CN109665196B

CN109665196B - Quantitative pumping liquid container

Info

Publication number: CN109665196B
Application number: CN201910029455.9A
Authority: CN
Inventors: 李红彪
Original assignee: Zhongshan Huabaole Daily Necessities Co ltd
Current assignee: Zhongshan Huabaole Daily Necessities Co ltd
Priority date: 2019-01-13
Filing date: 2019-01-13
Publication date: 2023-08-29
Anticipated expiration: 2039-01-13
Also published as: CN109665196A; WO2020143817A1

Abstract

The invention discloses a quantifiable pumping-out liquid container, wherein a pumping cover assembly is connected to the mouth part of a container body; the inflating cover assembly comprises a cover connecting seat and a movable cover, wherein the movable cover can move relative to the cover connecting seat and an inflating cavity is formed between the movable cover and the movable cover, when the movable cover moves back and forth relative to the cover connecting seat, air in the inflating cavity can enter the inner cavity of the container body in a one-way mode, then the inner cavity of the container body is inflated and pressurized, and the solution in the inner cavity of the container body can be pressed out through inflation.

Description

Quantitative pumping liquid container

[ field of technology ]

The invention relates to a packaging container, in particular to a quantifiable pump-out liquid container.

[ background Art ]

In the prior art, some containers are inflated and discharged in an inflation mode, so that a corresponding inflation cover assembly is required to be installed on the mouth of the container, and the existing containers with the inflation cover assemblies are quite large, but have the defect that the inflation and discharge cannot be quantitatively regulated. So that it is inconvenient for people to use.

The invention is developed to solve the problems in the prior art.

[ invention ]

The technical problem to be solved by the invention is to provide a quantifiable pump-out liquid container, wherein a pump-out cover component is connected to the mouth part of a container body; the inflating cover assembly comprises a cover connecting seat and a movable cover, wherein the movable cover can move relative to the cover connecting seat and an inflating cavity is formed between the movable cover and the movable cover, when the movable cover moves back and forth relative to the cover connecting seat, air in the inflating cavity can enter the inner cavity of the container body in a one-way mode, then the inner cavity of the container body is inflated and pressurized, and the solution in the inner cavity of the container body can be pressed out through inflation.

In order to solve the above technical problems, the quantitatively adjustable pumping-out container of the present invention comprises a container body 1, wherein an pumping-out cover assembly 2 for pumping out air from an inner cavity of the container body 1 is connected to an upper port portion of the container body 1, the pumping-out cover assembly 2 comprises a cover connecting seat 201 and a movable cover 202, the cover connecting seat 201 is opened up and down and has a lower opening connected to an opening portion of the container body 1, the movable cover 202 is movably connected to an upper opening portion of the cover connecting seat 201, a piston ring 203 in slidable sealing contact is disposed between the cover connecting seat 201 and the movable cover 202, an air-filling chamber 204 is formed after the cover connecting seat 201 is connected to the movable cover 202, a first one-way valve 205 for allowing air in the air-filling chamber 204 to enter the inner cavity of the container body 1 in a unidirectional manner when the movable cover 202 moves relative to the cover connecting seat 201 is provided, a quantitative adjusting mechanism 3 for restricting a movable stroke of the movable cover 201 relative to the cover connecting seat to adjust a volume change of the compressed air-filling chamber 204 is provided on the cover connecting seat 201, and the inner cavity 1 is also communicated with the liquid outlet assembly 4 is provided between the container body 1 and the container body 1.

The quantitative adjusting mechanism 3 is arranged on the cover connecting seat 201, the quantitative adjusting mechanism 3 comprises an adjusting thread 31 arranged on the cover connecting seat 201, and an adjusting ring 32 which can abut against the movable cover 202 to limit the movable cover 202 to move downwards when the movable cover 202 moves downwards relative to the cover connecting seat 201 is connected to the adjusting thread 31.

Or an inflation liquid container capable of being quantitatively adjusted as described above, the quantitative adjusting mechanism 3 is arranged on the movable cover 202, the quantitative adjusting mechanism 3 comprises an adjusting threaded hole 33 arranged on the movable cover 202, and the adjusting threaded hole 33 is connected with an adjusting stud 34 which can abut against the bottom of the inflation chamber 204 to limit the movable cover 202 to move downwards when the movable cover 202 moves downwards relative to the cover connecting seat 201.

Or an inflation liquid container capable of being quantitatively adjusted as described above, the quantitative adjusting mechanism 3 is arranged on the movable cover 202, the quantitative adjusting mechanism 3 comprises an adjusting thread 31 arranged on the movable cover 202, and an adjusting ring 32 which can abut against the cover connecting seat 201 to limit the movable cover 202 to continuously move downwards when the movable cover 202 moves downwards relative to the cover connecting seat 201 is connected to the adjusting thread 31.

As described above, a partition 206 is disposed between the upper opening and the lower opening of the cover connecting seat 201, the partition 206 forms the bottom of the inflating chamber 204, and the first check valve 205 is disposed on the partition 206.

In the quantitatively adjustable pump-out liquid container, the movable cover 202 is provided with the air-filling hole 5.

In the quantitatively adjustable pump-out liquid container, the elastic member 6 for automatically resetting the movable cover 202 relative to the cover connecting seat 201 is disposed in the inflation chamber 204.

The elastic member 6 is a spring plate, the upper end of the spring plate is connected with the movable cover 202, and the lower end of the spring plate always abuts against the inflation chamber 204.

The pumping liquid container with quantitative adjustment function as described above, the liquid outlet pipe assembly 4 comprises a liquid outlet nozzle 41 arranged on the cover connecting seat 201, and a pipe 42 extending into the inner cavity of the container body 1 is connected to the inner end of the liquid outlet nozzle 41.

Alternatively, a quantitatively adjustable pump-out container as described above, the pump-out conduit assembly 4 comprises a conduit 42 provided at the bottom of the body 1 of the container 5.

Alternatively, as described above, the pump-out liquid container with quantitative adjustment is provided, the liquid outlet pipe assembly 4 includes a liquid outlet nozzle 41 disposed outside the container body 1, and the inner end of the liquid outlet nozzle 41 is connected with a pipe 42 extending toward the bottom of the inner cavity of the container body 1.

Compared with the prior art, the quantitatively adjustable pumping-out liquid container has the following advantages:

1. the container of the invention is provided with the quantitative adjusting mechanism on the movable cover or the cover connecting seat, thereby limiting the movable travel of the movable cover relative to the cover connecting seat and controlling the quantity of the gas in the air charging chamber entering the inner cavity of the container body, so that the solution with corresponding volume can be quantitatively extruded.

2. The container is particularly suitable for filling carbonated beverage, and when people unseal the container and do not use the container, the inner cavity of the container body can be inflated through the inflating cover assembly, so that the container has high air pressure intensity, and the overflow of carbon dioxide in the solution is avoided, so that the preservation quality is ensured.

3. The movable cover is provided with the air filling hole, when the movable cover is used, a user plugs the air filling hole by hands and presses the movable cover downwards, air in the air filling cavity can enter the inner cavity of the container body in a unidirectional manner, and when the movable cover is reset, the air filling hole is opened by the hands of the user, so that external air can rapidly enter the air filling cavity, and the movable cover has the characteristics of high efficiency in inflation and liquid discharging.

4. The elastic piece is arranged in the inflation cavity, the movable cover can be automatically reset relative to the cover connecting seat, and the inflatable inflation cavity has the characteristics of convenience in use and labor saving.

[ description of the drawings ]

The invention is described in further detail below with reference to the attached drawing figures, wherein:

FIG. 1 is a schematic perspective view of a first embodiment of the present invention;

FIG. 2 is a cross-sectional view of a 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 cross-sectional view of a third embodiment of the present invention;

FIG. 5 is a cross-sectional view of a fourth embodiment of the present invention;

FIG. 6 is a cross-sectional view of a fifth embodiment of the present invention;

FIG. 7 is a cross-sectional view of a sixth embodiment of the present invention;

FIG. 8 is a cross-sectional view of a seventh embodiment of the present invention;

fig. 9 is a cross-sectional view of an eighth embodiment of the present invention.

[ detailed description ] of the invention

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1-9, the quantitatively adjustable pump-out liquid container of the present invention comprises a container body 1, the container body 1 has a shape other than a conventional container bottle body shape, the mouth of the container body 1 is connected with a pump-out cover assembly 2 for pumping air into the inner cavity of the container body 1, the mouth of the container body 1 can be arranged at the side, top or bottom according to the requirement, the pump-out cover assembly 2 comprises a cover connecting seat 201 and a movable cover 202, the upper opening and the lower opening of the cover connecting seat 201 are connected with the mouth of the container body 1, the movable cover 202 can be movably connected with the upper opening of the cover connecting seat 201, a piston ring 203 which can be in sliding sealing contact is arranged between the cover connecting seat 201 and the movable cover 202, when the movable cover moves downwards relative to the cover connecting seat to compress the pump-out chamber, the piston ring makes the movable cover and the cover connecting seat to be in sliding contact with each other, when the movable cover resets, the outside air can enter the inner cavity 204 through a gap between the piston ring and the movable cover connecting seat 201 or the movable cover 202 to be in compression chamber 204, and the pump-out chamber 1 is further connected with the pump-out chamber 1 through a one-way valve 204 which can be in a compression valve 1, and a one-way valve 204 is arranged between the movable cover 1 and the adjustable valve body 1, and the pump-out chamber is further connected with the adjustable cavity 1, and the pump-out chamber 204 is connected with the adjustable cavity 1, when the adjustable valve is provided with the adjustable cavity, and the pump-out chamber 1. Therefore, the quantitative adjusting mechanism is arranged on the movable cover or the cover connecting seat, so that the movable travel of the movable cover relative to the cover connecting seat can be limited, and the amount of the gas in the air inflation cavity entering the inner cavity of the container body is controlled, so that the solution with corresponding volume can be quantitatively extruded.

As shown in fig. 1-3, the quantitative adjusting mechanism 3 is disposed on the cover connecting seat 201, the quantitative adjusting mechanism 3 includes adjusting threads 31 disposed on the cover connecting seat 201, the adjusting threads 31 are connected with adjusting rings 32 which can abut against the movable cover 202 to limit the movable cover 202 to move downwards when the movable cover 202 moves downwards relative to the cover connecting seat 201, the adjusting rings 32 have internal threads matched with the adjusting threads, the stroke of the movable cover moving downwards can be increased or reduced by rotating the adjusting rings, scale marks can be correspondingly disposed on the side surface of the cover connecting seat 201, and a user can derive quantitative solution from the liquid outlet conduit assembly by rotating the adjusting rings to different scale mark positions according to needs when the movable cover is pressed downwards.

As shown in fig. 6-9, the quantitative adjusting mechanism 3 is disposed on the movable cover 202, the quantitative adjusting mechanism 3 includes an adjusting threaded hole 33 disposed on the movable cover 202, the adjusting threaded hole 33 is connected with an adjusting stud 34 that can abut against the bottom of the inflatable chamber 204 to limit the movable cover 202 to move downward when the movable cover 202 moves downward relative to the cover connecting seat 201, the lower end of the adjusting stud 34 is correspondingly changed from the bottom of the inflatable chamber by rotating the adjusting stud 34, so that the downward movement stroke of the movable cover can be increased or reduced, scale marks can be correspondingly disposed on the side surface of the adjusting stud 34, and a user can derive a quantitative solution from the liquid outlet conduit assembly by rotating the adjusting stud 34 to different scale mark positions according to needs when the movable cover is pressed downward.

As shown in fig. 4-5, the quantitative adjustment mechanism 3 is provided on the movable cover 202, the quantitative adjustment mechanism 3 includes an adjustment screw thread 31 provided on the movable cover 202, and an adjustment ring 32 that can abut against the cover connection seat 201 to limit the continued downward movement of the movable cover 202 when the movable cover 202 moves downward relative to the cover connection seat 201 is connected to the adjustment screw thread 31. The adjusting ring 32 has internal threads matching with the adjusting threads, so that the downward movement stroke of the movable cover can be increased or reduced by rotating the adjusting ring, scale marks can be correspondingly arranged on the side surface of the movable cover 202, and a user can guide out quantitative solution from the liquid outlet conduit assembly by rotating the adjusting ring to different scale mark positions according to the needs when the movable cover is pressed down.

To facilitate the installation of the first check valve, a partition 206 is disposed between the upper and lower openings of the cover connection seat 201, and the partition 206 forms the bottom of the inflation chamber 204.

As shown in fig. 1-5, the movable cover 202 is provided with an air-filling hole 5, and when in use, a user blocks the air-filling hole by hand and presses the movable cover downwards, air in the air-filling cavity can enter the inner cavity of the container body in one way, and when the movable cover resets, the hand of the user opens the air-filling hole, so that external air can quickly enter the air-filling cavity, and the air-filling device has the characteristics of high efficiency in air inflation and liquid discharging.

As shown in fig. 5, an elastic member 6 for automatically resetting the movable cover 202 relative to the cover connecting seat 201 is provided in the inflation chamber 204. The elastic piece is arranged in the inflation cavity, the movable cover can be automatically reset relative to the cover connecting seat, and the inflatable inflation cavity has the characteristics of convenience in use and labor saving.

The elastic member 6 is a spring piece, the upper end of the spring piece is connected with the movable cover 202, and the lower end of the spring piece always abuts against the inflation chamber 204. The middle of the bottom of the inflation chamber 204 is convex upwards, and in an initial state, the lower end of the spring piece always abuts against the convex upper surface of the bottom of the inflation chamber 204, and when the movable cover is pressed downwards, the lower end of the spring piece deviates from the convex bottom of the inflation chamber 204 and slides outwards. When the user releases, the movable cover automatically resets under the action of the spring piece.

As shown in fig. 1, 2 and 6, the liquid outlet pipe assembly 4 comprises a liquid outlet nozzle 41 arranged on the cover connecting seat 201, and a pipe 42 extending into the inner cavity of the container body 1 is connected to the inner end of the liquid outlet nozzle 41. When the movable cover inflates the inner cavity of the container body reciprocally, the solution in the inner cavity of the container body enters the guide pipe first and then flows out from the liquid outlet nozzle.

As shown in fig. 3, 4, 7 and 8, the tapping duct assembly 4 comprises a duct 42 provided at the bottom of the body 1 of the container 5. When the movable cover inflates the inner cavity of the container body reciprocally, the solution in the inner cavity of the container body flows out of the guide pipe from the bottom.

As shown in fig. 5 and 9, the liquid outlet pipe assembly 4 includes a liquid outlet nozzle 41 disposed outside the container body 1, a pipe 42 extending toward the bottom of the inner cavity of the container body 1 is connected to the inner end of the liquid outlet nozzle 41, and can be integrally connected with the container body, when the movable cover inflates the inner cavity of the container body reciprocally, the solution in the inner cavity of the container body enters the pipe first and then flows out from the liquid outlet nozzle.

Claims

1. A quantifiable pump-out liquid container, characterized in that: the quantitative liquid dispensing device comprises a container body (1), wherein the mouth part of the container body (1) is connected with an inflation cover assembly (2) for inflating the inner cavity of the container body (1), the inflation cover assembly (2) comprises a cover connecting seat (201) and a movable cover (202), the upper opening and the lower opening of the cover connecting seat (201) are connected with the mouth part of the container body (1), the movable cover (202) can be movably connected with the upper opening of the cover connecting seat (201), a piston ring (203) which can be in sliding sealing contact is arranged between the cover connecting seat (201) and the movable cover (202), an inflation cavity (204) is formed after the cover connecting seat (201) is connected with the movable cover (202), a first one-way valve (205) which is used for enabling gas in the inflation cavity (204) to enter the inner cavity of the container body (1) in a one-way manner when the movable cover (202) moves relative to the cover connecting seat (201) is arranged between the inflation cavity (204), the cover connecting seat (201) or the movable cover (202) is provided with a piston ring (203) which can be in sliding sealing contact, and a liquid outlet volume adjusting mechanism (4) is further communicated with the inner cavity (1) by adjusting mechanism which can be used for adjusting the volume of the movable cover (3);

a partition plate (206) is arranged between the upper opening and the lower opening of the cover connecting seat (201), the partition plate (206) forms the bottom of the inflating cavity (204), and the first one-way valve (205) is arranged on the partition plate (206);

the movable cover (202) is provided with an air supplementing hole (5);

an elastic piece (6) for automatically resetting the movable cover (202) relative to the cover connecting seat (201) is arranged in the inflation cavity (204);

the elastic piece (6) is a spring piece, the upper end of the spring piece is connected with the movable cover (202), and the lower end of the spring piece always props against the inflation cavity (204).

2. The quantitatively-pumping liquid container according to claim 1, characterized in that the quantitative adjusting mechanism (3) is arranged on the cover connecting seat (201), the quantitative adjusting mechanism (3) comprises an adjusting thread (31) arranged on the cover connecting seat (201), and an adjusting ring (32) which can abut against the movable cover (202) to limit the movable cover (202) to move downwards continuously when the movable cover (202) moves downwards relative to the cover connecting seat (201) is connected to the adjusting thread (31).

3. The quantitatively-pumping liquid container according to claim 1, characterized in that the quantitative adjusting mechanism (3) is arranged on the movable cover (202), the quantitative adjusting mechanism (3) comprises an adjusting threaded hole (33) arranged on the movable cover (202), and the adjusting threaded hole (33) is connected with an adjusting stud (34) which can abut against the bottom of the inflating chamber (204) to limit the movable cover (202) to move downwards when the movable cover (202) moves downwards relative to the cover connecting seat (201).

4. The quantitative pump-out liquid container according to claim 1, characterized in that the quantitative adjusting mechanism (3) is arranged on the movable cover (202), the quantitative adjusting mechanism (3) comprises an adjusting screw thread (31) arranged on the movable cover (202), and an adjusting ring (32) which can abut against the cover connecting seat (201) to limit the movable cover (202) to move downwards continuously when the movable cover (202) moves downwards relative to the cover connecting seat (201) is connected to the adjusting screw thread (31).

5. A quantifiable pump-up fluid container according to any one of claims 1-4, characterized in that the fluid conduit assembly (4) comprises a fluid outlet nozzle (41) arranged on the cap connection seat (201), the inner end of the fluid outlet nozzle (41) being connected with a conduit (42) extending into the inner cavity of the container body (1).

6. A quantifiable pump-out vessel according to any one of claims 1-4, characterized in that the pump-out conduit assembly (4) comprises a conduit (42) arranged at the bottom of the vessel body (1).

7. A quantifiable pump-up tapping reservoir as claimed in any one of claims 1-4, characterized in that the tapping conduit assembly (4) comprises a tapping spout (41) arranged outside the reservoir body (1), the inner end of the tapping spout (41) being connected with a conduit (42) extending towards the bottom of the inner cavity of the reservoir body (1).