CN110641815A - Quantitative container - Google Patents

Abstract

The invention discloses a quantitative container, which comprises a container body, wherein a movable plug which divides an inner cavity of the container body into a liquid storage cavity and a quantitative cavity is movably arranged in the container body, the liquid storage cavity is positioned at the upper side of the quantitative cavity, a liquid outlet channel communicated with the quantitative cavity is arranged on the container body, a rod column which is used for acting the movable plug to move up and down relative to the container body is arranged in the liquid storage cavity, the upper part of the rod column is connected with a container sealing cover, the lower part of the rod column is connected with the movable plug, a liquid outlet sleeve which is used for communicating the liquid storage cavity with the quantitative cavity is arranged at the bottom of the liquid storage cavity, and a blocking sleeve which is used in; according to the invention, the identification scale for displaying the volume of the liquid in the quantitative cavity is arranged on the container body, and the user is reminded of controlling the volume of the liquid in the liquid storage cavity to flow into the quantitative cavity according to actual needs through the identification scale, so that the desired volume is obtained, and the container has the advantage of convenience in use and operation.

Description

Quantitative container

[ technical field ] A method for producing a semiconductor device

The invention relates to a container, in particular to a quantitative container.

[ background of the invention ]

In daily life, there are many occasions where it is necessary to use a certain amount or a limited amount of liquid in order to achieve a certain effect or purpose. For example: the dosage of the oral liquid medicine is controlled, the dosage of the laundry detergent is controlled once, the dosage of the female care solution is controlled once, and the dosage of the edible oil is controlled for healthy life.

In the prior art, the liquid filled in the inner cavity of the container can not be quantitatively poured out for use according to the requirements of a user, so that the user can take more or less liquid when taking out the liquid, the problems of resource waste or poor efficiency and the like are caused, and the inconvenience is caused for the user; in addition, at present, a user usually puts liquid into a bowl or a container without scales for convenient operation, and scoops the liquid with a spoon when using the liquid, so that the dosage is very inaccurate; or for the convenience of operation, the bowl or container filled with liquid is not covered by a cover, and is easily polluted by dust or mosquitoes.

To this end, the present invention addresses the deficiencies of the prior art described above and further improves upon the problems with existing containers.

[ summary of the invention ]

The invention aims to provide a quantitative container which can quantitatively pour out liquid with required volume according to actual requirements.

In order to solve the above technical problems, the present invention provides a quantitative container, comprising a hollow container body 100, wherein a movable plug 110 for dividing an inner cavity of the container body 100 into a liquid storage cavity 200 and a quantitative cavity 300 is movably arranged in the container body 100, the liquid storage cavity 200 is located at an upper side of the quantitative cavity 300, a container cover 120 for covering the liquid storage cavity 200 is connected to an opening of the container body 100, and a liquid outlet channel 130 for pouring out liquid in the quantitative cavity 300 is further arranged on the container body 100; a rod column 150 for acting the movable plug 110 to move up and down relative to the container body 100 is arranged in the container body 100 and positioned in the liquid storage cavity 200, the upper part of the rod column 150 is connected with the container sealing cover 120, the lower part of the rod column 150 is connected with the movable plug 110, a liquid outlet sleeve 210 for communicating the liquid storage cavity 200 with the quantitative cavity 300 is arranged at the bottom of the liquid storage cavity 200 and positioned on the movable plug 110, and a sealing sleeve 310 for being matched with the liquid outlet sleeve 210 to use so as to communicate or isolate the liquid storage cavity 200 with the quantitative cavity 300 is arranged at the bottom in the quantitative cavity 300; initially, the lower part of the liquid outlet sleeve 210 is connected with the blocking sleeve 310 to isolate and block the liquid storage cavity 200 and the quantitative cavity 300; the upward movement of the direct or indirect action post 150 causes the movable plug 110 to move upward relative to the container body 100, so that the liquid outlet sleeve 210 is separated from the blocking sleeve 310, and the liquid in the liquid storage chamber 200 flows into the quantitative chamber 300.

The quantitative container is characterized in that the container cover 120 is provided with a container cover hole sleeve 121 for the upper part of the post 150 to penetrate through, and a post sealing ring 151 is arranged between the container cover hole sleeve 121 and the post 150.

The quantitative container is characterized in that the container sealing cover 120 is provided with a container sealing cover hole sleeve 121 for the upper part of the rod column 150 to penetrate through, and the container sealing cover hole sleeve 121 is connected with the rod column 150 through threads; the movable plug 110 can move upwards relative to the container body 100 by rotating the rod 150, so that the liquid outlet sleeve 210 is separated from the blocking sleeve 310, and the liquid in the liquid storage cavity 200 flows into the quantitative cavity 300; the movable plug 110 can move downwards relative to the container body 100 by rotating the rod 150 reversely, so that the lower part of the liquid outlet sleeve 210 is connected with the blocking sleeve 310, and the liquid storage cavity 200 and the quantitative cavity 300 are isolated and blocked; alternatively, the rotating of the container cap 120 can move the rod 150 upward, so that the movable plug 110 moves upward relative to the container body 100, and further the liquid outlet sleeve 210 is separated from the blocking sleeve 310, so that the liquid in the liquid storage chamber 200 flows into the quantitative chamber 300; the container cover 120 is rotated reversely to indirectly connect the lower part of the liquid outlet sleeve 210 with the plugging sleeve 310, so as to isolate and plug the liquid storage chamber 200 from the quantitative chamber 300.

The quantitative container is characterized in that the container cover 120 is provided with a container cover hole sleeve 121 for the upper part of the post 150 to penetrate through, a post sealing ring 151 is arranged between the container cover hole sleeve 121 and the post 150, the upper part of the post 150 is connected with a post handle 152, and the free end of the post handle 152 penetrates through the upper edge of the opening of the container body 100 and is arranged outside the container body 100 for use; when the quantitative liquid storage device is used, the upper edge of the opening of the container body 100 is used as a supporting point, then the free end of the action rod column handle 152 is pressed downwards, so that the rod column 150 drives the movable plug 110 to move upwards relative to the container body 100, and further the liquid outlet sleeve 210 is separated from the blocking sleeve 310, and liquid in the liquid storage cavity 200 flows into the quantitative cavity 300.

The quantitative container is characterized in that a movable plug sealing ring 111 is arranged between the inner wall of the container body 100 and the movable plug 110.

The quantitative container is characterized in that a sleeve sealing ring 220 is arranged between the liquid outlet sleeve 210 and the blocking sleeve 310.

The quantitative container is characterized in that the container cover 120 is provided with a channel cover 131 for covering the liquid outlet end of the liquid outlet channel 130.

The quantitative container is characterized in that the container body 100 is provided with a mark scale 140 for displaying the volume of the liquid in the quantitative cavity 300.

The above-mentioned quantitative container is characterized in that the upper part of the container body 100 is connected with a holding part 2 for a user to use.

The invention also provides a quantitative container, which comprises a hollow container body 100, wherein a movable plug 110 for separating an upper cavity of the container body 100 into a liquid storage cavity 200 and a quantitative cavity 300 is movably arranged in the container body 100, the liquid storage cavity 200 is positioned at the upper side of the quantitative cavity 300, a container sealing cover 120 for covering the liquid storage cavity 200 is connected to an opening of the container body 100, and a liquid outlet channel 130 for pouring out liquid in the quantitative cavity 300 is also arranged on the container body 100; the movable plug 110 is provided with a movable plug through hole 112 for communicating the liquid storage cavity 200 with the quantitative cavity 300, a rod column 150 with the upper part connected with the container sealing cover 120 is arranged in the container body 100 and positioned in the liquid storage cavity 200, the lower part of the rod column 150 penetrates through the movable plug through hole 112 and extends into the quantitative cavity 300, and a rod column sealing element 153 for sealing the movable plug through hole 112 and a rod column reverse buckle 154 for linking the movable plug 110 to move are respectively arranged on the rod column 150 and positioned on the upper side and the lower side of the movable plug through hole 112; initially, the stem sealing member 153 blocks the movable plug through hole 112 to isolate the liquid storage chamber 200 from the dosing chamber 300, and the stem barb 154 is separated from the underside of the movable plug 110; the direct or indirect action of the container cap 120 causes the stem 150 to move upward relative to the container body 100 such that the stem seal 153 disengages the plunger aperture 112, thereby allowing fluid from the reservoir 200 to flow into the dosing chamber 300 and causing the stem undercut 154 to abut the underside of the movable plunger 110 and move upward with the stem 150.

The quantitative container as described above is characterized in that the container body 100 is provided with a positioning hole sleeve 320 corresponding to the stem 150 at the inner bottom of the quantitative cavity 300.

The quantitative container is characterized in that a movable plug sealing ring 111 is arranged between the inner wall of the container body 100 and the movable plug 110.

The quantitative container is characterized in that the container cover 120 is further provided with a channel cover 131 for covering the liquid outlet end of the liquid outlet channel 130.

A dosing container as described above characterised in that a container closure handle 122 is attached to the container closure 120 for use by a user.

The quantitative container is characterized in that the container body 100 is provided with a mark scale 140 for displaying the volume of the liquid in the quantitative cavity 300.

The above-mentioned quantitative container is characterized in that the upper part of the container body 100 is connected with a holding part 2 for a user to use.

The invention also provides a quantitative container, which comprises a hollow container body 100, wherein a liquid storage cavity 200 is movably arranged on the container body 100, a quantitative cavity 300 is arranged in the container body 100 and positioned at the lower side of the liquid storage cavity 200, a container sealing cover 120 which is used for covering the liquid storage cavity 200 and is connected with the liquid storage cavity 200 is connected to the opening of the container body 100, and a liquid outlet channel 130 for pouring out liquid in the quantitative cavity 300 is also arranged on the container body 100; the bottom of the liquid storage cavity 200 is provided with a liquid outlet sleeve 210 for communicating the liquid storage cavity 200 with the quantitative cavity 300, and the bottom in the quantitative cavity 300 is provided with a blocking sleeve 310 for being matched with the liquid outlet sleeve 210 to enable the liquid storage cavity 200 to be communicated with or isolated from the quantitative cavity 300; initially, the lower part of the liquid outlet sleeve 210 is connected with the blocking sleeve 310 to isolate and block the liquid storage cavity 200 and the quantitative cavity 300; the container cover 120 directly or indirectly drives the liquid storage chamber 200 to move upward relative to the container body 100, so that the liquid outlet sleeve 210 is separated from the blocking sleeve 310, and the liquid in the liquid storage chamber 200 flows into the quantitative chamber 300.

The quantifying container is characterized in that a reservoir sealing ring 230 is arranged between the inner wall of the container body 100 and the reservoir 200.

The quantitative container is characterized in that a sleeve sealing ring 220 is arranged between the liquid outlet sleeve 210 and the blocking sleeve 310.

The quantitative container is characterized in that the container cover 120 is provided with a channel cover 131 for covering the liquid outlet end of the liquid outlet channel 130.

A dosing container as described above characterised in that a container closure handle 122 is attached to the container closure 120 for use by a user.

The quantitative container is characterized in that the upper part of the reservoir 200 is connected with a reservoir handle 240, and the free end of the reservoir handle 240 penetrates through the container body 100 and is arranged outside the container body 100 for use.

The quantitative container is characterized in that the upper part of the liquid storage cavity 200 extends upwards relative to the container body 100 to form a hand-held part 250 for use.

The quantitative container is characterized in that the container body 100 is provided with a mark scale 140 for displaying the volume of the liquid in the quantitative cavity 300.

The above-mentioned quantitative container is characterized in that the upper part of the container body 100 is connected with a holding part 2 for a user to use.

The invention provides a quantitative container, which comprises a hollow container body 100, wherein a liquid storage cavity 200 is movably arranged in the container body 100, a quantitative cavity 300 is arranged in the container body 100 and positioned at the lower side of the liquid storage cavity 200, a container sealing cover 120 which is used for covering the liquid storage cavity 200 and is connected with the liquid storage cavity 200 is connected to an opening of the container body 100, and a liquid outlet channel 130 for pouring out liquid in the quantitative cavity 300 is also arranged on the container body 100; the bottom of the liquid storage cavity 200 is provided with a liquid outlet sleeve 210 for communicating the liquid storage cavity 200 with the quantitative cavity 300, and the bottom in the quantitative cavity 300 is provided with a sealing area 330 for being blocked by the liquid outlet sleeve 210 and an inclined area 340 for communicating the liquid outlet sleeve 210; initially, the lower portion of the liquid outlet sleeve 210 abuts against the sealing area 330 to seal the liquid storage chamber 200 and the quantitative chamber 300; the container cover 120 is directly or indirectly rotated to drive the liquid storage chamber 200 to rotate relative to the container body 100, so that the liquid outlet sleeve 210 rotates to the inclined area 340, and the liquid in the liquid storage chamber 200 flows into the quantitative chamber 300.

The quantifying container is characterized in that a reservoir sealing ring 230 is arranged between the inner wall of the container body 100 and the reservoir 200.

The quantitative container is characterized in that the container cover 120 is provided with a channel cover 131 for covering the liquid outlet end of the liquid outlet channel 130.

The quantitative container is characterized in that the container body 100 is provided with a mark scale 140 for displaying the volume of the liquid in the quantitative cavity 300.

The above-mentioned quantitative container is characterized in that the upper part of the container body 100 is connected with a holding part 2 for a user to use.

Compared with the prior art, the invention has the following advantages: according to the invention, the identification scale for displaying the volume of the liquid in the quantitative cavity is arranged on the container body, and the user is reminded of controlling the volume of the liquid in the liquid storage cavity to flow into the quantitative cavity according to actual needs through the identification scale, so that the desired volume is obtained, and the container has the advantage of convenience in use and operation.

[ description of the drawings ]

The following detailed description of embodiments of the invention is provided in conjunction with the appended drawings, in which:

FIG. 1 is a cross-sectional view of example 1 in accordance with one embodiment of the present invention;

FIG. 2 is a second cross-sectional view of embodiment 1 of the first embodiment of the present invention;

FIG. 3 is a cross-sectional view of one embodiment 2 of the present invention;

fig. 4 is a second cross-sectional view of embodiment 2 of the first embodiment of the present invention;

FIG. 5 is one of the cross-sectional views of example 3 in one embodiment of the invention;

fig. 6 is a second cross-sectional view of embodiment 3 of the first embodiment of the present invention;

FIG. 7 is one of cross-sectional views of example 4 in one embodiment of the invention;

fig. 8 is a second cross-sectional view of embodiment 4 of the first embodiment of the present invention;

FIG. 9 is a cross-sectional view of a second embodiment of the present invention;

FIG. 10 is a second cross-sectional view of an embodiment of the second aspect of the present invention;

FIG. 11 is a cross-sectional view of example 1 in a third embodiment of the present invention;

FIG. 12 is a cross-sectional view of example 2 in a third embodiment of the present invention;

FIG. 13 is a cross-sectional view of example 3 in a third embodiment of the present invention;

FIG. 14 is a cross-sectional view of example 4 in a third embodiment of the present invention;

FIG. 15 is a cross-sectional view of example 5 in a third embodiment of the present invention;

FIG. 16 is a cross-sectional view of example 6 in a third embodiment of the present invention;

FIG. 17 is a cross-sectional view of example 7 in a third embodiment of the present invention;

FIG. 18 is a cross-sectional view of example 8 in a third embodiment of the present invention;

FIG. 19 is one of cross-sectional views of a fourth embodiment of the present invention;

fig. 20 is a second cross-sectional view of a fourth embodiment of the present invention.

[ detailed description ] embodiments

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

Referring to fig. 1 to 20, there are four different embodiments of a quantitative container according to the present invention, each of which will be described in detail.

The first scheme is as follows: scheme one has 4 different embodiments.

As shown in fig. 1 to 8, a quantitative container according to a first embodiment of the present invention includes a hollow container body 100, a movable plug 110 for dividing an inner cavity of the container body 100 into a liquid storage cavity 200 and a quantitative cavity 300 is movably disposed in the container body 100, the liquid storage cavity 200 is located on an upper side of the quantitative cavity 300, a container cover 120 for covering the liquid storage cavity 200 is connected to an opening of the container body 100, and a liquid outlet channel 130 for pouring out liquid in the quantitative cavity 300 is further disposed on the container body 100; a rod column 150 for acting the movable plug 110 to move up and down relative to the container body 100 is arranged in the container body 100 and positioned in the liquid storage cavity 200, the upper part of the rod column 150 is connected with the container sealing cover 120, the lower part of the rod column 150 is connected with the movable plug 110, a liquid outlet sleeve 210 for communicating the liquid storage cavity 200 with the quantitative cavity 300 is arranged at the bottom of the liquid storage cavity 200 and positioned on the movable plug 110, and a sealing sleeve 310 for being matched with the liquid outlet sleeve 210 to use so as to communicate or isolate the liquid storage cavity 200 with the quantitative cavity 300 is arranged at the bottom in the quantitative cavity 300; initially, the lower part of the liquid outlet sleeve 210 is connected with the blocking sleeve 310 to isolate and block the liquid storage cavity 200 and the quantitative cavity 300; the upward movement of the direct or indirect action post 150 causes the movable plug 110 to move upward relative to the container body 100, so that the liquid outlet sleeve 210 is separated from the blocking sleeve 310, and the liquid in the liquid storage chamber 200 flows into the quantitative chamber 300. According to the invention, the identification scale for displaying the volume of the liquid in the quantitative cavity is arranged on the container body, and the user is reminded of controlling the volume of the liquid in the liquid storage cavity to flow into the quantitative cavity according to actual needs through the identification scale, so that the desired volume is obtained, and the container has the advantage of convenience in use and operation.

As shown in fig. 1 and 2, embodiment 1 of the first embodiment is different from the first embodiment in that, in order to prevent the container sealing hole sleeve from directly contacting and rubbing with the rod, so as to prolong the service life of the two, make the rod smoothly extend and retract relative to the container sealing hole sleeve, and ensure the sealing performance of the liquid storage cavity, a container sealing hole sleeve 121 for the upper portion of the rod 150 to penetrate through is provided on the container sealing cover 120, and a rod sealing ring 151 is provided between the container sealing hole sleeve 121 and the rod 150.

As shown in fig. 3 and 4, embodiment 2 of the first solution is different from the first solution in that a container cover hole sleeve 121 for the upper portion of the post 150 to penetrate through is provided on the container cover 120, and the container cover hole sleeve 121 and the post 150 are connected by a thread; the movable plug 110 can move upwards relative to the container body 100 by rotating the rod 150, so that the liquid outlet sleeve 210 is separated from the blocking sleeve 310, and the liquid in the liquid storage cavity 200 flows into the quantitative cavity 300; the movable plug 110 can be moved downward relative to the container body 100 by rotating the rod 150 in the opposite direction, so that the lower portion of the liquid outlet sleeve 210 is connected to the blocking sleeve 310, and the liquid storage chamber 200 is blocked from the quantitative chamber 300.

As shown in fig. 5 and 6, embodiment 3 of the first solution is different from the first solution in that a container cover hole sleeve 121 for the upper portion of the post 150 to penetrate through is provided on the container cover 120, and the container cover hole sleeve 121 and the post 150 are connected by a thread; the rotating of the container cover 120 can move the rod 150 upwards, so that the movable plug 110 moves upwards relative to the container body 100, and further the liquid outlet sleeve 210 is separated from the blocking sleeve 310, so that the liquid in the liquid storage chamber 200 flows into the quantitative chamber 300; the container cover 120 is rotated reversely to indirectly connect the lower part of the liquid outlet sleeve 210 with the plugging sleeve 310, so as to isolate and plug the liquid storage chamber 200 from the quantitative chamber 300.

Fig. 7 and 8 show an embodiment 4 of the first solution, which is different from the first solution in that a container cover hole sleeve 121 for the upper portion of a post 150 to penetrate through is arranged on the container cover 120, a post sealing ring 151 is arranged between the container cover hole sleeve 121 and the post 150, a post handle 152 is connected to the upper portion of the post 150, and the free end of the post handle 152 passes through the upper edge of the opening of the container body 100 and is arranged outside the container body 100 for use; when in use, the upper edge of the opening of the container body 100 is used as a supporting point, and then the free end of the post handle 152 is pressed downwards to enable the post 150 to drive the movable plug 110 to move upwards relative to the container body 100, so that the liquid outlet sleeve 210 is separated from the blocking sleeve 310, and the liquid in the liquid storage cavity 200 flows into the quantitative cavity 300; when the liquid reaches the required dosage, the rod handle is loosened.

As shown in fig. 1 to 8, in order to ensure the liquid storage chamber and the quantitative chamber are sealed and isolated, and to enable the movable plug to smoothly move relative to the container body and prevent the movable plug from directly contacting and rubbing with the container body, so as to prolong the service life, a movable plug sealing ring 111 is disposed between the inner wall of the container body 100 and the movable plug 110.

As shown in fig. 1-8, before or after use, in order to prevent the liquid in the liquid storage chamber from flowing into the quantitative chamber from the liquid outlet sleeve, and to make the liquid outlet sleeve and the plugging sleeve stably and hermetically connected, a sleeve sealing ring 220 is disposed between the liquid outlet sleeve 210 and the plugging sleeve 310.

As shown in fig. 1-8, before or after use, in order to prevent dust or mosquitoes from entering from the liquid outlet end of the liquid outlet channel and ensure the safety of use, a channel cover 131 for covering the liquid outlet end of the liquid outlet channel 130 is arranged on the container cover 120.

As shown in fig. 1 to 8, in order to facilitate the user to pour out the liquid quantitatively, the container body 100 is provided with a mark scale 140 for displaying the volume of the liquid in the quantitative cavity 300.

As shown in fig. 1 to 8, a grip 2 for a user is connected to an upper portion of the container body 100 to facilitate the user's use and pouring.

As shown in fig. 1 to 8, the handle 2 is disposed on the container body 100 opposite to the liquid outlet channel 130 for the user to pour out the liquid.

Scheme II:

as shown in fig. 9 and 10, a quantitative container according to the second embodiment of the present invention includes a hollow container body 100, a movable plug 110 for dividing an upper cavity of the container body 100 into a liquid storage cavity 200 and a quantitative cavity 300 is movably disposed in the container body 100, the liquid storage cavity 200 is located on the upper side of the quantitative cavity 300, a container cover 120 for covering the liquid storage cavity 200 is connected to an opening of the container body 100, and a liquid outlet channel 130 for pouring out liquid in the quantitative cavity 300 is further disposed on the container body 100; the movable plug 110 is provided with a movable plug through hole 112 for communicating the liquid storage cavity 200 with the quantitative cavity 300, a rod column 150 with the upper part connected with the container sealing cover 120 is arranged in the container body 100 and positioned in the liquid storage cavity 200, the lower part of the rod column 150 penetrates through the movable plug through hole 112 and extends into the quantitative cavity 300, and a rod column sealing element 153 for sealing the movable plug through hole 112 and a rod column reverse buckle 154 for linking the movable plug 110 to move are respectively arranged on the rod column 150 and positioned on the upper side and the lower side of the movable plug through hole 112; initially, the stem sealing member 153 blocks the movable plug through hole 112 to isolate the liquid storage chamber 200 from the dosing chamber 300, and the stem barb 154 is separated from the underside of the movable plug 110; the direct or indirect action of the container cap 120 causes the stem 150 to move upward relative to the container body 100 such that the stem seal 153 disengages the plunger aperture 112, thereby allowing fluid from the reservoir 200 to flow into the dosing chamber 300 and causing the stem undercut 154 to abut the underside of the movable plunger 110 and move upward with the stem 150. According to the invention, the identification scale for displaying the volume of the liquid in the quantitative cavity is arranged on the container body, and the user is reminded of controlling the volume of the liquid in the liquid storage cavity to flow into the quantitative cavity according to actual needs through the identification scale, so that the desired volume is obtained, and the container has the advantage of convenience in use and operation.

As shown in fig. 9 and 10, a positioning hole sleeve 320 is provided on the container body 100 and on the inner bottom of the quantitative cavity 300 to correspond to the stem 150 in order to prevent the lower portion of the stem from being misaligned before or after use, so that the stem and the positioning hole sleeve are stably connected.

As shown in fig. 9 and 10, in order to ensure the liquid storage chamber and the quantitative chamber to be sealed and isolated, and to enable the movable plug to smoothly move relative to the container body and prevent the movable plug from directly contacting and rubbing with the container body, so as to prolong the service life, a movable plug sealing ring 111 is disposed between the inner wall of the container body 100 and the movable plug 110.

As shown in fig. 9 and 10, before or after use, in order to prevent dust or mosquitoes from entering from the liquid outlet end of the liquid outlet channel and ensure safe use, a channel cover 131 for covering the liquid outlet end of the liquid outlet channel 130 is further disposed on the container cover 120.

As shown in fig. 9 and 10, in order to provide a plurality of usage modes, a container closure handle 122 for a user is connected to the container closure 120, and a free end of the container closure handle 122 is arranged on the upper side of the holding part 2 through the top end of the holding part 2 for use. When in use, the supporting point is arranged by the contact point at the top end of the holding part or the supporting part arranged between the handle of the container sealing cover and the holding part; the user holds the holding part and presses the free end of the handle of the container cover to one side of the holding part along the supporting point, that is, the lower side moves to enable the rod 150 to move upwards relative to the container body 100, so that the rod sealing piece 153 is separated from the movable plug through hole 112, the liquid in the liquid storage cavity 200 flows into the quantitative cavity 300, and the rod back-off 154 is abutted against the lower side of the movable plug 110 to enable the rod to move upwards along with the rod 150; when the required dosage is reached, the container sealing cover handle 122 is loosened.

As shown in fig. 9 and 10, in order to facilitate the user to pour out the liquid quantitatively, the container body 100 is provided with a mark scale 140 for displaying the volume of the liquid in the quantitative cavity 300.

As shown in fig. 9 and 10, a grip 2 for a user is connected to an upper portion of the container body 100 to facilitate the user's use and pouring.

As shown in fig. 9 and 10, the handle 2 is provided on the container body 100 so as to face the liquid outlet passage 130 for the user to pour out the liquid.

The third scheme is as follows: scheme three has 8 different specific embodiments.

As shown in fig. 11-18, a quantitative container according to a third embodiment of the present invention includes a hollow container body 100, a liquid storage cavity 200 is movably disposed on the container body 100, a quantitative cavity 300 is disposed in the container body 100 and below the liquid storage cavity 200, a container cover 120 for covering the liquid storage cavity 200 and connecting with the liquid storage cavity 200 is connected to an opening of the container body 100, and a liquid outlet channel 130 for pouring out liquid in the quantitative cavity 300 is further disposed on the container body 100; the bottom of the liquid storage cavity 200 is provided with a liquid outlet sleeve 210 for communicating the liquid storage cavity 200 with the quantitative cavity 300, and the bottom in the quantitative cavity 300 is provided with a blocking sleeve 310 for being matched with the liquid outlet sleeve 210 to enable the liquid storage cavity 200 to be communicated with or isolated from the quantitative cavity 300; initially, the lower part of the liquid outlet sleeve 210 is connected with the blocking sleeve 310 to isolate and block the liquid storage cavity 200 and the quantitative cavity 300; the container cover 120 directly or indirectly drives the liquid storage chamber 200 to move upward relative to the container body 100, so that the liquid outlet sleeve 210 is separated from the blocking sleeve 310, and the liquid in the liquid storage chamber 200 flows into the quantitative chamber 300. According to the invention, the identification scale for displaying the volume of the liquid in the quantitative cavity is arranged on the container body, and the user is reminded of controlling the volume of the liquid in the liquid storage cavity to flow into the quantitative cavity according to actual needs through the identification scale, so that the desired volume is obtained, and the container has the advantage of convenience in use and operation.

As shown in fig. 11 to 18, in order to ensure the liquid storage chamber and the quantitative chamber to be sealed and isolated, and to enable the liquid storage chamber to smoothly move relative to the container body and prevent the liquid storage chamber from directly contacting and rubbing with the container body, so as to prolong the service life, a liquid storage chamber sealing ring 230 is disposed between the inner wall of the container body 100 and the liquid storage chamber 200.

As shown in fig. 11-18, before or after use, in order to prevent the liquid in the liquid storage chamber from flowing into the quantitative chamber from the liquid outlet sleeve, and to make the liquid outlet sleeve and the blocking sleeve stably and hermetically connected, a sleeve sealing ring 220 is disposed between the liquid outlet sleeve 210 and the blocking sleeve 310.

As shown in fig. 11-18, before or after use, in order to prevent dust or mosquitoes from entering from the liquid outlet end of the liquid outlet channel and ensure the safety of use, a channel cover 131 for covering the liquid outlet end of the liquid outlet channel 130 is arranged on the container cover 120.

Fig. 11 shows embodiment 1 of the third embodiment, which is different from the third embodiment in that the container cover 120 is connected to the reservoir 200 by a snap-fit connection.

Fig. 12 shows embodiment 2 of the third embodiment, which is different from the third embodiment in that the container cover 120 is connected to the reservoir 200 by a snap-fit connection, and the channel cover 131 is connected to the container cover 120 by a hinge connection.

Fig. 13 shows embodiment 3 of the third embodiment, which is different from the third embodiment in that the container cover 120 is connected to the reservoir 200 by a screw thread.

Fig. 14 shows a third embodiment 4, which is different from the third embodiment in that a container cover handle 122 is connected to the container cover 120, the free end of the container cover handle 122 is disposed on the upper side of the holding portion 2 for use, and the container cover handle 122 is detachably connected to the container cover 120.

Fig. 15 shows a third embodiment 5, which is different from the third embodiment in that a container cover handle 122 is connected to the container cover 120, the free end of the container cover handle 122 is disposed on the upper side of the holding part 2 for use, and the container cover handle 122 is integrally formed with the container cover 120.

Fig. 16 shows a third embodiment 6, which is different from the third embodiment in that a container cover handle 122 for a user is connected to the container cover 120, and the container cover handle 122 is connected to the top of the container cover 120 and detachably connected thereto.

As shown in fig. 17, the embodiment 7 of the third embodiment is different from the third embodiment in that a reservoir handle 240 is connected to an upper portion of the reservoir 200, and a free end of the reservoir handle 240 penetrates through the container body 100 and is disposed outside the container body 100 for use.

As shown in fig. 18, embodiment 8 of the third embodiment is different from the third embodiment in that a hand-held portion 250 is formed at the upper portion of the reservoir 200 and extends upward relative to the container body 100 for use.

As shown in fig. 11 to 18, in order to facilitate the user to pour out the liquid quantitatively, the container body 100 is provided with a mark scale 140 for displaying the volume of the liquid in the quantitative cavity 300.

As shown in fig. 11 to 18, a grip 2 for a user is connected to an upper portion of the container body 100 to facilitate the user's use and pouring.

As shown in fig. 11 to 18, the handle 2 is disposed on the container body 100 opposite to the liquid outlet channel 130 for the user to pour out the liquid.

And the scheme is as follows:

as shown in fig. 19 and 20, the fourth quantitative container of the present invention includes a hollow container body 100, a liquid storage cavity 200 is movably disposed in the container body 100, a quantitative cavity 300 is disposed in the container body 100 and below the liquid storage cavity 200, a container cover 120 for covering the liquid storage cavity 200 and connecting with the liquid storage cavity 200 is connected to an opening of the container body 100, and a liquid outlet channel 130 for pouring out liquid in the quantitative cavity 300 is further disposed on the container body 100; the bottom of the liquid storage cavity 200 is provided with a liquid outlet sleeve 210 for communicating the liquid storage cavity 200 with the quantitative cavity 300, and the bottom in the quantitative cavity 300 is provided with a sealing area 330 for being blocked by the liquid outlet sleeve 210 and an inclined area 340 for communicating the liquid outlet sleeve 210; initially, the lower portion of the liquid outlet sleeve 210 abuts against the sealing area 330 to seal the liquid storage chamber 200 and the quantitative chamber 300; the container cover 120 is directly or indirectly rotated to drive the liquid storage chamber 200 to rotate relative to the container body 100, so that the liquid outlet sleeve 210 rotates to the inclined area 340, and the liquid in the liquid storage chamber 200 flows into the quantitative chamber 300. According to the invention, the identification scale for displaying the volume of the liquid in the quantitative cavity is arranged on the container body, and the user is reminded of controlling the volume of the liquid in the liquid storage cavity to flow into the quantitative cavity according to actual needs through the identification scale, so that the desired volume is obtained, and the container has the advantage of convenience in use and operation.

As shown in fig. 19 and 20, in order to ensure the liquid storage cavity and the quantitative cavity to be sealed and isolated, and to enable the liquid storage cavity to be smooth and prevent the liquid storage cavity from directly contacting and rubbing with the container body when moving relative to the container body, so as to prolong the service life, a liquid storage cavity sealing ring 230 is disposed between the inner wall of the container body 100 and the liquid storage cavity 200.

As shown in fig. 19 and 20, before or after use, in order to prevent dust or mosquitoes from entering the liquid outlet channel and ensure safe use, a channel cover 131 for covering the liquid outlet end of the liquid outlet channel 130 is arranged on the container cover 120.

As shown in fig. 19 and 20, in order to facilitate the user to pour out the liquid quantitatively, the container body 100 is provided with a mark scale 140 for displaying the volume of the liquid in the quantitative cavity 300.

As shown in fig. 19 and 20, a grip 2 for a user is connected to an upper portion of the container body 100 to facilitate the user's use and pouring.

As shown in fig. 19 and 20, the handle 2 is provided on the container body 100 so as to face the liquid outlet passage 130 for the user to pour the liquid.

Claims (24)

1. A quantitative container is characterized by comprising a hollow container body (100), wherein a movable plug (110) used for separating an inner cavity of the container body (100) into a liquid storage cavity (200) and a quantitative cavity (300) is movably arranged in the container body (100), the liquid storage cavity (200) is positioned at the upper side of the quantitative cavity (300), a container sealing cover (120) used for covering the liquid storage cavity (200) is connected to an opening of the container body (100), and a liquid outlet channel (130) used for pouring out liquid in the quantitative cavity (300) is further arranged on the container body (100); a rod column (150) used for acting the movable plug (110) to move up and down relative to the container body (100) is arranged in the container body (100) and positioned in the liquid storage cavity (200), the upper part of the rod column (150) is connected with the container sealing cover (120), the lower part of the rod column (150) is connected with the movable plug (110), a liquid outlet sleeve (210) used for communicating the liquid storage cavity (200) with the quantitative cavity (300) is arranged at the bottom of the liquid storage cavity (200) and positioned on the movable plug (110), and a blocking sleeve (310) used for being matched with the liquid outlet sleeve (210) to be used so as to enable the liquid storage cavity (200) to be communicated with or isolated from the quantitative cavity (300) is arranged at the inner bottom of the quantitative cavity (300; initially, the lower part of the liquid outlet sleeve (210) is connected with the blocking sleeve (310) to isolate and block the liquid storage cavity (200) and the quantitative cavity (300); when the direct or indirect action rod column (150) moves upwards, the movable plug (110) can move upwards relative to the container body (100), so that the liquid outlet sleeve (210) is separated from the blocking sleeve (310), and the liquid in the liquid storage cavity (200) flows into the quantitative cavity (300).

2. A dosing container as claimed in claim 1, characterised in that the container closure (120) is provided with a container closure sleeve (121) through which the upper part of the stem (150) extends, and that a stem sealing ring (151) is provided between the container closure sleeve (121) and the stem (150).

3. A container according to claim 1, wherein the container cover (120) is provided with a container cover hole sleeve (121) for the upper part of the post (150) to penetrate through, and the container cover hole sleeve (121) is connected with the post (150) through a thread; the movable plug (110) can move upwards relative to the container body (100) by rotating the rod column (150), so that the liquid outlet sleeve (210) is separated from the blocking sleeve (310), and the liquid in the liquid storage cavity (200) flows into the quantitative cavity (300); the movable plug (110) can move downwards relative to the container body (100) by reversely rotating the rod column (150), so that the lower part of the liquid outlet sleeve (210) is connected with the blocking sleeve (310), and the liquid storage cavity (200) is blocked from the quantitative cavity (300); or, the rotating container cover (120) can make the rod column (150) move upwards, so that the movable plug (110) moves upwards relative to the container body (100), and further the liquid outlet sleeve (210) is separated from the blocking sleeve (310), and the liquid in the liquid storage cavity (200) flows into the quantitative cavity (300); the container sealing cover (120) is rotated reversely, so that the lower part of the liquid outlet sleeve (210) is indirectly connected with the sealing sleeve (310), and the liquid storage cavity (200) is sealed and blocked with the quantitative cavity (300) in an isolated way.

4. A quantitative container according to claim 1, wherein the container cover (120) is provided with a container cover hole sleeve (121) for the upper part of the post (150) to pass through, a post sealing ring (151) is arranged between the container cover hole sleeve (121) and the post (150), a post handle (152) is connected to the upper part of the post (150), and the free end of the post handle (152) passes through the upper edge of the opening of the container body (100) and is arranged outside the container body (100) for use; when the quantitative liquid storage container is used, the upper edge of the opening of the container body (100) serves as a supporting point, then the free end of the rod column handle (152) is pressed downwards to enable the rod column (150) to drive the movable plug (110) to move upwards relative to the container body (100), and further the liquid outlet sleeve (210) is separated from the blocking sleeve (310), so that liquid in the liquid storage cavity (200) flows into the quantitative cavity (300).

5. The dosing container according to any of claims 1-4, characterised in that a movable stopper sealing ring (111) is provided between the inner wall of the container body (100) and the movable stopper (110).

6. A dosing container according to any of claims 1-4, characterised in that a sleeve sealing ring (220) is arranged between the tapping sleeve (210) and the closing sleeve (310).

7. A dosing container as claimed in any of claims 1-4, characterized in that the container closure (120) is provided with a channel closure (131) for closing the outlet end of the outlet channel (130).

8. A quantitative container is characterized by comprising a hollow container body (100), wherein a movable plug (110) used for separating an upper cavity of the container body (100) into a liquid storage cavity (200) and a quantitative cavity (300) is movably arranged in the container body (100), the liquid storage cavity (200) is positioned at the upper side of the quantitative cavity (300), a container sealing cover (120) used for covering the liquid storage cavity (200) is connected to an opening of the container body (100), and a liquid outlet channel (130) used for pouring out liquid in the quantitative cavity (300) is further arranged on the container body (100); the quantitative liquid storage container is characterized in that a movable plug through hole (112) for communicating the liquid storage cavity (200) with the quantitative cavity (300) is formed in the movable plug (110), a rod column (150) with the upper portion connected with the container sealing cover (120) is arranged in the container body (100) and located in the liquid storage cavity (200), the lower portion of the rod column (150) penetrates through the movable plug through hole (112) and extends into the quantitative cavity (300), and a rod column sealing piece (153) used for being matched with the movable plug through hole (112) for sealing and a rod column reverse buckle (154) used for linking the movable plug (110) to move are respectively arranged on the rod column (150) and located on the upper side and the lower side of the movable plug through hole (112); initially, the plunger sealing member (153) blocks the movable plug through hole (112) to isolate the liquid storage chamber (200) from the quantitative chamber (300), and the plunger reverse (154) is separated from the lower side of the movable plug (110); the direct or indirect action of the container closure (120) causes the stem (150) to move upwardly relative to the container body (100) such that the stem seal (153) disengages the plunger aperture (112) thereby allowing liquid from the reservoir (200) to flow into the dosing chamber (300) and causing the stem undercut (154) to abut the underside of the plunger (110) and move upwardly with the stem (150).

9. A dosing container as claimed in claim 8, characterised in that the container body (100) is provided with a locating sleeve (320) for the stem (150) on the inner bottom of the dosing chamber (300).

10. A dosing container according to claim 8, characterised in that a movable stopper sealing ring (111) is provided between the inner wall of the container body (100) and the movable stopper (110).

11. A dosing container as claimed in claim 8, characterized in that the container closure (120) is further provided with a channel closure (131) for closing the outlet end of the outlet channel (130).

12. A dosing container as claimed in claim 8, characterised in that a container closure handle (122) is attached to the container closure (120) for use by a user.

13. A quantitative container is characterized by comprising a hollow container body (100), wherein a liquid storage cavity (200) is movably arranged on the container body (100), a quantitative cavity (300) is arranged in the container body (100) and positioned at the lower side of the liquid storage cavity (200), a container sealing cover (120) which is used for covering the liquid storage cavity (200) and is connected with the liquid storage cavity (200) is connected to an opening of the container body (100), and a liquid outlet channel (130) for pouring out liquid in the quantitative cavity (300) is further arranged on the container body (100); the bottom of the liquid storage cavity (200) is provided with a liquid outlet sleeve (210) for communicating the liquid storage cavity (200) with the quantitative cavity (300), and the bottom in the quantitative cavity (300) is provided with a blocking sleeve (310) which is used for being matched with the liquid outlet sleeve (210) to enable the liquid storage cavity (200) to be communicated with or isolated from the quantitative cavity (300); initially, the lower part of the liquid outlet sleeve (210) is connected with the blocking sleeve (310) to isolate and block the liquid storage cavity (200) and the quantitative cavity (300); the container sealing cover (120) is directly or indirectly acted to drive the liquid storage cavity (200) to move upwards relative to the container body (100) so that the liquid outlet sleeve (210) is separated from the blocking sleeve (310), and therefore liquid in the liquid storage cavity (200) flows into the quantitative cavity (300).

14. The dosing container according to claim 13, characterised in that a reservoir sealing ring (230) is provided between the inner wall of the container body (100) and the reservoir (200).

15. A dosing container according to claim 13, characterised in that a sleeve sealing ring (220) is arranged between the tapping sleeve (210) and the closing sleeve (310).

16. A dosing container as claimed in claim 13, characterized in that the container closure (120) is provided with a channel closure (131) for closing the outlet end of the outlet channel (130).

17. Dosing container according to any of claims 13-16, characterised in that a container closure handle (122) for the user is attached to the container closure (120).

18. The dosing container according to any of claims 13-16, wherein a reservoir handle (240) is connected to an upper portion of the reservoir (200), and a free end of the reservoir handle (240) extends through the container body (100) and is disposed outside the container body (100) for use.

19. The container of any of claims 13-16, wherein the upper portion of the reservoir (200) extends upwardly relative to the container body (100) to form a handle (250) for use.

20. A quantitative container is characterized by comprising a hollow container body (100), wherein a liquid storage cavity (200) is movably arranged in the container body (100), a quantitative cavity (300) is arranged in the container body (100) and positioned at the lower side of the liquid storage cavity (200), a container sealing cover (120) which is used for covering the liquid storage cavity (200) and is connected with the liquid storage cavity (200) is connected to an opening of the container body (100), and a liquid outlet channel (130) for pouring out liquid in the quantitative cavity (300) is further arranged on the container body (100); a liquid outlet sleeve (210) for communicating the liquid storage cavity (200) with the quantitative cavity (300) is arranged at the bottom of the liquid storage cavity (200), and a sealing area (330) for being matched with the liquid outlet sleeve (210) to be blocked and an inclined area (340) for communicating the liquid outlet sleeve (210) are formed at the bottom in the quantitative cavity (300); initially, the lower part of the liquid outlet sleeve (210) is abutted against the sealing area (330) to seal and block the liquid storage cavity (200) and the quantitative cavity (300); the container cover (120) is directly or indirectly rotated to drive the liquid storage cavity (200) to rotate relative to the container body (100), so that the liquid outlet sleeve (210) can rotate to the inclined area (340), and the liquid in the liquid storage cavity (200) flows into the quantitative cavity (300).

21. The dosing container according to claim 20, characterised in that a reservoir sealing ring (230) is provided between the inner wall of the container body (100) and the reservoir (200).

22. A dosing container as claimed in claim 20, characterized in that the container closure (120) is provided with a channel closure (131) for closing the outlet end of the outlet channel (130).

23. A dosing container according to claim 1 or 8 or 13 or 20, characterised in that the container body (100) is provided with an identification scale (140) for indicating the volume of liquid in the dosing chamber (300).

24. A dosing container as claimed in claim 1 or 8 or 13 or 20, characterized in that a handle (2) for the user is connected to the upper part of the container body (100).

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