CN220448602U

CN220448602U - Quantitative bottle for quantitative liquid proportioning

Info

Publication number: CN220448602U
Application number: CN202321894663.3U
Authority: CN
Inventors: 罗志鹏; 冯海强
Original assignee: Foshan Shengying Packaging Products Co ltd
Current assignee: Foshan Shengying Packaging Products Co ltd
Priority date: 2023-07-19
Filing date: 2023-07-19
Publication date: 2024-02-06
Anticipated expiration: 2033-07-19

Abstract

The utility model provides a quantitative bottle for quantitatively proportioning liquid, which comprises: a body; the body is internally provided with a first accommodating cavity, a second accommodating cavity, a first proportioning cavity, a second proportioning cavity, a first pre-storage cavity and a second pre-storage cavity; the first proportioning cavity is internally provided with a first side opening communicated with the first accommodating cavity and a first bottom opening communicated with the first pre-storage cavity, and the second proportioning cavity is internally provided with a second side opening communicated with the second accommodating cavity and a second bottom opening communicated with the second pre-storage cavity; the body is also provided with a liquid outlet. The quantitative bottle for quantitative liquid proportioning can store two liquids to be proportioned in the first accommodating cavity and the second accommodating cavity respectively, pour a preset amount of the two liquids into the first proportioning cavity and the second proportioning cavity in a dumping way, pour the preset amount of the two liquids out of the first pre-storage cavity and the second pre-storage cavity, and obtain the two liquids with preset proportioning.

Description

Quantitative bottle for quantitative liquid proportioning

Technical Field

The utility model relates to the technical field of containers, in particular to a quantitative bottle for quantitative liquid proportioning.

Background

In daily life or production experiment process, liquid is often required to be proportioned, such as liquid for washing liquid, liquid for washing hands and the like used at home, some liquid can not be premixed to prevent deterioration, and a user is required to temporarily mix various liquids according to a certain proportion for use.

At present, if the proportion is required to be accurately carried out according to the proportion, the proportion is usually determined in a measuring cup weighing mode, and the operation is troublesome.

Disclosure of Invention

The utility model aims to overcome the defects and shortcomings in the prior art and provides a quantitative bottle for quantitatively proportioning liquid.

One embodiment of the present utility model provides a quantitative bottle for quantitative liquid proportioning, comprising: a body;

the body is internally provided with a first accommodating cavity, a second accommodating cavity, a first proportioning cavity, a second proportioning cavity, a first pre-storage cavity and a second pre-storage cavity;

the first proportioning cavity is arranged in the first accommodating cavity, the second proportioning cavity is arranged in the second accommodating cavity, the first proportioning cavity and the second proportioning cavity are arranged in parallel along the horizontal direction, the first pre-storage cavity is arranged on one side of the first proportioning cavity, the second pre-storage cavity is arranged on one side of the second proportioning cavity, a first side opening communicated with the first accommodating cavity and a first bottom opening communicated with the first pre-storage cavity are arranged in the first proportioning cavity, and a second side opening communicated with the second accommodating cavity and a second bottom opening communicated with the second pre-storage cavity are arranged in the second proportioning cavity;

the body is also provided with a liquid outlet communicated with the first pre-storage cavity and the second pre-storage cavity.

In some optional embodiments, the first proportioning chamber is disposed at a top of the first accommodating chamber, the second proportioning chamber is disposed at a top of the second accommodating chamber, the first proportioning chamber and the second proportioning chamber are located at a same level, the first side opening and the second side opening are disposed at a same level, and a ratio of a volume of liquid entering the first proportioning chamber from the first side opening to a volume of liquid entering the second proportioning chamber from the second side opening when the body is poured is 1:1.

in some alternative embodiments, one side of the body is preset as a pouring side, the pouring side is located on one side of the arrangement direction of the first proportioning chamber and the second proportioning chamber, the first side opening is located on an adjacent side of one side of the first proportioning chamber toward the pouring side, the first side opening gradually extends toward the top of the body in a direction close to the pouring side, the second side opening is located on an adjacent side of one side of the second proportioning chamber toward the pouring side, and the second side opening gradually extends toward the top of the body in a direction close to the pouring side.

In some optional embodiments, one side of the body is preset to be a pouring side, the pouring side is located at one side of the arrangement direction of the first proportioning chamber and the second proportioning chamber, a first blocking portion is arranged in the first pre-storage chamber, the first blocking portion is located at one side of the first bottom opening close to the pouring side, a second blocking portion is arranged in the second pre-storage chamber, and the second blocking portion is located at one side of the second bottom opening close to the pouring side.

In some optional embodiments, the first proportioning chamber is provided with a plurality of first diversion portions, the dumping side is located at one side of the arrangement direction of the first proportioning chamber and the second proportioning chamber, the first diversion portions gradually extend downwards in a direction close to the first bottom opening, the second proportioning chamber is provided with a plurality of second diversion portions, and the second diversion portions gradually extend downwards in a direction close to the second bottom opening.

In some alternative embodiments, one side of the body is preset as a pouring side, and the liquid outlet is arranged at a position close to the pouring side of the top of the body, or the liquid outlet is arranged at the pouring side of the body.

In some alternative embodiments, the body is provided with a protruding flow guide seat, and the flow guide seat is arranged around the liquid outlet.

In some optional embodiments, a partition is disposed in the diversion seat, the partition divides the liquid outlet into a first outlet and a second outlet, the first outlet is communicated with the first pre-storage cavity, and the second outlet is communicated with the second pre-storage cavity.

In some optional embodiments, the body includes a cover and a bottle, the cover is detachably connected with the bottle through a fastening structure or a screw structure, the cover and the bottle surround to form the first accommodating cavity and the second accommodating cavity, and the first proportioning cavity, the second proportioning cavity, the first pre-storage cavity and the second pre-storage cavity are arranged at the bottom of the cover.

In some optional embodiments, the cover is a transparent cover, the bottle is a transparent bottle, one side of the first proportioning cavity and one side of the second proportioning cavity are provided with angle marking graduations, the angle marking graduations comprise a plurality of angle graduations, the angle graduations are used for marking the toppling angle of the body, a plurality of liquid quantity marking graduations are arranged on the vertical direction corresponding to each angle graduation, the liquid quantity marking graduations on the first proportioning cavity are used for marking the liquid quantity corresponding to different liquid levels of the first liquid in the first proportioning cavity when the body is at the corresponding toppling angle, and the liquid quantity marking graduations on the second proportioning cavity are used for marking the liquid quantity corresponding to different liquid levels of the second proportioning cavity when the body is at the corresponding toppling angle.

Compared with the prior art, the quantitative bottle for quantitatively proportioning the liquid can store two liquids to be proportioned in the first accommodating cavity and the second accommodating cavity respectively, pour the two liquids with preset amounts into the first proportioning cavity and the second proportioning cavity in a dumping way, pour the two liquids with preset proportions out through the first pre-storage cavity and the second pre-storage cavity, and obtain the two liquids with preset proportions, and the quantitative bottle is simple in structure and convenient to operate.

In order that the utility model may be more clearly understood, specific embodiments thereof will be described below with reference to the accompanying drawings.

Drawings

FIG. 1 is a schematic view of a quantitative bottle for quantitative liquid proportioning according to one embodiment of the present utility model;

FIG. 2 is a cross-sectional view of a dosing bottle for dosing a liquid in accordance with one embodiment of the present utility model;

FIG. 3 is a partial cross-sectional view of a dosing bottle for dosing a liquid in accordance with one embodiment of the present utility model;

FIG. 4 is a cross-sectional view of a liquid dosing bottle of one embodiment of the present utility model as it is poured;

FIG. 5 is a cross-sectional view of another cross-section of a dosing bottle for dosing liquid according to one embodiment of the utility model during pouring.

Reference numerals illustrate:

10. a body; 11. a liquid outlet; 111. a first outlet; 112. a second outlet; 12. a pouring side; 13. a diversion seat; 14. a partition portion; 15. a cover body; 16. a bottle body; 20. a first accommodation chamber; 30. a second accommodation chamber; 40. a first proportioning cavity; 41. a first side opening; 42. a first bottom opening; 43. a first flow guiding part; 50. a second proportioning cavity; 51. a second side opening; 52. a second bottom opening; 53. a second flow guiding part; 60. a first pre-storage chamber; 61. a first blocking portion; 70. a second pre-storage chamber; 71. a second blocking portion.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model. The terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present utility model, the meaning of "a plurality" means at least two, such as two, three, etc., unless explicitly defined otherwise, the meaning of "a number" means one or more than one.

Referring to fig. 1, a schematic structure of a quantitative liquid proportioning bottle according to an embodiment of the present utility model is shown, where the quantitative liquid proportioning bottle includes: a body 10.

Referring to fig. 2 to 5, fig. 2 is a sectional view of a quantitative liquid proportioning bottle according to an embodiment of the present utility model, fig. 3 is a partial sectional view of a quantitative liquid proportioning bottle according to an embodiment of the present utility model, fig. 4 is a sectional view of a quantitative liquid proportioning bottle according to an embodiment of the present utility model when being poured, fig. 5 is a sectional view of another sectional view of a quantitative liquid proportioning bottle according to an embodiment of the present utility model when being poured, and a first accommodating chamber 20, a second accommodating chamber 30, a first proportioning chamber 40, a second proportioning chamber 50, a first pre-storing chamber 60 and a second pre-storing chamber 70 are provided in a body 10, wherein the first accommodating chamber 20 is used for accommodating a first liquid, and the second accommodating chamber 30 is used for accommodating a second liquid. The first proportioning cavity 40 is arranged in the first accommodating cavity 20, the second proportioning cavity 50 is arranged in the second accommodating cavity 30, the first proportioning cavity 40 and the second proportioning cavity 50 are arranged in parallel along the horizontal direction, the first pre-storage cavity 60 is arranged on one side of the first proportioning cavity 40, the second pre-storage cavity 70 is arranged on one side of the second proportioning cavity 50, a first side opening 41 communicated with the first accommodating cavity 20 and a first bottom opening 42 communicated with the first pre-storage cavity 60 are arranged in the first proportioning cavity 40, and a second side opening 51 communicated with the second accommodating cavity 30 and a second bottom opening 52 communicated with the second pre-storage cavity 70 are arranged in the second proportioning cavity 50; the body 10 is further provided with a liquid outlet 11 communicating with the first pre-storage chamber 60 and the second pre-storage chamber 70. When the body 10 is poured, the first liquid in the first accommodating cavity 20 enters the first proportioning cavity 40 from the first side opening 41, so that the first proportioning cavity 40 accommodates a predetermined amount of the first liquid, and the second liquid in the second accommodating cavity 30 enters the second proportioning cavity 50 from the second side opening 51, so that the second proportioning cavity 50 accommodates a predetermined amount of the second liquid. The body 10 is flipped back to an upright top-up position such that a predetermined amount of the first liquid enters the first pre-storage chamber 60 through the first bottom opening 42 and a predetermined amount of the second liquid enters the second pre-storage chamber 70 through the second bottom opening 52. The body 10 is again poured such that the predetermined amount of the first liquid in the first pre-storage chamber 60 and the predetermined amount of the second liquid in the second pre-storage chamber 70 are poured out from the liquid outlet 11, and at the same time, the first proportioning chamber 40 is refilled with the predetermined amount of the first liquid and the second proportioning chamber 50 is refilled with the predetermined amount of the second liquid, thereby facilitating the user to pour out the first liquid and the second liquid in proper and sufficient proportions in sequence and rapidly.

In this application, the body 10 is tilted to be that the body 10 is turned over relative to a horizontal plane so that the top of the body 10 is downward, and the body 10 in a tilted state may be tilted or vertical relative to the horizontal plane.

When the body 10 is in the normal position, the liquid level of the first liquid is not higher than the bottom of the first side opening 41, and the liquid level of the second liquid is not higher than the bottom of the second side opening 51.

In the poured state of the body 10, the predetermined amount of the first liquid is equal to the amount of the first liquid that can be contained in the first proportioning chamber 40 below the level of the first liquid in the first proportioning chamber 40, and similarly, the predetermined amount of the second liquid is equal to the amount of the second liquid that can be contained in the second proportioning chamber 50 below the level of the second liquid in the second proportioning chamber 50, so that the predetermined amounts of the first liquid and the second liquid can be changed by sizing the first proportioning chamber 40 and the second proportioning chamber 50, and adjusting the level of the first liquid in the first proportioning chamber 40 and the level of the second liquid in the second proportioning chamber 50 when the body 10 is poured. The predetermined amount of the first liquid and the predetermined amount of the second liquid may be based on a design suitable for use, for example 1:1. 1: 2. 1: 3. 1:0.5, etc., without limiting this example. In the present embodiment, the first proportioning chamber 40 is disposed at the top of the first accommodating chamber 20, the second proportioning chamber 50 is disposed at the top of the second accommodating chamber 30, the first proportioning chamber 40 and the second proportioning chamber 50 are located at the same level, the first side opening 41 and the second side opening 51 are disposed at the same level, and the ratio of the volume of the first liquid entering the first proportioning chamber 40 from the first side opening 41 to the volume of the second liquid entering the second proportioning chamber 50 from the second side opening 51 when the body 10 is poured is 1:1. in addition, in the present embodiment, the first proportioning chamber 40 and the second proportioning chamber 50 have the same shape, and the first side opening 41 and the second side opening 51 have the same shape, so that the proportion of the liquid entering the first proportioning chamber 40 and the second proportioning chamber 50 is more accurate.

One side of the body 10 is preset as a pouring side 12, the pouring side 12 is located at one side of the arrangement direction of the first proportioning cavity 40 and the second proportioning cavity 50, the first side opening 41 is located on an adjacent side of the first proportioning cavity 40 facing the one side of the pouring side 12, and when the user pours the body 10 towards the pouring side 12, the first proportioning cavity 40 and the second proportioning cavity 50 are approximately the same in horizontal height, so that the first liquid entering the first proportioning cavity 40 and the second liquid entering the second proportioning cavity 50 are more accurate, and the problem that the liquid is difficult to enter the first proportioning cavity 40 or the second proportioning cavity 50 due to the pouring direction of the body 10 is avoided. Of course, when the body 10 is tilted such that the top of the body 10 is downward and vertical to the horizontal plane, the first liquid entering the first proportioning chamber 40 and the second liquid entering the second proportioning chamber 50 can have the same liquid level without presetting the tilting side 12.

In some alternative embodiments, where the first side opening 41 extends gradually toward the top of the body 10 in a direction toward the pouring side 12, and the second side opening 51 is located on an adjacent side of the second proportioning chamber 50 toward the side of the pouring side 12, and the second side opening 51 extends gradually toward the top of the body 10 in a direction toward the pouring side 12, the design advantageously facilitates easier and faster entry of liquid into the first proportioning chamber 40 or the second proportioning chamber 50, such as to increase the rate of liquid into the first proportioning chamber 40 or the second proportioning chamber 50 when the liquid is more viscous and has a slower flow rate.

In some alternative embodiments, the first blocking portion 61 is disposed in the first pre-storage cavity 60, the first blocking portion 61 is located on a side of the first bottom opening 42 near the pouring side 12, the second blocking portion 71 is disposed in the second pre-storage cavity 70, the second blocking portion 71 is located on a side of the second bottom opening 52 near the pouring side 12, when the first pre-storage cavity 60 and the second pre-storage cavity 70 are filled with liquid, if the body 10 is poured, the first blocking portion 61 blocks the first liquid in the first pre-storage cavity 60 from flowing back to the first proportioning cavity 40, and the second blocking portion 71 blocks the second liquid in the second pre-storage cavity 70 from flowing back to the second proportioning cavity 50, so as to effectively improve proportioning accuracy.

In some alternative embodiments, a plurality of first diversion portions 43 are disposed in the first proportioning chamber 40, the first diversion portions 43 gradually extend downward in a direction approaching the first bottom opening 42, a plurality of second diversion portions 53 are disposed in the second proportioning chamber 50, the second diversion portions 53 gradually extend downward in a direction approaching the second bottom opening 52, when the body 10 is being placed, the first diversion portions 43 may guide the first liquid into the first pre-storage chamber 60, and the second diversion portions 53 may guide the second liquid into the second pre-storage chamber 70. In the present embodiment, the first flow guiding portion 43 is disposed on one side of the first bottom opening 42, and the second flow guiding portion 53 is disposed on one side of the second bottom opening 52, however, in other embodiments, the first flow guiding portion 43 may be disposed on at least two sides of the first bottom opening 42, and the second bottom opening 52 is similar.

The location of the liquid outlet 11 may be designed according to practical needs, for example, the liquid outlet 11 is arranged at the pouring side 12 of the body 10. In the present embodiment, the liquid outlet 11 is arranged at a position near the pouring side 12 of the top of the body 10.

In order to guide the liquid out of the liquid outlet 11, in some alternative embodiments, the body 10 is provided with a protruding deflector 13, the deflector 13 being arranged around the liquid outlet 11.

In some alternative embodiments, a partition 14 is disposed in the baffle seat 13, the partition 14 divides the liquid outlet 11 into a first outlet 111 and a second outlet 112, the first outlet 111 communicates with the first pre-storage chamber 60, the second outlet 112 communicates with the second pre-storage chamber 70, and the partition 14 separates the first liquid and the second liquid so that the first liquid and the second liquid are mixed after flowing out, and the first liquid is prevented from being mixed into the second pre-storage chamber 70 or the second liquid is prevented from being mixed into the first pre-storage chamber 60.

The structure of the body 10 may be designed according to practical needs, and in order to facilitate production and assembly, in some alternative embodiments, the body 10 includes a cover 15 and a bottle 16, where the cover 15 and the bottle 16 form a first accommodating cavity 20 and a second accommodating cavity 30 around, and the first proportioning cavity 40, the second proportioning cavity 50, the first pre-storage cavity 60 and the second pre-storage cavity 70 are disposed at the bottom of the cover 15.

To facilitate the addition of liquid to the first and second chambers 20, 30, in some alternative embodiments, the cover 15 may be detachably connected to the bottle 16 by a snap-fit structure or a threaded structure, and in this embodiment, the cover 15 may be detachably connected to the bottle 16 by a snap-fit structure.

In some alternative embodiments, the cover 15 is a transparent cover 15, the bottle 16 is a transparent bottle 16, an angle marking scale is arranged on one side of the first proportioning cavity 40 and one side of the second proportioning cavity 50, the angle marking scale comprises a plurality of angle scale marks, the angle scale marks are used for marking the toppling angle of the body 10, and the angle marking scale marks mark marks specific angles of 15 °, 30 °, 45 ° and the like, so that a user can observe the position of the liquid level entering the first proportioning cavity 40 and the second proportioning cavity 50 relative to the angle marking scale when pouring the body 10 conveniently, for example, when the liquid level is level with the scale marks corresponding to 15 °, the body 10 is toppled downwards by 15 ° relative to the horizontal plane. The plurality of liquid quantity marking graduation marks are arranged in the vertical direction corresponding to each angle graduation mark, the liquid quantity marking graduation marks on the first proportioning cavity 40 are used for marking the liquid quantity corresponding to different liquid levels of the first liquid in the first proportioning cavity 40 when the body 10 is at the corresponding dumping angle, the liquid quantity marking graduation marks on the second proportioning cavity 50 are used for marking the liquid quantity corresponding to different liquid levels of the second proportioning cavity 50 when the body 10 is at the corresponding dumping angle, and the liquid quantity entering the first proportioning cavity 40 and the second proportioning cavity 50 under different angle states of the body 10 is different, so that after the inclination angle of the body 10 is judged through the angle marking graduation marks, the quantity of the first liquid in the first proportioning cavity 40 and the quantity of the second liquid in the second proportioning cavity 50 are judged through the liquid quantity marking graduation marks corresponding to the angle marking graduation marks under the inclination angle.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A quantitative bottle for quantitative liquid proportioning, comprising: a body;

2. The quantitative bottle for quantitative liquid proportioning according to claim 1, wherein: the first proportioning cavity is arranged at the top of the first accommodating cavity, the second proportioning cavity is arranged at the top of the second accommodating cavity, the first proportioning cavity and the second proportioning cavity are located at the same horizontal height, the first side opening and the second side opening are arranged at the same horizontal height, and the ratio of the volume of liquid entering the first proportioning cavity from the first side opening to the volume of liquid entering the second proportioning cavity from the second side opening when the body is toppled over is 1:1.

3. the quantitative bottle for quantitative liquid proportioning according to claim 1, wherein: one side of the body is preset to be a dumping side, the dumping side is located on one side of the arrangement direction of the first proportioning cavity and the second proportioning cavity, the first side opening is located on the adjacent side of one side of the first proportioning cavity towards the dumping side, the first side opening gradually extends towards the top of the body in the direction close to the dumping side, the second side opening is located on the adjacent side of one side of the second proportioning cavity towards the dumping side, and the second side opening gradually extends towards the top of the body in the direction close to the dumping side.

4. The quantitative bottle for quantitative liquid proportioning according to claim 1, wherein: one side of the body is preset to be a dumping side, the dumping side is located at one side of the arrangement direction of the first proportioning cavity and the second proportioning cavity, a first blocking part is arranged in the first pre-storage cavity, the first blocking part is located at one side of the first bottom opening, which is close to the dumping side, a second blocking part is arranged in the second pre-storage cavity, and the second blocking part is located at one side of the second bottom opening, which is close to the dumping side.

5. The quantitative bottle for quantitative liquid proportioning according to claim 1, wherein: the first proportioning cavity is internally provided with a plurality of first diversion parts, the first diversion parts gradually extend downwards in the direction close to the first bottom opening, the second proportioning cavity is internally provided with a plurality of second diversion parts, and the second diversion parts gradually extend downwards in the direction close to the second bottom opening.

6. A quantitative bottle for quantitative proportioning of liquid according to any one of claims 1 to 5, wherein: one side of the body is preset to be a dumping side, the dumping side is located on one side of the arrangement direction of the first proportioning cavity and the second proportioning cavity, and the liquid outlet is arranged at the position, close to the dumping side, of the top of the body, or is arranged on the dumping side of the body.

7. A quantitative bottle for quantitative proportioning of liquid according to any one of claims 1 to 5, wherein: the body is provided with a convex flow guide seat, and the flow guide seat is arranged around the liquid outlet.

8. The quantitative bottle for quantitative liquid proportioning according to claim 7, wherein: the flow guide seat is internally provided with a separation part, the liquid outlet is divided into a first outlet and a second outlet by the separation part, the first outlet is communicated with the first pre-storage cavity, and the second outlet is communicated with the second pre-storage cavity.

9. A quantitative bottle for quantitative proportioning of liquid according to any one of claims 1 to 5, wherein: the body includes lid and bottle, the lid through buckle structure or screw structure with the bottle can dismantle the connection, the lid with the bottle is around forming first holding chamber and second holding chamber, first ratio chamber second ratio chamber first pre-storage chamber with second pre-storage chamber sets up the bottom of lid.

10. The quantitative bottle for quantitative liquid proportioning according to claim 9, wherein: the cover body is transparent, the bottle is transparent, first ratio chamber with one side in second ratio chamber is provided with angle sign scale, angle sign scale includes a plurality of angle scale mark, angle scale mark is used for the sign the toppling angle of body, every the perpendicular direction that angle scale mark corresponds all arranges and is provided with a plurality of liquid volume sign scale marks, the liquid volume sign scale mark on the first ratio chamber is used for the sign when the body is in the corresponding liquid volume that the first liquid in the first ratio chamber corresponds at different liquid levels when the body is in the corresponding toppling angle, the liquid volume sign scale mark on the second ratio chamber is used for the sign when the body is in the corresponding toppling angle liquid volume that the liquid in the second ratio chamber corresponds at different liquid levels.