CN213414756U - Container convenient to ration is poured and is got - Google Patents

Abstract

The utility model discloses a container convenient for quantitative pouring, which comprises an open container body and a positioning cavity shell connected to the lower side of the container body, wherein a liquid storage cavity is formed in the inner cavity of the container body, the opening of the container body is movably connected with an upper cover, a supporting seat is arranged below the container body, a containing container forming a quantitative cavity is movably arranged in the positioning cavity shell, a liquid outlet nozzle is arranged on the containing container, and a liquid inlet control structure for controlling the liquid storage cavity to be communicated or isolated with the quantitative cavity is arranged between the liquid storage cavity and the quantitative cavity; when using, the user acts on the feed liquor control structure and opens, and makes the liquid of filling in the stock solution intracavity flow into quantitative intracavity, when reaching required quantity, acts on the feed liquor control structure switching, and makes the liquid in stock solution chamber stop to flow into quantitative intracavity, and later the liquid in quantitative chamber is poured out from the liquid outlet nozzle, for this reason, has reasonable in design, and the structure is succinct, uses convenient and the little characteristics of occupation space, simultaneously, still has the function of quantitative pouring.

Description

Container convenient to ration is poured and is got

[ technical field ] A method for producing a semiconductor device

The utility model relates to a packaging container, especially a container convenient to ration is poured and is got.

[ 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. The existing quantitative pouring container bottle has the defects of high manufacturing cost due to complex structure and inconvenience for people due to complex quantitative pouring operation; and the prior container bottles have various fittings, which cause the defects of large placing space, large occupied space and the like.

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

[ Utility model ] content

The technical problem to be solved by the utility model is to provide a container convenient for quantitative pouring, which is characterized in that a liquid storage cavity is communicated or isolated with a quantitative cavity by opening and closing an action liquid inlet control structure; when the liquid storage cavity is communicated with the quantitative cavity, the liquid in the liquid storage cavity flows into the quantitative cavity, and when the required dosage is reached, the liquid inlet control structure is controlled to be closed, so that the liquid storage cavity and the quantitative cavity are isolated from each other, and the liquid in the quantitative cavity flows out from the liquid outlet nozzle; the liquid storage cavity and the quantitative cavity are both formed by the inner cavity of the container body, or the quantitative cavity is connected to one side of the liquid storage cavity; therefore, the quantitative pouring device has the characteristics of reasonable design, simple structure, convenience in use and small occupied space, and simultaneously has the function of quantitative pouring.

In order to solve the technical problem, the utility model provides a container convenient to ration is got backward, including open-ended vessel 1 and the location chamber shell 100 of connection at vessel 1 downside, 1 inner chamber of vessel is formed with stock solution chamber 10, 1 opening of vessel is movably connected with upper cover 11, 1 below of vessel is equipped with supporting seat 12, location chamber shell 100 internalization ground is equipped with the flourishing container 2 that connects that forms ration chamber 20, connect greatly and be equipped with liquid outlet 21 on the container 2, be equipped with between stock solution chamber 10 and the ration chamber 20 and be used for controlling stock solution chamber 10 and ration chamber 20 intercommunication or isolated inlet control structure 30.

The container convenient for quantitative pouring is characterized in that the liquid inlet control structure 30 comprises a static liquid inlet 301 arranged on the side wall of the container body 1 and a dynamic liquid inlet 302 arranged on the side wall of the container 2 and used for being aligned with or staggered with the static liquid inlet 301.

The container convenient for quantitative pouring is characterized in that the side wall of the container 2 is provided with a container window 22; the liquid inlet control structure 30 comprises a liquid outlet sleeve 303 communicated with the liquid storage cavity 10 and a valve plug 304 arranged on the container 2, and the liquid outlet end of the liquid outlet sleeve 303 penetrates through the container window 22 and is matched with the valve plug 304 for use.

The container convenient for quantitative pouring is characterized in that the receiving container 2 is formed by a hollow receiving sleeve 23 and a positioning cavity shell 100, the receiving sleeve 23 is provided with an upper opening and a lower opening, the lower opening of the receiving sleeve 23 is sleeved with the positioning cavity shell 100, and the upper opening of the receiving sleeve 23 is provided with a liquid outlet 21.

The container convenient for quantitative pouring is characterized in that the side wall of the receiving container 2 or the receiving sleeve 23 is provided with a positioning snap ring 24 opposite to the opening edge of the positioning cavity shell 100.

The utility model provides a container convenient to ration is rewound, connect container 2 including open-ended vessel 1 and the flourishing of connection in vessel 1 downside, 1 inner chamber of vessel is formed with stock solution chamber 10, 1 opening of vessel is connected with upper cover 11, 1 below of vessel is equipped with supporting seat 12, it is formed with ration chamber 20 to connect 2 inner chambers of container greatly, connect to be equipped with liquid outlet 21 on the vessel 2 greatly, be equipped with between stock solution chamber 10 and the ration chamber 20 and be used for controlling stock solution chamber 10 and ration chamber 20 intercommunication or isolated feed liquor control structure 30.

The container convenient for quantitative pouring is characterized in that the liquid inlet control structure 30 comprises a hole sleeve 305 and a valve rod 306 which are arranged between the liquid storage cavity 10 and the quantitative cavity 20 and are communicated with the liquid storage cavity 10 and the quantitative cavity 20, the upper end of the valve rod 306 is connected with the upper cover 11, and the lower part of the valve rod 306 is abutted or inserted into the hole sleeve 305 and is blocked by the hole sleeve 305.

The container convenient for quantitative pouring is characterized in that a hollow valve rod 306 is movably arranged in the liquid storage cavity 10 or the quantitative cavity 20; the liquid inlet control structure 30 comprises a liquid inlet A307 and a liquid inlet B308, wherein the liquid inlet A307 is arranged between the liquid storage cavity 10 and the quantitative cavity 20 and is communicated with the liquid storage cavity 10 and the quantitative cavity 20, and the liquid inlet B308 is arranged on the valve rod 306.

The container convenient for quantitative pouring is characterized in that the liquid storage cavity 10 and the quantitative cavity 20 are formed by separating the inner cavity of the container body 1 through the partition plate 13.

The container convenient for quantitative pouring is characterized in that the opening of the container body 1 is connected with the upper cover 11 through buckling, clamping or threads.

Compared with the prior art, the utility model relates to a container convenient to ration is poured and is got has following advantage:

1. the utility model can make the liquid storage cavity communicated or isolated with the quantitative cavity by opening and closing the liquid inlet control structure; when the liquid storage cavity is communicated with the quantitative cavity, the liquid in the liquid storage cavity flows into the quantitative cavity, and when the required dosage is reached, the liquid inlet control structure is controlled to be closed, so that the liquid storage cavity and the quantitative cavity are isolated from each other, and the liquid in the quantitative cavity flows out from the liquid outlet nozzle; the liquid storage cavity and the quantitative cavity are both formed by the inner cavity of the container body, or the quantitative cavity is connected to one side of the liquid storage cavity; therefore, the quantitative pouring device has the characteristics of reasonable design, simple structure, convenience in use and small occupied space, and simultaneously has the function of quantitative pouring.

2. In order to reduce the placing space of the container accessories and improve the overall attractiveness, the use of a user is convenient, the liquid storage cavity and the quantitative cavity are formed by the inner cavity of the container body, or the quantitative cavity is connected to one side of the liquid storage cavity.

[ 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 a cross-sectional view of a first embodiment of the present invention.

Fig. 2 is a second cross-sectional view of the first embodiment of the present invention.

Fig. 3 is a cross-sectional view of a second embodiment of the present invention.

Fig. 4 is a perspective view of a third embodiment of the present invention.

Fig. 5 is a cross-sectional view of a third embodiment of the present invention.

Fig. 6 is a second cross-sectional view of a third embodiment of the present invention.

Fig. 7 is a cross-sectional view of a fourth embodiment of the present invention.

Fig. 8 is a second cross-sectional view of a fourth embodiment of the present invention.

Fig. 9 is a cross-sectional view of a fifth embodiment of the present invention.

Fig. 10 is a second cross-sectional view of a fifth embodiment of the present invention.

Fig. 11 is a sectional view of a sixth embodiment of the present invention.

Fig. 12 is a second cross-sectional view of a sixth embodiment of the present invention.

Fig. 13 is a sectional view of a seventh embodiment of the present invention.

Fig. 14 is a second cross-sectional view of a seventh embodiment of the present invention.

[ detailed description ] embodiments

Embodiments of the invention will be described in detail below with reference to figures 1-14.

As shown in fig. 1-6, the utility model relates to a container convenient to ration is got backward, including open-ended vessel 1 and the location chamber shell 100 of connection at vessel 1 downside, vessel 1 inner chamber is formed with stock solution chamber 10, vessel 1 opening is movably connected with upper cover 11, vessel 1 below is equipped with supporting seat 12, location chamber shell 100 internalization ground is equipped with the flourishing container 2 that connects that forms ration chamber 20, be equipped with liquid outlet 21 on the flourishing container 2, be equipped with between stock solution chamber 10 and the ration chamber 20 and be used for controlling stock solution chamber 10 and ration chamber 20 intercommunication or isolated inlet control structure 30. Initially, the liquid inlet control structure is closed to isolate the liquid storage cavity from the quantitative cavity, so that the sealing property of the liquid storage cavity is ensured before or after use, and the service cycle and the use safety of liquid in the liquid storage cavity are prolonged; when using, the user acts on the feed liquor control structure and opens, and makes the liquid of filling in the stock solution intracavity flow into quantitative intracavity, when reaching required quantity, acts on the feed liquor control structure switching, and makes the liquid in stock solution chamber stop to flow into quantitative intracavity, and later the liquid in quantitative chamber is poured out from the liquid outlet nozzle, for this reason, has reasonable in design, and the structure is succinct, uses convenient and the little characteristics of occupation space, simultaneously, still has the function of quantitative pouring.

As shown in fig. 1 to 3, according to design requirements and various liquid inlet control structure manners, the liquid inlet control structure 30 includes a static liquid inlet 301 formed on a side wall of the container body 1 and a dynamic liquid inlet 302 formed on a side wall of the receiving container 2 and configured to be aligned with the static liquid inlet 301 or plugged in a staggered manner. When using, the user acts on and connects the relative vessel body of container to rotate greatly, can make the liquid inlet align the intercommunication with quiet inlet, and make the liquid in stock solution chamber flow in quantitative intracavity, when reaching required quantity, the user continues to act on and connects the relative vessel body of container to rotate greatly, can make the liquid inlet and the dislocation shutoff of quiet inlet, and make stock solution chamber and quantitative chamber isolated each other, and the liquid in later quantitative chamber is poured out from the drain nozzle. Therefore, the quantitative pouring device has the characteristics of reasonable design, simple structure, convenience in use and small occupied space, and simultaneously has the function of quantitative pouring.

As shown in fig. 4-6, according to design requirements and various liquid inlet control structure modes, a container window 22 is arranged on the side wall of the receiving container 2; the liquid inlet control structure 30 comprises a liquid outlet sleeve 303 communicated with the liquid storage cavity 10 and a valve plug 304 arranged on the container 2, and the liquid outlet end of the liquid outlet sleeve 303 penetrates through the container window 22 and is matched with the valve plug 304 for use. When the quantitative liquid storage device is used, a user acts on the containing container to rotate relative to the container body, the valve plug can be separated from the liquid outlet end of the liquid outlet sleeve, liquid in the liquid storage cavity flows into the quantitative cavity, when the required using amount is reached, the user continues to act on the containing container to rotate relative to the container body, the valve plug can be aligned and sealed with the liquid outlet end of the liquid outlet sleeve, the liquid storage cavity is isolated from the quantitative cavity, and then the liquid in the quantitative cavity is poured out from the liquid outlet nozzle. Therefore, the quantitative pouring device has the characteristics of reasonable design, simple structure, convenience in use and small occupied space, and simultaneously has the function of quantitative pouring.

As shown in fig. 3, according to design requirements, the receiving container 2 is formed by a receiving sleeve 23 and a positioning cavity shell 100, the receiving sleeve 23 is hollow and has an upper opening and a lower opening, the receiving sleeve 23 is sleeved with the positioning cavity shell 100, and the receiving sleeve 23 has an upper opening to form a liquid outlet 21.

As shown in fig. 1 to 6, in order to ensure that the dynamic liquid inlet and the static liquid inlet are aligned and communicated accurately, the liquid outlet sleeve and the valve plug are aligned and blocked accurately, and simultaneously ensure that the receiving container can rotate smoothly, a positioning snap ring 24 which is opposite to the opening edge of the positioning cavity shell 100 is arranged on the side wall of the receiving container 2 or the receiving sleeve 23.

As shown in fig. 1 to 6, in order to provide a plurality of connection modes and meet different requirements of users, the opening of the container body 1 is connected with the upper cover 11 through buckling, clamping or screwing.

As shown in fig. 7-14, the utility model relates to a container convenient to ration is got backward, connect container 2 including open-ended vessel 1 with greatly connecting at vessel 1 downside, vessel 1 inner chamber is formed with stock solution chamber 10, vessel 1 opening is connected with upper cover 11, vessel 1 below is equipped with supporting seat 12, connect 2 inner chambers of container greatly and be formed with ration chamber 20, connect greatly and be equipped with liquid outlet 21 on the vessel 2, be equipped with between stock solution chamber 10 and the ration chamber 20 and be used for controlling stock solution chamber 10 and ration chamber 20 intercommunication or isolated inlet control structure 30. Initially, the liquid inlet control structure is closed to isolate the liquid storage cavity from the quantitative cavity, so that the sealing property of the liquid storage cavity is ensured before or after use, and the service cycle and the use safety of liquid in the liquid storage cavity are prolonged; when using, the user acts on the feed liquor control structure and opens, and makes the liquid of filling in the stock solution intracavity flow into quantitative intracavity, when reaching required quantity, acts on the feed liquor control structure switching, and makes the liquid in stock solution chamber stop to flow into quantitative intracavity, and later the liquid in quantitative chamber is poured out from the liquid outlet nozzle, for this reason, has reasonable in design, and the structure is succinct, uses convenient and the little characteristics of occupation space, simultaneously, still has the function of quantitative pouring.

As shown in fig. 7 and 8, according to the design requirement and the multiple liquid inlet control structure manner, the liquid inlet control structure 30 includes a hole sleeve 305 and a valve rod 306 which are arranged between the liquid storage cavity 10 and the quantitative cavity 20 and communicate the liquid storage cavity 10 and the quantitative cavity 20, the upper end of the valve rod 306 is connected with the upper cover 11, and the lower part of the valve rod 306 is abutted or inserted into the hole sleeve 305 and blocks the hole sleeve 305. When using, the user acts on the relative vessel body upward movement of upper cover, can make valve pole and hole cover separation, and make the liquid in stock solution chamber flow into quantitative intracavity from the hole cover, when reaching required quantity, the user acts on the relative vessel body downward movement of upper cover, can make valve pole lower part shutoff and block up the hole cover, and make stock solution chamber and quantitative chamber isolated each other, later the liquid in quantitative chamber is poured out from the liquid outlet nozzle, for this reason, reasonable in design has, and the structure is succinct, the convenient and little characteristics of occupation space of use, and simultaneously, still have the function of quantitative pouring.

As shown in fig. 9-14, according to design requirements and various liquid inlet control structure manners, a hollow valve rod 306 is movably arranged in the liquid storage cavity 10 or the quantitative cavity 20; the liquid inlet control structure 30 comprises a liquid inlet A307 and a liquid inlet B308, wherein the liquid inlet A307 is arranged between the liquid storage cavity 10 and the quantitative cavity 20 and is communicated with the liquid storage cavity 10 and the quantitative cavity 20, and the liquid inlet B308 is arranged on the valve rod 306. When using, user's valve of action pole rotates relative vessel, can make inlet B308 and inlet A307 align the intercommunication, and make the liquid inflow quantitative intracavity in stock solution chamber, when reaching required quantity, user valve of action pole 306 rotates relative vessel, can make inlet B308 and inlet A307 dislocation shutoff, and make stock solution chamber and quantitative chamber isolated each other, later the liquid in quantitative chamber is poured out from the liquid outlet nozzle, for this reason, and has reasonable in design, and the structure is succinct, the characteristics that use is convenient and occupation space is little, and simultaneously, still have the function of quantitative pouring.

As shown in fig. 9 to 14, the number of the liquid inlet ports B308 on the valve rod 306 is at least two, one liquid inlet port B308 is used for being communicated with the liquid storage cavity, and the other liquid inlet port B308 is used for being aligned with or staggered to be blocked with the liquid inlet port a 307.

For convenience of use, the upper cover 11 is connected with the valve rod 306.

As shown in fig. 11 and 12, the liquid storage chamber 10 and the quantitative chamber 20 are formed by separating the inner cavity of the container body 1 by a partition 13 according to design requirements.

As shown in FIGS. 11 and 12, the liquid inlet A307 is provided on the partition plate 13.

As shown in fig. 7-14, the opening of the container body 1 is connected to the upper cover 11 by a snap-fit or a screw-thread connection in order to provide various connection modes and meet different requirements of users.

In order to facilitate the quantitative pouring and the user's viewing, the quantitative cavity 20 is provided with a scale mark not shown.

Claims (10)

1. The utility model provides a container convenient to ration is rewound, its characterized in that includes open-ended vessel (1) and connects location chamber shell (100) at vessel (1) downside, vessel (1) inner chamber is formed with stock solution chamber (10), vessel (1) opening is connected with upper cover (11) movably, vessel (1) below is equipped with supporting seat (12), location chamber shell (100) internalization ground is equipped with greatly connecing container (2) that form ration chamber (20), be equipped with liquid outlet nozzle (21) on greatly connecing container (2), be equipped with between stock solution chamber (10) and ration chamber (20) and be used for controlling stock solution chamber (10) and ration chamber (20) intercommunication or isolated feed liquor control structure (30).

2. A container convenient for quantitative pouring according to claim 1, wherein the liquid inlet control structure (30) comprises a static liquid inlet (301) arranged on the side wall of the container body (1) and a dynamic liquid inlet (302) arranged on the side wall of the container (2) and used for being aligned with or blocked by the static liquid inlet (301) in a staggered manner.

3. A container convenient for quantitative pouring according to claim 1, characterized in that the side wall of the receiving container (2) is provided with a container window (22); the liquid inlet control structure (30) comprises a liquid outlet sleeve (303) communicated with the liquid storage cavity (10) and a valve plug (304) arranged on the container (2), and the liquid outlet end of the liquid outlet sleeve (303) penetrates through the container window (22) to be matched with the valve plug (304).

4. A container convenient for quantitative pouring according to any one of claims 1 to 3, wherein the receiving container (2) is formed by a hollow receiving sleeve (23) with an upper opening and a lower opening and a positioning cavity shell (100), the lower opening of the receiving sleeve (23) is sleeved with the positioning cavity shell (100), and the upper opening of the receiving sleeve (23) forms the liquid outlet (21).

5. A container convenient for quantitative pouring according to claim 4, characterized in that the side wall of the receiving container (2) or the receiving sleeve (23) is provided with a positioning snap ring (24) opposite to the opening edge of the positioning cavity shell (100).

6. The utility model provides a container convenient to ration is rewound, its characterized in that includes open-ended vessel (1) and connects greatly and connect container (2) at vessel (1) downside, vessel (1) inner chamber is formed with stock solution chamber (10), vessel (1) opening is connected with upper cover (11), vessel (1) below is equipped with supporting seat (12), connect greatly container (2) inner chamber and be formed with ration chamber (20), connect greatly and be equipped with drain nozzle (21) on container (2), be equipped with between stock solution chamber (10) and ration chamber (20) and be used for controlling stock solution chamber (10) and ration chamber (20) intercommunication or isolated feed liquor control structure (30).

7. The container convenient for quantitative pouring according to claim 6, wherein the liquid inlet control structure (30) comprises a hole sleeve (305) and a valve rod (306), the hole sleeve (305) is arranged between the liquid storage cavity (10) and the quantitative cavity (20) and communicates the liquid storage cavity (10) with the quantitative cavity (20), the upper end of the valve rod (306) is connected with the upper cover (11), and the lower part of the valve rod (306) is abutted against or inserted into the hole sleeve (305) and blocks the hole sleeve (305).

8. A container convenient for quantitative pouring according to claim 6, characterized in that a hollow valve rod (306) is movably arranged in the liquid storage cavity (10) or the quantitative cavity (20); the liquid inlet control structure (30) comprises a liquid inlet A (307) and a liquid inlet B (308), wherein the liquid inlet A is arranged between the liquid storage cavity (10) and the quantitative cavity (20) and is communicated with the liquid storage cavity (10) and the quantitative cavity (20), and the liquid inlet B (308) is arranged on the valve rod (306).

9. A container for facilitating quantitative pouring according to any one of claims 6 to 8, wherein the reservoir (10) and the quantitative cavity (20) are formed by separating the inner cavity of the container body (1) by a partition (13).

10. Container convenient for pouring out fixed quantities according to claim 6, characterized in that the opening of the container body (1) is connected to the upper lid (11) by means of a snap or bayonet connection or a screw connection.

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