201217244 六、發明說明: 【發明所屬之技術領域】 本發明係關於一種用於儲存或輸送液狀食品或藥 品,特別是電子工業用藥品等液體的液體用容器、其所 使用的襯套筒、及將該襯套筒裝配至容器本體的裝配方 法。 【先前技術】 過去,為了要儲存或輸送液狀食品或藥品等液體, 一般會使用金屬製或塑膠製容器。由於該種類之容器價 格高,因此一般不會用過即丟,而會洗淨再重複使用。 然而,這種谷斋多具備有將充填於内部之液體取出用的 閥構造,S亥部分之清洗相當繁瑣。又,使用這種容器來 儲存或輸送電子工業用藥品之情況,欲重複使用容器 时’品對洗淨後谷益内之殘留粉塵進行管理,相當勞心 勞力。 為了改善這種問題點,近年來,提出有一種液體用 容器,其將由合成樹脂膜等所製成之内側襯套筒與具鋼 性之外框容器組合使用,藉由於每次使用後交換該内侧 襯套筒’便可省略或簡化洗淨,再纟,能流暢地排出内 容物直到最後(專利文獻1及2)。 專利文獻1或2所揭露之液體用容器用的襯套筒係 安裝有充填液體用的注入口、另收*试 ^ ^ , 及將充填之液體排出用的 排出口用開口組件。該開口組# , ,且件亦稱作流出口(spout)。 該流出口係用以將襯套筒連社s „十Μ上〜 丈、、Q至谷裔底部或容器所具備 之附有閥的排出管,使得充埴於_ & & π填於襯套筒之液體會經由流 -4- 201217244 出口及排出管而排出至外部。 因此,這種液體用容器用的襯套筒需在充填液體前 先設置流出口。將流出口裝配至襯套筒時,例如,需藉 由將冶具插入襯套筒内部以在襯套筒開口等作業,來裝 配流出口。但是,進行這種一連串作業時,異物混入襯 套筒内,導致襯套筒内部受到污染。 又,前述專利文獻1或2所揭露之液體用容器用的 襯套筒係包覆液體用容器之本體部分,故充填之液體不 會接觸至容器本體。但是,在通過流出口之後,液體會 直接接觸排出管内侧。其結果,需對排出管進行清洗, 未充分清洗時,排出管内之污染或殘留粉塵會造成問題。 亦提出有用於改善這種問題的方法。即,專利文獻 3揭露一種容器用器具用的内袋,不僅是容器本體部, 於排出管之部分亦具有液體不會直接接觸的構造。但 是,該容器用器具用的内袋不但因構造複雜而製造成本 高,更因需對内袋本體安裝安裝筒等組件,故並未解決 污染内袋内側的問題。 [先前技術文獻] [專利文獻] 專利文獻1 :曰本特開平8-337288號公報 專利文獻2 :日本特開2004-244104號公報 專利文獻3 :日本特開2007-302273號公報 專利文獻4 :日本專利3464232號 【發明内容】 [發明所欲解決的課題] 201217244 本發明係提供一種讓儲存於液體用容器内液體不僅 不會接觸容器本體内部,亦不會直接接觸排出管内部, 又不會讓儲存之液體受異物等污染的液體用容器,以及 這種液體用容器的裝配方法。 [用於解決課題的手段] 本發明之液體用容器,係具備有: 液體收納部’係由液體容器本體、與設置於該液體 容器本體下部的排出管所組成; 閥構件,係由排出管連結管與閥所組成; 以及内側概套筒’係可將液體儲存於内部; 該内側襯套筒係具備有襯套筒本體部分與管狀液體 排出部分; 該管狀液體排出部分係以貫穿該排出管内部,而使 該管狀液體排出部分之内側與該排出管連結管連結的方 式配置,該管狀液體排出部分之端部被失在該排出管與 該排出管連結管之間而固定。 又’本發明之液體用谷益之裝配方法,係用以裝配 該液體用容器; 將§亥概套简之觀套简本體部分捲起或摺最使襯套筒 形成棒狀’以管狀液體排出部分為前端而插入液體容器 本體; 使該管狀液體排出部分貫穿排出管; 將該管狀液體排出部分之端部擴大,失在排出管之 端部與閥構件之排出管連結管之端部之間而壓著固定。 又,本發明之内側襯套筒,其特徵為用於前述液體 201217244 用容器。 [發明的效果] 可 提 供 —, 種 抑 制 儲 即 , 益 需 於 内 侧 襯 混 入 襯 套 筒 内 部 , 即 便 不 進 行 容 器 之 部 襯 套 筒 之 構 造 並 存於内部之液體污 套洵處設置安裝構 藉由於每次使用後 清洗,亦不會污染 不複雜,故製造成 依照本發明, 染的液體用容器。 件等’故異物不會 交換内部襯套筒, 内部。再者,因内 本低。 【實施方式】 以下,詳細說明右關太政 有關本發明之實施形態。 第1圖(A)係本發明一實 、 汽她形態之液體用容器1 〇〇之 側視圖。此處,液體收納邱 版收納。Ρ 1〇〇Α係固定於液體用容器 外框104,該液體收納部1〇〇 υΑ係由金屬製液體容器本體 101、與設置於其底部排 1 <徘出官1 05所構成。液體容器本 體之上侧部設置有開口部1〇2,將後述之内側襯套筒從 -亥開口邛102 ν入至液體容器本體内,並將液體充填至 其内側襯套筒内。開口部〗、 亦可始終開放,但一般合 於液體充填後以蓋組件1〇3加以密封。 曰 。排出管105係由中空管所組成,在如圖示之液體用 容器中’形成從液體容器本體1〇1之底部垂下並從中 途彎曲的形狀。該排出管105之液體容器本體的反對側 知邓,則藉由夾具11 〇來固定排出管連結管i〇9與其所 連接之由閥108所組成的閥構件1〇〇B。另外,在如圖示 之液體用容器中,排出管1〇5之端部設置有套$ (么)1 06,排出官連結管109之端部則設置有與前述套環 201217244 106嵌合的套環(母),它 s山 纟疋肷&的。如後述,藉由 這種套環可防止液體漏出,故而較佳。曼这猎由使用 第W(B)係液體收納部驗及 剖面圖。液體收納部100A中 千 之概略 中以户峻f - A 中插入有内側襯套筒200(圖 中以虛線表外f狀液體排出部分之端部則被夾在套環 106及107之間,而予以固定〇 义 疋 Θ内侧襯套筒200之內 部係從液體導人部分而導人液體,於完成導人之後,一 般會將液體導入部封閉。封閉液體導人部的方法可任立 選擇’並無㈣限^’例如可㈣綁液體導人部的方^ 二熱封(heat seal)加以封閉等方法、或藉由將液體導入部201217244 6. TECHNOLOGICAL FIELD OF THE INVENTION The present invention relates to a liquid container for storing or transporting liquid foods or medicines, particularly liquids for electronic industries, and the like, and a liner sleeve thereof. And a method of assembling the liner sleeve to the container body. [Prior Art] In the past, in order to store or transport liquids such as liquid foods or medicines, containers made of metal or plastic were generally used. Since the container of this type is expensive, it is generally not used, but it is washed and reused. However, this type of glutinous rice has a valve structure for taking out the liquid filled in the inside, and the cleaning of the S-hai portion is rather cumbersome. Further, when such a container is used to store or transport the electronic industrial medicine, it is very laborious to manage the residual dust in the valley after washing. In order to improve such a problem, in recent years, there has been proposed a liquid container which is used by combining an inner liner sleeve made of a synthetic resin film or the like with a steel outer frame container by exchanging the use after each use. The inner liner sleeve ' can be omitted or simplified, and the contents can be discharged smoothly until the end (Patent Documents 1 and 2). The lining sleeve for a liquid container disclosed in Patent Document 1 or 2 is provided with an injection port for filling a liquid, an additional test, and a discharge opening assembly for discharging the filled liquid. The opening group # , and the piece is also referred to as a spout. The outflow is used to connect the liner sleeve to the s „ Μ Μ 〜 、 、, Q to the bottom of the valley or the valve with the valve with the discharge pipe, so that the _ && π fill in The liquid of the lining sleeve is discharged to the outside via the outlet -4-201217244 outlet and discharge pipe. Therefore, the lining sleeve for the liquid container needs to be provided with an outflow port before filling the liquid. In the case of a cylinder, for example, it is necessary to assemble the outflow port by inserting the jig into the inside of the lining sleeve to operate the lining sleeve opening, etc. However, when performing such a series of operations, foreign matter is mixed into the lining sleeve, resulting in the inside of the lining sleeve. Further, the liner sleeve for a liquid container disclosed in the above Patent Document 1 or 2 covers the body portion of the liquid container, so that the filled liquid does not come into contact with the container body. However, after passing through the outflow port The liquid will directly contact the inside of the discharge pipe. As a result, the discharge pipe needs to be cleaned. When the cleaning is not sufficiently cleaned, the contamination or residual dust in the discharge pipe may cause problems. A method for improving the problem is also proposed. Document 3 discloses an inner bag for a container device, which is not only a container body portion but also has a structure in which a liquid does not directly contact a portion of the discharge pipe. However, the inner bag for the container device is not only complicated in construction cost but also has a manufacturing cost. In the case of the inner bag body, it is necessary to install a mounting cylinder and the like, and the problem of the inside of the inner bag is not solved. [Prior Art Document] [Patent Document] Patent Document 1: 曰本特开平8-337288号 Patent Literature [Patent Document 3] Japanese Patent Laid-Open Publication No. Hei. No. 2007-302273. Patent Document 4: Japanese Patent No. 3464232 [Draft of the Invention] [Problems to be Solved by the Invention] 201217244 The present invention provides a storage method. In the liquid container, the liquid does not contact the inside of the container body, nor does it directly contact the inside of the discharge tube, and does not allow the liquid to be contaminated by the foreign matter, and the assembly method of the liquid container. Means for Solving the Problem] The liquid container according to the present invention is characterized in that: the liquid storage portion is a liquid container body and is provided in the liquid The discharge pipe is composed of a lower part of the container body; the valve member is composed of a discharge pipe connecting pipe and a valve; and the inner sleeve is for storing the liquid inside; the inner liner sleeve is provided with a sleeve body portion And a tubular liquid discharge portion; the tubular liquid discharge portion is disposed to penetrate the inside of the discharge pipe, and the inner side of the tubular liquid discharge portion is coupled to the discharge pipe connection pipe, and the end of the tubular liquid discharge portion is lost The discharge pipe is fixed between the discharge pipe and the discharge pipe. Further, the assembly method of the liquid for use in the present invention is for assembling the liquid container; and the body portion of the shovel is simplified. Or folding the liner sleeve into a rod shape to insert the liquid container body with the tubular liquid discharge portion as the front end; the tubular liquid discharge portion is inserted through the discharge tube; the end portion of the tubular liquid discharge portion is enlarged, and is lost in the discharge tube The end portion is press-fixed between the end portion of the discharge pipe connecting pipe of the valve member. Further, the inner liner of the present invention is characterized by being used for the container for the liquid 201217244. [Effects of the Invention] It is possible to provide a kind of suppression storage, that is, it is necessary to mix the inner liner into the interior of the liner sleeve, even if the structure of the liner sleeve of the container is not carried out and the liquid waste jacket is stored inside, the installation structure is provided. It is not complicated to be cleaned after each use, and is thus manufactured into a container for dyeing liquid according to the present invention. Pieces, etc., so foreign objects do not exchange the inner liner, inside. Furthermore, it is low due to internal costs. [Embodiment] Hereinafter, embodiments of the present invention will be described in detail. Fig. 1(A) is a side view of a container 1 for a liquid in the form of a vapor and a vapor of the present invention. Here, the liquid is stored in the cabinet. The Ρ 1 固定 is fixed to the liquid container outer frame 104, and the liquid accommodating portion 1 is composed of a metal liquid container body 101 and a bottom row 1 < An opening portion 1〇2 is provided on the upper side of the liquid container body, and an inner liner sleeve, which will be described later, is introduced into the liquid container body from the opening of the liquid container, and the liquid is filled into the inner liner sleeve. The opening portion may be always open, but is generally sealed by the lid assembly 1〇3 after the liquid is filled. Oh. The discharge pipe 105 is composed of a hollow pipe, and is formed in a liquid container as shown in the figure to form a shape that hangs from the bottom of the liquid container body 1〇1 and is bent from the middle. The opposing side of the liquid container body of the discharge pipe 105 is fixed by the clamp 11 〇 to fix the discharge pipe connecting pipe i〇9 and the valve member 1B composed of the valve 108 connected thereto. Further, in the liquid container as shown in the drawing, the end portion of the discharge pipe 1〇5 is provided with a sleeve $(M) 106, and the end portion of the discharge official connection pipe 109 is provided with the aforementioned collar 201217244 106. Loop (mother), it's hawthorn & As will be described later, such a collar prevents leakage of liquid, which is preferable. This is a cross-sectional view of the W (B) liquid storage unit. In the outline of the liquid accommodating portion 100A, the inner liner sleeve 200 is inserted into the household sinker f - A (the end portion of the f-shaped liquid discharge portion outside the dotted line is sandwiched between the collars 106 and 107, The inner portion of the inner liner sleeve 200 is fixed to guide the liquid from the liquid guiding portion, and after the completion of the guiding, the liquid introduction portion is generally closed. The method of closing the liquid guiding portion can be arbitrarily selected. 'There is no (four) limit ^', for example, (4) the method of tying the liquid guide, sealing the heat seal, etc., or by introducing the liquid into the section
利用開口部1 〇 2盘苔植株]〇 1 + v+ I ι組件103夾住而加以封閉的方法。 ::液體用容器所儲存的液體會經由閥1〇8而取出至外 :發明令’液體用容器之容量並無特別限定,可根 據儲存之液體的種類或用途、抑或根據液體用容器本身 的操作性等,可採用任意大小而無特別限定。例如,以 =ΓΓ液體用容器’且於工場内等以推高機來進 仃搬運m容量為丨卜顯公升左右。但是,作為 :大型之液體用容器,例如亦可適用於槽車 槽室’在那種情況下,本發明之液體用容器的容量亦 可^麵〜1G_公升°特別是用於電子工業用藥品用 之情況,500〜2〇〇〇公升者是較佳的。 本發明之液體用容器係於液體容器本體1〇1之内 侧備了具有特定形狀的内側襯套筒。本發明之液體 用谷盗中,液體係充填於該内側襯套筒内部。 201217244 該内側襯套筒之形狀係例如第2圖(A)所示。内側概 套筒200係設置有儲存液體用的襯套筒本體部分工、 管狀液體排出部分202、以及將液體充填至襯套筒本體 時用以將液體導入的液體導入部分2〇3。 — 襯套筒本體部分201係作成相應於液體容器本體 101形狀及容量的形狀及容量。本發明之液體用容器中, 液體係儲存在收納於液體容器本體丨〇丨之襯套筒本體部 201内側。因此,當襯套筒本體部分2〇1比液體容器本 體101過小時,充填液體後於襯套筒本體部分2〇1與液 體容器本體1 0 1之間會產生間隙,當輪送時等便有可能 造成襯套筒本體部分201破損。另一方面,當襯套筒本 體部分20 1比液體容器本體丨〇丨過大時,在液體容器本 體101内部,會使襯套筒本體部分2〇1產生過大之皺摺, :排出液體時可能因無法將内部之液體完全排出而造成 損失。因此,將内侧襯套筒之形狀作成立體狀,且形成 為與液體容器本體之形狀一致者是較佳的。但是,在使 用如後述的平面狀概套筒之情況下,一般會使用尺寸較 液體用本體梢大者’冑其緊密貼附於液體容器本體内側 而使用。考慮襯套筒内部之清淨度或製造成本時,使用 這種平面狀襯套筒者是較佳的。 又’管狀液體排出部分202係如後沭拉 迎般插A排屮普 105内侧的部分。接著,管狀液體排出 排出& 105之鳊部處由套環1〇6及1〇7所固… 管狀液體排出部分202之長度一般形成& ’因此’ 之長度更長。 成為較排出管 201217244 液體導入部分203係用以將液體充填至襯套筒本體 部分201之内部,該形狀並無特別限^。例如第2 圖所示’可與管狀液體排出部分相同,從襯套筒本體部 分201形成為管狀。依此方式形成之情況,在將液體導 入之後’可藉由將管狀部分綑綁等加以封閉,抑或藉由 熱封等來加以封閉。又’亦可藉由扭轉液體導入部分 203,並以扣具加以密閉、或夾入開口部1〇2與蓋組件 1〇3之間等方法來進行密閉。另外,液體導入部分2〇3 一般位於較所充填之液體更高的部分,除了當搬運時等 施加振動之情況以外,該部位與液體接觸的機會少,因 此,液體充填後該部分之清淨度無需像液體排出部分般 嚴格管制。因此,能在液料入部分形成螺帽(screwcap) 等之密閉結構,但為了減少襯套筒内部污染之危險性、 降低製造成本,形成那種密閉結構之利點少。 這種襯套筒本體部分2〇1係可依照其目的而由任意 材料製成。此處,由於襯套筒之内側會與充填之液體直 接接觸,所以對液體之耐藥品性高,且溶解性低者是較 佳的。又,另一方面,由於在輸送時等會對襯套筒本體 施加應力,所以耐刺穿性或耐衝擊性等強度高者是較佳 的另外。欲對液體容器本體1 0 1之内側面柔軟地緊密 貼合之情況,強度亦可為不重要的。再者,不會讓液體 或氣體透過者是較佳的。 作為概套筒本體部^ 刀之材料一般會使用膜,亦可不 選用同時滿足上述戶斤有條彳I 4«· 〇 M ^ ^ ’條件者,而是使用多層結構膜使 正粗膜獲得充分的特性。 例如,在接觸液體之内側層使 -10- s •201217244 在與液體容器本體 擊性高的材料,使 由使用同一種材料 強度。這種情況, 以上。另外,此處 最外側的層稱作外 間層。 觸液體的内側層較 材料。又,當與外 。由這樣的觀點來 者,以熱封強度或 為分子量分佈狹窄 觸液體之外側層或 等機械特性、或对 隔性(gas bairier)。 容器本體與内側槻 之液體推出的使用 重要。再者,由於 以耐摩擦性高者為 誤等而使液體接觸 的等級高,但仍以 看,較佳地,外側 由低密度聚乙烯、 用财藥性高材料, 用耐摩擦性或耐衝 積層的膜。又,藉 構,亦可增加膜的 構,亦可作成3層 稱作内侧層,位於 中間之層則稱作中 首先’直接接 及耐溶解性優良的 低溫密封性優良者 較佳為聚乙烯,再 的觀點來看,較佳 乙烯。 又’不直接接 刺穿性或耐衝擊性 或溶劑等之氣體阻 用將氣體導入液體 填於内側襯套筒中 下氣體阻隔性變得 本體直接接觸,故 液體時’因操作錯 不像内側層所要求 佳。 由這種觀點來 的膜材料係由選自 接觸之外側層則使 用利用層壓將它們 作成2層以上之結 膜不限定為2層結 將位於最内側的層 側層,而位於它們 佳為使用财藥品性 側層積層時更佳為 看,内側層之材料 對充填藥液之影響 '直鏈狀低密度聚 中間層,則要求耐 氮、氧、水蒸氣、 特別是,有時會採 套筒之間,以將充 方法,在這種情況 外側層與液體容器 較佳。又,當充填 外側層,因此,雖 耐藥品性高者為較 層或中間層所使用 中密度聚乙烯、高 201217244 雄度聚乙烯、直鏈狀低密度聚乙稀 共聚體、及乙烯-醋酸乙稀酯共聚體 種或一種以上所組成的樹脂。其中 直鏈狀低密度聚乙烯更佳。 、小·丙稀 所構成之 、乙岬-丙烯 群組中之— 以聚乙烯為較佳, 氣體阻隔性, 乙埽-乙烯醇 、聚丙烯、尼 又,為了賦予氧或水蒸氣、溶劑等之 亦可使用銘、鋼等金屬箱;或者聚乙烯醇 共聚體等膜;抑或聚酯、聚醯胺、聚乙 龍等來作為膜材料。 :的而使用作成組合複數層 设數層之由相同材料所組成 方之膜因在進行襯套筒插入 抑或因膜本身的不良而有針 構造,故可防止漏液。又, 組合,以作成兼具各種獏特 無需貼合膜之整面,例如, 複數的膜之情況下,雖可使 的方法是較佳的。使用熱封 筒形成時,能同時進行複合 故而較佳。 料所組成之膜重疊者之情況 但是’將由相異材料所組成 它們之接觸面係由相異材料 行熱封會有困難。例如,欲 組成之複合膜之情況’它們 這種情況,較佳地,係在一 這些膜材料,係可依照 膜的複合膜。例如,利用將 之膜重疊的多重構造,當一 時之接觸等而破裂的情況, 孔的情況’由於膜具有多重 可將由相異材料所組成之膜 性的複合膜。此處,複合膜 亦可僅貼合端部等。在貼合 用接著劑等,但以熱封貼合 之情況’如後述般在使襯套 膜之貼合與襯套筒之形成, 在複合膜係將由相同材 ^ ’將它們熱封是容易的。 之臈重疊以形成複合膜,在 所組成之情況,有時直接進 使用由聚乙烯膜與尼龍膜所 便無法輕易地進行熱封。於 -12- 士 了於機械強度大之膜的表面,使用被覆由耐藥品 或氣體阻隔性優良之材料所組成的層之多層材料等。 内側襯套筒200係使用前述般材料所形成,但形 方法並無特別限定。例如,如第2圖(B)所示,可將管 4膜壓成平坦狀,於其4個角部設置L字型之熱封 4以。亥部分使其熔著後,再將剩餘部分2 0 5去除, .201217244 方之膜的接觸面,設置由能輕易地與另—方的膜熱封 材料所組成的熔著層。例如,使用由聚乙烯膜與尼龍 所組成之複合膜的情況’藉由預先在尼龍膜之—方之 形成聚乙烯層,可將它們作成容易熱封者。這種炫著層 例如可在形成膜時,使用共擠壓(co-extrusion)來形成 當共擠壓時,亦可設置有用於防止膜本體與熔著層剝 的接著層。 又’複合膜亦可為由共擠壓等所形成的多層膜。 此製成平面狀襯套筒。又,亦可將薄板 圖(A)所示形狀,將複數個切割好之膜重 以熱封或接著劑加以接著,藉以製成平 處,管狀薄膜或薄板狀膜可為單—之膜 膜重疊者。這種’冑複數個可相互熱封 在進竹熱封以形成襯套筒時,亦可藉由 封,而由複合膜形成襯套筒。另外:使 内側襯套筒叫吏其炫著或接著的部分較 情況少可保持高清淨度故而較户 側襯套筒200裝配至液體用容器時需在 分202之末端部開口 Lh -13 - 狀膜切割呈第 疊,並將周邊 面狀襯套筒。 ,亦可為複數 的膜重疊使用 將膜彼此進行 用管狀管來製 使用薄板狀膜 。另外,當將 管狀液體排出 襯套筒本體部 之 膜 面 , 〇 離 例 性 成 狀 部 藉 2 部 此 個 敎 4 作 之 内 部 分 201217244 201時需在液體導入部分203開口。但是,只要它們在 導入液體時形成有開口即可,當形成襯套筒本體部分2〇1 時、及當設置於液體容器本體内部時它們無需開口。若 是在導入液體前封閉便可防止異物入侵内部而保持内部 的清淨度。於此情況’在需要時藉由切斷來開口。 在使用液體用谷器之前,將依此方式所形成之内側 襯套筒200設置在液體容器本體101内。一邊參考圖式 一邊說明此設置的順序,如下所示。 首先,較佳地,在將内側概套筒2〇〇導入至液體容 器本體101内之前,將襯套筒本體部分2〇1捲起或摺疊 等來呈細棒狀(第3圖(A)及(B))。一般來說,這是因為位 於液體容器本體1〇1之上部的開口部102係開口部面積 小,所以容易地將内側襯套筒200插入的緣故。接著, 以管狀液體排出部分202作為前端,將内側襯套筒2〇〇 插入液體容器本體内部,再將管狀液體排出部分2〇2插 入至設置於液體谷益本體101之下部的排出管1〇5内 部’並將管狀液體排出部分202之前端部從排出管i 〇5 之端部拉出(第3圖(C))。其結果’管狀液體排出部分2〇2 貫穿排出管105。 在管狀液體排出部分202之前端被封閉之情況下, 係在從排出管1 05處拉出後切斷,作成筒狀。讓作成筒 狀之管狀液體排出部分的前端擴大,反摺而包覆於設置 在排出管105末端的套圈(ferrule)(公)106(第3圖(D))。 其次,安裝閥構件1 0 〇 B。將管狀液體排出部分2 〇 2 之反摺端部夾入並壓著。另外’若反摺端部處形成有皺 -14 - 5 201217244 摺,會在壓著部分產生間隙,成為液體漏出的原因,因 此較佳地,管狀液體排出部分202之開口徑與排出管1 05 之開口徑係相同程度。在於排出管及排出管連結管設置 有套環之情況下,使套環(公)1 06與套環(母)1 07嵌合(第 3圖(E))。再者,使用夾具1 10等來將閥構件100B固定 於排出管105(第3圖(F))。藉由這種結構’襯套筒之一 部分,即管狀液體排出部分之端部’發揮堵塞(packing) 的功能,以防止液體漏出。 依此方式,安裝有内侧概套筒200的液體用容器 中,以襯套筒本體部分201來包覆液體容器本體101之 内部,並以管狀液體排出部分202來包覆排出管105之 内部,故充填至内侧襯套筒内部的液體不會直接接觸液 體容器本體101或排出管105内部。因此’使用本發明 之液體用容器的話,便可藉由每次使用後交換内側襯套 筒200,而不必清洗液體收納部1 〇〇A之内部,具體來說 液體容器本體101及排出管105的内側,又,充填至内 部之液體不會接觸容器等而受到污染。 為了容易地進行内側襯套筒2〇〇之安裝,可於管狀 液體排出部分202之前端安裝錘。即,由於内側襯套筒 200材料的相對比重輕,所以在開口部丨〇2狹窄的液體 容器本體1 0 1内部,可能難以將管狀液體排出部分2〇2 之則端誘導至位在底部的排出管1 〇 5。於是,能藉由在 管狀液體排出部分2 0 2之前端安裝錘,來利用重力將前 4輕易地誘‘至排出管1〇5。此時’若將液體容器本體 之底部形成鍾狀,便可更容易進行操作。 201217244 又,亦可於管狀液體排出部分安裝強磁性體,以取 代錘。如此一來,可從排出管端部將磁石插入,藉由磁 石吸引管狀液體排出部分202的前端靠近,並從排出管 105拉出。 又,連結排出管105端部與閥構件1〇〇B的套環 (公)106與套環(母)107係可依目的任意選用。又,套環(公) 與套環(母)亦可反過來安裝。再者,視用於結合的夾^ U〇而定’亦可不是設有所謂山部的套環,接觸面為平 坦者。另外,本發明中,即使是這種接觸面平坦之組件, 為了方便起見亦稱為「套環」。 性不充 來說, 環,但 套環, 佳地, 。具體 口部具 出之觀 一實施 谷部分 造成本 本性能 ,較佳 然而’若排出管105與閥構件1〇〇B的密著 分’則有充填於内部之液體漏出的可能性。一船 於管之接合部分等處多會裝配液體漏出用的〇型 於本案發明中,藉由夾入結合部之内側襯套筒與 便不需要這種〇型環,並可省略其交換手續。_ 為了達成這種目的,本發明之套環形狀為特殊者 來說,較佳地,本發明之套環為如下述的形狀。 較佳地,用於本發明之較佳的套環係沿著開 有圓狀的山部分或谷部分;特別是從防止液體漏 點來看’各自成為2道者是較佳的。這種套環^ 形態的剖面圖如第4圖(A)及(B)所示。山部八或 亦可為3道以上,但相對於結構複雜化而套二製 增加’並未顯著改善液體漏出防止效 〇 : (cost perf0rmance)之觀點作成2道是有利的。 於套環(公)處,為了改善液體漏出防止效果 -16- 201217244 為内側< 將内側 又 度Θ 1 — 402之 常,Θ】 度。例 又 形狀而 部403 的角度 的山部 之膜的 的南度 加提高 構 不鑛鋼 具相當 實 準 成的2 套筒。 内側以 再對兩 分,製) 的山部4 0 1作成較外側的山部4 0 2含土 问考,但亦能 山部401與外侧山部402作成相同高度。 ’内側山部4〇丨及外側山部402之頂 貝點剖面的角 般為50°〜60。,内側山部4〇1 仅、,汞與外側山部 棱線之間的剖面角度Θ2 —般亦為5〇〇〜6〇。。通 與θ?多設定為相同角度’但亦可設定為相異之角 如,可設定Θ,為60。、θ2為55。。 ,套環(母)之形狀係對應於其所嵌合之套環(公) 適宜決定。例%,一般來說,套環(母)之内:谷 及外側谷部404的角度係與套環(公)之山部項點 相同,套環(母)之谷部的直徑則與對應之套環(公) 頂點的直徑㈣。另外,較佳地,對應於被失住 厚度’套則母)之谷部㈣度係較套環(公)之山部 淺,例如〇.5随左右。藉由作成這種形狀,可更 液體漏出防止效果。 成套之材料並益特別眼令 ”、'行引限疋,例如,可使用鋁、 或鐵等金屬;抑或鑪_ 丨兄鐵軋旎(商標名稱)、聚乙烯等 硬度的樹脂等Q 施例1 備厚度80μηι之由益禾士 — …添加的低畨度聚乙烯膜所組 個管狀薄膜。你用兮1 /卜 、吏用。亥2個官狀薄膜來製作内側襯 具體來說’將另一方之薄膜插入一方之管狀薄膜 作成雙層,如第2圖(Β)所示般進行熱封加工後, 端開口部亦利+ 、 用,、、、封加工來封閉,切除剩餘部 友由雙層膜所組成之太興β I體部分尺寸為約2m><3m的 -17- 5 201217244 内侧襯套筒。另外,被封閉之開口部係在使用前才將密 封部分切除,使其開口後使用。 實施例2 準備厚度80μηι之於尼龍膜表面設置有由聚乙烯所 組成之熔著層的2層管狀薄膜、及厚度8〇μηι之由無添 加的低狯度聚乙烯膜所組成的管狀薄膜。使用該2個管 狀薄膜’與實施例1 一樣地進行製成内側襯套筒。此時, 將尼龍膜作為外側’且使尼龍膜之炼著層與聚乙烯膜接 觸。該内側襯套筒中,外側之尼龍膜具有氣體阻隔層之 功能》 評價 將製作的襯套筒以上述的操作順序設置於容器内 後’將潔淨空氣吹入襯套筒内而使内側襯套筒膨脹。將 過濾後之光阻組成物(AZ SR-300(商品名稱),ΑΖ電子材 料公司製,黏度3cp)充填至該内側襯套筒,於室溫(約 2 5 C )下靜置1小時。靜置後,從閥1 〇 8採集光阻組成物, 進行微粒子數測定。微粒子係分別測定粒徑超過 〇.23μηι、0·3μιη、0.5μπι 及 1 .Ομπι 大小者。一邊交換内側 襯套筒一邊重覆該測定3次。所得之結果如表1所示。 另外,作為比較例’使用過去所使用之液體藥品用容器 (專利文獻4) ’充填相同之光阻組成物,測定於室溫(約 2 5 °C )下靜置1小時後的微粒子數。該比較例所使用之容 器,雖具有内側襯套筒,但具有在液體充填時或排出時 用以使連接組件結合至其開口部的組件。 -18- 5 201217244 [表i] 微粒子數(個/ml) 0.23 μηι 0.3 μηι 0.5 μιη 1.0 μηι 第1次 54 22 4 0 實施例1 第2次 52 21 3 0 第3次 55 23 4 0 第1次 48 19 2 0 實施例2 第2次 53 22 3 0 第3次 49 20 4 0 比較例 62 27 5 0 由其結果可清楚得知,本發明之液體用容器,可抑 制因容器内部污染所造成之微粒子的增加,效果較過去 所使用之液體藥品用容器更佳,而可供給品質穩定之藥 液。 【圖式簡單說明】 第1圖係本發明一實施形態之液體用容器的側視圖 (A)、及液體收納部與閥構件的剖面圖(B)。 第2圖係本發明之液體用容器所使用的内側襯套筒 之正視圖。 第3圖係顯示本發明一實施形態之液體用容器之裝 配方法的示意圖。 第4圖係能用於本發明一實施形態之液體用容器的 套環(公)之剖面圖(A)與套環(母)之剖面圖(B)。 5 -19- 201217244 【主要元件符號說明】 100 液 體 用 容 器 100A 液 體 收 納 部 100B 閥 構 件 101 液 體 容 器 本 體 102 開 π 部 103 蓋 組 件 104 液 體 用 容 器 外 框 105 排 出 管 106 套 環 107 套 環 108 閥 109 排 出 管 連 結 管 110 夾 具 200 内 側 襯 套 筒 201 襯 套 筒 本 體 部 分 202 管 狀 液 體 排 出 部分 203 液 體 導 入 部 分 401、 402 山 部 403、 404 谷 部 -20- 5A method in which the opening 1 〇 2 stalk plant] 〇 1 + v + I ι component 103 is sandwiched and closed. The liquid stored in the liquid container is taken out through the valve 1〇8: the invention makes the capacity of the liquid container not particularly limited, depending on the type or use of the liquid to be stored, or the container according to the liquid itself. The operability and the like can be any size without particular limitation. For example, the volume of the liquid container is '= ΓΓ 且 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 However, as a large-sized liquid container, for example, it can be applied to a tank tank chamber. In that case, the capacity of the liquid container of the present invention can also be reduced to 1 G_liter. Especially for the electronics industry. In the case of pharmaceutical use, a 500 to 2 liter liter is preferred. The liquid container of the present invention is provided with an inner liner having a specific shape on the side of the liquid container body 1〇1. In the liquid thief of the present invention, a liquid system is filled inside the inner liner. 201217244 The shape of the inner liner is shown, for example, in Fig. 2(A). The inner sleeve 200 is provided with a sleeve body portion for storing a liquid, a tubular liquid discharge portion 202, and a liquid introduction portion 2〇3 for introducing a liquid when filling the liquid to the sleeve body. — The sleeve body portion 201 is shaped and capacity corresponding to the shape and capacity of the liquid container body 101. In the liquid container of the present invention, the liquid system is stored inside the liner body portion 201 of the liquid container body. Therefore, when the lining sleeve body portion 2〇1 is smaller than the liquid container body 101, a gap is formed between the lining sleeve body portion 2〇1 and the liquid container body 1 0 1 after filling the liquid, and the like when the wheel is sent. There is a possibility that the liner body portion 201 is broken. On the other hand, when the liner body portion 20 1 is too large than the liquid container body, inside the liquid container body 101, the liner body portion 2〇1 is excessively wrinkled, and may be discharged when liquid is discharged. Loss due to the inability to completely drain the internal liquid. Therefore, it is preferable that the shape of the inner liner is formed into a body shape and is formed to conform to the shape of the liquid container body. However, in the case of using a planar outer sleeve as will be described later, it is generally used in a case where the size is larger than that of the liquid body, and it is used in close contact with the inside of the liquid container body. In view of the cleanliness or manufacturing cost of the interior of the liner, it is preferred to use such a planar liner. Further, the tubular liquid discharge portion 202 is inserted into the inner portion of the A row 105 as it is. Next, the tubular liquid discharge discharge & 105 is secured by the collars 1〇6 and 1〇7. The length of the tubular liquid discharge portion 202 generally forms &' The liquid introduction portion 203 is used to fill the inside of the liner body portion 201, and the shape is not particularly limited. For example, the second embodiment shown in Fig. 2 can be formed into a tubular shape from the liner body portion 201, similarly to the tubular liquid discharge portion. The case formed in this manner can be closed by bundling the tubular portion or the like after the liquid is introduced, or by heat sealing or the like. Further, it is also possible to perform sealing by twisting the liquid introduction portion 203, sealing it with a clip, or sandwiching between the opening portion 1〇2 and the lid assembly 1〇3. Further, the liquid introduction portion 2〇3 is generally located at a portion higher than the filled liquid, except for the case where vibration is applied during transportation or the like, the portion has less chance of coming into contact with the liquid, and therefore, the cleanness of the portion after the liquid is filled. It does not need to be strictly regulated like a liquid discharge. Therefore, a hermetic structure such as a screw cap can be formed in the liquid material inlet portion. However, in order to reduce the risk of contamination inside the liner sleeve and to reduce the manufacturing cost, there is little advantage in forming such a sealed structure. The sleeve body portion 2〇1 can be made of any material according to its purpose. Here, since the inner side of the liner sleeve is in direct contact with the liquid to be filled, it is preferable that the chemical resistance to liquid is high and the solubility is low. On the other hand, since stress is applied to the liner body during transportation or the like, it is preferable to have high strength such as puncture resistance or impact resistance. The strength may not be important in the case where the inner side of the liquid container body 110 is softly and closely attached. Furthermore, it is preferred that liquid or gas is not allowed to pass through. As the material of the main body of the sleeve, the film is generally used, or the condition that the above-mentioned household 有I 4 «· 〇M ^ ^ ' is satisfied, but the multi-layer structure film is used to obtain the full-thickness film. Characteristics. For example, in the inner layer of the contact liquid, make -10- s • 201217244 in a material that is highly damaging with the liquid container body, so that the strength of the same material is used. This situation, above. In addition, the outermost layer here is called the outer layer. The inner layer of the liquid is more material than the material. Also, when and outside. From such a viewpoint, the heat seal strength or the molecular weight distribution is narrow to the outer layer of the liquid or the like, or mechanical properties, or gas bairier. The use of liquid introduction from the container body and the medial side is important. In addition, since the level of liquid contact is high due to the high friction resistance, etc., it is still preferable to use the low-density polyethylene, the high-yield material, and the abrasion resistance or the impact resistance. Laminated film. Further, depending on the configuration, the structure of the film may be increased, and three layers may be referred to as an inner layer, and a layer located in the middle may be referred to as a first-first direct contact and excellent low-temperature sealing property with good solubility resistance, preferably polyethylene. From another point of view, ethylene is preferred. In addition, the gas barrier that does not directly connect with puncture or impact resistance or solvent, etc., introduces the gas into the liquid and fills the inner liner. The gas barrier property becomes direct contact with the body, so the liquid is inaccurately like the inner side. The layer is required. The film material from this point of view is selected from the side layers selected from the contact side, and the conjunctiva which is formed by laminating them into two or more layers is not limited to the layer side layer in which the two layer junctions are located on the innermost side, and they are preferably used. It is better to look at the chemical side layer, and the influence of the material of the inner layer on the filling liquid is 'linear low-density poly-intermediate layer, which requires nitrogen, oxygen, water vapor, especially, sometimes Between the cylinders, a charging method is preferred, in which case the outer layer is preferably a liquid container. Moreover, when the outer layer is filled, the medium-density polyethylene, the high 201217244 male polyethylene, the linear low-density polyethylene copolymer, and the ethylene-acetic acid are used for the layer or the intermediate layer. A mixture of ethylene ester copolymers or more than one resin. Among them, linear low density polyethylene is preferred. , made up of small propylene, in the acetamyl-propene group - preferably polyethylene, gas barrier properties, acetamyl-vinyl alcohol, polypropylene, nicotine, in order to impart oxygen or water vapor, solvent, etc. It is also possible to use a metal case such as Ming, steel or the like; or a film such as a polyvinyl alcohol copolymer; or a polyester, a polyamide or a polyethylene as a film material. The film which is composed of the same material and which is formed by combining the plurality of layers is provided with a needle structure because of the insertion of the liner or the failure of the film itself, thereby preventing liquid leakage. Further, in combination, it is preferable to form a film having a combination of a plurality of films, for example, a plurality of films. When a heat seal is used, it is preferable to be able to perform the composite at the same time. The case where the film consists of the film overlaps. However, it is difficult to heat-seal the contact faces of the materials by the dissimilar materials. For example, in the case of a composite film to be composed, their case, preferably, is a film material which is a composite film of a film. For example, in the case where the multiple structures in which the films are superposed are broken by contact or the like for a while, the case of the holes is because the film has a plurality of film-like composite films which can be composed of dissimilar materials. Here, the composite film may be attached only to the end portion or the like. In the case of bonding an adhesive or the like, but bonding them by heat sealing, the bonding of the liner film and the liner sleeve are performed as described later, and it is easy to heat-sea the composite film by the same material. of. Thereafter, the composite film is laminated to form a composite film. In the case of the composition, the polyethylene film and the nylon film may not be easily used for heat sealing. In the surface of a film having a high mechanical strength, a multilayer material coated with a layer composed of a material having excellent chemical resistance or gas barrier properties is used. The inner liner 200 is formed using the above-described materials, but the method of forming is not particularly limited. For example, as shown in Fig. 2(B), the tube 4 film can be pressed into a flat shape, and an L-shaped heat seal 4 can be provided at the four corner portions. After the part of the sea is melted, the remaining portion of the film is removed, and the contact surface of the film of .201217244 is provided with a fusion layer which can be easily combined with another film heat sealing material. For example, in the case of using a composite film composed of a polyethylene film and nylon, by forming a polyethylene layer in advance on a nylon film, they can be made to be easily heat-sealed. Such a glazed layer can be formed, for example, by co-extrusion when forming a film. When co-extruding, an adhesive layer for preventing peeling of the film body from the fused layer can be provided. Further, the composite film may be a multilayer film formed by co-extrusion or the like. This is made into a flat sleeve. Alternatively, the shape of the thin plate (A) may be formed by heat-sealing or bonding a plurality of cut films to form a flat surface, and the tubular film or the thin film may be a single film. Overlapping. Such a plurality of entanglements can be heat-sealed to each other. When the bamboo is heat-sealed to form a lining sleeve, the lining sleeve can be formed from the composite film by sealing. In addition: the inner lining sleeve is called stunned or the next part is less than the case to maintain the high-definition clarity. Therefore, when the household side lining sleeve 200 is assembled to the liquid container, it is required to open at the end of the branch 202 Lh -13 - The film is cut into a stack and the peripheral surface is lined with a sleeve. It is also possible to use a plurality of films to overlap each other. The film is made of a tubular tube to form a thin plate-like film. Further, when the tubular liquid is discharged from the film surface of the main body portion of the lining sleeve, the liquid-introducing portion 203 is required to be opened by the detachment of the tangential portion from the portion of the inner portion 201217244 201. However, as long as they are formed with openings when the liquid is introduced, they do not need to be opened when the liner body portion 2〇1 is formed, and when disposed inside the liquid container body. If it is closed before introducing the liquid, it can prevent foreign matter from invading the inside and maintain the internal cleanliness. In this case, the opening is made by cutting when necessary. The inner liner sleeve 200 formed in this manner is placed in the liquid container body 101 before the liquid tank is used. The order of this setting is explained with reference to the drawing, as shown below. First, preferably, before the inner sleeve 2〇〇 is introduced into the liquid container body 101, the sleeve body portion 2〇1 is rolled up or folded to have a thin rod shape (Fig. 3(A) And (B)). Generally, this is because the opening portion 102 located above the liquid container body 1〇1 has a small opening area, so that the inner liner sleeve 200 is easily inserted. Next, the tubular liquid discharge portion 202 is used as the front end, the inner liner sleeve 2 is inserted into the interior of the liquid container body, and the tubular liquid discharge portion 2〇2 is inserted into the discharge tube 1 disposed at the lower portion of the liquid valley body 101. The inside 5 pulls out the front end of the tubular liquid discharge portion 202 from the end of the discharge pipe i 〇 5 (Fig. 3 (C)). As a result, the tubular liquid discharge portion 2〇2 penetrates the discharge pipe 105. When the front end of the tubular liquid discharge portion 202 is closed, it is cut after being pulled out from the discharge pipe 105, and is formed into a cylindrical shape. The front end of the tubular liquid discharge portion which is formed into a cylindrical shape is enlarged, and is folded over to cover a ferrule 106 (Fig. 3(D)) provided at the end of the discharge pipe 105. Next, the valve member 10 〇 B is mounted. The folded end portion of the tubular liquid discharge portion 2 〇 2 is sandwiched and pressed. In addition, if a wrinkle - 14 201217244 is formed at the end of the folded-back end, a gap is generated in the pressed portion, which causes the liquid to leak out. Therefore, preferably, the opening diameter of the tubular liquid discharge portion 202 and the discharge pipe are 105. The opening diameter is the same. In the case where the exhaust pipe and the discharge pipe connecting pipe are provided with a collar, the collar (male) 106 and the collar (female) 1 07 are fitted (Fig. 3(E)). Further, the valve member 100B is fixed to the discharge pipe 105 by using the jig 1 10 or the like (Fig. 3(F)). By such a structure, a portion of the liner, i.e., the end portion of the tubular liquid discharge portion, functions as a packing to prevent liquid from leaking out. In this manner, in the liquid container in which the inner sleeve 200 is attached, the inside of the liquid container body 101 is covered with the sleeve body portion 201, and the inside of the discharge tube 105 is covered with the tubular liquid discharge portion 202. Therefore, the liquid filled into the inside of the inner liner sleeve does not directly contact the inside of the liquid container body 101 or the discharge tube 105. Therefore, if the liquid container of the present invention is used, the inner liner sleeve 200 can be exchanged after each use without cleaning the inside of the liquid storage portion 1A, specifically, the liquid container body 101 and the discharge tube 105. On the inside, in addition, the liquid filled into the inside is not contaminated by contact with the container or the like. In order to easily perform the mounting of the inner liner 2, a hammer can be attached to the front end of the tubular liquid discharge portion 202. That is, since the relative specific gravity of the material of the inner liner sleeve 200 is light, it may be difficult to induce the end of the tubular liquid discharge portion 2〇2 to be at the bottom inside the liquid container body 110 which is narrow in the opening portion 丨〇2. Discharge pipe 1 〇5. Thus, the front 4 can be easily induced to the discharge pipe 1〇5 by gravity by installing a hammer at the front end of the tubular liquid discharge portion 2 0 2 . At this time, if the bottom of the liquid container body is formed into a bell shape, the operation can be performed more easily. 201217244 In addition, a ferromagnetic body can be attached to the tubular liquid discharge portion to replace the hammer. In this way, the magnet can be inserted from the end of the discharge pipe, and the front end of the tubular liquid discharge portion 202 is attracted by the magnet and pulled out from the discharge pipe 105. Further, the collar (male) 106 and the collar (mother) 107 that connect the end of the discharge pipe 105 to the valve member 1B can be arbitrarily selected depending on the purpose. Also, the collar (male) and the collar (mother) can be installed in reverse. Furthermore, depending on the clip used for the combination, it may not be a collar having a so-called mountain portion, and the contact surface is flat. Further, in the present invention, even such a component having a flat contact surface is referred to as a "sleeve" for the sake of convenience. Sexually not speaking, ring, but collar, good land,. The specific mouth has an effect. The implementation of the valley portion results in the performance of the present portion. However, if the adhesion portion of the discharge pipe 105 and the valve member 1B is leaked, there is a possibility that the liquid filled in the inside leaks. In the invention of the present invention, a stern type for liquid leakage is assembled in a joint portion of a pipe, etc., and the lining ring is not required by sandwiching the inner lining sleeve of the joint portion, and the exchange procedure can be omitted. . In order to achieve such a purpose, the shape of the collar of the present invention is particularly preferable, and the collar of the present invention preferably has the following shape. Preferably, the preferred loop for use in the present invention is preferably along a mountain portion or valley portion having a circular shape; particularly in terms of preventing liquid leakage. A cross-sectional view of this loop form is shown in Figs. 4(A) and (B). The mountain part eight may also be three or more, but the increase in the number of systems due to the complexity of the structure does not significantly improve the liquid leakage prevention effect: (cost perf0rmance) viewpoint is advantageous. In the collar (male), in order to improve the liquid leakage prevention effect -16- 201217244 is the inner side < the inner side is again Θ 1 - 402 often, Θ degree. For example, the south of the film of the mountain portion at the angle of the shape of the portion 403 is added to the two sleeves which are substantially aligned with the non-mineral steel. The inner side is made of the mountain part 410 of the two-point system, and the outer part of the mountain part is made of the soil. The mountain part 401 and the outer mountain part 402 are the same height. The angle of the top of the inner mountain portion 4 and the outer mountain portion 402 is 50° to 60°. The inner mountain is 4〇1, and the cross-sectional angle 汞2 between the mercury and the outer mountain ridge is generally 5〇〇~6〇. . It is set to the same angle as θ? but can also be set to a different angle. For example, Θ can be set to 60. , θ2 is 55. . The shape of the collar (mother) is appropriately determined corresponding to the collar (male) to which it is fitted. In example, in general, the inside of the collar (female): the angle of the valley and the outer valley portion 404 is the same as the mountain point of the collar (male), and the diameter of the valley portion of the collar (mother) corresponds to The diameter of the apex (male) apex (four). Further, preferably, the valley portion (four) corresponding to the thickness of the lost portion is shallower than the mountain portion of the collar (male), for example, 〇.5 is left and right. By making such a shape, the liquid leakage prevention effect can be further improved. The complete set of materials is beneficial to the special eye, "," can be used, for example, aluminum, or iron, etc.; or furnace _ 丨 铁 铁 iron (旎 brand name), polyethylene and other hardness of the resin Q examples 1 Prepare a tubular film with a thickness of 80μηι from the low-density polyethylene film. You use 兮1 / 卜, 吏. 2 2 official films to make the inner lining concretely The other film is inserted into one of the tubular films to form a double layer. After heat sealing as shown in Fig. 2 (Β), the end opening is also closed by +, using, sealing, and sealing. The inner lining sleeve of the -17-5 201217244 portion of the Taixing β I body portion composed of the two-layer film having a size of about 2 m> 3 m. In addition, the closed portion of the closed portion is cut off before use, so that the sealing portion is cut off. It is used after opening. Example 2 A two-layer tubular film having a thickness of 80 μm on a surface of a nylon membrane and provided with a fusion layer composed of polyethylene, and a low-density polyethylene film having a thickness of 8 μm a tubular film composed of the two tubular films used and implemented 1 The inner liner sleeve is formed in the same manner. At this time, the nylon membrane is used as the outer side and the refining layer of the nylon membrane is brought into contact with the polyethylene film. In the inner liner sleeve, the outer nylon membrane has a gas barrier layer. Function" Evaluate the lining sleeve to be produced in the container in the above-mentioned operation sequence, and then blow the clean air into the lining sleeve to expand the inner lining sleeve. The filtered photoresist composition (AZ SR-300) (product name), manufactured by ΑΖ Electronic Materials Co., Ltd., viscosity 3 cp), filled into the inner liner sleeve, and allowed to stand at room temperature (about 2 5 C) for 1 hour. After standing, the photoresist was collected from valve 1 〇8. The number of fine particles was measured, and the particle size was measured by measuring the particle size exceeding 〇.23μηι, 0·3μιη, 0.5μπι, and 1.Ομπι, and repeating the measurement three times while exchanging the inner liner. In addition, as a comparative example, 'the container for liquid medicines used in the past (Patent Document 4)' was filled with the same photoresist composition, and it was measured at room temperature (about 25 ° C) for 1 hour. The number of particles. The comparative example The container used has an inner liner sleeve, but has an assembly for joining the connection assembly to the opening portion thereof during liquid filling or discharge. -18- 5 201217244 [Table i] Number of microparticles (pieces/ml) 0.23 Μηι 0.3 μηι 0.5 μιη 1.0 μηι 1st 54 22 4 0 Example 1 2nd 52 21 3 0 3rd 55 23 4 0 1st 48 19 2 0 Example 2 2nd 53 22 3 0 3rd Substituting 49 20 4 0 Comparative Example 62 27 5 0 It is clear from the results that the container for liquid of the present invention can suppress the increase of fine particles caused by contamination inside the container, and the effect is more than that of the liquid medicine container used in the past. Good, but can supply a stable quality liquid. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a side view (A) of a liquid container according to an embodiment of the present invention, and a cross-sectional view (B) of a liquid storage portion and a valve member. Fig. 2 is a front elevational view showing the inner liner of the liquid container of the present invention. Fig. 3 is a schematic view showing a method of assembling a liquid container according to an embodiment of the present invention. Fig. 4 is a cross-sectional view (B) of a collar (male) and a collar (mother) which can be used for a container for a liquid according to an embodiment of the present invention. 5 -19- 201217244 [Description of main components] 100 Liquid container 100A Liquid storage unit 100B Valve member 101 Liquid container body 102 Opening π Port 103 Cover assembly 104 Liquid container frame 105 Discharge tube 106 Collar 107 Collar 108 Valve 109 discharge pipe connection pipe 110 jig 200 inner liner sleeve 201 liner sleeve body portion 202 tubular liquid discharge portion 203 liquid introduction portion 401, 402 mountain portion 403, 404 valley portion -20- 5