CN116188031A - Building engineering quality safety tracing and tracking management system based on big data - Google Patents

Abstract

The invention provides a constructional engineering quality safety tracing and tracking management system based on big data, which comprises the following components: the building module is used for marking detection parameters of building structures of building engineering and building a building engineering distribution diagram, wherein the building engineering distribution diagram is formed by combining a plurality of building structures; the marking module is used for marking the design data, the construction data and the acceptance data of the building engineering on the building engineering distribution diagram to obtain an engineering distribution data diagram; the two-dimension code generation module is used for uploading the engineering distribution data graph to a database and generating a comprehensive two-dimension code; and the tracing module is used for tracing the building engineering based on the comprehensive two-dimensional code, realizing the safety tracing of the building engineering and defining a responsibility main body.

Description

Building engineering quality safety tracing and tracking management system based on big data

Technical Field

The invention relates to the technical field of engineering quality management, in particular to a construction engineering quality safety tracing and tracking management system based on big data.

Background

Engineering quality management refers to system management activities performed by applying a complete set of quality management systems, means and methods to ensure and improve engineering quality. The quality of engineering is good and bad, which is a fundamental problem. The engineering project is constructed, the investment is large, the construction and use period is long, and only if the engineering project meets the quality standard, the engineering project can be put into production and delivered for use, so that the investment benefit is exerted, and the social requirement is met by combining the professional technology, the operation management and the mathematical statistics.

The traditional engineering quality management cannot be in butt joint with the terminals of owners or national supervision departments through big data, so that the situation of difficult tracing after accidents occur, the specific reasons and specific responsible persons of the accidents cannot be clarified, and along with the use of the construction engineering years, the safety parameters of the building can also be changed, so that the tracking management cannot be performed.

Disclosure of Invention

The invention provides a construction engineering quality safety tracing and tracking management system based on big data, which realizes the safety tracing and tracking of construction engineering and determines a responsibility main body.

A constructional engineering quality safety tracing and tracking management system based on big data comprises:

the building module is used for marking detection parameters of building structures of building engineering and building a building engineering distribution diagram, wherein the building engineering distribution diagram is formed by combining a plurality of building structures;

the marking module is used for marking the design data, the construction data and the acceptance data of the building engineering on the building engineering distribution diagram to obtain an engineering distribution data diagram;

the two-dimension code generation module is used for uploading the engineering distribution data graph to a database and generating a comprehensive two-dimension code;

and the tracing module is used for tracing the building engineering based on the comprehensive two-dimensional code.

Preferably, the establishing module includes:

the marking unit is used for marking the detection parameters of the building structure of the building engineering to obtain a parameter marked building structure;

and the combining unit is used for acquiring the connection relation between the parameter mark building structures and combining the parameter mark building structures according to the connection relation to obtain an engineering distribution diagram.

Preferably, the marking module includes:

the first marking unit is used for determining a first corresponding relation between the design data and the building structure in the building engineering distribution diagram and marking the design data on the building engineering distribution diagram based on the first corresponding relation;

the second marking unit is used for determining a second corresponding relation between the construction data and the building structure in the building engineering distribution diagram and marking the construction data on the building engineering distribution diagram based on the second corresponding relation;

the third marking unit is used for determining a third corresponding relation between the acceptance data and the building structure in the building engineering distribution diagram and marking the acceptance data on the building engineering distribution diagram based on the third corresponding relation;

and the integration unit is used for integrating the construction engineering distribution diagram according to the first marking result, the second marking result and the third marking result to generate an engineering distribution data diagram.

Preferably, the two-dimensional code generating module includes:

the uploading unit is used for sequentially and respectively uploading the design data, the construction data and the acceptance data acquired from the engineering distribution data graph to the database;

the two-dimensional code generation unit is used for respectively generating a first two-dimensional code, a second two-dimensional code and a third two-dimensional code according to the storage addresses of the design data, the construction data and the acceptance data in the database;

the encryption unit is used for carrying out first encryption on the first two-dimensional code, carrying out second encryption on the second two-dimensional code and carrying out third encryption on the third two-dimensional code, and generating a comprehensive two-dimensional code according to an encryption result.

Preferably, the two-dimensional code generating unit includes:

the first generation unit is used for distributing the first identification to the design data and the corresponding storage address and generating a first two-dimensional code based on the first identification;

the second generation unit is used for distributing a second identifier to the construction data and the corresponding storage address and generating a second two-dimensional code based on the second identifier;

and the third generation unit is used for distributing a third identifier to the acceptance data and the corresponding storage address and generating a third two-dimensional code based on the second identifier.

Preferably, the encryption unit includes:

a two-dimensional code encryption unit for performing first encryption on the first two-dimensional code, performing second encryption on the second two-dimensional code and performing third encryption on the third two-dimensional code,

the encryption marking unit is used for obtaining a first encryption mark according to the first encryption result, obtaining a second encryption mark according to the second encryption result, obtaining a third encryption mark of the third encryption result, obtaining a fourth encryption mark according to the first encryption result and the second encryption result, obtaining a fifth encryption mark according to the first encryption result and the third encryption result, obtaining a sixth encryption mark according to the second encryption result and obtaining a seventh encryption mark according to the first encryption result, the second encryption result and the third encryption result;

the generating unit is used for generating the comprehensive two-dimensional code based on the first encryption identifier, the second encryption identifier, the third encryption identifier, the fourth encryption identifier, the fifth encryption identifier, the sixth encryption identifier and the seventh encryption identifier.

Preferably, the tracing module includes:

the identification adding unit is used for matching corresponding authority identification for each user according to the login information of the user and adding the authority identification into the user identity information;

the identification matching unit is used for acquiring the scanning of the comprehensive two-dimensional code by the current user, acquiring a target authority identification of the current user from the scanning process, matching the target authority identification with an encryption identification in the comprehensive two-dimensional code, and determining a target encryption identification;

the data acquisition unit is used for acquiring a scanning display result based on the target encryption identifier and acquiring target data from the scanning display result;

and the main body determining unit is used for comparing the target data with standard data and determining a responsibility main body.

Preferably, the data acquisition unit includes:

the address determining unit is used for acquiring a corresponding display storage address from the scanning display result, determining a target building structure according to the search requirement of a user, and acquiring a target storage address corresponding to the target building structure from the display storage address;

and the data extraction unit is used for acquiring a target distribution diagram from the engineering distribution data diagram according to the target storage address and extracting target data from the target distribution diagram.

Preferably, the main body determining unit includes:

the first comparison unit is used for judging the type quantity of the target data, and comparing the target data with standard data when the type quantity of the target data is 1, so as to judge whether a difference exists;

if yes, acquiring difference data from target data, determining a difference point of the difference data, and determining that a main body of the difference point is a responsibility main body, otherwise, determining that the data type corresponding to the target data has no responsibility;

and the second comparison unit is used for dividing the target data according to the data types to obtain the type data when the number of the types of the target data is larger than 1, establishing a corresponding relation between the type data and the standard data, determining the comparison sequence of the type data according to the intention of the current user, sequentially comparing the type data and the standard data according to the corresponding relation and the comparison sequence, and determining a responsibility main body according to the comparison result.

Preferably, the method further comprises: the changing module is used for changing the detection parameters of the building engineering;

the change module includes:

the instruction analysis unit is used for acquiring an instruction for updating the detection parameters of the building engineering, analyzing the instruction and determining the detection parameters to be changed in a database corresponding to the instruction;

and the changing unit is used for updating the detection parameters to be changed into the latest detection parameters from the building engineering distribution map to obtain the latest building engineering distribution map, and reserving a change record.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims thereof as well as the appended drawings.

The technical scheme of the invention is further described in detail through the drawings and the embodiments.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a block diagram of a construction engineering quality safety traceability tracking management system based on big data in an embodiment of the invention;

FIG. 2 is a block diagram of the two-dimensional code generation module according to an embodiment of the present invention;

fig. 3 is a block diagram of the tracing module in the embodiment of the invention.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.

Example 1

The embodiment of the invention provides a constructional engineering quality safety tracing and tracking management system based on big data, which is shown in fig. 1 and comprises the following steps:

the building module is used for marking detection parameters of building structures of building engineering and building a building engineering distribution diagram, wherein the building engineering distribution diagram is formed by combining a plurality of building structures;

the marking module is used for marking the design data, the construction data and the acceptance data of the building engineering on the building engineering distribution diagram to obtain an engineering distribution data diagram;

the two-dimension code generation module is used for uploading the engineering distribution data graph to a database and generating a comprehensive two-dimension code;

and the tracing module is used for tracing the building engineering based on the comprehensive two-dimensional code.

In this embodiment, the design data, construction data, and acceptance data of the building engineering are marked as separate marks on the building engineering distribution map, without affecting each other.

In this embodiment, the integrated two-dimensional code is used to implement a lookup of design data, construction data, and acceptance data.

The beneficial effects of above-mentioned design scheme are: the construction engineering distribution map is established by firstly marking the detection parameters of the construction structure of the construction engineering, the construction engineering distribution map is divided into a plurality of construction structures, the follow-up tracing of any one construction structure is facilitated, the construction engineering design data, construction data and acceptance data are marked on the construction engineering distribution map, an engineering distribution data map is obtained, the engineering distribution data map is uploaded to a database, and a comprehensive two-dimensional code is generated, so that the design data, the construction data and the acceptance data are searched, the related data are traced and tracked in the database through the comprehensive two-dimensional code, and the determination of specific reasons and specific responsible persons is facilitated.

Example 2

Based on embodiment 1, the embodiment of the invention provides a constructional engineering quality safety tracing management system based on big data, wherein the building module comprises:

the marking unit is used for marking the detection parameters of the building structure of the building engineering to obtain a parameter marked building structure;

and the combining unit is used for acquiring the connection relation between the parameter mark building structures and combining the parameter mark building structures according to the connection relation to obtain an engineering distribution diagram.

The beneficial effects of above-mentioned design scheme are: the method has the advantages that all partial parameter marking building structures in the established engineering distribution diagram are defined, a data basis is provided for a responsibility main body of the building structure with the accident is determined subsequently, and the tracing efficiency is improved.

Example 3

Based on embodiment 1, the embodiment of the invention provides a constructional engineering quality safety tracing and tracking management system based on big data, wherein the marking module comprises:

the first marking unit is used for determining a first corresponding relation between the design data and the building structure in the building engineering distribution diagram and marking the design data on the building engineering distribution diagram based on the first corresponding relation;

the second marking unit is used for determining a second corresponding relation between the construction data and the building structure in the building engineering distribution diagram and marking the construction data on the building engineering distribution diagram based on the second corresponding relation;

the third marking unit is used for determining a third corresponding relation between the acceptance data and the building structure in the building engineering distribution diagram and marking the acceptance data on the building engineering distribution diagram based on the third corresponding relation;

and the integration unit is used for integrating the construction engineering distribution diagram according to the first marking result, the second marking result and the third marking result to generate an engineering distribution data diagram.

In this embodiment, the first, second and third marking results are independent and do not interfere with each other.

The beneficial effects of above-mentioned design scheme are: the weight-losing design data, the construction data and the acceptance data are uniformly marked on the engineering distribution diagram to generate an engineering distribution data diagram, so that the visual inspection and analysis of the data of each part of the building engineering are facilitated, and the tracing efficiency is improved.

Example 4

Based on embodiment 1, the embodiment of the invention provides a building engineering quality security tracing management system based on big data, as shown in fig. 2, the two-dimensional code generating module comprises:

the uploading unit is used for sequentially and respectively uploading the design data, the construction data and the acceptance data acquired from the engineering distribution data graph to the database;

the two-dimensional code generation unit is used for respectively generating a first two-dimensional code, a second two-dimensional code and a third two-dimensional code according to the storage addresses of the design data, the construction data and the acceptance data in the database;

the encryption unit is used for carrying out first encryption on the first two-dimensional code, carrying out second encryption on the second two-dimensional code and carrying out third encryption on the third two-dimensional code, and generating a comprehensive two-dimensional code according to an encryption result.

In this embodiment, the design data corresponds to a first two-dimensional code, the construction data corresponds to a second two-dimensional code, and the acceptance data corresponds to a third two-dimensional code.

In this embodiment, the comprehensive two-dimensional code may determine authority for all data of the construction project according to the identity of the code scanning person, so as to display the corresponding data.

The beneficial effects of above-mentioned design scheme are: through uploading design data, construction data and acceptance data to the database, all data of the building engineering are saved, a data basis is provided for tracing, meanwhile, two-dimension codes are designed, channels are provided for tracing, meanwhile, the two-dimension codes are encrypted, and the tracing safety is guaranteed.

Example 5

Based on embodiment 4, the embodiment of the invention provides a building engineering quality security tracing management system based on big data, wherein the two-dimensional code generating unit comprises:

the first generation unit is used for distributing the first identification to the design data and the corresponding storage address and generating a first two-dimensional code based on the first identification;

the second generation unit is used for distributing a second identifier to the construction data and the corresponding storage address and generating a second two-dimensional code based on the second identifier;

and the third generation unit is used for distributing a third identifier to the acceptance data and the corresponding storage address and generating a third two-dimensional code based on the second identifier.

In this embodiment, the first two-dimensional code is used to lock a storage address corresponding to the design data, so as to obtain the design data. The same is true for the second two-dimensional code and the third two-dimensional code.

The beneficial effects of above-mentioned design scheme are: through the data and the corresponding storage address distribution identification, the accuracy of the designed two-dimensional code is guaranteed, and meanwhile, the two-dimensional codes among the design data, the construction data and the acceptance data are not interfered with each other, so that the safety is guaranteed.

Example 6

Based on embodiment 4, the embodiment of the invention provides a constructional engineering quality safety tracing management system based on big data, wherein the encryption unit comprises:

a two-dimensional code encryption unit for performing first encryption on the first two-dimensional code, performing second encryption on the second two-dimensional code and performing third encryption on the third two-dimensional code,

the encryption marking unit is used for obtaining a first encryption mark according to the first encryption result, obtaining a second encryption mark according to the second encryption result, obtaining a third encryption mark of the third encryption result, obtaining a fourth encryption mark according to the first encryption result and the second encryption result, obtaining a fifth encryption mark according to the first encryption result and the third encryption result, obtaining a sixth encryption mark according to the second encryption result and obtaining a seventh encryption mark according to the first encryption result, the second encryption result and the third encryption result;

the generating unit is used for generating the comprehensive two-dimensional code based on the first encryption identifier, the second encryption identifier, the third encryption identifier, the fourth encryption identifier, the non-encryption identifier, the sixth encryption identifier and the seventh encryption identifier.

In this embodiment, the first encrypted identifier is used to determine the first two-dimensional code and the design data, the second encrypted identifier is used to determine the second two-dimensional code, i.e., the construction data, the third encrypted identifier is used to determine the third two-dimensional code, i.e., the acceptance data, the fourth encrypted identifier is used to determine the design data and the construction data, the fifth encrypted identifier is used to determine the design data and the acceptance data, the sixth encrypted identifier is used to determine the construction data and the acceptance data, the seventh encrypted identifier is used to determine the design data, the construction data and the acceptance data, and the design plurality of identifiers can satisfy the viewing of the data by users with different authorities.

The beneficial effects of above-mentioned design scheme are: the encryption identification is obtained by carrying out all combined encryption on the first two-dimensional code, the second two-dimensional code and the third two-dimensional code, and the encryption identification is applied to the comprehensive two-dimensional code, so that different users can obtain data of corresponding authorities through scanning the comprehensive two-dimensional code, and the security of tracing the source of the building engineering is ensured while tracing the source of the building engineering by western security.

Example 7

Based on embodiment 1, the embodiment of the invention provides a constructional engineering quality safety tracing management system based on big data, as shown in fig. 3, the tracing module comprises:

the identification adding unit is used for matching corresponding authority identification for each user according to the login information of the user and adding the authority identification into the user identity information;

the identification matching unit is used for acquiring the scanning of the comprehensive two-dimensional code by the current user, acquiring a target authority identification of the current user from the scanning process, matching the target authority identification with an encryption identification in the comprehensive two-dimensional code, and determining a target encryption identification;

the data acquisition unit is used for acquiring a scanning display result based on the target encryption identifier and acquiring target data from the scanning display result;

and the main body determining unit is used for comparing the target data with standard data and determining a responsibility main body.

In this embodiment, the permission identifier is a permission that determines a data type that the user can view according to login information of the user, the permission identifier is matched with the encryption identifier in advance, and by using the design data and the construction data that the user can view, the permission identifier of the user is matched with the fourth encryption identifier.

In this embodiment, the standard data is data in normal conditions of construction engineering.

The beneficial effects of above-mentioned design scheme are: the identification result of the neutralization two-dimension code is determined by determining the authority of the data which can be checked by the user according to the login information of the user, so that the safety of tracing the building engineering is ensured, meanwhile, the responsibility main body is determined by comparing the target data with the standard data, and the determination of specific reasons and specific responsibility people is facilitated.

Example 8

Based on embodiment 7, the embodiment of the invention provides a constructional engineering quality safety tracing management system based on big data, wherein the data acquisition unit comprises:

the address determining unit is used for acquiring a corresponding display storage address from the scanning display result, determining a target building structure according to the search requirement of a user, and acquiring a target storage address corresponding to the target building structure from the display storage address;

and the data extraction unit is used for acquiring a target distribution diagram from the engineering distribution data diagram according to the target storage address and extracting target data from the target distribution diagram.

In this embodiment, the target profile corresponds to a target building structure, and the data on the target profile is data corresponding to the data authority determined by the scan display result.

The beneficial effects of above-mentioned design scheme are: according to the scanning display result, the display storage address of is removed, the target building structure is determined, the target distribution diagram is determined, and finally the determination of the target data is performed step by step, so that the accuracy of the obtained target data is ensured, and the data safety is ensured.

Example 9

Based on embodiment 7, the embodiment of the invention provides a constructional engineering quality safety tracing management system based on big data, wherein the main body determining unit comprises:

the first comparison unit is used for judging the type quantity of the target data, and comparing the target data with standard data when the type quantity of the target data is 1, so as to judge whether a difference exists;

if yes, acquiring difference data from target data, determining a difference point of the difference data, and determining that a main body of the difference point is a responsibility main body, otherwise, determining that the data type corresponding to the target data has no responsibility;

and the second comparison unit is used for dividing the target data according to the data types to obtain the type data when the number of the types of the target data is larger than 1, establishing a corresponding relation between the type data and the standard data, determining the comparison sequence of the type data according to the intention of the current user, sequentially comparing the type data and the standard data according to the corresponding relation and the comparison sequence, and determining a responsibility main body according to the comparison result.

In this embodiment, the data types include a design data type, a construction data type, and an acceptance data type.

In this embodiment, the specific method of determining the responsible body is consistent with the determination manner of the first comparing unit according to the comparison result.

In this embodiment, the second comparing unit includes:

the sequence comparison unit is used for firstly carrying out first sequence comparison on the type data and the standard data according to the comparison sequence, judging whether the first sequence comparison has a difference, if so, determining a responsibility main body according to the difference, and stopping comparison of the type data at the back;

otherwise, a second order comparison is performed until the responsible party is determined.

In this embodiment, if the intention of the user is that, for example, the likelihood that the party is guessed to cause the accident responsibility is relatively high, the data type corresponding to the party is determined to be the first order, which can improve the efficiency of data comparison and determination of the responsibility main body.

The beneficial effects of above-mentioned design scheme are: by selecting a proper data comparison mode according to the data type number of the target data, and finding out the responsibility main body from the administration, the efficiency of data comparison analysis and responsibility main body determination is improved.

Example 10

Based on embodiment 1, the embodiment of the invention provides a constructional engineering quality safety tracing and managing system based on big data, which further comprises: the changing module is used for changing the detection parameters of the building engineering;

the change module includes:

the instruction analysis unit is used for acquiring an instruction for updating the detection parameters of the building engineering, analyzing the instruction and determining the detection parameters to be changed in a database corresponding to the instruction;

according to the instruction sequence of the instruction, calculating an instruction value P of the instruction according to the following formula;

wherein n represents the instruction sequence division number of the instruction, D represents the standard association value, the value is 0.8, and D _i Representing the degree of association between the ith division sequence and the determined detection parameter, and taking the value as [0,1]A represents the number of preset sequence codes, a _i Representing the number of codes of the ith division sequence, F _i The attribute value of the i-th divided sequence is (0, 1), e represents a natural constant, and the value is 2.72 epsilon ₀ A change authority value representing an instruction initiator is (0, 1);

determining a detection parameter range corresponding to an instruction value of an instruction, and taking the detection parameter range as a detection parameter to be changed;

and the changing unit is used for updating the detection parameters to be changed into the latest detection parameters from the building engineering distribution diagram to obtain the latest building engineering distribution diagram, and reserving a change record.

In this embodiment, the instruction sequence of the instruction is composed of a series of codes, the sequences of different positions correspond to different attributes, and the values of different sequences correspond to different attribute values, which can be obtained in advance.

In this embodiment, the degree of association between the division sequence and the determination of the detection parameter is mainly related to the instruction function to which the division sequence corresponds.

In this embodiment, the larger the change authority of the instruction initiator, the larger the corresponding change authority value.

In this embodiment, the greater the number of sequence codes, the more important it is indicated.

In this embodiment, the attribute of the division sequence is, for example, a parameter type, a parameter correspondence structure, a parameter data amount, or the like.

The beneficial effects of above-mentioned design scheme are: after the database for the construction engineering is established, according to the change of parameters in the use process of the construction engineering, the detection parameters of the database are changed, so that the timeliness and the accuracy of the data stored in the database are ensured, and an accurate basis is provided for determining a responsible main body.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (10)

1. The utility model provides a building engineering quality safety tracking management system based on big data which characterized in that includes:

the building module is used for marking detection parameters of building structures of building engineering and building a building engineering distribution diagram, wherein the building engineering distribution diagram is formed by combining a plurality of building structures;

the marking module is used for marking the design data, the construction data and the acceptance data of the building engineering on the building engineering distribution diagram to obtain an engineering distribution data diagram;

the two-dimension code generation module is used for uploading the engineering distribution data graph to a database and generating a comprehensive two-dimension code;

and the tracing module is used for tracing the building engineering based on the comprehensive two-dimensional code.

2. The building engineering quality security traceability tracking management system based on big data according to claim 1, wherein the building module comprises:

the marking unit is used for marking the detection parameters of the building structure of the building engineering to obtain a parameter marked building structure;

and the combining unit is used for acquiring the connection relation between the parameter mark building structures and combining the parameter mark building structures according to the connection relation to obtain an engineering distribution diagram.

3. The big data based construction quality security traceability tracking management system according to claim 1, wherein the marking module comprises:

the first marking unit is used for determining a first corresponding relation between the design data and the building structure in the building engineering distribution diagram and marking the design data on the building engineering distribution diagram based on the first corresponding relation;

the second marking unit is used for determining a second corresponding relation between the construction data and the building structure in the building engineering distribution diagram and marking the construction data on the building engineering distribution diagram based on the second corresponding relation;

the third marking unit is used for determining a third corresponding relation between the acceptance data and the building structure in the building engineering distribution diagram and marking the acceptance data on the building engineering distribution diagram based on the third corresponding relation;

and the integration unit is used for integrating the construction engineering distribution diagram according to the first marking result, the second marking result and the third marking result to generate an engineering distribution data diagram.

4. The big data-based construction engineering quality security traceability tracking management system according to claim 1, wherein the two-dimensional code generation module comprises:

the uploading unit is used for sequentially and respectively uploading the design data, the construction data and the acceptance data acquired from the engineering distribution data graph to the database;

the two-dimensional code generation unit is used for respectively generating a first two-dimensional code, a second two-dimensional code and a third two-dimensional code according to the storage addresses of the design data, the construction data and the acceptance data in the database;

the encryption unit is used for carrying out first encryption on the first two-dimensional code, carrying out second encryption on the second two-dimensional code and carrying out third encryption on the third two-dimensional code, and generating a comprehensive two-dimensional code according to an encryption result.

5. The system for tracing and managing the quality security of the building engineering based on big data according to claim 4, wherein the two-dimensional code generating unit comprises:

the first generation unit is used for distributing the first identification to the design data and the corresponding storage address and generating a first two-dimensional code based on the first identification;

the second generation unit is used for distributing a second identifier to the construction data and the corresponding storage address and generating a second two-dimensional code based on the second identifier;

and the third generation unit is used for distributing a third identifier to the acceptance data and the corresponding storage address and generating a third two-dimensional code based on the second identifier.

6. The system for tracing and managing the quality security of construction engineering based on big data according to claim 4, wherein the encryption unit comprises:

a two-dimensional code encryption unit for performing first encryption on the first two-dimensional code, performing second encryption on the second two-dimensional code and performing third encryption on the third two-dimensional code,

the encryption marking unit is used for obtaining a first encryption mark according to the first encryption result, obtaining a second encryption mark according to the second encryption result, obtaining a third encryption mark of the third encryption result, obtaining a fourth encryption mark according to the first encryption result and the second encryption result, obtaining a fifth encryption mark according to the first encryption result and the third encryption result, obtaining a sixth encryption mark according to the second encryption result and obtaining a seventh encryption mark according to the first encryption result, the second encryption result and the third encryption result;

the generating unit is used for generating the comprehensive two-dimensional code based on the first encryption identifier, the second encryption identifier, the third encryption identifier, the fourth encryption identifier, the fifth encryption identifier, the sixth encryption identifier and the seventh encryption identifier.

7. The system for tracing and managing the quality security of the construction engineering based on big data according to claim 1, wherein the tracing module comprises:

the identification adding unit is used for matching corresponding authority identification for each user according to the login information of the user and adding the authority identification into the user identity information;

the identification matching unit is used for acquiring the scanning of the comprehensive two-dimensional code by the current user, acquiring a target authority identification of the current user from the scanning process, matching the target authority identification with an encryption identification in the comprehensive two-dimensional code, and determining a target encryption identification;

the data acquisition unit is used for acquiring a scanning display result based on the target encryption identifier and acquiring target data from the scanning display result;

and the main body determining unit is used for comparing the target data with standard data and determining a responsibility main body.

8. The system for tracing and tracking and managing the quality security of construction engineering based on big data according to claim 7, wherein the data acquisition unit comprises:

the address determining unit is used for acquiring a corresponding display storage address from the scanning display result, determining a target building structure according to the search requirement of a user, and acquiring a target storage address corresponding to the target building structure from the display storage address;

and the data extraction unit is used for acquiring a target distribution diagram from the engineering distribution data diagram according to the target storage address and extracting target data from the target distribution diagram.

9. The big data based construction quality security traceability tracking management system according to claim 7, wherein the main body determining unit comprises:

the first comparison unit is used for judging the type quantity of the target data, and comparing the target data with standard data when the type quantity of the target data is 1, so as to judge whether a difference exists;

if yes, acquiring difference data from target data, determining a difference point of the difference data, and determining that a main body of the difference point is a responsibility main body, otherwise, determining that the data type corresponding to the target data has no responsibility;

and the second comparison unit is used for dividing the target data according to the data types to obtain the type data when the number of the types of the target data is larger than 1, establishing a corresponding relation between the type data and the standard data, determining the comparison sequence of the type data according to the intention of the current user, sequentially comparing the type data and the standard data according to the corresponding relation and the comparison sequence, and determining a responsibility main body according to the comparison result.

10. The big data-based construction quality security traceability tracking management system according to claim 1, further comprising: the changing module is used for changing the detection parameters of the building engineering;

the change module includes:

the instruction analysis unit is used for acquiring an instruction for updating the detection parameters of the building engineering, analyzing the instruction and determining the detection parameters to be changed in a database corresponding to the instruction;

and the changing unit is used for updating the detection parameters to be changed into the latest detection parameters from the building engineering distribution diagram to obtain the latest building engineering distribution diagram, and reserving a change record.

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