CN210338735U - Quantitative container - Google Patents

Abstract

The utility model discloses a quantitative container, which enables a liquid storage cavity to move up and down relative to a quantitative cavity by acting a liquid storage cup, enables a liquid inlet control structure to be opened or closed, and further enables the liquid storage cavity to be communicated or isolated with the quantitative cavity; when stock solution chamber and ration chamber intercommunication, the liquid entering ration intracavity in stock solution chamber, when reaching required quantity, with the relative ration chamber of stock solution chamber rebound, can be used to feed liquor control structure and make stock solution chamber and ration chamber isolated each other, empty the ration chamber again and make liquid pour out from the mouth of falling the liquid. Therefore, the utility model has the characteristics of reasonable in design, the structure is succinct, the use is convenient.

Description

Quantitative container

[ technical field ] A method for producing a semiconductor device

The utility model relates to a packaging container, especially a ration container.

[ background of the invention ]

The packaging container is designed for various industries to protect commodities, has the functions of convenient storage and use, facilitating transportation, promoting sales, preventing environmental pollution, safety accidents and the like, and adopts corresponding packaging containers according to certain technical specifications for different industries and different products. Wherein, in the existing quantitative pouring container, the manufacturing cost is higher due to the complex structure, and the defects of the complex operation of quantitative pouring and inconvenient use are existed.

The utility model discloses research and development is carried out to the defect that prior art exists promptly and propose.

[ Utility model ] content

The utility model aims to solve the technical problem of providing a quantitative container, which enables a liquid storage cavity to move up and down relative to a quantitative cavity by acting a liquid storage cup, enables a liquid inlet control structure to be opened or closed, and further enables the liquid storage cavity to be communicated or isolated with the quantitative cavity; when stock solution chamber and ration chamber intercommunication, the liquid entering ration intracavity in stock solution chamber, when reaching required quantity, with the relative ration chamber of stock solution chamber rebound, can be used to feed liquor control structure and make stock solution chamber and ration chamber isolated each other, empty the ration chamber again and make liquid pour out from the mouth of falling the liquid. Therefore, the utility model has the characteristics of reasonable in design, the structure is succinct, the use is convenient.

In order to solve the technical problem, the utility model relates to a quantitative container, including vessel 100, the bottom is equipped with quantitative chamber 1 in vessel 100, vessel 100's inside wall is equipped with drain passage 3, 3 one ends of drain passage are equipped with pouring port 31, the drain passage 3 other end and quantitative chamber 1 intercommunication, it is equipped with the stock solution cup 200 that has stock solution chamber 2 still movably in vessel 100, be equipped with feed liquor control structure 4 between stock solution chamber 2 and the quantitative chamber 1, and when making stock solution chamber 2 relative ration chamber 1 activity as using stock solution cup 200, feed liquor control structure 4 is opened and can be so that the liquid in stock solution chamber 2 flows into quantitative chamber 1 in, later can follow pouring port 31 and pour.

The quantitative container is characterized in that the liquid inlet control structure 4 comprises a liquid storage through pipe 41 arranged at the bottom of the liquid storage cup 200 and communicated with the liquid storage cavity 2 and a quantitative through pipe 42 arranged at the bottom in the quantitative cavity 1, and the lower end of the liquid storage through pipe 41 is matched with the quantitative through pipe 42 and can be blocked or opened.

The quantitative container is characterized in that the liquid storage cavity 2 can be communicated with the quantitative cavity 1 when the liquid storage through pipe 41 moves upwards relative to the quantitative through pipe 42.

The quantitative container is characterized in that the liquid storage cup 200 is provided with a handle 21 for controlling the movement of the liquid storage cup relative to the quantitative cavity 1, the handle 21 extends out of the container body 100 for holding, and the opening edge of the container body 100 is provided with a movable groove 11 for moving the handle 21.

The container is characterized in that the handle 21 is provided with a hook 211, and the outer wall of the container body 100 is provided with a slot 212 for the hook 211 to be inserted into.

The quantitative container is characterized in that the opening of the container body 100 is rotatably connected with a sealing cover 5, the sealing cover 5 is provided with a liquid pouring cover piece 51 for blocking the liquid pouring port 31 and a sealing cover notch for opening the liquid pouring port 31, an avoiding groove 52 is formed in the sealing cover 5 and located above the movable groove 11, initially, the liquid pouring cover piece 51 is aligned with the liquid pouring port 31 to block the liquid pouring port 31, the sealing cover 5 is used for rotating relative to the container body 100, so that the liquid pouring cover piece 51 is staggered with the liquid pouring port 31 and the liquid pouring port 31 is communicated with the sealing cover notch, the avoiding groove 52 is moved to the upper side of the handle 21, the handle is lifted, the clamping hook 211 can be separated from the clamping groove 212, and the liquid inlet control structure 4 is opened to communicate the liquid storage cavity 2 with the quantitative cavity 1.

The quantitative container is characterized in that two clamping grooves 212 are arranged on the outer wall of the container body 100, and the clamping hooks 211 can be clamped into the clamping grooves.

The quantitative container as described above, wherein the opening of the container body 100 is connected with a cover 5, the side surface of the seal cover 5 is provided with an avoiding groove 52 used for matching with the movable groove 11, the liquid storage cavity 2 is provided with a liquid pouring cover plate 51 used for matching with the liquid pouring port 31, and initially, the liquid pouring cover plate 51 is aligned with the liquid pouring port 31 to seal the liquid pouring port, the clamping hook 211 is clamped with a clamping groove 212, when the liquid storage cup 200 rotates relative to the container body 100, so that the liquid pouring cover plate 51 is dislocated with the liquid pouring port 31 and the liquid pouring port 31 is communicated with the sealing cover notch, and the hook 211 is separated from a slot 212 and the handle 21 and moved to the lower part of the avoiding groove 52, the handle is lifted, then the liquid inlet control structure 4 is opened to communicate the liquid storage cavity 2 with the quantitative cavity 1, and when the quantitative is reached, the liquid storage cup 200 is continuously rotated to clamp the hook 211 with another clamping groove 212.

The quantitative container is characterized in that the side wall of the quantitative cavity 1 is provided with a scale mark 12.

Compared with the prior art, the utility model relates to a quantitative container has following advantage:

1. make stock solution chamber and ration chamber to communicate or isolated through the feed liquor control structure, make stock solution chamber rebound through the effect stock solution cup, make the feed liquor control structure open or seal, corresponding intercommunication or isolated stock solution chamber and ration chamber, and when stock solution chamber and ration chamber intercommunication, the solution of stock solution intracavity then gets into the ration chamber, reach required ration back, again with stock solution chamber rebound, stock solution chamber and ration chamber then isolated each other, have reasonable in design, the structure is succinct, it is convenient and the lower characteristics of manufacturing cost to use.

2. The side wall of the quantitative cavity is provided with scale marks, which is beneficial to the quantitative use of people.

3. The handle is provided with the clamping hook, the outer wall of the container body is provided with the clamping groove matched with the clamping hook for use, the handle single-control liquid storage cavity or the handle single-control liquid storage cavity and the clamping groove can be used for controlling the liquid storage cavity and the liquid storage cavity simultaneously as required, the use of people is facilitated, and the function diversification is realized.

[ 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 perspective views of embodiment 1 of the present invention;

FIG. 2 is a cross-sectional view of FIG. 1;

fig. 3 is a second perspective view of embodiment 1 of the present invention;

fig. 4 is a third perspective view of embodiment 1 of the present invention;

fig. 5 is a fourth perspective view of embodiment 1 of the present invention;

fig. 6 is an exploded view of embodiment 1 of the present invention;

fig. 7 is a perspective view of embodiment 2 of the present invention;

FIG. 8 is a cross-sectional view of FIG. 7;

fig. 9 is a second perspective view of embodiment 2 of the present invention;

fig. 10 is a third perspective view of embodiment 2 of the present invention;

fig. 11 is an exploded view of embodiment 2 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. 1-11, the utility model relates to a quantitative container, including vessel 100, the bottom is equipped with quantitative chamber 1 in vessel 100, vessel 100's inside wall is equipped with drain passage 3, 3 one ends of drain passage are equipped with pouring port 31, the drain passage 3 other end and quantitative chamber 1 intercommunication, it is equipped with stock solution cup 200 that has stock solution chamber 2 still to be mobilizable in vessel 100, be equipped with feed liquor control structure 4 between stock solution chamber 2 and the quantitative chamber 1, and when making stock solution chamber 2 relative quantitative chamber 1 activity as using stock solution cup 200, feed liquor control structure 4 is opened and can be so that the liquid in stock solution chamber 2 flows into quantitative chamber 1 in, later can pour from pouring port 31. The liquid storage cavity 2 and the quantitative cavity 1 can be communicated or isolated by the action liquid inlet control structure 4; when rebound stock solution chamber 2, then can act on feed liquor control structure 4 and open, corresponding intercommunication stock solution chamber 2 and ration chamber 1, liquid in the stock solution chamber 2 then gets into ration chamber 1, reaches required ration back, moves stock solution chamber 2 downwards again, then can act on feed liquor control structure 4 and seal, stock solution chamber 2 and ration chamber 1 are then isolated each other promptly, and it has reasonable in design, and the structure is succinct, uses convenient and the lower characteristics of manufacturing cost, just the utility model discloses be not limited to carry out the ration to liquid, also can carry out the ration to other materials, like materials such as powder, particulate matter, colloid.

Further, the liquid outlet passage 3 is integrally formed in the inner side wall of the container body 100 for the sake of integral beauty and compactness.

Further, as shown in fig. 2 and 8, the liquid inlet control structure 4 includes a liquid storage through pipe 41 disposed at the bottom of the liquid storage cup 200 and communicated with the liquid storage cavity 2, and a quantitative through pipe 42 disposed at the bottom of the quantitative cavity 1, and the lower end of the liquid storage through pipe 41 is matched with the quantitative through pipe 42 and can be blocked or opened. Initially, stock solution siphunculus 41 slips into ration siphunculus 42 and seals the separation, then stock solution chamber 2 and ration chamber 1 are isolated each other, during the use, effect stock solution cup 200 makes stock solution chamber 2 quantitative chamber 1 rebound relatively, can make stock solution siphunculus 41 break away from quantitative siphunculus 42, and then with stock solution chamber 2 and ration chamber 1 intercommunication and make stock solution chamber 2 bottom and ration chamber 1 bottom have certain difference in height, conveniently make the liquid in the stock solution chamber 2 flow into ration chamber 1, reach required ration after, again act on stock solution cup 200 and make stock solution chamber 2 quantitative chamber 1 rebound relatively and can make stock solution sleeve 41 slide into ration sleeve 42, and then stock solution chamber 2 and ration chamber 1 isolated each other. According to the demand to the reciprocating action feed liquor control structure 4 in liquid storage cavity 2, it has accuracy, ration and takes, simple operation's characteristics.

Further, when the liquid storage through pipe 41 moves upward relative to the quantitative through pipe 42, the liquid storage cavity 2 can be communicated with the quantitative cavity 1.

Further, as shown in fig. 1 to 11, for convenience of use and operation, the liquid storage cup 200 is provided with a handle 21 for controlling the movement of the liquid storage cup relative to the dosing chamber 1, the handle 21 extends out of the container body 100 for holding, and the opening edge of the container body 100 is provided with a movable groove 11 for movement of the handle 21.

Further, as shown in fig. 1 to 6, a hook 211 is disposed on the handle 21, and a slot 212 for the hook 211 to be inserted into is disposed on an outer wall of the container body 100. When in use, a user can act on the handle 21 according to needs to enable the hook 211 and the slot 212 to be matched for use; when the hook 211 is matched with the slot 212 for clamping use, people can simultaneously control the quantitative cavity 1 and the liquid storage cavity 2 through the handle 21, so that the liquid storage cavity 2 is in a fixed state relative to the quantitative cavity 1, and the liquid in the quantitative cavity 1 can be poured out for use by people when the people incline the quantitative cavity 1; when the hook 211 is separated from the slot 212, people can only control the movement of the liquid storage cavity 2 through the handle 21, which is convenient for people to operate the liquid storage cavity 2 to move up and down relative to the quantitative cavity 1, and further the liquid inlet control structure 4 is acted to enable the liquid storage cavity 2 to be communicated with or isolated from the quantitative cavity 1; through the cooperation of the hook 211 and the slot 212, the container can be operated to realize different steps or functions only by acting on the handle 21, and the multifunctional container has the characteristic of multiple functions.

As shown in fig. 1 to 6, the opening of the container body 100 is rotatably connected with a sealing cover 5, the sealing cover 5 is provided with a liquid pouring cover plate 51 for blocking the liquid pouring port 31 and a sealing cover notch for opening the liquid pouring port 31, an avoiding groove 52 is provided on the sealing cover 5 and above the movable groove 11, initially, the liquid pouring cover plate 51 aligns with the liquid pouring port 31 to block the liquid pouring port 31, the sealing cover 5 rotates relative to the container body 100 to make the liquid pouring cover plate 51 dislocate with the liquid pouring port 31 and make the liquid pouring port 31 communicate with the sealing cover notch, the avoiding groove 52 moves to the upper side of the handle 21, and the handle is lifted to make the hook 211 separate from the slot 212, and the liquid inlet control structure 4 opens to communicate the liquid storage cavity 2 with the quantitative cavity 1. When the liquid storage cavity 2 moves upwards, the liquid inlet control structure 4 is opened to enable the liquid storage cavity 2 to be communicated with the quantitative cavity 1, and liquid in the liquid storage cavity 2 flows into the quantitative cavity 1; when liquid reaches the ration, people move stock solution chamber 2 downwards to the closure that acts on feed liquor control structure 4 makes stock solution chamber 2 and ration chamber 1 isolated each other, trip 211 and draw-in groove 212 joint in the hand (hold) 21, then the effect hand (hold) 21 can be fixed with the slope of ration chamber 1 and the relative ration chamber 1 of messenger's stock solution chamber 2, and then pours out the liquid pouring port 31 in the liquid outlet sleeve pipe 3 to the liquid in ration chamber 1.

As shown in fig. 7 to 11, in order to provide different structural manners and meet different requirements of people, two slots 212 are provided on the outer wall of the container body 100 for the hooks 211 to be inserted into.

As shown in fig. 7 to 11, a closure 5 is attached to the opening of the container body 100, the side surface of the seal cover 5 is provided with an avoiding groove 52 used for matching with the movable groove 11, the liquid storage cavity 2 is provided with a liquid pouring cover plate 51 used for matching with the liquid pouring port 31, and initially, the liquid pouring cover plate 51 is aligned with the liquid pouring port 31 to seal the liquid pouring port, the clamping hook 211 is clamped with a clamping groove 212, when the liquid storage cup 200 rotates relative to the container body 100, so that the liquid pouring cover plate 51 is dislocated with the liquid pouring port 31 and the liquid pouring port 31 is communicated with the sealing cover notch, and the hook 211 is separated from a slot 212 and the handle 21 and moved to the lower part of the avoiding groove 52, the handle is lifted, the liquid inlet control structure 4 is opened to communicate the liquid storage cavity 2 with the quantitative cavity 1, when the quantitative is reached, the handle 21 is separated from the avoiding groove 52, the liquid storage cup 200 is continuously rotated to enable the hook 211 to be clamped with the other clamping groove 212, and finally the container body 100 is inclined to enable the liquid in the quantitative cavity 1 to be poured out from the liquid pouring port 31 of the liquid outlet channel 3.

Furthermore, for people to conveniently use the quantitative measuring chamber and observe the quantitative measuring chamber, the side wall of the quantitative measuring chamber 1 is provided with a scale mark 12.

Further, in order to make the quantitative cavity 1 have a relatively large accommodation space and improve the overall aesthetic appearance, the liquid outlet 31 is in a horizontal position with the movable groove 11.

Further, in order to facilitate people to pour liquid out of the liquid pouring port 31, the liquid outlet sleeve 3 is arranged opposite to the handle 21.

Claims (9)

1. The utility model provides a quantitative container, its characterized in that includes vessel (100), the bottom is equipped with quantitative chamber (1) in vessel (100), the inside wall of vessel (100) is equipped with drain passage (3), drain passage (3) one end is equipped with pouring port (31), the drain passage (3) other end and quantitative chamber (1) intercommunication, still movably be equipped with stock solution cup (200) that have stock solution chamber (2) in vessel (100), be equipped with feed liquor control structure (4) between stock solution chamber (2) and quantitative chamber (1), and when making stock solution chamber (2) relative quantitative chamber (1) move about with stock solution cup (200), feed liquor control structure (4) are opened and can be so that the liquid in stock solution chamber (2) flows into in quantitative chamber (1), later can pour out from pouring port (31).

2. The quantitative container according to claim 1, wherein the liquid inlet control structure (4) comprises a liquid storage through pipe (41) arranged at the bottom of the liquid storage cup (200) and communicated with the liquid storage cavity (2) and a quantitative through pipe (42) arranged at the bottom in the quantitative cavity (1), and the lower end of the liquid storage through pipe (41) is matched with the quantitative through pipe (42) and can be blocked or opened.

3. A dosing container as claimed in claim 2, characterized in that the reservoir (2) communicates with the dosing chamber (1) when the reservoir (41) is moved upwards in relation to the dosing tube (42).

4. The quantitative container as claimed in claim 1, wherein the liquid storage cup (200) is provided with a handle (21) for controlling the movement thereof relative to the quantitative cavity (1), the handle (21) is extended outside the container body (100) for holding, and the opening edge of the container body (100) is provided with a movable groove (11) for moving the handle (21).

5. The quantitative container as claimed in claim 4, wherein the handle (21) is provided with a hook (211), and the outer wall of the container body (100) is provided with a slot (212) for the hook (211) to be inserted into.

6. A dosing container as claimed in claim 5, characterised in that a closure (5) is rotatably connected to the opening of the container body (100), the sealing cover (5) is provided with a liquid pouring cover sheet (51) for sealing and blocking the liquid pouring port (31) and a sealing cover notch for opening the liquid pouring port (31), an avoiding groove (52) is arranged on the sealing cover (5) and above the movable groove (11), and initially, the liquid pouring cover plate (51) is aligned with the liquid pouring port (31) to block the liquid pouring port (31), the action sealing cover (5) rotates relative to the container body (100), so that the liquid pouring cover plate (51) and the liquid pouring port (31) are staggered, the liquid pouring port (31) is communicated with the gap of the sealing cover, the avoiding groove (52) moves to the upper part of the handle (21), the handle is lifted, the clamping hook (211) can be separated from the clamping groove (212), and the liquid inlet control structure (4) is opened to communicate the liquid storage cavity (2) with the quantitative cavity (1).

7. A dosing container as claimed in claim 5, characterized in that the outer wall of the container body (100) is provided with two locking grooves (212) into which the locking hooks (211) can be locked.

8. The quantitative container according to claim 7, wherein the container body (100) is connected to a closure (5) at the opening, the closure (5) is provided with an avoiding groove (52) on the side for cooperating with the movable groove (11), the liquid storage chamber (2) is provided with a liquid pouring cover (51) for cooperating with the liquid pouring port (31), initially, the liquid pouring cover (51) is aligned with the liquid pouring port (31) to seal the liquid pouring port, the hook (211) is engaged with a groove (212), when the liquid storage cup (200) rotates relative to the container body (100), the liquid pouring cover (51) is dislocated with the liquid pouring port (31) to communicate the liquid pouring port (31) with the closure gap, and the hook (211) is disengaged from the groove (212) and the handle (21) is moved to the position below the avoiding groove (52), the handle is lifted, the liquid inlet control structure (4) is opened to communicate the liquid storage chamber (2) with the quantitative chamber (1), when the quantitative determination is reached, the liquid storage cup (200) is continuously rotated to enable the hook (211) to be clamped with the other clamping groove (212).

9. A dosing container as claimed in any one of claims 1-8, characterized in that the side wall of the dosing chamber (1) is provided with a scale marking (12).

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