Reverse quantitative container
[ technical field ] A method for producing a semiconductor device
The utility model relates to a container, especially a can quantitative container overturns.
[ background of the invention ]
The quantitative container has various types and structures, wherein the rolling ball is generally moved up and down for the quantitative container with the built-in rolling ball which is reversely used; meanwhile, when the quantitative container is inverted to enable liquid in the container to enter the quantitative cavity, the rolling ball is blocked and blocked on the liquid inlet of the quantitative cavity, so that the quantitative determination cannot be carried out smoothly, and the quantitative container cannot be used.
To the above technical problem, the present invention has been made in view of the above problems.
[ Utility model ] content
The to-be-solved technical problem of the utility model is to provide a can quantitative container reverses, in direction limit structure was arranged in to the ball that rolls, when slope vessel, the relative vessel of ball that rolls can be followed and transversely carried out corresponding activity, can open or plug up the inlet, has the activity flexibility, is convenient for the ration and the characteristics of the quantitative liquid of pouring.
In order to solve the technical problem, the utility model relates to a but reverse quantitative container, including vessel 1, vessel 1 is last to be equipped with container mouth portion 11, container mouth portion 11 is connected with closing cap 2 directly or indirectly, vessel 1 is internal relative vessel 1 is fixed with stock solution section of thick bamboo 3, 3 lower extremes of stock solution section of thick bamboo seal and the upper end be equipped with 3 communicating liquid outlets 31 of stock solution section of thick bamboo inner chamber, be equipped with inlet 32 on the 3 sides of stock solution section of thick bamboo, inlet 32 is located same one side with liquid outlet 31, movably be equipped with the roll pearl 33 that can plug up inlet 32 in the stock solution section of thick bamboo 3, still including being used for roll pearl 33 direction and spacing make roll pearl 33 can plug up the direction limit structure of inlet 32.
The container comprises a fixed connecting block 41 arranged at the upper port part of the liquid storage cylinder 3, a guide plate A42 with the upper end fixedly connected with the fixed connecting block 41 and a guide plate B43 arranged between the two guide plates A42 and fixedly connected with the fixed connecting block 41 at the upper end, wherein the lower end of the guide plate B43 is positioned between the two guide plates A42, and a movable space 44 for accommodating the rolling ball 33 is formed between the lower end of the two guide plates A42 and the lower end of the guide plate B43.
An inverted quantifiable container as described above, the reservoir 3 being provided at its lower end with a removable base plate 34.
In the inverted quantitative container, the cover 2 is connected to the container mouth 11 by a screw thread, or the cover 2 is connected to the container body 1 by a connecting band and is reversibly fastened to the container mouth 11.
In the inverted quantitative container, the container mouth 11 is connected with the connecting base 12 which is opened up and down, the cover 2 is connected with the upper mouth of the connecting base 12 by screw threads, or the cover 2 is connected with the connecting base 12 by connecting belts and is buckled on the upper mouth of the connecting base 12 in a reversible manner.
The inverted quantitative container is provided with the guide limiting structure on the sealing cover 2, the guide limiting structure comprises a guide plate A42 with the upper end fixedly connected with the inside of the sealing cover 2 and a guide plate B43 arranged between the two guide plates A42 and fixedly connected with the sealing cover 2 at the upper end, the lower end of the guide plate B43 is positioned between the two guide plates A42, and a movable space 44 for accommodating the rolling ball 33 is formed between the lower end of the two guide plates A42 and the lower end of the guide plate B43.
An inverted quantifiable container as described above, the closure 2 being threadably attached to the container finish 11 or the closure 2 being snap-fitted to the container finish 11.
The inverted quantitative container as described above, the container mouth 11 is connected with the connecting base 12 with upper and lower openings, the sealing cover 2 is connected with the upper mouth of the connecting base 12, the guiding and limiting structure comprises a fixed connecting block 41 arranged between the upper and lower mouths of the connecting base 12, a guiding plate a42 with its upper end fixedly connected with the fixed connecting block 41, and a guiding plate B43 arranged between the two guiding plates a42 and with its upper end fixedly connected with the fixed connecting block 41, the lower end of the guiding plate B43 is located between the two guiding plates a42, and a movable space 44 for accommodating the rolling ball 33 is formed between the lower end of the two guiding plates a42 and the lower end of the guiding plate B43.
In the inverted quantitative container, the cover 2 is connected with the upper opening of the connecting base 12 by screw threads, or the cover 2 is connected with the connecting base 12 by a connecting belt and is buckled on the upper opening of the connecting base 12 in a reversible manner.
The container with the reverse quantitative function is characterized in that the sealing cover 2 is rotatably buckled on the upper opening of the connecting base 12, the side surface of the sealing cover 2 is provided with the movable liquid outlet notch 21, the side surface of the upper opening of the connecting base 12 is provided with the fixed liquid outlet notch 121, and when the sealing cover 2 rotates relative to the connecting base 12, the movable liquid outlet notch 21 and the fixed liquid outlet notch 121 can be aligned, communicated or staggered and sealed.
An inverted quantifiable container as described above, the reservoir 3 being provided with a volume scale 35 on the side.
In an inverted quantifiable container as described above, the lower ends of the two guide plates a42 are bent toward each other in a J-shaped configuration to embrace the rolling bead 33.
In the inverted quantitative container as described above, the lower end of the guide plate B43 and the side close to the liquid inlet 32 are provided with the limiting arcs 45.
Compared with the prior art, the utility model discloses in arranging the direction limit structure with the ball that rolls, when the vessel overturns, the relative vessel of ball is along horizontal activity, can block up the inlet or open the inlet in a flexible way, therefore has the convenient and smooth and easy characteristics of use.
[ description of the drawings ]
The following detailed description of embodiments of the present invention is provided with reference to the accompanying drawings, in which:
fig. 1 is one of cross-sectional views of embodiment 1 of the present invention.
Fig. 2 is a second cross-sectional view of embodiment 1 of the present invention.
Fig. 3 is a third cross-sectional view of embodiment 1 of the present invention.
Fig. 4 is a fourth cross-sectional view of embodiment 1 of the present invention.
Fig. 5 is one of cross-sectional views of embodiment 2 of the present invention.
Fig. 6 is a second cross-sectional view of embodiment 2 of the present invention.
Fig. 7 is one of cross-sectional views of embodiment 3 of the present invention.
Fig. 8 is a second cross-sectional view of embodiment 3 of the present invention.
Fig. 9 is a third sectional view of embodiment 3 of the present invention.
Fig. 10 is a fourth sectional view of embodiment 3 of the present invention.
Fig. 11 is one of cross-sectional views of embodiment 4 of the present invention.
Fig. 12 is a second cross-sectional view of embodiment 5 of the present invention.
[ detailed description ] embodiments
Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.
As shown in fig. 1-12, the present invention relates to an inverted quantitative container, which comprises a container body 1, wherein the container body 1 is made of transparent material, and is not limited to any shape. Be equipped with container oral area 11 on the container body 1, container oral area 11 is connected with closing cap 2 directly or indirectly, be fixed with liquid storage cylinder 3 in the container body 1 relative container body 1, 3 lower extremes of liquid storage cylinder seal and upper end be equipped with the communicating liquid outlet 31 of 3 inner chambers of liquid storage cylinder, be equipped with inlet 32 on the 3 sides of liquid storage cylinder, inlet 32 and liquid outlet 31 are located same one side, movably be equipped with the roll pearl 33 that can plug up inlet 32 in the liquid storage cylinder 3, still including being used for roll pearl 33 direction and spacing make roll pearl 33 can plug up the direction limit structure of inlet 32.
As shown in fig. 1-4, as a specific structure of embodiment 1 of the present invention, the guiding and limiting structure includes a fixed connection block 41 disposed at the upper port portion of the liquid storage cylinder 3, a guide plate a42 fixedly connected with the fixed connection block 41 at the upper end, and a guide plate B43 disposed between two guide plates a42 and fixedly connected with the fixed connection block 41 at the upper end, the lower end of the guide plate B43 is disposed between two guide plates a42, and a movable space 44 for accommodating the rolling ball 33 is formed between the lower end of the guide plate a42 and the lower end of the guide plate B43.
In order to facilitate the design and processing, a detachable chassis 34 is arranged at the lower end of the liquid storage cylinder 3.
In embodiment 1, the cover 2 is connected to the container mouth 11 by a screw, and the cover 2 may be connected to the container body 1 by a connecting band so as to be turnably fastened to the container mouth 11.
Embodiment 1 during the use, the container body reverses dorsad to play liquid outlet side slope, the ball that rolls then breaks away from the inlet and makes the inlet open, at this moment, the liquid of container body inner chamber then gets into the liquid reserve tank through the feed liquor hole in, when the liquid that gets into in the liquid reserve tank satisfies the use amount, originally upright the container, open the closing cap, again with the container body to having liquid outlet side slope, the ball that rolls then under gravity and direction limit structure's effect and plug up the inlet closing cap, it is isolated each other with the liquid reserve tank inner chamber to be located the container body inner chamber this moment, when reaching inclination, it then pours from the liquid outlet to be located liquid reserve tank quantitative liquid. Therefore, the rolling beads are arranged in the guide limiting structure and have the characteristic of flexible movement, so that the phenomenon of influencing quantification or liquid pouring cannot be blocked in the using process. Therefore, the utility model has the advantages of smooth and convenient use.
According to the use requirement, the container mouth part 11 is connected with a connecting base 12 with an upper opening and a lower opening, the sealing cover 2 is connected with the upper opening part of the connecting base 12 through threads, or the sealing cover 2 is integrally connected with the connecting base 12 through a connecting belt and can be buckled on the upper opening part of the connecting base 12 in a turnover mode.
As shown in fig. 5-6, for the structure of embodiment 2 of the present invention, the guiding and limiting structure is disposed on the sealing cap 2, the guiding and limiting structure includes a guiding plate a42 with an upper end fixedly connected with the inside of the sealing cap 2 and a guiding plate B43 disposed between the two guiding plates a42 and fixedly connected with the sealing cap 2, the lower end of the guiding plate B43 is disposed between the two guiding plates a42, and a movable space 44 for accommodating the rolling ball 33 is formed between the lower end of the guiding plate a42 and the lower end of the guiding plate B43.
In embodiment 2, the cap 2 is screwed to the container mouth 11, and the cap 2 may be fastened to the container mouth 11 as needed.
The principle of use of embodiment 2 is the same as that of embodiment 1.
As shown in fig. 7-10, for the structure of embodiment 3 of the present invention, it is shown that the container mouth 11 is connected to the connection base 12 with upper and lower openings, the sealing cover 2 is connected to the upper mouth of the connection base 12, the guiding and limiting structure includes a fixed connection block 41 disposed between the upper and lower mouths of the connection base 12, a guiding plate a42 with its upper end fixedly connected to the fixed connection block 41 and a guiding plate B43 disposed between two guiding plates a42 and with its upper end fixedly connected to the fixed connection block 41, the lower end of the guiding plate B43 is disposed between two guiding plates a42, and a movable space 44 for accommodating the rolling ball 33 is formed between the lower end of the guiding plate a42 and the lower end of the guiding plate B43.
The working principle of embodiment 3 is the same as embodiment 1. In embodiment 1, the cover 2 is connected with the upper mouth of the connecting base 12 through screw threads; if necessary, the cover 2 may be integrally connected to the connection base 12 by a connection band and may be turnably fastened to the upper opening of the connection base 12.
As shown in fig. 11-12, as a specific embodiment 4 of the present invention, the difference from embodiment 3 lies in the structure and connection mode of the sealing cover and the connection base, that is, the sealing cover 2 is rotatably fastened to the upper opening of the connection base 12, the side of the sealing cover 2 is provided with the motive liquid outlet notch 21, the side of the upper opening of the connection base 12 is provided with the fixed liquid outlet notch 121, and when the sealing cover 2 rotates relative to the connection base 12, the motive liquid outlet notch 21 and the fixed liquid outlet notch 121 can be aligned to be switched on or staggered to be closed. After the quantification is finished, the sealing cover is rotated, so that the movable liquid outlet notch 21 is aligned and communicated with the fixed liquid outlet notch 121, and the container body is correspondingly inclined, so that the quantitative liquid in the liquid storage cylinder can be poured out. After use, the sealing cover is rotated to make the movable liquid outlet notch 21 and the fixed liquid outlet notch 121 stagger and seal.
In all the above embodiments, in order to facilitate the identification and the accuracy of the quantification, the side of the liquid storage cylinder 3 is provided with a volume scale 35.
In all the above embodiments, the lower ends of the two guide plates a42 are bent toward each other to form a J-shaped structure for clasping the rolling ball 33. The rolling ball moves transversely relative to the container body, so that the problem that the rolling ball is easy to block due to the up-and-down movement in the prior art is solved. In addition, the lower ends of the two guide plates A42 are bent towards each other to form a J-shaped structure, and the two guide plates A42 can be obliquely arranged, namely the top ends of the two guide plates A42 are close to the liquid inlet. When the container body is placed upright, the rolling bead can roll to the liquid inlet under the action of gravity to seal the liquid inlet, so that the sealing effect is achieved, and the liquid in the container body is ensured to have a long shelf life.
In all the above embodiments, the lower end of the guide plate B43 and the side close to the liquid inlet 32 are provided with a limiting arc surface 45, and the limiting arc surface is designed to match with the spherical surface of the rolling ball, so that the rolling ball blocks the liquid inlet.