Disclosure of Invention
The invention provides a farmland construction project management platform, which aims to solve the problems that the prior art has data decentralization in high-standard farmland construction, cannot update and check the project progress in real time and the like.
The technical problem solved by the invention is realized by adopting the following technical scheme: a high-standard farm construction project management platform, comprising:
based on the project information of the farmland construction project, forming project basic information of the founding and examining and approving basic information through project information processing;
based on the engineering information of the farmland construction project, forming engineering basic information of founding and examining and approving basic information through engineering information processing;
forming key basic information of founding and examining and approving basic information by key information processing based on the key information of the farmland construction project;
based on the establishment and approval basic information, the whole life cycle informatization management of the farmland construction project is formed by sequentially applying for the progress of a constructor, auditing the progress of a supervisor and auditing the quality of a platform and an owner.
Further:
the item information processing includes: based on the project basic information and the project related files, processing and determining the project basic information through project information import and approval;
the engineering information processing comprises: based on the basic engineering information, the engineering number and the engineering coordinate information, processing and determining the basic engineering information through engineering information import and approval;
the key information processing includes: and processing and determining key basic information through key information import and approval based on quality inspection, successful bid, design and process information.
Further:
the project information processing and the engineering information processing comprise project and engineering information import and approval, the project and engineering information import and approval are output in key information processing, the key information processing comprises quality inspection information import and approval, the quality inspection information import and approval output is in successful bid information import and approval, the successful bid information import and approval output is in design parameter import and approval, and the design parameter import and approval output is in process flow import and approval.
Further:
the project and engineering information import and approval comprises the following steps:
judging whether the project and the engineering data are imported successfully;
if the import is successful, judging whether the project and the project are approved or not through project and project approval judgment;
if the quality inspection information passes the verification result, the quality inspection information is imported and approved;
otherwise, importing the project and the engineering data again;
the project and engineering approval determination comprises:
and (3) judging the integrity of the file: judging whether the imported project and project data completely comprise project basic information files, project related files, project basic information files and project files of the project related files;
if the integrity comprises project and project files, determining that the project and project files have integrity;
and (3) field integrity judgment: judging whether the project number and the project coordinate key field in the project and the project file are empty or not;
if the key field is not empty, determining that the fields contained in the project and engineering files have integrity;
and (3) judging the correctness of the coordinate system: judging whether the coordinate systems in the project and the engineering file accord with the WEB ink card projection or not;
if the projection relation is met, determining that the projection relation of the coordinate systems of the project and the engineering file has correctness;
judging whether the project and the project file are determined to have integrity and the contained fields have integrity and the projection relation of the coordinate system has correctness;
and if so, determining that the project and project approval is passed.
Further:
the quality inspection information importing and examining and approving comprises the following steps:
judging whether the import of the quality inspection unit data is successful or not;
if the import is successful, judging whether the quality inspection unit passes the examination and approval through examination and approval judgment of the quality inspection unit;
if the successful bid passes, entering bid winning information import and approval;
otherwise, importing the quality inspection unit data again;
the quality inspection unit examination and approval judgment comprises the following steps:
and (3) judging the integrity of the table: judging whether a necessary item in a quality inspection table in the imported quality inspection unit data is empty or not;
if the mandatory item is not null, determining that the quality inspection table has integrity;
and (3) field integrity judgment: judging whether fields contained in a quality inspection table in the imported quality inspection unit data are complete or not;
if the relevant fields are complete, determining that the fields contained in the quality inspection table have integrity;
judging materials necessary for quality inspection: judging whether the business license, the unit of the personnel certificate and the personnel quality inspection material picture are complete or not;
if the unit and personnel material pictures are complete, the correctness of the necessary material for quality inspection is determined;
judging whether the quality inspection form is determined to have integrity and the contained fields have integrity and the necessary materials for quality inspection have correctness;
and if so, determining that the quality inspection unit passes the examination and approval.
Further:
the bid-winning information importing and approving comprises the following steps:
judging whether the successful introduction of the winning unit data is successful;
if the importing is successful, judging whether the approval of the bidding unit passes through the approval judgment of the bidding unit;
if the design passes, entering design parameter import and approval;
otherwise, importing the winning unit data again;
the quality inspection unit examination and approval judgment comprises the following steps:
and (3) judging the integrity of the table: judging whether a mandatory item in a bid-winning table in the imported bid-winning unit data is empty or not;
if the mandatory item is not null, determining that the winning bid table has integrity;
and (3) field integrity judgment: judging whether fields contained in a bid-winning table in the imported bid-winning unit data are complete or not;
if the relevant fields are complete, determining that the fields contained in the winning bid table have the integrity;
and (3) judging the necessary materials for winning the bid: judging whether the unit of the business license and the personnel certificate and the winning material picture of the personnel are complete or not;
if the unit and personnel material pictures are complete, the necessary winning materials are determined to have correctness;
judging whether the quality inspection form is determined to have integrity and the contained fields have integrity and the necessary materials for quality inspection have correctness;
and if so, determining that the quality inspection unit passes the examination and approval.
Further:
the design parameter importing and approving comprises the following steps:
judging whether the design parameter data is successfully imported or not;
if the import is successful, judging whether the design parameters pass the approval or not through the approval judgment of the design parameters;
if the result passes, entering the process flow for importing and examining and approving;
otherwise, importing the design parameter data again;
the design parameter approval judgment comprises the following steps:
and (3) judging the matching of the parameters: judging whether the design parameters in the imported design parameter data are matched with the system;
if the imported design parameter data comprises engineering major data or engineering minor data, screening the extracted engineering types according to the engineering vector data, and matching the imported corresponding design parameters;
if the design parameters are matched with the system, determining that the design parameters have matching performance;
screening, extracting and judging: judging whether the design parameters in the imported design parameter data are correctly screened and extracted to obtain engineering data;
if the design parameter data comprises a project large class field or a project small class field, screening and extracting corresponding project large class data or project small class data respectively and importing the corresponding project large class data or project small class data into the project data respectively;
if the design parameters are correctly screened and extracted, determining that the design parameters are correctly screened and extracted;
one-to-many mapping decision: judging whether design parameters in the imported design parameter data have correct one-to-many mapping relation;
if the imported design parameter data comprises a plurality of engineering data, matching the design parameters and the process flows according to the engineering types, and then matching the corresponding parameters and the corresponding processes with the engineering data corresponding to each type;
if the design parameters have correct one-to-many mapping relation, determining that the design parameters have one-to-many mapping relation;
judging whether the design parameters are determined to have matching and correctly screening and extracting engineering data and the design parameters have one-to-many mapping relation;
and if so, determining that the design parameters pass the approval.
Further:
the process flow importing and approving comprises the following steps:
judging whether the process flow data is imported successfully or not;
if the import is successful, judging whether the process flow approval is passed or not through the process flow approval judgment;
if the key information passes the processing, the key information processing is completed;
otherwise, importing the process flow data again;
the process flow approval judgment comprises the following steps:
and (3) judging the matching of the parameters: judging whether the process flow in the imported process flow data is matched with the system or not;
if the imported process flow data comprises engineering major data or engineering minor data, screening the extracted engineering types according to the engineering vector data, and matching the imported corresponding process flow;
if the process flow is matched with the system, determining that the process flow has matching property;
screening, extracting and judging: judging whether the process flows in the imported process flow data are correct or not, and screening and extracting engineering data;
if the imported process flow data comprises engineering large-class fields or engineering small-class fields, screening and extracting corresponding engineering large-class data or engineering small-class data respectively and importing the corresponding engineering large-class data or engineering small-class data into the engineering data respectively;
if the process flow is correct, screening and extracting the engineering data, determining that the process flow is correct, screening and extracting the engineering data;
one-to-many mapping decision: determining whether the process flows in the imported process flow data have a correct one-to-many mapping relationship;
if the process flows have the correct one-to-many mapping relationship, determining that the process flows have the one-to-many mapping relationship;
if the imported process flow data comprises a plurality of engineering data, matching design parameters and process flows according to the engineering types, and then matching corresponding parameters and processes with the engineering data corresponding to each type;
judging whether the process flow is determined to have matching and correctly screening and extracting engineering data and the process flow has a one-to-many mapping relation;
and if so, determining that the process flow passes the approval.
Further:
the constructor progress application is output to a proctor progress audit;
the supervisor progress audit is output to a platform and owner quality inspection audit;
the constructor progress application, the supervisor progress audit, the platform and the owner quality inspection audit all comprise a project quantity judgment function model;
the engineering quantity determination function model is as follows:
EA<EW;
the EA is the engineering quantity applied by any construction party in the working procedure;
the EQiAny engineering quantity of any engineering class;
the EJiAny engineering quantity of any engineering subclass;
the EW is the engineering quantity of imported engineering data.
Further:
the constructor progress application comprises the following steps:
if the process flow passes the approval, selecting the construction progress of any process flow according to the construction condition, submitting the application of a constructor, and judging whether the construction progress of the constructor meets the progress acceptance standard of the constructor according to the construction progress judgment standard of the constructor;
if the construction progress of the constructor meets the construction progress acceptance standard of the constructor, submitting the constructor application to the progress examination of the supervisor;
otherwise, resubmit the application of the constructor;
the construction progress judgment standard of the constructor comprises the following steps:
judging the engineering quantity of a construction party: judging whether the engineering quantity reaches the standard or not through database comparison, and if so, determining that the engineering quantity of a construction party meets the standard;
judging whether the engineering quantity of a construction party in process application is smaller than the engineering quantity of imported engineering data or not;
if the engineering quantity is less than the engineering quantity of the imported engineering data, determining that the engineering quantity judged by the database comparison reaches the standard;
judging the construction content of a construction party: judging whether the site construction content is filled, and if the site construction content is filled, determining that the construction content of a constructor meets the standard;
and (3) judging the on-site evidence of the construction party: judging whether the on-site image data, the on-site photos and the videos exist or not, and if so, determining that the on-site evidence of the construction party meets the standard;
and (3) uploading judgment of the accessory of the construction party: judging whether the accessory of the construction side is uploaded, if so, judging that the uploading of the accessory of the construction side meets the standard;
and judging whether the construction amount, construction content, on-site evidence of the construction party and the uploading of the accessories of the construction party meet the standards, and if so, judging that the construction progress of the construction party meets the progress acceptance standard of the construction party.
The proctoring party progress audit comprises the following steps:
if the supervisor accepts the application of the constructor to pass, judging whether the construction progress of the supervisor meets the progress acceptance standard of the supervisor according to the construction progress judgment standard of the supervisor;
if the construction progress of the supervisor meets the progress acceptance standard of the supervisor, applying the supervisor to a submission platform and checking the quality of the owner;
otherwise, resubmit the application of the constructor;
the construction progress judgment standard of the proctoring party comprises the following steps:
judging the engineering quantity of the proctoring party: judging whether the engineering quantity reaches the standard or not, and if so, determining that the engineering quantity of the supervisor meets the standard;
wherein, judge the proctor accepts the engineering quantity of the process application is smaller than the engineering quantity of the imported engineering data;
if the engineering quantity is less than the engineering quantity of the imported engineering data, determining whether the engineering quantity reaches the standard;
judging the construction details of the proctoring party: judging whether the site construction details are filled, and if the site construction details are filled, determining that construction contents of the supervisor meet the standard;
and (3) judging the on-site evidence of the proctoring party: judging whether the site photos are in real compliance or not, and if so, determining that the site certification of the supervisor meets the standard;
and (3) construction certification judgment of the proctoring party: judging whether construction certification data of the proctor is correct or not, and if so, judging that the construction certification of the proctor meets the standard;
and judging whether the construction amount of the proctoring party, the construction content of the proctoring party, the on-site evidence of the proctoring party and the construction proof of the proctoring party meet the standards, and if so, judging that the construction progress of the proctoring party meets the progress acceptance standards of the proctoring party.
And quality inspection and verification of the platform and the owner:
if the platform and the owner accept the platform and the owner applies the platform, judging whether the platform and the owner construction progress meet the platform and owner progress acceptance standard or not according to the platform and owner construction progress judgment standard;
if the construction progress of the platform and the owner meets the progress acceptance standard of the platform and the owner, finishing the construction progress and acceptance management process;
otherwise, resubmit the application of the constructor;
the platform and owner construction progress judgment standard comprises the following steps:
judging the engineering quantity of the platform and the owner: judging whether the engineering quantity reaches the standard or not, and if so, determining that the engineering quantity of the platform and the owner meets the standard;
judging whether the engineering quantity of the platform and the owner accepting the process application is less than the engineering quantity of the imported engineering data or not;
if the engineering quantity is less than the engineering quantity of the imported engineering data, determining whether the engineering quantity reaches the standard;
and (3) judging the construction details of the platform and the owner: judging whether the site construction details are filled, and if the site construction details are filled, determining that the construction contents of the platform and the owner meet the standard;
and (3) judging the field evidence of the platform and the owner: judging whether the live photos are truly in compliance, and if so, determining that the live evidences of the platform and the owner meet the standard;
and (3) platform and owner construction certification judgment: judging whether the construction certification data and the construction side accessories of the platform and the owner are correct or not, and if so, judging that the construction certification of the platform and the owner meets the standard;
and judging whether the engineering quantity of the platform and the owner, the construction content of the platform and the owner, the site evidence of the platform and the owner and the construction certification of the platform and the owner meet the standard, and if so, judging that the construction progress of the platform and the owner meets the progress acceptance standard of the platform and the owner.
The invention has the beneficial effects that:
project basic information of project establishment and approval basic information is formed by project information processing based on farmland construction projects; based on the engineering information of the farmland construction project, forming engineering basic information of founding and approving basic information through engineering information processing; forming key basic information of the establishment and approval basic information through key information processing based on the key information of the farmland construction project; based on founding and approval basic information, sequentially applying through a constructor progress, auditing through a supervisor progress, auditing through a platform and quality inspection through an owner side, forming full life cycle information management of farmland construction projects, wherein the high-standard farmland construction project management platform is combined with a GIS information management system, information management is carried out from the full life cycles of founding, approval, design, construction progress, acceptance, archiving and the like, the full coverage management of the project construction process is realized by adopting modes of video connection, progress auditing, attendance card printing, track recording and the like, all modules of the high-standard farmland construction project management platform are deployed at a server end, functions are respectively used as using and displaying entrances by a Web end and an APP end, wherein the Web end of the system uses functions of user login, user registration, authority verification, project data query and maintenance, attendance track query, layer display and the like, the high-standard farmland management platform provides a Web end and the APP end for data interconnection and intercommunication, so that information sharing is more convenient and labor-saving, process approval is more rapid and efficient, project cooperation is more smooth and smooth, and all data information of projects can be timely obtained by all parties through project engineering data centralized management and traceability and is checked and confirmed. The method is more suitable for the characteristics of on-site personnel flow supervision, takes simplicity and easiness as a design idea, takes what you see is what you get as a design guide, manages data information through a Web end, monitors project personnel through an APP end, really realizes that constructors are concentrated on construction, supervisors are concentrated on engineering supervision, quality inspectors are concentrated on quality inspection, and a supervisor can accurately manage, finely manage and backtrack management, so that the supervisors are relieved; the method has the advantages that the high-standard farmland construction management working level is improved as a breakthrough point, the daily office automation and the geographic information management are combined, the focus of attention is transferred from the city level, provincial level supervision and the record level to the county level daily high-standard farmland project management, the information management is carried out from the whole life cycle of project establishment, examination and approval, design, construction progress, acceptance check, filing to project later-stage management and the like, the project construction process full-coverage management is realized by adopting modes such as online video and photo examination and verification, the difficulty that the conventional geographic information management system only emphasizes the geographic information management, the daily office system only emphasizes the attribute information and has no spatial attribute information management is broken, and the construction process is difficult to be comprehensively supervised is solved; the B/S architecture replaces the C/S architecture, and the technologies of face recognition, video call, arcgis, coordinate positioning, track playing and the like are utilized to realize accurate management, fine management and traceable management of 'where, what and how much, and whether the construction process supervision is in place' in high-standard farmland management, and the invention mainly solves the technical problems that: at present, for management defects and loopholes in the high-standard farmland project construction process, the modules provided by the invention, such as online examination and approval, role division, real-time checking, attendance checking, video connection and the like, not only solve the problems of data decentralization, incapability of updating and checking the project progress in real time and the like in the high-standard farmland construction process, but also fundamentally solve the defects that the personnel authority can not be clearly identified, the supervision is in place and the like in the construction process.
Detailed Description
The invention is further described below with reference to the accompanying drawings:
in the figure:
s101, forming project basic information of founding and approving basic information through project information processing based on project information of a farmland construction project;
s102, forming project basic information of founding and approving basic information through project information processing based on the project information of the farmland construction project;
s103, forming key basic information of the founding and approving basic information through key information processing based on the key information of the farmland construction project;
s104, forming full life cycle informatization management of farmland construction projects based on establishment and approval basic information through constructor progress application, supervisor progress audit and platform and owner quality inspection audit in sequence;
a101, processing project information;
a102-engineering information processing;
a103-key information processing;
a104, importing and approving project and engineering information;
a105, importing and approving quality inspection information;
a106, importing and approving bid-winning information;
a107-importing and approving design parameters;
a108, importing and approving the process flow;
a201, construction progress application;
a202, auditing progress of a proctor;
a203-platform and owner quality inspection and audit;
example (b):
the first embodiment is as follows: as shown in fig. 1, a high-standard farmland construction project management platform comprises:
item basic information S101 of establishing and approving basic information is formed through item information processing A101 based on the item information of the farmland construction item;
based on the engineering information of the farmland construction project, forming engineering basic information S102 of the founding and approving basic information by the engineering information processing A102;
forming key basic information S103 of establishment and approval basic information through key information processing A103 based on the key information of the farmland construction project;
based on the establishment and approval basic information, sequentially passing through a constructor progress application A201, a supervisor progress audit A202 and a platform and owner quality inspection audit A203 to form the full life cycle informatization management S104 of the farmland construction project;
project basic information of founding and approving basic information is formed by adopting project information based on farmland construction projects and processing the project information; based on the engineering information of the farmland construction project, forming engineering basic information of the founding and approving basic information through engineering information processing; forming key basic information of the establishment and approval basic information by processing the key information based on the key information of the farmland construction project; based on founding and approval basic information, sequentially applying through a constructor progress, conducting progress audit through a supervisor, conducting platform and quality inspection audit through an owner side, forming full life cycle informatization management of farmland construction projects, and because a high-standard farmland construction project management platform is combined with a GIS information management system, performing informatization management from the full life cycles of founding, approval, design, construction progress, acceptance, saving and the like, realizing full coverage management of project construction processes by adopting modes of video connection, progress audit, attendance card punching, track recording and the like, deploying all modules of the high-standard farmland construction project management platform at a server end, and using functions of a Web end and an APP end as using and displaying entries respectively, wherein the Web end of the system uses functions of user login, user registration, authority verification, project data query and maintenance, attendance track query, layer display and the like, and the APP end has functions of user login registration, layer management, message sending, data approval, attendance checking, track recording and the like, the high-standard farmland management platform provides the Web end and the APP end for data interconnection and intercommunication, so that information sharing is more convenient and labor-saving, the process approval is more rapid and efficient, project cooperation is more smooth, and all parties can obtain all data information of a project in time and verify and confirm through project engineering data centralized management and traceability. The method is more suitable for the characteristics of on-site personnel flow supervision, takes simplicity and easiness as a design idea, takes what you see is what you get as a design guide, manages data through a Web end, monitors project personnel through an APP end, really realizes that constructors are concentrated on construction, supervisors are concentrated on engineering supervision, quality inspectors are concentrated on quality inspection, and a supervisor can accurately manage, finely manage and backtrack management, so that the supervisors are relieved; the method has the advantages that the high-standard farmland construction management working level is improved as a breakthrough point, the daily office automation and the geographic information management are combined, the focus of attention is transferred from the city level, provincial level supervision and the record level to the county level daily high-standard farmland project management, the information management is carried out from the whole life cycle of project establishment, examination and approval, design, construction progress, acceptance check, filing to project later-stage management and the like, the project construction process full-coverage management is realized by adopting modes such as online video and photo examination and verification, the difficulty that the conventional geographic information management system only emphasizes the geographic information management, the daily office system only emphasizes the attribute information and has no spatial attribute information management is broken, and the construction process is difficult to be comprehensively supervised is solved; the B/S architecture replaces the C/S architecture, and the technologies of face recognition, video call, arcgis, coordinate positioning, track playing and the like are utilized to realize accurate management, fine management and traceable management of 'where, what and how much, and whether the construction process supervision is in place' in high-standard farmland management, and the invention mainly solves the technical problems that: at present, for management defects and loopholes existing in the high-standard farmland project construction process, the modules provided by the invention, such as online examination and approval, role division, real-time checking, attendance checking, video connection and the like, not only solve the problems of data decentralization, incapability of updating and checking the project progress in real time and the like in the high-standard farmland construction process, but also fundamentally solve the defects of incapability of ensuring clear authority of personnel, in-place supervision and the like in the construction process
As shown in fig. 2, the item information processing a101 includes: based on the project basic information and the project related files, processing and determining the project basic information through project information import and approval;
the engineering information processing a102 includes: based on the basic information of the project, the project number and the project coordinate information, the basic information of the project is processed and determined through the import and approval of the project information;
the key information processing a103 includes: and processing and determining key basic information through key information import and approval based on quality inspection, successful bid, design and process information.
The project information processing includes: based on the project basic information and the project related files, the project basic information is processed and determined through project information import and approval; the engineering information processing comprises: based on the basic information of the project, the project number and the project coordinate information, processing and determining the basic information of the project through the import and approval of the project information; the key information processing includes: processing and determining key basic information through key information import and examination and approval based on quality inspection, bid-winning, design and process information; the project information mainly comprises project names, project ranges, project implementation states (project establishment, planning, construction and completion), project basic information (project sites, project scales, investment intensity, capital sources (countries, provinces, cities and counties) and project investment proportions), and the following files are recorded into the system as accessories: (1) item establishment: the file (2) design unit of the project establishment report and the project establishment batch file: unit business license, qualification certificate, principal certificate, bid-winning notice, contract book) (3) project survey: primarily designing a project area topographic map, a project area geophysical prospecting report and field investigation data (4): a project area current situation diagram, a project area planning design diagram, a project planning design technical book and a project planning design monomer diagram; (5) and (3) engineering pre-calculation: project planning budget book, construction cost, equipment purchase cost, other cost, unpredictable cost, including branch cost. (6) Planning and designing and repeating: planning design and budget book expert review opinions, planning design and budget book reply files and the like; the engineering information mainly comprises: the project location, the project quantity (road length, shelter trees, etc.), the project number. The engineering design drawing and design parameters mainly comprise: planning and designing a monomer map and main design parameters (such as road concrete grade, thickness and width, motor-pumped well diameter, depth, water yield, matched water pump model and power, bridge span, width and reinforcement distribution, transformer-station motor-pumped well, cable model, protection forest tree species and meter diameter and the like), completely recording newly planned or prepared project information into a database through approval management of three major information resources of the project information, the engineering information and the key information and introduction of management projects, section information, engineering information, management quality inspection, supervision and construction company information, and facilitating later construction to fetch and manage related data. Projects (such as land leveling, irrigation and water conservancy, field roads, electric power facilities and the like) of high-standard farmland construction project planning and design are all recorded into a database, construction is realized, and supervision authority and responsibility are clear.
As shown in fig. 3, the project information processing a101 and the project information processing a102 include a project and project information import and approval a104, the project and project information import and approval a104 is output to a key information processing a103, the key information processing a103 includes a quality inspection information import and approval a105, the quality inspection information import and approval a105 is output to a winning bid information import and approval a106, the winning bid information import and approval a106 is output to a design parameter import and approval a107, and the design parameter import and approval a107 is output to a process flow import and approval a 108.
Because the project information processing and the engineering information processing comprise project and engineering information import and approval, the project and the engineering information import and approval are output to key information processing, the key information processing comprises quality inspection information import and approval, the quality inspection information import and approval output is the bid-winning information import and approval, the bid-winning information import and approval output is the design parameter import and approval, and the design parameter import and approval are output from the process flow import and approval, the invention adopts the specific process management of the processes such as the project and engineering information import and approval sub-process, the quality inspection information import and approval sub-process, the bid-winning information import and approval process, the design parameter import and approval sub-process, the process flow import and approval sub-process and the like, and because the high-standard farmland management platform provides a Web end and an APP end for data interconnection and intercommunication, the information sharing is more convenient and labor-saving, the process approval is more rapid and efficient, the project cooperation is more smooth, and all parties can obtain all data information of the project in time and verify and confirm through project engineering data centralized management and traceability.
As shown in fig. 4, the project and engineering information import and approval a104 includes:
judging whether the project and the engineering data are imported successfully;
if the import is successful, judging whether the project and the project are approved or not through project and project approval judgment;
if the result passes, entering quality inspection information import and approval A105;
otherwise, importing the project and the engineering data again;
the project and engineering approval determination comprises:
and (3) judging the integrity of the file: judging whether the imported project and project data completely comprise project basic information files, project related files, project basic information files and project files of the project related files;
if the integrity comprises project and project files, determining that the project and project files have integrity;
and (3) field integrity judgment: judging whether the project number and the project coordinate key field in the project and the project file are empty or not;
if the key field is not empty, determining that the fields contained in the project and engineering files have integrity;
and (3) judging the correctness of the coordinate system: judging whether the coordinate systems in the project and the engineering file accord with the WEB ink card projection or not;
if the projection relation is met, determining that the projection relation of the coordinate systems of the project and the engineering file has correctness;
judging whether the project and the project file are determined to have integrity and the contained fields have integrity and the projection relation of the coordinate system has correctness;
and if so, determining that the project and project approval is passed.
Because the project and the project information are imported and approved, the project area data is in a Shapefile graph format, the data content comprises high-standard farmland project area range planar graphs in the same year, the field content comprises project numbers, project affiliation, project categories, project batches, project names, topographic features, names of administrative areas and towns where the project areas and the towns are located, total investment amount, project area scale, high-standard farmland area built, newly-increased farmland area and standing year, the project data is in the Shapefile graph format, the data content is all project point-like and linear graphs in a certain village and township project area range, construction and supervision scale division is performed according to scale division information provided by an agricultural bureau, construction scale sections and supervision scale sections to which the construction scale sections belong must be correctly filled in, and the scale sections to which the construction scale sections belong are filled in numbers; the engineering classification and the code are filled according to the classification name: the primary project is filled in correspondingly to the engineering major, the last hierarchical project name is filled in correspondingly to the engineering minor, and if subdivision is available, filling content in remarks (for example, field building only has the first two stages, land leveling of the engineering major, field building of the engineering minor, farm bridge having three-stage classification and including I-type bridge and II-type bridge, irrigation and drainage of the engineering major, farm bridge of the engineering minor, filling of the I-type bridge or the II-type bridge in correspondingly to the remarks) is required to correspond to the form content. The process has the advantages that all data information of the project is more traceable through the project and project information import, the file integrity judgment, the field integrity judgment and the coordinate system correctness judgment of the examination and approval sub-process and the project data centralized management and the examination and verification confirmation.
As shown in fig. 4, the quality inspection information import and approval a105 includes:
judging whether the import of the quality inspection unit data is successful or not;
if the import is successful, judging whether the quality inspection unit passes the examination and approval through examination and approval judgment of the quality inspection unit;
if the result passes, the bid-winning information import and approval A106 is entered;
otherwise, importing the quality inspection unit data again;
the quality inspection unit examination and approval judgment comprises the following steps:
and (3) judging the integrity of the table: judging whether a necessary item in a quality inspection table in the imported quality inspection unit data is empty or not;
if the mandatory item is not null, determining that the quality inspection table has integrity;
and (3) field integrity judgment: judging whether fields contained in a quality inspection table in the imported quality inspection unit data are complete or not;
if the relevant fields are complete, determining that the fields contained in the quality inspection table have integrity;
judging materials necessary for quality inspection: judging whether the business license, the unit of the personnel certificate and the personnel quality inspection material picture are complete or not;
if the unit and personnel material pictures are complete, the correctness of the necessary material for quality inspection is determined;
judging whether the quality inspection form is determined to have integrity and the contained fields have integrity and the necessary materials for quality inspection have correctness;
and if so, determining that the quality inspection unit passes the examination and approval.
Due to the adoption of the quality inspection information importing and approving sub-process, the information data of the quality inspection unit is in an Excel table data format and in a JPG (Java native document group) or PNG (portable network group) picture format or a PDF (portable document format) file format; information such as company names, company types, official persons, project managers and responsible person contact ways needs to be filled in the Excel form, filling contents are consistent with reality, one annual large project corresponds to one quality inspection unit, and company type pull-down options select quality inspection; the import system needs to compress the whole folder into a zip compressed file format; through the judgment methods of form integrity judgment, field integrity judgment and quality inspection necessary material judgment, quality inspection personnel pay attention to quality inspection and submit some forms of problems to a system for processing, so that the quality inspection efficiency is improved.
As shown in fig. 4, the bid-closing information import and approval a106 includes:
judging whether the successful introduction of the winning unit data is successful;
if the importing is successful, judging whether the approval of the bidding unit passes through the approval judgment of the bidding unit;
if the design parameters pass through, entering design parameter import and approval A107;
otherwise, importing the winning unit data again;
the quality inspection unit examination and approval judgment comprises the following steps:
and (3) judging the integrity of the table: judging whether a mandatory item in a bid-winning table in the imported bid-winning unit data is empty or not;
if the mandatory item is not null, determining that the winning bid table has integrity;
and (3) field integrity judgment: judging whether fields contained in a bid-winning table in the imported bid-winning unit data are complete or not;
if the relevant fields are complete, determining that the fields contained in the winning bid table have the integrity;
and (3) judging the necessary materials for winning the bid: judging whether the unit of the business license and the personnel certificate and the winning material picture of the personnel are complete or not;
if the unit and personnel material pictures are complete, the necessary winning materials are determined to have correctness;
judging whether the quality inspection form is determined to have integrity and the contained fields have integrity and the necessary materials for quality inspection have correctness;
and if so, determining that the quality inspection unit passes the examination and approval.
Due to the adoption of the sub-processes of importing and approving the bid-winning information, the information data of the bid-winning unit is in an Excel table data format and in a JPG (Java native g) and PNG (portable network graphics) picture format or a PDF (portable document format) file format. In the Excel form, information such as company name, company type, company legal person, project manager and responsible person contact way needs to be filled in, (the company type pull-down option selects supervision, construction or purchase according to the actual section type), the import system needs to store each section information under the corresponding section name folder respectively, (folder names such as 'construction 1 standard'), supervision and construction sections need to be completely compared with actual engineering data, for example: construction mark sections are 1, 2, 3, 4, 5, 6 and 7 marks in engineering data, supervision mark sections are 1, 2, 3 and 6 marks, a winning bid unit comprises 11 folders with corresponding names, all the folders are compressed into a zip compressed file format to be imported (if a single purchasing mark section exists, the name of the folder is purchasing mark), complexity of winning bid management is simplified through table integrity judgment, field integrity judgment and necessary winning bid material judgment, and efficiency of winning bid management is improved.
As shown in fig. 4, the design parameter importing and approving a107 includes:
judging whether the design parameter data is successfully imported or not;
if the import is successful, judging whether the design parameter approval is passed or not through design parameter approval judgment;
if the result passes, entering a process flow import and approval A108;
otherwise, importing the design parameter data again;
the design parameter approval judgment comprises the following steps:
and (3) judging the matching of the parameters: judging whether the design parameters in the imported design parameter data are matched with the system;
if the imported design parameter data comprises engineering major data or engineering minor data, screening and extracting engineering types from the engineering vector data, and matching the imported corresponding design parameters;
if the design parameters are matched with the system, determining that the design parameters have matching performance;
screening, extracting and judging: judging whether the design parameters in the imported design parameter data are correctly screened and extracted to obtain engineering data;
if the design parameter data comprises engineering major fields or engineering minor fields, respectively screening and extracting corresponding engineering major data or engineering minor data and respectively importing the corresponding engineering major data or engineering minor data into engineering data;
if the design parameters are correctly screened and extracted, determining that the design parameters are correctly screened and extracted;
one-to-many mapping decision: judging whether design parameters in the imported design parameter data have correct one-to-many mapping relation;
if the imported design parameter data comprises a plurality of engineering data, matching the design parameters and the process flows according to the engineering types, and then matching the corresponding parameters and the corresponding processes with the engineering data corresponding to each type;
if the design parameters have correct one-to-many mapping relation, determining that the design parameters have one-to-many mapping relation;
judging whether the design parameters are determined to have matching and correctly screening and extracting engineering data and the design parameters have one-to-many mapping relation;
and if so, determining that the design parameters pass the approval.
The design parameter import and approval sub-process is adopted, and the design parameter data are engineering design parameters and engineering design drawing paper. The engineering design parameter is in a TXT text format; the engineering design drawing is in a JPG (joint design group), PNG (portable navigation group) picture format or PDF (Portable document Format) file format, the design parameter data need to be classified according to different engineering types when being imported into the system, and the naming, number and classification of the design parameter data need to correspond to the engineering types one by one. The design drawings of all projects can be input into a database by adding, deleting, searching and modifying the design drawings and design parameters of the projects, so that construction, supervision, owner and supervisor can quickly look up the project design and key index requirements in the construction process, and a basis is created for strictly constructing according to the drawings.
As shown in fig. 4, the process flow import and approval a108 includes:
judging whether the process flow data is imported successfully or not;
if the import is successful, judging whether the process flow approval is passed or not through the process flow approval judgment;
if the key information passes, the key information processing A103 is finished;
otherwise, importing the process flow data again;
the process flow approval judgment comprises the following steps:
and (3) judging the matching of the parameters: judging whether the process flow in the imported process flow data is matched with the system or not;
if the imported process flow data comprises engineering major data or engineering minor data, screening the extracted engineering types according to the engineering vector data, and matching the imported corresponding process flow;
if the process flow is matched with the system, determining that the process flow has matching property;
screening, extracting and judging: judging whether the process flows in the imported process flow data are correct or not, and screening and extracting the process data;
if the imported process flow data comprises engineering large-class fields or engineering small-class fields, screening and extracting corresponding engineering large-class data or engineering small-class data respectively and importing the corresponding engineering large-class data or engineering small-class data into the engineering data respectively;
if the process flow is correct, screening and extracting the engineering data, determining that the process flow is correct, screening and extracting the engineering data;
one-to-many mapping decision: judging whether the process flows in the imported process flow data have a correct one-to-many mapping relation or not;
if the process flows have the correct one-to-many mapping relationship, determining that the process flows have the one-to-many mapping relationship;
if the imported process flow data comprises a plurality of engineering data, matching design parameters and process flows according to the engineering types, and then matching corresponding parameters and processes with the engineering data corresponding to each type;
judging whether the process flows are determined to have matching performance and correctly screening and extracting engineering data and the process flows have one-to-many mapping relation;
and if so, determining that the process flow passes the approval.
Because the process flow importing and approving sub-flows are adopted, the process flow data is in a TXT text format, the first and the last contents of the process flow need to be filled in for work and completed respectively, the importing system needs to name the TXT text as 'engineering major class-engineering minor class', and the naming, number and classification of files need to be in one-to-one correspondence with the types in the engineering data. Compressing all TXT text files into a zip compressed file format, importing the files, judging through parameter matching, screening and extracting, judging through one-to-many mapping, and increasing, deleting, searching and modifying the process flow of the project so that the construction is carried out according to the flow.
When design parameters and process flows are imported, the system judgment standard is as follows: screening and extracting engineering data; matching a system; one-to-many mapping. The specific criteria are as follows:
screening and extracting engineering data: the engineering vector data of the leader has fields of engineering major and engineering minor, and the system automatically screens and extracts the engineering types contained in the imported engineering data.
And (3) system matching: when the design parameters and the process flows are imported, the files are named as engineering major categories and engineering minor categories, and the system matches the imported design parameters and the process flows according to the engineering types screened and extracted from the engineering vector data.
One-to-many mapping: in the engineering vector data, one engineering type comprises a plurality of engineering data, and after the system matches design parameters and process flows according to the engineering type, the corresponding engineering data of each type matches corresponding parameters and processes.
As shown in fig. 5, the constructor progress application a201 is output to the proctor progress audit a 202;
the proctor progress audit A202 is output to a platform and owner quality inspection audit A203;
the constructor progress application A201, the supervisor progress audit A202, the platform and the owner quality inspection audit A203 all comprise engineering quantity judgment function models;
the engineering quantity determination function model is as follows:
EA<EW
the EA is the engineering quantity of any construction party in process application;
the EQiAny engineering quantity of any engineering class;
the EJiAny engineering quantity of any engineering subclass;
the EW is the engineering quantity of imported engineering data.
As the construction progress and acceptance management process comprises a construction progress application sub-process, the construction progress application sub-process is output to a supervisor progress audit sub-process, and the supervisor progress audit sub-process is output to a platform and a proprietor quality inspection sub-process, as shown in figure 5, the construction progress and acceptance management process can realize the electronization and traceability of construction, supervision and daily documents through the operations of issuing proprietor notification, interconnection video audit and offline photo audit by the proprietor and the constructor, issuing proprietor notification, review supervision request, metering information audit and fund payment approval by the proprietor and the supervisor, issuing the proprietor notification, review supervision request, metering information audit and fund payment approval by the supervisor and the constructor, and interconnecting the APP and a web terminal, thereby realizing the online, traceability and engineering quality supervision, Electronization effectively promotes work efficiency and the integrality of later stage engineering archival data.
As shown in fig. 6, the constructor progress application a201 includes:
if the process flow passes the approval, selecting the construction progress of any process flow according to the construction condition, submitting the application of a constructor, and judging whether the construction progress of the constructor meets the progress acceptance standard of the constructor according to the construction progress judgment standard of the constructor;
if the constructor construction progress meets the constructor progress acceptance standard, submitting the constructor application to a supervisor progress audit A202;
otherwise, resubmit the application of the constructor;
the construction progress judgment standard of the constructor comprises the following steps:
judging the engineering quantity of a construction party: judging whether the engineering quantity reaches the standard or not through database comparison, and if so, determining that the engineering quantity of a construction party meets the standard;
judging whether the engineering quantity of a construction party in process application is smaller than the engineering quantity of imported engineering data or not;
if the engineering quantity is less than the engineering quantity of the imported engineering data, determining that the engineering quantity judged by the database comparison reaches the standard;
judging the construction content of a construction party: judging whether the site construction content is filled, and if the site construction content is filled, determining that the construction content of a constructor meets the standard;
and (3) judging the on-site evidence of the construction party: judging whether the on-site image data, the on-site photos and the videos exist or not, and if so, determining that the on-site evidence of the construction party meets the standard;
and (3) uploading judgment of the accessory of the construction party: judging whether the accessory of the construction side is uploaded, if so, judging that the uploading of the accessory of the construction side meets the standard;
and judging whether the engineering quantity of the constructor, the construction content of the constructor, the on-site evidence of the constructor and the uploading of the accessories of the constructor meet the standards, and if so, judging that the construction progress of the constructor meets the progress acceptance standard of the constructor.
The proctoring party progress audit a202 includes:
if the supervisor accepts the application of the constructor to pass, judging whether the construction progress of the supervisor meets the progress acceptance standard of the supervisor according to the construction progress judgment standard of the supervisor;
if the construction progress of the supervisor accords with the progress acceptance standard of the supervisor, applying the supervisor to a submission platform and a quality inspection check A203 of the owner;
otherwise, resubmit the application of the constructor;
the construction progress judgment standard of the proctoring party comprises the following steps:
judging the engineering quantity of the proctoring party: judging whether the engineering quantity reaches the standard or not, and if so, determining that the engineering quantity of the supervisor meets the standard;
wherein, judge the proctor accepts the engineering quantity of the process application is smaller than the engineering quantity of the imported engineering data;
if the engineering quantity is less than the engineering quantity of the imported engineering data, determining whether the engineering quantity reaches the standard;
judging the construction details of the proctoring party: judging whether the site construction details are filled, and if the site construction details are filled, determining that construction contents of the supervisor meet the standard;
and (3) judging the on-site evidence of the proctoring party: judging whether the site photos are in real compliance or not, and if so, determining that the site certification of the supervisor meets the standard;
construction certification judgment of a proctor: judging whether construction certification data of the proctor is correct or not, and if so, judging that the construction certification of the proctor meets the standard;
and judging whether the construction amount of the proctoring party, the construction content of the proctoring party, the on-site evidence of the proctoring party and the construction proof of the proctoring party meet the standards, and if so, judging that the construction progress of the proctoring party meets the progress acceptance standards of the proctoring party.
The platform and owner quality inspection audit A203:
if the platform and the owner accept the platform and the owner applies the platform, judging whether the platform and the owner construction progress meet the platform and owner progress acceptance standard or not according to the platform and owner construction progress judgment standard;
if the construction progress of the platform and the owner meets the progress acceptance standard of the platform and the owner, finishing the construction progress and acceptance management process;
otherwise, resubmit the application of the constructor;
the platform and owner construction progress judgment standard comprises the following steps:
judging the engineering quantity of the platform and the owner: judging whether the engineering quantity reaches the standard or not, and if so, determining that the engineering quantity of the platform and the owner meets the standard;
judging whether the engineering quantity of the platform and the owner accepting the process application is less than the engineering quantity of the imported engineering data or not;
if the engineering quantity is less than the engineering quantity of the imported engineering data, determining whether the engineering quantity reaches the standard;
and (3) judging the construction details of the platform and the owner: judging whether the site construction details are filled, and if the site construction details are filled, determining that the construction contents of the platform and the owner meet the standard;
and (3) judging the field evidence of the platform and the owner: judging whether the live photos are truly in compliance, and if so, determining that the live evidences of the platform and the owner meet the standard;
and (3) platform and owner construction certification judgment: judging whether the construction certification data and the construction side accessories of the platform and the owner are correct or not, and if so, judging that the construction certification of the platform and the owner meets the standard;
and judging whether the engineering quantity of the platform and the owner, the construction content of the platform and the owner, the site evidence of the platform and the owner and the construction certification of the platform and the owner meet the standard, and if so, judging that the construction progress of the platform and the owner meets the progress acceptance standard of the platform and the owner.
Adopting constructor construction progress judgment standard of constructor progress application sub-flow, supervisor construction progress judgment standard of supervisor progress auditing sub-flow and platform and owner quality inspection auditing sub-flow and owner construction progress judgment standard,
since the engineering vector data of the import system includes the engineering quantity information of each engineering, the engineering quantity written by the constructor when applying for the procedure must not be larger than the engineering quantity of the import engineering data.
The system compares the project amount filled in by the application with the project amount of the imported vector data, if the filling project amount is less than or equal to the project amount of the imported data, the system meets the standard, and otherwise, the application needs to be filled again.
The detailed information of the engineering vector data of the import system is visible on an engineering detail page, when applying for submission to supervision and quality inspection, a supervisor and a quality inspection party need to check the engineering quantity filled in the submitted information and the engineering quantity displayed in the engineering detail, and according to the standard that the engineering quantity filled in the process application is not necessarily larger than the engineering quantity of the import engineering data, whether the filled engineering quantity in all the submitted process application information is correct and reasonable is judged, and if the filled engineering quantity is not reasonable, the checking and approval cannot be passed.
In addition, construction supervision: the construction supervision is a web-side functional module, and the main functions comprise the functions of checking engineering attributes, checking engineering drawings and design parameters, checking supervision requests, issuing owner notifications, interconnection video check, offline photo review, construction progress update reminding, construction progress statistical analysis, metering information review, fund payment approval and the like; through above function, the owner can need not to reach the scene and can grasp job site, construction progress, supervision examination suggestion etc. comprehensively, and the control of reinforcing owner to quality and progress, simultaneously, engineering construction management: the engineering construction management module is a function module corresponding to the construction party APP and construction supervision. The main functions include: checking engineering, checking engineering design drawings and parameters, applying for starting work, reserving evidence in the construction process, checking and accepting application, managing notification reply, applying for fund payment and the like; meanwhile, project supervision and management: the project supervision module is a function module corresponding to the supervision party APP and the construction supervision. The main functions include: look over the engineering, look over engineering design drawing and parameter, start work and apply for wholesale, check and accept wholesale, the supervision notice is issued, ask functions such as report, through the setting of above-mentioned function, more adapt to the characteristics of on-the-spot personnel flow supervision, with simple and convenient, easy as the design philosophy, use what sees to be gained promptly as the design guidance, carry out the management of data material through the Web end, the APP end carries out project personnel's control, it is absorbed in the construction really to have realized constructor, the supervisor is absorbed in engineering supervision, quality control personnel are absorbed in quality inspection, make the person in charge can accurate management, the management that becomes more meticulous, can go back to the management, let the supervisor save worry.
And simultaneously, all modules of the high-standard farmland construction project management platform are deployed at a server side, and functions are respectively used as a use and display entry by a Web side and an APP side. The system Web end uses the functions of user login, user registration, authority verification, project data query and maintenance, attendance track query, map layer display and the like, the APP end has the functions of user login and registration, map layer management, message sending, data approval, attendance card punching, track recording and the like, and the process of logging in the system is shown in figure 7.
Meanwhile, the high-standard farmland construction project management platform has the following characteristics:
the advancement is as follows: the project management is integrated in multiple ways, roles and the like of the business process personnel are associated and matched with each other to form cooperation, repeated data are reduced, and information resources are effectively utilized.
And (3) omnibearing supervision: through video conversation, the construction progress is shot, and face identification, attendance are punched a card, functions such as trail record all-round supervision engineering progress, personnel work.
Expansibility: the system structure has good expansibility and is easy to expand.
Safety is as follows: the system guarantees the confidentiality and the integrity of the data through various mechanisms, including identity authentication, user operation, log report and data backup.
The working principle is as follows:
the method adopts project information based on farmland construction projects, and forms project basic information of founding and approving basic information through project information processing; based on the engineering information of the farmland construction project, forming engineering basic information of the founding and approval basic information through engineering information processing; forming key basic information of the establishment and approval basic information by processing the key information based on the key information of the farmland construction project; based on founding and approval basic information, sequentially applying through a constructor progress, examining and approving through a supervisor progress, examining and approving through a platform and a proprietor quality inspection, forming full life cycle informatization management of farmland construction projects, and because a high-standard farmland construction project management platform is combined with a GIS information management system, informatization management is carried out from the full life cycles of founding, examining and approving, designing, construction progress, checking and accepting, archiving and the like, the full coverage management of the project construction process is realized by adopting modes of video connection, progress examination and approving, attendance card punching, track recording and the like, all modules of the high-standard farmland construction project management platform are deployed at a server end, functions are respectively used as using and displaying entrances by a Web end and an APP end, wherein the Web end of the system uses functions of user login, user registration, authority verification, project data query and maintenance, attendance track query, layer display and the like, and the APP end has functions of user login registration, layer management, message sending, data approval, attendance checking, track recording and the like, the high-standard farmland management platform provides the Web end and the APP end for data interconnection and intercommunication, so that information sharing is more convenient and labor-saving, the process approval is quicker and more efficient, project cooperation is more smooth, and all parties can obtain all data information of a project in time and verify and confirm through project engineering data centralized management and traceability. The method is more suitable for the characteristics of on-site personnel flow supervision, takes simplicity and easiness as a design idea, takes what you see is what you get as a design guide, manages data information through a Web end, monitors project personnel through an APP end, really realizes that constructors are concentrated on construction, supervisors are concentrated on engineering supervision, quality inspectors are concentrated on quality inspection, and a supervisor can accurately manage, finely manage and backtrack management, so that the supervisors are relieved; the method has the advantages that the improvement of the high-standard farmland construction management working level is taken as a breakthrough point, the daily office automation and the geographic information management are combined, the focus of attention is transferred from the city level, the provincial level supervision and the filing level to the county level daily high-standard farmland project management, the information management is carried out in the whole life cycle from project establishment, approval, design, construction progress, acceptance, filing to project later management and the like, the project construction process full-coverage management is realized by adopting modes such as online video, photo approval and the like, the situation that the conventional geographic information management system only emphasizes the geographic information management, the daily office system only emphasizes the attribute information and has no sidedness of spatial attribute information management and the construction process is difficult to comprehensively supervise is broken through the conventional geographic information management system; the B/S architecture replaces the C/S architecture, and the technologies of face recognition, video call, arcgis, coordinate positioning, track playing and the like are utilized to realize accurate management, fine management and traceable management of 'where, what and how much, and whether the construction process supervision is in place' in high-standard farmland management, and the invention mainly solves the technical problems that: at present, for management defects and loopholes in the high-standard farmland project construction process, the modules provided by the invention, such as online examination and approval, role division, real-time checking, attendance checking, video connection and the like, not only solve the problems of data decentralization, incapability of updating and checking the project progress in real time and the like in the high-standard farmland construction process, but also fundamentally solve the defects that the authority and responsibility of personnel cannot be clearly distinguished, the supervision is in place and the like in the construction process.
The processing by using the project information includes: based on the project basic information and the project related files, the project basic information is processed and determined through project information import and approval; the engineering information processing comprises: based on the basic information of the project, the project number and the project coordinate information, processing and determining the basic information of the project through the import and approval of the project information; the key information processing includes: processing and determining key basic information through key information import and examination and approval based on quality inspection, bid-winning, design and process information; the project information mainly comprises project names, project ranges, project implementation states (project establishment, planning, construction and completion), project basic information (project sites, project scales, investment intensity, capital sources (countries, provinces, cities and counties) and project investment proportions), and the following files are recorded into the system as accessories: (1) item establishment: the file (2) design unit of the project establishment report and the project establishment batch file: unit business license, qualification certificate, principal certificate, bid-winning notice, contract book) (3) project survey: primarily designing a project area topographic map, a project area geophysical prospecting report and field investigation data (4): a project area current situation diagram, a project area planning design diagram, a project planning design technical book and a project planning design monomer diagram; (5) engineering pre-calculation: project planning budget book, construction cost, equipment purchase cost, other cost, unpredictable cost, including branch cost. (6) Planning and designing and repeating: planning design and budget book expert review opinions, planning design and budget book reply files and the like; the engineering information mainly includes: the project location, the project quantity (road length, shelter trees, etc.), the project number. The engineering design drawing and design parameters mainly comprise: planning and designing a monomer map and main design parameters (such as road concrete grade, thickness and width, motor-pumped well diameter, depth, water yield, matched water pump model and power, bridge span, width and reinforcement distribution, transformer-station motor-pumped well, cable model, protection forest tree species and meter diameter and the like), completely recording newly planned or prepared project information into a database through approval management of three major information resources of the project information, the engineering information and the key information and introduction of management projects, section information, engineering information, management quality inspection, supervision and construction company information, and facilitating later construction to fetch and manage related data. Projects (such as land leveling, irrigation and water conservancy, field roads, electric power facilities and the like) of high-standard farmland construction project planning and design are all recorded into a database, construction is realized, and supervision authority and responsibility are clear.
By adopting the project information processing and engineering information processing including project and engineering information import and approval, the project and engineering information import and approval are output in key information processing, the key information processing includes quality inspection information import and approval, the quality inspection information import and approval output is in bid-winning information import and approval, the bid-winning information import and approval output is in design parameter import and approval, the design parameter import and approval output is in process flow import and approval, because the invention is managed by concrete processes such as project and engineering information import and approval sub-process, quality inspection information import and approval sub-process, bid-winning information import and approval process, design parameter import and approval sub-process, process flow import and approval sub-process and the like, because the high-standard farmland management platform provides a Web end and an APP end for data interconnection and intercommunication, the information sharing is more convenient and labor-saving, the process approval is more rapid and efficient, the project cooperation is more smooth, and all parties can obtain all data information of the project in time and verify and confirm through project engineering data centralized management and traceability.
The invention solves the problems of data decentralization, failure in real-time updating and checking of project progress and the like in high-standard farmland construction in the prior art, solves the problems of data decentralization, failure in real-time updating and checking of project progress and the like in high-standard farmland construction, and fundamentally solves the defects of incapability of ensuring clear authority and responsibility of personnel, in-place supervision and the like in the construction process.
The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.