CN211767128U - Liquid quantitative bottle - Google Patents

Abstract

A liquid quantifying bottle comprises a bottle body, a bottle mouth, a bottle cap, a bottle handle, a liquid outlet nozzle cover and quantifying scale marks. The bottle mouth is positioned above the bottle body, so that liquid can be poured into the bottle body conveniently, and the bottle mouth is in threaded connection with the bottle cap; the liquid outlet nozzle is connected and positioned above the side surface of the bottle body, the liquid outlet nozzle is in threaded connection with the liquid outlet nozzle cover, and the lowest point of the liquid outlet nozzle is a liquid outflow critical point; the bottle handle is connected to the symmetrical side positions of the side surface of the bottle body where the liquid outlet nozzle is located; two groups of quantitative scale marks are marked on the bottle body, the first group is regular quantitative scale marks marked vertically on the side surface of the bottle body, and the second group is irregular quantitative scale marks marked on the intersection line of the vertical section of the bottle body where the liquid outlet nozzle and the bottle handle are positioned, the side surface of the bottle body and the bottom surface of the bottle body.

Description

Liquid quantitative bottle

Technical Field

The utility model belongs to articles for daily use field relates to a liquid ration bottle.

Background

At present, in the cooking process of people, the control of the amount of edible oil is an important factor influencing the health of people, and the accurate control of the amount of seasonings such as the edible oil is beneficial to the health of people; many oil bottles and liquid devices in the market can not accurately control the consumption or can accurately control the consumption, but the structure is too complex and the use is inconvenient, and the improvement is needed; for example, the measuring cup is used for measuring the consumption of edible oil, the measuring cup needs to be cleaned in time after each use in order to prevent the oil adhered to the inner wall of the measuring cup from being polluted due to long-time contact with air, time and labor are wasted, for example, liquid seasonings in milk tea shops need to be quantitatively prepared in proportion, liquid laundry detergent needs to be quantitatively used, and the like, and a lot of liquid in life needs to be quantitatively poured out.

SUMMERY OF THE UTILITY MODEL

In order to effectively solve the problem, can the ration pour liquid, the utility model provides a liquid ration bottle utilizes liquid to keep the horizontal plane and to the principle that the low department flows under the action of gravity, according to certain operation method, through the spatial position who changes the bottle, reaches the purpose that the liquid ration was poured.

The utility model provides a technical scheme that its technical problem adopted is: a liquid quantifying bottle comprises a bottle body, a bottle mouth, a bottle cap, a bottle handle, a liquid outlet nozzle cover and quantifying scale marks. The bottle mouth is positioned above the bottle body, so that liquid can be poured into the bottle body conveniently, and the bottle mouth is in threaded connection with the bottle cap; the liquid outlet nozzle is connected and positioned above the side surface of the bottle body, the liquid outlet nozzle is in threaded connection with the liquid outlet nozzle cover, and the lowest point of the liquid outlet nozzle connected with the side surface of the bottle body is a liquid outflow critical point; the bottle handle is connected to the symmetrical side positions of the side surface of the bottle body where the liquid outlet nozzle is located; the bottle body is marked with two groups of quantitative scale lines, the first group is regular quantitative scale lines marked vertically on the side surface of the bottle body, and the second group is irregular quantitative scale lines marked on the intersection line of the vertical section of the bottle body (vertical to the bottom surface of the bottle body, passing through the center of the circle of the bottom surface and the critical point of liquid outflow, hereinafter referred to as the vertical section of the bottle body) where the liquid outlet nozzle and the bottle handle are positioned, the side surface of the bottle body and the bottom surface.

When the bottle body is vertical to the horizontal plane, the bottle body is rotated downwards by 90 degrees (the rotation angle is in the longitudinal cutting plane of the bottle body where the liquid outlet nozzle and the bottle handle are located) from the vertical direction along the direction of the liquid outlet nozzle, the liquid in the bottle body can be gradually poured out until the liquid is zero, in the process, the liquid in the bottle body always tends to be kept in a horizontal plane state due to the action of gravity, thus, the longitudinal section of the bottle body where the liquid outlet nozzle and the bottle handle are positioned, the intersection line of the side surface and the bottom surface of the bottle body and each intersection point of the liquid horizontal plane in the bottle body uniquely correspond to one liquid volume, therefore, the corresponding relation between the volume of the liquid in the bottle body and the points on the intersection line of the liquid outlet nozzle and the longitudinal section of the bottle body where the bottle handle is located and the side surface and the bottom surface of the bottle body is realized, the corresponding relation is marked, a second group of quantitative scale marks are formed, and the second group of quantitative scale marks are critical scale marks about to pour the liquid when the bottle body inclines towards the direction of the liquid outlet nozzle.

Preferably, the bottle body is vertical to the horizontal plane, and when the bottle body is inclined towards the liquid outlet nozzle, the horizontal plane where the liquid is to be poured out and the arc line (three points on the arc line can determine one surface) of the intersection of the side surface of the bottle body represent the second group of quantitative scale marks.

The optimized design is made of transparent glass or other edible transparent materials.

Through the design, each numerical value of the volume of the liquid in the bottle body is marked with two quantitative scales on the bottle body, the two quantitative scales correspond to two states of the bottle body, one quantitative scale corresponds to the quantitative scale when the bottle body is vertical, and the other quantitative scale corresponds to the critical quantitative scale when the bottle body is inclined and the liquid is about to be poured out from the liquid outlet nozzle; when liquid need be poured, at first vertical bottle lets bottle and horizontal plane perpendicular, according to the vertical quantitative scale mark in bottle side, confirms the liquid total amount in the bottle, pours liquid according to certain rule again, as above-mentioned bottle follow vertical direction along the certain angle of liquid outlet nozzle place direction lapse, liquid is poured, at this moment reference second group quantitative scale mark, the difference of two sets of quantitative scale mark numerical value is exactly the quantitative liquid volume that will pour out.

The utility model has the advantages that: according to certain operation method, change the spatial position of bottle, through referring to two sets of ration scale marks on the bottle, get its poor purpose that reaches the liquid ration and pour, the utility model discloses simple structure, it is convenient easy going, be fit for using widely.

The invention is further described with reference to the following drawings and specific examples.

Drawings

Fig. 1 is a schematic structural view of the liquid quantifying bottle of the present invention.

The main components in fig. 1 illustrate: 1 bottle body 12, cap 13, mouth 14, spout lid 15, spout 151, first set of quantitative scale marks 17, second set of quantitative scale marks 18, bottle handle at critical point 16 for liquid outflow.

Detailed Description

As shown in fig. 1, the liquid quantitative bottle comprises a bottle body 1, a bottle mouth 13, a bottle cap 12, a bottle handle 18, a liquid outlet 15, a liquid outlet cover 14, a first group of quantitative scale marks 16 and a second group of quantitative scale marks 17. The bottle mouth 13 is positioned above the bottle body 1, so that liquid can be poured into the bottle body 1 conveniently, the bottle body 1 is designed into a hollow cylindrical structure, the bottle mouth 13 is reserved on the bottle body 1, the liquid outlet nozzle 15 is connected to the side surface of the bottle body, and the bottle mouth 13 is in threaded connection with the bottle cap 12; the liquid outlet nozzle 15 is positioned above the side surface of the bottle body 1, the liquid outlet nozzle 15 is in threaded connection with the liquid outlet nozzle cover 14, and the lowest point of the liquid outlet nozzle 15 connected with the side surface of the bottle body is a liquid outflow critical point 151; the bottle handle 18 is connected to the symmetrical side position of the side surface of the bottle body 1 where the liquid outlet nozzle 15 is positioned; two groups of quantitative scale marks 16 and 17 are marked on the bottle body 1, the first group of quantitative scale marks 16 are regular equivalent distance quantitative scale marks marked vertically on the side surface of the bottle body, and the second group of quantitative scale marks 17 are irregular quantitative scale marks marked on the intersection line of the vertical section (vertical to the bottom surface of the bottle body 1, passing through the center of the bottom surface and the liquid outflow critical point 151) of the bottle body 1 where the liquid outlet nozzle 15 and the bottle handle 18 are positioned, and the side surface and the bottom surface of the bottle body 1.

When the bottle body 1 is vertical to the horizontal plane, the bottle body 1 is rotated downwards by 90 degrees from the vertical direction along the direction of the liquid outlet nozzle 15 (the rotation angle is in the longitudinal tangent plane of the bottle body 1 where the liquid outlet nozzle 15 and the bottle handle 18 are located), the liquid in the bottle body 1 can be gradually poured out until the liquid is zero, in the process, the liquid in the bottle body 1 always tends to be kept in the horizontal plane state due to the action of gravity, so that the longitudinal tangent plane of the bottle body 1 where the liquid outlet nozzle 15 and the bottle handle 18 are located, each intersection point of the side surface and the bottom surface of the bottle body 1 and the horizontal plane of the liquid in the bottle body 1 are uniquely corresponding to one liquid volume, the corresponding relations between the liquid volume in the bottle body 1 and the points on the intersection lines of the longitudinal tangent plane of the bottle body 1 where the liquid outlet nozzle 15 and the bottle handle 18 are located, the side surface and the bottom surface of the bottle body 1 are realized, the corresponding relations are marked, a second group of quantitative scale lines 17 are formed, and the second group of quantitative scale lines 17 Scale lines are marked.

Preferably, the second set of quantitative scales 17 can also be represented by an arc line (three points on the arc line can define a plane) intersecting a horizontal plane on which the liquid is to be poured and a side surface of the bottle body 1 when the bottle body 1 and the horizontal plane are inclined vertically to the direction of the liquid outlet nozzle 15.

The optimized design is made of transparent glass or other edible transparent materials.

Through the design, each numerical value of the volume of the liquid in the bottle body 1 is marked with two quantitative scales on the bottle body, the two quantitative scales correspond to two states of the bottle body, one quantitative scale corresponds to the quantitative scale when the bottle body is vertical, and on the first group of quantitative scale lines 16, the other quantitative scale is the critical quantitative scale when the bottle body is inclined and the liquid is about to be poured out from the liquid outlet nozzle 15, and on the second group of quantitative scale lines 17; when liquid needs to be poured out, the bottle body 1 is vertical at first, the bottle body 1 is vertical to the horizontal plane, the total amount of the liquid in the bottle body 1 is determined according to the vertical first group of quantitative scale marks 16 on the side surface of the bottle body 1, then the bottle body 1 is downwards rotated by a certain angle from the vertical direction along the direction of the liquid outlet nozzle 15, the liquid flows out through the liquid outflow critical point 151, and the difference between the numerical values of the two groups of quantitative scale marks is the quantitative liquid volume to be poured out according to the second group of quantitative scale marks 17.

It is above, only the utility model discloses a simple concrete embodiment can not therefore and limit to the utility model discloses a patent range, the fan is used the utility model discloses the equivalent application that description and application patent range are, all contain in utility model's within range with the same reason.

Claims (4)

1. A liquid quantifying bottle comprises a bottle body, a bottle mouth, a bottle cap, a bottle handle, a liquid outlet nozzle cover and quantifying scale marks; the bottle is characterized in that the bottle mouth is positioned above the bottle body, so that liquid can be poured into the bottle body conveniently, and the bottle mouth is in threaded connection with the bottle cap; the liquid outlet nozzle is connected and positioned above the side surface of the bottle body, the liquid outlet nozzle is in threaded connection with the liquid outlet nozzle cover, and the lowest point of the liquid outlet nozzle is a liquid outflow critical point; the bottle handle is connected to the symmetrical side positions of the side surface of the bottle body where the liquid outlet nozzle is located.

2. A liquid dosing bottle as claimed in claim 1, wherein: two groups of quantitative scale marks are marked on the bottle body, the first group is the regular quantitative scale marks marked vertically on the side surface of the bottle body, and the second group is the quantitative scale marks marked on the intersection line of the vertical section of the bottle body where the liquid outlet nozzle and the bottle handle are positioned, the side surface of the bottle body and the bottom surface of the bottle body.

3. A liquid dosing bottle as claimed in claim 1, wherein: every numerical value of liquid volume in the bottle all marks two quantitative scales on the bottle, and two quantitative scales correspond two kinds of states of bottle, and one corresponds quantitative scale for the bottle is vertical, and on first group's quantitative scale mark, one is the critical quantitative scale that liquid was about to pour out from the liquid outlet nozzle when bottle slope, on second group's quantitative scale mark.

4. A liquid dosing bottle as claimed in claim 1, wherein: the second group of quantitative scale marks can be represented by an arc line which is intersected with the horizontal plane where the liquid is to be poured out and the side surface of the bottle body when the bottle body and the horizontal plane are vertically inclined to the direction of the liquid outlet nozzle.

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