200404720 玖、發明說明: 【發明所屬之技術領域】 本發明係關於一種糊狀至流動性組成物之分配器,該組 成物之充填體積係由立體穩定之容器所盛裝,該容器之至 少一半殼包含一囊,當由吹口處(mouthpiece)耗盡組成物 時,該囊係可扁縮(c ο 1 1 a p s e )進入一容器之半殼中。 【先前技術】 此種分配器係在歐洲專利E P 0 5 0 5 6 1 1 A 2中所為人熟知。 該糊狀組成物之運送被正空壓(positive empty pressure) 所取代。該正空壓係由一立體穩定、可壓榨之容器所製造。 該充填用壓力係藉由控制位於分配器底部之閥而得到。此 一裝置係位在分配器之頭部中。被容器封裝之囊部分地包 含底部半邊,其可扁縮且藉由一堅硬部分可使該底部之另 一半邊被端緊。 美國專利ϋ S 2,4 7 1,8 5 2提供一種藉由裝設在該立體穩定 容器底部之壓縮彈簧產生正空壓之提案。在該例中提供之 扁縮囊包含卡盤部分,其之上半部容器係形成一圓蓋形 (dome-shaped)之堅硬部分,在其頂點部分係為一出口閥, 該閥係由一類似壓鈕之分配器結構來驅動。藉由此裝置, 該吹口處之運送路線係被開啟或釋放。該彈簧係為杯狀主 體,其係被成形以順著該錐形扁縮外形。 本發明之目的係為形成一般類型之分配器,其構造簡單 且功能可靠。 該目的可在第一例中實質地藉由有著申請專利範圍第1 5 312發明說明書(補件)/92-10/92120065 200404720 項特徵之分配器而達成,其有著一可因為吹口幫浦產生之 負空壓而扁縮之囊,其向著面對該幫浦相應體積之自由空 間方向。 【發明内容】 此種結構之結果,一種簡單、功能上更有利之設計之一 般類型之分配器係可達成:該容器不再需要任何變形壓擠 之驅動,不管其變形不足或是過度均會導致故障,且甚者, 也會有著慣例性之問題。又,使用處理之習慣形式之分配 器頭部驅動。藉由經該糊狀至流動性組成物之充填等級圓 柱(filling level column)空吸,可再裝滿該分配之分擔 金屬塊(apportioned slug)。該囊自動地接著在分配方向 上繼續。亦即,可以說是,沿著一作為透氣之皮層被拉扯 以從靠近底部之位置準確地進入該分配器頭部之區域,在 該處使得分配器中之殘留物可圓滿地耗盡,且此動作不需 要特別之分配幫助(如描述之先前技術中所提供之彈簧形 式)。在吹口幫浦之區域中所產生之負空壓全然地用以再裝 滿該扁縮體。 其他申請專利範圍之個別標的係如下伴隨參考申請專利 範圍第1項之標的以解釋,但其等也可獨立地解釋。舉例 來說,可證明在兩容器半殼之(可以說是)赤道接合處之區 域中該囊之向外突出邊緣以一類似凸緣方式支撐係結構上 有利,一半邊攜帶該位於頂端區域中之空吹口幫浦。囊之 邊緣係如想像地被支撐在兩钳牙間。該縱向中央附著物亦 有著在囊上無張力之功效,其在兩方向上之作用實質上係 6 312發明說明書(補件)/92-10/92120065 200404720 相 囊 在 該 容 之 製 把 囊 變 論 殼 的 之 該 上 類 之 輕 到 配 空 開 等。假如分配器及容器之部件係為旋轉對稱構造,則 之邊緣之類似凸緣支撐可藉由擰緊部件來達成。反之 非圓形橫剖面之例子中,在此區域中發生熱接合。 即使膠黏接合係為可行的。在一半邊之頂端區域中配 空吹口幫浦導致一任意多方向性牆部位及接著導致整 器之穩定,位於圓下之半部可穩定該適當區域,該現 分配器全體係用以運作之目的。若以可充足地延伸材 成,囊亦可以縮小成一實質地平面薄膜。接著充填壓 容器中之薄膜翻到外面來以形成一囊,以此方法描述 係在相對之方向扁縮,即在空吹口幫浦之方向上,如 空步驟。即使該材料之回復力可用以幫助其之達成。 是什麼情形,兩種情形均可證明一格栅設置在該容器 與空吹口幫浦間之通道區域前以支撐該扁縮之囊係有 。此可避免傳送通道路徑被糊狀組成物填滿。作為同 目的(用以確保流體供應路徑能不受糊狀組成物填滿) 裝配在空吹口幫浦之半殼對於囊來說有著位於其内表 (較佳係延伸至該通道區域)之支撐肋。此種支桿系統 似建築物,已可以結合於注射-模製運作中。類似保險 類的阻滯配置係可避免的。同樣也為優點的是,該囊 易地固定於基座區域。當以可分配物品再充填時,該 增加之機械載荷支配之部分因此可理想地適於使用該 器。另一個用以分配該組成而不使其終止之方法係為 吹口幫浦毗鄰通道區域之進入孔,其係為網狀-中斷環 口之形成,相對於該囊同軸且同心地運作。該組成之 312發明說明書(補件)/92-10/92120065 該 置 個 有 料 力 之 同 無 半 利 樣 面 圈 可 受 分 該 形 表 7 200404720 現係為被吸過一寬闊正面以再裝滿供應器。沒有局部的袋 可形成在囊中。環形孔也可藉由孔洞之環來形成,以代替 網狀-中斷環形開口。在另一例中,假如該環形孔係在相反 於該組成輸送方向分散之收集漏斗的基座中分配,則可提 供另一優異之方法。該收集漏斗係作為校直供輸收集器。 最終,就流動而言,該環形孔之直徑係實質地對應於通道 區域或格栅之直徑。 【實施方式】 本分配器S p係以獨自站立單元之形式呈現。其用以分配 糊狀至流動性組成物Μ,其充填體積係藉由立體地穩定容 器1所支撐。 容器1係為細長、扁平且非圓(u n r 〇 u n d )橫剖面之形式, 較佳為橢圓形。(見圖2) 容器1係就其組裝件之縱向中心軸x-x被分成兩半。 其包含上半殼2及下半殼3。其開口端彼此相對,一起 對接在垂直於縱向中心軸x-x之平面E-E。該等半殼2,3 之模槽係為相同的,而在尚待解釋之更進一步的模製構造 時才加以彼此區隔。 彼此相對且周圍延伸之開口端係向外成一角度彎曲。在 此例子中,上半殼2提供凸緣4且下半殼提供凸緣5。(亦 可參照圖6 ) 上半殼2之凸緣4係被垂直地往站立表面6之方向外 彎,如容器1之縱向上所見。該同位角支柱7超出該下半 殼3之凸緣5之向外延伸端緣8。 8 312發明說明書(補件)/92-10/92120065 200404720 該 得下 此 礎, 可扁 囊 兩者 彼此 面 該指 處。 可以 同時 行壁 部, 為加 圈。 a c t i 在 下半 角 轉地 合或 就 相關邊緣輪廓可因此形成通道9 (亦可參照圖3 半殼3之凸緣5可恰巧密合。 外緣接合之精準打造了容器1安裝内部元件之 可準確地使囊1 0成形。該囊係為可折疊的,較 縮,並有著可達此目的之彈性及撓性。 1 0係被製造以滿足當其扁縮時,下半殼3及上 之内襯可以觸及。使得其可以緊密接觸容器半 之内壁。在其之上,糊狀組成物Μ係位於其等 對平面Ε - Ε,囊1 0係藉由邊緣1 1被支撐在容器 向凸緣4與5之面部在此例子中作為類似鉗牙 囊1 0之對應向外突出邊緣1 1在此例子中被捕 說是赤道接合處之區域中。其彈性材料在此例 作為密封用。接合處之元件符號係為1 2。其可 ,如圖6清楚地所示,或其他連續地朝向外緣 以創造下陷區域,其除了非正接咬合外,亦可 強捕捉用之正咬合。該全部之接合處有著凸狀 此可避免在「扁縮鉸合部」之切斷動作(c u 11 i ο η ) ° 安置囊1 0後,更進一步彎曲角支柱7,結果最 殼3凸緣5。 支柱7可以熱彎曲。另一方面,假如半殼2、3 對稱(至少在接合處之區域中),則黏附接合, 甚至螺旋接合係為可行的。 其對於開口端遙遠之側來說(彼此相對),半殼 312發明說明書(補件)/92-10/92120065 ),而使 良好基 佳係為 半殼2 殼2 > 3 之間。 侧上。 之接合 捉在, 子中可 有著平 之力Π厚 允許作 橫向圓 ng 終咬合 係為旋 閂鎖接 2 > 3 9 200404720 逐漸變成較窄之橫剖視區。在此例子中,該位於容器1之 通道區域1 3中之上錐形區係用以輸送糊狀組成物Μ。該通 道區域係為圓形且有著相對大的直徑,實質地使用容器1 之全部扁平寬度(entire flattening width)。 下半殼3指向站立表面6之端同樣地逐漸變成較窄之橫 剖視區。此錐形區有著站立邊緣1 4。該站立邊緣係有著垂 直高度,且相對於形成於該處之容器1之基座15下之站立 表面6有著一間隙。基座1 5在中心有著空氣補償開口 1 6。 該開口之補償係依據當後者開始向上移動時,囊1 0下之區 域體積。 在通道區域13中,上半殼2持續進入一朝上之接合片 1 7。其係為一個整體成形之附著物。該接合片1 7接收一藉 由減少直徑以適應其之環狀箍1 8。兩者之外形可為基本之 圓柱狀。 分配器Sp之相關頭部區可作為接收一手工驅動之空吹 口幫浦P。 該實際上座落在該上半殼2之尖端區域中之空吹口幫浦 P與其上結構形成一依據垂直延伸之驅動鈕1 9。遠離其凹 陷驅動區域,有著一橫向、向上傾斜之吹口 2 0。該吹口係 至少在該端區域中為管狀外形,且其適於輸送形成整團的 糊狀或流動性組成物Μ。 負壓係藉由該吹口幫浦Ρ來施加,以獲得有力、使囊1 0 完全淨空之結果,其剛開始垂下接著在分配方向上增加扁 縮,以在面對根據囊1 0之體積之半殼之吹口幫浦Ρ之間隙 10 312發明說明書(補件)/92-10/92120065 200404720 能夠顯然地保持精確。輸送方向係由箭頭y指出。其符合 縱向中心軸X - X且在該驅動鈕1 9中超過進入一輕微地上升 橫向。該帶有吹口 2 0之驅動鈕1 9係可繞著該縱向中心軸 X - X旋轉。其允許個別地便利分配,不論是超過該容器之 赤道輪廓線之長軸或是短軸或超過無段可達(steplessly achievable)之中間區域。 如同先前所指出的,該輸送不會留下任何殘留物,因為 格柵2 1係被設置在容器1之通道區域1 3前,而在容器上 半殼2之内壁與空吹口幫浦P之間。該格柵充填通道區域 1 3且凸狀地被輕微彎曲進入該充填體積之區域,相對於輸 送箭頭y之方向。其係被以此方式繃緊。格栅2 1可為一分 離部件。然而,其也可預先在上半殼2上模製成籃狀外形。 如同所見的,該裝配件包含被徑向網2 4接合之外部環2 2 及内部環2 3 (請參考圖4 )。有六個徑向網2 4,彼此以相等 角度成精準間距。 另一種用以分配該糊狀組成物Μ且實質地不會有殘留物 之手段係為在内部上提供裝配有空吹口幫浦Ρ之半殼2與 囊1 0之支撐肋2 5。接著該囊無法以此方式得到(甚至是部 分地)。更確切的說.,流動供應路徑W係藉由該支撐肋2 5 之支柱之暴露系統來保持暢通(參照圖7 )。囊1 0或其壁可 以在輸送箭頭y之方向上以規律方式朝向通道區域1 3移 動。因為格柵2 1係分離地形成,其係寄託於突出進入通道 區域1 3之支撐肋2 5之頭部2 5 ’的外部環2 2。該外部環係 以夾鉗方式安裝於其上。 11 312發明說明書(補件)/92-10/92120065 200404720 總而言之,提供八個以同樣角度建構之支撐肋2 5。其等 可為已整合的。肋高度在通道區域1 3方向上連續地增加且 在殼表面2之内面部上之相反方向中逐漸變細。 同樣由圖3可見,囊1 0之基座區域2 6係形成為一壁, 其較以蓋之式樣毗鄰囊1 0之壁為厚。該厚度係被選擇使得 該全部的扁縮能力係不會被損害,亦即該扁縮行為係可以 保持。該增厚係作為類似一輕微地硬化排放基座。該增厚 可延伸超過該全部基座區域2 6,然而如所顯現的,或可僅 僅形成為環形通道。 分配器S p頭部之上有著保護蓋2 7。其可同時避免内容 物不必要之釋放,例如當容器1在一個袋子或其他類似物 中被以其他用具攜帶時。 保護蓋2 7之相對位置係被限定,例如藉由在接合片17 及環狀箍1 8間之階狀轉變,以形成肩部2 8。 蓋狀主體可摩擦地被安裝;然而,亦可使用螺旋接合, 如此處之較佳例(參照圖8 )。在接合片1 7中被接收之環狀 箍1 8係為在分配器頭部中被接收之插入物2 9之一部分。 該環狀箍係在該貼近基座3 0之組成側上停止。 圓柱體3 1之部分係從基座3 0延伸並形成前述之空吹口 幫浦P。 在圓柱體3 1中運轉的係為一活塞3 2,其可相對於該驅 動鈕1 9藉由彈簧載荷安置。該活塞形成幫浦室3 3之上部 極限,其下部停止處係接近基座3 0。 在基座3 0中有著入口閥V1。其為一種非回復閥,依據 12 312發明說明書(補件)/92-10/92120065 200404720 該結合在基座3 0中且由彈性體材料組成之環形開口 3 4來 控制流動。 座落於活塞頭部35上的係為出口閥V2。其亦為以非回 復方式動作之彈性體部件。 該出口閥V 2保持通道開口 3 6關閉。 在出口閥2之後有著一中間室3 7,以流動接合至一接合 至活塞3 2之驅動鈕1 9之中間通道3 8。 該中間通道3 8本身接著與吹口 2 0接合。 用以形成該中間室3 7且亦用以接收該中央通道3 8,附 著至活塞首部3 5後方之活塞3 2之轉軸3 9係為中空的。由 圖式可見,功能部係適當地適應於其中來運作。 接合部4 0對此亦有幫助。蓋形之外形也是。蓋開口係在 容器1之方向上指出。其上部係堅固地連接至該驅動鈕1 9。 在外面,蓋形接合部4 0係與環形停止突起41裝配。該 停止突起與提供相對停止之軸槽4 2在環狀箍1 8之内侧上 相互作用。該環狀寬度決定衝程且被設計以達成幫浦室3 3 之部位成形間隙。 蓋形接合部4 0,如同在相對方向上開口之圓柱體3 1之 環形壁,幫助彈簧室4 3之創造。該彈簧室接收壓縮彈簧 4 4。後者在基本位置之方向上裝載驅動鈕1 9,如圖8所示。 為此目的,位於上端之彈簧動作係貼著蓋形接合部4 0之上 部而被應用,且該位於端處面對組成物供應之彈簧係貼著 基座3 0而被應用,結果其形成固定接合。 該糊狀至流動性組成物Μ之轉移進入分配器Sp之分配區 13 312發明說明書(補件)/92-10/92120065 200404720 域,在此一開始為幫浦室3 3,超過相對寬闊之基座發生且 不經過位於中央之通道路徑。此藉由空吹口幫浦P之入口 開口實際地被具體化,毗鄰該格柵保護通道區域1 3,被形 成為環形開口 3 4,與囊1 0同心同軸地運作。該形成在基 座3 0中之環形開口 3 4係為散置的,位於基座之中央通道 與基座區域之間,其中該基座區域藉由網4 5同心徑向地毗 鄰於該環狀開口。該以輪輻形式被設置之網4 5,較佳係可 延伸使得其等可以相等角度彼此相距。一類似之有利變化 係為藉由孔環之孔來形成該環狀開口 3 4。此等孔係類似地 在周圍方向上彼此保持一致的間距。 網狀-中斷系統係可解釋且孔系統之環亦可選擇性地相 對於出口閥V 2區域中之通道開口 3 6而被使用。 根據所述基本型態之環狀開口 3 4及通道開口 3 6,其兩 者繼續在輸送箭頭y之方向上進入漏斗形之較寬部位,該 部位係以埋頭孔方式(countersunk holes)旋擰。在釋放喷 出過程之期間,其幫助閥V1、V 2之抬起以打開該等閥。 此可達成全部之效果:該組成物Μ之限制區域,可以說 是藉由幫浦Ρ之負壓在輸送箭頭y之方向中「被抽吸」,被 供應超過轉移區域前之寬闊部分,其藉由簡單之方式排除 囊1 0之傾斜,可能地形成一袋,引發封鎖,尤其是在分配 之結束狀態時。 此優異效果更可藉由在面對組成物Μ之側上有著捕捉漏 斗4 6之環狀開口被加強。該捕捉漏斗係整合在基座3 0中 且有著以相反於分配方向箭頭y之旋轉對稱方式發散之 14 312發明說明書(補件)/92-10/92120065 200404720 牆。該環狀開口 3 4之直徑實質地對應於通道區域1 3或格 柵21之直徑。 仍然需要描述的是該完整地預先組裝之空吹口幫浦P, 可關連於該容器1之頸部(意指接合片1 7 )藉由旋擰而被置 放。該螺絲之元件符號為4 7。在入口閥V1之高度處有著 螺旋限制區4 8。指向殼内,該螺旋限制區繼續伸向肩壁, 其以上述方式攜帶格柵2 1。在格栅2 1及基座3 0間仍有著 一分配前室,其無法被囊壁塞滿。 輸送係以下列之方式發生:向下移動驅動鈕1 9使得幫浦 室33之體積減少。位於其中之組成物Μ由於入口閥VI之 關閉動作,故在供應方向上無法逃脫。接著,通過該通道 開口 3 6之内裝組成物,係經該中間室3 7輸送至中央通道 3 8,經吹口 2 0出現於該處。此路徑係藉由出口閥V 2之開 啟動作而被釋放。假如該驅動鈕1 9在輸送後被釋放,活塞 3 2之回復位移會在初始之基本位置方向上發生。此導致在 幫浦室3 3中之負壓。相應地,組成物Μ從供應器中再被裝 滿。入口闊V1開啟。由於出口閥V 2之關閉動作使得外來 空氣無法進入。因為壓縮彈簧44之力量使得回復位移發 生。 所有揭示之特徵(其本身)係與本發明有關。該相關/附加 優先權文件(先前專利申請案影本)之揭示内容亦在此整合 於本專利申請案之揭示中,其目的包括本申請案之申請專 利範圍中該等文件之整合特徵。 【圖式簡單說明】 15 312發明說明書(補件)/92_ 10/92120065 200404720 本發明之標的係根據以下之圖式解釋具體例來更為詳盡 地解說,其中: 圖1為分配器以獨自站立單元之形式,且被保護蓋所蓋 上之側視圖(有略微放大); 圖2為分配器之平面圖; 圖3為分配器之分解圖; 圖4為帶有空吹口幫浦之容器半殼之内視圖,顯示囊之 支撐肋。 圖5為經該分配器之容器之縱剖視圖,其邊緣尚未接合。 圖6為圖5之VI處放大圖; 圖7為支撐肋區域中之橫剖面圖;及 圖8為經該空吹口幫浦之縱剖視圖,其係為巨部放大。 (元件符號說明) 1 容器 2 (上)半殼 3 (下)半殼 4 凸緣 5 凸緣 6 站立表面 7 角支柱 8 端緣 9 通道 10 嚢 11 邊緣 16 312發明說明書(補件)/92-10/92120065 200404720 12 接合處 13 通道區域 14 站立邊緣 15 基座 16 空氣補償開口 17 接合片 18 環狀箍 19 驅動在丑 2 0 吹口 21 格柵 22 外部環 23 内部環 2 4 徑向網 2 5 支撐肋 25’ 頭部 26 基座區域 27 保護蓋 28 肩部 2 9 插入物 3 0 基座 3 1 圓柱體 3 2 活塞 33 幫浦室 34 環形開口 17200404720 发明 Description of the invention: [Technical field to which the invention belongs] The present invention relates to a dispenser of a paste-like to fluid composition, the filling volume of the composition is contained in a three-dimensionally stable container, at least half of the shell Contains a bladder that can be collapsed (c ο 1 1 apse) into the half shell of a container when the composition is depleted by the mouthpiece. [Prior art] This type of dispenser is well known in the European patent EP 0 5 0 5 6 1 1 A 2. The transport of the pasty composition was replaced by positive empty pressure. The positive air pressure is made from a three-dimensionally stable, squeezable container. The filling pressure is obtained by controlling a valve located at the bottom of the dispenser. This device is located in the head of the dispenser. The bladder enclosed by the container partially contains a bottom half, which can be collapsed and the other half of the bottom can be tightened by a rigid portion. U.S. Patent No. S 2,4 7 1,8 5 2 provides a proposal for generating a positive air pressure by a compression spring provided at the bottom of the three-dimensionally stable container. The flattened sac provided in this example includes a chuck portion, and the upper half of the container is formed as a dome-shaped hard portion. At its apex portion is an outlet valve. It is driven by the pusher's distributor structure. With this device, the delivery route at the mouthpiece is opened or released. The spring is a cup-shaped body that is shaped to follow the conical, flattened shape. The object of the present invention is to form a general type dispenser, which is simple in construction and reliable in function. This objective can be achieved substantially in the first case by a dispenser having the features of the patent application scope No. 1 312 invention specification (Supplement) / 92-10 / 92120065 200404720, which has a feature that can be generated by the mouthpiece pump. The negative air pressure and deflated sacs are oriented toward the free space facing the corresponding volume of the pump. [Summary of the Invention] As a result of this structure, a general type of dispenser with a simple, more functionally advantageous design can be achieved: the container no longer needs any drive for deformation and squeezing. Cause failures, and even conventional problems. Also, a conventional head of the dispenser is used for processing. By sucking through the filling level column of the pasty to flowable composition, the allocated apportioned slug can be refilled. The capsule then automatically continues in the dispensing direction. That is, it can be said that it is pulled along a leather layer that is breathable to accurately enter the area of the head of the dispenser from a position near the bottom, where the residue in the dispenser can be satisfactorily depleted, and This action does not require special distribution assistance (as in the form of a spring provided in the described prior art). The negative air pressure generated in the area of the mouthpiece pump is completely used to refill the flat body. The individual objects of other patent application scopes are explained as follows with reference to the first application patent scope, but they can also be interpreted independently. By way of example, it can prove advantageous in the region of the (equal to) equatorial junction of the two container half shells that the outwardly protruding edge of the capsule supports the system in a flange-like manner, with the half edge carrying the located in the top region Air blow mouth pump. The edge of the capsule is imaginarily supported between the two jaws. The longitudinal central attachment also has the effect of no tension on the capsule, and its effect in both directions is essentially 6 312 Invention Specification (Supplement) / 92-10 / 92120065 200404720 The capsule is transformed into the capsule The lightness of the shell is from the light to the open. If the components of the dispenser and container are of rotationally symmetrical construction, flange-like support of the edges can be achieved by tightening the components. Conversely, in the case of a non-circular cross-section, thermal bonding occurs in this region. Even gluing is possible. Equipped with an empty mouthpiece pump in the top area of one half of the edge results in an arbitrary multidirectional wall portion and then the stability of the whole device. The half located below the circle can stabilize the appropriate area. The whole system of the present distributor is used for operation. purpose. If it is made of a material that can be sufficiently extended, the capsule can also be reduced to a substantially flat film. Then the film in the filling and pressure container is turned outside to form a pouch. This method is described as flattening in the opposite direction, that is, in the direction of the empty mouthpiece pump, such as an empty step. Even the resilience of the material can be used to help achieve it. What kind of situation is, both cases can prove that a grille is arranged in front of the channel area between the container and the air nozzle to support the deflated capsule. This prevents the transfer path from being filled up by the pasty composition. For the same purpose (to ensure that the fluid supply path cannot be filled by the paste-like composition), the half shell assembled on the air mouthpiece pump has a support for the bladder on its inner surface (preferably extending to the channel area). rib. This strut system is like a building and can already be integrated into injection-moulding operations. Blocking arrangements like insurance are avoidable. It is also advantageous that the capsule is easily fixed to the base area. When refilled with dispensable items, the portion dominated by this increased mechanical load may therefore be ideally suited for use with the device. Another method used to distribute the composition without terminating it is the access hole of the mouthpiece pump adjacent to the channel area, which is formed by a mesh-interruption ring that operates coaxially and concentrically with respect to the capsule. Specification of the 312 invention of the composition (supplement) / 92-10 / 92120065 This powerful and non-profit-free doughnut can be divided into the shape. Table 7 200404720 is now sucked through a wide front to refill Provider. No local pouch can be formed in the pouch. Annular holes can also be formed by a ring of holes instead of a mesh-interrupted annular opening. In another example, if the annular hole is distributed in the base of a collection funnel that is scattered opposite to the composition conveying direction, another excellent method may be provided. The collection funnel is used as a straightening supply collector. Finally, in terms of flow, the diameter of the annular hole corresponds substantially to the diameter of the channel area or grid. [Embodiment] The present dispenser Sp is presented as a stand-alone unit. It is used to distribute the paste to the fluid composition M, and its filling volume is supported by the three-dimensionally stable container 1. The container 1 is in the form of a slender, flat and non-circular (u n r oo n d) cross-section, preferably an ellipse. (See Figure 2) Container 1 is divided in half with respect to the longitudinal central axis x-x of its assembly. It includes an upper half shell 2 and a lower half shell 3. The open ends are opposite to each other and are butted together in a plane E-E perpendicular to the longitudinal center axis x-x. The mould grooves of the half-shells 2, 3 are the same and are separated from each other only when further moulding constructions have yet to be explained. The open ends opposite each other and extending around are bent outward at an angle. In this example, the upper half shell 2 provides a flange 4 and the lower half shell provides a flange 5. (See also Figure 6.) The flange 4 of the upper half shell 2 is bent outwards perpendicularly to the standing surface 6, as seen in the longitudinal direction of the container 1. The co-located angle pillar 7 extends beyond the outwardly extending end edge 8 of the flange 5 of the lower half shell 3. 8 312 Description of the Invention (Supplement) / 92-10 / 92120065 200404720 This foundation should be obtained, and the two should be at each other's fingertips. You can run the wall at the same time. Acti turns to the ground at the lower half of the corner or the relevant edge contour can form a channel 9 (also refer to Figure 3, the flange 5 of the half shell 3 can happen to be tightly closed. The outer edge of the joint precisely creates the container 1 to install the internal components accurately. Shape the sac 10. The sac is foldable, shrinkable, and has the elasticity and flexibility to achieve this purpose. The 10 is made to meet the lower half of the shell 3 and the upper part when it deflates. The liner can be touched so that it can closely contact the inner wall of the container half. On top of it, the paste-like composition M is located on its equivalent plane E-Ε, and the capsule 10 is supported by the container 11 by the edge 11 The faces of 4 and 5 are in this example similar to the corresponding outward protruding edges of the forceps sac 10. In this example, the area of the equatorial junction was arrested. The elastic material is used for sealing in this example. The symbol of the element is 1 2. It can, as shown clearly in Figure 6, or other continuously facing the outer edge to create a depressed area, in addition to the non-positive occlusion, it can also strongly capture the positive occlusion for use. All of this The joint has a convex shape. This prevents the The cutting action (cu 11 i ο η) ° After the capsule 10 is placed, the corner pillar 7 is further bent, and as a result, the shell 3 has a flange 5. The pillar 7 can be thermally bent. On the other hand, if the half shell 2, 3 Symmetrical (at least in the area of the joint), then adhesive joints, or even helical joints, are feasible. For the distant side of the open end (opposing each other), half shell 312 specification (Supplement) / 92-10 / 92120065), and a good base line is between half shell 2 shell 2 > 3. On the side. The joint can be caught in the child, which can have a flat force, thick, and allow a horizontal circle. The final occlusion is a rotary latch connection. 2 > 3 9 200404720 gradually becomes a narrower cross-sectional area. In this example, the tapered region located in the channel region 13 of the container 1 is used for conveying the pasty composition M. The channel area is circular and has a relatively large diameter, substantially using the entire flattening width of container 1. The end of the lower half-shell 3 pointing towards the standing surface 6 likewise gradually becomes a narrower cross-sectional area. This cone has standing edges 1 4. The standing edge has a vertical height and has a gap with respect to the standing surface 6 below the base 15 of the container 1 formed there. The base 15 has an air compensation opening 16 in the center. The compensation of this opening is based on the volume of the area below the capsule when the latter starts to move upward. In the channel region 13, the upper half-shell 2 continues into the upwardly facing tab 17. It is an integrally formed attachment. The engaging piece 17 receives an annular hoop 18 by reducing its diameter to fit it. The outer shape of the two can be basically cylindrical. The relevant head area of the dispenser Sp can be used to receive a manually driven air nozzle pump P. The empty mouthpiece pump P, which is actually located in the tip region of the upper half shell 2, forms a driving button 19 which extends vertically with its upper structure. Away from its recessed drive area, there is a lateral, upwardly sloping mouthpiece 20. The mouthpiece has a tubular shape at least in the end region, and it is suitable for conveying a pasty or fluid composition M forming a whole mass. Negative pressure is applied by the mouthpiece pump P to obtain a strong result that the capsule 10 is completely cleared. It starts to sag and then increases the contraction in the distribution direction to face the volume according to the volume of the capsule 10. The gap of the mouthpiece pump P of the half shell 10 312 Invention Specification (Supplement) / 92-10 / 92120065 200404720 can obviously maintain accuracy. The conveying direction is indicated by the arrow y. It conforms to the longitudinal central axis X-X and goes into the drive button 19 in a slightly rising lateral direction. The driving button 19 with the mouthpiece 20 can be rotated around the longitudinal center axis X-X. It allows the individual to facilitate the distribution, whether it is beyond the long axis or short axis of the container's equatorial contour or beyond the steplessly achievable middle area. As pointed out previously, this conveyance does not leave any residue, because the grille 21 is placed in front of the channel area 13 of the container 1, and the inner wall of the upper half shell 2 of the container and the empty mouthpiece pump P between. The grid filling channel area 13 is convexly curved slightly into the area of the filling volume with respect to the direction of the transport arrow y. It is taut in this way. The grid 21 may be a separate component. However, it can also be molded into a basket-like shape on the upper half shell 2 in advance. As can be seen, the assembly comprises an outer ring 2 2 and an inner ring 2 3 joined by a radial mesh 24 (refer to Figure 4). There are six radial nets 2 4 which are precisely spaced at equal angles to each other. Another means for distributing the pasty composition M without substantial residue is to provide on the inside the supporting ribs 25 of the half-shell 2 and the capsule 10 equipped with an empty mouthpiece pump P. The capsule is then not available (even partially) in this way. More specifically, the flow supply path W is kept open by the exposure system of the pillars of the support ribs 25 (see FIG. 7). The capsule 10 or its wall can be moved in a regular manner toward the channel area 13 in the direction of the transport arrow y. Since the grille 21 is formed separately, it rests on the outer ring 22 of the head 2 5 'of the support ribs 2 5 protruding into the passage area 13. The outer ring is clamped on it. 11 312 Invention Specification (Supplement) / 92-10 / 92120065 200404720 All in all, eight support ribs 25 provided at the same angle are provided. These may be integrated. The rib height continuously increases in the channel area 13 direction and tapers in opposite directions on the inner surface portion of the shell surface 2. It can also be seen from FIG. 3 that the base area 26 of the capsule 10 is formed as a wall which is thicker than the wall adjacent to the capsule 10 in the form of a cover. The thickness system is selected so that the entire contraction capacity is not impaired, i.e. the contraction behavior is maintained. The thickening acts like a slightly hardened discharge base. The thickening may extend beyond the entire base area 26, however, as may be apparent, or may only be formed as an annular channel. The dispenser SP has a protective cover 27 on the head. It can also avoid unnecessary release of the contents, for example, when the container 1 is carried in another bag in a bag or the like. The relative position of the protective cover 27 is limited. For example, the shoulder portion 28 is formed by a stepwise transition between the joint piece 17 and the annular hoop 18. The lid-like body can be frictionally mounted; however, a screw joint can also be used, such as the preferred example here (see Figure 8). The hoop 18 received in the joint piece 17 is part of the insert 29 received in the dispenser head. The ring hoop is stopped on the constituent side close to the base 30. A part of the cylinder 31 is extended from the base 30 and forms the aforementioned empty mouthpiece pump P. The system operating in the cylinder 31 is a piston 32, which can be placed relative to the drive button 19 by a spring load. This piston forms the upper limit of the pump chamber 33, and its lower stop is close to the base 30. An inlet valve V1 is provided in the base 30. It is a non-return valve, which controls the flow according to the circular opening 34 of the base 30, which is composed of an elastomeric material, according to the specification of 12 312 (Supplement) / 92-10 / 92120065 200404720. Sitting on the piston head 35 is an outlet valve V2. It is also an elastomeric component that operates in a non-revertive manner. The outlet valve V 2 keeps the passage opening 36 closed. After the outlet valve 2, there is an intermediate chamber 37, which is fluidly engaged to an intermediate passage 38, which is connected to a drive button 19 of the piston 32. The intermediate channel 38 itself then engages the mouthpiece 20. The rotating shaft 39, which is used to form the intermediate chamber 37 and also to receive the central channel 38, is attached to the piston 32, which is behind the piston head 35, and is hollow. It can be seen from the figure that the functional unit is appropriately adapted to operate therein. The joint 40 also helps. The cover shape is also the same. The lid opening is pointed in the direction of the container 1. Its upper part is firmly connected to the drive button 19. On the outside, the cap-shaped engaging portion 40 is fitted with the annular stop protrusion 41. The stop protrusion interacts with the shaft groove 42 which provides a relative stop on the inside of the annular hoop 18. This annular width determines the stroke and is designed to achieve the forming gap of the pump chamber 3 3. The lid-shaped joint 40, like the annular wall of the cylinder 31, which opens in the opposite direction, helps the creation of the spring chamber 43. The spring chamber receives a compression spring 4 4. The latter mounts the drive button 19 in the direction of the basic position, as shown in FIG. 8. For this purpose, the spring action at the upper end is applied against the upper part of the cap-shaped joint portion 40, and the spring at the end facing the supply of the composition is applied against the base 30, and as a result, it is formed Fixed engagement. The transfer of the paste to the flowable composition M enters the distribution area of the dispenser Sp 13 312 Invention Specification (Supplement) / 92-10 / 92120065 200404720 domain, which is initially the pump chamber 3 3, exceeding the relatively wide range. The pedestal takes place and does not pass through a centrally located pathway. This is practically embodied by the inlet opening of the air mouthpiece pump P, which is adjacent to the grille protection channel area 13 and is formed into a ring-shaped opening 3 4 that operates concentrically with the capsule 10. The annular opening 34 formed in the base 30 is interspersed, and is located between the central channel of the base and the base area, wherein the base area is concentrically radially adjacent to the ring by the mesh 4 5状 口。 Like opening. The webs 4 5 arranged in the form of spokes are preferably extendable so that they can be spaced from each other at equal angles. A similar advantageous variation is the formation of the annular opening 3 4 by the holes of the ring. These holes are similarly spaced from each other in the peripheral direction. The mesh-interruption system is interpretable and the ring of the orifice system can also be selectively used with respect to the passage opening 36 in the area of the outlet valve V 2. According to the basic form of the ring-shaped opening 34 and the channel opening 36, both of them continue to enter the wider funnel-shaped part in the direction of the conveying arrow y, which is screwed in countersunk holes . During the release process, it assists the lifting of the valves V1, V2 to open them. This can achieve all the effects: the restricted area of the composition M can be said to be "sucked" by the negative pressure of the pump P in the direction of the conveying arrow y, and is supplied beyond the wide part before the transfer area, By simply eliminating the tilt of the pouch 10, it is possible to form a bag and trigger a blockade, especially at the end of the distribution. This excellent effect can be further enhanced by a ring-shaped opening having a capture funnel 46 on the side facing the composition M. The capture funnel is integrated in the base 30 and has a wall that diverges in a rotationally symmetric manner with the arrow y opposite to the distribution direction 14 312 Specification (Supplement) / 92-10 / 92120065 200404720. The diameter of the annular opening 3 4 substantially corresponds to the diameter of the channel area 13 or the grid 21. What still needs to be described is that the completely pre-assembled empty mouthpiece pump P can be attached to the neck of the container 1 (meaning the joint piece 17) by being screwed. The symbol of this screw is 4 7. At the height of the inlet valve V1, there is a spiral restricted area 48. Pointing into the shell, this spiral restriction continues to the shoulder wall, which carries the grille 21 in the manner described above. There is still a distribution anterior chamber between the grille 21 and the base 30, which cannot be filled with the capsule wall. The conveying takes place in the following manner: the drive knob 19 is moved downwards to reduce the volume of the pump chamber 33. The composition M located therein cannot escape in the supply direction due to the closing action of the inlet valve VI. Next, the composition contained in the opening 36 of the passage is conveyed to the central passage 38 through the intermediate chamber 37, and appears there through the mouthpiece 20. This path is released by the opening operation of the outlet valve V 2. If the driving button 19 is released after transportation, the return displacement of the piston 32 will occur in the direction of the initial basic position. This causes a negative pressure in the pump chamber 33. Accordingly, the composition M is refilled from the supplier. Entrance wide V1 opens. Due to the closing action of the outlet valve V 2, outside air cannot enter. The return displacement occurs due to the force of the compression spring 44. All features disclosed (in themselves) are relevant to the present invention. The disclosure of this related / additional priority document (a copy of the previous patent application) is also incorporated herein into the disclosure of this patent application, and its purpose includes the integrated features of these documents in the scope of the patent application for this application. [Brief description of the drawings] 15 312 Invention Specification (Supplement) / 92_ 10/92120065 200404720 The subject of the present invention is explained in more detail according to the following specific examples of diagram explanation, where: Figure 1 shows the dispenser standing alone Unit form and side view (slightly enlarged) covered by the protective cover; Figure 2 is a plan view of the dispenser; Figure 3 is an exploded view of the dispenser; Figure 4 is a half shell of a container with an empty mouthpiece pump Inside view showing the supporting ribs of the capsule. Figure 5 is a longitudinal sectional view of a container passing through the dispenser, the edges of which have not yet been joined. Fig. 6 is an enlarged view at VI of Fig. 5; Fig. 7 is a cross-sectional view in the region of a support rib; and Fig. 8 is a longitudinal cross-sectional view through the air nozzle pump, which is an enlarged view of a giant part. (Explanation of component symbols) 1 Container 2 (upper) half shell 3 (lower) half shell 4 flange 5 flange 6 standing surface 7 corner pillar 8 end edge 9 channel 10 嚢 11 edge 16 312 invention specification (supplement) / 92 -10/92120065 200404720 12 Junction 13 Channel area 14 Standing edge 15 Base 16 Air compensation opening 17 Joint piece 18 Ring hoop 19 Driven in ugly 2 0 Blow mouth 21 Grille 22 Outer ring 23 Inner ring 2 4 Radial net 2 5 Support rib 25 'Head 26 Base area 27 Protective cover 28 Shoulder 2 9 Insert 3 0 Base 3 1 Cylinder 3 2 Piston 33 Pump chamber 34 Circular opening 17
312發明說明書(補件)/92-10/92120065 200404720 35 活 塞 頭 部 36 通 道 開 V 37 中 間 室 38 中 間 通 道 39 轉 軸 40 接 合 部 41 環 狀 停 止 突 起 42 軸 槽 43 彈 簧 室 44 壓 縮 彈 簧 45 網 46 捕 捉 漏 斗 47 螺 絲 48 螺 旋 限 制 區 Sp 分 配 器 W 流 動 供 應 路 徑 P 吹 π 幫 浦 Μ 糊 狀 至 流 動 性組成物 VI 出 口 閥 V2 入 閥312 Invention specification (Supplement) / 92-10 / 92120065 200404720 35 Piston head 36 Channel open V 37 Intermediate chamber 38 Intermediate channel 39 Rotary shaft 40 Joint portion 41 Ring stop protrusion 42 Shaft groove 43 Spring chamber 44 Compression spring 45 Net 46 Capture funnel 47 Screw 48 Spiral restriction area Sp Distributor W Flow supply path P Blow Pi Pump M Paste to fluid composition VI Outlet valve V2 Inlet valve
312發明說明書(補件)/92-10/92120065 18312 Invention Specification (Supplement) / 92-10 / 92120065 18