CN111781095A - Anti-counterfeiting identification method based on energy conservation - Google Patents

Abstract

The invention discloses an anti-counterfeiting identification method based on energy conservation, which is characterized by comprising the following steps: s1: water is poured into the measuring cylinder with the volume scales, and then the water is added to the middle of the measuring cylinder until the water level reaches the middle of the measuring cylinder, so that the water level of the added water is aligned with the volume scales of a certain integer unit. The object to be detected and identified is placed into the measuring cylinder with volume scales, namely, the volume of the object can be measured and calculated through the liquid level difference of water in the measuring cylinder, the whole measuring device can be used for independently weighing the object to be detected and identified placed into the measuring cylinder through weighing and resetting, so that the object to be detected and identified can be quickly measured and calculated, the volume-to-mass ratio of the object to be detected and identified can be quickly calculated, the effect of conveniently and quickly and accurately measuring and calculating the mass and the volume of the detected object is achieved, the purposes of accurately and efficiently measuring and calculating and anti-counterfeiting identification by inexperienced people are achieved, and the anti-counterfeiting identification is conveniently carried out through the measurement and calculation through the energy conservation law.

Description

Anti-counterfeiting identification method based on energy conservation

Technical Field

The invention relates to the technical field of anti-counterfeiting identification, in particular to an anti-counterfeiting identification method based on energy conservation.

Background

Energy conservation is a physical term, energy is neither generated nor lost by space, and energy can only be transferred from one object to another, and forms of energy can also be converted. This is a summary of energy, called the law of conservation of energy, which was discovered independently from different sides by 10 scientists of different occupations in 5 countries, where meier, joule, helmholtz are the main contributors, one of the most fundamental laws in the natural science, which scientifically clarifies the viewpoint of immobility of movement, in physics, the law of conservation of energy states that the total energy of an isolated system in a given frame of reference remains unchanged, it is considered conservative over time, energy cannot be created or destroyed, but is transformed from one form to another, as a result of which the first class of permanently moving machines cannot exist (such machines do not consume any energy, but can do work continuously outwards), for equations of motion without time-translational symmetry, conservation of energy may not be defined, examples include time crystals in the physics of bending space or condensed states in generalized relativity; the mass and the volume of the article can be measured and calculated through energy conservation so as to perform anti-counterfeiting identification.

Most of the anti-counterfeiting identification methods in the current market rely on various perception experiences of people for judgment, the detection objects are difficult to be quickly and accurately measured and calculated in terms of mass and volume, people who are inexperienced are inconvenient to measure and calculate through the law of energy conservation for anti-counterfeiting identification, and the anti-counterfeiting identification difficulty is high.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides an anti-counterfeiting identification method based on energy conservation.

An anti-counterfeiting identification method based on energy conservation comprises the following steps:

s1: pouring water into a measuring cylinder with volume scales, adding the water to the middle of the measuring cylinder until the water level reaches the volume scales of a certain integer unit, and covering the measuring cylinder with a cylinder cover;

s2: the measuring cylinder which is filled with water and is subjected to capping in the S1 is entirely placed at a weighing induction end of a weighing device, the weighing device is used for weighing the entire measuring cylinder, the water in the measuring cylinder and a cylinder cover, and then the weight is reset;

s3: the method comprises the following steps of opening a cylinder cover, placing an article to be measured and identified into a measuring cylinder, completely immersing the article to be measured and identified into the measuring cylinder by water in the measuring cylinder, and sealing the cylinder cover for standing;

s4: by observing the measuring cylinder which is kept still in S3 and comparing the volume scale position reached by the water level with the scale of the original liquid level, the volume of the article to be measured and identified which is put into the measuring cylinder can be measured and calculated;

s5, the whole measuring cylinder which is kept still in the S3 is weighed and measured, so that the single weight added by the object to be measured and the identified article can be measured and calculated after the step S2 is cleared, the volume of the object to be measured and the volume of the identified article can be measured and calculated in the step S4, the mass of the whole article in unit volume can be obtained, and the anti-counterfeiting identification measurement and calculation can be carried out.

Preferably, the measuring cylinder in step S1 is a transparent cylinder, and the cylinder cover on the measuring cylinder cover has sealing property to prevent evaporation of water contained in the measuring cylinder.

Preferably, when the object to be measured and identified is placed in the measuring cylinder in step S3, the object to be measured and identified is held by the tweezers, and then slowly immersed in the water inside the measuring cylinder, and the tweezers need not be immersed in water.

The invention provides an anti-counterfeiting identification method based on energy conservation, which is characterized in that an article to be detected and identified is placed into a measuring cylinder with volume scales, namely, the volume of the article can be measured and calculated through the liquid level difference of water in the measuring cylinder, the whole measuring device can be used for independently weighing the article to be detected and identified placed in the measuring cylinder through weighing and resetting, so that the article to be detected and identified can be quickly measured and calculated, the volume-to-mass ratio of the article to be detected and the article to be detected can be quickly calculated, the effect of conveniently and quickly and accurately measuring and calculating the mass and the volume of the detected article is achieved, the purposes of accurately and efficiently measuring and calculating and anti-counterfeiting identification by inexperienced people are achieved, and the anti-counterfeiting identification is conveniently carried out through the measurement and calculation by the energy conservation law.

Detailed Description

The present invention will be further illustrated with reference to the following specific examples.

The invention provides an anti-counterfeiting identification method based on energy conservation, which comprises the following steps:

s1: pouring water into a measuring cylinder with volume scales, adding the water to the middle of the measuring cylinder until the water level reaches the volume scales of a certain integer unit, and covering the measuring cylinder with a cylinder cover;

s2: the measuring cylinder which is filled with water and is subjected to capping in the S1 is entirely placed at a weighing induction end of a weighing device, the weighing device is used for weighing the entire measuring cylinder, the water in the measuring cylinder and a cylinder cover, and then the weight is reset;

s3: the method comprises the following steps of opening a cylinder cover, placing an article to be measured and identified into a measuring cylinder, completely immersing the article to be measured and identified into the measuring cylinder by water in the measuring cylinder, and sealing the cylinder cover for standing;

s4: by observing the measuring cylinder which is kept still in S3 and comparing the volume scale position reached by the water level with the scale of the original liquid level, the volume of the article to be measured and identified which is put into the measuring cylinder can be measured and calculated;

s5, the whole measuring cylinder which is kept still in the S3 is weighed and measured, so that the single weight added by the object to be measured and the identified article can be measured and calculated after the step S2 is cleared, the volume of the object to be measured and the volume of the identified article can be measured and calculated in the step S4, the mass of the whole article in unit volume can be obtained, and the anti-counterfeiting identification measurement and calculation can be carried out.

The measuring cylinder in step S1 is a transparent cylinder, and the cylinder cover on the measuring cylinder cover has sealing property to prevent evaporation of water in the measuring cylinder.

When the object to be measured and identified is placed into the measuring cylinder in step S3, the object to be measured and identified is held by the tweezers, and then slowly immersed into the water body of the measuring cylinder, and the tweezers need not be immersed into water.

The invention provides an anti-counterfeiting identification method based on energy conservation, which can measure and calculate the volume of an article to be detected and identified by putting the article to be detected and identified into a measuring cylinder with volume scales through the liquid level difference of water in the measuring cylinder, and independently weigh the article to be detected and identified which is put into the measuring cylinder by weighing and resetting the whole measuring device, thereby quickly measuring and calculating the article to be detected and identified, and quickly calculating the volume-to-mass ratio of the article to be detected and the article to be detected, thereby achieving the effect of conveniently and quickly and accurately measuring and calculating the mass and the volume of the detected article, realizing the aim of accurately and efficiently measuring and calculating and anti-counterfeiting identification for inexperienced people, being convenient for measuring and calculating through the law of energy conservation to identify anti-counterfeiting, and solving the problem that the anti-counterfeiting identification method in the current market mostly depends on various perception experiences of people to judge, the method has the problems that the method is difficult to measure and calculate the mass and the volume of a detected article quickly and accurately, people who are inexperienced are inconvenient to measure and calculate through the energy conservation law to perform anti-counterfeiting identification, and the anti-counterfeiting identification difficulty is high.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (3)

1. An anti-counterfeiting identification method based on energy conservation is characterized by comprising the following steps:

s1: pouring water into a measuring cylinder with volume scales, adding the water to the middle of the measuring cylinder until the water level reaches the volume scales of a certain integer unit, and covering the measuring cylinder with a cylinder cover;

s2: the measuring cylinder which is filled with water and is subjected to capping in the S1 is entirely placed at a weighing induction end of a weighing device, the weighing device is used for weighing the entire measuring cylinder, the water in the measuring cylinder and a cylinder cover, and then the weight is reset;

s3: the method comprises the following steps of opening a cylinder cover, placing an article to be measured and identified into a measuring cylinder, completely immersing the article to be measured and identified into the measuring cylinder by water in the measuring cylinder, and sealing the cylinder cover for standing;

s4: by observing the measuring cylinder which is kept still in S3 and comparing the volume scale position reached by the water level with the scale of the original liquid level, the volume of the article to be measured and identified which is put into the measuring cylinder can be measured and calculated;

s5, the whole measuring cylinder which is kept still in the S3 is weighed and measured, so that the single weight added by the object to be measured and the identified article can be measured and calculated after the step S2 is cleared, the volume of the object to be measured and the volume of the identified article can be measured and calculated in the step S4, the mass of the whole article in unit volume can be obtained, and the anti-counterfeiting identification measurement and calculation can be carried out.

2. The method according to claim 1, wherein the measuring cylinder in step S1 is a transparent cylinder, and the cylinder cover on the measuring cylinder cover has sealing property to prevent evaporation of water contained in the measuring cylinder.

3. The method for anti-counterfeit identification based on energy conservation according to claim 1, wherein in step S3, when the object to be measured and identified is placed in the measuring cylinder, the object to be measured and identified is held by the tweezers, and then slowly immersed in the water body of the measuring cylinder, and the tweezers are prevented from immersing in water.