M3 31492 .-八、新型說明: _【新型所屬之技術領域】 本創作係關於一種容置裝置,特別是指一種容置塡縫 劑,或密封膠或食品用奶油等稠狀液體之容置裝置。 【先前技術】 一般稠狀液體,因爲與空氣接觸後會失去水份乾燥化 、或硬化,所以都會將前述的稠狀液體容置在一適當的容器 -或裝置內,且該容器的一端組設有一管件。使用者可以藉 鲁由對該管件施力的方式而使容器內的稠狀液體自動流出。 以黏著劑置於容器內爲例,對管件施力的方式之一,係使 用者直接將管件的一端對準要黏補的位置,然後施力使管 件壓靠著黏補位置,此時管件會產生變曲且容器內部的一 *閥門構件呈開啓狀。藉容器內部高壓氣體的作用,容器內 的稠狀液體便可以自動流出。 另一種對管件施力的方式是在容器上配接一壓柄。當 壓柄被壓動,該壓柄便形成一槓桿用以驅動該管件對應該 籲容器產生相對運動,此時容器內部的—閥門構件呈開啓狀 -’且配合容器內部的高壓氣體作用,則容器內的稠狀液體 便可以自動流出。 即者的閥門機構簡單’但是需要施力壓動管件才能達 到使用的效果’所以操作上是費力的,而且容易因爲誤壓 動管件而使稠狀液體誤流出。後者不易產生誤動作,而且 操作省力,但是閥門機構較爲複雜。 【新型內容】 M3 31492 由先前技術可知目前已知的二種用以容置稠狀液體的 容器中,一者具有簡單的機構但是操作費功且易產生誤動 作,一者具有複雜機構但是操作省力且不易有誤動作。綜 合先前技術並加以改良,使得本創作得以提供一種創新的 容器,特別是稠狀液體容置裝置,用以解決先前技術的缺 點。 , 本創作的目的在於提供一種稠狀液體之容置裝置,其 -具有操作省力而且不易產生誤動作的功效。 釀根據上述的的目的及功效,本創作包含一罐體;一接 管元件係組設在罐體一端且與內部相通;一套管元件組裝 在接管元件外且能位移;一流管元件一端穿過套管元件而 與接管元件結合;一樞接塊設在套管元件表面,或是一具 有樞接塊的元件配設在罐體一端;一壓柄一端樞設在樞接 塊上;如此套管元件底部與罐體形成限制性狀態時,壓動 壓柄無法驅動流管元件、套管元件及接管元件的組合對應 罐體產生相對運動;又套管元件底部與罐體間無限制性組 ⑩態時,壓動該壓柄可驅動流管元件、套管元件及接管元件 -的組合對應該罐體產生相對運動。據此即可達到限制容器 被誤操作以及操作省力的功效。 以上依本創作所揭露之目的、功效及結構組態,舉一 較佳實施例,並配合圖式詳細說明。 【實施方式】 請參閱第1至3圖,一罐體(ίο)的內部係供稠狀液體 容置且一端形成一凹室(12)。一出口端(14)係凸出該凹室 M3 31492 -(12)且與罐體(10)內部相通。 一接管元件(20)可以是中空管件(21)且表面設有螺紋 (22),或是包含一中空構造的內管(23)組設在一中空的外 管(24)內部軸向,其中外管(24)表面設有螺紋(25)。該接 管元件(20)組設在罐體的出口端(14),且接管元件(20)內 部形成一通道(26)與罐體(10)內部相通。 、 一套管元件(30)係中空構造且組裝在接管元件(20)外 -。更詳細而言,該套管元件(30)內部設有螺紋(32)與接管 參元件(20)表面的螺紋(22)或(25)嚙合,所以套管元件(30) 可以被轉動且能對應該罐體(10)作線性相對位移。又套管 元件(30)的底部形成一碟形底部(34),該碟形底部(34)的 外徑與罐體(10)之凹室(12)內徑相當。碟形底部(34)的高 ‘度與凹室(12)的高度相當。 一流管元件(40)爲中空構造且一端穿過套管元件(30) 而與接管元件(20)結合。 一樞接塊(50)係設在或形成在套管元件(3〇)表面;一 •壓柄(60)具有彎曲構造,其一端樞設在樞接塊(50),另一 -端爲自由端,所以壓柄(60)可以自由擺動。 以上所述爲本創作之一實施例的各組件構造,以及各 組件間的組合關係。 請再參閱第2、3圖,套管元件(30)之碟形底部(34) 進入罐體(10)之凹室(12)內,且碟形底部(34)外緣與該凹 室(12)內面形成貼靠狀,則使用者壓動壓柄(6〇)無法驅動 流管元件(40)、套管元件(3〇)及接管元件(2〇)的組合對應 M3 31492 -罐體(ίο)產生相運動。 請參閱第4圖,當使用者旋動套管元件(30)使底部之 ^ 碟形底部(34)離開罐體(10)之凹室(12),則碟形底部(34) 外緣與凹室(12)內面便不形成限制狀,如此一來,使用者 壓動壓柄(60),則壓柄(60) —側所設之凸部(62)靠置在罐 體(10)表面。對壓柄(60)而言,罐體(10)上的接觸位置恰 ,構成支點,可以使得壓柄(60)產生槓桿作用以驅動流管元 -件(40)、套管元件(30)及接管元件(20)的組合對應罐體(1 φ 0)產生相運動。如此,該罐體(10)內部的稠狀液體可以自 動流出。 請參閱第5至7圖,本創作的另一實施例係罐體(10) 的凹室(12)外圍形成一凸緣(16),而一套接元件(70)具有 ^ 一環體(72)及一樞接塊(74),其中該環體(72)的底緣更設 有複數扣勾(76),且該樞接塊(74)形成在環體(72)表面。 如此一來,該環體(72)可套設在罐體(10)—端,且複數扣 勾(76)勾設於凸緣(16)的底面,而壓柄(60)—端樞設於樞 _接塊(74)上可以自由擺動。此實施例中,當套管元件(30) -之碟形底部(34)進入罐體(1〇)的凹室(12)內,則使用者無 法藉由壓動壓柄(60)使流管元件(40)、套管元件(30)及接 管元件(20)的組合對應罐體(1〇)產生相運動。 請參閱第8圖,當使用者旋動套管元件(30)使底部之 碟形底部(34)離開罐體(1〇)之凹室(π),則碟形底部(34) 外緣與凹室(12)內面便不形成限制狀。如此一來,使用者 壓動壓柄(60),且使壓柄(60)靠置在碟形底部(34)表面。 M3 31492 則壓柄(60)產生槓桿作用以驅動流管元件(40)、套管元件 (30)及接管元件(20)的組合朝罐體(10)產生相對運動,使 η 得罐體(10)內部的稠狀液體可以自動流出。 本創作利用壓柄(60)控制流管元件(40)、套管元件(3 0)及接管元件(20)的組合對應罐體(10)產生相運動,例如 偏擺或位移,使得罐體(10)內部的稠狀液體自動流出,所 ,以使用者不需要費力地壓動流管元件。此外,不使用時只 -要旋動套管元件(30),使其碟形底部(34)進入罐體(10)的 籲凹室(12)便可以達到防近誤操作的效果。 上述實施例僅爲例示性說明本創作之技術及其功效, 而非用於限制本創作。任何熟於此項技術人士均可在不違 背本創作之技術原理及精神的情況下,對上述實施例進行 ‘修改及變化,因此本創作之權利保護範圍應如後所述之申 請專利範圍所列。 【圖式簡單說明】 第1圖係本創作第一實施例之分解圖。 •第2圖係本創作之第一實施例結構示意圖一。 -第3圖係本創作之第一實施例結構示意圖二。 第4圖係本創作之第一實施例使用狀態示意圖。 第5圖係本創作第二實施例之分解圖。 第6圖係本創作之第二實施例結構示意圖一。 第7圖係本創作之第二實施例結構示意圖二。 第8圖係本創作之第二實施例使用狀態示意圖。 【主要元件符號說明】 M3 31492 (10)罐體 (14)出口端 (20)接管元件 (22)螺紋 (24)外管 (26)通道 (32)螺紋 (40)流管元件 (60)壓柄 (70)套接元件 (74)樞接塊 (12)凹室 (16)凸緣 (21)管件 (23)內管 (25)螺紋 (30)套管元件 (34)碟形底部 (50)樞接塊 (62)凸部 (72)環體 (76)扣勾M3 31492 .- VIII, new description: _[New technical field] This creation is about a accommodating device, especially a accommodating quilting agent, or a viscous liquid such as a sealant or a food cream. Device. [Prior Art] Generally, a thick liquid, because it loses moisture after drying, or hardens, so the aforementioned thick liquid is accommodated in a suitable container or device, and one end of the container There is a pipe fitting. The user can automatically flow out the thick liquid in the container by applying force to the tube. For example, in the case where the adhesive is placed in the container, one of the ways of applying force to the tube is that the user directly aligns one end of the tube with the position to be adhered, and then applies force to press the tube against the adhesive position. A distortion will occur and a *valve member inside the container will open. The thick liquid in the container can be automatically discharged by the action of the high pressure gas inside the container. Another way to apply force to the tube is to attach a pressure handle to the container. When the pressing handle is pressed, the pressing handle forms a lever for driving the tubular member to urge the container to move relative to each other. At this time, the valve member in the container is open-shaped and cooperates with the high-pressure gas inside the container. The thick liquid in the container can flow out automatically. That is, the valve mechanism is simple 'but it is necessary to apply a force to press the pipe to achieve the effect of use'. Therefore, it is laborious to operate, and it is easy to cause a thick liquid to flow out by mistake due to the pressure pipe. The latter is less prone to malfunctions, and the operation is labor-saving, but the valve mechanism is more complicated. [New content] M3 31492 It is known from the prior art that two kinds of containers are known for accommodating thick liquids, one of which has a simple mechanism but has a complicated operation and is liable to cause malfunction, and one has a complicated mechanism but is labor-saving. And it is not easy to have a mistake. The combination of prior art and improvements has enabled the creation to provide an innovative container, particularly a thick liquid containment device, to address the shortcomings of the prior art. The purpose of the present invention is to provide a accommodating device for a thick liquid, which has the effect of being labor-saving and less prone to malfunction. According to the above purpose and effect, the creation comprises a can body; a connecting element is arranged at one end of the can body and communicates with the inside; a casing element is assembled outside the connecting element and can be displaced; The sleeve member is coupled to the socket member; a pivoting block is disposed on the surface of the sleeve member, or a member having a pivoting block is disposed at one end of the can body; and one end of the pressing handle is pivotally disposed on the pivoting block; When the bottom of the tube element forms a restrictive state with the can body, the pressing pressure handle cannot drive the combination of the flow tube element, the sleeve element and the connection element to produce relative movement of the can body; and there is no restriction group between the bottom of the sleeve element and the can body. In the 10th state, pressing the shank drives the combination of the flow tube element, the sleeve element, and the take-up element - to effect relative movement of the can. According to this, it is possible to limit the effect of the container being mishandled and the operation is labor-saving. The above description of the object, function and structural configuration disclosed in the present application is described in detail with reference to the drawings. [Embodiment] Referring to Figures 1 to 3, the inside of a can body is accommodated in a thick liquid and an end (12) is formed at one end. An outlet end (14) projects from the recesses M3 31492 - (12) and communicates with the interior of the can body (10). A take-over element (20) may be a hollow tubular member (21) and provided with a thread (22) on the surface, or an inner tube (23) comprising a hollow structure assembled in a hollow outer tube (24) inner axial direction, wherein The outer tube (24) is provided with a thread (25) on its surface. The take-up element (20) is assembled at the outlet end (14) of the can body, and a channel (26) is formed in the interior of the cannula element (20) to communicate with the interior of the can body (10). A sleeve member (30) is hollow and assembled outside the nozzle member (20). In more detail, the sleeve member (30) is internally provided with a thread (32) that engages with a thread (22) or (25) on the surface of the nozzle member (20) so that the sleeve member (30) can be rotated and can The tank body (10) is linearly displaced relative to each other. Further, the bottom of the sleeve member (30) forms a dish-shaped bottom portion (34) having an outer diameter equivalent to the inner diameter of the recess (12) of the can body (10). The height of the dished bottom (34) is comparable to the height of the recess (12). The first-row tube element (40) is of hollow construction and one end is coupled to the take-up element (20) through the sleeve element (30). A pivoting block (50) is fastened or formed on the surface of the sleeve member (3); a pressure handle (60) has a curved configuration, one end of which is pivoted on the pivoting block (50), and the other end is The free end, so the pressure handle (60) can swing freely. The above is the construction of each component of one embodiment of the creation, and the combination relationship between the components. Referring again to Figures 2 and 3, the dished bottom (34) of the sleeve member (30) enters the recess (12) of the can (10) and the outer edge of the dished bottom (34) is associated with the recess ( 12) The inner surface is formed into abutting shape, and the user can not drive the combination of the flow tube element (40), the sleeve element (3〇) and the connection element (2〇) corresponding to the M3 31492-can The body (ίο) produces phase motion. Referring to Fig. 4, when the user rotates the sleeve member (30) so that the bottom portion (34) of the bottom portion leaves the recess (12) of the can body (10), the outer edge of the dish bottom portion (34) is The inner surface of the recess (12) is not restricted. In this way, when the user presses the pressing handle (60), the convex portion (62) provided on the side of the pressing handle (60) is placed on the can body (10). )surface. For the pressing handle (60), the contact position on the can body (10) is just right, forming a fulcrum, which can cause the pressing handle (60) to leverage to drive the flow tube element-piece (40) and the sleeve element (30). The combination of the take-over element (20) corresponds to the phase movement of the can body (1 φ 0). Thus, the thick liquid inside the can body (10) can flow out automatically. Referring to Figures 5 to 7, another embodiment of the present invention forms a flange (16) around the periphery of the recess (12) of the can body (10), and the set of connecting members (70) has a ring body (72). And a pivoting block (74), wherein the bottom edge of the ring body (72) is further provided with a plurality of hooks (76), and the pivoting block (74) is formed on the surface of the ring body (72). In this way, the ring body (72) can be sleeved on the end of the can body (10), and the plurality of hooks (76) are hooked on the bottom surface of the flange (16), and the pressure handle (60) is pivoted at the end. It can swing freely on the pivot block (74). In this embodiment, when the disc-shaped bottom portion (34) of the sleeve member (30) enters the recess (12) of the can body (1), the user cannot make the flow by pressing the pressing handle (60). The combination of the tube element (40), the sleeve element (30) and the socket element (20) produces phase motion corresponding to the can body (1〇). Referring to Fig. 8, when the user rotates the sleeve member (30) so that the bottom dish bottom portion (34) leaves the recess (π) of the can body (1), the outer edge of the dish bottom portion (34) is The inner surface of the recess (12) is not restricted. As a result, the user presses the shank (60) and places the shank (60) against the surface of the dished bottom (34). M3 31492, the pressing handle (60) generates a lever to drive the combination of the flow tube element (40), the sleeve element (30) and the connecting element (20) to move relative to the can body (10), so that the η can be ( 10) The internal thick liquid can flow out automatically. The present invention utilizes a pressure handle (60) to control the combination of the flow tube element (40), the sleeve element (30), and the take-up element (20) to produce phase motion, such as yaw or displacement, for the can body (10). (10) The internal thick liquid automatically flows out, so that the user does not need to laborly press the flow tube member. In addition, when not in use, it is only necessary to rotate the sleeve member (30) so that the disc-shaped bottom portion (34) enters the recessed chamber (12) of the can body (10) to achieve an anti-misoperation effect. The above embodiments are merely illustrative of the techniques of the present invention and their effects, and are not intended to limit the present invention. Anyone skilled in the art can make 'modifications and changes to the above embodiments without violating the technical principles and spirit of this creation. Therefore, the scope of protection of this creation should be as follows. Column. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is an exploded view of the first embodiment of the present creation. • Figure 2 is a schematic view of the first embodiment of the present invention. - Figure 3 is a schematic view of the structure of the first embodiment of the present invention. Fig. 4 is a schematic view showing the state of use of the first embodiment of the present invention. Fig. 5 is an exploded view of the second embodiment of the present creation. Figure 6 is a structural schematic view of the second embodiment of the present invention. Figure 7 is a second schematic view of the second embodiment of the present invention. Fig. 8 is a schematic view showing the state of use of the second embodiment of the present invention. [Main component symbol description] M3 31492 (10) Tank body (14) Outlet end (20) Take-up element (22) Thread (24) Outer tube (26) Channel (32) Thread (40) Flow tube element (60) Pressure Handle (70) Socket Element (74) Pivot Block (12) Aperture (16) Flange (21) Fitting (23) Inner Tube (25) Thread (30) Casing Element (34) Dish Bottom (50 ) pivot block (62) convex part (72) ring body (76) buckle hook