CN111076786A - Simple quantitative cup - Google Patents

Abstract

The invention discloses a simple quantitative cup, which comprises a cup body, a cup cover and quantitative scale marks; the cup body is in a cylindrical structure, the middle of the cup body is hollow, the upper end of the cup body is open, and the cup mouth is in threaded connection with the cup cover; the cup body is marked with two groups of quantitative scale marks, the first group of quantitative scale marks are regular quantitative scale marks marked vertically on the side surface of the cup body when the cup body is vertical, and the second group of quantitative scale marks are irregular critical quantitative scale marks marked on the cup body when inclined liquid of the cup body is about to pour out of the cup mouth. When liquid needs to be poured out, the cup body is vertical at first, the cup body is perpendicular to the horizontal plane, the total amount of the liquid in the cup body is determined according to a first group of quantitative scale marks vertical to the side face of the cup body, then the cup body is rotated downwards by a certain angle from the vertical direction, the liquid is poured out, at the moment, the difference between the numbers of the two groups of quantitative scale marks refers to a second group of quantitative scale marks, and the volume of the quantitative liquid to be poured out is determined.

Description

Simple quantitative cup

Technical Field

The invention belongs to the field of articles for daily use, and relates to a simple quantitative cup.

Background

Many liquid need quantitative pouring in life, for example edible oil ration pouring is eaten and is useful healthy, some liquid condiments in milk tea shop need quantitative pouring configuration in proportion, and the laundry detergent needs quantitative pouring use etc. and people now commonly use the graduated flask to carry out the quantity of accurate measurement liquid, but the graduated flask will wash the graduated flask in time after using at every turn, wastes time and energy.

Disclosure of Invention

In order to solve the problems simply and effectively and to pour out the liquid quantitatively at one time, the invention provides a simple quantitative cup, which achieves the aim of pouring out the liquid quantitatively by changing the spatial position of the quantitative cup according to a certain operation method by utilizing the principle that the liquid keeps a horizontal plane and flows to a lower position under the action of gravity.

The technical scheme adopted by the invention for solving the technical problems is as follows: a simple quantitative cup comprises a cup body, a cup cover and quantitative scale marks; the cup body is in a cylindrical structure, the middle of the cup body is hollow, the upper end of the cup body is open, and the cup mouth is in threaded connection with the cup cover; the cup body is marked with two groups of quantitative scale marks, the first group of quantitative scale marks are regular quantitative scale marks marked vertically on the side surface of the cup body when the cup body is vertical, and the second group of quantitative scale marks are irregular critical quantitative scale marks marked on the cup body when inclined liquid of the cup body is about to pour out of the cup mouth.

When the cup body is vertical to the horizontal plane, the cup body is equally divided from bottom to top, and regular quantitative scale marks with equal intervals, namely a first group of quantitative scale marks, can be marked on the side surface of the cup body; if the cup body (cylindrical) is symmetrically divided into two halves, because the cup body is cylindrical, the two halves which are divided into two halves are congruent, the surface which vertically divides the cup body into two halves is a cup body dividing surface, when the cup body is vertical to a horizontal plane, the cup body is downwards rotated for 90 degrees along the cup body dividing surface, liquid in the cup body can be gradually poured out until the liquid is zero, in the process, each intersection point of the intersection line of the cup body dividing surface with the side surface and the bottom surface of the cup body and the horizontal plane of the liquid in the cup body corresponds to a liquid volume, so that the corresponding relation between the liquid volume in the cup body and the intersection line of the cup body dividing surface with the side surface and the bottom surface of the cup body is realized, and the corresponding relations are marked out to form a second group of quantitative scale lines; because the cup is cylindrical, when the cup is inclined to pour out liquid, the horizontal plane in which the same liquid volume is located and the assembly track of the intersection point of the intersection line of the bisection plane of the cup and the intersection line of the side surface and the bottom surface of the cup are circles on the side surface and the bottom surface of the cup, and the second group is the critical quantitative scale line of the liquid about to pour out of the cup mouth when the cup marked on the cup is inclined.

Preferably, the second set of quantitative calibration marks is represented by an arc (three points on the arc define a plane) between a horizontal plane where liquid is to be poured and a side of the cup when the cup is tilted in the same direction.

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 cup body is marked with two quantitative scales on the cup body, the two quantitative scales correspond to two states of the cup body, one quantitative scale corresponds to the quantitative scale when the cup body is vertical, and the other quantitative scale corresponds to the critical quantitative scale when the cup body is inclined and the liquid is about to be poured out from the cup opening; when liquid needs to be poured out, the cup body is vertical at first, the cup body is perpendicular to the horizontal plane, the total amount of the liquid in the cup body is determined according to a first group of quantitative scale marks vertical to the side face of the cup body, then the cup body is rotated downwards by a certain angle from the vertical direction, the liquid is poured out, at the moment, the difference between the numerical values of the two groups of quantitative scale marks refers to a second group of quantitative scale marks, and the quantitative liquid volume to be poured out is obtained.

The invention has the beneficial effects that: according to a certain operation method, the spatial position of the cup body is changed, and the purpose of quantitatively pouring the liquid is achieved by taking the difference of two groups of quantitative scale mark numerical values on the cup body.

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

Drawings

FIG. 1 is a schematic view of a simple quantifying cup according to the present invention.

The main components in fig. 1 illustrate: 1 cup 11, cup mouth 12, lid 13, first group of quantitative scale marks 14 and second group of quantitative scale marks.

Detailed Description

As shown in figure 1, the simple quantitative cup comprises a cup body 1, a cup cover 12 and quantitative scale marks 13 and 14; the cup body 1 is in a cylindrical structure, the upper end of the cup body is opened, and the cup opening 11 is in threaded connection with the cup cover 12; two groups of quantitative scale marks 13 and 14 are marked on the cup body 1, the first group of quantitative scale marks 13 are regular quantitative scale marks marked vertically on the side surface of the cup body when the cup body is vertical, and the second group of quantitative scale marks 14 are irregular critical quantitative scale marks marked on the cup body when inclined liquid of the cup body is about to pour out of the cup mouth.

When the cup body 1 is vertical to the horizontal plane, the cup body 1 is equally divided from bottom to top, and regular quantitative scale marks with equal intervals, namely a first group of quantitative scale marks 13, can be marked on the side surface of the cup body 1; if the cup body 1 is symmetrically divided into two halves (in a cylindrical shape), the two halves which are divided into two halves are congruent because the cup body 1 is in the cylindrical shape, the surface which vertically divides the cup body 1 into two halves is a cup body bisecting surface, when the cup body 1 is vertical to a horizontal plane, the cup body 1 is rotated downwards for 90 degrees along the cup body bisecting surface, liquid in the cup body 1 can be poured out gradually until the liquid is zero, in the process, the intersection line of the cup body bisecting surface and the side surface and the bottom surface of the cup body 1 corresponds to each intersection point of the liquid horizontal plane in the cup body 1, so that the corresponding relation of the liquid volume in the cup body 1 and the points on the intersection line of the cup body bisecting surface and the side surface and the bottom surface of the cup body 1 is realized, and the corresponding relations are marked out to form a second group of quantitative scale lines 14; because the cup body 1 is cylindrical, when the cup body 1 is inclined to pour out liquid, the assembly track of the horizontal plane where the same liquid volume is located and the intersection point of the bisection plane of the cup body and the intersection line of the side surface and the bottom surface of the cup body is a circle on the side surface and the bottom surface of the cup body 1, and the second group is the critical quantitative scale mark 14 of the liquid about to pour out of the cup mouth when the cup body marked on the cup body is inclined.

Preferably, the second set of quantitative calibration marks 14 is also represented by an arc (three points on the arc define a plane) between the horizontal plane on which the liquid is to be poured and the side of the cup 1 when the cup 1 is tilted in the same direction.

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 cup body 1 is marked with two quantitative scales on the cup body 1, the two quantitative scales correspond to two states of the cup body 1, one quantitative scale corresponds to the quantitative scale when the cup body 1 is vertical, and the other quantitative scale corresponds to the critical quantitative scale when the cup body 1 is inclined and the liquid is about to be poured out from the cup opening; when liquid needs to be poured out, the cup body 1 is erected firstly, the cup body 1 is perpendicular to the horizontal plane, the total amount of the liquid in the cup body is determined according to the first group of quantitative scale marks 13 which are arranged on the side surface of the cup body vertically, then the cup body 1 is rotated downwards for a certain angle from the vertical direction, the liquid is poured out, and at the moment, the difference between the numerical values of the two groups of quantitative scale marks is the volume of the quantitative liquid to be poured out according to the second group of quantitative scale marks 14.

The above description is only a simple embodiment of the present invention, and should not be construed as limiting the scope of the invention, and all equivalent applications in the specification and claims of the present invention are also included in the scope of the invention.

Claims (3)

1. A simple quantitative cup comprises a cup body, a cup cover and quantitative scale marks; the cup body is in a cylindrical structure, the middle of the cup body is hollow, the upper end of the cup body is open, and the cup mouth is in threaded connection with the cup cover; the cup body is marked with two groups of quantitative scale marks, the first group of quantitative scale marks are regular quantitative scale marks marked vertically on the side surface of the cup body when the cup body is vertical, and the second group of quantitative scale marks are irregular critical quantitative scale marks marked on the cup body when inclined liquid of the cup body is about to pour out of the cup mouth.

2. The simple quantifying cup according to claim 1, wherein: every numerical value of liquid volume in the cup all marks two quantitative scales on the cup, and two quantitative scales correspond two kinds of states of cup, and one corresponds quantitative scale when being the cup is vertical, and one is the critical quantitative scale that liquid was about to pour out from the rim of a cup when the cup inclines.

3. The simple quantifying cup according to claim 1, wherein: when liquid needs to be poured out, the cup body is vertical at first, the cup body is perpendicular to the horizontal plane, the total amount of the liquid in the cup body is determined according to a first group of quantitative scale marks vertical to the side face of the cup body, then the cup body is rotated downwards by a certain angle from the vertical direction, the liquid is poured out, at the moment, the difference between the numerical values of the two groups of quantitative scale marks refers to a second group of quantitative scale marks, and the quantitative liquid volume to be poured out is obtained.

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