CN111428828A - Welding construction supervision and detection integrated digital management system - Google Patents

Abstract

The invention provides a welding construction supervision and detection integrated digital management system, which comprises: the geographic coordinate management module is used for realizing geographic condition acquisition and marking and displaying of the item routing position through data interaction with the Beidou satellite; the RFID label management module selects a corresponding storage area to perform data reading and writing operation based on the login identity; the construction monitoring management module is used for performing data interaction with the RFID tag management module to realize identity verification and finish the generation of a management flow form, the recording of construction monitoring and the display of a management flow; the detection equipment management module is used for realizing the permission use and the data interaction of the equipment; and the early warning tracing module is used for sending an early warning prompt when the information of the management link is inconsistent and tracing the project process. The design simplifies the repetitive input work of recording forms in each link, and solves the defects of poor real-time performance and inconvenient supervision and tracing in the prior art.

Description

Welding construction supervision and detection integrated digital management system

Technical Field

The invention relates to the technical field of welding quality supervision and management of special equipment, pressure-bearing pipelines and the like, in particular to a welding construction supervision and detection integrated digital management system.

Background

In the production and manufacturing links of special equipment, the marking of welding parts in quality process management such as construction, supervision, detection, inspection and the like mainly depends on computer forms, manual instructions and manual marks.

The basic management process is as follows:

the construction side writes or prints and pastes labels to the welding part for marking, and simultaneously manually inputs a standing book by using a computer to send a construction order to the supervision side; the supervision party carries out supervision work according to the report and check sheet, and sends a detection notice sheet to a detection unit after the supervision is finished, and the supervision party has the work of inputting the machine account by using the computer for the second time; the detection party carries out detection work according to the detection instruction list, and carries out searching and detection operation by combining the welding part codes of the detection instruction list and the site welding part marks, and the welding part codes are also manually compiled marks in the detection process; the quality legal monitoring unit checks the detection record and the detection result data of the detector to achieve the final control of the construction detection quality.

In the above overall management flow, the overall problems are as follows: the influence of human factors accounts for a very large proportion, the marking mode is greatly influenced by environment and human factors, and phenomena such as missing marking, wrong marking and the like often occur.

Based on the above problems, specifically for each operating party, the specific vulnerabilities exist as follows:

in the management process of a construction party, too many links of manual input into a computer exist, and input errors and false phenomena exist.

The problem that the supervision unit does not really supervise and check and only directly sends out a detection instruction list by using a report and check list often exists, and the current management mode cannot completely put an end to.

The detection unit has too large mastery degree on detection data in the detection process, the yield of detection results is hidden in the work, and the current management mode cannot control the detection progress and the compliance of a result reporting program.

The supervision and inspection unit only carries out supervision according to the detection records and the detection results, and cannot completely master the compliance of the detection process and trace the authenticity of the marks of the welding parts.

Disclosure of Invention

The invention aims to solve the technical problem that the welding construction supervision and detection integrated digital management system aims at overcoming the defects in the prior art.

In order to solve the technical problem, the embodiment of the invention discloses the following technical scheme:

the embodiment of the invention provides a welding construction supervision and detection integrated digital management system, which comprises:

the geographic coordinate management module is used for realizing geographic condition acquisition and marking and displaying of the item routing position through data interaction with the Beidou satellite;

the RFID label management module selects a corresponding storage area to perform data reading and writing operation based on the login identity and realizes the printing of the label;

the construction monitoring management module is used for performing data interaction with the RFID tag management module to realize identity verification and finish the generation of a management flow form, the recording of construction monitoring and the display of a management flow;

the detection equipment management module is used for realizing the permission use and the data interaction of the equipment;

and the early warning tracing module is used for sending an early warning prompt when the information of the management link is inconsistent and tracing the project process.

Further, the geographic coordinate management module includes:

the Beidou satellite positioning data interaction module is used for acquiring the geographical conditions of the project site, acquiring Beidou coordinate information of the route position of the project and inputting the information data into the map calling module;

and the map calling module is used for mapping the map containing the Beidou satellite coordinate points to the data end so as to be called and displayed by the display equipment of the data end.

Further, big dipper satellite positioning data interactive module include:

the encoding unit is used for establishing an encoding layer according to professional terms and professional English grammars in the field of detection and detection, and establishing a database query protocol, an encoding protocol and a decoding protocol;

the communication unit is used for realizing data communication with the Beidou satellite based on the rule of the encoding unit;

the acquisition unit is used for combining the communication unit, performing preparation geographic condition acquisition on a project site and performing Beidou coordinate information acquisition on a route position of the project;

and the integration unit is used for adding the information of the acquisition unit to the map.

Further, the RFID tag management module includes:

the identity authentication unit is used for realizing the input and authentication of the identity; and

the storage units are used for receiving the designation of the identity authentication unit and realizing the reading and writing of information; and

and the label printing unit is used for realizing label printing.

Further, the construction monitoring management module comprises:

the tag data acquisition module is used for identifying the identity of the RFID electronic tag and calculating a current execution instruction;

the management flow form generation module is used for generating procedural file materials related to the management workflow under the current execution instruction;

the construction monitoring and recording module is used for distributing construction, supervision, detection and inspection data contents and interactively filling the construction, supervision, detection and inspection data contents into a form file and a report file corresponding to a procedural file material;

and the management flow display module is used for storing and displaying the filled file materials.

Further, the detection device management module includes:

the equipment and personnel management module is used for binding the personnel information and the equipment information, judging and determining the legality of the operator, and performing permitted use of the equipment according to an interaction result;

the detection data coding and decoding module is used for setting coding and decoding rules;

and the detection data interaction module is used for realizing data interaction with the equipment based on the set encoding and decoding rules.

Further, the early warning tracing module comprises:

the management process risk early warning module is used for carrying out real-time early warning prompt on detail errors generated in the project process according to the use authority and forming an early warning file;

and the management link tracing database module is used for tracing and marking the project process.

Furthermore, in the early warning prompt formed by the management process risk early warning module, the error risk, the violation risk and the illegal risk are distinguished and displayed.

Further, the management link tracing database module comprises:

the appointed tracing unit is used for carrying out data tracing query on the condition needing tracing in the project process according to the authority;

and the whole-course tracing unit is used for automatically tracing, inquiring and marking the participating project data results aiming at the units and personnel with risks.

The beneficial effects of the above technical scheme are that:

the data interaction method is based on Beidou satellite transmission, has the advantages of good stability, high real-time performance and high reliability, can encrypt and interact, and is not limited by distance and environmental signals.

The construction supervision detection system realized by the invention can meet the requirements of organizations such as special equipment organizations, pressure-bearing vessel pipeline manufacturing units, supervision units, detection units and the like at home and abroad on the digitization of project process management, is suitable for the requirements of the current national construction industry for digitized big data, and has good social value and wide market prospect.

The invention has good expandability and can be applied to other fields needing to provide stable and high-quality digital management.

Drawings

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

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

fig. 2 is a schematic diagram of an embodiment of the present invention in practical use.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the technical solution in the embodiment of the present invention will be clearly and completely described below with reference to the drawings in the embodiment of the present invention, and it is obvious that the described embodiment is only a part of the embodiment of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Examples

Referring to fig. 1, as an embodiment that can be realized by the present invention, a welding construction supervision and detection integrated digital management system is provided, and the system includes a geographic coordinate management module, an RFID tag management module, a construction monitoring tag data interaction management module, a detection device data interaction module, and an early warning tracing module.

The geographic coordinate management module comprises a Beidou satellite positioning data interaction module and a map calling module, wherein the calling of geographic coordinates adopts a public Otto map library implanted map module to interact with the Beidou satellite positioning data interaction module.

The overall working principle of the geographic coordinate management module is as follows:

firstly, carrying out project site preparation geographic condition acquisition through a Beidou satellite positioning data interaction module, carrying out Beidou coordinate information acquisition on a route position of a project, and inputting information data into a map calling module; then, marking each position coordinate point in the Otto map file, generating a sub-database folder of each coordinate point and mapping the map data folder to a data terminal server and a cloud backup server; finally, the Beidou satellite positioning data interaction module is communicated through an R485 serial port, and the terminal server displays the implanted Olympic map and the wiring, the project position and the preset file generated by the project on a terminal management screen through HMDI communication.

In order to realize positioning, the Beidou satellite positioning data interaction module opens Beidou message communication, the civil code festival of the Beidou message inquires a decoding library through the CPU operation of the Beidou satellite positioning data interaction module, and a geographic information additional file and a project management single project library file are generated.

For the message for realizing data interaction, the message needs to be designed and improved independently in the application, and the main principle is that the coding principle is that a coding layer is established according to professional terms and professional English grammars in the field of inspection and detection, L ABVIEW source code development is adopted, a multi-point encryption mechanism of a database query protocol, a coding protocol and a decoding protocol is established, and the possibility that codes in the transmission process are hijacked by hackers is prevented.

To better illustrate the principle of message encoding, the following description is given with reference to specific examples:

the coding principle is that a coding layer is established according to professional terms and professional English grammars in the field of inspection and detection, L ABVIEW source codes are adopted for development, WINDOWS architecture development is adopted on a L ABVIEW virtual software platform, and arrays and array libraries are generated.

The array library comprises a term library NDT _ term, an English grammar library EN _ grammar, a project management term library ADM _ term, a Chinese character library CN _ word, an image pixel dot matrix library PIC _ pixel, a Color gray value library Color _ gram, an image type name library IM _ name, a longitude and latitude coordinate library W & W _ coordinate and a form report structure library BOOM in the field of inspection and detection.

Mapping codes of the encoding basic codes and the encryption codes are preset in each array bank, for example: a set of codes: (A) MAXX # twe 122.22.569.exxx.xx.xxx.nxx.nxx.xx.xxx.wxxx.xx.xxx. # B # CNAAAAAEAAIAAPAAAAAA # CAAAA # a, according to the encoding rules of this embodiment: (A) is a coding order symbol; MAXX # is the identity code of the interacting device; m is identity dock A is a device usage language code; # is the identity information terminator; t is the current date and time value, and the time supplement is complete by the computer system; we122.22.569.exxx.xx.xxx.nxx.nxxx.xxx.wxxx.xx.xxx. # represents currently received geographic location latitude and longitude information; w is the longitude and latitude coordinate library W & W _ coordinate library name head; e 122.22.569.exxx.xx.xxx.nxx.nxx.xx.xxx.wxxx.xx.xxx.xxx. is the current geographic coordinate information; # is the coordinate information terminator; b # represents that the information content contains form content, and if the information content is irregular, filling X # is used as judgment; CNAAAAA is used for representing contained Chinese character information, CN is a head code of a CN _ word library of the Chinese character library, and AAAAA corresponds to a field character of a table look-up in the CN _ word library of the Chinese character library; EAA is grammar information for representing contained English characters, E is English grammar library EN _ grammar library header codes, AA corresponds to correction grammars of table look-up in the English grammar library EN _ grammar, when English is not used as main language communication, according to MAXX # codes received by a terminal server, if Chinese language is used for communication, the EAA field is filled with # # # codes; IAA is the head code of the image type name library IM _ name library, AA corresponds to the image type contained in the transmission content of the table lookup in the image type name library IM _ name; PAAAAAA # is a header code of an image pixel lattice library PIC _ pixel library, the first byte of the AAAAAA # represents the image pixel size of a table look-up in a corresponding image type name library IM _ name, the later byte represents a pixel point distribution matrix under the current pixel, and # is a matrix end symbol; CAAAA # Color gray value library Color _ graph library head code, wherein the front byte of AAAA # represents the image pixel size of the look-up table in the corresponding Color gray value library Color _ graph, the rear byte represents the gray value of the pixel point distribution matrix under the current pixel, and # is a matrix gray filling end symbol; a is a message coding end symbol, which is respectively represented by A and G, and when the end symbol is A, the reconstruction of the interactive information is represented to start to be newly built under the name of the identity in combination with the identification of the MAXX # code or the information is input into the database.

And judging an end symbol for each message, and automatically adding (A) a coding sequence symbol as an information optimization code before coding for the second message when the end symbol is A.

After the (A) is added, currently received geographic position longitude and latitude information of WE122.22.569.EXXX.XX.XXX.NXXX.XXX.WXXX.XXX.XXX. # is automatically cancelled to be W & W # for optimizing information codes, and code loading quantity is improved.

The terminal server decodes and can automatically fill a piece of encoded longitude and latitude information, when the end symbol is G, the information communication is ended, and the terminal server returns an OK character to the information interaction party.

The decoding and encoding of the present embodiment also uses the conversion mechanism to encode the data information in the manner exemplified in the examples.

And after the terminal server successfully decodes the character string, binary compiling the character string according to the international rule and storing the character string by using a binary computer code. The encoding rule of the string conversion binary system is that utf-8 is used as a standard format.

The RFID tag management module selects a corresponding storage area to perform data reading and writing operation based on the login identity, and preferably, the RFID electronic tag reading and writing module adopts an international open 900 frequency band to perform data reading and inputting.

In a specific operation, for the function implementation of the RFID tag management module, a plurality of storage units are provided on the RFID electronic tag, and the number is not limited, and the following description is made for the case of 1 authentication unit and 3 storage units.

The invention changes the writing mode, card writing equipment and RFID electronic tags start to interact identities after being activated by 900MHZ electronic waves, and a region selection function is added on a writing mechanism.

After the identity of the RFID electronic tag is confirmed, the judgment is carried out according to the identity characteristics of the RFID electronic tag reading and writing module, the identity of the RFID electronic tag reading and writing module is automatically generated by a using unit after initialization setting, cannot be automatically modified, and needs to be accessed into the terminal server again for identity binding after factory initialization.

Firstly, the RFID electronic tag read-write module sends a request data packet to the RFID electronic tag to activate the RFID electronic tag, the RFID electronic tag feeds back identity information, and the RFID electronic tag read-write module carries out identity inquiry according to the identity code of the RFID electronic tag to determine the write-in or read-out target executed this time. Then, the RFID electronic tag reading and writing module obtains the instruction code, and the operation area of the RFID electronic tag is selected according to the prefix byte of the instruction code, so that the reading and writing action of the RFID electronic tag is completed.

In practical use, the RFID electronic tag reading and writing module and the tag printing unit are integrated in the portable handheld tag printer, so that data reading, writing and writing of the RFID electronic tag on site are completed, and meanwhile, characters, marks, digital scanning identification codes and other visual auxiliary marks are printed on the outer surface of the RFID electronic tag.

The construction monitoring label data interaction management module comprises a label data acquisition module, a management flow form generation module, a construction monitoring recording module and a management flow display module, and is used for carrying out data interaction with the RFID label management module so as to realize identity verification and finish generation of a management flow form, recording of construction monitoring and display of a management flow.

The tag data acquisition module is a data input channel of the construction monitoring tag data interaction management module, and through remote communication interaction with the terminal server, the RFID electronic tag identity acquired and sent by the RFID electronic tag reading and writing module is identified and operated to obtain a current execution instruction. In the process, the data interaction operation mechanism is in a terminal server instruction form, and the outside cannot intervene in the operation interaction logic.

The management flow form generation module is used for generating process file materials such as files, forms, reports and the like related in the management work flow under the current instruction state after interacting with the terminal server, and is a systematic file range of project management.

The construction monitoring and recording module distributes and interactively fills construction, supervision, detection and inspection data contents into corresponding form files and report files in the operation process, and packs the data contents to the portable data switch in a file format.

The management process display module sends feedback to the terminal server after finishing data arrangement and informs the terminal server to operate other processes such as storage, backup, display and the like.

The detection equipment data interaction module comprises a detection equipment and personnel management module, a detection data interaction module and a detection data coding and decoding module and is used for realizing the permission use and the data interaction of the equipment.

The detection device and the personnel management module carry out device initialization personnel acquisition through the fingerprint acquisition module, bind personnel and devices, and store personnel information and device information to the device local machine and the terminal server through Beidou message communication, so that during detection operation, the detection device and the personnel judge and determine the legality of operators, permit use of the devices according to interaction results, and establish a detection result signature file and a header file attached to the detection results.

The detection data coding and decoding module is used for setting coding and decoding rules, and the detection data interaction module realizes data interaction with the equipment based on the set coding and decoding rules.

The early warning tracing module comprises a management process risk early warning module and a management link tracing database module, and when the early warning tracing module is used specifically, the management process risk early warning module is a software module, forms exe installation files, is installed on a designated PC (personal computer) of each use unit, and forms a management client.

The management process risk early warning module performs project early warning according to the cooperation of the use authority and the function library file, and real-time early warning prompting is performed on detail errors occurring in the processes of inconsistent data of the terminal server and the field portable data interaction machine, inconsistent geographic position information of the instruction file and the geographic position of construction acquisition, inconsistent personnel identity verification, inconsistent equipment operation access identity and the like in the management process to form an early warning file.

The early warning mechanism is in three levels, namely error risk, violation risk and illegal risk.

The error risk is that the personnel uses the non-verification equipment by non-subjective consciousness and the label printing position and the label using position are not together. And for the label printing error, the terminal server informs the management process of intervention of the risk early warning module, scrapps the label attached by the error, and informs the client sides with the authority at the same time.

The violation risk is the risk that a detection unit generates in a non-system control link of manually inputting a detection result, the detection time, the detection result and the like are modified, after the detection result is uploaded and input, the terminal server compares the input detection time of the uploaded file with the time obtained by the database in real time, early warning is carried out if errors exist, the number of uploaded detections is compared with the current number obtained by the database in real time, and early warning is carried out if errors exist.

The illegal risk is supplemented and perfected according to a supervision mechanism of project management under the condition that a using unit adopts verification and an operator changes privately, and an event discovered by a supervision or responsibility unit is reported to a terminal server to form high-risk early warning.

The management link tracing database module is respectively provided with two tracing mechanisms, one is to perform data tracing query on the condition that the data needs to be traced in the project process according to the authority limit of a PC client, and can realize the look-up and analysis of personnel, equipment, time, quantity and detailed forms in each link of the whole process; the second is tracing early warning after the project is completed, which is mainly embodied in that the current project construction, supervision, detection and inspection processes are carried out, the long-term risk characteristics of an inquired verification object are prompted to carry out risk early warning on units and personnel with risks, and the participating project data results are automatically traced, inquired and marked, so that the data analysis and the calling of an inspection department or a supervision and management department are facilitated.

The above description is a principle explanation of the whole management system, and for the application thereof in the actual implementation process, the long-distance pipeline construction is taken as an example, the specific principle refers to fig. 2, and the specific flow is as follows:

and the owner construction party uses the management system platform client to record project engineering information and project input system during project preparation planning, and uses a portable data interaction machine to acquire geographic coordinates of a project site, or uses PC (personal computer) client software to simulate and record, so as to generate a project geographic coordinate graph file, wherein the project geographic coordinate graph file comprises project data information and open bid and bid information. The method can be used as a data sharing service platform in the process of bidding for the project, and comprises the steps of sharing identity information of project participants, certificate status, historical performance, historical quality condition and providing risk early warning. When a project enters a construction stage, a constructor uses a portable data interaction machine to manage project field operation, including field personnel identity confirmation, project manager information confirmation, temporary field personnel flow declaration and the like, data entry and field construction control part process label generation are carried out by using the portable data interaction machine in project construction process control, and label information includes construction part geographic coordinate information, construction part coding information, constructor information, construction time information and the like. And uploading the data information of the construction link to a data terminal server in a 5G or Beidou message form by using a portable data interaction machine, or uploading the data information by using the Internet through a client of a PC terminal and sending an application file to be detected of the construction part. The node information of the construction process is displayed by a data global map coordinate display system through the management of a data terminal server, and the display system displays the current or all project information in a permission mode, so that the display system is not limited to be displayed and used by an owner builder, a supervision and inspection unit, a national industry management unit and a server terminal platform control room.

Similarly, after receiving the detection application of the constructor by using the portable data interaction machine, the construction site operation is managed by using the portable data interaction machine, including site personnel identity confirmation, project manager information confirmation, temporary site personnel flow declaration and the like, a supervision unit performs site supervision and supervision work by using the portable data interaction machine on site, collects tag data of the constructor and rechecks and compares the tag data with data of a data terminal server to complete site supervision operation, writes supervision result information of a monitored site into a data tag by using the portable data interaction machine, uploads the data by using the portable data interaction machine or a PC terminal client, confirms that the construction operation of the first stage is completed, and sends out a detection notification file. And displaying the current process node information to a display terminal.

Similarly, after receiving the detection notice of the proctoring party by using the portable data interaction machine, the detection unit uses the portable data interaction machine to manage the project field operation, including the identification confirmation of field personnel, the information confirmation of project management personnel, the temporary flow declaration of field personnel and the like, the detection unit uses the portable data interaction machine to read out the data information of the tag of the field part to be detected on the site, and the information is shared to the detection equipment, or the professional detection equipment with the data format replaces the data interaction machine to achieve the purpose of data chain integrity. The detection is carried out on the label data secondarily input by the construction party and the supervision party, the label data is rechecked and compared with the data of the data terminal server, after the field operation is completed, the digital detection equipment has the condition of uploading the data in real time, the data is automatically input into the detection equipment in the detection process, a header file of the detection data is generated, and the manual operation process is avoided. For non-digital detection equipment, detection result data corresponding to a detection part are manually recorded into a data interaction machine. And (3) uploading data by using a portable data interaction machine or a PC terminal client, confirming that the detection operation of the first stage is completed, sending a detection result notification file, relating to an unqualified result, automatically working in a digital detection mode, and entering and reporting in a manual operation mode. And sending out unqualified notice or qualified notice from unqualified and qualified detection parts, and entering the process of construction supervision detection again by the management process through the procedure reported by the supervision party by the repair notice file. And displaying the unqualified result on a server terminal and a display system of the project management platform in real time, and giving early warning to a supervision and inspection party and an owner according to the authority.

And in each operation link of construction, supervision and detection, the data is interactively rechecked for multiple times, including checking of geographic coordinate information, checking of operation time, checking of identities of operating personnel and the like. The real-time prompt of information errors occurs and the operation cannot be completed, the information cannot be checked and confirmed and fed back to the server terminal in real time when the information is continuously presented for three times in a day, and the false phenomenon in the operation process is completely avoided through display and early warning.

The operation process of the supervision and inspection party is a field mode or an office mode, and the office mode can completely replace the field mode in a digital detection state. And at the node needing supervision and inspection, the supervision and inspection party sends out supervision and inspection notification, or directly processes supervision and inspection work in an office mode systematization under a digital inspection state. And during on-site supervision and inspection, the portable data interaction machine is used for managing project on-site operation, including on-site personnel identity confirmation, project manager information confirmation, temporary on-site personnel flow declaration and the like, and a detection unit uses the portable data interaction machine on site to read out data information of a tag of a site to be detected and rechecks a detection result to be inspected. And after the supervision and inspection are finished, the inspection result is recorded into the system. The supervision and inspection work has no data to be actually input, the system is used as an auditor in the supervision and inspection link to confirm the project process, and the system formally completes the field operation state through auditing the construction process result of the electronic signature.

The construction process is not limited to the control of the construction process, and various form files required by a management system are automatically generated and transmitted through a data management system, so that paperless management is realized.

The data tags are buried underground or on the earth surface after being covered by the protective layer, and in the subsequent use process, the portable data interaction machine is also used for managing projects in combination with the underground emission interaction instrument, wherein the projects comprise in-service management such as position information inquiry, re-excavation positioning and the like.

It should be noted that, in the whole implementation process, the involved manual entry link needs to upload data after image digitization processing, and the uploading process is initiated by the client and implemented by using a coding and decoding mechanism.

The foregoing are merely exemplary embodiments of the present invention, which enable those skilled in the art to understand or practice the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. Welding construction supervision detects integration digital management system, its characterized in that, the system include:

the geographic coordinate management module is used for realizing geographic condition acquisition and marking and displaying of the item routing position through data interaction with the Beidou satellite;

the RFID label management module selects a corresponding storage area to perform data reading and writing operation based on the login identity and realizes the printing of the label;

the construction monitoring management module is used for performing data interaction with the RFID tag management module to realize identity verification and finish the generation of a management flow form, the recording of construction monitoring and the display of a management flow;

the detection equipment management module is used for realizing the permission use and the data interaction of the equipment;

and the early warning tracing module is used for sending an early warning prompt when the information of the management link is inconsistent and tracing the project process.

2. The welding construction supervision and detection integrated digital management system according to claim 1, wherein the geographic coordinate management module comprises:

the Beidou satellite positioning data interaction module is used for acquiring the geographical conditions of the project site, acquiring Beidou coordinate information of the route position of the project and inputting the information data into the map calling module;

and the map calling module is used for mapping the map containing the Beidou satellite coordinate points to the data end so as to be called and displayed by the display equipment of the data end.

3. The welding construction supervision and detection integrated digital management system according to claim 2, wherein the Beidou satellite positioning data interaction module comprises:

the encoding unit is used for establishing an encoding layer according to professional terms and professional English grammars in the field of detection and detection, and establishing a database query protocol, an encoding protocol and a decoding protocol;

the communication unit is used for realizing data communication with the Beidou satellite based on the rule of the encoding unit;

the acquisition unit is used for combining the communication unit, performing preparation geographic condition acquisition on a project site and performing Beidou coordinate information acquisition on a route position of the project;

and the integration unit is used for adding the information of the acquisition unit to the map.

4. The welding construction supervision and detection integrated digital management system according to claim 1, wherein the RFID tag management module comprises:

the identity authentication unit is used for realizing the input and authentication of the identity; and

the storage units are used for receiving the designation of the identity authentication unit and realizing the reading and writing of information; and

and the label printing unit is used for realizing label printing.

5. The welding construction supervision and detection integrated digital management system according to claim 1, wherein the construction monitoring management module comprises:

the tag data acquisition module is used for identifying the identity of the RFID electronic tag and calculating a current execution instruction;

the management flow form generation module is used for generating procedural file materials related to the management workflow under the current execution instruction;

the construction monitoring and recording module is used for distributing construction, supervision, detection and inspection data contents and interactively filling the construction, supervision, detection and inspection data contents into a form file and a report file corresponding to a procedural file material;

and the management flow display module is used for storing and displaying the filled file materials.

6. The welding construction supervision and detection integrated digital management system according to claim 1, wherein the detection equipment management module comprises:

the equipment and personnel management module is used for binding the personnel information and the equipment information, judging and determining the legality of the operator, and performing permitted use of the equipment according to an interaction result;

the detection data coding and decoding module is used for setting coding and decoding rules;

and the detection data interaction module is used for realizing data interaction with the equipment based on the set encoding and decoding rules.

7. The welding construction supervision and detection integrated digital management system according to claim 1, wherein the early warning tracing module comprises:

the management process risk early warning module is used for carrying out real-time early warning prompt on detail errors generated in the project process according to the use authority and forming an early warning file;

and the management link tracing database module is used for tracing and marking the project process.

8. The welding construction supervision and detection integrated digital management system according to claim 7, characterized in that the early warning prompt formed by the management process risk early warning module is distinguished and displayed according to error risk, violation risk and illegal risk.

9. The welding construction supervision and detection integrated digital management system according to claim 7, wherein the management link tracing database module comprises:

the appointed tracing unit is used for carrying out data tracing query on the condition needing tracing in the project process according to the authority;

and the whole-course tracing unit is used for automatically tracing, inquiring and marking the participating project data results aiming at the units and personnel with risks.

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