CN113537420B - Two-dimensional code inspection method based on big data - Google Patents

Abstract

The invention discloses a two-dimensional code inspection method based on big data, which comprises two-dimensional codes with a plurality of colors, wherein any two-dimensional code contains different information, and the two-dimensional code inspection method is characterized by comprising the following steps: respectively corresponding date information, time information, position information and patrol information of the patrol equipment to two-dimensional codes with a plurality of colors, wherein the colors of the two-dimensional codes corresponding to the date information, the time information, the position information and the patrol information are different; rearranging and combining the date information, the time information, the position information and the two-dimensional code corresponding to the routing inspection information into a routing inspection two-dimensional code according to a preset integration method; when the polling personnel perform polling, the polling two-dimensional code is uploaded to a large database after being scanned; the large database decodes and classifies the inspection two-dimensional code according to a preset decoding method; and generating an inspection equipment operation chart through big data comparison.

Description

Two-dimensional code inspection method based on big data

Technical Field

The invention belongs to the field of big data, relates to a two-dimensional code decoding technology, and particularly relates to a two-dimensional code inspection method based on big data.

Background

The method comprises the steps that a power plant needs to perform patrol and spot inspection on a fixed place every day, hardware equipment is installed in a place needing to be subjected to patrol and spot inspection in a mode adopted before, patrol and spot inspection personnel hand-hold the patrol and spot inspection equipment every day to inspect the corresponding place and perform collision type signal connection, meanwhile, handwritten attendance books are placed in the patrol and spot inspection place, and the patrol and spot inspection time, personnel names and other information of the personnel are recorded, so that the following defects exist;

1. the handwritten sign-in mode is easy to have errors and omissions, and management work such as statistics is inconvenient to develop;

2. the inspection time of workers cannot be determined, and an unqualified inspection mode cannot be examined;

3. the two-dimensional code is easy to forge and read, and the safety of the running data stored in the two-dimensional code is poor.

Disclosure of Invention

The invention aims to provide a two-dimensional code inspection method based on big data, which is used for solving the problems that a two-dimensional code is easy to forge and read, and the safety of running data stored in the two-dimensional code is poor.

The purpose of the invention can be realized by the following technical scheme:

the utility model provides a two-dimensional code inspection method based on big data, includes the two-dimensional code of a plurality of colours, wherein, arbitrary the two-dimensional code all contain different information, the two-dimensional code inspection method includes following step:

respectively corresponding the date information, the time information, the position information and the patrol inspection information of the patrol inspection equipment to two-dimensional codes with a plurality of colors, wherein the colors of the two-dimensional codes corresponding to the date information, the time information, the position information and the patrol inspection information are different;

rearranging and combining the date information, the time information, the position information and the two-dimensional codes corresponding to the inspection information into an inspection two-dimensional code according to a preset integration method;

when the polling personnel perform polling, the polling two-dimensional code is uploaded to a large database after being scanned;

the large database decodes and classifies the inspection two-dimensional code according to a preset decoding method;

and generating an inspection equipment operation chart through big data comparison.

Furthermore, the sizes of the two-dimensional codes corresponding to the date information, the time information, the position information and the routing inspection information are the same.

Further, the preset integration method comprises the following steps:

creating a reference code frame, wherein the area of the reference code frame is equal to the sum of the areas of the two-dimensional codes corresponding to the date information, the time information, the position information and the patrol inspection information;

dividing a plurality of mounting frames in the reference code frame, wherein the area of each mounting frame is equal to the area of a standard black point in the two-dimensional code corresponding to any date information, time information, position information and routing inspection information;

setting a filling rule, and filling any standard black point in the two-dimensional code corresponding to the date information, the time information, the position information and the routing inspection information into the mounting frame according to the filling rule;

after the filling is finished, a plurality of placement frames in the reference code frame form the patrol two-dimensional code together.

Furthermore, all the mounting frames in the inspection two-dimensional code, in which the inspection information is correspondingly stored, are verification mounting frames;

and the verification mounting frame is internally stored with verification information.

Further, the verification installation frame comprises a first black seed, a second black seed and a bottom frame;

a first black particle and a second black particle are sequentially arranged in the bottom frame, and the second black particle is embedded into the first black particle;

the bottom frame is square, the central point of the square bottom frame is selected as a reference leading place, the number of bytes of the inspection information is taken as a leading ground line, a reference leading ground is constructed, and second black seeds are filled in the reference leading ground;

selecting any corner point of the bottom frame as a starting point, and clockwise sequentially using the remaining corner points as a second point, a third point and a verification point;

sequentially acquiring a second point, a third point and a segment of which the verification point is closest to the reference territory of the starting point, and sequentially marking the segments as a first segment, a second segment, a third segment and a fourth segment;

24 points are divided from the first line segment, the 1 st point is coincided with the starting point, and the 24 th point is coincided with the reference territory;

the second line segment is divided into 60 points, the 1 st point is coincided with the second point, and the 60 th point is coincided with the reference territory;

the third line segment is divided into 60 points, the 1 st point is coincided with the third point, and the 60 th point is coincided with the reference territory;

acquiring the time for scanning and inspecting the two-dimensional code, and corresponding the hour corresponding numerical value in the time to 24 points in the first line section to obtain a time point;

the minute corresponding value and the second line segment are divided into 60 points to be corresponding to each other, and division points are obtained;

the corresponding numerical value of the second number corresponds to 60 points which are evenly divided from the third line segment, and a second point is obtained;

the time point, the minute point and the second point are connected in sequence, and the enclosed area is the first black particle.

A verification installation frame for inspection is based on the two-dimensional code inspection method, and comprises a first black piece, a second black piece and a bottom frame;

the black ink comprises a first black ink and a second black ink, and the second black ink is embedded in the first black ink.

The bottom frame is square, the central point of the square bottom frame is selected as a reference leading place, the number of bytes of the inspection information is taken as a leading ground line, a reference leading ground is constructed, and second black seeds are filled in the reference leading ground;

selecting any corner point of the bottom frame as a starting point, and clockwise sequentially using the remaining corner points as a second point, a third point and a verification point;

sequentially acquiring a second point, a third point and a segment of which the verification point is closest to the reference territory of the starting point, and sequentially marking the segments as a first segment, a second segment, a third segment and a fourth segment;

24 points are divided from the first line segment, the 1 st point is coincided with the starting point, and the 24 th point is coincided with the reference territory;

the second line segment is divided into 60 points, the 1 st point is coincided with the second point, and the 60 th point is coincided with the reference territory;

the third line segment is divided into 60 points, the 1 st point is coincided with the third point, and the 60 th point is coincided with the reference territory;

acquiring the time for scanning the two-dimensional code, and corresponding the hour corresponding numerical value in the time to 24 points in the first line segment to obtain a time point;

the minute corresponding value and the second line segment are divided into 60 points to be corresponding to each other, and division points are obtained;

the corresponding numerical value of the second number corresponds to 60 points which are evenly divided from the third line segment, and a second point is obtained;

the time point, the minute point and the second point are connected in sequence, and the enclosed area is the first black particle.

Compared with the prior art, the invention has the beneficial effects that:

filling rules are designed according to the requirements of inspection managers, so that the risk of the inspection of the two-dimensional code being imitated is reduced; meanwhile, the situation that irrelevant people and the like acquire the operation information of the inspection equipment is avoided, and the security during inspection is improved;

the large database stores a filling rule which is designed according to the requirements of inspection managers in advance, and decryption of the inspection two-dimensional code can be completed through direction operation; after decryption is completed, the inspection equipment of the same type is classified into the same type; according to the requirements, the routing inspection equipment operation chart is generated by calling the same type of routing inspection equipment and decrypting the data, so that visual operation is realized.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic block diagram of the present invention;

FIG. 2 is a schematic diagram of a first black sub-structure according to the present invention;

FIG. 3 is a schematic diagram of a second exemplary embodiment of the present invention;

FIG. 4 is a schematic view of the mounting frame of the present invention;

FIG. 5 is a diagram illustrating a structure of a verification positioning frame according to the present invention.

In the figure: 1. a starting point; 2. a second point; 3. a third point; 4. verifying the point; 5. a reference lead location; 6. A ground lead wire; 7. a reference territory; 8. a first black seed; 9. a second black seed; 10. a bottom frame.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings of the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

Thus, the detailed description of the embodiments of the present invention provided in the following drawings is not intended to limit the scope of the invention as claimed, but is merely representative of selected embodiments of the invention.

Traditionally, a power plant needs to perform patrol and spot inspection on a fixed place every day, a hardware device is installed at a place needing patrol and spot inspection in a mode adopted before, patrol and spot inspection personnel hold the patrol and spot inspection device every day to patrol and inspect the corresponding place and perform collision type signal connection, meanwhile, a handwritten attendance book is placed at the patrol and spot inspection place, and the patrol and spot inspection time, personnel names and other information of the working personnel are recorded, so that the following defects exist;

the handwritten sign-in mode is easy to have errors and omissions, and management work such as statistics is inconvenient to develop; the inspection time of workers cannot be determined, and an unqualified inspection mode cannot be examined; the two-dimensional code is easy to forge and read, and the safety of the running data stored in the two-dimensional code is poor.

To the technical problem, the application provides a two-dimensional code inspection method based on big data, including the two-dimensional code of a plurality of colours, wherein, arbitrary two-dimensional code all contains different information, and the two-dimensional code inspection method includes following step:

respectively corresponding date information, time information, position information and patrol information of the patrol equipment to two-dimensional codes with a plurality of colors, wherein the colors of the two-dimensional codes corresponding to the date information, the time information, the position information and the patrol information are different;

rearranging and combining the date information, the time information, the position information and the two-dimensional code corresponding to the routing inspection information into a routing inspection two-dimensional code according to a preset integration method;

when the polling personnel perform polling, the polling two-dimensional code is uploaded to a large database after being scanned;

the large database decodes and classifies the patrol two-dimensional codes according to a preset decoding method;

and generating an inspection equipment operation chart through big data comparison.

The method and the device are used for solving the problems that the existing two-dimensional code can be randomly generated and read, and the confidentiality is poor.

Based on the above description, the embodiment of the present invention provides a two-dimensional code inspection method based on big data as shown in fig. 1, where the date information, the time information, the position information, and the two-dimensional code size corresponding to the inspection information are all the same.

By selecting two-dimensional codes with the same size, the same decomposition blocks can be generated after each two-dimensional code is equally divided, and the problem that scanning and uploading are failed due to the fact that the shape of the inspection two-dimensional code after subsequent combination is not standard is avoided;

the preset integration method comprises the following steps:

creating a reference code frame, wherein the area of the reference code frame is equal to the sum of the areas of the two-dimensional codes corresponding to the date information, the time information, the position information and the routing inspection information;

because the sizes of the corresponding two-dimensional codes are the same, the area of the reference code frame of the inspection two-dimensional code after being recombined is equal to the sum of the date information, the time information, the position information and the area of the two-dimensional code corresponding to the inspection information

Dividing a plurality of mounting frames in the reference code frame, wherein the area of each mounting frame is equal to the area of a standard black point in the two-dimensional code corresponding to any date information, time information, position information and routing inspection information;

the plurality of the mounting frames are squares with the same area and size, so that the normalization and the universality of the two-dimensional code formed subsequently are ensured;

setting a filling rule, and filling any date information, time information, position information and standard black points in the two-dimensional code corresponding to the routing inspection information into the mounting frame according to the filling rule;

filling rules are designed according to the requirements of inspection managers, so that the risk of the inspection of the two-dimensional code being imitated is reduced;

meanwhile, the situation that irrelevant people and the like acquire the operation information of the inspection equipment is avoided, and the security during inspection is improved;

after the filling is finished, a plurality of placement frames in the reference code frame form the patrol two-dimensional code together.

For example, as shown in fig. 4-5, it is assumed that only 4 standard black dots exist in the two-dimensional code corresponding to the date information, the time information, the position information, and the patrol inspection information;

the self-designed filling rule is that 11 standard black dots in date information are filled into an A1 mounting frame, 21 standard black dots in time information are filled into an A2 mounting frame, 31 standard black dots in position information are filled into an A3 mounting frame, 41 standard black dots in inspection information are filled into an A4 mounting frame, at the moment, filling of a first line of a reference code frame is completed, next, 12 standard black dots in the date information are filled into a B1 mounting frame, … … and … … are analogized in turn, 44 standard black dots in the inspection information are filled into a D4 mounting frame, complete filling of the reference code frame is completed, and the inspection two-dimensional code is formed.

Patrol and examine the two-dimensional code and be square standard two-dimensional code, can be scanned by general equipment for the personnel of patrolling and examining only need carry the cell-phone of oneself and can realize sweeping the code, reduce the spending of equipment of patrolling and examining, promote economic benefits.

The arrangement frames in the patrol two-dimensional code, in which the patrol information is correspondingly stored, are verification arrangement frames;

the verification installation frame stores verification information.

The routing inspection information is subjected to safe encryption treatment, so that the routing inspection safety of the core routing inspection equipment is further enhanced, and the data safety is ensured;

specifically, the verification installation frame comprises a first black seed 8, a second black seed 9 and a bottom frame 10;

by arranging the single black seed different from the traditional two-dimensional code, the double black seeds are used, on one hand, the complexity of the whole two-dimensional code is improved, the data safety is improved, and on the other hand, the inspection time of an inspector can be easily obtained through the time verification function of the first black seed 8, and the inspection is standardized.

In the specific implementation:

the bottom frame 10 is internally provided with a first black particle 8 and a second black particle 9 in sequence, and the second black particle 9 is embedded into the first black particle 8;

the bottom frame 10 is square, the central point of the square bottom frame 10 is selected as a reference leading place 5, the number of bytes contained in the routing inspection information is a leading line 6, a reference leading place 7 is constructed, and a second black seed 9 is filled in the reference leading place 7;

specifically, the number of bytes is the number of bytes corresponding to key information in the inspection information, wherein the key information is preset, for example, the inspection information includes operation data, state data, parameter data, auxiliary data, and the like, and the key information is different according to different inspection devices corresponding to the inspection information, for example, if the inspection device is an auxiliary device, the key information is the operation data; if the inspection equipment is key equipment, the key information is operation data, state data and parameter data;

the area of the second black seed 9 is ensured to be smaller than the verification placement frame by selecting the byte number corresponding to the key information, and the encrypted key information can be stored in the verification placement frame.

Selecting any corner point of the bottom frame 10 as a starting point 1, and clockwise sequentially setting the remaining corner points as a second point 2, a third point 3 and a verification point 4;

sequentially acquiring line segments of a starting point 1, which are closest to a second point 2, a third point 3 and a verification point 4 and a reference territory 7, and sequentially marking the line segments as a first line segment, a second line segment, a third line segment and a fourth line segment;

24 points are divided from the first line segment, the 1 st point is coincided with the starting point 1, and the 24 th point is coincided with the reference land 7;

60 points are uniformly distributed on the second line segment, the 1 st point is coincided with the second point 2, and the 60 th point is coincided with the reference tie 7;

the third line segment is divided into 60 points, the 1 st point is coincided with the third point 3, and the 60 th point is coincided with the reference tie 7;

acquiring the time for scanning and inspecting the two-dimensional code, and corresponding the hour corresponding numerical value in the time to 24 points in the first line segment to obtain a time point;

the minute corresponding value and the second line segment are divided into 60 points to be corresponding to each other, and division points are obtained;

the corresponding numerical value of the second number corresponds to 60 points which are evenly divided from the third line segment, and a second point is obtained;

the time point, the minute point and the second point are connected in sequence, and the enclosed area is the first black particle 8.

Illustratively, when the time node is 14 points, 24 minutes and 31 seconds, the corresponding 14 th point in the first line segment is the time point, the 24 th point in the second line segment is the minute point, and the 31 st point in the third line segment is the second point, and then the time point, the minute point and the second point are sequentially connected to obtain the verification positioning frame shown in fig. 3.

The areas enclosed by the first black seeds 8 obtained by the method are different at different times, and the inspection time can be obtained at a high speed by calculating the areas;

the first line segment, the second line segment, the third line segment and the fourth line segment are arranged, only three of the first line segment, the second line segment, the third line segment and the fourth line segment are applied, the fourth line segment can be conveniently and quickly positioned when the large database is decrypted, the first line segment, the second line segment and the third line segment can be distinguished through anticlockwise rotation, and whether the data is real or not can be distinguished by combining the area of the first black seed 8, so that data forgery is avoided;

the database decodes and classifies the inspection two-dimensional code according to a preset decoding method, wherein a large database stores filling rules which are designed according to the requirements of inspection managers in advance, and decryption of the inspection two-dimensional code can be completed through direction operation;

after decryption is completed, the inspection equipment of the same type is classified into the same type;

the method has the advantages that the visual operation is realized by calling the same type of inspection equipment and decrypting the data to form an inspection equipment operation chart.

When the system is used specifically, an inspection worker scans the inspection two-dimensional code at the specified inspection time by using general equipment such as a mobile phone and the like, and uploads the inspection two-dimensional code to a large database

The database decodes and classifies the inspection two-dimensional code according to a preset decoding method, wherein a large database stores filling rules which are designed according to the requirements of inspection managers in advance, and decryption of the inspection two-dimensional code can be completed through direction operation;

after decryption is completed, the inspection equipment of the same type is classified into the same type;

according to the requirements, the routing inspection equipment operation chart is generated by calling the same type of routing inspection equipment and decrypting the data, so that visual operation is realized. In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

Furthermore, the terms "first", "second" and "first" 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 defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

The specific meanings of the above terms in the present invention can be understood as specific cases to those of ordinary skill in the art; the preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (6)

1. The utility model provides a two-dimensional code inspection method based on big data, includes the two-dimensional code of a plurality of colours, wherein, arbitrary the two-dimensional code all contain different information, its characterized in that, the two-dimensional code inspection method includes following step:

respectively corresponding date information, time information, position information and patrol information of the patrol equipment to two-dimensional codes with a plurality of colors, wherein the colors of the two-dimensional codes corresponding to the date information, the time information, the position information and the patrol information are different, and the sizes of the two-dimensional codes corresponding to the date information, the time information, the position information and the patrol information are the same;

rearranging and combining the date information, the time information, the position information and the two-dimensional code corresponding to the inspection information into an inspection two-dimensional code according to a preset integration method, wherein a reference code frame is created, and the area of the reference code frame is equal to the sum of the areas of the date information, the time information, the position information and the two-dimensional code corresponding to the inspection information: because the sizes of the corresponding two-dimensional codes are the same, the area of the reference code frame of the inspection two-dimensional code after being recombined is equal to the sum of the date information, the time information, the position information and the area of the two-dimensional code corresponding to the inspection information; a plurality of arrangement frames are divided in the reference code frame, wherein the area of the arrangement frames is equal to the area of standard black dots in the two-dimensional code corresponding to any date information, time information, position information and routing inspection information: the plurality of mounting frames are squares with the same area and size, so that the normalization and the universality of a two-dimensional code formed subsequently are ensured; setting a filling rule, filling any date information, time information, position information and standard black points in the two-dimensional code corresponding to the inspection information into a placement frame according to the filling rule: after the filling is finished, a plurality of mounting frames in the reference code frame form a patrol two-dimensional code together;

when the polling personnel perform polling, the polling two-dimensional code is uploaded to a large database after being scanned;

the large database decodes and classifies the inspection two-dimensional code according to a preset decoding method;

and generating an inspection equipment operation chart through big data comparison.

2. The two-dimensional code inspection method based on big data according to claim 1, wherein the two-dimensional code sizes corresponding to the date information, the time information, the position information and the inspection information are the same.

3. The two-dimensional code inspection method based on big data according to claim 2, wherein the preset integration method comprises the following steps:

creating a reference code frame, wherein the area of the reference code frame is equal to the sum of the areas of the two-dimensional codes corresponding to the date information, the time information, the position information and the patrol inspection information;

dividing a plurality of mounting frames in the reference code frame, wherein the area of each mounting frame is equal to the area of a standard black point in the two-dimensional code corresponding to any date information, time information, position information and routing inspection information;

setting a filling rule, and filling any standard black point in the two-dimensional code corresponding to the date information, the time information, the position information and the routing inspection information into the mounting frame according to the filling rule;

after the filling is finished, a plurality of mounting frames in the reference code frame form the inspection two-dimensional code together.

4. The two-dimensional code inspection method based on big data according to claim 3, wherein the mounting frames in the inspection two-dimensional code, in which the inspection information is correspondingly stored, are all verification mounting frames;

and the verification mounting frame is internally stored with verification information.

5. The big data based two-dimensional code inspection method according to claim 4, wherein the verification installation frame comprises a first black matrix (8), a second black matrix (9) and a bottom frame (10);

a first black piece (8) and a second black piece (9) are sequentially arranged in the bottom frame (10), and the second black piece (9) is embedded into the first black piece (8);

the bottom frame (10) is square, the central point of the square bottom frame (10) is selected as a reference leading place (5), the number of bytes of the inspection information is taken as a leading line (6), a reference leading place (7) is constructed, and second black seeds (9) are filled in the reference leading place (7);

selecting any corner point of the bottom frame (10) as a starting point (1), and clockwise sequentially using the remaining corner points as a second point (2), a third point (3) and a verification point (4);

sequentially acquiring line segments of the starting point (1), which are closest to a second point (2), a third point (3) and a verification point (4) and a reference territory (7), and sequentially marking the line segments as a first line segment, a second line segment, a third line segment and a fourth line segment;

24 points are divided from the first line segment, the 1 st point is coincided with the starting point (1), and the 24 th point is coincided with the reference land (7);

the second line segments are divided into 60 points, the 1 st point is overlapped with the second point (2), and the 60 th point is overlapped with the reference tie ground (7);

the third line segments are divided into 60 points, the 1 st point is coincided with the third point (3), and the 60 th point is coincided with the reference tie (7);

acquiring the time for scanning and inspecting the two-dimensional code, and corresponding the hour corresponding numerical value in the time to 24 points in the first line section to obtain a time point;

the minute corresponding value and the second line segment are divided into 60 points to be corresponding to each other, and division points are obtained;

the corresponding numerical value of the second number corresponds to 60 points which are evenly divided from the third line segment, and a second point is obtained;

the time point, the minute point and the second point are connected in sequence, and the enclosed area is the first black particle (8).

6. A verification installation frame for inspection, based on the two-dimensional code inspection method based on big data of any one of claims 1-5, characterized in that the verification installation frame comprises a first black seed (8), a second black seed (9) and a bottom frame (10);

a first black particle (8) and a second black particle (9), wherein the second black particle (9) is embedded in the first black particle (8);

the bottom frame (10) is square, the central point of the square bottom frame (10) is selected as a reference leading place (5), the number of bytes of the inspection information is taken as a leading line (6), a reference leading place (7) is constructed, and second black seeds (9) are filled in the reference leading place (7);

selecting any corner point of the bottom frame (10) as a starting point (1), and clockwise sequentially using the remaining corner points as a second point (2), a third point (3) and a verification point (4);

sequentially acquiring line segments of the starting point (1), which are closest to a second point (2), a third point (3) and a verification point (4) and a reference territory (7), and sequentially marking the line segments as a first line segment, a second line segment, a third line segment and a fourth line segment;

24 points are divided from the first line segment, the 1 st point is coincided with the starting point (1), and the 24 th point is coincided with the reference land (7);

the second line segments are divided into 60 points, the 1 st point is overlapped with the second point (2), and the 60 th point is overlapped with the reference tie ground (7);

60 points are distributed on the third line segment, the 1 st point is coincided with the third point (3), and the 60 th point is coincided with the reference territory (7);

acquiring the time for scanning the two-dimensional code, and corresponding the hour corresponding numerical value in the time to 24 points in the first line segment to obtain a time point;

dividing the minute corresponding value and the second line segment into 60 points to correspond to each other, and obtaining division points;

the corresponding numerical value of the second number corresponds to 60 points which are evenly divided from the third line segment, and a second point is obtained;

the time point, the minute point and the second point are connected in sequence, and the enclosed area is the first black particle (8).

Images