CN211619928U - Container capable of automatically controlling pouring - Google Patents

Abstract

The utility model discloses a container capable of automatically controlling pouring, which comprises a container body and a supporting part, wherein the container body is arranged on the supporting part, a liquid drainage channel communicated with the inner cavity of the container body is arranged on the container body, a liquid outlet nozzle is arranged at the outer end of the liquid drainage channel, a valve control assembly is arranged on the liquid drainage channel, a support used for placing a container is arranged on the supporting part or the container body, the support is connected with the valve control assembly and can control the valve control assembly to be opened in a linkage manner, and when in use, the valve control assembly can be used for controlling the communication or isolation between the inner cavity of the container body and the liquid outlet nozzle through the support, so that the container has the functions of automatically discharging liquid, stopping and closing the; and the inner cavity of the container body is communicated with the liquid outlet sleeve through the quantitative cavity, so that the quantitative pouring function is realized, and the characteristics of convenience in use and simplicity in operation are realized.

Description

Container capable of automatically controlling pouring

[ technical field ] A method for producing a semiconductor device

The utility model relates to a container specifically is a container that can automatic control pouring.

[ background of the invention ]

When the existing container is used for pouring, a user is required to manually open or close a liquid outlet valve in the container, so that the liquid in the inner cavity of the container can be poured out for use, the problem that the user is inconvenient to use and complex to operate is caused, the liquid filled in the inner cavity of the container at present can not be quantitatively poured out for use according to the requirement of the user, and therefore the problem that the user takes out more or less liquid is caused, the problems of resource waste or poor efficiency and the like are caused, and the inconvenience in use of the user is caused.

Therefore, the utility model discloses to above-mentioned prior art not enough, to having the problem in the current container further improve.

[ Utility model ] content

The utility model aims to solve the technical problem that a container capable of automatically controlling pouring is provided, which comprises a container body and a supporting part, wherein the container body is arranged on the supporting part, a liquid drainage channel communicated with an inner cavity of the container body is arranged on the container body, a liquid outlet nozzle is arranged at the outer end of the liquid drainage channel, a valve control assembly is arranged on the liquid drainage channel, a support used for placing a container is arranged on the supporting part or the container body, the support is connected with the valve control assembly and can be used for controlling the valve control assembly to be opened in a linkage manner, and when the container is used, the valve control assembly can be used for controlling the communication or isolation between the inner cavity of the container body and the liquid outlet nozzle through the support, so that the container has the functions of; and the inner cavity of the container body is communicated with the liquid outlet sleeve through the quantitative cavity, so that the quantitative pouring function is realized, and the characteristics of convenience in use and simplicity in operation are realized.

In order to solve the technical problem, the utility model provides a but automatic control container of pouring, its characterized in that includes vessel 1 and supporting part 2, vessel 1 is established on supporting part 2, be equipped with the flowing back passageway 3 rather than the inner chamber intercommunication on vessel 1, 3 outer ends of flowing back passageway are equipped with liquid outlet 321, be equipped with valve control subassembly 4 on flowing back passageway 3, be equipped with on supporting part 2 or vessel 1 and be used for placing the support 5 that connects the container greatly, but support 5 is connected and linkage control valve control subassembly 4 with valve control subassembly 4 and opens.

The container capable of automatically controlling pouring is characterized in that the liquid discharge channel 3 is a liquid discharge sleeve 32, the inner end of the liquid discharge sleeve 32 is communicated with the inner cavity of the container body 1 and is formed with a first liquid outlet hole 322, and the liquid outlet nozzle 321 is arranged at the outer end of the liquid discharge sleeve 32.

The container capable of automatically controlling pouring is characterized in that the valve control assembly 4 comprises a first valve plug 42 and a connecting rod 43, the first valve plug 42 is arranged at the first liquid outlet hole 322 and is positioned at one side of the liquid outlet sleeve 32, the upper end of the connecting rod 43 is connected with the first valve plug 42, the lower part of the connecting rod 43 is connected with the bracket 5, and a reset part 431 is arranged between the lower end of the connecting rod 43 and the supporting part 2; when the holding container is placed on the bracket 5, the bracket 5 can act on the first valve plug 42 to move downwards to open the first liquid outlet hole 322, so that the liquid contained in the inner cavity of the container body 1 flows into the inner cavity of the holding container from the liquid outlet nozzle 321; when the liquid level of the inner cavity of the containing container blocks the lower end of the liquid outlet 321, the liquid can stop flowing into the inner cavity of the containing container; when the container is taken away, the first valve plug 42 can be moved upwards by the reset member 431 to block the first liquid outlet hole 322, so that the inner cavity of the container body 1 is isolated from the liquid outlet sleeve 32.

Or, as mentioned above, the container capable of automatically controlling pouring is characterized in that the valve control assembly 4 includes the first valve plug 42 and the connecting rod 43, the first valve plug 42 is disposed at the first liquid outlet 322 and located at one side of the inner cavity of the container body 1, the upper end of the connecting rod 43 is connected with the first valve plug 42, and the lower portion of the connecting rod 43 is connected with the bracket 5; when the holding container is placed on the bracket 5, the bracket 5 can act on the first valve plug 42 to move upwards to open the first liquid outlet hole 322, so that the liquid contained in the inner cavity of the container body 1 flows into the inner cavity of the holding container from the liquid outlet nozzle 321; when the liquid level of the inner cavity of the containing container blocks the lower end of the liquid outlet 321, the liquid can stop flowing into the inner cavity of the containing container; when the container is taken away, the first valve plug 42 moves downwards to block the first liquid outlet hole 322, so that the inner cavity of the container body 1 is isolated from the liquid outlet sleeve 32.

The container capable of automatically controlling pouring is characterized in that the liquid discharge channel 3 comprises a quantitative cavity 31 and a liquid discharge sleeve 32, the inner cavity of the container body 1 is communicated with the liquid discharge sleeve 32 through the quantitative cavity 31, a second liquid outlet hole 311 is arranged between the container body 1 and the quantitative cavity 31, the inner end of the liquid discharge sleeve 32 is communicated with the quantitative cavity 31 and is provided with a first liquid outlet hole 322, and the liquid outlet nozzle 321 is arranged at the outer end of the liquid discharge sleeve 32.

The container capable of automatically controlling pouring is characterized in that the valve control assembly 4 comprises a second valve plug 41, a first valve plug 42 and a connecting rod 43, the second valve plug 41 is arranged at the second liquid outlet 311 and positioned at one side of the inner cavity of the container body 1, the first valve plug 42 is arranged at the first liquid outlet 322 and positioned at one side of the liquid outlet sleeve 32, the upper part of the connecting rod 43 is simultaneously connected with the second valve plug 41 and the first valve plug 42, the lower part of the connecting rod 43 is connected with the bracket 5, and a reset part 431 is arranged between the lower end of the connecting rod 43 and the supporting part 2; when the holding container is placed on the bracket 5, the bracket 5 can act on the second valve plug 41 to move downwards to block the second liquid outlet 311 and the first valve plug 42 to move downwards to open the first liquid outlet 322, so that the inner cavity of the container body 1 is isolated from the quantitative cavity 31, and the liquid contained in the quantitative cavity 31 flows into the inner cavity of the holding container from the liquid outlet 321; when the container is taken away, the restoring member 431 can act on the second valve plug 41 to move upward to open the second liquid outlet hole 311 and the first valve plug 42 to move upward to block the first liquid outlet hole 322, so that the liquid contained in the inner cavity of the container body 1 flows into the quantitative cavity 31 and the quantitative cavity 31 is isolated from the liquid outlet sleeve 32.

Or, as mentioned above, the container capable of automatically controlling pouring is characterized in that the valve control assembly 4 includes the second valve plug 41, the first valve plug 42 and the connecting rod 43, the second valve plug 41 is disposed at the second liquid outlet 311 at one side of the quantitative cavity 31, the first valve plug 42 is disposed at the first liquid outlet 322 at one side of the quantitative cavity 31, the upper portion of the connecting rod 43 is connected to the second valve plug 41 and the first valve plug 42 at the same time, the lower portion of the connecting rod 43 is connected to the bracket 5, when the container is placed on the bracket 5, the bracket 5 can act on the upward movement of the second valve plug 41 to block the second liquid outlet 311 and the upward movement of the first valve plug 42 to open the first liquid outlet 322, so that the inner cavity of the container body 1 is isolated from the quantitative cavity 31 and the liquid contained in the quantitative cavity 31 flows into the inner cavity of the container from the liquid outlet 321; when the container is taken away, the second valve plug 41 moves downward to open the second liquid outlet 311 and the first valve plug 42 moves downward to block the first liquid outlet 322, so that the liquid contained in the inner cavity of the container body 1 flows into the quantitative cavity 31 and the quantitative cavity 31 is isolated from the liquid outlet sleeve 32.

The container capable of automatically controlling pouring is characterized in that the resetting piece 431 is made of deformable elastic material or soft material.

The container capable of automatically controlling pouring is characterized in that the container body 1 or the supporting part 2 is provided with a projection 51 opposite to the bracket 5.

The container capable of automatically controlling pouring is characterized in that the container body 1 is provided with an opening, and the opening is connected with the upper cover 11.

Compared with the prior art, the utility model has the advantages of as follows: a container capable of automatically controlling pouring comprises a container body and a supporting part, wherein the container body is arranged on the supporting part, a liquid discharge channel communicated with an inner cavity of the container body is arranged on the container body, a liquid outlet nozzle is arranged at the outer end of the liquid discharge channel, a valve control assembly is arranged on the liquid discharge channel, a support used for placing a container is arranged on the supporting part or the container body, the support is connected with the valve control assembly and can control the valve control assembly to be opened in a linkage mode, when the container is used, the valve control assembly can be acted by the support to control the communication or isolation of the inner cavity of the container body and the liquid outlet nozzle, and therefore the container has the functions of automatically discharging liquid, stopping and closing the; and the inner cavity of the container body is communicated with the liquid outlet sleeve through the quantitative cavity, so that the quantitative pouring function is realized, and the characteristics of convenience in use and simplicity in operation are 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 the cross-sectional views of the 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 sectional view of a third embodiment of the present invention.

Fig. 5 is one of cross-sectional views of a fourth embodiment of the present invention.

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

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

Fig. 8 is a sectional view of a sixth embodiment of the present invention.

Fig. 9 is one of cross-sectional views of a seventh embodiment of the present invention.

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

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

Fig. 12 is a sectional view of a ninth embodiment of the present invention.

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

Fig. 14 is one of cross-sectional views of an eleventh embodiment of the present invention.

Fig. 15 is a second cross-sectional view of the eleventh embodiment of the present invention.

Fig. 16 is a cross-sectional view of a twelfth embodiment of the present invention.

Fig. 17 is a second cross-sectional view of a twelfth embodiment of the present invention.

Fig. 18 is one of cross-sectional views of a thirteenth embodiment of the present invention.

Fig. 19 is a second cross-sectional view of a thirteenth embodiment of the present invention.

[ detailed description ] embodiments

Embodiments of the present invention will be described in detail below with reference to fig. 1 to 19.

As shown in other fig. 1-19, the utility model relates to a but automatic control container of pouring, including vessel 1 and supporting part 2, vessel 1 is established on supporting part 2, be equipped with the flowing back passageway 3 rather than the inner chamber intercommunication on vessel 1, 3 outer ends of flowing back passageway are equipped with liquid outlet 321, be equipped with valve control subassembly 4 on the flowing back passageway 3, be equipped with on supporting part 2 or vessel 1 and be used for placing the support 5 that connects the container greatly, but support 5 is connected and linkage control valve control subassembly 4 with valve control subassembly 4 and opens. When the liquid outlet device is used, the valve control assembly can be used for controlling the communication or isolation between the inner cavity of the container body and the liquid outlet nozzle through the support, so that the liquid outlet device has the functions of automatically discharging liquid, stopping and closing the liquid outlet, and has the characteristics of convenience in use and simplicity in operation.

As shown in fig. 1-8, the liquid discharge channel 3 is a liquid outlet sleeve 32, an inner end of the liquid outlet sleeve 32 is communicated with the inner cavity of the container body 1 and is formed with a first liquid outlet hole 322, and the liquid outlet nozzle 321 is arranged at an outer end of the liquid outlet sleeve 32.

As shown in fig. 1 to 4, the valve control assembly 4 includes a first valve plug 42 and a connecting rod 43, the first valve plug 42 is disposed at the first liquid outlet 322 and located at one side of the liquid outlet sleeve 32, the upper end of the connecting rod 43 is connected to the first valve plug 42, the lower portion of the connecting rod 43 is connected to the bracket 5, and a reset member 431 is disposed between the lower end of the connecting rod 43 and the supporting portion 2; when the holding container is placed on the bracket 5, the bracket 5 can act on the first valve plug 42 to move downwards to open the first liquid outlet hole 322, so that the liquid contained in the inner cavity of the container body 1 flows into the inner cavity of the holding container from the liquid outlet nozzle 321, and the function of automatically controlling liquid outlet is achieved; when the liquid level of the liquid in the inner cavity of the containing container blocks the lower end of the liquid outlet nozzle 321, the liquid can stop flowing into the inner cavity of the containing container, so that the liquid outlet function is automatically stopped; when the container is taken away, the first valve plug 42 can move upwards to block the first liquid outlet hole 322 by the reset piece 431, so that the inner cavity of the container body 1 is isolated from the liquid outlet sleeve 32, the function of automatically closing liquid outlet is achieved, and meanwhile, the container has the characteristics of convenience in use and simplicity in operation.

As shown in fig. 5-8, the valve control assembly 4 includes a first valve plug 42 and a connecting rod 43, the first valve plug 42 is disposed at the first liquid outlet 322 and located at one side of the inner cavity of the container body 1, the upper end of the connecting rod 43 is connected to the first valve plug 42, and the lower portion of the connecting rod 43 is connected to the bracket 5; when the holding container is placed on the bracket 5, the bracket 5 can act on the first valve plug 42 to move upwards to open the first liquid outlet hole 322, so that the liquid contained in the inner cavity of the container body 1 flows into the inner cavity of the holding container from the liquid outlet nozzle 321, and the function of automatically controlling liquid outlet is achieved; when the liquid level of the liquid in the inner cavity of the containing container blocks the lower end of the liquid outlet nozzle 321, the liquid can stop flowing into the inner cavity of the containing container, so that the liquid outlet function is automatically stopped; when the container is taken away, the first valve plug 42 moves downwards to block the first liquid outlet 322, so that the inner cavity of the container body 1 is isolated from the liquid outlet sleeve 32, and the container has the function of automatically closing liquid outlet, and has the characteristics of convenience in use and simplicity in operation.

As shown in fig. 9-19, the liquid discharge channel 3 includes a quantitative cavity 31 and a liquid outlet sleeve 32, the inner cavity of the container body 1 is communicated with the liquid outlet sleeve 32 through the quantitative cavity 31, a second liquid outlet hole 311 is disposed between the container body 1 and the quantitative cavity 31, the inner end of the liquid outlet sleeve 32 is communicated with the quantitative cavity 31 and is formed with a first liquid outlet hole 322, and the liquid outlet nozzle 321 is disposed at the outer end of the liquid outlet sleeve 32.

Furthermore, in order to facilitate quantitative pouring for a user, the quantitative cavity 31 is provided with a mark scale, which is shown in the figure.

As shown in fig. 9-13, the valve control assembly 4 includes a second valve plug 41, a first valve plug 42 and a connecting rod 43, the second valve plug 41 is disposed at the second liquid outlet 311 at one side of the inner cavity of the container body 1, the first valve plug 42 is disposed at the first liquid outlet 322 at one side of the liquid outlet sleeve 32, the upper portion of the connecting rod 43 is connected to the second valve plug 41 and the first valve plug 42, the lower portion of the connecting rod 43 is connected to the bracket 5, and a reset member 431 is disposed between the lower end of the connecting rod 43 and the supporting portion 2; when the holding container is placed on the bracket 5, the bracket 5 can act on the second valve plug 41 to move downwards to block the second liquid outlet 311 and the first valve plug 42 to move downwards to open the first liquid outlet 322, so that the inner cavity of the container body 1 is isolated from the quantitative cavity 31, and the liquid contained in the quantitative cavity 31 flows into the inner cavity of the holding container from the liquid outlet 321, thereby having the function of automatically controlling liquid outlet; when taking away the flourishing container, can act on second valve stopper 41 upward movement and open second and go out liquid hole 311 and first valve stopper 42 upward movement and block up first liquid hole 322 through the piece 431 that resets, and then make the splendid attire flow into quantitative chamber 31 and play liquid sleeve pipe 32 at the liquid of vessel body 1 inner chamber and completely cut off, thereby have the function of self-closing play liquid, and communicate through quantitative chamber between vessel body inner chamber and the play liquid sleeve pipe, and have the ration function of getting backward, and still have convenient to use simultaneously, easy operation's characteristics.

As shown in fig. 14-19, the valve control assembly 4 includes a second valve plug 41, a first valve plug 42 and a connecting rod 43, the second valve plug 41 is disposed at the second liquid outlet 311 at one side of the quantitative cavity 31, the first valve plug 42 is disposed at the first liquid outlet 322 at one side of the quantitative cavity 31, the upper portion of the connecting rod 43 is connected to the second valve plug 41 and the first valve plug 42, the lower portion of the connecting rod 43 is connected to the bracket 5, when the container is placed on the bracket 5, the bracket 5 can act on the upward movement of the second valve plug 41 to block the second liquid outlet 311 and the upward movement of the first valve plug 42 to open the first liquid outlet 322, so that the inner cavity of the container body 1 is isolated from the quantitative cavity 31 and the liquid contained in the quantitative cavity 31 flows into the inner cavity of the container from the liquid outlet 321, thereby having a function of automatically controlling the liquid outlet; when the container is taken away, the second valve plug 41 moves downwards to open the second liquid outlet 311 and the first valve plug 42 moves downwards to block the first liquid outlet 322, so that the liquid contained in the inner cavity of the container body 1 flows into the quantitative cavity 31 and the quantitative cavity 31 is isolated from the liquid outlet sleeve 32, the function of automatically closing the liquid outlet is achieved, the inner cavity of the container body is communicated with the liquid outlet sleeve through the quantitative cavity, the quantitative pouring function is achieved, and meanwhile, the container is convenient to use and simple to operate.

Further, the restoring member 431 is made of a deformable elastic material or an elastic material or a soft material according to design requirements.

As shown in fig. 5-8, 18 and 19, the container body 1 or the supporting portion 2 is provided with a protrusion 51 opposite to the bracket 5 according to design requirements.

As shown in fig. 1-8, 12 and 13, in order to prevent external dust and insects from entering the inner cavity of the container body and ensure the cleanness and sanitation of the liquid in the inner cavity of the container body, the container body 1 is opened and the opening of the container body is connected with an upper cover 11.

Further, the opening of the container body 1 and the upper cover 11 are connected or fastened through threads.

As shown in fig. 16 and 17, the support portion 2 is provided with a holder cover 52 for covering the holder 4 with respect to the holder 5 in order to prevent the holder from being touched or pressed when the use is stopped. Wherein the holder cover 52 is squeezable and changeable.

Claims (10)

1. The utility model provides a but automatic control container of pouring, its characterized in that includes vessel (1) and supporting part (2), vessel (1) is established on supporting part (2), be equipped with drainage channel (3) rather than the inner chamber intercommunication on vessel (1), drainage channel (3) outer end is equipped with drain nozzle (321), be equipped with valve control subassembly (4) on drainage channel (3), be equipped with on supporting part (2) or vessel (1) and be used for placing support (5) that connect the container greatly, but support (5) are connected and coordinated control valve control subassembly (4) are opened with valve control subassembly (4).

2. The container according to claim 1, wherein the liquid discharge channel (3) is a liquid discharge sleeve (32), the inner end of the liquid discharge sleeve (32) is communicated with the inner cavity of the container body (1) and is formed with a first liquid outlet hole (322), and the liquid outlet nozzle (321) is arranged at the outer end of the liquid discharge sleeve (32).

3. A container capable of automatically controlling pouring according to claim 2, wherein the valve control assembly (4) comprises a first valve plug (42) and a connecting rod (43), the first valve plug (42) is arranged at the first liquid outlet hole (322) and is positioned at one side of the liquid outlet sleeve (32), the upper end of the connecting rod (43) is connected with the first valve plug (42), the lower part of the connecting rod (43) is connected with the bracket (5), and a reset member (431) is arranged between the lower end of the connecting rod (43) and the supporting part (2); when the holding container is placed on the support (5), the first valve plug (42) can be acted by the support (5) to move downwards to open the first liquid outlet hole (322), so that liquid contained in the inner cavity of the container body (1) flows into the inner cavity of the holding container from the liquid outlet nozzle (321); when the liquid level of the inner cavity of the containing container blocks the lower end of the liquid outlet nozzle (321), the liquid can stop flowing into the inner cavity of the containing container; when the container is taken away, the first valve plug (42) can be acted by the reset piece (431) to move upwards to block the first liquid outlet hole (322), so that the inner cavity of the container body (1) is isolated from the liquid outlet sleeve (32).

4. The container capable of automatically controlling pouring according to claim 2, wherein the valve control assembly (4) comprises a first valve plug (42) and a connecting rod (43), the first valve plug (42) is arranged at the first liquid outlet hole (322) and is positioned at one side of the inner cavity of the container body (1), the upper end of the connecting rod (43) is connected with the first valve plug (42), and the lower part of the connecting rod (43) is connected with the bracket (5); when the holding container is placed on the support (5), the first valve plug (42) can be acted by the support (5) to move upwards to open the first liquid outlet hole (322), so that liquid contained in the inner cavity of the container body (1) flows into the inner cavity of the holding container from the liquid outlet nozzle (321); when the liquid level of the inner cavity of the containing container blocks the lower end of the liquid outlet nozzle (321), the liquid can stop flowing into the inner cavity of the containing container; when the container is taken away, the first valve plug (42) moves downwards to block the first liquid outlet hole (322), so that the inner cavity of the container body (1) is isolated from the liquid outlet sleeve (32).

5. The container capable of automatically controlling pouring according to claim 1, wherein the liquid discharge channel (3) comprises a quantitative cavity (31) and a liquid discharge sleeve (32), the inner cavity of the container body (1) is communicated with the liquid discharge sleeve (32) through the quantitative cavity (31), a second liquid outlet hole (311) is arranged between the container body (1) and the quantitative cavity (31), the inner end of the liquid discharge sleeve (32) is communicated with the quantitative cavity (31) and is formed with a first liquid outlet hole (322), and the liquid outlet nozzle (321) is arranged at the outer end of the liquid discharge sleeve (32).

6. The container capable of automatically controlling pouring according to claim 5, wherein the valve control assembly (4) comprises a second valve plug (41), a first valve plug (42) and a connecting rod (43), the second valve plug (41) is arranged at the second liquid outlet hole (311) at one side of the inner cavity of the container body (1), the first valve plug (42) is arranged at the first liquid outlet hole (322) at one side of the liquid outlet sleeve (32), the upper part of the connecting rod (43) is simultaneously connected with the second valve plug (41) and the first valve plug (42), the lower part of the connecting rod (43) is connected with the bracket (5), and a reset part (431) is arranged between the lower end of the connecting rod (43) and the supporting part (2); when the container is placed on the support (5), the support (5) can act on the second valve plug (41) to move downwards to block the second liquid outlet hole (311) and the first valve plug (42) to move downwards to open the first liquid outlet hole (322), so that the inner cavity of the container body (1) is isolated from the quantitative cavity (31), and liquid contained in the quantitative cavity (31) flows into the inner cavity of the container from the liquid outlet nozzle (321); when the container is taken away, the second valve plug (41) can move upwards to open the second liquid outlet hole (311) and the first valve plug (42) moves upwards to block the first liquid outlet hole (322) through the resetting piece (431), so that the liquid contained in the inner cavity of the container body (1) flows into the quantitative cavity (31) and the quantitative cavity (31) is isolated from the liquid outlet sleeve (32).

7. A container capable of automatically controlling pouring according to claim 5, wherein the valve control assembly (4) comprises a second valve plug (41), a first valve plug (42) and a connecting rod (43), the second valve plug (41) is arranged at the second liquid outlet (311) at one side of the quantitative cavity (31), the first valve plug (42) is arranged at the first liquid outlet (322) at one side of the quantitative cavity (31), the upper part of the connecting rod (43) is simultaneously connected with the second valve plug (41) and the first valve plug (42), the lower part of the connecting rod (43) is connected with the bracket (5), when the bracket (5) is used for containing the container, the bracket (5) can act on the second valve plug (41) to move upwards to block the second liquid outlet (311) and move upwards the first valve plug (42) to open the first liquid outlet (322), so that the inner cavity of the container body (1) is isolated from the quantitative cavity (31) and the liquid contained in the quantitative cavity (31) flows into the inner cavity of the containing container from the liquid outlet nozzle (321); when the container is taken away, the second valve plug (41) moves downwards to open the second liquid outlet hole (311) and the first valve plug (42) moves downwards to block the first liquid outlet hole (322), so that the liquid contained in the inner cavity of the container body (1) flows into the quantitative cavity (31) and the quantitative cavity (31) is isolated from the liquid outlet sleeve (32).

8. Container with automatic controlled pouring according to claim 3 or 6, characterized in that said restoring member (431) is made of deformable elastic material or soft material.

9. Container with automatic pouring control according to claim 4 or 7, characterized in that the container body (1) or the support (2) is provided with a projection (51) opposite the holder (5).

10. The container capable of automatically controlling pouring according to any one of claims 1 to 7, wherein the container body (1) is open and an upper cover (11) is connected to the opening.

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