CN114091793A

CN114091793A - Management method and system for monitoring whole process of building engineering

Info

Publication number: CN114091793A
Application number: CN202010629747.9A
Authority: CN
Inventors: 赵宏翔
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-06-28
Filing date: 2020-06-28
Publication date: 2022-02-25

Abstract

The invention provides a management method and a system for monitoring the whole process of a building project, which comprises the following steps: the construction company of the project initiates a loan to the bank; the loan is used for the engineering construction; the construction company initiates a request security risk loan to the security company, the security company establishes a risk evaluation group, the risk group is used for collecting and analyzing information of the construction company where the project is located, carrying out risk evaluation on the project, simultaneously carrying out risk evaluation on the information of the project, comprehensively judging risks according to the risk evaluation group on the information of the project, carrying out grade division on the risks, and determining whether to secure the project according to the grades; the vouching company is allowed to vouch for, the vouching company will perform the tracking and a monitoring mechanism performs the monitoring and management of the whole process of the project. The management method and the system for monitoring the whole process of the building engineering solve the problem that no linkage relation exists among governments, banks and insurance companies.

Description

Management method and system for monitoring whole process of building engineering

Technical Field

The invention relates to a management method and a management system for monitoring the whole process of a building project, in particular to a management method and a management system for monitoring the whole process of the building project.

Background

The house building engineering is an engineering entity which is built on house foundation engineering, is provided with a top cover, a beam column, a wall, a foundation and can form an internal space and meet the requirements of people on production, living, learning, public activities and the like.

The quality of building construction engineering is very important and can directly influence the quality condition of the whole house. The implementation of the engineering project is a system engineering, any link or a subsystem cannot be ignored, all link chains must be considered, and otherwise the smooth implementation of the engineering is influenced.

In order to comprehensively meet the engineering construction requirements, scientific management of building construction engineering projects is very important, quality control, progress control, construction cost control and safety control in the engineering construction stage are mainly realized by a construction unit and a supervision unit at present, the construction unit detects through various specified detection means and advanced equipment, the supervision unit verifies through self equipment to provide reference data for judging the engineering quality, certain projects are detected by entrusting units with corresponding qualifications as required, information in the whole process management and coordination and communication conditions of all relevant departments are collected and collated through an information center and transmitted on a project network accurately and timely, so that the relevant units such as the construction unit and the like can be consulted at any time to know and master the engineering construction dynamics and discover problems in time, The problems are researched and solved, and the construction project is smoothly carried out.

At present, engineering construction management tends to be in personnel management and control, written record and collection filing stages, full and complete image data is lacked, if the quality of field supervision personnel cannot meet the requirement of fine management in the building process of a house, a quick, effective and timely communication platform is lacked among an Party A, a government, a constructor, a supervision party, a loan bank and a guarantee company, an effective means for acquiring real, full, timely and full information is lacked in the engineering construction process, so that a lot of potential safety hazards exist in the engineering, the engineering quality cannot reach expectation, the engineering progress is delayed, the current problems are omitted or delayed, the reason is more difficult to be researched when the engineering is dragged to the later stage, and the cost of pursuing is very high.

Therefore, the whole process monitoring of the building construction engineering solves the problem that no linkage relation exists among governments, banks and insurance companies, increases the efficiency of fund chains and national construction funds in an informatization mode, ensures the safety of the construction funds, realizes the information in a panoramic way, and improves the management performance.

Disclosure of Invention

Based on this, the invention aims to solve the technical problem that the existing government, bank and insurance company have no linkage relationship.

The invention provides a management method for monitoring the whole process of a constructional engineering, which is used for monitoring the loan risk of the engineering and the progress condition of the whole engineering and is characterized by comprising the following steps:

the construction company where the project is located initiates a loan to the bank: wherein, the loan is used for the engineering construction;

the construction company initiates a request security risk loan to a security company, the security company establishes a risk evaluation group, and the risk group is used for collecting and analyzing information of the construction company where the project is located and evaluating the risk of the project;

the guarantee company evaluates the information collected by the risk evaluation group, grades the risk and determines whether to guarantee the item according to the grade;

the guarantee company collects information of the project, carries out risk assessment on the information of the project, comprehensively judges risks according to the risk assessment team on the information of the project, grades the risks and determines whether to guarantee the project according to the grades;

the risk assessment group can comprehensively judge the information of the construction company and the project and decide whether to guarantee the project or not;

determining whether to allow the guarantee company to carry out guarantee behaviors on the engineering of the construction company based on the risk level judgment of the guarantee company;

allowing the security company to perform security, wherein the security company performs security tracking and a monitoring mechanism performs overall process monitoring management on the project;

the insurance trail comprises repayment willingness and repayment capacity of the enterprise, changes of the operating environment and operating strategy of the enterprise, whether the enterprise has violation or illegal behaviors invading the interests of the security institution, a pre-warning signal of the insurance loan, risk classification of the insurance loan, formulation of a risk prevention scheme, and compensation and pursuit after insurance;

the whole process management monitoring comprises project usage, project cost, project progress and all contract agreements signed by the project and related to the project.

The management method for monitoring the whole process of the construction project is characterized in that information of the construction company is collected based on the risk assessment team, wherein the information comprises enterprise basic data, enterprise assets, enterprise credit and enterprise honor;

wherein: the enterprise basic data comprises enterprise history and registered funds, the enterprise assets comprise net assets, annual output values, liability rates and profits, the enterprise credit comprises credit rating, tax payment and credit evaluation of financial institutions, and the enterprise reputation comprises government department reputation and industry reputation;

and the risk assessment group carries out risk grading on the enterprise basic data, the enterprise assets, the enterprise credit and the enterprise honor.

In practical application, the construction company and the information of the project of the construction company are comprehensively evaluated by a risk evaluation group of a guarantee company, and a loan bank, the guarantee company and the construction company are linked by a monitoring mechanism to realize information sharing and solve the problem of information processing in the construction industry.

The management method for monitoring the whole process of the building engineering is characterized in that information of the project is collected based on the risk assessment group, wherein the information comprises project source tracing, project fund, project insurance, project data and project personnel;

wherein: the project source tracing comprises project properties, the project fund comprises contract prepayment and contract prepayment, the project insurance comprises insurance use and insurance purchase, the project data comprises project asset level conditions, project equipment registration conditions, project equipment lease contracts and project material contracts, and the project personnel comprises main management personnel and team personnel registration, project engineering real name system registration, project work log submission conditions and project site photo input conditions;

and the risk assessment group carries out risk grading on the project source tracing, the project fund, the project insurance, the project data and the project personnel.

The management method for monitoring the whole process of the construction engineering is characterized in that based on the information collection tracked after insurance, the quality of the financial condition of an enterprise can reflect the repayment willingness and repayment capacity of the enterprise, and the early warning signals of the guarantee loan comprise financial early warning signals and non-financial early warning signals;

the financial early warning signals comprise unexplained accounts receivable, increase of inventory, and rapid increase of enterprise debt, wherein the debt rate exceeds 70%, the excess is insufficient, the loss amount is in a gradually increasing trend, abnormal large amount of funds are transferred among related enterprises, the loss of bad accounts is increased, the net cash flow is greatly reduced or negative values appear, and the financial early warning signals are insufficient to support normal business, crisis occurs in payment, and bank interest cannot be paid on time;

the non-financial early warning signal comprises 1, national leaving a regulation policy which is not beneficial to enterprises, 2, major adjustment of the industry or the related industry operation policy, 3, using borrowing without according to a borrowing contract, 4, potential factors of change or change of main leaders or core characters of the enterprises, 5, major divergence between high-level managers of the enterprises, 6, major loss safety accidents or major personnel adjustment, 7, overstocking and losing products, 8, preparing to implement a major investment policy or operation policy, 9, heavy investment psychology, blind investment, 10, improper reason and not reporting reports on time, and not correcting for a plurality of times, 11, refusing to accept inspection or ignoring problems found in inspection and status of correcting opinion, 12, unapproved, the method comprises the following steps of (1) freely handling mortgages, 13, selling and selling major production and business fixed assets by enterprises, 14, obviously changing business activities, changing major products and major business services, 15, providing large guarantee to outsides, approaching or exceeding self bearing capacity, 16, preparing to merge, acquire, separate, reform shares, reorganize assets, 17, relating to major lawsuits, arbitration or major economic disputes, incapable of normal operation or repayment, 18, penalizing pursuits of departments such as tax, industry and customs due to illegal discipline violation, 19, disclosing bad behaviors by news media, 20, logging off due to illegal discipline, smuggling, commercial infringement, production fake and counterfeit products, etc., legal person business licenses, production licenses, and being in a production stop state or a semi-stop state).

The management method for monitoring the whole process of the construction engineering is characterized in that based on the information collection of the post-guarantee tracking, the risk of the guarantee loan comprises 1) a normal class, 2) an attention class, 3) a suspicious class and 4) a loss class.

The management method for monitoring the whole process of the building engineering is characterized in that based on information collection of post-insurance tracking, post-insurance compensation and compensation comprise overdue and compensation and guarantee loss of debts;

the overdue and compensation are based on 1, guarantee overdue, 2, and the determination of validity of claims of the borrower is confirmed to determine a scheme;

the debt compensation and guarantee loss are based on a series of related data materials such as 1, debt compensation, 2, guarantee loss, and the like,

and the main data is extracted from the danger source data, the safety equipment data, the safety inspection data and the safety report data, and the extraction of the metadata is carried out in the data such as a danger source standard, a safety equipment type, a safety inspection equipment, a safety notice type, a safety education type, a safety transaction type, a work injury safety accident type, a safety system type, a safety reward and penalty type, a safety monthly report type and the like.

The management system for monitoring the whole process of the building engineering comprises a real-name registration module, a project data module and a data analysis module, wherein the real-name level module is used for counting and inputting real-name information of project personnel, the project data module is used for classifying and inputting project data, and the data analysis module is used for analyzing the project data.

The management system for monitoring the whole process of the building engineering comprises a real-name grade module, a login control signal, a label control signal and an authentication control signal, wherein the real-name grade module comprises the login control signal, a user enters the login control signal through an electronic product to log in, the login control signal is in data connection with the label control signal, the label control signal is activated after being started, the label control signal is linked with the authentication control signal through data transmission, a special secret key is generated after the label control signal is started, the special secret key is used for verifying user login information, the authentication control signal is started after the user login information is verified through the special secret key, the authentication control signal is in information data connection with a private key control signal, a private key is obtained after the authentication control signal is started, the private key control signal enters the private key control signal, and the private key control signal is in data connection with an uplink control signal, the uplink mode is used for authenticating user information, the uplink control signal is in data link with a confirmation control signal, after the uplink control signal authenticates the user information, the user confirms and starts the confirmation control signal, the confirmation control signal comprises an authorization control signal and a registration control signal, the authorization control signal is used for a system to authorize and register the user information in the registration control signal, the confirmation control signal is in data link with the private key control signal, after the confirmation control signal is started, a private key is displayed and input, and the private key is used for confirming the user information and uploading the user information.

The management system for monitoring the whole process of the construction project, wherein the label control signal comprises a plurality of symbols, the symbols comprise Roman numerals and English letters, and the symbols are used for combining and generating the special secret key.

The management system for monitoring the whole process of the constructional engineering is characterized in that the private key control signal is provided with information of a login user, the private key control signal is automatically encoded through the information of the user to obtain a group of numbers, and the numbers are used for setting a login password.

The management system for monitoring the whole process of the building engineering is characterized in that a multi-party certification mechanism is arranged in the uplink control signal, the multi-party certification mechanism is used for carrying out certification and confirmation on the information uploaded by the user, and the uplink control signal and the multi-party certification mechanism carry out feedback and confirmation on the identity of the user through data connection. The management system for monitoring the whole process of the building engineering is characterized in that a transmission control signal and a display control signal are further arranged in the registration control signal, the transmission control signal is used for displaying the content in the registration control signal on the display control signal, and the display control signal is used for displaying final user confirmation information.

The management system for monitoring the whole process of the building engineering, wherein the project data module comprises the following control signals: a data acquisition control signal, a data analysis control signal, a data transmission control signal, a data processing control signal, an input control signal, a terminal acquisition control signal, an intelligent algorithm control signal, an optical transmission control signal, a service processing control signal and a storage control signal, wherein the data acquisition control signal is provided with the input control signal and the terminal acquisition control signal at the initial end, and the input control signal and the terminal acquisition control signal are in signal connection with the data acquisition control signal, the data acquisition control signal is connected with the data analysis control signal through data transmission, the data analysis control signal is connected with the intelligent algorithm control signal through data transmission, the data analysis control signal is connected with the data transmission control signal through the optical transmission control signal, and the data transmission control signal is connected with the data processing control signal through the optical transmission control signal, the data processing control signal is in data connection with the service processing control signal, and the data processing control signal is connected with the storage control signal through data transmission.

The management system for monitoring the whole process of the building engineering is characterized in that the input control signal is composed of project transmission, enterprise entry and industry sharing.

The utility model provides a management system of building engineering overall process control, wherein, terminal acquisition control signal gathers through 5G cell-phone, 5G real-time camera, intelligent safety helmet and 5G chip unmanned aerial vehicle.

The management system for monitoring the whole process of the constructional engineering is characterized in that the data analysis control signal respectively obtains a real-time data report table, a statistic data report table and an early warning data report table through an intelligent algorithm control signal.

The management system for monitoring the whole process of the constructional engineering is characterized in that the data processing control signals comprise service processing control signals and storage control signals.

The management system for monitoring the whole process of the building engineering is characterized in that the storage control signal is encrypted by using a military grade and Hash value algorithm to store and encrypt information, and the information can be synchronously processed through an API (application programming interface) after being stored in a cloud disk.

The management system for monitoring the whole process of the constructional engineering, wherein the data analysis control signals comprise the following control signals: the system comprises a big database, a budget control signal, a shooting control signal, a mobile phone terminal, a comparison control signal, an analysis control signal and an accounting control signal, wherein the big database and the budget control signal are in data link with the shooting control signal, the shooting control signal is connected with the mobile phone terminal, the mobile phone terminal is further provided with a comparison control signal, the comparison control signal is connected with the analysis control signal, and the analysis control signal is in data link with the accounting control signal.

The management system for monitoring the whole process of the constructional engineering is characterized in that the mobile phone terminal is further connected with a big data comparison control signal, and the big data comparison control signal is used for comparing the collected data.

The management system for monitoring the whole process of the building engineering is characterized in that the mobile phone terminal is further connected with a budget comparison control signal, and the budget comparison control signal is used for budgeting required data.

The management system for monitoring the whole process of the building engineering is characterized in that all uploaded related data are stored in the big database, and the big database is used for data transmission analysis.

The management system for monitoring the whole process of the building engineering is characterized in that the budget control signal analyzes and contrasts the data in the large database for budget.

In practical application, the information and real-time working conditions of labor workers are counted and recorded into the system through the real-name registration module, the project data module and the data analysis module, and are finally sent to the multi-party linkage, so that the problem of informatization of the building industry and the problem of no linkage relation among governments, banks and insurance companies are solved, and the efficiency of fund links and national construction funds is improved in an informatization mode. The safety of construction funds and the understanding of panoramic informativeness are ensured, and the management performance of the construction funds is improved

Additional features and advantages of the disclosure will be set forth in the description which follows, or in part may be learned by the practice of the above-described techniques of the disclosure, or may be learned by practice of the disclosure.

In order to make the aforementioned and other objects, features and advantages of the invention more comprehensible, preferred embodiments accompanied with figures are described below.

Detailed Description

The following examples further describe embodiments of the present invention in detail. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being either fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The invention provides a management method for monitoring the whole process of a constructional engineering, which is used for monitoring the engineering loan risk and the whole engineering progress condition and is characterized by comprising the following steps:

the guarantee company evaluates the information collected by the risk evaluation group, grades the risk and decides whether to guarantee the item according to the grade;

the guarantee company collects information of the project, carries out risk assessment on the information of the project, comprehensively judges risks according to the information of the project by a risk assessment team, grades the risks and determines whether to guarantee the project according to the grades;

determining whether to allow the security company to perform security behaviors on the engineering of the construction company based on the risk level judgment of the security company;

allowing the guarantee company to carry out guarantee, wherein the guarantee company carries out guarantee tracking and a monitoring mechanism carries out overall process monitoring management on the project;

the insurance tracking comprises repayment willingness and repayment capacity of the enterprise, change of the operating environment and operating strategy of the enterprise, whether the enterprise has violation or illegal behaviors invading the interests of the insurance institution, early warning signals of the insurance loan, risk classification of the insurance loan, formulation of a risk prevention scheme, and compensation after insurance;

A management method for monitoring the whole process of the building engineering is disclosed, wherein, the information of the building company is collected based on the risk assessment group, which comprises the enterprise basic data, the enterprise assets, the enterprise credit and the enterprise honor;

wherein: the enterprise basic data comprises enterprise history and registered funds, the enterprise assets comprise net assets, annual output value, liability rate and profits, the enterprise credit comprises credit rating, tax payment and credit evaluation of financial institutions, and the enterprise reputation comprises government department reputation and industry reputation;

A management method for monitoring the whole process of the building engineering is characterized in that information of the project is collected based on the risk assessment team, wherein the information comprises project source tracing, project fund, project insurance, project data and project personnel;

wherein: the project source tracing comprises project properties, project funds comprise that a contract is prepaid and the contract is not prepaid, the project insurance comprises a use insurance and a purchase insurance, the project data comprise project asset level conditions, project equipment registration conditions, project equipment lease contracts and project material contracts, and project personnel comprise main management personnel and team personnel registration, project engineering real name system registration, project work log submission conditions and project site photo input conditions;

and the risk assessment group carries out risk grading on project source tracing, project fund, project insurance, project data and project personnel.

A management method for monitoring the whole process of construction engineering is disclosed, wherein, based on the information collection tracked after insurance, the quality of the financial condition of an enterprise can reflect the repayment willingness and repayment capability of the enterprise, and the early warning signals of guarantee loan comprise financial early warning signals and non-financial early warning signals;

the financial early warning signals comprise unexplained accounts receivable, increase of inventory and rapid increase of enterprise debt, wherein the rate of liability exceeds 70%, the excess is insufficient, the loss amount is in a gradually increasing trend, abnormal large amount of funds are transferred among related enterprises, the loss of bad accounts is increased, the net cash flow is greatly reduced or negative values appear, and the financial early warning signals are not enough to support normal business, cause crisis in payment and cannot pay bank interest on time;

the non-financial early warning signals comprise 1, national origin of regulation policies which are not beneficial to enterprises, 2, major adjustment of operation strategies of the affiliated industry or the related industry, 3, loan is not used according to loan contracts, 4, potential factors of change or change of main leaders or core characters of the enterprises, 5, major divergence between high-level managers of the enterprises, 6, major loss safety accidents occur or major personnel adjustment occurs, 7, overstocking and losing of products occur, 8, preparation of and implementation of major investment strategies or operation strategies, 9, mental weight of investment, potential of blind investment, 10, improper reason and improper reason for report form reporting are not carried out on time, and the status of repeatedly reminding and not correcting problems found in inspection or refusing inspection and correcting the incomprehension, 12, unapproved inspection, 12, unauthorized processing of mortgages, 13. major production and business fixed assets are sold and sold by enterprises, 14, business activities are changed remarkably, major products and major business services are changed, 15, large amount of guarantee is provided for the outside, the bearing capacity of the major products is close to or exceeds the bearing capacity of the major products, 16, mergence, acquisition, separation, share system transformation and asset reorganization are prepared, 17, major lawsuits, arbitration or major economic disputes are involved, the major products cannot normally pass through or repay, 18, the major products are subjected to pursuit punishment by tax departments, workers, customs and the like due to illegal discipline violation, 19, the major products are disclosed by news media, 20, the major products are cancelled, loan, legal business license, production license and the like, and are in a production or semi-stop state).

A management method for monitoring the whole process of building engineering is disclosed, wherein the risk of warranty loan includes 1) normal class, 2) concern class, 3) suspicious class and 4) loss class based on the information collection tracked after warranty.

A management method for monitoring the whole process of building engineering is disclosed, wherein, based on the information collection of post-insurance tracking, the post-insurance compensation and compensation includes overdue and compensation, and the compensation and guarantee loss of debt;

overdue and compensation are determined based on 1, guarantee overdue, 2, validity determination of claims of the borrower is confirmed;

The management system comprises a real-name registration module, a project data module and a data analysis module, wherein the real-name grade module is used for counting and inputting real-name information of project personnel, the project data module is used for performing data classification and input on project data, and the data analysis module is used for performing data analysis on the project data.

A management system for monitoring the whole process of building engineering is composed of a real-name class module with login control signal, electronic product, label control signal for logging in said electronic product, label control signal linked with said ID control signal, and a private key generated by said label control signal and used for verifying the login information of user, and a private key control signal linked with said private key control signal, the cochain control signal is data-linked with a confirmation control signal, after the cochain control signal authenticates the user information, the user confirms and starts the confirmation control signal, the confirmation control signal comprises an authorization control signal and a registration control signal, the authorization control signal is used for the system to authorize and register the user information in the registration control signal, the confirmation control signal is data-linked with the private key control signal, after the confirmation control signal is started, the input private key is displayed, and the private key is used for confirming the user information and uploading the user information.

A management system for monitoring the whole process of building engineering is characterized by that the label control signal includes several symbols including Roman numerals and English letters, and the symbols are used for generating specific key.

A management system for monitoring the whole process of building engineering is disclosed, in which the information of the login person is set in the private key control signal, which is automatically encoded by the information of the user to obtain a group of numbers, and the numbers are used to set a login password.

A management system for monitoring the whole process of building engineering is characterized by that a multi-party certification mechanism is set in the uplink control signal for certifying and confirming the information uploaded by user, and the uplink control signal and multi-party certification mechanism are connected by means of data to feed back and confirm the identity of user. A management system for monitoring the whole process of building engineering is characterized by that the transmission control signal and display control signal are also set in the register control signal, the transmission control signal is used for displaying the content in the register control signal on the display control signal, and the display control signal is used for displaying the confirmation information of end user.

A management system for monitoring the whole process of building engineering is disclosed, wherein a project data module comprises the following control signals: a data acquisition control signal, a data analysis control signal, a data transmission control signal, a data processing control signal, an input control signal, a terminal acquisition control signal, an intelligent algorithm control signal, an optical transmission control signal, a service processing control signal and a storage control signal, wherein the data acquisition control signal is provided with an input control signal and a terminal acquisition control signal at the initial end, the input control signal and the terminal acquisition control signal are in signal connection with the data acquisition control signal, the data acquisition control signal is in signal connection with the data analysis control signal through data transmission, the data analysis control signal is in signal connection with the intelligent algorithm control signal through data transmission, the data analysis control signal is in signal connection with the data transmission control signal through the optical transmission control signal, and the data transmission control signal is in signal connection with the data processing control signal through the optical transmission control signal, the data processing control signal is in data connection with the service processing control signal, and the data processing control signal is connected with the storage control signal through data transmission.

A management system for monitoring the whole process of building engineering features that the input control signal is composed of project transmission, enterprise entry and industry share.

The utility model provides a management system of building engineering overall process control, wherein, terminal acquisition control signal gathers through 5G cell-phone, 5G real-time camera, intelligent safety cap and 5G chip unmanned aerial vehicle.

A management system for monitoring the whole process of building engineering features that the data analysis control signals are used to obtain real-time data report, statistical data report and early-warning data report respectively.

A management system for monitoring the whole process of building engineering is disclosed, in which the data processing control signals include service processing control signals and storage control signals.

A management system for monitoring the whole process of building engineering features that the military grade and Hash value algorithm is used to encrypt the stored control signals, and the data are synchronously processed via API interface after they are stored in cloud disk.

A management system for monitoring the whole process of a construction project, wherein a data analysis control signal comprises the following control signals: the system comprises a big database, a budget control signal, a shooting control signal, a mobile phone terminal, a comparison control signal, an analysis control signal and an accounting control signal, wherein the big database and the budget control signal are in data link with the shooting control signal, the shooting control signal is connected with the mobile phone terminal, the mobile phone terminal is also provided with the comparison control signal, the comparison control signal is connected with the analysis control signal, and the analysis control signal is in data link with the accounting control signal.

A management system for monitoring the whole process of constructional engineering is disclosed, wherein a mobile phone terminal is further connected with a big data comparison control signal, and the big data comparison control signal is used for comparing collected data.

A management system for monitoring the whole process of a building project is disclosed, wherein a mobile phone terminal is also connected with a budget comparison control signal, and the budget comparison control signal is used for carrying out budget on required data.

A management system for monitoring the whole process of building engineering is disclosed, in which the big database stores all the uploaded related data and is used for data transmission analysis.

A management system for monitoring the whole process of building engineering features that the budget control signal is used to analyze and compare the data in big database for budget.

Finally, it should be noted that: the above-mentioned embodiments are only specific embodiments of the present invention, and are used for illustrating the technical solutions of the present invention, but not for limiting the same, and the scope of the present invention is not limited thereto, although the present invention is described in detail with reference to the foregoing embodiments, those skilled in the art should understand that: those skilled in the art can still modify or easily conceive of the technical solutions described in the foregoing embodiments or make equivalent substitutions for some technical features within the technical scope of the present disclosure; such modifications, changes or substitutions do not depart from the spirit and scope of the embodiments of the present invention, and they should be construed as being included therein. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims

1. A management method for monitoring the whole process of a construction project is used for monitoring the project loan risk and the whole project progress condition, and is characterized by comprising the following steps:

the guarantee company collects information of the project, carries out risk assessment on the information of the project, comprehensively judges risks according to the information of the project by the risk assessment team, grades the risks and determines whether to guarantee the project according to the grades;

the guarantee company guarantees, and the guarantee company carries out the follow-up of the guarantee and a monitoring mechanism carries out the monitoring management of the whole process of the project;

the insurance trail comprises repayment willingness and repayment capacity of the enterprise, changes of the operating environment and operating strategy of the enterprise, whether the enterprise has violation or illegal behaviors invading the interests of the insurance institution, an early warning signal of the insurance loan, risk classification of the insurance loan, formulation of a risk prevention scheme, and compensation after insurance;

2. The method as claimed in claim 1, wherein the information collection of the construction company based on the risk assessment team includes enterprise basic data, enterprise assets, enterprise credit, and enterprise honor;

3. The management method for monitoring the whole process of the building engineering according to claim 1, wherein the information collection of the project based on the risk assessment team comprises project source tracing, project fund, project insurance, project data and project personnel;

wherein: the project source tracing comprises project properties, the project fund comprises a contract with a prepayment and a contract without a prepayment, the project insurance comprises a use insurance and a purchase insurance, the project data comprises project asset grade conditions, project equipment registration conditions, project equipment lease contracts and project material contracts, and the project personnel comprises main management personnel and team personnel registration, project engineering real-name system registration, project work log submission conditions and project site photo input conditions;

4. A management method for monitoring the whole process of construction engineering according to claim 1, wherein based on the information collection tracked after insurance, the quality of the financial status of an enterprise can reflect the repayment will and ability of the enterprise, and the pre-warning signals of the guarantee loan comprise financial pre-warning signals and non-financial pre-warning signals;

the financial early warning signals comprise unexplained accounts receivable, increase of inventory, rapid increase of enterprise debt, over 70% of liability rate, excess of transfer as loss, gradual increase of loss amount, abnormal large amount of fund transfer among related enterprises, increase of bad account loss, great reduction or negative value of net cash flow, and are not enough to support normal business, crisis in payment and bank interest on time;

the non-financial early warning signal comprises 1, national leaving a regulation policy which is not beneficial to enterprises, 2, major adjustment of business operation strategies of the industry or the related industry, 3, borrowing without depending on a borrowing contract, 4, potential factors of change or change of main leaders or core characters of the enterprises, 5, major divergence between high-level managers of the enterprises, 6, security accidents with major loss or major personnel adjustment, 7, overstocking and losing of products, 8, preparation of implementing a significant investment strategy or operation strategy, 9, mental weight of investment, potential of blind investment, 10, improper reason and improper reason for report form reporting, and repeated reminding and uncorrected, 11, refusing to accept inspection or correcting problems found in inspection and status of mistaking comments, 12, disapproval and self-processing mortgage, 13. major production and business fixed assets are sold and sold by enterprises, 14, business activities are changed remarkably, major products and major business services are changed, 15, large amount guarantee is provided for the outside, the bearing capacity of the major products is close to or exceeds self bearing capacity, 16, mergence, acquisition, separation, share system transformation and asset reorganization are prepared, 17, major lawsuits, arbitration or major economic disputes are involved, normal operation or repayment is impossible, 18, the major law is subjected to pursuit punishment of tax departments, industrial companies, customs and the like due to illegal discipline violation, 19, the major law is disclosed by news media, 20, loan cancellation, legal persons' business licenses, production licenses and the like are in production or semi-stop production states due to illegal acts.

5. A management method for monitoring the whole process of the building engineering according to claim 1, wherein the risk of the warranty loan includes 1) normal class, 2) concern class, 3) suspicious class and 4) loss class based on the information collection of the post-warranty tracking.

6. The method of claim 1, wherein the post-construction compensation and compensation includes overdue and compensation, and compensation and guarantee loss of debt based on the post-construction tracked information collection;

the overdue and compensation are determined based on 1, guarantee overdue, 2, and the validity determination of the loan claim is confirmed;

7. The management system for monitoring the whole process of the building engineering is characterized by comprising a real-name registration module, a project data module and a data analysis module, wherein the real-name grade module is used for counting and inputting real-name information of project personnel, the project data module is used for classifying and inputting data of project data, and the data analysis module is used for analyzing the data of the project data.

8. The system of claim 7, wherein the real-name-level module comprises a login control signal, the user logs in through an electronic product via the login control signal, the login control signal is in data connection with a tag control signal, the tag control signal is activated after the login control signal is activated, the tag control signal is linked with an authentication control signal via data transmission, the tag control signal generates a private key after the activation, the private key is used for verifying the user login information, the authentication control signal is activated after the user login information is verified via the private key, the authentication control signal is in data connection with a private key control signal via information, the authentication control signal obtains a private key after the activation, the private key enters the private key control signal, and the private key control signal is in data connection with an uplink control signal, the cochain mode is used for authenticating user information, the cochain control signal is in data link with a confirmation control signal, after the cochain control signal authenticates the user information, the user confirms and starts the confirmation control signal, the confirmation control signal comprises an authorization control signal and a registration control signal, the authorization control signal is used for the system to authorize and register the user information in the registration control signal, the confirmation control signal is in data link with the private key control signal, an input private key is displayed after the confirmation control signal is started, and the private key is used for confirming the user information and uploading the user information.

9. A management system for monitoring the whole process of construction engineering, according to claim 8, characterized in that said tag control signal comprises a plurality of symbols, said symbols comprising roman numerals and english letters, said symbols being used in combination to generate said proprietary key.

10. The system as claimed in claim 8, wherein the private key control signal includes information of a login user, the private key control signal is automatically encoded by the user information to obtain a set of numbers, and the number is used to set a login password.

11. The system as claimed in claim 8, wherein a multi-party certification authority is disposed in the uplink control signal, the multi-party certification authority is configured to perform certification and confirmation on the user upload information, and the uplink control signal and the multi-party certification authority perform feedback confirmation on the identity of the user through data connection.

12. The system as claimed in claim 8, wherein the registration control signal further comprises a transmission control signal and a display control signal, the transmission control signal is used for displaying the content of the registration control signal on the display control signal, and the display control signal is used for displaying the confirmation information of the end user.

13. The system of claim 7, wherein the project data module comprises the following control signals: a data acquisition control signal, a data analysis control signal, a data transmission control signal, a data processing control signal, an input control signal, a terminal acquisition control signal, an intelligent algorithm control signal, an optical transmission control signal, a service processing control signal and a storage control signal, wherein the data acquisition control signal is provided with the input control signal and the terminal acquisition control signal at the initial end, and the input control signal and the terminal acquisition control signal are in signal connection with the data acquisition control signal, the data acquisition control signal is in signal connection with the data analysis control signal through data transmission, the data analysis control signal is in signal connection with the intelligent algorithm control signal through data transmission, the data analysis control signal is in signal connection with the data transmission control signal through the optical transmission control signal, and the data transmission control signal is in signal connection with the data processing control signal through the optical transmission control signal, the data processing control signal is in data connection with the service processing control signal, and the data processing control signal is connected with the storage control signal through data transmission.

14. The system of claim 1, wherein the input control signal is selected from the group consisting of project transmission, enterprise entry, and industry sharing.

15. The management system for monitoring the whole process of the building engineering according to claim 13, wherein the terminal acquisition control signal is acquired through a 5G mobile phone, a 5G real-time camera, an intelligent safety helmet and a 5G chip unmanned aerial vehicle.

16. The system of claim 13, wherein the data analysis control signal is used to derive a real-time data report table, a statistical data report table and an early warning data report table from the intelligent algorithm control signal.

17. A management system for monitoring the whole process of construction engineering according to claim 13, wherein said data processing control signals comprise service processing control signals and storage control signals.

18. The system as claimed in claim 13, wherein the storage control signal is encrypted using military and hash algorithms to store the information, and the information is stored in a cloud disk and then synchronously processed through an API interface.

19. The system of claim 7, wherein the data analysis control signals include the following control signals: the system comprises a big database, a budget control signal, a shooting control signal, a mobile phone terminal, a comparison control signal, an analysis control signal and an accounting control signal, wherein the big database and the budget control signal are in data link with the shooting control signal, the shooting control signal is connected with the mobile phone terminal, the mobile phone terminal is further provided with the comparison control signal, the comparison control signal is connected with the analysis control signal, and the analysis control signal is in data link with the accounting control signal.

20. The system as claimed in claim 19, wherein the mobile phone terminal is further connected with a big data comparison control signal, and the big data comparison control signal is used for comparing the collected data.

21. The system for managing the monitoring of the whole process of the architectural engineering according to claim 19, wherein the mobile phone terminal is further connected with a budget comparison control signal, and the budget comparison control signal is used for budgeting the required data.

22. The system as claimed in claim 19, wherein the big database stores all the uploaded related data, and the big database is used for data transmission analysis.

23. The system of claim 19, wherein the budget control signal analyzes and budgets data in the big database.