M345045 八、新型說明: ,【新型所屬之技術領域】 - 本創作容器不等壓器壁結構將容器形成一超薄形可撓 性器壁,當容器組裝一流體喷頭裝置使用時,盛裝容器内 部因所產生的壓差作用,造成容器壁受到外界大氣壓力擠 -壓收縮,使得儲液由流體喷嘴裝置送出,而容器壁於使用 •末期時達到貼合狀態,完全的將容器内殘液壓出,有效降 低儲液殘留量。 鲁【先前技術】 一般盛裝液體之按壓式容器大部分都是採用一具有固 定型態之容器,此類型容器大都是藉由一固定造型容器於 瓶口位置組裝一流體喷嘴裝置,該流體裝置底端的導管可 延伸到容器底部供抽吸液體,此種容器之缺點在於當内部 儲液容量低於導管位置,造成無法抽吸剩餘液體而導致浪 費的現象。 • 另外一種固定型態容器内部則設有一隨動式活塞,藉 由組裝在容器上方之流體噴嘴裝置抽吸内部空氣,造成ς .器内部壓力改變而產生壓差,使得隨動式活塞受壓上移, .將内部儲液抽出,但此類型產品,由於容器結構元件較多, 於製作加工時需要較多的材料耗費,導致製作成本較高。’ 而上述兩種固定型態之容器還有一共同的缺點,就是^内 部儲液使用完畢後無法改變其體積,導致垃圾增加的^題 產生。 於市面上另-種按壓式容器的製造過程中,如參閱第 M345045 1A圖所示,其使用兩個設有特定形狀之併合模具2〇,該模 ,具20包含一瓶口模槽21以及一特定之容置區模槽22,將 -一大於模具20長度之中空長條型料袋1〇置入兩模具20 中央’使料袋1 〇頂端及底端局部長度凸出模具2〇。請參 閱第1Β圖及第ic圖所示,當兩模具20壓合時,料袋10 固定於模具20中央,而料袋1〇底部受到模具2〇擠壓形成 一片狀結構’再由料袋1 〇上方中空開口置入一吹管裝置 (圖未示)’並由吹管裝置打入高壓氣體,使料袋10内部受 _壓膨脹形成配合模具2〇之特定造型,請參閱第1D圖,最 後再將成型之容器30頂端多餘料袋1 〇以及底端多餘片狀 料袋10裁切’即形成一具有可撓性器壁之容器3 〇。 如上述的此類容器基本上會與一流體喷頭裝置組裝, 該流體喷頭裝置由一頂端外露的喷頭及一作動軸接合連 動,作動軸能因使用者之施力下壓或釋放壓力進行縱向往 復移動。藉由喷頭及作動軸的縱向上下位移,使盛裝容器 _内部產生壓差作用造成儲液由喷嘴送出。但由於此類容器 採用量產化之中空成型方式製&,其成品之容器壁厚度= ,〇·8ππη〜lmm,當容器壁四周受到壓差作用力影響時,容 •器壁無法因外部壓力而輕易受壓收縮,將容器内部殘液(尤 其是容器内餘留量較少時)壓出,此為其缺點之一,同時, 更因為受到此一限制,使得容器壁於受擠壓時容易產生 規則形變,更導致此類容器產品在使用末期無法將内部殘 存流體完全送出的浪費現象。 【新型内容】 M345045 爱是’本創作之主要目的,旨在提供一種容器不等壓 ,器壁結構’藉由容器超薄形可撓性壓縮壁及可抗壓不變形 -支撐壁共同組成一盛裝儲液之容置區,當容器組裝一流體 喷嘴裝置作動,容器内部會因此產生壓差作用,使得容器 壓縮壁以預設支撐壁為支點,均勻向内壓縮形成一片狀結 •構,使得内部儲液可以完全被喷嘴裝置送出,進一步有效 降低此類容器使用末期之儲液殘留量。 為達上揭目的,本創作容器不等壓器壁結構係包含一 _特定大小容積以置入儲液之容器,並於所述容器頂端設有 一航口供組裝一流體喷頭裝置來封閉容器;上述容器含有 設定厚度之薄形壓縮壁供作為容器主體部,並於所述壓縮 壁特定位置設有一個以上大於上述壓縮壁厚度的抗壓不變 形支撐壁,上述壓縮壁及支撐壁共同組成一盛裝流體之容 置區。 於較佳實施例中,上述壓縮壁之厚度介於 _ 〇· 13mm~〇· 2ππη 之間。 於較佳實施例中,相對於上述壓縮壁之厚度,上述支 •撐壁之厚度介於0· 5mm-1mm。 • 於較佳實施例中,上述支撐壁設為所需的幾何斷面形 狀。 於較佳實施例中,上述容置區以一併合模具一體射吹 成型,所述支撐壁成型於上述併合模具合模線之預設縫隙 凹槽位置。 、 於較佳實施例中,上述支撐壁成型於上述併合模具合 畚 ί Μ345045 模線兩側預設相對縫隙凹槽位置。 '於較佳實施例中,上述容置區為如瓶體 .之類形狀。 衣體 【實施方式】 兹為便於更進-步對本創作之構造、使用及其特徵 更:-層明確、詳實的認識與瞭解,表舉出較佳 , 配合圖式詳細說明如下: …如第2Α圖至第2Β圖所示,於圖示其中一可行 ,貝例中’本創作採用原始胚體以射出成型方式製作出— ::有瓶口 5。結構之胚體4〇,以及兩具有瓶口模槽61及 各置區模槽62之相對併合模具⑼。其中,該容置區模槽 2内部設有縫隙凹槽63,於圖示此—可行實施例中,上述 ’、’隙=槽63設置於模具6()兩側合模線位置。 凊參閱S 2C圖’將上述胚體4〇置於瓶口模槽61位置 兩相對併合之核具6()壓合固定,把射吹裝置(圖未示) a述瓶口 50結構套入,運用約251^心2的高壓氣體射 /胚體40内’使其均勻膨脹至容置區模槽a内周壁, •开二成超薄形可撓性之壓縮壁71,而容置區模槽62之縫 隙凹槽63會形成一可抵抗空氣壓力不形變之兩侧相對支 姜土 72明參閱第2D圖,將成型之容器7〇由兩模具60 1取出元成一具有均勻撓性器壁之容器7〇。 如第3圖至第6圖所示,於較佳實施例中,本創作設 有特定大小容積以置入儲液之容器7〇,並於所述容器70 頂鳊设有一瓶口 50供組裝一流體喷頭裝置80來封閉容器 7 M345045 70;上述容器70設有-受壓膨脹至特定厚度之薄形壓縮壁 -71供作為容器70主體部,並於此壓縮壁71特定位置設有 •抵抗空氣壓力不變形支#壁72,上述壓縮壁71及支撐壁 72共同組成-盛裝流體之容置區?3,且容置㈣頂端形 成一連通之上開口。 •於圖示一可行實施中,上述支撐壁72設置於容置區 73>兩側對稱位置並呈現縱向條狀斷面,但此僅用為方便舉 例說明,並非加以限制。亦即,上述支撐壁72可依照設計 需求以一個以上設於容置區73各個不同位置,且在成型技 術許可下設為如線條或是任何合適的幾何斷面形狀。 於可行實施中,上述容置區73配合壓縮壁71及支撐 壁72可成型為如瓶體、杯體、袋體等任何設計需求的形狀。 於上述實施例中,本創作將上述壓縮壁71射吹成型為 超f形可撓性器壁,在理想及現有射吹成型技術中,其器 壁厚度可約為〇· 13mm〜G· 2mm之間,使其形成最佳的受壓器 籲壁厚度,相對於此一超薄結構,上述供抵抗空氣壓力之支 撐土 72之居度則可设為約〇· 5丽〜1㈣之間。 • 本創作之容器進一步組接一流體喷頭裝置80 ,該 流體喷頭裝置8〇設有—伸人容器内如真空幫浦或閥之類 的噴C元件,藉由使用者之施力下壓或釋放壓力而進行縱 向往復移動,使容器7〇内部與外界空氣形成壓差作用於上 述壓縮壁71及支撐壁72上,請參閱第7目,壓縮壁71 ^以兩側支撐壁72為支點向内收縮,使得容置區了3受擠 壓將内°卩儲液由流體噴嘴裝置8 0送出,隨著使用次數的增 M345045 加,谷為7〇壓縮壁71會逐漸内縮擠壓,最後容器70壓缩 _壁71在使用末期達到貼入肋能,你… + μ運到貼合狀悲,使得内部儲液可以 •流體喷嘴裝置80送出。 、本創作經由低受壓薄形器壁形成整個容器之主要部 刀’並以預先成型的支撐壁成為此類容器作動時之支撐 .部,其因而能使此類容器在流體喷頭裝置按壓時,其所造 成的壓差將更為有效的將内部儲液送出,同時,在此類容 斋產品使用到末期日夺,能更完全的將容器内殘液壓出,減 少習用此類結構因儲液壓送不完整所造成的浪費現象。 以上所舉實施例僅用為方便說明本創作並非加以限 制,在不離本創作精神範疇,熟悉此一行業技藝人士所可 作之各種簡易變形與修飾,均仍應含括於以下申請專利範 圍中。 【圖式簡單說明】 第1Α至1D圖係習用容器中空成型之示意圖; 第2Α至2D圖係本創作射吹成型之示意圖; 弟3圖係本創作之立體圖; 第4圖系第3圖之縱向斷面圖; 第5圖係第3圖之橫向斷面圖; 第6圖顯示本創作容器不等壓器壁結構之使用狀態示 意圖;以及 第7圖係第6圖於使用狀態下之器壁受力形變示意圖。 【主要元件符號說明】 1〇------料袋 M345045 20 . 21 22 30 40 50 60 61 • 62 63 70 71 72 73 80 模具 瓶口模槽 容置區模槽 容器 胚體 瓶口 模具 瓶口模槽 容置區模槽 缝隙凹槽 容器 壓縮壁 支撐壁 容置區 流體喷頭裝置M345045 VIII. New description: , [New technical field] - The container of the creation of the non-equalizer wall structure forms the container into an ultra-thin flexible wall, which is used when the container is assembled with a fluid nozzle device. Due to the pressure difference generated, the container wall is squeezed and contracted by the external atmospheric pressure, so that the liquid is sent out by the fluid nozzle device, and the container wall is brought into a conforming state at the end of use, and the residual hydraulic pressure in the container is completely discharged. , effectively reduce the amount of residual liquid. Lu [Prior Art] Most of the press-type containers containing liquids generally use a container with a fixed type. Most of the containers of this type are assembled with a fluid nozzle device at the position of the bottle by a fixed molding container. The end of the conduit can be extended to the bottom of the container for pumping liquid. The disadvantage of such a container is that when the internal storage capacity is lower than the position of the catheter, it is impossible to pump the remaining liquid and cause waste. • Another type of fixed-type container is provided with a follower piston. The internal air is sucked by the fluid nozzle device assembled above the container, causing the internal pressure of the device to change and the pressure difference, causing the follower piston to be pressed. Move up, the internal liquid is pumped out, but this type of product, because of the large number of structural components of the container, requires more material consumption during manufacturing and processing, resulting in higher production costs. The above two fixed-type containers have a common disadvantage, that is, the internal liquid cannot be changed in size after use, and the problem of increased garbage is generated. In the manufacturing process of another type of push-type container on the market, as shown in the figure of M345045 1A, it uses two combined molds 2B having a specific shape, the mold 20 includes a bottle of die groove 21 and A specific accommodating zone cavity 22, a hollow strip-shaped bag 1 which is larger than the length of the die 20 is placed in the center of the two dies 20 so that the top end and the bottom end of the bag 1 are protruded from the die 2 局部. Referring to FIGS. 1 and ic, when the two molds 20 are pressed together, the bag 10 is fixed to the center of the mold 20, and the bottom of the bag 1 is pressed by the mold 2 to form a sheet-like structure. A blower device (not shown) is placed in the hollow opening above the bag 1 and a high-pressure gas is driven by the blow pipe device to cause the inside of the bag 10 to be expanded by pressure to form a specific shape of the mold 2, see Fig. 1D. Finally, the excess bag 1 顶端 at the top end of the formed container 30 and the excess sheet-like bag 10 at the bottom end are cut to form a container 3 having a reamer wall. Such a container as described above is basically assembled with a fluid ejection device which is coupled by a top exposed nozzle and an actuating shaft. The actuating shaft can be pressed or released by the user's force. Perform a longitudinal reciprocating movement. By the vertical displacement of the spray head and the actuating shaft, a pressure difference is generated inside the container to cause the liquid to be sent out by the nozzle. However, since such a container is mass-produced by a hollow molding method, the thickness of the container wall of the finished product is 〇·8ππη~lmm, and when the wall of the container is affected by the pressure difference force, the wall of the container cannot be externally Pressure and easy to shrink by pressure, the residual liquid inside the container (especially when the remaining amount in the container is small) is one of the disadvantages, and at the same time, because of this limitation, the container wall is squeezed It is easy to produce regular deformation, which leads to the waste of such container products in the end of the use of the internal residual fluid can not be completely sent out. [New content] M345045 Love is the main purpose of this creation, aiming to provide a container with non-equal pressure, and the wall structure is composed of a container of ultra-thin flexible compression walls and a compressive and non-deformable-support wall. In the accommodating area for storing the liquid, when the container is assembled with a fluid nozzle device, the inside of the container will have a pressure difference, so that the compressed wall of the container is supported by the predetermined supporting wall as a fulcrum, and is uniformly compressed inward to form a piece of knot structure. The internal liquid storage can be completely sent out by the nozzle device, which further effectively reduces the residual liquid storage at the end of the use of such containers. In order to achieve the above, the creative container non-equalizer wall structure comprises a container of a certain size to be placed in the liquid storage container, and a nozzle is arranged at the top of the container for assembling a fluid nozzle device to close the container; The container comprises a thin compressed wall of a set thickness as a container body portion, and a pressure-resistant non-deformation support wall larger than the thickness of the compression wall is provided at a specific position of the compression wall, and the compression wall and the support wall together form a Contains the containment area of the fluid. In a preferred embodiment, the thickness of the compressed wall is between _ 〇 · 13 mm 〇 2ππη. In a preferred embodiment, the thickness of the support wall is between 0.5 mm and 1 mm with respect to the thickness of the compression wall. • In the preferred embodiment, the support wall is configured to the desired geometric cross-sectional shape. In a preferred embodiment, the accommodating area is integrally blow molded by a merging mold, and the supporting wall is formed at a position of a predetermined slit groove of the merging mold clamping line. In a preferred embodiment, the support wall is formed on the two sides of the mold line of the merged mold 畚 Μ 345045. In the preferred embodiment, the accommodating area is a shape such as a bottle. Body [Embodiment] In order to facilitate further development, the structure, use and characteristics of this creation are more: - clear and detailed understanding and understanding, the table is better, with the following detailed description: ... From the 2nd to the 2nd drawings, one of the examples is feasible. In the case of the shell, the original body is made by injection molding. The body of the structure is 4 〇, and two opposing molds (9) having a mouth cavity 61 and a plurality of zone grooves 62. Wherein, the recessed groove 63 is provided in the cavity 2 of the accommodating area. In the illustrated embodiment, the above-mentioned 'gap=slot 63 is disposed at the position of the mold clamping line on both sides of the mold 6 ().凊 Refer to the S 2C diagram'. Place the above-mentioned embryo body 4〇 in the position of the mouth of the bottle mouth 61, and press and fix the core 6(), and put the structure of the bottle opening 50 into the blowing device (not shown). , using a high pressure gas injection/injection body 40 of about 251 ^2 to uniformly expand to the inner peripheral wall of the cavity a of the accommodating area, and to open the ultra-thin flexible compression wall 71, and the accommodating area The slit groove 63 of the cavity 62 forms a pair of opposite support ginger soil 72 which is resistant to air pressure and is not deformed. Referring to FIG. 2D, the formed container 7 is removed from the two molds 60 1 into a uniform flexible wall. The container is 7 inches. As shown in FIGS. 3 to 6, in the preferred embodiment, the present invention is provided with a container of a specific size for being placed in a liquid storage container, and a bottle opening 50 is provided on the top of the container 70 for assembly. A fluid jetting device 80 is used to close the container 7 M345045 70; the container 70 is provided with a thin compressed wall-71 that is compressed and expanded to a specific thickness for use as a main portion of the container 70, and is provided at a specific position of the compressed wall 71. Resisting the air pressure without deforming the branch wall #72, the above-mentioned compression wall 71 and the support wall 72 together constitute a accommodating area for containing fluid. 3, and the receiving (four) top end forms a connected upper opening. In a possible implementation, the support wall 72 is disposed at the symmetrical position on both sides and presents a longitudinal strip-like section, but this is only for convenience of description and is not limited. That is, the support walls 72 may be disposed at different positions of the accommodating area 73 according to design requirements, and may be set as a line or any suitable geometric cross-sectional shape under the permission of the molding technology. In a feasible implementation, the accommodating area 73 and the supporting wall 71 and the supporting wall 72 can be shaped into any design requirements such as a bottle body, a cup body, a bag body and the like. In the above embodiment, the present invention blows the compressed wall 71 into a super-f-shaped flexible wall. In the ideal and existing injection molding techniques, the thickness of the wall can be about 13·13 mm to G·2 mm. In order to form an optimum pressure-receiving wall thickness, the above-mentioned support soil 72 for resisting air pressure can be set to be between about 5 mils to 1 (four). • The container of the present invention is further coupled to a fluid ejection device 80, which is provided with a C-element such as a vacuum pump or a valve in the container, by the user's force Pressing or releasing the pressure to perform longitudinal reciprocating movement, so that a pressure difference between the inside of the container 7 and the outside air acts on the compression wall 71 and the support wall 72. Referring to the seventh item, the compression wall 71 is supported by the side walls 72. The fulcrum is inwardly contracted, so that the accommodating area 3 is squeezed to send the inner 卩 卩 liquid from the fluid nozzle device 80, and as the number of uses increases, M345045 is added, and the valley is 7 〇 compressed wall 71 is gradually contracted and squeezed. Finally, the container 70 is compressed _ wall 71 at the end of use to reach the rib energy, you ... + μ transport to the fit sorrow, so that the internal reservoir can be sent out by the fluid nozzle device 80. The creation of the main part of the entire container by the low pressure thinner wall and the pre-formed support wall becomes the support for the operation of such a container, which thus enables such a container to be pressed in the fluid ejection device At the same time, the pressure difference caused by it will be more effective to send out the internal liquid storage. At the same time, in the end of the use of such Rongzhai products, the residual hydraulic pressure in the container can be more completely reduced, and the use of such structures is reduced. The waste caused by incomplete storage of hydraulic pressure. The above embodiments are only used to facilitate the description of the present invention and are not intended to be limiting, and various simple modifications and modifications that can be made by those skilled in the art are still included in the following patent claims. . [Simple description of the drawings] The first to the 1D diagrams are schematic diagrams of the hollow molding of the conventional container; the second to the 2D diagrams are schematic diagrams of the present injection molding; the third diagram is the perspective view of the creation; the fourth diagram is the third diagram Longitudinal sectional view; Fig. 5 is a transverse sectional view of Fig. 3; Fig. 6 is a schematic view showing the state of use of the wall of the non-equalizer of the creation container; and Fig. 7 is a diagram of the device in the state of use The wall is deformed by force. [Main component symbol description] 1〇------material bag M345045 20 . 21 22 30 40 50 60 61 • 62 63 70 71 72 73 80 Mold bottle mouth cavity receiving area cavity container body body mouth mold Bottle mouth mold receiving area cavity slot groove container compression wall support wall receiving area fluid nozzle device