面相反側 面的正下方的凹狀嵌合部,利用該引導凸條與凹狀嵌合部 來陳列容器的陳列方法(例如,參閱專利文獻4)。該陳 列方法是以標記朝向前方側的姿勢將凹狀嵌合部嵌合在引 導凸條,前後排列著複數個容器。此一結果,標記是以朝 向前方的狀態進行容器的陳列。 〔專利文獻〕 〔專利文獻1〕日本特開平11-155701號公報 〔專利文獻2〕美國發明專利第6502408號 〔專利文獻3〕日本特開2000-211624號公報 〔專利文獻4〕日本特開2006-288676號公報 【發明內容】 〔發明所欲解決之課題〕 上述專利文獻4中,將凹狀嵌合部嵌合在引導凸條進 行容器的陳列,可以使標記確實地朝向前方。但是,上述 的發明中’容器的投入者在容器每設置於陳列裝置時必須 將凹狀嵌合部嵌合在凹狀嵌合部,容器的陳列作業繁雜。 並且,標記僅形成在容器一處的場合,有著在標記朝向後 方側的狀態下陳列之陳列錯誤產生的顧慮。並且,該便利 -6- 201010914 超商等販賣多量飲料的店舖等,方向整合時所投入的作業 須非常大的規模。 #發明主要的目的是提供一種即使將容器縱向陳列在 @歹!Jg®時標記朝著任意方向放置容器時,仍可以使標記 朝著預定方向的飲料用容器。 〔解決課題用的手段〕 φ 根據上述的目的,運用本發明的飲料用容器,其特徵 爲’包含:具備底部,及設置在較底部上方標示有商品識 別用標記的側部的容器主體部;及轉動後的容器主體部在 標記朝著預定方向的狀態停止時所使用的突出部或凹部。 在此’具有設置複數個標記,突出部或凹部分別對應 複數個標記設有複數個的特徵。並且,突出部或凹部可有 形成在與設置標記之一側相反側上的特徵。另外,底部具 備朝著容器主體部外側呈環狀突出的環狀突出部,突出部 φ 或凹部是形成在環狀突出部的側面的特徵。且突出部或凹 部是形成在與標示有標記處的不同處的特徵。並且,突出 部或凹部是形成在容器主體部的底部的特徵。 從其他的觀點來看,運用本發明的飲料用容器,其特 徵爲,具備:底部;設置在較底部上方標示有商品識別用 的標記的側部;及形成在底部或側部的突出部或凹部,突 出部或凹部與標記具有預定的位置關係。 在此,底部具有從底部呈環狀突出的環狀突出部,突 出部或凹部是形成在底部,形成在底部的突出部或凹部是 201010914 形成在環狀突出部內側的特徵。並且,在側部形成有凹部 的特徵。另外,沿著形成筒狀的側部周圍方向形成且形成 在側部一部分的特徵。又,突出部或凹部是藉著底部或側 部的變形所形成的特徵。 另外,從其他的觀點來看,運用本發明的飲料用容器 ,其特徵爲,具備:剖面爲圓形的曲面;在外面的特定處 進行商品識別用標記的標記部;及連續於曲面設置從曲面 變形所形成的變形部,形成變形部及標記部其中的一方之 後,以形成其中一方的位置爲基準形成另外的一方。 〔發明效果〕 可提供縱向陳列在陳列裝置時,即使標記朝著任意的 方向時仍然可以使標記朝著預定方向的飲料用容器。 【實施方式】 以下,參閱添附圖示,針對實施本發明用的最佳形態 加以詳細說明。 第1圖(第1A圖及第1B圖)是表示本發明實施形態 所涉及陳列裝置的槪略構成的圖。 如第1A圖表示本形態的陳列裝置30,具備:載放內 部塡充有飮料的容器20的載放部31,及形成容器2〇的移 動路徑(搬運路徑)並可引導容器20移動的導件32。並 具備形成透明的同時沿著載放部31的一側邊配置,停止 容器20移動的限制板34。在此導件32例如將其兩端部插 -8 - 201010914 入形成在載放部31的開口 33藉此固定於載放部31。並且 ,容器20雖例示圓筒形的罐子但是也可以使用具有所謂 寶特瓶等的樹脂製容器或蓋子的所謂瓶罐等。 陳列裝置30是如第1B圖表示,被收納於設置在便利 超商、超級市場等陳列櫃1 0的內部。該陳列櫃1 0是以形 成直立方體的櫃主體部10A,及可自由開關設置在該櫃主 體部10A的門10B構成主要部。 _ 在此陳列裝置30被載放於設置在陳列櫃1〇的架子( 未圖示)上。此時,陳列裝置30設置使設有限制板34的 —側位在門1 0 B側的位置。並且,設有限制板3 4的一側 被配置定位在比設有限制板3 4 —側的相反側的下方。亦 即’陳列裝置3 0是以從陳列櫃1 0的後方側朝著取出容器 2〇的前方側(取出部側)向下傾斜的狀態配置。 在此本實施形態的陳列櫃10在後方側也設有門(未 圖示),後方側也可以開放。並且從該後方側將容器20 〇 投入到陳列裝置30。亦即,陳列櫃1 0的後方側及陳列裝 置30的後方側形成設有容器20的投入部的構成。並且, 投入後的容器20在載放部31上朝著門10B側移動。即, 朝向購買容器20的購買人側移動。再者,本發明說明書 有以門1 0B側稱爲前方側(前方),和門1 〇B的相反側稱 爲後方側(後方)的場合。並且有稱陳列櫃10的寬度方 向(與容器20移動的方向正交的方向)爲橫向、寬方向 的場合。 針對陳列裝置3 0更詳細說明如下。 -9- 201010914 第2圖(第2A圖及第2B圖)是說明陳列裝置30的 載放部31的圖。在此,第2A圖爲載放部31的上視圖, 第2 B圖爲載放部3 1的側視圖。 如第2A圖表示,載放部31,具備:在以導件32 (本 圖中未圖示)所形成的移動路徑上,使容器20朝著前方 移動的第1滾柱部311,及接觸容器20的底部(端部)賦 予容器20滑動阻力(摩擦阻力)的阻力賦予部312。並且 ,載放部31具備使得配置在第1滾柱部311和阻力賦予 部312之間的容器20轉動(詳細如後述)的轉動停止機 構 313。 在此,第1滾柱部311、阻力賦予部312及轉動停止 機構313被並排配置在橫向。並且,載放部31在比第1 滾柱部311、阻力賦予部312及轉動停止機構313的前方 ,具備使容器20朝著更前方移動的第2滾柱部314。 第1滾柱部311具有複數個可沿著容器20的移動方 向轉動設置的滾柱狀構件311a。並且,該等滾柱狀構件 3 1 1 a是沿著容器20的移動方向(前後方向)排列。 阻力賦予部312例如可藉著橡膠構件構成。並且橡膠 構件例如可使用EPDM (乙丙橡膠)。 第2滾柱部314具有複數個可沿著容器20的移動方 向轉動所設置的滾柱狀構件 314a。在此該滾柱狀構件 314a是沿著容器20的移動方向排列。又,滾柱狀構件 3 1 4a在軸方向成2列排列配置。另外’各個滾柱狀構件 314a是形成較第1滾柱部311的滾柱狀構件311a寬幅。 201010914 轉動停止機構313是如第2B圖表示,形成環狀可循 環移動的皮帶構件313ae又,轉動停止機構313具備設置 成可轉動,從內側張設皮帶構件313a的第1張設滾柱 313b及第2張設滾柱313c。並且’具備固定在皮帶構件 313a的表面且沿著皮帶構件313a的移動方向排列設置, 隨著皮帶構件313a的移動而循環移動的複數個移動構件 313d。另外,具備在皮帶構件313a的移動方向隔開預定 φ 的間隔設置,並從移動構件313d的表面突出的複數個突 起313e。在此,設置使突起313e從載放在載放部31的容 器20的最下端部和移動構件313d(載放部31)的接觸位 置朝著容器20側突出。 再者,轉動停止機構313傾斜配置藉著移動構件313d 形成的平坦面313f,使其對阻力賦予部312等的表面312f 具有角度α (參閱第2B圖)°附帶說明時’轉動停止機 構313配置使其傾斜角度大於阻力賦予部312等的傾斜角 φ 度。爲此本實施形態中,從突起313e的表面312f等的突 出高度隨著突起313e向前方的移動而減少。此一結果’ 本實施形態中,突起313e和容器20形成非接觸狀態時( 詳細如後述),可以順利進行此非接觸狀態的形成。再者 ,上述角度α並非必須。這是由於即使不存在角度《 ’突 起313e仍會朝著載放部31的下方移動與容器20形成非 接觸狀態。 接著針對容器20加以說明。 第3圖(第3 A-3H圖)是從底部側顯示容器20的場 -11 - 201010914 合的圖。 本實施形態的容器20是形成圓筒形,並且如第3A圖 表示,在底部21具備朝著外側呈環狀突出的環狀突出部 211。並且,在環狀突出部211內側的側面(曲面的一例 )具備藉著容器20的變形而形成連續在該內側側面所設 置的第1凹部212a、第2凹部212b (變形部、凹部的一 例)(再者本說明書中,形成在容器20的上述凹部有僅 稱爲凹部212的場合)。在此第1凹部212a及第2凹部 212b是以彼此相對的關係配置。附帶說明時,第1凹部 212a及第2凹部212b在容器20的周圍方向,以相位偏移 180°的狀態配置。 另外容器20在外面一部分的側部22的特定處,具有 商品名、商標名等與其他商品識別用的第1識別標記2 3 a 、第2識別標記23b (標記部)(並且,本說明書中以下 有僅稱爲「識別標記23」的場合)。在此,第1識別標記 23a及第2識別標記23b也可以相同的形態也可以是不同 的形態。再者,第1識別標記23a及第2識別標記23b在 容器20的周圍方向,以相位偏移180°的狀態配置》 另外,說明凹部212和識別標記23的關係時,在容 器20的周圍方向,第1識別標記23a和第1凹部212a是 以相位偏移180°的狀態配置。並且,第2識別標記23b和 第2凹部212b也是以相位偏移180°的狀態配置。附帶說 明時,第1識別標記23a和第1凹部212a是具有預定的 位置關係所形成,第2識別標記23b和第2凹部212b也 201010914 是具有預定的位置關係所形成。更加以說明時,第1識別 標記23a和第1凹部212a被配置在彼此不同的位置,第2 識別標記23b和第2凹部212b也是被配置在彼此不同的 位置。 另加以說明時,第1凹部212a被形成在與設有第1 識別標記23a側的相反側,第2凹部212b被形成在與設 有第2識別標記23b側的相反側。並且本形態是如第1識 0 別標記23a及第2識別標記23b設有複數個識別標記23 的同時,對應該等的各個識別標記23設有凹部212(第1 凹部212a、第2凹部212b)。 再者,本形態的識別標記23及凹部212在形成該等 其中之一方後,以形成此一方的位置爲基準形成另一方。 在此,第3A圖中,雖已例示作爲罐子所形成的容器 20,但是形成凹部212的形態更適合於寶特瓶等樹脂製的 容器。上述的樹脂製的容器是在模具上預先形成對應凹部 φ 212的凸部,例如以吹塑成形的過程形成凹部212。隨後 ,將具有識別標記23的薄膜(標籤)捲繞在容器20的步 驟中進行定位,以凹部212的形成位置爲基準將具有識別 標記23的薄膜捲繞在容器20上。 另一方面,容器20爲鋁罐等的場合,凹部212的形 成是如以下進行。例如兩片鋁罐的場合,雖是依杯成形-DI ( Draw&Iron )成形-清洗-外面印刷-乾燥-內面塗飾-乾 燥-口部縮徑加工-檢查的順序加工等,但是在實施該等的 過程中可形成凹部212。例如上述環狀突出部211及凹部 -13- 201010914 2 1 2例如可以DI成形的步驟形成。並且,識別標記23除 了在外面印刷的步驟進行定位之外,以凹部212的形成位 置爲基準,例如可以多色膠印印刷形成。 再者,使用多色膠印印刷等的外面印刷’通常是以接 近2000罐/量的速度進行。因此,也可假設以凹部212爲 基準的定位困難的狀態。爲此例如以較口部縮徑加工的前 一步驟,進行容器20轉動的同時使用感測器等例如進行 識別標記23的位置檢測。並且,利用該位置檢測的結果 停止容器20後,可以使用模具等在容器20形成凹部212 。再者,藉模具進行凹部212的形成可例如使用日本特開 2 0 00-2 1 1 624號公報所揭示既有的技術來進行。並且例如 可在容器20的內部及外部配置模具從容器20的內外施加 壓力藉成形機來形成。 在此,容器20的凹部212是如第3B圖表示,也可以 設置在環狀突出部2 1 1外側的側面。 又,凹部212以外,如第3C圖表示,也可以在環狀 突出部211內側的側面設置藉容器20的變形所形成的突 出部213(變形部的其他一例)。並且,以上的形態更適 合於寶特瓶等成形加工之自由度大的容器。 並且,雖然省略圖示,但是也可以在環狀突出部211 外側的側面(曲面的其他一例)設置突出部213。另外, 突出部213或凹部212不限於環狀突出部211的側面,也 可以是環狀突出部211所包圍的區域,或是環狀突出部 21 1與容器20的側部22 (參閱第3A圖)之間形成的區域 -14- 201010914 另外,上述中雖然針對設有環狀突出部211的容器20 已進行說明,但是也可以如第3D圖表示在未設置環狀突 出部211形成大致平坦的底部21設置突出部213或凹部 (未圖示)。並且第3D圖即例示所謂的3片罐,表示捲 繞有側部22爲不同構件所構成底部21的容器20。在此突 .出部213或凹部(未圖式)是形成在底部21,將此底部 -φ 21捲緊在側部22賦予容器20。 此外,突出部213例如容器20的成形加工困難的場 合,不藉著容器20的變形,如第3E圖、第3F圖表示, 也可以安裝樹脂片、金屬片、黏著劑、薄片、密封片等其 他的構件來形成。並且,第3E圖是表示將突出部213形 成在環狀突出部211內側的例,第3F圖是表示將突出部 213形成在環狀突出部211外側的例。 在此例如以樹脂進行突出部2 1 3的形成,例如可使用 〇 熔融並且吐出以環氧系樹脂等爲代表的熱可塑性樹脂的裝 置(例如熱射槍)熔敷在容器2 0進行。並且例如進行容 器20轉動的同時利用感測器等例如進行識別標記23的位 置檢測。並且,利用該位置檢測的結果停止容器20之後 ’使用上述裝置在預定位置附著(熔敷)樹脂。該等的樣 態中’可迅速形成突出部213,並可形成簡易的步驟。再 者’容器20有在販賣時加溫等的場合。因此,使用於突 出部213的樹脂是以選定加溫販賣時的溫度不會融熔的容 器爲佳。 -15- 201010914 另外,如第3G、3H圖表示,在底部21例如塗抹黏 著劑或者密封等黏貼其他的構件’設置從底部21隆起的 的隆起部214。並且,也可藉著該隆起部214以相對較凹 陷處作爲凹部212。 再者,容器20的材質,只要是可以使用在啤酒等的 酒精類、果汁等的飮料類的材質則尤其不加以限定。例如 ,可以使用鋁、鋼等的金屬、PET (聚對苯二甲酸乙二醇 酯)等的樹脂、玻璃等。 又,容器20的形狀或種類也不加以限定。容器20可 舉例如所謂的兩片罐(DI罐)、3片罐、寶特瓶、玻璃瓶 、附螺旋罐(所謂瓶罐)。 在此容器20使用PET樹脂等的樹脂材料的場合’藉 吹塑成形等形成容器20的過程中,以同時形成凹部212 及突出部213爲佳。以上的場合,由於不需要另外設置凹 部212等的形成步驟,因此可減少容器20的製造步驟, 並且此時,例如可以防止突出部213從容器20的剝離。 並且在形成容器20之後,當然也可以安裝突出部213。 並且,容器20爲所謂兩片罐的場合,可以在底部21 成形的步驟,同時形成凹部212與突出部213。附帶說明 時,形成兩片罐的已知步驟中,可以在底部21形成的階 段合倂形成凹部212與突出部213。再者,當然也可以在 印刷步驟結束後,形成凹部2 1 2與突出部2 1 3。 接著,針對在陳列裝置30的載放部31放置容器20 時的陳列裝置30及容器20的動作說明如下。 -16- 201010914 在此第4圖是表示陳列裝置30及容器20動作的圖。 如同圖的實線4 A表示在陳列裝置3 0的後方側放置容 器20時,環狀突出部211(參閱第3A圖)與突起3l3e 接觸。藉著使負載從容器20作用於轉動停止機構313,使 得轉動停止機構313的移動構件313d朝向前方移動。此 時,容器20的圖中右方側限制因第1滾柱部3 i丨順利地 朝著前方的移動,圖中左方側限制從阻力賦予部3 1 2賦予 φ 阻力而朝向前方的移動。 此一結果如虛線4B表示’容器20持續朝著前方移動 並進行順時鐘方向(周圍方向)的轉動。即,抵抗容器20 朝向前方移動之移動力的阻力是因應容器20的位置而有 不同’轉動容器20。詳細而言,以容器20的重心爲界形 成左右不同的阻力,使容器20轉動。 之後,使得轉動停止機構313的突起313e進入到容 器20的第1凹部212a或第2凹部212b(參閱第3A圖) 〇 。附帶說明時,使第1凹部212a或第2凹部212b形成與 突起313e對峙。藉此停止(限制)容器2〇的轉動(參閱 虛線4C)。隨後容器20到達第2滾柱部314的預定位置 爲止時’容器20與突起313e形成非接觸狀態。藉此,容 器20藉著第2滾柱部314更移動至前方爲止(參閱虛線 4D) °此外,第4圖雖以使用設有第1凹部212a及第2 凹部212b的容器爲例已作說明,但是例如使用設有突出 部213的容器20(例如參閱第3E圖)的場合,突起313e 與突出部213抵接使容器20的轉動停止。 -17- 201010914 本形態是如實線4A表示,例如即使第1識別標記 23a朝著後方側的狀態下將容器20放置在載放部31時, 容器20在到達前方的階段,使第1識別標記23a朝向前 方。因此,即使第1識別標記23 a在未朝著前方的狀態下 進行容器20的載放(投入),容器20到達陳列櫃10(參 閱第1B圖)的前方側時第1識別標記23a形成朝向前方 的狀態。亦即將容器20投入陳列裝置30的投入人即使不 進行特別的操作,仍然可以讓第1識別標記23a朝向前方 〇 在此轉動停止機構313前後方向的長度是形成對應阻 力賦予部312長度的長度。亦即,形成與阻力賦予部312 相同的長度。在此也可以使轉動停止機構313前後方向的 長度形成大於阻力賦予部312的長度。再者,阻力賦予部 312的長度一旦大於轉動停止機構313的長度時,藉著轉 動停止機構313停止轉動使得識別標記23朝向前方狀態 的容器20再度進行轉動,識別標記23會有朝著前方以外 的方向之虞。 並且轉動停止機構313,使用表裏具有2處識別標記 23的容器20的場合(例如參閱第3A圖),容器20至少 須具有可半旋轉裕度的長度(距離)。更詳細而言,轉動 停止機構313最少仍必須有容器20外圍長度的一半長度 〇 再者,依序投入複數個容器20的場合,鄰接的容器 2〇會彼此接觸而會有阻礙了容器20轉動之虞。爲此,轉 -18- 201010914 動停止機構313的突起313e是以鄰接的容器20彼此不接 觸的間隔設置。 針對陳列裝置3 0的其他形態更說明如下。 第5圖(第5A-5C圖)是表示陳列裝置30的另一形 態的圖。 上述形態中,賦予容器20的底部21阻力進行容器20 的轉動。本實施形態是藉導件32持續引導容器20朝著前 0 方的移動並藉該導件32使容器20轉動。再者,針對與上 述同樣的功能,使用同樣的符號在此省略其說明。 本形態中,載放部3 1的後方側(上部側)是以傾斜 的狀態配置使寬度方向的一端部(一側邊)側較另一端部 (另外側邊)側位在下方。詳細說明時,載放部31的後 方側是以傾斜的狀態配置使導件3 2側的側邊位在與導件 32側相反側的側邊更下方。其另一方面,載放部31的前 方側(詳細是較導件32更前方側)未賦予寬度方向的傾 φ 斜。再者’第5A圖中,符號11A、11B表示的三角形、 矩形是表示載放部31的後方側及前方側的傾斜狀態。並 且,以下說明的圖中,同樣該三角形或矩形是表示各構件 •各部的傾斜。 載放部31的後方側載放容器20的場合(參閱第5B 圖的實線11C) ’賦予載放部31傾斜,因此使容器20的 側部22接觸導件32。之後,容器20藉導件32持續引導 朝著前方移動’並藉導件32賦予阻力朝著逆時鐘方向轉 動(參閱虛線11D)。另外’本形態中如上述藉著導件32 -19- 201010914 進行容器20的轉動。因此,本形態在載放部31未設置第 2圖等表示的阻力賦予部312。在此載放部31也可以設置 複數個可轉動的滾柱狀構件,也可以設置表面平滑的板狀 構件。 並且,容器20是藉轉動停止機構313停止轉動,使 識別標記23形成朝向前方的狀態(參閱虛線11E)。之 後,容器20使得載放部31更移動到前方爲止停止在預定 位置(參閱虛線1 1F )。並且,較導件32下方側的載放 部31並未賦予如上述的傾斜。因此,根據導件32的引導 結束後的容器20是如箭頭11G表示,朝前方呈大致直線 形移動。 再者,本形態和第2圖表示的形態(使作用於底部21 的摩擦力左右不同的形態)比較,載放部31的前後方向 可形成小的傾斜角度。附帶說明時,可以小於第2圖表示 形態的傾斜角度進行容器20的轉動。因此,本形態和第2 圖表示的形態比較,可以形成小的陳列裝置3 0的高度。 換言之,可形成陳列裝置3 0之高度方向的更小佔有空間 〇 此外,尤其不論其導件32的形狀等,例如可以EPDM 等的橡膠構件形成。又,導件32例如可以在金屬等的基 材表面使用黏貼橡膠構件等的導件。另外,導件32可以 使用在各種基材的表面賦予凹凸等的導件。再者,第5A 圖及第5B圖中,在導件32的相對側雖然未設置有導件, 但是可適當設置導件。並且也可以在導件32的前方側適 -20- 201010914 當設置導件。 在此,導件32的前方更設置導件的場合,該導件是 以表面平滑摩擦阻力極小的導件爲佳。或者以小的導件寬 度(導件高度方向的寬度)爲佳。導件32的前方更存在 著導件,從該導件有摩擦力作用於容器20時,會在不具 轉動停止機構313之處導致容器20的再轉動,有使得識 別標記23朝著前方以外方向的疑慮。 φ 並且,在導件32的前方更設置導件的場合,爲了防 止對於該導件之容器20的接觸,位在轉動停止機構313 更前方側的載放部31如上述是以不賦予寬度方向傾斜的 狀態爲佳。另外,如第5C圖表示,載放部31以構成使載 放部31寬度方向的中央部份(容器20的移動路徑的中央 部份)位在比寬度方向的端部更下方的位置爲佳。另外, 在載放部31的寬度方向設置2列滾柱列的場合,將各滾 柱傾斜配置使移動路徑的中央部份附近形成較低爲佳。 Q 在此第6圖(第6A圖-第6C圖)是表示轉動停止機 構313的其他形態的圖。並且,第7圖是表示轉動停止機 構313及容器20的動作圖。 如第6A圖表示,本形態是將轉動停止機構313配置 在容器20的移動路徑的側方而不是配置在移動路徑的正 下方。此外,第6A圖是表示陳列裝置30的上視圖,第 6B圖是表示轉動停止機構313的側視圖,第6C圖是表示 從前方側顯示陳列裝置30時的狀態。 本圖表示的轉動停止機構313是形成不使突起313e -21 - 201010914 向上方突出,突起313e是形成突出於轉動停止機構313 寬度方向的構成。換言之,突起313e是形成突出於和容 器20的移動方向正交的方向(交叉方向)的構成。附帶 說明是形成從容器20的移動路徑的側方突出於移動路徑 上的構成。 並且’轉動停止機構313具備複數個突出於容器20 移動路徑上的同時進入到容器20之間,防止各容器20彼 此接觸的棒形構件31 3j。此外,使用在本陳列裝置30的 容器20的識別標記23及突出部213是如第7圖的符號 17A表示’在容器20的周圍方向使相位偏移90。配置。 使用第7圖針對轉動停止機構313及容器20的動作 說明如下。 放置在陳列裝置30後方側的容器20 (參閱符號17A )被導件32持續%引導朝向前方移動。另外此時,容器 20接受來自導件32的轉動力,一邊朝著逆時鐘方向轉動 —邊向前方移動(參閱符號17B)。並且,容器20 —邊 轉動更朝著前方移動時,突出部213與突起313e是形成 抵接的狀態,停止容器20的轉動(參閱符號17C)。再 者此時,容器20是形成使識別標記23朝向前方的狀態。 並且,容器20 —旦通過轉動停止機構313時,更朝向前 方移動,使識別標記23朝向前方的狀態停止在預定位置 (參閱符號17D) ‘。 在此容器20 —旦彼此接觸時,容器20的轉動爲其他 的容器20所阻礙’識別標記23會有不朝向前方側之虞。 -22- 201010914 本實施形態由於設有棒形構件31 3j,因此可避免容器20 彼此的接觸。再者,移動到前方爲止的突起313e及棒形 構件313j是通過形成在載放部31的缺口 315,向著下方 側移動,隨後朝向後方側移動。 針對陳列裝置3 0的其他之一形態說明如下。 第8圖(第8A圖-第8C圖)是表示陳列裝置30及容 器20的其他之一形態的圖。 φ 再者,第8A圖是表示陳列裝置30的上視圖。又第 8B圖是表示和容器20 —起從前方側顯示陳列裝置30場 合的狀態。此外,第8C圖是表示容器20的動作。 如第8B圖表示,本形態的容器20在形成筒狀的側部 22的一部分具有沿著容器20的周圍方向所形成的槽溝形 凹部221。在此’凹部221與識別標記23的相位是偏移 9 0°。此外,如上述一部份大的凹部221的形成對金屬罐而 言多是困難。其另一方面,樹脂性的容器20由於加工自 φ 由大而較金屬罐容易形成。 並且’陳列裝置30的導件32是如第8A、8B圖表示 形成棒形。 在此’參閱第8C圖針對容器20的動作加以說明。放 置在陳列裝置30後方側的容器20是和上述同樣,一邊爲 導件32所引導而朝著前方移動。並且此時,從導件32賦 予容器20轉動力。並使得容器20轉動時,導件32進入 容器20的凹部221 (參閱第8B圖)(凹部221和導件32 對峙)’使容器20的轉動停止(參閱符號2 2A)。並且 -23- 201010914 容器20 —邊爲導件32所引導而朝著前方移動(滑動)。 藉此,到達陳列裝置30的取出部的容器20形成識別標記 23朝向前方的狀態。 此外,針對陳列裝置3 0等的其他之一形態加以說明 〇 第9圖(第9A圖及第9B圖)是表示陳列裝置30及 容器2〇的其他之一形態的圖。 本形態中同樣可吹塑成形具有大的加工自由度,因此 容器20是以樹脂製容器的採用較爲容易。在此第9圖是 例示寶特瓶。 本容器20是如第9A圖表示,在以容器20的軸心爲 界的一方測的側部22及另一方側的側部22兩者,具有沿 著容器20周圍方向的凹部221。附帶說明時,容器20在 相位偏移180°的位置上具有凹部221。並且本形態的容器 20的識別標記23與凹部221是相位偏移90°。 另一方面,陳列裝置30在容器20的移動路徑兩側具 有2個導件3 2。但是,該等導件3 2並不是沿著前後方向 的直線形,而是形成彎曲隨著朝向前方的容器20的移動 路徑越窄。再者,本形態的載放部31未賦予寬度方向的 傾斜僅前後方向賦予傾斜。 在此以本形態將容器20放置在載放部31時,容器20 使載放部31朝著前方移動,如第9B圖表示接觸於兩導件 32中的一方。並且容器20被導件32引導朝著前方移動並 由導件32賦予轉動力。並且,導件32進入容器20的凹 -24- 201010914 部221停止容器20的轉動。之後,容器20在識別標記23 朝向前方的狀態下更朝著前方移動。 再者’雖是識別標記23對容器20的賦予方法,但是 容器20爲罐子的場合,例如可藉著塗裝、印刷賦予。並 且’容器20爲寶特瓶等的場合,將具有識別標記23的薄 膜捲繞在容器20之後,可藉以將此薄膜熱收縮後賦予。 亦即’識別標記23不僅是塗飾等也可藉由另外塗飾薄膜 ❹ 等賦予° 在此針對熱收縮的薄膜組成,熱收縮薄膜可以通常使 用的組成。例如可以是日本特開2006-341568號公報所記 載的組成。並且,熱收縮的薄膜的製造方法也不特別加以 限制’可採用既有的製造方法》例如可採用日本特開 2006-341568號公報記載的製造方法。又,使薄膜熱收縮 的條件也可以既有的條件,例如藉90°C的蒸氣處理進行熱 收縮。 φ 針對陳列裝置3 0的其他形態更說明如下。 第10圖(第10A圖及第10B圖)爲說明陳列裝置30 的其他之一形態的圖。在此,第10A圖爲陳列裝置30前 方側的上視圖。並且,第10B圖爲陳列裝置3 0前方側的 側視圖。 如第10A圖表示,在載放部31設置載放容器20的底 板3 1 1 0,配置使前方側一方位於後方側的更下方,即以朝 向前方向下傾斜的狀態配置。再者,底板3110可以設置 複數個可轉動的圓筒形滾柱。並且底板3110也可以設置 -25- 201010914 複數個可轉動的球形滾柱。底板3110例如也可以使用丙 烯酸板等表面平滑的板狀構件。 另外,設有配置在底板3110的前方,載放著從底板 3110移動而來的容器20的轉動台3120。該轉動台3120 是形成圓盤形,並形成可在周圍方向的轉動。以上的本實 施形態是形成載放部31的一部分可轉動的構成。 並且,本實施形態的陳列裝置30,如第10B圖表示 設有藉著轉動台31 20轉動容器20的轉動機構35。又,設 有使得藉轉動機構35轉動的容器20和後續(鄰接)於該 容器20的其他容器20分離的分離機構36。 轉動機構35,具備:配置在轉動台3120下方的圓盤 形基板351和安裝在該基板351並配置在轉動台3120與 基板351之間,使轉動台3120向上方作用的螺旋彈簧3 54 。再者,基板351上設有從基板351向上方延伸的圓柱形 的第1突起352、第2突起353。 轉動台3120具備從一方的側面側貫穿至另一方側面 側所設置的第1貫穿孔312a、第2貫穿孔312b。在此第1 貫穿孔3 1 2a及第2貫穿孔3 1 2b是如第1 0A圖表示,沿著 轉動台3120周圍方向形成圓弧形。並且,本實施形態中 ’在第1貫穿孔312a內配置有上述第1突起352,在第2 貫穿孔312b內配置有上述第2突起353。 另一方面’基板351在其中央部具備從一方的側面側 貫穿至另一方側面側所設置的貫穿孔351a。又,基板351 在貫穿孔351a的內周圍面上,具有形成螺旋狀的螺紋部 -26- 201010914 351b ° 又轉動台3120設有從轉動台3120的中央部向下方延 伸的軸312c。並且,在該軸312c的外圍面上,設有形成 螺旋狀的螺紋部312d。 在此,本實施形態是在基板351的貫穿孔351a,貫穿 配設有轉動台3120的軸312c。並且,基板351和轉動台 3120是在基板351的螺紋部351b和軸312c的螺紋部 φ 312d咬合的狀態下配置。 另一方面,分離機構36具備可以貫穿配置的銷361 爲中心轉動(擺動)的棒形轉動構件362。該轉動構件 362配置使一方的端部側位於設置在轉動台3120下面的突 起312e的下方位置。並且,分離機構36具備設置於可在 上下方向進退,分離機構36在上方移動時突出(從底板 3110的上面突出)於容器20的移動路徑上,並且分離機 構36向下方移動時從該移動路徑退避的進退構件3 63。並 φ 且,本實施形態形成將此進退構件3 63設置在上述轉動構 件362上方的同時,使轉動構件362另一方的端部與進退 構件363的下端部接觸的構成。 接著,針對本實施形態的陳列裝置30及容器20的動 作使用第1 1圖說明如下。第1 1圖是說明陳列裝置3 0及 容器20的動作用的圖。 如同圖表示,在轉動台3120載放容器20時,利用容 器20的重量使得轉動台3120下降。但是本實施形態是如 上述,在基板351設置螺紋部351b(參閱第10圖),並 -27- 201010914 且在軸312c也設有螺紋部312d。因此,轉動台3120例如 會一邊順時鐘方向轉動一邊下降。其結果,載放在轉動台 3120的容器20也會一邊在周圍方向且順時鐘方向轉動一 邊下降。 並且,轉動台3120下降時,第1突起352及第2突 起353從轉動台3120的上面突出。即,第1突起352及 第2突起353突出於所載放之容器20的最下端部和轉動 台3120的接觸位置的容器20側。並且,例如突出後的第 1突起352進入到容器20的例如第1凹部212a(參閱第 3A圖)’第2突起353進入到容器20的第2凹部212b。 附帶說明時’第1突起352形成與第1凹部212a對峙( 抵接),第2突起353形成與第2凹部212b對峙(抵接 )的狀態。藉此停止(限制)容器20的轉動,並且如第 11圖表示,例如使第2識別標記23b形成朝著前方。 再者’轉動台3120上的容器20和後續的容器20接 觸時’(轉動台3120上的)容器20的轉動會有被後續的 容器20所阻礙之虞。爲此,本實施形態中設置分離機構 36 ° 藉容器20的載放使得轉動台3120下降時,轉動台 3120的突起312e也會下降,並且該突起312e推壓轉動構 件362 —方的端部。藉以使轉動構件362另一方的端部上 升’並且該另一方的端部推壓進退構件363,使進退構件 363突出於容器20的移動路徑上。附帶說明時進退構件 363從底板3110的上面(表面)突出。藉此,後續的容器 201010914 20的環狀突出部211的外側面爲進退構件3 63所推壓,使 後續的容器20朝向陳列裝置30的後方側移動。其結果, 如第11圖表示使得轉動台3120上的容器20和後續的容 器20分離。 再者,卸除轉動台3120上的容器20時,使轉動台 3120上升,並且與此上升連動使得進退構件363從容器 20的移動路徑上退避。並且底板3110上的容器20 (新的 容器20)移動到轉動台3120。201010914 VI. Description of the Invention [Technical Field of the Invention] The present invention relates to a container for beverages. [Prior Art] For example, in a convenience supermarket, a container for filling a beverage can or a bottle, such as a display device housed in a showcase, is placed in the longitudinal direction to sell φ. Further, the above display device is disposed such that the container is tilted toward the front of the showcase by the weight of the container itself. Also, when one container on the front side (frontmost row) is drawn, the subsequent container moves toward its front side with its own weight. Where the display device is placed with a container, there is provided, for example, a plastic plate for sliding the container. Further, in recent years, many display devices equipped with rotatable rollers (for example, refer to Patent Document 1) have been put on the market. Further, the replenishment of the container is generally performed from the rear side of the display device, but a container which can be inserted from the front side and moved toward the depth side is also proposed, and is again moved to the display device displayed on the front side (for example, See Patent Document 2). That is, a display device in which a container fed from the front side is returned in a U-shaped manner is proposed. Further, the container is provided with an inner peripheral wall formed on the annular projection of the can bottom, and a can is formed such that the inner concave portion and the vertical rib are alternately formed in the circumferential direction (for example, refer to Patent Document 3). However, 'there is a mark for identifying other products such as a product name or a brand name on the outside of the container. However, if the mark is not directed toward the purchaser, the purchaser is not only difficult to identify the product, but also when the product is displayed - 5- 201010914 Poor aesthetics. Therefore, the container to be displayed is, for example, on the front side or the like, so that the mark is preferably oriented in a predetermined direction. The prior art described in the publication proposes a rod-shaped guide rib which is disposed on the upper surface of the slanting shelf of the loading container in the direction of the slanting of the shelf, and the connection at the bottom of the container is opposite to the surface directly under the mark and marked with the mark. A method of displaying a container by using the guide ridge and the concave fitting portion (for example, see Patent Document 4). In the above-described manner, the concave fitting portion is fitted to the guiding ridge in a posture in which the mark faces the front side, and a plurality of containers are arranged in the front and rear. As a result, the mark is a display of the container in a state of being forward. [Patent Document 1] Japanese Laid-Open Patent Publication No. Hei. No. Hei. No. Hei. No. Hei. No. Hei. No. Hei. No. Hei. No. Hei. [Invention of the Invention] In the above-described Patent Document 4, the concave fitting portion is fitted to the guide ridge to display the container, and the mark can be surely directed forward. However, in the above invention, the "container of the container" must fit the concave fitting portion to the concave fitting portion every time the container is placed on the display device, and the display operation of the container is complicated. Further, in the case where the mark is formed only in one place of the container, there is a concern that the display of the display is in a state in which the mark is directed to the rear side. In addition, the convenience -6- 201010914 Super-commerce and other shops selling a large number of beverages, etc., must be carried out on a very large scale in the direction of integration. The main purpose of the # invention is to provide a display even if the container is displayed longitudinally @歹! When the Jg® mark is placed in any direction, the container can still be oriented toward the beverage container in a predetermined direction. [Means for Solving the Problem] φ The container for beverage according to the present invention is characterized in that it includes a bottom portion and a container body portion provided on a side portion on which a mark for product identification is marked on the bottom side; And a protruding portion or a recess used when the rotating container main body portion is stopped in a state in which the mark is directed in a predetermined direction. Here, a plurality of marks are provided, and the protrusions or the recesses respectively have a plurality of features corresponding to the plurality of marks. Also, the protrusion or the recess may have a feature formed on the side opposite to one side of the setting mark. Further, the bottom portion has an annular projecting portion that protrudes annularly toward the outside of the container body portion, and the projecting portion φ or the recess portion is formed on the side surface of the annular projecting portion. And the protrusion or recess is a feature formed at a different point than the mark. Further, the protruding portion or the concave portion is a feature formed at the bottom of the container body portion. From another viewpoint, the beverage container according to the present invention is characterized by comprising: a bottom portion; a side portion provided with a mark for identifying the product on the bottom side; and a protrusion formed at the bottom portion or the side portion or The recess, protrusion or recess has a predetermined positional relationship with the indicia. Here, the bottom portion has an annular projecting portion that protrudes annularly from the bottom portion, and the protruding portion or the concave portion is formed at the bottom portion, and the protruding portion or the concave portion formed at the bottom portion is a feature in which the 201010914 is formed inside the annular projecting portion. Further, a feature of a concave portion is formed in the side portion. Further, a feature is formed along the circumferential direction of the side portion forming the cylindrical shape and formed on a part of the side portion. Further, the projection or the recess is a feature formed by deformation of the bottom or the side. In addition, the container for beverages according to the present invention is characterized in that it has a curved surface having a circular cross section, a marking portion for marking a product on a specific surface, and a continuous curved surface. The deformed portion formed by the deformation of the curved surface forms one of the deformed portion and the marked portion, and then forms the other one based on the position at which one of the deformed portions is formed. [Effect of the Invention] It is possible to provide a container for a beverage which can be positioned in a predetermined direction even when the marking is directed in an arbitrary direction when the display device is vertically displayed. [Embodiment] Hereinafter, the best mode for carrying out the invention will be described in detail with reference to the accompanying drawings. Fig. 1 (Fig. 1A and Fig. 1B) is a schematic view showing a schematic configuration of a display device according to an embodiment of the present invention. As shown in FIG. 1A, the display device 30 of the present embodiment includes a placement unit 31 that carries a container 20 that is filled with a material inside, and a guide that forms a movement path (transport path) of the container 2 and guides the movement of the container 20. Item 32. Further, a restricting plate 34 that is disposed along one side of the placing portion 31 and that stops the movement of the container 20 is formed. In this case, the guide member 32 is inserted into the opening portion 33 formed in the placing portion 31 by, for example, inserting both end portions -8 - 201010914 thereto, thereby being fixed to the placing portion 31. Further, the container 20 is a cylindrical can, but a so-called bottle or the like having a resin container or a lid called a PET bottle or the like can be used. The display device 30 is shown in Fig. 1B and is housed inside a showcase 10 such as a convenience supermarket or a supermarket. The showcase 10 is a cabinet main body portion 10A in which a straight cube is formed, and a door 10B which is rotatably provided in the cabinet main body portion 10A constitutes a main portion. _ The display device 30 is placed on a shelf (not shown) provided in the showcase 1〇. At this time, the display device 30 is provided at a position where the side of the restricting plate 34 is disposed on the side of the door 10B. Further, one side of the restricting plate 34 is disposed to be positioned below the side opposite to the side on which the restricting plate 34 is provided. In other words, the display device 30 is disposed in a state of being inclined downward from the rear side of the showcase 10 toward the front side (the take-out portion side) of the take-out container 2A. In the showcase 10 of the present embodiment, a door (not shown) is also provided on the rear side, and the rear side can be opened. Further, the container 20 is put into the display device 30 from the rear side. That is, the rear side of the showcase 10 and the rear side of the display device 30 are configured to be provided with an input portion of the container 20. Then, the container 20 after the input moves on the loading portion 31 toward the door 10B side. That is, it moves toward the purchaser side of the purchase container 20. Further, in the present specification, the side of the door 10B is referred to as the front side (front side), and the side opposite to the door 1 〇B is referred to as the rear side (rear side). Further, there is a case where the width direction of the showcase 10 (the direction orthogonal to the direction in which the container 20 moves) is the horizontal direction and the wide direction. The display device 30 will be described in more detail below. -9- 201010914 Fig. 2 (Figs. 2A and 2B) is a view for explaining the placement unit 31 of the display device 30. Here, FIG. 2A is a top view of the placement unit 31, and FIG. 2B is a side view of the placement unit 31. As shown in FIG. 2A, the placement unit 31 includes a first roller portion 311 that moves the container 20 forward in a movement path formed by a guide 32 (not shown in the drawing), and contacts. The bottom portion (end portion) of the container 20 is provided with a resistance imparting portion 312 for the sliding resistance (frictional resistance) of the container 20. Further, the placement unit 31 includes a rotation stop mechanism 313 for rotating the container 20 disposed between the first roller portion 311 and the resistance providing portion 312 (described later in detail). Here, the first roller portion 311, the resistance providing portion 312, and the rotation stopping mechanism 313 are arranged side by side in the lateral direction. Further, the placement unit 31 includes a second roller portion 314 that moves the container 20 toward the front side in front of the first roller portion 311, the resistance providing portion 312, and the rotation stop mechanism 313. The first roller portion 311 has a plurality of roller-shaped members 311a rotatably provided along the moving direction of the container 20. Further, the roller-shaped members 3 1 1 a are arranged along the moving direction (front-rear direction) of the container 20. The resistance applying portion 312 can be configured by, for example, a rubber member. Further, for example, EPDM (ethylene propylene rubber) can be used as the rubber member. The second roller portion 314 has a plurality of roller-shaped members 314a that are rotatable in the moving direction of the container 20. Here, the roller-shaped members 314a are arranged along the moving direction of the container 20. Further, the roller-shaped members 3 1 4a are arranged in two rows in the axial direction. Further, each of the roller-shaped members 314a is formed to have a wider width than the roller-shaped member 311a of the first roller portion 311. 201010914 The rotation stopping mechanism 313 is a belt member 313ae which is formed in a ring-shaped reciprocable manner as shown in FIG. 2B. Further, the rotation stopping mechanism 313 includes a first tension roller 313b which is provided to be rotatable, and the belt member 313a is stretched from the inside. The second sheet is provided with a roller 313c. Further, a plurality of moving members 313d which are fixed to the surface of the belt member 313a and arranged in the moving direction of the belt member 313a, and which are circulated and moved in accordance with the movement of the belt member 313a are provided. Further, a plurality of projections 313e which are provided at intervals of a predetermined φ in the moving direction of the belt member 313a and protrude from the surface of the moving member 313d are provided. Here, the projection 313e is provided so as to protrude from the contact position of the lowermost end portion of the container 20 placed on the placement portion 31 and the moving member 313d (the placement portion 31) toward the container 20 side. Further, the rotation stopping mechanism 313 obliquely arranges the flat surface 313f formed by the moving member 313d so as to have an angle α with respect to the surface 312f of the resistance providing portion 312 or the like (see FIG. 2B). When the description is given, the rotation stopping mechanism 313 is disposed. The inclination angle is made larger than the inclination angle φ of the resistance applying portion 312 or the like. For this reason, in the present embodiment, the projection height from the surface 312f of the projection 313e is reduced as the projection 313e moves forward. In the present embodiment, when the projection 313e and the container 20 are in a non-contact state (described later in detail), the non-contact state can be smoothly formed. Furthermore, the above angle α is not essential. This is because even if the angle "the protrusion 313e does not exist, it will move toward the lower side of the loading portion 31 to form a non-contact state with the container 20. Next, the container 20 will be described. Fig. 3 (Fig. 3-3-3) is a view showing the field -11 - 201010914 of the container 20 from the bottom side. The container 20 of the present embodiment is formed in a cylindrical shape, and as shown in Fig. 3A, the bottom portion 21 is provided with an annular projecting portion 211 that projects annularly outward. Further, the side surface (an example of a curved surface) inside the annular protruding portion 211 includes a first concave portion 212a and a second concave portion 212b (an example of a deformed portion and a concave portion) which are continuously provided on the inner side surface by deformation of the container 20. (In the present specification, the concave portion formed in the container 20 is referred to simply as the concave portion 212). Here, the first concave portion 212a and the second concave portion 212b are disposed to face each other. Incidentally, the first concave portion 212a and the second concave portion 212b are disposed with a phase shift of 180° in the circumferential direction of the container 20. In addition, the container 20 has a first identification mark 2 3 a and a second identification mark 23b (marking part) for identifying other products, such as a product name or a brand name, at a specific portion of the outer side portion 22 (and, in the present specification, The following is a case where only "identification mark 23" is referred to). Here, the first identification mark 23a and the second identification mark 23b may be in the same form or different forms. In addition, the first identification mark 23a and the second identification mark 23b are arranged in a state in which the phase is shifted by 180° in the circumferential direction of the container 20. In addition, when the relationship between the concave portion 212 and the identification mark 23 is described, the direction around the container 20 is described. The first identification mark 23a and the first concave portion 212a are arranged in a state in which the phase is shifted by 180 degrees. Further, the second identification mark 23b and the second concave portion 212b are also arranged in a state in which the phase is shifted by 180°. Incidentally, the first identification mark 23a and the first concave portion 212a are formed in a predetermined positional relationship, and the second identification mark 23b and the second concave portion 212b are also formed in a predetermined positional relationship. More specifically, the first identification mark 23a and the first concave portion 212a are disposed at positions different from each other, and the second identification mark 23b and the second concave portion 212b are also disposed at positions different from each other. In addition, the first recessed portion 212a is formed on the side opposite to the side on which the first identification mark 23a is provided, and the second recessed portion 212b is formed on the side opposite to the side on which the second identification mark 23b is provided. In the present embodiment, the plurality of identification marks 23 are provided as the first identification mark 23a and the second identification mark 23b, and the respective identification marks 23 corresponding to each other are provided with the concave portion 212 (the first concave portion 212a and the second concave portion 212b). ). Further, after the identification mark 23 and the concave portion 212 of the present embodiment form one of the ones, the other side is formed on the basis of the position at which the one side is formed. Here, in the third embodiment, the container 20 formed as a can is exemplified, but the form in which the concave portion 212 is formed is more suitable for a resin container such as a PET bottle. The above-mentioned resin container is formed by previously forming a convex portion corresponding to the concave portion φ 212 on the mold, and the concave portion 212 is formed, for example, by a blow molding process. Subsequently, the film (label) having the identification mark 23 is wound in the step of the container 20 for positioning, and the film having the identification mark 23 is wound around the container 20 with reference to the position at which the concave portion 212 is formed. On the other hand, when the container 20 is an aluminum can or the like, the formation of the concave portion 212 is performed as follows. For example, in the case of two aluminum cans, it is processed in the order of cup forming - DI (Draw & Iron) forming - cleaning - outer printing - drying - inner finishing - drying - mouth reduction processing - inspection, etc. The recess 212 can be formed in such a process. For example, the annular projecting portion 211 and the recessed portion -13 - 201010914 2 1 2 can be formed, for example, by a step of forming a DI. Further, the identification mark 23 is formed by multi-color offset printing based on the position at which the concave portion 212 is formed, in addition to the step of printing on the outer surface. Further, the outer printing using multi-color offset printing or the like is usually carried out at a speed of nearly 2,000 cans/quantity. Therefore, it is also possible to assume a state in which positioning by the concave portion 212 is difficult. For this purpose, for example, the position of the identification mark 23 is detected using a sensor or the like while the container 20 is rotated in the previous step of the neck-reducing process. Further, after the container 20 is stopped as a result of the position detection, the concave portion 212 can be formed in the container 20 using a mold or the like. Further, the formation of the concave portion 212 by the mold can be carried out, for example, using a technique disclosed in Japanese Laid-Open Patent Publication No. 2000-211. Further, for example, a mold can be disposed inside and outside the container 20 by applying pressure from the inside and the outside of the container 20 by a molding machine. Here, the concave portion 212 of the container 20 is as shown in Fig. 3B, and may be provided on the side surface outside the annular protruding portion 2 1 1 . Further, in addition to the concave portion 212, as shown in Fig. 3C, the protruding portion 213 (another example of the deformed portion) formed by the deformation of the container 20 may be provided on the inner side surface of the annular protruding portion 211. Further, the above embodiment is more suitable for a container having a large degree of freedom in forming processing such as a PET bottle. Further, although not shown in the drawings, the protruding portion 213 may be provided on the side surface (another example of the curved surface) outside the annular protruding portion 211. In addition, the protruding portion 213 or the concave portion 212 is not limited to the side surface of the annular protruding portion 211, and may be a region surrounded by the annular protruding portion 211 or the annular protruding portion 21 1 and the side portion 22 of the container 20 (refer to the 3A). The area formed between Fig. 14 - 201010914. Although the container 20 provided with the annular protruding portion 211 has been described above, the annular protruding portion 211 may be formed to be substantially flat as shown in Fig. 3D. The bottom portion 21 is provided with a protruding portion 213 or a recessed portion (not shown). Further, the 3D drawing is a so-called three-piece can, and the container 20 in which the side portion 22 is a bottom portion 21 composed of different members is wound. In this sudden. The outlet portion 213 or the recessed portion (not shown) is formed at the bottom portion 21, and the bottom portion - φ 21 is wound around the side portion 22 to the container 20. Further, when the protruding portion 213 is difficult to form, for example, the container 20, the resin sheet, the metal sheet, the adhesive, the sheet, the sealing sheet, or the like may be attached without being deformed by the container 20 as shown in Figs. 3E and 3F. Other components are formed. Further, Fig. 3E shows an example in which the protruding portion 213 is formed inside the annular protruding portion 211, and Fig. 3F shows an example in which the protruding portion 213 is formed outside the annular protruding portion 211. Here, for example, the formation of the projections 2 1 3 by the resin can be carried out by welding the container 20 with a device (for example, a heat gun) which melts and discharges a thermoplastic resin typified by an epoxy resin or the like. Further, for example, the position of the identification mark 23 is detected by a sensor or the like while the container 20 is rotated. Further, by stopping the container 20 by the result of the position detection, the resin is attached (flated) at a predetermined position using the above-described apparatus. In these forms, the protrusions 213 can be quickly formed and a simple step can be formed. Further, the container 20 may be heated or the like at the time of sale. Therefore, the resin used for the projections 213 is preferably a container which is not melted at the temperature selected for heating. -15- 201010914 Further, as shown in Figs. 3G and 3H, the bulging portion 214 which is raised from the bottom portion 21 is provided at the bottom portion 21 by, for example, applying an adhesive or sealing or the like to another member. Further, the ridge portion 214 may be used as the concave portion 212 with a relatively concave portion. In addition, the material of the container 20 is not particularly limited as long as it can be used as a material such as alcohol or juice such as beer. For example, a metal such as aluminum or steel, a resin such as PET (polyethylene terephthalate), or glass can be used. Further, the shape or type of the container 20 is not limited. The container 20 can be exemplified by a so-called two-piece can (DI can), a 3-piece can, a PET bottle, a glass bottle, and a spiral can (so-called can). In the case where the resin material such as PET resin is used as the container 20, it is preferable to form the concave portion 212 and the protruding portion 213 at the same time in the process of forming the container 20 by blow molding or the like. In the above case, since the step of forming the concave portion 212 or the like is not required, the manufacturing process of the container 20 can be reduced, and at this time, for example, peeling of the protruding portion 213 from the container 20 can be prevented. And, after the container 20 is formed, of course, the protruding portion 213 can also be attached. Further, when the container 20 is a so-called two-piece can, the concave portion 212 and the protruding portion 213 can be simultaneously formed in the step of molding the bottom portion 21. Incidentally, in the known step of forming the two-piece can, the concave portion 212 and the protruding portion 213 may be formed at the stage formed by the bottom portion 21. Further, of course, it is also possible to form the concave portion 2 1 2 and the protruding portion 2 1 3 after the end of the printing step. Next, the operation of the display device 30 and the container 20 when the container 20 is placed on the placement unit 31 of the display device 30 will be described below. -16- 201010914 Here, Fig. 4 is a view showing the operation of the display device 30 and the container 20. As indicated by the solid line 4 A of the figure, when the container 20 is placed on the rear side of the display device 30, the annular projecting portion 211 (see Fig. 3A) is in contact with the projection 3l3e. By causing the load to act on the rotation stopping mechanism 313 from the container 20, the moving member 313d of the rotation stopping mechanism 313 is moved forward. At this time, the right side of the container 20 is restricted from moving forward by the first roller portion 3i, and the left side of the figure restricts the movement of the resistance from the resistance providing portion 3 1 2 to the front. . This result, as indicated by the broken line 4B, indicates that the container 20 continues to move forward and rotates in the clockwise direction (surrounding direction). That is, the resistance to the moving force against the movement of the container 20 toward the front is different depending on the position of the container 20, and the container 20 is rotated. Specifically, the left and right different resistances are formed by the center of gravity of the container 20 to rotate the container 20. Thereafter, the projection 313e of the rotation stopping mechanism 313 is caused to enter the first concave portion 212a or the second concave portion 212b of the container 20 (see Fig. 3A). Incidentally, the first concave portion 212a or the second concave portion 212b is formed to face the projection 313e. Thereby, the rotation of the container 2 is stopped (restricted) (see dotted line 4C). When the container 20 reaches the predetermined position of the second roller portion 314, the container 20 and the projection 313e are in a non-contact state. Thereby, the container 20 is further moved to the front by the second roller portion 314 (see the broken line 4D). Further, in the fourth embodiment, the container having the first recessed portion 212a and the second recessed portion 212b is used as an example. However, for example, when the container 20 provided with the protruding portion 213 (see, for example, FIG. 3E) is used, the protrusion 313e abuts against the protruding portion 213 to stop the rotation of the container 20. -17-201010914 This embodiment shows the first identification mark at the stage of the container 20 reaching the front side when the container 20 is placed on the placement unit 31 even when the first identification mark 23a is facing the rear side. 23a is facing forward. Therefore, even if the first identification mark 23a is placed (input) in the container 20 without being forward, the first identification mark 23a is oriented when the container 20 reaches the front side of the showcase 10 (see FIG. 1B). The state ahead. In other words, the input member of the display unit 30 can be placed in the display device 30, and the first identification mark 23a can be made to face forward. The length of the rotation stop mechanism 313 in the front-rear direction is the length of the corresponding resistance providing portion 312. That is, the same length as the resistance applying portion 312 is formed. Here, the length of the rotation stopping mechanism 313 in the front-rear direction can be made larger than the length of the resistance applying portion 312. When the length of the resistance providing portion 312 is greater than the length of the rotation stopping mechanism 313, the rotation stop mechanism 313 stops rotating so that the container 20 of the identification mark 23 toward the front state is rotated again, and the identification mark 23 is directed outward. The direction of the direction. Further, when the stopper mechanism 313 is rotated and the container 20 having the two identification marks 23 in the table is used (for example, see Fig. 3A), the container 20 must have at least a length (distance) of a semi-rotation margin. In more detail, the rotation stop mechanism 313 must still have at least half the length of the outer circumference of the container 20. Further, when a plurality of containers 20 are sequentially loaded, the adjacent containers 2 will contact each other and hinder the rotation of the container 20. After that. To this end, the projection 313e of the STOP mechanism 313 is disposed at an interval where the adjacent containers 20 are not in contact with each other. Other aspects of the display device 30 will be described below. Fig. 5 (Fig. 5A-5C) is a view showing another state of the display device 30. In the above embodiment, the bottom portion 21 of the container 20 is provided with resistance to the rotation of the container 20. In the present embodiment, the guide member 32 continuously guides the movement of the container 20 toward the front side and the container 20 is rotated by the guide member 32. Incidentally, the same functions as those described above will be omitted from the description of the same reference numerals. In the present embodiment, the rear side (upper side) of the placement unit 31 is disposed in an inclined state, and one end portion (one side) side in the width direction is laterally lower than the other end portion (the other side) side. In the detailed description, the rear side of the placement portion 31 is disposed in an inclined state such that the side of the guide 32 side is located further below the side opposite to the guide 32 side. On the other hand, the front side of the placement unit 31 (more specifically, the front side of the guide 32) is not inclined in the width direction. In the fifth diagram, the triangles and rectangles indicated by the symbols 11A and 11B indicate the inclined state of the rear side and the front side of the placement unit 31. Further, in the drawings described below, the triangle or the rectangle is also the inclination of each member. When the container 20 is placed on the rear side of the placement unit 31 (see the solid line 11C in Fig. 5B), the placement portion 31 is inclined, so that the side portion 22 of the container 20 contacts the guide 32. Thereafter, the container 20 is continuously guided to move forward by the guide 32 and the resistance is turned by the guide 32 toward the counterclockwise direction (see the broken line 11D). Further, in the present embodiment, the rotation of the container 20 is performed by the guides 32 -19 to 201010914 as described above. Therefore, in the present embodiment, the resistance applying portion 312 shown in Fig. 2 or the like is not provided in the placement unit 31. A plurality of rotatable roller-shaped members may be provided in the placing portion 31, or a plate-like member having a smooth surface may be provided. Further, the container 20 is stopped by the rotation stopping mechanism 313, and the identification mark 23 is formed to face forward (see the broken line 11E). Thereafter, the container 20 is stopped at a predetermined position by moving the placement portion 31 to the front (see the broken line 1 1F). Further, the placement portion 31 on the lower side of the guide member 32 does not impart the inclination as described above. Therefore, the container 20 after the end of the guide 32 is guided as indicated by an arrow 11G, and moves substantially linearly toward the front. Further, in the present embodiment and the form shown in Fig. 2 (the form in which the frictional force acting on the bottom portion 21 is different), a small inclination angle can be formed in the front-rear direction of the placement portion 31. Incidentally, the rotation of the container 20 can be performed at an angle smaller than the inclination angle of the form shown in Fig. 2. Therefore, in this embodiment, the height of the small display device 30 can be formed as compared with the form shown in Fig. 2 . In other words, it is possible to form a smaller occupied space in the height direction of the display device 30. Further, in particular, regardless of the shape of the guide 32 or the like, for example, a rubber member such as EPDM can be formed. Further, the guide member 32 may be, for example, a guide member to which a rubber member or the like is adhered to the surface of the base material such as metal. Further, the guide 32 can be used as a guide for imparting irregularities or the like on the surface of various substrates. Further, in FIGS. 5A and 5B, although the guide is not provided on the opposite side of the guide 32, the guide can be appropriately provided. It is also possible to provide a guide on the front side of the guide 32 -20- 201010914. Here, in the case where a guide is further provided in front of the guide member 32, the guide member is preferably a guide member having a small surface smooth frictional resistance. Or it is preferable to have a small guide width (width in the direction of the height of the guide). There is a guide member in front of the guide member 32. When the frictional force acts on the container 20, the container 20 is re-rotated without the rotation stop mechanism 313, so that the identification mark 23 is directed outward. Doubt. In the case where a guide is further provided in front of the guide 32, in order to prevent contact with the container 20 of the guide, the placement portion 31 positioned further forward of the rotation stop mechanism 313 is not given the width direction as described above. The tilted state is better. In addition, as shown in FIG. 5C, the placement portion 31 preferably has a central portion (the central portion of the movement path of the container 20) in the width direction of the placement portion 31 at a position lower than the end portion in the width direction. . Further, when two rows of rollers are arranged in the width direction of the placing portion 31, it is preferable that the rollers are arranged obliquely so that the vicinity of the central portion of the moving path is formed lower. Q Fig. 6 (Fig. 6A - Fig. 6C) is a view showing another form of the rotation stopping mechanism 313. Further, Fig. 7 is a view showing the operation of the rotation stopping mechanism 313 and the container 20. As shown in Fig. 6A, in the present embodiment, the rotation stopping mechanism 313 is disposed on the side of the movement path of the container 20 instead of being disposed directly below the movement path. Further, Fig. 6A is a top view showing the display device 30, Fig. 6B is a side view showing the rotation stop mechanism 313, and Fig. 6C is a view showing a state in which the display device 30 is displayed from the front side. The rotation stop mechanism 313 shown in the figure is formed so as not to protrude upward from the projections 313e - 21 - 201010914, and the projection 313e is formed to protrude in the width direction of the rotation stop mechanism 313. In other words, the projection 313e is formed to protrude in a direction (cross direction) orthogonal to the moving direction of the container 20. Incidentally, a configuration is formed in which the side of the movement path of the container 20 protrudes from the movement path. Further, the 'rotation stop mechanism 313' has a plurality of rod-shaped members 31 3j that protrude into the container 20 while entering the container 20 to prevent the containers 20 from contacting each other. Further, the identification mark 23 and the protruding portion 213 of the container 20 used in the display device 30 are indicated by the reference numeral 17A of Fig. 7, and the phase is shifted by 90 in the circumferential direction of the container 20. Configuration. The operation of the rotation stop mechanism 313 and the container 20 using Fig. 7 will be described below. The container 20 (see reference numeral 17A) placed on the rear side of the display device 30 is guided by the guide 32 to continue to move forward. At this time, the container 20 receives the rotational force from the guide 32 and moves forward in the counterclockwise direction (see reference numeral 17B). Further, when the container 20 is moved further forward, the protruding portion 213 and the projection 313e are in contact with each other, and the rotation of the container 20 is stopped (see reference numeral 17C). Further, at this time, the container 20 is formed in a state in which the identification mark 23 is directed forward. Further, when the container 20 is rotated by the rotation stopping mechanism 313, it is moved further toward the front, and the state in which the identification mark 23 is directed forward is stopped at a predetermined position (see reference numeral 17D). When the containers 20 are in contact with each other, the rotation of the container 20 is hindered by the other containers 20. The identification mark 23 has a side which does not face the front side. -22- 201010914 In the present embodiment, since the rod-shaped members 31 3j are provided, the contact of the containers 20 with each other can be avoided. Further, the projection 313e and the rod-shaped member 313j which have moved to the front are moved toward the lower side by the notch 315 formed in the placement portion 31, and then moved toward the rear side. The other form of the display device 30 will be described below. Fig. 8 (Fig. 8A - Fig. 8C) is a view showing another form of the display device 30 and the container 20. φ Furthermore, Fig. 8A is a top view showing the display device 30. Further, Fig. 8B is a view showing a state in which the display device 30 is displayed from the front side together with the container 20. Further, Fig. 8C shows the operation of the container 20. As shown in Fig. 8B, the container 20 of the present embodiment has a groove-shaped recess 221 formed along a circumferential direction of the container 20 at a portion of the cylindrical side portion 22. Here, the phase of the concave portion 221 and the identification mark 23 is shifted by 90°. Further, the formation of a large recess 221 as described above is often difficult for a metal can. On the other hand, the resinous container 20 is easily formed from a metal can because it is processed from φ. Further, the guide 32 of the display device 30 is formed into a rod shape as shown in Figs. 8A and 8B. Here, the operation of the container 20 will be described with reference to Fig. 8C. The container 20 placed on the rear side of the display device 30 is guided forward by the guide 32 in the same manner as described above. At this time, the container 20 is given a rotational force from the guide member 32. And when the container 20 is rotated, the guide 32 enters the recess 221 of the container 20 (see Fig. 8B) (the recess 221 and the guide 32 are opposed to each other) to stop the rotation of the container 20 (see reference numeral 22A). And -23- 201010914 The container 20 is moved (sliding) toward the front by the guide 32. Thereby, the container 20 that has reached the take-out portion of the display device 30 forms a state in which the identification mark 23 faces forward. In addition, the other aspect of the display device 30 and the like will be described. 〇 Fig. 9 (Fig. 9A and Fig. 9B) is a view showing another form of the display device 30 and the container 2〇. In this embodiment, the blow molding can also be performed with a large degree of processing freedom, so that the container 20 is preferably used as a resin container. Figure 9 here is an illustration of a PET bottle. The container 20 is shown in Fig. 9A, and has a concave portion 221 along the circumferential direction of the container 20 in both the side portion 22 and the other side portion 22 measured on the one side of the axis of the container 20. Incidentally, the container 20 has a concave portion 221 at a position shifted by 180°. Further, the identification mark 23 of the container 20 of the present embodiment is shifted from the concave portion 221 by 90°. On the other hand, the display device 30 has two guides 32 on both sides of the movement path of the container 20. However, the guides 32 are not linear in the front-rear direction, but are formed to be narrower as the movement path of the container 20 toward the front is narrower. Further, the placement portion 31 of the present embodiment is not inclined in the width direction, and only the front and rear directions are inclined. When the container 20 is placed on the placing portion 31 in this embodiment, the container 20 moves the placing portion 31 toward the front, as shown in Fig. 9B, which is in contact with one of the two guide members 32. And the container 20 is guided by the guide 32 to move forward and the rotational force is imparted by the guide 32. Further, the guide 32 enters the recess -24 - 201010914 portion 221 of the container 20 to stop the rotation of the container 20. Thereafter, the container 20 moves further forward in a state where the identification mark 23 is directed forward. Further, the method of attaching the identification mark 23 to the container 20 is not limited to the case where the container 20 is a can, and can be applied, for example, by painting or printing. Further, when the container 20 is a PET bottle or the like, the film having the identification mark 23 is wound around the container 20, whereby the film can be heat-shrinked and then supplied. That is, the identification mark 23 can be composed not only by painting but also by a film which is additionally coated with a film or the like, and which is composed of a film which is heat-shrinkable. For example, the composition described in Japanese Laid-Open Patent Publication No. 2006-341568 can be used. Further, the method for producing the heat-shrinkable film is not particularly limited. The conventional production method can be employed. For example, the production method described in JP-A-2006-341568 can be employed. Further, the conditions for thermally shrinking the film may be carried out under the existing conditions, for example, by steam treatment at 90 °C. φ Another embodiment of the display device 30 will be described below. Fig. 10 (Figs. 10A and 10B) is a view for explaining another form of the display device 30. Here, Fig. 10A is a top view of the front side of the display device 30. Further, Fig. 10B is a side view of the front side of the display device 30. As shown in Fig. 10A, the bottom plate 3 1 1 0 of the loading and unloading container 20 is placed in the placing portion 31, and the front side is disposed on the lower side, that is, in a state of being inclined downward in the forward direction. Further, the bottom plate 3110 can be provided with a plurality of rotatable cylindrical rollers. And the bottom plate 3110 can also be set -25- 201010914 a plurality of rotatable spherical rollers. For the bottom plate 3110, for example, a plate-like member having a smooth surface such as an acrylic plate may be used. Further, a turntable 3120 disposed in front of the bottom plate 3110 and carrying the container 20 moved from the bottom plate 3110 is disposed. The turntable 3120 is formed in a disk shape and formed to be rotatable in a peripheral direction. The above embodiment is a configuration in which a part of the placement portion 31 is rotatable. Further, in the display device 30 of the present embodiment, as shown in Fig. 10B, a turning mechanism 35 for rotating the container 20 by the turntable 31 20 is shown. Further, a separating mechanism 36 for separating the container 20 rotated by the rotating mechanism 35 and the other container 20 adjacent to (adjacent to) the container 20 is provided. The rotation mechanism 35 includes a disk-shaped substrate 351 disposed under the turntable 3120, and a coil spring 354 attached to the substrate 351 and disposed between the turntable 3120 and the substrate 351 to move the turntable 3120 upward. Further, the substrate 351 is provided with a cylindrical first protrusion 352 and a second protrusion 353 which extend upward from the substrate 351. The turntable 3120 includes a first through hole 312a and a second through hole 312b which are provided from one side surface side to the other side surface side. Here, the first through hole 3 1 2a and the second through hole 3 1 2b are as shown in Fig. 10A, and are formed in a circular arc shape in the direction around the turntable 3120. Further, in the present embodiment, the first protrusion 352 is disposed in the first through hole 312a, and the second protrusion 353 is disposed in the second through hole 312b. On the other hand, the substrate 351 has a through hole 351a provided at one central portion thereof from the one side surface side to the other side surface side. Further, the substrate 351 has a spiral-shaped screw portion -26-201010914 351b on the inner peripheral surface of the through hole 351a. The turntable 3120 is provided with a shaft 312c extending downward from the central portion of the turntable 3120. Further, a threaded portion 312d formed in a spiral shape is provided on the outer peripheral surface of the shaft 312c. Here, in the present embodiment, the shaft 312c in which the turntable 3120 is disposed is inserted through the through hole 351a of the substrate 351. Further, the substrate 351 and the turntable 3120 are disposed in a state in which the screw portion 351b of the substrate 351 and the screw portion φ 312d of the shaft 312c are engaged. On the other hand, the separating mechanism 36 is provided with a rod-shaped rotating member 362 that is rotatable (oscillated) about the pin 361 that can be disposed therethrough. The rotating member 362 is disposed such that one end side thereof is located below the protrusion 312e provided on the lower surface of the turntable 3120. Further, the separating mechanism 36 is provided to be movable in the vertical direction, and when the separating mechanism 36 is moved upward (projecting from the upper surface of the bottom plate 3110) on the moving path of the container 20, and the separating mechanism 36 moves downward from the moving path. The retreating forward and backward member 3 63. Further, in the present embodiment, the advancing and retracting member 363 is disposed above the rotating member 362, and the other end portion of the rotating member 362 is brought into contact with the lower end portion of the advancing and retracting member 363. Next, the operation of the display device 30 and the container 20 of the present embodiment will be described below using Fig. 1 . Fig. 1 is a view for explaining the operation of the display device 30 and the container 20. As shown in the figure, when the rotary table 3120 carries the container 20, the weight of the container 20 is used to lower the rotary table 3120. However, in the present embodiment, as described above, the screw portion 351b (see Fig. 10) is provided on the substrate 351, and -27-201010914 is provided, and the screw portion 312d is also provided in the shaft 312c. Therefore, the turntable 3120 is lowered, for example, while rotating in the clockwise direction. As a result, the container 20 placed on the rotary table 3120 is also lowered while rotating in the peripheral direction and clockwise. When the turntable 3120 is lowered, the first projection 352 and the second projection 353 protrude from the upper surface of the turntable 3120. In other words, the first projection 352 and the second projection 353 protrude from the container 20 side of the contact position between the lowermost end portion of the container 20 placed and the turntable 3120. Further, for example, the protruding first projection 352 enters the container 20, for example, the first recess 212a (see Fig. 3A). The second projection 353 enters the second recess 212b of the container 20. Incidentally, the first protrusion 352 is opposed to the first recess 212a, and the second protrusion 353 is in a state of being in contact with the second recess 212b. Thereby, the rotation of the container 20 is stopped (restricted), and as shown in Fig. 11, for example, the second identification mark 23b is formed toward the front. Further, when the container 20 on the rotary table 3120 comes into contact with the subsequent container 20 (the rotation of the container 20 on the rotary table 3120) is blocked by the subsequent container 20. For this reason, in the present embodiment, when the separation mechanism 36 is placed by the loading of the container 20 so that the rotary table 3120 is lowered, the projection 312e of the rotary table 3120 is also lowered, and the projection 312e pushes the end portion of the rotary member 362. Thereby, the other end portion of the rotating member 362 is raised and the other end portion urges the advancing and retracting member 363 so that the advancing and retracting member 363 protrudes from the moving path of the container 20. Incidentally, the advancing and retracting member 363 protrudes from the upper surface (surface) of the bottom plate 3110. Thereby, the outer side surface of the annular projection 211 of the subsequent container 201010914 20 is pressed by the advancing and retracting member 3 63 to move the subsequent container 20 toward the rear side of the display device 30. As a result, as shown in Fig. 11, the container 20 on the turntable 3120 and the subsequent container 20 are separated. Further, when the container 20 on the turntable 3120 is removed, the turntable 3120 is raised, and in conjunction with this rise, the advancing and retracting member 363 is retracted from the moving path of the container 20. And the container 20 (new container 20) on the bottom plate 3110 is moved to the rotary table 3120.
略 槪 的 置 裝 列 fcR 0 及 涉 所 態 形 施 實 明 發 本 示 明表 單圖。 簡 1 圖 式第的 圖成 [ 0 第第第 2 3 4 圖 0 的 圖。作 的圖動 部的的 放時器 載器容 的容及 置示置 裝顯裝 列側列 Mb· feR-剖賻 明底示 說從表 是是是 圖圖圖 第5圖是表示陳列裝置的其他一形態的圖。 第6圖是表示轉動停止機構的其他形態的圖。 第7圖是表示轉動停止機構及容器的動作的圖。 第8圖是表示陳列裝置及容器的其他之一形態的圖。 第9圖是表示陳列裝置及容器的其他之一形態的圖。 第1〇圖是說明陳列裝置的其他之一形態的圖。 第11圖是說明陳列裝置及容器的動作用的圖。 【主要元件符號說明】 -29- 201010914 20 :容器 21 :底部 2 2 :側部 23 :識別標記 211 :環狀突出部 212 :凹部 213 :突出部 221 :凹部The slightly installed column fcR 0 and the relevant state implementations are shown in the form. The figure of the first figure is [0, the picture of the second 2 3 4 Figure 0. The capacity of the timing component of the drawing portion and the display of the mounting column side row Mb· feR- 赙 赙 赙 从 从 从 从 从 从 从 从 从 第 第 第 第 第 第 第 第 第 第 第 第 第 第The figure of the other one form. Fig. 6 is a view showing another form of the rotation stopping mechanism. Fig. 7 is a view showing the operation of the rotation stopping mechanism and the container. Fig. 8 is a view showing another aspect of the display device and the container. Fig. 9 is a view showing another aspect of the display device and the container. Fig. 1 is a view for explaining another aspect of the display device. Fig. 11 is a view for explaining the operation of the display device and the container. [Description of main component symbols] -29- 201010914 20 : Container 21 : Bottom 2 2 : Side 23 : Identification mark 211 : Annular projection 212 : Recess 213 : Projection 221 : Concave