M4U/222 五、新型說明: 【新型所屬之技術領域】 本創作係關於注出容器。尤其本創作係關於在容器本體 之口頸部安裝有具有注出嘴之注出蓋之注出容器。 【先前技術】 作為於容器本體之口頸部安裝有具有注出嘴之注出蓋之 注出容器,眾所周知有例如與計量蓋組合使用之具計量蓋 之容器(例如,參照專利文獻丨及專利文獻2)。該些注出容 益中,取下覆蓋注出蓋之注出嘴而安裝之計量蓋,經由注 出嘴將液體洗滌劑等内容液注出至該計量蓋而加以計量之 後,將經計量之内容液投入至洗衣機等之注出處。又,該 些注出容器中,若所收納之内容液用完或者變少,則自例 如補充用之袋狀容器適當補充内容液,從而可使注出容器 自身不廢棄而長期使用。 另一方面,該些注出容器中,若於内容液注出時使容器 本體急遽傾斜,則内容液有時會自設置於注出嘴之液體回 收用之狹缝溢流而使内容液向注出嘴之外側溢出。尤其若 内容液之黏度較高,則較之經由與注出嘴連通之注出口而 自容器本體向注出嘴流出之内容液之流出速度,沿著注出 嘴流下之内谷液之流下速度過小,從而導致内容液容易向 注出嘴之外側溢出。 由此,亦開發出如下之注出容器:即便於内容液注出時 使容器本體急遽傾斜之情形時,内容液亦不會自注出嘴乘 勢減出或者向注出嘴之外側溢出(例如,參照專利文獻3)。 152456.doc M407222 專利文獻3之注出容器中,於注出蓋之傾斜底板之最下部 設置有向下方延伸至注出口之大致中央為止之傾斜壁,藉 此將大約半個注出口遮蔽,即便於使容器本體急遽傾斜 時,内容液亦不會乘勢濺出。 [先前技術文獻] [專利文獻] [專利文獻1]日本專利特開2006-182359號公報 [專利文獻2]日本專利特開2009-107724號公報 [專利文獻3]日本專利特開2008-155953號公報 【新型内容】 [新型所欲解決之問題] 然而,專利文獻3之注出容器雖不會使内容液乘勢濺 出,但注出口成為大約一半被延伸設置至其中央部分之傾 斜壁遮蔽之狀態,因此尤其若内容物之黏度較高而流動性 變小,則有時無法將内容液順利地注出,或者難以控制内 容液之注出量。又,若為將内容液順利地注出而使容器大 幅傾斜,則有可能會因遮蔽注出嘴之底部之注出口之大致 一半之傾斜壁的作用導致内容液堵塞或者注出速度變大而 濺出。因若可一面控制内容液之注出量一面以穩定狀 態注出則較為便利。 [解決問題之技術手段] 本創作提供一種注出容器,装私六盟士μ * ^ ^ 具於奋器本體之口頸部安裝 有具有注出嘴之注出蓋,使上诚交 山益工述谷益本體傾倒而將自注出 •出至上述注出嘴之内容液白ρ、十,、士山4 贝策二Μ合及自上述注出嘴之前端注出; 152456.doc M407222 上述注出蓋包括沿著上述容器本體之口頸部之内周面而配 置之内筒壁,並且包括連設於該内筒壁之下端部之底面 壁,上述注出嘴具有已與注出内容液時之傾倒方向相反之 側作為開放部之u字狀或大致u字狀剖面形狀,並且與上 述内筒壁分離而自上述底面壁豎立設置,上述注出口於上 述底面壁之上述注出嘴之内側區域中,至少於較與上述傾 倒方向垂直之區劃線更靠傾倒方向側之部分之大致整個區 域開口而形成有主注出口,上述内筒壁之内徑D與上述注 出嘴之基端部之上述U字狀或大致u字狀剖面形狀的兩側 之侧壁部間之内寬B之比(D/B)*2〜2 6,上述注出嘴之基 端部之上述U字狀或大致u字狀剖面形狀之傾倒方向之内 長L1與上述内寬b之比斤丨/…為❶扣丨3,上述内長。與上 述注出嘴之基端部之上述注出口之至上述區劃線為止的傾 倒方向之開口長度L2之比(L1/L2)為1.2〜1.7。 於此,上述之内筒壁之内徑D或注出嘴之基端部之内寬 B或注出嘴之基端部之内長L1分別係自注出嘴之軸方向上 方觀察/主出蓋之俯視圖(參照圖4(a))中之長度或寬产,例 如於底面壁具備傾斜面部之情形時,不為沿著該傾倒方向 之長度或寬度。又,上述之各比率係基於自注出嘴之軸方 向上方觀察注出蓋之俯視圖中之内徑D或内寬b或内長 而何'之^偉。 [新型之效果] 根據本創作之注出容器,於補充内容液時,可經由注出 口使内容液順利地流入容器本體,且於注出内容液時,可 152456.doc M407222 有效地避免内容液向注出嘴之外側溢出,並且可一面控制 注出量一面使内容液以穩定狀態順利地自注出嘴注出。 【實施方式】 . 本創作係關於一種注出容器,其於補充内容液時,可經 由注出口使内容液順利地流入至容器本體,且於注出内容 液時,可有效地避免内容液向注出嘴之外側溢出,並且可 - 一面控制注出量一面使内容液以穩定狀態順利地自注出嘴 ^ 注出。 本創作之一較佳實施形態之注出容器丨0係收納例如衣料 用液體洗滌劑作為内容液之容器,如圖1所示由如下者構 成.容器本體11 ;注出蓋13,其安裝於容器本體n之口頸 部12,及计量蓋15,其覆蓋注出蓋13之注出嘴14而可裝卸 地安裝於容器本體11之口頸部12β本實施形態之注出容器 ίο係除了可經由注出嘴14向所取下之計量蓋15注入内容 液,且於計量後可將内容液注出至洗衣機等外,亦可一面 • 控制注出量一面自注出嘴14將内容液直接注出至洗衣機 等。又,於維持著將注出蓋13安裝於容器本體丨丨之口頸部 12之狀態下,可根據需要而一面自補充用之袋狀容器 27(參照圖6)適當補充内容液一面長期使用。 而且,本實施形態之注出容器1〇係如下之容器:於容器 本體11之口頸部12女裝有具有注出嘴14之注出蓋13,使容 器本體11傾倒而將自注出σ 16(參照圖2)流出至注出们4之 内容液自注出嘴14之前端注出。如圖2〜圖4所示,注出蓋 η包括沿著容器本體頸部12之内周面仏(參照_ 152456.doc M407222 而配置之内筒壁17,並且包括連設於内筒壁17之下端部之 底面壁18。又注出嘴14成為已與注出内容液時之傾倒方向 X相反之側作為開放部之U字狀或大致1;字狀剖面形狀從 而具有大致u字狀剖面形狀,並且與内筒壁17分離而自底 面壁18豎立設置,注出口 16於底面壁18之注出嘴14之内側 區域中,至少於較與傾倒方向χ垂直之區劃線γ(參照圖 4(a))而更靠傾倒方向X側之部分之大致整個區域開口而形 成有主注出口 16a。進而,内筒壁17之内徑D與注出嘴14之 基端部之大致ϋ字狀剖面形狀的兩側之側壁部丨4t>間之内寬 B之比(D/B)為2〜2.6,注出嘴14之基端部14a之大致U字狀 剖面形狀之傾倒方向X之内長L1與内寬B之比(L1/B)為 0.8〜1.3,内長L1與注出嘴14之基端部14a之注出口 16之至 區劃線Y為止之傾倒方向χ之開口長度L2之比(11/[2)為 1.2〜1.7 。 又’本實施形態中,大致U字狀剖面形狀之注出嘴14之 内側區域之底面壁1 8之較區劃線Y而更靠開放部側之部分 19之至少一部分係配置於底面壁is之最下面部iga,在配 置於該最下面部18a之部分,設置有與注出口 16之主注出 口 16a連續之缺口部16b。 本實施形態中’容器本體11為合成樹脂之成形品,如圖 1所示包含成為載置面之底部20、收納内容液之本體部 21、及自本體部21之上端部向上方突出之扁平之圓筒形狀 的口頸部12。於本體部21之側部一體地設置有把手部22。 於口頸部12之外周面設置有使計量蓋丨5可裝卸地旋接之外 152456.doc M407222 螺紋突條於取下計量蓋15之㈣下,藉由握持把手部 22使容器本體u向傾倒方向χ傾倒,而可容易地自容器本 體11之本體部21使内容液經由注出蓋13之注出口丨6及、、主出 嘴14而注出特定量。 本實施形態中,注出蓋13以嵌入口頸部12之内側之方式 固定而-體地安裝於容器本㈣。注出蓋13為合成樹脂: 成形品,如圖2〜圖4所示,包括大致圓筒形狀之内筒壁M4U/222 V. New description: [New technical field] This creation is about the injection container. In particular, the present invention relates to a dispensing container having a dispensing cap having a dispensing nozzle mounted on the neck portion of the container body. [Prior Art] As a dispensing container having a dispensing cap with a dispensing nozzle mounted on the neck portion of the container body, a container having a metering cap for use in combination with a metering cap is known (for example, refer to patent documents and patents) Literature 2). In the above-mentioned handling advantages, the measuring cap which is attached to the dispensing nozzle of the dispensing cap is removed, and the liquid detergent or the like is injected into the measuring cap through the dispensing nozzle to be metered, and then measured. The content liquid is put into a discharge place of a washing machine or the like. Further, in the above-described injection containers, if the contained content liquid is used up or is small, the content liquid is appropriately replenished from the bag-like container for replenishment, for example, so that the injection container itself can be used for a long period of time without being discarded. On the other hand, in the above-described injection container, if the container body is suddenly tilted when the content liquid is ejected, the content liquid may overflow from the slit for liquid recovery provided in the ejection nozzle to cause the content liquid to flow. Note that the outside of the mouth overflows. In particular, if the viscosity of the content liquid is high, the flow rate of the content liquid flowing out from the container body to the discharge nozzle through the injection port that communicates with the discharge nozzle, and the flow rate of the inner liquid liquid flowing down the discharge nozzle Too small, so that the content liquid easily overflows to the outside of the injection nozzle. Accordingly, the following ejection container has also been developed: even when the container body is tilted sharply when the content liquid is ejected, the content liquid does not overflow from the ejection nozzle or overflows to the outside of the ejection nozzle (for example) Refer to Patent Document 3). 152456.doc M407222 In the injection container of Patent Document 3, an inclined wall extending downward to a substantially center of the injection port is provided at the lowermost portion of the inclined bottom plate of the injection cover, thereby shielding about half of the injection ports, even if When the container body is tilted sharply, the content liquid will not splash. [Prior Art Document] [Patent Document 1] Japanese Patent Laid-Open Publication No. Hei. No. Hei. No. Hei. No. Hei. No. Hei. No. Hei. Bulletin [New content] [New problem to be solved] However, the injection container of Patent Document 3 does not cause the content liquid to be eroded, but the injection port becomes approximately half of the inclined wall which is extended to the central portion thereof. In particular, if the viscosity of the content is high and the fluidity is small, the content liquid may not be smoothly discharged, or it may be difficult to control the amount of the liquid to be injected. In addition, if the container is smoothly tilted and the container is tilted, the content liquid may be clogged or the ejection speed may be increased by the action of the inclined wall covering the bottom of the injection port at the bottom of the nozzle. Splashed out. It is convenient if the amount of the liquid to be injected is controlled in a stable state while being controlled. [Technical means to solve the problem] This creation provides a kind of injection container, which is smuggled into the six squad. μ * ^ ^ has a mouth and neck attached to the mouth of the body, and has a note cover with a note mouth. The work of Gu Yi is dumped and will be self-extracted. • The contents of the above-mentioned injection mouth are liquid white ρ, ten, Shishan 4 Becket II and the front end of the injection nozzle; 152456.doc M407222 The above-mentioned injection cover includes an inner cylinder wall disposed along an inner circumferential surface of the neck portion of the container body, and includes a bottom wall connected to an lower end portion of the inner cylinder wall, and the injection nozzle has been and has been ejected The side opposite to the direction in which the content liquid is tilted is a U-shaped or substantially U-shaped cross-sectional shape of the opening portion, and is separated from the inner cylinder wall and erected from the bottom wall, and the injection port is ejected from the bottom wall. In the inner side region of the mouth, at least a portion of the portion perpendicular to the tilting direction that is closer to the tilting direction side is opened to form a main injection opening, and the inner diameter D of the inner cylinder wall and the above-mentioned dispensing nozzle The above U-shaped or substantially u-shaped at the base end The ratio of the inner width B between the side wall portions on both sides of the cross-sectional shape (D/B)*2 to 2 6, the tipping direction of the U-shaped or substantially U-shaped cross-sectional shape of the base end portion of the nozzle The ratio of the inner length L1 to the inner width b is ❶ 丨 3, the inner length. The ratio (L1/L2) of the opening length L2 in the tilting direction from the above-mentioned injection port of the base end portion of the nozzle to the above-mentioned area line is 1.2 to 1.7. Here, the inner diameter D of the inner cylinder wall or the inner width B of the base end portion of the injection nozzle or the inner length L1 of the base end portion of the discharge nozzle are respectively viewed from the upper side of the injection nozzle axis/mainly The length or width of the top view of the cover (see FIG. 4(a)), for example, when the bottom wall has an inclined surface, is not the length or width along the tilting direction. Further, each of the above ratios is based on the inner diameter D or the inner width b or the inner length in the plan view of the injection cap from the upper side in the axial direction of the nozzle. [New effect] According to the creation of the container, when the content liquid is replenished, the content liquid can be smoothly flowed into the container body through the injection port, and when the content liquid is dispensed, the liquid can be effectively avoided by 152456.doc M407222 The outer side of the dispensing nozzle overflows, and the content liquid can be smoothly ejected from the mouth in a stable state while controlling the amount of the ejection. [Embodiment] The present invention relates to a dispensing container which can smoothly flow a content liquid into a container body through a spout outlet when the content liquid is replenished, and can effectively prevent the content liquid from being discharged when the content liquid is dispensed. Note that the outside of the mouth overflows, and it is possible to control the amount of the injection while allowing the contents to be smoothly ejected from the mouth in a steady state. In the preferred embodiment of the present invention, the container 丨0 is a container for storing a liquid detergent for clothing as a content liquid, and is composed of the container body 11 as shown in Fig. 1. The lid 13 is attached to the lid. The neck portion 12 of the container body n and the metering cover 15 cover the mouthpiece 14 of the dispensing lid 13 and are detachably attached to the neck portion 12 of the container body 11. The dispensing container of the embodiment is in addition to The content liquid is injected into the removed measuring cap 15 via the dispensing nozzle 14, and after the metering, the content liquid can be ejected to the washing machine or the like, and the content liquid can be directly injected from the nozzle 14 while controlling the amount of the injection. Note to the washing machine, etc. In addition, in a state in which the cap 13 is attached to the neck portion 12 of the container body, the bag-like container 27 (see FIG. 6) for replenishment can be appropriately replenished for a long period of time as needed. . Further, the dispensing container 1 of the present embodiment is a container in which the dispensing cover 13 having the dispensing nozzle 14 is attached to the neck portion 12 of the container body 11, and the container body 11 is tilted to self-inject σ 16 (refer to FIG. 2) The content liquid which flows out to the discharger 4 is injected from the front end of the injection nozzle 14. As shown in FIG. 2 to FIG. 4, the injection cap η includes an inner cylinder wall 17 disposed along the inner circumferential surface of the neck portion 12 of the container body (refer to _ 152456.doc M407222, and includes an inner cylinder wall 17 connected thereto. The bottom surface wall 18 of the lower end portion, and the nozzle 14 is formed in a U-shape or a substantially 1 shape as an open portion in a side opposite to the tilting direction X when the content liquid is poured; and has a substantially U-shaped cross section. The shape is separated from the inner cylinder wall 17 and is erected from the bottom wall 18, and the injection port 16 is in the inner region of the nozzle 14 of the bottom wall 18, at least in a region perpendicular to the tilting direction 划线 (see FIG. 4). (a)) The main injection port 16a is formed by opening substantially the entire area of the portion in the dumping direction X side. Further, the inner diameter D of the inner cylinder wall 17 and the base end portion of the nozzle 14 are substantially U-shaped. The ratio (D/B) of the inner width B between the side wall portions 丨4t> on both sides of the cross-sectional shape is 2 to 2.6, and the substantially U-shaped cross-sectional shape of the base end portion 14a of the injection nozzle 14 is within the tilting direction X. The ratio (L1/B) of the length L1 to the inner width B is 0.8 to 1.3, and the inner length L1 and the injection port 16 of the base end portion 14a of the nozzle 14 are up to the area line Y. The ratio of the opening length L2 in the tilting direction ( (11/[2) is 1.2 to 1.7. In the present embodiment, the lower side wall of the inner region of the nozzle 14 having a substantially U-shaped cross-sectional shape is crossed. At least a part of the portion 19 on the side of the open portion of Y is disposed at the lowermost portion iga of the bottom wall is, and a portion continuous with the main injection port 16a of the spout 16 is provided at a portion disposed at the lowermost portion 18a. In the present embodiment, the container body 11 is a molded article of synthetic resin, and includes a bottom portion 20 serving as a mounting surface, a main body portion 21 for accommodating the content liquid, and an upper portion from the upper end portion of the main body portion 21 as shown in Fig. 1 . a flat cylindrical shape of the mouth and neck portion 12. The handle portion 22 is integrally provided on the side portion of the body portion 21. The outer peripheral surface of the neck portion 12 is provided with a detachable screwing of the metering cover 5 152456.doc M407222 The threaded ridges can be easily poured from the body portion 21 of the container body 11 via the body portion u of the container body 11 by removing the handle portion 22 under the (4) of the metering cover 15 Note the injection port 丨6 of the cover 13 and the main nozzle 14 and note In the present embodiment, the injection cap 13 is fixedly attached to the inside of the mouth portion 12 so as to be attached to the container (4). The injection cap 13 is a synthetic resin: a molded article, as shown in Figs. 2 to 4 As shown, including a cylindrical wall of a generally cylindrical shape
17、及以覆蓋内筒壁17之下端開口之方式—體地連設於内 筒壁17之下端部之底面壁18。 一内筒壁17具有較容器本體"之口頸部12之内徑稱小之外 徑’當於容器本體u之口頸部12安裝有注出蓋13時,該内 筒壁17沿著口頸部12之内周面⑵而配置。内筒㈣之上 端部分成為具有與容器本體以口頸部以内徑大致相同 之外徑之擴徑部17a。強行按壓該擴徑部m而喪入口頸部 之上端内側’藉此可藉由其周面摩擦力將注出蓋13牢17. The bottom wall 18 is integrally connected to the lower end of the inner cylinder wall 17 in such a manner as to cover the opening at the lower end of the inner cylinder wall 17. An inner cylinder wall 17 has an outer diameter smaller than the inner diameter of the neck portion 12 of the container body. When the neck portion 12 of the container body u is fitted with the injection cap 13, the inner cylinder wall 17 is along The inner peripheral surface (2) of the neck portion 12 is disposed. The upper end portion of the inner cylinder (4) is an enlarged diameter portion 17a having an outer diameter substantially the same as the inner diameter of the neck portion of the container body. Forcibly pressing the enlarged diameter portion m and damaging the inner side of the upper end of the inlet neck portion, whereby the injection cover 13 can be firmly held by the frictional force of its peripheral surface
a tba定在谷器本體u之口頸部12。於擴徑部17a之上端 部設置有沿著其外周緣部向外㈣微突出之環狀卡止肋 17b藉由將該j衣狀卡止肋m卡止於容器本體η之口頸部 12之上端面之内周緣部,可避免於固定時注出蓋η被過度 地壓入口頸部12之内部。 本實施形態中 並配置於與注出内容液時 底面壁18係包含如下部分而構成:靠近 矩形形狀之最下面部丨8a ; 17之下端内周緣部l7c向下 之傾倒方向X之相反之侧之橫長 及朝向該最下面部18a自内筒壁 方傾斜而延伸設置之4面傾斜面 152456.doc M407222 部18b、18c、18d。即’傾倒側傾斜面部18b成為自内筒壁 17之下端内周緣部17c之傾倒方向X側之大致半圓區域朝向 最下面部18a之長邊部向下方傾斜的傾斜面部。兩側之一 對側部傾斜面部18c成為於與傾倒側傾斜面部1 8b鄰接之區 域中自内筒壁17之下端内周緣部17c朝向最下面部18a之短 邊部而向下方傾斜之傾斜面部。反傾倒側傾斜面部1 8d成 為於與隔著最下面部18a之傾倒側傾斜面部18b為相反之側 之區域中自内筒壁17之下端内周緣部17c朝向最下面部18a 之長邊部而向下方傾斜之傾斜面部。於底面壁18之中央部 分豎立設置而配置有注出嘴14,並且於注出嘴14之内側區 域開口而形成有注出口 16。 本實施形態中’注出嘴14具有已與注出内容液時之傾倒 方向X相反之侧作為開放部之大致U字狀剖面形狀。即, 注出嘴14於與底面壁18接合之基端部14a中,在傾倒方向X 側配置有大致U字狀剖面形狀之閉塞側之大致半圓弧形狀 部分,並且將大致U字狀剖面形狀之開放側之端部配置於 最下面部18a ’於此狀態下’注出嘴14係與内筒壁17隔開 間隔而設置於跨過底面壁1 8之傾倒侧傾斜面部1 8b與最下 面部18a之區域。又注出嘴14於使其前端部分14c向較内筒 壁17更上方突出之狀態下,相對於底面壁18之最下面部 18a而大致垂直地豎立設置。本實施形態中,注出嘴14之 前端部分14c係形成為側視下具有朝向前端側而使大致^字 狀剖面形狀之側壁部14b之高度逐漸減少,半徑與注出嘴 14之基端部14a之内長L1大致相同之大致1/4圓形狀(參照圖 152456.doc •10· M407222 3(a))。進而,該前端部分14c與基端部14a之間之注出嘴i4 之側壁部14b係大致相同高度(參照圖4(b))。 本貫施形態中,如圖2及圖4(a)及(b)所示,注出口 16係 開口而形成於底面壁18之大致U字狀剖面形狀之注出嘴14 之基端部14a之内侧區域。注出口 16之主注入口 16a於較之 叹疋在自注出嘴14之大致U字狀剖面形狀之基端部之傾 倒方向X之最下部僅離開特定開口長度L2之位置上之假想 之區劃線Y更靠傾倒方向X側的部分中,以在與注出嘴14 之基端部14a之間未插入伸出部分(除角部彎曲緣部1心以 外)之狀態’將注出嘴14之基端部14a設為開口緣部而開口 而升> 成於其大致整個區域。主注出口 16a開口而形成於傾 倒側傾斜面部18b ’與主注出口 16a之傾倒方向X相反之側 之沿著區劃線Y之緣部16d,較底面壁1 8之最下面部1 83與 傾倒側傾斜面部18b之邊界線1 8e稍靠近傾倒方向X側,與 邊界線18e大致平行延伸而設置。主注出口 i6a之由注出嘴 14之基端部14a所形成之開口緣部、與主注出口工6a之沿著 區劃線Y之緣部16d經由角部彎曲緣部16c而平滑地連續。 主注出口 16a之沿著區劃線γ之緣部16d與空氣送入用之缺 口部16b經由角部彎曲緣部16e而平滑地連續。 又’注出口 16包括與主注出口 i6a連續之缺口部16b。 即,將主注出口 16a之沿著區劃線γ之緣部16d之中央部分 於與傾倒方向X相反之側切割為大致矩形形狀藉此於大 致U字狀剖面形狀之注出嘴μ之内側區域之底面壁18之較 區劃線Y更靠開放部側之部分19,以自傾倒側傾斜面部18b 152456.doc M407222 陷入最下面部18a之方式形成内容液注出時之空氣送入用 缺口部16b。藉此缺口部16b於容器本體11之正立狀態下配 置於底面壁18之最下面部18a所形成之最下部。又,主注 出口 16a之沿著區劃線γ之緣部16d與空氣送入用之缺口部 1 6b經由角部彎曲緣部16e而平滑地連續。 而且’本實施形態中,内筒壁17之内徑D與注出嘴14之 基端部之大致U字狀剖面形狀的兩側之側壁部14b間之内寬 B之比(D/B)為2〜2.6。尤其’自容易向容器本體u補充内 容液、防止内容液於開口部附近堵塞或注出速度變大而使 内容液一次大量濺出、及容易控制注出量之觀點考慮,該 比(D/B)較佳為2~2.4。内筒壁1 7之内徑D於本實施形態中 為44 mm ’但由於注出蓋13係安裝於容器本體12之口頸部 12來使用,因此亦基於容器本體丨丨之形狀且自發揮本創作 之效果之方面考慮’較佳為使内筒壁17之内徑〇為3〇 mm~70 mm左右之大小來將注出蓋π固定於容器本體u。 又’本實施形態中,注出嘴14之基端部i4a之大致u字狀 剖面形狀之傾倒方向X之内長L1與内寬B之比(L1/B)為 〇.8〜1.3,較佳為當注出嘴14之基端部14a之内長 L1與内寬B之比(Ll/Β)為該範圍時,不管内容液之黏度或 物性如何而可控制注出量,且可一面有效地避免内容液向 注出嘴14之外側溢出,一面以穩定狀態順利地注出内容 液。進而,藉由將注出嘴14之基端部14a之内長L1與内寬B 之比(Ll/Β)設為該範圍,例如於後述之安裝在周面之一部 分設置有藉由一對平面部281)與稜線部28a所形成之山形剖 152456.doc 12 M407222 面形狀部分28之具塗佈部之計量蓋15時,可與容易補充或 各易控制注出量之大小之注出嘴丨4組合使用。 進而,本實施形態中,内長^與注出嘴14之基端部i4a 之注出口 16之至區劃線γ為止之傾倒方向X之開口長度L2 之比(L1/L2)為1.2〜1.7,較佳為ι·2〜1.6,進而更佳為 3 1.5。藉由使’主出嘴14之基端部i4a之大致U字狀剖面 形狀之傾倒方向X之内長L1與開口長度L2之比(L1/L2)成為 • 該範圍,於使作為内容液之例如衣料用液體洗務劑每次少 量地注出而直接塗佈於衣物時,可容易地控制洗滌劑之喷 出量》 進而又,本實施形態中’底面壁! 8之注出口丨6之較區劃 線Y更靠傾倒方向X側之部分之主注出口 i 6a之開口面積, 較佳為注出嘴14之基端部ua之内側區域之面積之65〜85% 之大小。藉由使主注出口 16 a之開口面積相對於注出嘴14 之内側區域為該範圍,於例如使用大型計量蓋等對黏度較 • 咼之液劑進行計量時,可順利地噴出不會使計量時間變長 而令人感到不快之程度之液量之内容液。尤其,於避免内 谷液向注出嘴之外側溢出、可一面控制注出量一面可順利 地注出之方面’主注出口 16a之開口面積較佳為注出嘴14 之内側區域之70-80%。 本實施形態中’覆蓋注出蓋13之注出嘴14而安裝於容器 本體11之口頬部12之計量蓋15為合成樹脂之成形品,如圖 1所示包括.計量筒部24;及裙狀安裝部25,其自計量筒 部24之中間部外周面成裙狀向外側突出而一體成形。於裙 152456.doc -13- M407222 狀安裝部25之内周面設置有内螺紋突條26 ^藉由將該内螺 紋突條26螺合於容器本體1丨之口頸部12之外周面上所設置 之外螺紋突條23,而將計量蓋15於計量筒部24之内側收納 有注出嘴14之狀態下可裝卸地安裝於容器本體丨丨之口頸部 12 °於糖狀安裝部25之頂面部25a之内面側形成有環狀密 封部25b,藉由抵接於内筒壁17之上端部分之環狀卡止肋 17b而使容器本體内密封。又,如圖示般,亦可根據需要 而於错狀安裝部25之筒狀壁之外表面形成刻紋。 計量蓋15於自容器本體11之口頸部12取下且使開口部朝 上方而成顛倒之狀態下,自注出蓋13之注出嘴14注入内容 液而進行計量之後,可將特定量之内容液注出至洗衣機等 之注出處。又於使開口部朝下方再次安裝於容器本體^之 口頸部12時,將計量筒部24之較裙狀安裝部25更靠開口侧 之部分設為回液部24a而插入配置於注出蓋13之内筒壁17 與注出嘴14之間隔部分。藉此,可將計量筒部24中殘留之 内容液經由注出嘴14之開放部及注出口 16而順利地回收至 容器本體11之内部。 又’本實施形態中,如圖5所示,於計量蓋15之計量筒 部24之周面之一部分,設置有包含稜線部28a及其兩側之 一對平面部28b之山形剖面形狀部分28。藉由將該山形剖 面形狀部分28配置於下方而使計量蓋15傾斜,可使計量筒 部24内之内容液經由稜線部28a而自開口部每次少量地注 出。藉此,可容易地進行内容液之局部塗佈。平面部28b 上刻有計量刻度。 152456.doc M407222 進而,計量筒部24之隔著裙狀安裝部25之回液部24a側 與計量部24b侧分別自裙狀安裝部25向軸方向突出,而使 回液部24a側之外形形狀與計量部24b側之外形形狀形成為 大致相同。因此,蓋之使用者於將計量蓋15安裝於容器本 體11之狀態下一眼便可識別出注出嘴丨4之位置。 而且,根據具有上述構成之本實施形態之注出容器1〇, . 於注出内容液時,可有效地避免内容液向注出嘴14之外側 φ 溢出,並且於補充内容液時,可經由注出口 16使内容液順 利地流入至谷器本體11,且可一面控制注出量一面使内容 液以穩定之狀態順利地自注出嘴14注出。又,可並用外形 不為圓形之具有塗佈功能之計量蓋15。 即,根據本實施形態之注出容器10,注出口 16於底面壁 1 8之/主出嘴14之内側區域中,在至少較與傾倒方向X垂直 之區劃線Y更靠傾倒方向X側之部分之整個區域開口而形 成有主注出口 16a,又内筒壁17之内徑D與注出嘴14之基端 # 部之大致U字狀剖面形狀的兩側之側壁部i4b間之内寬B之 比(D/B)為2〜2.6,注出嘴14之基端部14a之大致1}字狀剖面 形狀之傾倒方向X之内長L1與内寬b之比(L1/B)為 〇·8〜1.3,内長以與注出嘴14之基端部14&之注出口 16之至 區劃線Y為止之傾倒方向X之開口長度L2之比(li/l2)為 I.2〜ι·7,因此經由在注出嘴14之基端部14a所形成之開口 緣部無障礙物之相當大之主注出口 16a而自容器本體"流 出至注出嘴i4之内容液,經由注出嘴14所形成之流路而向 該注出嘴14之前端側順利地流下。藉此,例如即便於注出 152456.doc 15 M407222 内容液時谷益本體11急遽傾斜而自注出口 16之全體使内容 液一下子流出至注出嘴14之情形時,或内容液為例如 150〜4000 mPa.s(2〇C)左右、尤其為 4〇〇〜2〇〇〇 mpa.s(2crc) 之咼黏度之内容液而導致沿著注出嘴14之流下速度較自注 出口 16之流出速度過小之情形時,可藉由開口面積較大之 主注出口 16a之作用吸收内容液之滯留而有效地避免内容 液向注出嘴14之外側溢出。 又’根據本實施形態之注出容器1〇,注出嘴14具有已與 傾倒方向X相反之側作為開放部之大致U字狀剖面形狀, 注出口 16具有沿著大致U字狀剖面形狀之注出嘴丨4之基端 部14a之开> 狀之相當大之開口形狀,因此如圖6所示,可自 較寬地開放之注出嘴14之開放部側容易且順利地進行例如 利用補充用之袋狀容器27補充内容液之作業。 進而,根據本實施形態之注出容器1〇,注出口 16如上所 述具有在注出嘴14之基端部14a所形成之開口緣部無障礙 物之相當大之主注出口 l6a,因此可不管内容液之黏度如 何而防止内容液自注出口 16或注出嘴14溢出,從而可順利 地注出内容液,因此可容易地進行藉由調整使容器本體u 向傾倒方向X傾斜之程度而控制注出量,且尤其即便於使 内容液每次少量地注出之情形時,亦可使所期望量之内容 液自注出嘴14以穩定狀態注出。又,當安裝在周面之一部 分設置有例如山形剖面形狀之塗佈部(山形剖面形狀部分 28)之具塗佈部之計量蓋15時,可組合使用$易補充及可 控制注出量之大小之注出嘴14。 152456.doc •16· M407222 再者,本創作並不限定於上述實施形態而可進行各種變 更。例如’生出容器不必為覆蓋注出蓋而可裝卸地安裝有 計量蓋之容器。又,注出蓋除以嵌入容器本體之口頸部之 内側之形式安裝之外,亦可自容器本體之口頸部之外側以 螺合形式安裝。進而,收納於容器本體且自注出嘴注出之 内容液除為黏度較高之液體之外,亦可為低黏度之液體。 内容液除為衣料用液體洗滌劑之外,亦可為例如柔軟劑、 漂白劑、餐具用洗滌劑、入浴劑、家用洗滌劑等其他各種 液體。 【圖式簡單說明】 圖1係本創作之一較佳實施形態之注出容器之局部破斷 分解側視圖。 圖2係構成本創作之一較佳實施形態之注出容器之注出 蓋之立體圖。 圖3(a)係注出蓋之側視圖,圖3(b)係注出蓋之後視圖。 圖4(a)係注出蓋之放大平面圖,圖4(b)s沿著圖4(a)之A_ A之注出蓋之放大剖面圖。 圖5係計量蓋之立體圖。 圖ό係對補充内容液之狀況進行說明之概略立體圖。 【主要元件符號說明】 10 注出容器 11 容器本體 12 口頸部 12a 内周面 152456.doc -17- M407222 13 注出蓋 14 注出嘴 14a 基端部 14b 側壁部 14c 前端部分 15 計量蓋 16 注出口 16a 主注出口 16b 缺口部 16c 角部彎曲緣部 16d 緣部 16e 角部彎曲緣部 17 内筒壁 17a 擴徑部 17b 環狀卡止肋 17c 下端内周緣部 18 底面壁 18a 最下面部 18b 傾倒側傾斜面部 18c 側部傾斜面部 18d 反傾倒側傾斜面部 18e 邊界線 19 底面壁1 8之較區劃線Y而更靠開放部側之 部分 152456.doc •18· M407222A tba is set in the neck of the mouth of the barn body u. The upper end portion of the enlarged diameter portion 17a is provided with an annular locking rib 17b which protrudes outward (four) along the outer peripheral edge portion thereof by locking the j-shaped locking rib m to the neck portion 12 of the container body η. The inner peripheral portion of the upper end surface can prevent the injection cover η from being excessively pressed against the inside of the neck portion 12 at the time of fixing. In the present embodiment, the bottom wall 18 is disposed so as to be close to the lowermost portion 丨8a of the rectangular shape when the content liquid is dispensed, and the opposite side of the lower peripheral direction of the inner peripheral edge portion 17c of the lower end 17 The lateral length and the four-face inclined surface 152456.doc M407222 portions 18b, 18c, and 18d extending toward the lowermost portion 18a from the inner cylinder wall. In other words, the tilting-side inclined surface portion 18b is an inclined surface portion that is inclined downward from the substantially semicircular region on the side of the tilting direction X of the inner peripheral edge portion 17c of the lower end of the inner cylindrical wall 17 toward the long side portion of the lowermost portion 18a. One of the side-side inclined surface portions 18c is an inclined surface that is inclined downward from the inner peripheral edge portion 17c of the lower end portion of the inner cylinder wall 17 toward the short side portion of the lowermost portion 18a in the region adjacent to the inclined side inclined surface portion 18b. . The anti-dump side inclined surface portion 18d is formed from the lower peripheral end portion 17c of the inner cylinder wall 17 toward the long side portion of the lowermost portion 18a in a region opposite to the side opposite to the tilting side inclined surface portion 18b of the lowermost portion 18a. Tilt the face down. A discharge nozzle 14 is disposed to be erected at a central portion of the bottom wall 18, and a discharge port 16 is formed to open in an inner region of the discharge nozzle 14. In the present embodiment, the dispensing nozzle 14 has a substantially U-shaped cross-sectional shape in which the side opposite to the tilting direction X when the content liquid is poured is used as the opening portion. In other words, in the base end portion 14a joined to the bottom surface wall 18, the injection nozzle 14 has a substantially semi-circular arc-shaped portion on the blocking side of the substantially U-shaped cross-sectional shape on the side in the tilting direction X, and has a substantially U-shaped cross section. The end portion of the open side of the shape is disposed at the lowermost portion 18a'. In this state, the nozzle 14 is spaced apart from the inner cylinder wall 17 and is disposed at the inclined side inclined surface portion 1 8b and the most across the bottom wall 18. The area of the lower part 18a. Further, the nozzle 14 is vertically erected with respect to the lowermost portion 18a of the bottom wall 18 in a state where the tip end portion 14c protrudes upward from the inner cylinder wall 17. In the present embodiment, the front end portion 14c of the nozzle 14 is formed such that the height of the side wall portion 14b having a substantially cross-sectional shape gradually decreases toward the distal end side in the side view, and the radius and the base end portion of the nozzle 14 are gradually decreased. The inner length L1 of 14a is approximately the same 1/4 circular shape (refer to Fig. 152456.doc •10· M407222 3(a)). Further, the side wall portion 14b of the nozzle i4 between the distal end portion 14c and the proximal end portion 14a has substantially the same height (see Fig. 4(b)). In the present embodiment, as shown in FIGS. 2 and 4 (a) and (b), the injection port 16 is opened and formed at the base end portion 14a of the nozzle 14 having a substantially U-shaped cross-sectional shape of the bottom wall 18. The inner area. The imaginary division of the main injection port 16a of the discharge port 16 at a position lower than the specific opening length L2 at the lowermost portion of the tilting direction X of the base end portion of the substantially U-shaped cross-sectional shape of the self-injecting nozzle 14 The line Y is further in the portion on the X side in the tilting direction so as to be in the state in which the projecting portion (except the core of the corner bent edge portion 1) is not inserted between the base end portion 14a of the nozzle 14 and the tip 14 is to be ejected. The base end portion 14a is formed as an opening edge portion and is opened and raised into substantially the entire region. The main injection port 16a is opened and formed on the edge portion 16d along the area line Y on the side opposite to the tilting direction X of the main injection port 16a, and is lower than the lowermost portion 1 83 of the bottom wall 18. The boundary line 18e of the side inclined surface portion 18b is slightly closer to the tilting direction X side, and is provided to extend substantially in parallel with the boundary line 18e. The opening edge portion of the main injection port i6a formed by the base end portion 14a of the discharge nozzle 14 and the edge portion 16d of the main injection port 6a along the area line Y are smoothly continuous via the corner curved edge portion 16c. The edge portion 16d of the main injection port 16a along the area line γ and the notch portion 16b for air feeding are smoothly continuous via the corner curved edge portion 16e. Further, the injection port 16 includes a notch portion 16b continuous with the main injection port i6a. In other words, the central portion of the edge portion γ of the main injection port 16a along the scribe line γ is cut into a substantially rectangular shape on the side opposite to the tilting direction X, thereby forming the inner region of the nozzle μ in a substantially U-shaped cross-sectional shape. The portion of the bottom wall 18 that is closer to the opening portion than the region line Y, the air feeding recess portion 16b when the liquid liquid is poured out from the tilting side inclined surface portion 18b 152456.doc M407222 into the lowermost portion 18a. . Thereby, the notch portion 16b is disposed in the lowermost portion formed by the lowermost portion 18a of the bottom wall 18 in the erect state of the container body 11. Further, the edge portion 16d along the area line γ of the main injection port 16a and the notch portion 16b for air feeding are smoothly continuous via the corner curved edge portion 16e. Further, in the present embodiment, the ratio (D/B) of the inner width D between the inner diameter D of the inner cylinder wall 17 and the side wall portion 14b on both sides of the substantially U-shaped cross-sectional shape of the base end portion of the nozzle 14 is (D/B). For 2~2.6. In particular, from the viewpoint of easily replenishing the contents of the container body u, preventing the content liquid from being clogged near the opening, increasing the ejection speed, causing the content liquid to be largely splashed at a time, and easily controlling the amount of injection, the ratio (D/) B) is preferably 2 to 2.4. The inner diameter D of the inner cylinder wall 17 is 44 mm in the present embodiment. However, since the injection cap 13 is attached to the neck portion 12 of the container body 12, it is also based on the shape of the container body and self-playing. In view of the effect of the present invention, it is preferable that the injection cap π is fixed to the container body u so that the inner diameter 内 of the inner cylinder wall 17 is about 3 mm to 70 mm. Further, in the present embodiment, the ratio (L1/B) of the inner length L1 to the inner width B in the tilting direction X of the substantially u-shaped cross-sectional shape of the base end portion i4a of the nozzle 14 is 〇.8 to 1.3. When the ratio of the inner length L1 to the inner width B (Ll/Β) of the base end portion 14a of the nozzle 14 is within this range, the amount of injection can be controlled regardless of the viscosity or physical properties of the content liquid, and one side can be controlled. It is effective to prevent the content liquid from overflowing to the outside of the dispensing nozzle 14 while smoothly discharging the content liquid in a stable state. Further, by setting the ratio (L1/Β) of the inner length L1 to the inner width B of the base end portion 14a of the nozzle 14 as the range, for example, a pair of peripheral surfaces to be mounted later is provided by a pair. When the flat portion 281) and the ridge portion 28a are formed into a mountain-shaped section 152456.doc 12 M407222, the surface-shaped portion 28 has a coating portion 15 having a coating portion, and the dispensing nozzle can be easily replenished or each of which is easy to control the amount of the ejection.丨4 is used in combination. Further, in the present embodiment, the ratio (L1/L2) of the inner length ^ to the opening length L2 of the pouring direction 16 of the base end portion i4a of the dispensing nozzle 14 to the area line γ is 1.2 to 1.7. It is preferably ι·2 to 1.6, and more preferably 3 1.5. By setting the ratio (L1/L2) of the inner length L1 and the opening length L2 in the tilting direction X of the substantially U-shaped cross-sectional shape of the proximal end portion i4a of the main nozzle 14 to the range, the content liquid is used as the content liquid. For example, when the liquid detergent for clothing is directly applied to the clothes at a small amount, the amount of the detergent can be easily controlled. Further, in the present embodiment, the "bottom wall"! The opening area of the main injection opening i 6a of the portion of the outlet 丨6 which is the portion of the outlet 丨6 is more than the area of the main injection opening i 6a of the portion on the X side of the pouring direction, preferably 65 to 85 of the area of the inner portion of the base end portion ua of the injection nozzle 14. The size of %. By making the opening area of the main injection port 16a with respect to the inner area of the nozzle 14 as a range, for example, when measuring a liquid agent having a viscosity of more than a large measuring cap, the liquid can be smoothly ejected without causing it to be discharged. A liquid content that measures the amount of liquid that becomes longer and unpleasant. In particular, the opening area of the main injection port 16a is preferably 70% of the inner area of the injection nozzle 14 in order to prevent the inner liquid from overflowing to the outer side of the discharge nozzle and to control the amount of the injection to be smoothly injected. 80%. In the present embodiment, the measuring cap 15 which is attached to the mouth portion 12 of the container body 11 and which covers the nozzle 14 of the container lid 11 is a molded article of synthetic resin, and includes a metering cylinder portion 24 as shown in Fig. 1; The skirt-like attachment portion 25 is formed integrally with the outer peripheral surface of the intermediate portion of the metering cylinder portion 24 so as to protrude outward in a skirt shape. The inner peripheral surface of the skirt 152456.doc -13- M407222 is provided with an internal thread ridge 26 by screwing the internal thread ridge 26 to the outer circumference of the neck portion 12 of the container body 1 The threaded ridge 23 is provided, and the metering cap 15 is detachably attached to the neck portion 12 of the container body 状态 in the state of the sugar-like mounting portion while the metering cap 15 is accommodated inside the metering cylinder portion 24 An annular seal portion 25b is formed on the inner surface side of the top surface portion 25a of the 25, and the container body is sealed by the annular locking rib 17b that abuts against the upper end portion of the inner cylinder wall 17. Further, as shown in the figure, a embossing may be formed on the outer surface of the cylindrical wall of the erroneous mounting portion 25 as needed. The metering cap 15 is removed from the neck portion 12 of the container body 11 and the opening portion is turned upside down. After the injection liquid is injected from the nozzle 14 of the injection cap 13 to measure the amount, a specific amount can be applied. The contents of the liquid are discharged to the discharge point of the washing machine or the like. When the opening portion is reattached to the neck portion 12 of the container body, the portion of the metering tube portion 24 that is closer to the opening side of the skirt-like mounting portion 25 is placed in the liquid return portion 24a, and is inserted into the discharge portion 24a. The inner wall 17 of the lid 13 is spaced from the dispensing nozzle 14. Thereby, the content liquid remaining in the metering cylinder portion 24 can be smoothly collected into the inside of the container body 11 through the opening portion of the nozzle 14 and the injection port 16. Further, in the present embodiment, as shown in Fig. 5, a portion of the circumferential surface of the metering cylinder portion 24 of the metering cover 15 is provided with a ridge line portion 28a and a mountain-shaped cross-sectional shape portion 28 of one of the two sides and the flat portion 28b. . By placing the mountain-shaped cross-sectional shape portion 28 downward and tilting the metering cover 15, the content liquid in the metering cylinder portion 24 can be injected a small amount from the opening portion via the ridge portion 28a. Thereby, partial application of the content liquid can be easily performed. A measuring scale is engraved on the flat portion 28b. 152456.doc M407222 Further, the liquid returning portion 24a side and the measuring portion 24b side of the measuring cylinder portion 24 are respectively protruded from the skirt-like mounting portion 25 in the axial direction, and the liquid returning portion 24a side is shaped. The shape is formed to be substantially the same as the outer shape of the measuring portion 24b side. Therefore, the user of the cover can recognize the position of the mouthpiece 4 by the lower eye in the state in which the measuring cap 15 is attached to the container body 11. Further, according to the dispensing container 1 of the present embodiment having the above-described configuration, when the content liquid is dispensed, the content liquid can be effectively prevented from overflowing to the outer side φ of the dispensing nozzle 14, and when the content liquid is replenished, The injection port 16 allows the content liquid to smoothly flow into the hopper body 11, and the content liquid can be smoothly ejected from the nozzle 14 in a stable state while controlling the amount of injection. Further, a metering cover 15 having a coating function which is not circular in shape can be used in combination. That is, according to the dispensing container 10 of the present embodiment, the injection port 16 is in the inner side region of the bottom wall 18/the main nozzle 14 and is at least in the tilting direction X side of the region line line Y which is perpendicular to the tilting direction X. The entire portion of the portion is opened to form the main injection port 16a, and the inner diameter D of the inner cylinder wall 17 and the inner side wall portion i4b of the substantially U-shaped cross-sectional shape of the base end portion of the injection nozzle 14 are wide. The ratio of B (D/B) is 2 to 2.6, and the ratio (L1/B) of the inner length L1 to the inner width b of the substantially 1}-shaped cross-sectional shape of the base end portion 14a of the nozzle 14 is 〇·8~1.3, the ratio of the inner length to the opening length L2 of the pouring direction X of the base end portion 14& of the injection nozzle 14 to the area line Y (li/l2) is I.2~ In the case of ι·7, the content liquid flowing out from the container body to the dispensing nozzle i4 via the relatively large main injection port 16a at the opening edge portion formed by the base end portion 14a of the dispensing nozzle 14 is passed through The flow path formed by the nozzle 14 is injected and smoothly flows down to the front end side of the discharge nozzle 14. In this case, for example, even when the 153456.doc 15 M407222 content liquid is dispensed, the whole body 11 is slanted and the entire liquid is discharged from the injection outlet 16 to the discharge nozzle 14 at a time, or the content liquid is, for example, 150. ~4000 mPa.s (2〇C) or so, especially 4内容~2〇〇〇mpa.s(2crc), the viscosity of the content liquid causes the flow rate along the injection nozzle 14 to be faster than the self-injection outlet 16 When the outflow speed is too small, the retention of the content liquid can be effectively prevented by the action of the main injection port 16a having a large opening area, thereby effectively preventing the content liquid from overflowing to the outside of the discharge nozzle 14. Further, according to the dispensing container 1 of the present embodiment, the dispensing nozzle 14 has a substantially U-shaped cross-sectional shape in which the side opposite to the tilting direction X is an opening portion, and the injection port 16 has a substantially U-shaped cross-sectional shape. As shown in Fig. 6, the proximal end portion 14a of the mouthpiece 4 can be easily opened smoothly from the open portion side of the dispensing nozzle 14 which is opened as shown in Fig. 6, for example. The operation of replenishing the content liquid by the bag-shaped container 27 for replenishment. Further, according to the injection container 1A of the present embodiment, the injection port 16 has a large main injection port 16a which is free from the opening edge portion formed at the base end portion 14a of the nozzle 14 as described above, and thus can be Regardless of the viscosity of the content liquid, the content liquid is prevented from overflowing from the injection port 16 or the discharge nozzle 14, so that the content liquid can be smoothly injected, so that the degree to which the container body u is inclined in the tilting direction X can be easily adjusted by adjustment. The amount of the shot is controlled, and particularly when the content liquid is injected a small amount at a time, the desired amount of the content liquid can be ejected from the nozzle 14 in a stable state. Further, when the measuring cover 15 having the coating portion of the application portion (the mountain-shaped cross-sectional shape portion 28) of the mountain-shaped cross-sectional shape is provided in a part of the circumferential surface, the easy-to-replenish and controllable injection amount can be used in combination. The size of the note is out of the mouth 14. 152456.doc •16· M407222 Furthermore, the present creation is not limited to the above embodiment, and various modifications can be made. For example, the raw container does not have to be detachably attached to the container with the metering cap to cover the ejection cap. Further, the lid may be attached to the inside of the neck portion of the container body in the form of a screw-in form, and may be attached to the outside of the neck portion of the container body. Further, the liquid contained in the container body and injected from the nozzle can be a liquid having a low viscosity, in addition to a liquid having a high viscosity. The content liquid may be, for example, a liquid detergent for clothing, and may be, for example, a softener, a bleach, a dishwashing detergent, a bathing agent, a household detergent, or the like. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a partial exploded exploded side view of a dispensing container in accordance with a preferred embodiment of the present invention. Fig. 2 is a perspective view showing a dispensing cover of a dispensing container which is a preferred embodiment of the present invention. Fig. 3(a) is a side view showing the lid, and Fig. 3(b) is a rear view showing the lid. Fig. 4(a) is an enlarged plan view showing the cap, and Fig. 4(b)s is an enlarged cross-sectional view of the cap taken along the A_A of Fig. 4(a). Figure 5 is a perspective view of the metering cover. The figure is a schematic perspective view illustrating the state of the supplementary content liquid. [Main component symbol description] 10 Injection container 11 Container body 12 Mouth neck portion 12a Inner circumferential surface 152456.doc -17- M407222 13 Injection cover 14 Injection nozzle 14a Base end portion 14b Side wall portion 14c Front end portion 15 Metering cover 16 Injection port 16a Main injection port 16b Notch portion 16c Corner curved edge portion 16d Edge portion 16e Corner curved edge portion 17 Inner cylinder wall 17a Expanded diameter portion 17b Annular locking rib 17c Lower end inner peripheral edge portion 18 Bottom wall 18a Lowermost portion 18b Pour side inclined face portion 18c Side inclined face portion 18d Anti-dump side inclined face portion 18e Boundary line 19 Bottom wall 1 8 is smaller than the area line Y and is closer to the open side side 152456.doc •18· M407222
20 21 22 23 24 24a 24b 25 25a 25b 27 28 28a 28b B 底部 本體部 把手部 外螺紋突條 計量筒部 回液部 計量部 裙狀安裝部 頂面部 ί哀狀密封部 袋狀容器 山形剖面形狀部分 稜線部 平面部 内寬20 21 22 23 24 24a 24b 25 25a 25b 27 28 28a 28b B Bottom body part handle part external thread protrusion metering cylinder part backing section metering part skirt mounting part top face 哀 状 密封 密封 密封 密封 密封 密封 密封 密封Width of the plane of the ridge line
D L1 内徑 内長 L2 開口長度 X 傾倒方向 Υ 區劃線 -19- 152456.docD L1 Inner diameter Length L2 Opening length X Dipping direction Υ Area marking -19- 152456.doc