CN112446690A - Hydraulic engineering building-up modularized management system and method - Google Patents

Abstract

The invention relates to a hydraulic engineering building modular management system, which comprises an intermediate station server and a construction unit terminal; the intermediate station server comprises a database, a receiving module and a logic control unit; the database comprises a substitute management process model library and a document library; the construction unit terminal comprises audio-video recording equipment, a UI module, a storage module and wireless transmission equipment; the audio-video recording equipment is in electric signal connection with the storage module; the UI module is in electric signal connection with the storage module; the storage module is in electric signal connection with the wireless transmission equipment; the wireless transmission equipment is in electric signal connection with the receiving module. The invention also relates to a hydraulic engineering building modular management method, which comprises the following steps: inputting a report; performing initial review on the report to obtain an initial review suggestion; reexamining the report forms and the initial opinion to obtain a management instruction; and evaluating the management command to obtain an evaluation result. The invention saves a large amount of personnel and completely covers the whole site, and has high efficiency; checking by a field information machine; management instructions are enhanced in real-time.

Description

Hydraulic engineering building-up modularized management system and method

Technical Field

The invention relates to the technical field of hydraulic engineering building modular program management, in particular to a hydraulic engineering building modular management system and a hydraulic engineering building modular management method.

Background

The standardization and the modernization of the hydraulic engineering construction management are important components of the water conservancy modernization. The generation system is a specialized service activity which represents that a generation unit with related qualification is entrusted by a party A and carries out construction management and supervision on the engineering construction of a party B according to a state approved engineering project construction document, laws and regulations related to the engineering construction, an engineering generation contract and other engineering construction contracts. The project building is a paid project consultation service; is entrusted by the first party; the main basis of the engineering building unit is law, regulation, technical standard, related contract and document; the building mode is to ensure the quality and safety of engineering construction, improve the engineering construction level and fully exert the investment benefit. The hydraulic engineering generation is to perform standardized management on behalf of construction units, and is suitable for the objective requirements of the modernization of the economic society. In recent years, the water conservancy reform in China is comprehensively promoted, the construction and management mode and the management level of water conservancy projects are remarkably improved, the construction of water conservancy infrastructures is comprehensively accelerated, the benefits and the efficiency of project construction are effectively guaranteed, and a strong guarantee is provided for the good operation and the full play of the benefits of the water conservancy projects.

However, due to the influence of the thinking of the traditional construction management for a long time, the problems of single hydraulic engineering construction management mode, unsmooth construction system, unclear functions, unclear authority and responsibility, inseparable enterprises and mechanisms of hydraulic engineering construction management units, lack of professional talents of construction management personnel and the like still exist, and a certain gap exists between the requirements of the modernization of the hydraulic engineering construction management.

The existing generation management technology still adopts a manual management mode, namely a mode of manually patrolling, manually checking information update of various fields and manually managing paper or electronic file matching; at present, no special construction management system and method for replacing manpower to complete construction management work exists; the defects of the prior art are as follows:

1. engineering construction usually has a long period and a large construction range, so that when construction professionals monitor by a common inspection and inspection method, because the monitoring range of each construction worker is limited, if the construction professionals want to completely cover the whole construction site and the whole construction process, a large number of construction workers need to be equipped for a long time, and the efficiency of construction project management is low;

2. a building unit manages a plurality of projects simultaneously, the information amount of field information updating is extremely large, the speed is very high, the manual checking speed cannot completely follow the mountain, and errors are easy to occur;

3. the supervision of a building unit finds problems, and sends a management instruction back to a construction unit, so that the manual process is long, the real-time correction cannot be realized, the management instruction is often reached, the errors of the construction unit are cast, the losses such as shutdown and rework are easily caused, and even engineering accidents can occur;

4. although the file management is carried out by using a computer system at present, the file management is still carried out by manpower, and the manpower cannot completely cope with the field information update with huge update amount and high speed, so that the efficiency is low and the error probability is high.

Disclosure of Invention

The invention aims at the problems and provides a hydraulic engineering building modularized management system and a method, aiming at realizing the purpose that the whole construction site and the whole construction process can be completely covered without sending management personnel to the construction site by a building unit; the report transmitted by the base layer is automatically compared by the computer, and the auditing efficiency of a building agency is greatly improved.

In order to solve the problems, the technical scheme provided by the invention is as follows:

the utility model provides a hydraulic engineering system of building up modularization management, contains intermediate station server and construction unit terminal, wherein:

the intermediate station server comprises a database, a receiving module and a logic control unit, wherein:

the database comprises a substitute management process model library and a file library; wherein:

a management process model base is built for storing report templates; the report template is divided into a quality report template, a safety report template, a progress report template and a change request report template;

the file library is used for storing the report forms filled by the user; the report forms are divided into a quality report form, a safety report form, a progress report form and a change request report form; each report contains key information points; the key information points comprise material models, equipment bid purchasing progress, quality safety, design change, design drawing service, progress control and contract matching;

the receiving module is used for receiving the report form input by a user through a construction unit terminal and transmitting the report form to the construction report form transmission module;

the logic control unit comprises a construction report transmission module, a supervision relay station auditing module, a building management module and a building control evaluation module, wherein:

the construction report transmission module is used for receiving the report from the receiving module and transmitting the report to the supervision relay station auditing module;

the supervision relay station auditing module is used for receiving the report form from the construction report form transmission module, performing primary audit on the report form to obtain primary audit opinions, and transmitting the report form and the primary audit opinions to a building management module; the supervision relay station auditing module comprises a manually preset report recognition standard template;

the agent management module is used for receiving the report and the initial review opinions from the supervision relay station auditing module, then carrying out re-review on the report and the initial review opinions to obtain a management instruction, then issuing the report and the management instruction to the construction unit terminal, and simultaneously transmitting the report and the management instruction to the agent control evaluation module; the management instructions include 'rectification', 'rectification' and 'qualification';

the generation control evaluation module is used for receiving the report and the management instruction from the generation management module, evaluating the management instruction to obtain an evaluation result, and performing trace management on the report, the management instruction and the evaluation result;

the construction unit terminal comprises audio-video recording equipment, a UI module, a storage module and wireless transmission equipment, wherein:

the audio-video recording equipment is used for acquiring audio-video data of an engineering site and forwarding the audio-video data to the storage module; the audio-video recording equipment is in electric signal connection with the storage module;

the UI module is used for providing an operation interface and data display for a user, receiving a report form input by the user and forwarding the report form to the storage module; the UI module is in electric signal connection with the storage module;

the storage module is used for storing audio-visual data of an engineering site and a report form input by a user and forwarding the audio-visual data and the report form to the wireless transmission equipment; the storage module is in electric signal connection with the wireless transmission equipment;

the wireless transmission equipment is in electric signal connection with the receiving module.

Preferably, the supervision relay station auditing module comprises a plurality of supervision sub-modules; each proctoring submodule uniquely corresponds to one engineering project; each engineering project comprises a unique engineering project number; each engineering project only corresponds to one proctoring submodule.

Preferably, the building management module comprises a plurality of project management submodules; each project management submodule uniquely corresponds to one supervision submodule; each supervision submodule uniquely corresponds to one project management submodule.

Preferably, the report recognition standard template comprises a plurality of key recognition points; the key identification points comprise material models, equipment bid procurement progress, quality safety, design change, design supply drawing service, progress control and contract matching.

Preferably, the first review opinion comprises a plurality of non-canonical exception points; the non-standard exception points comprise material models, equipment bid procurement progress, quality safety, design change, design supply drawing service, progress control and contract matching.

Preferably, the evaluation result includes "the engineering design meets the design specification standard or contract requirement", "the engineering design does not meet the design specification standard or contract requirement", "no engineering safety, quality or other major safety, quality liability accident", "good trial run", "poor trial run effect", "on-site construction requirement is met by the purchase quality and progress", and "on-site construction requirement is not met by the purchase quality and progress".

A hydraulic engineering building modular management method comprises the following steps:

s100, inputting the report form through the construction unit terminal;

s200, performing primary examination on the report to obtain a primary examination opinion;

s300, reexamining the report and the preliminary examination opinions to obtain the management instruction, and then issuing the report and the management instruction to the construction unit terminal;

s400, evaluating the management instruction to obtain the evaluation result, and then performing trace management on the report, the management instruction and the evaluation result.

Preferably, the performing a preliminary review on the report in S200 to obtain the preliminary review opinion specifically includes the following steps:

s210, comparing the material model in the key information point with the material model in the key identification point, and according to a comparison result, performing the following operations:

if the material model in the key information point is different from the material model in the key identification point, marking the material model in the abnormal non-standard point as abnormal, marking the initial review opinion as abnormal, and simultaneously writing the material model in the key information point and the material model in the key identification point into the material model in the abnormal non-standard point in sequence;

otherwise, marking the material model number in the abnormal points as normal, and then entering S220;

s220, comparing the equipment bidding purchase progress in the key information point with the equipment bidding purchase progress in the key identification point, and performing the following operations according to the comparison result:

if the equipment bidding purchase progress in the key information point is different from the equipment bidding purchase progress in the key identification point, marking the equipment bidding purchase progress in the non-standard exception point as abnormal, marking the initial review opinion as abnormal, and simultaneously writing the equipment bidding purchase progress in the key information point and the equipment bidding purchase progress in the key identification point into the equipment bidding purchase progress in the non-standard exception point in sequence;

otherwise, marking the equipment tender purchase progress in the non-normative exception point as 'normal', and then entering S230;

s230, comparing the quality safety in the key information points with the quality safety in the key identification points, and performing the following operations according to the comparison result:

if the quality safety in the key information point is different from the quality safety in the key identification point, marking the quality safety in the abnormal points as abnormal, marking the initial review opinion as abnormal, and simultaneously writing the quality safety in the key information point and the quality safety in the key identification point into the quality safety in the abnormal points;

otherwise, marking the quality safety in the abnormal points as normal, and then entering S240;

s240, comparing the design change in the key information point with the design change in the key identification point, and performing the following operations according to the comparison result:

if the design change in the key information point is different from the design change in the key identification point, marking the design change in the non-normative exception point as abnormal, marking the initial review opinion as abnormal, and simultaneously writing the design change in the key information point and the design change in the key identification point into the design change in the non-normative exception point in sequence;

otherwise, marking the design change in the unnormalized exception point as 'normal', and then entering S250;

s250, comparing the design drawing service in the key information points with the design drawing service in the key identification points, and performing the following operations according to a comparison result:

if the design drawing service in the key information point is different from the design drawing service in the key identification point, marking the design drawing service in the non-standard abnormal point as abnormal, marking the initial review opinion as abnormal, and simultaneously writing the design drawing service in the key information point and the design drawing service in the key identification point into the design drawing service in the non-standard abnormal point in sequence;

otherwise, marking the design in the non-specification exception point as normal for the graph service, and then entering S260; s260, comparing the progress control in the key information point with the progress control in the key identification point, and performing the following operations according to the comparison result:

if the progress control in the key information point is different from the progress control in the key identification point, marking the progress control in the unnormalized exception point as abnormal, marking the preliminary review opinion as abnormal, and simultaneously writing the progress control in the key information point and the progress control in the key identification point into the progress control in the unnormalized exception point in sequence;

otherwise, marking the progress control in the unnormalized exception point as 'normal', and then entering S270;

s270, comparing the contract matching in the key information points with the contract matching in the key identification points, and performing the following operations according to the comparison result:

if the contract matching in the key information point is different from the contract matching in the key identification point, marking the contract matching in the abnormal points as abnormal, marking the initial review opinion as abnormal, and simultaneously sequentially writing the contract matching in the key information point and the contract matching in the key identification point into the contract matching in the abnormal points;

otherwise, the contract match in the unnormalized exception point is marked as "normal" while the initial review result is marked as "normal".

Preferably, the trace management of the report, the management instruction and the evaluation result in S400 includes the following steps:

s410, packaging the report, the corresponding management instruction and the evaluation result, and then storing the report in the file library;

and S420, pushing a reminding message to the construction unit terminal.

Compared with the prior art, the invention has the following advantages:

1. because the invention adopts the information updating mode of filling the report form by the construction unit terminal assigned to the first-line staff of the construction unit and transmitting the report form to the intermediate station server in real time, the construction unit is not required to send a manager to the construction site, the whole construction site and the whole construction process can be completely covered on the basis of saving a large number of professionals, and the efficiency is very high;

2. because the invention adopts the mode that the computer automatically compares the reports transmitted from the basic level and then obtains the initial review opinions, the machine review can be realized on the most of the field information with strict standards, and the review efficiency of the building agency is greatly improved;

3. the management instruction of the building unit is returned at the first time and displayed on the construction unit terminal assigned to the front-line personnel of the construction unit, so that the time for the management instruction to reach the front-line is greatly shortened, and the real-time performance of the management instruction is greatly enhanced;

4. because the computer is adopted to automatically manage the files, the file management efficiency is greatly improved, and the error rate is greatly reduced.

Drawings

FIG. 1 is a schematic diagram of a hydraulic engineering building modular management system according to an embodiment of the present invention;

fig. 2 is a flow chart of a hydraulic engineering building modular management method according to an embodiment of the present invention.

Detailed Description

The present invention is further illustrated by the following examples, which are intended to be purely exemplary and are not intended to limit the scope of the invention, as various equivalent modifications of the invention will occur to those skilled in the art upon reading the present disclosure and fall within the scope of the appended claims.

As shown in fig. 1, a hydraulic engineering building modular management system includes an intermediate station server and a construction unit terminal, wherein:

the intermediate station server comprises a database, a receiving module and a logic control unit, wherein:

the database comprises a substitute management process model library and a document library; wherein:

a management process model base is built for storing report templates; the report template is divided into a quality report template, a safety report template, a progress report template and a change request report template.

The file library is used for storing the report forms filled by the user; the report forms are divided into a quality report form, a safety report form, a progress report form and a change request report form.

The process of filling in the report form by the user is specifically that a report form template is obtained from a generation management process model base, and then specific information is input into the report form template to generate a report form; the report template and the report are a relationship of classes and instances in the system.

In this embodiment, the quality report template corresponds to a quality report, the safety report template corresponds to a safety report, the progress report template corresponds to a progress report, and the change request report template corresponds to a change request report.

Each report contains key information points; the key information points comprise material models, equipment bid purchasing progress, quality safety, design change, design supply and drawing service, progress control and contract matching.

In this embodiment, the combination of the key information points can obtain the relevant information required by the building unit, that is, the organization quality, the safety inspection, the hidden danger troubleshooting, the field design technical service and acceptance check, the construction quality implementation "three-check" record, the field constructor, the material, the mechanical equipment investment, and the contract matching dynamics, which are the information that the building unit needs to grasp and control in real time.

The receiving module is used for receiving the report form input by the user through the construction unit terminal and transmitting the report form to the construction report form transmission module.

The logic control unit comprises a construction report transmission module, a supervision relay station auditing module, a generation management module and a generation control evaluation module, wherein:

and the construction report transmission module is used for receiving the report from the receiving module and transmitting the report to the supervision relay station auditing module.

The supervision relay station auditing module is used for receiving the report form from the construction report form transmission module, performing primary audit on the report form to obtain primary audit opinions, and transmitting the report form and the primary audit opinions to the agency management module; the supervision relay station auditing module comprises a report recognition standard template preset manually.

The initial review opinions comprise a plurality of non-standard abnormal points; the non-standard exception points include material model, equipment tender procurement progress, quality safety, design change, design supply drawing service, progress control and contract matching.

The report recognition standard template comprises a plurality of key recognition points; the key identification points comprise material models, equipment bid procurement progress, quality safety, design change, design supply drawing service, progress control and contract matching.

The supervision relay station auditing module comprises a plurality of supervision submodules; each proctoring submodule uniquely corresponds to one engineering project; each project comprises a unique project number; each engineering project uniquely corresponds to one proctoring submodule.

In this specific embodiment, a plurality of different engineering projects need to be managed simultaneously for a building agency, so when the system is applied, a unique corresponding proctoring submodule is newly established for each engineering project according to the corresponding specific engineering project of the system, and then the engineering project is subjected to related processing by the unique corresponding proctoring submodule because the unique corresponding proctoring submodule is responsible for data exchange in the system, and irregular abnormal points in reports, management instructions and evaluation results are all processed by the unique corresponding proctoring submodule.

The agent management module is used for receiving the report forms and the initial review opinions from the supervision relay station auditing module, then carrying out the reexamination on the report forms and the initial review opinions to obtain a management instruction, then issuing the report forms and the management instruction to a construction unit terminal, and simultaneously transmitting the report forms and the management instruction to the agent control evaluation module; the management instructions include 'rectification', 'rectification' and 'qualification'.

In this embodiment, the management command is displayed in different colors, specifically: the correction is shown in red, the correction is shown in yellow, and the qualification is shown in green. The color and the character mark are beneficial to consulting and rectifying the construction units, including construction parties and building units.

The creation management module comprises a plurality of project management sub-modules; each project management submodule uniquely corresponds to one supervision submodule; each supervision submodule uniquely corresponds to one project management submodule.

In this embodiment, each report is accompanied by a unique project number included in each project. In the construction process of simultaneously managing a plurality of engineering projects, a building unit can simultaneously make a plurality of engineering projects propose management request items, namely reports from a plurality of different engineering projects are simultaneously and concurrently required to be processed, so that a request for simultaneously handing over the management request items by a plurality of engineering projects exists; therefore, in the system, for each project, a unique corresponding supervision sub-module is established, so that project management request items can be sent to the corresponding unique corresponding supervision sub-modules and processed in parallel when non-standard abnormal points are checked, and information flow handover and butt joint of project management request item handover are realized by a project agent.

And the generation control evaluation module is used for receiving the report and the management instruction from the generation management module, evaluating the management instruction to obtain an evaluation result, and performing trace management on the report, the management instruction and the evaluation result.

The evaluation results comprise that the engineering design meets the design specification standard or contract requirement, the engineering design does not meet the design specification standard or contract requirement, the engineering safety, quality or other important safety and quality responsibility accident do not occur, the engineering safety, quality or other important safety and quality responsibility accident occur, the trial run is good, the trial run effect is not good, the purchasing quality and progress meet the site construction requirement, and the purchasing quality and progress cannot meet the site construction requirement.

The construction unit terminal comprises audio-video recording equipment, a UI module, a storage module and wireless transmission equipment, wherein:

the audio-video recording equipment is used for acquiring audio-video data of an engineering site and forwarding the audio-video data to the storage module; the audio-video recording equipment is electrically connected with the storage module.

The UI module is used for providing an operation interface and data display for a user, receiving a report form input by the user and forwarding the report form to the storage module; the UI module is in electric signal connection with the storage module.

The storage module is used for storing the audio-visual data of the engineering site and the report form input by the user and forwarding the audio-visual data and the report form to the wireless transmission equipment; the storage module is in electric signal connection with the wireless transmission equipment.

The wireless transmission equipment is in electric signal connection with the receiving module.

In the specific embodiment, the construction unit terminal is served by a PC, a mobile phone and a tablet, the software version comprises Windows 7 and above, Android and IOS, and most of the on-sale equipment on the market is subjected to adaptation optimization so as to ensure the maximum comfort of user experience. The construction unit terminal served by the PC is arranged in a management department of a construction site, is in an indoor environment, has high performance and is suitable for processing a plurality of concurrent reports; the mobile phone and the flat plate can be used as a construction unit terminal which is carried by a constructor, a quality inspector or a security officer, and is suitable for reporting the report form of the first hand in time.

As shown in fig. 2, a hydraulic engineering building modular management method includes the following steps:

s100, the construction contractor declares and inputs a report form through a construction unit terminal.

The process of filling in the report form by the user is specifically that a report form template is obtained from a generation management process model base, and then specific information is input into the report form template to generate a report form; the report template and the report are a relationship of classes and instances in the system.

After the report is filled, the report reaches an auditing module of a supervision relay station through relay transmission of the storage module, the wireless transmission equipment, the receiving module and the construction report transmission module in sequence.

S200, the supervision relay station auditing module carries out primary audit on the report to obtain a primary audit suggestion, and the method specifically comprises the following steps:

s210, comparing the material model in the key information point with the material model in the key identification point, and performing the following operations according to the comparison result:

if the material model in the key information point is different from the material model in the key identification point, the material model in the abnormal point is marked as abnormal, the initial review opinion is marked as abnormal, and the material model in the key information point and the material model in the key identification point are written into the material model in the abnormal point.

Otherwise, the material model number in the non-specification exception point is marked as "normal", and then the process proceeds to S220.

S220, comparing the equipment bidding purchase progress in the key information point with the equipment bidding purchase progress in the key identification point, and performing the following operations according to the comparison result:

if the equipment bid inviting purchase progress in the key information point is different from the equipment bid inviting purchase progress in the key identification point, the equipment bid inviting purchase progress in the non-standard abnormal point is marked as abnormal, the initial review opinion is marked as abnormal, and the equipment bid inviting purchase progress in the key information point and the equipment bid inviting purchase progress in the key identification point are written into the equipment bid inviting purchase progress in the non-standard abnormal point in sequence.

Otherwise, the device bid purchase progress in the unnormalized exception point is marked as "normal" and then proceeds to S230.

S230, comparing the quality safety in the key information points with the quality safety in the key identification points, and performing the following operations according to the comparison result:

if the quality safety in the key information point is different from the quality safety in the key identification point, marking the quality safety in the abnormal points which are not specified as abnormal, marking the initial review opinion as abnormal, and simultaneously writing the quality safety in the key information point and the quality safety in the key identification point into the quality safety in the abnormal points which are not specified in sequence.

Otherwise, the quality safety in the unnormalized exception point is marked as "normal", and then S240 is entered.

S240, comparing the design change in the key information point with the design change in the key identification point, and performing the following operations according to the comparison result:

if the design change in the key information point is different from the design change in the key identification point, the design change in the unnormalized exception point is marked as "abnormal", the initial review opinion is marked as "abnormal", and the design change in the key information point and the design change in the key identification point are written into the design change in the unnormalized exception point in sequence.

Otherwise, the design change in the unnormalized exception point is marked as "normal", and then S250 is entered.

S250, comparing the design drawing service in the key information points with the design drawing service in the key identification points, and performing the following operations according to the comparison result:

if the design drawing service in the key information point is different from the design drawing service in the key identification point, the design drawing service in the non-standard abnormal point is marked as abnormal, the initial review opinion is marked as abnormal, and the design drawing service in the key information point and the design drawing service in the key identification point are written into the design drawing service in the non-standard abnormal point in sequence.

Otherwise, the design in the unnormalized exception point is marked as "normal" for the graph service, and then S260 is entered.

S260, comparing the progress control in the key information point with the progress control in the key identification point, and performing the following operations according to the comparison result:

and if the progress control in the key information point is different from the progress control in the key identification point, marking the progress control in the abnormal points which are not normalized as abnormal, marking the initial review opinions as abnormal, and simultaneously writing the progress control in the key information point and the progress control in the key identification point into the progress control in the abnormal points which are not normalized in sequence.

Otherwise, the progress control in the unnormalized exception point is marked as "normal", and then S270 is entered.

S270, comparing the contract matching in the key information points with the contract matching in the key identification points, and performing the following operations according to the comparison result:

and if the contract matching in the key information point is different from the contract matching in the key identification point, marking the contract matching in the abnormal points which are not normalized as abnormal, marking the initial review opinion as abnormal, and simultaneously sequentially writing the contract matching in the key information point and the contract matching in the key identification point into the contract matching in the abnormal points which are not normalized.

Otherwise, the contract match in the unnormalized exception point is marked as "normal" while the initial review result is marked as "normal".

S300, the supervision of the building unit rechecks the report form and the initial review opinions, issues the review opinions, obtains a management instruction at the same time, and then issues the report form and the management instruction to a construction unit terminal.

In this embodiment, the audit opinion issued by the proctoring authority of the agent is included in the management command. Through two times of examination and check of key information points in the report form, irregular abnormal points are easily found, so when the actual field progress is not consistent with the reported material model, equipment bid purchase progress, quality safety, design change, design for drawing service, progress control, contract matching and preset parameters, a building agency can guide in time, immediately inform the construction agency and send a supervisor to the field to comprehensively detect and check the parts of the project which are not consistent, and the irregular abnormal points are sent to a database to carry out trace management, which is the work of S400.

S400, evaluating the management instruction to obtain an evaluation result, and then performing trace management on the report, the management instruction and the evaluation result, wherein the method specifically comprises the following steps:

and S410, packaging the report, the corresponding management instruction and the evaluation result, and then storing the report in a file library.

And S420, pushing a reminding message to the construction unit terminal.

In the foregoing detailed description, various features are grouped together in a single embodiment for the purpose of streamlining the disclosure. This method of disclosure is not to be interpreted as reflecting an intention that the claimed embodiments of the subject matter require more features than are expressly recited in each claim. Rather, as the following claims reflect, invention lies in less than all features of a single disclosed embodiment. Thus, the following claims are hereby expressly incorporated into the detailed description, with each claim standing on its own as a separate preferred embodiment of the invention.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. To those skilled in the art; various modifications to these embodiments will be readily apparent, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the disclosure. Thus, the present disclosure is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

What has been described above includes examples of one or more embodiments. It is, of course, not possible to describe every conceivable combination of components or methodologies for purposes of describing the aforementioned embodiments, but one of ordinary skill in the art may recognize that many further combinations and permutations of various embodiments are possible. Accordingly, the embodiments described herein are intended to embrace all such alterations, modifications and variations that fall within the scope of the appended claims. Furthermore, to the extent that the term "includes" is used in either the detailed description or the claims, such term is intended to be inclusive in a manner similar to the term "comprising" as "comprising" is interpreted when employed as a transitional word in a claim. Furthermore, any use of the term "or" in the specification of the claims is intended to mean a "non-exclusive or".

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are merely exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (9)

1. A hydraulic engineering system of building modularization management, its characterized in that: contain intermediate station server and construction unit terminal, wherein:

the intermediate station server comprises a database, a receiving module and a logic control unit, wherein:

the database comprises a substitute management process model library and a file library; wherein:

a management process model base is built for storing report templates; the report template is divided into a quality report template, a safety report template, a progress report template and a change request report template;

the file library is used for storing the report forms filled by the user; the report forms are divided into a quality report form, a safety report form, a progress report form and a change request report form; each report contains key information points; the key information points comprise material models, equipment bid purchasing progress, quality safety, design change, design drawing service, progress control and contract matching;

the receiving module is used for receiving the report form input by a user through a construction unit terminal and transmitting the report form to the construction report form transmission module;

the logic control unit comprises a construction report transmission module, a supervision relay station auditing module, a building management module and a building control evaluation module, wherein:

the construction report transmission module is used for receiving the report from the receiving module and transmitting the report to the supervision relay station auditing module;

the supervision relay station auditing module is used for receiving the report form from the construction report form transmission module, performing primary audit on the report form to obtain primary audit opinions, and transmitting the report form and the primary audit opinions to a building management module; the supervision relay station auditing module comprises a manually preset report recognition standard template;

the agent management module is used for receiving the report and the initial review opinions from the supervision relay station auditing module, then carrying out re-review on the report and the initial review opinions to obtain a management instruction, then issuing the report and the management instruction to the construction unit terminal, and simultaneously transmitting the report and the management instruction to the agent control evaluation module; the management instructions include 'rectification', 'rectification' and 'qualification';

the generation control evaluation module is used for receiving the report and the management instruction from the generation management module, evaluating the management instruction to obtain an evaluation result, and performing trace management on the report, the management instruction and the evaluation result;

the construction unit terminal comprises audio-video recording equipment, a UI module, a storage module and wireless transmission equipment, wherein:

the audio-video recording equipment is used for acquiring audio-video data of an engineering site and forwarding the audio-video data to the storage module; the audio-video recording equipment is in electric signal connection with the storage module;

the UI module is used for providing an operation interface and data display for a user, receiving a report form input by the user and forwarding the report form to the storage module; the UI module is in electric signal connection with the storage module;

the storage module is used for storing audio-visual data of an engineering site and a report form input by a user and forwarding the audio-visual data and the report form to the wireless transmission equipment; the storage module is in electric signal connection with the wireless transmission equipment;

the wireless transmission equipment is in electric signal connection with the receiving module.

2. The hydraulic engineering building modular management system of claim 1, wherein: the supervision relay station auditing module comprises a plurality of supervision sub-modules; each proctoring submodule uniquely corresponds to one engineering project; each engineering project comprises a unique engineering project number; each engineering project only corresponds to one proctoring submodule.

3. The hydraulic engineering building modular management system of claim 2, wherein: the building management module comprises a plurality of project management sub-modules; each project management submodule uniquely corresponds to one supervision submodule; each supervision submodule uniquely corresponds to one project management submodule.

4. The hydraulic engineering building modular management system of claim 1, wherein: the report recognition standard template comprises a plurality of key recognition points; the key identification points comprise material models, equipment bid procurement progress, quality safety, design change, design supply drawing service, progress control and contract matching.

5. The hydraulic engineering building modular management system of claim 4, wherein: the initial review opinions comprise a plurality of non-standard exception points; the non-standard exception points comprise material models, equipment bid procurement progress, quality safety, design change, design supply drawing service, progress control and contract matching.

6. The hydraulic engineering building modular management system of claim 1, wherein: the evaluation results comprise that the engineering design meets the design specification standard or contract requirement, the engineering design does not meet the design specification standard or contract requirement, the engineering safety, quality or other major safety and quality responsibility accident do not occur, the engineering safety, quality or other major safety and quality responsibility accident occur, the trial run is good, the trial run effect is not good, the purchasing quality and progress meet the site construction requirement, and the purchasing quality and progress cannot meet the site construction requirement.

7. A hydraulic engineering building modular management method using the hydraulic engineering building modular management system according to any one of claims 1 to 6, characterized by comprising: comprises the following steps:

s100, inputting the report form through the construction unit terminal;

s200, performing primary examination on the report to obtain a primary examination opinion;

s300, reexamining the report and the preliminary examination opinions to obtain the management instruction, and then issuing the report and the management instruction to the construction unit terminal;

s400, evaluating the management instruction to obtain the evaluation result, and then performing trace management on the report, the management instruction and the evaluation result.

8. The hydraulic engineering building modular management method according to claim 7, characterized in that: in S200, the performing a preliminary review on the report to obtain the preliminary review opinion specifically includes the following steps:

s210, comparing the material model in the key information point with the material model in the key identification point, and according to a comparison result, performing the following operations:

if the material model in the key information point is different from the material model in the key identification point, marking the material model in the abnormal non-standard point as abnormal, marking the initial review opinion as abnormal, and simultaneously writing the material model in the key information point and the material model in the key identification point into the material model in the abnormal non-standard point in sequence;

otherwise, marking the material model number in the abnormal points as normal, and then entering S220;

s220, comparing the equipment bidding purchase progress in the key information point with the equipment bidding purchase progress in the key identification point, and performing the following operations according to the comparison result:

if the equipment bidding purchase progress in the key information point is different from the equipment bidding purchase progress in the key identification point, marking the equipment bidding purchase progress in the non-standard exception point as abnormal, marking the initial review opinion as abnormal, and simultaneously writing the equipment bidding purchase progress in the key information point and the equipment bidding purchase progress in the key identification point into the equipment bidding purchase progress in the non-standard exception point in sequence;

otherwise, marking the equipment tender purchase progress in the non-normative exception point as 'normal', and then entering S230;

s230, comparing the quality safety in the key information points with the quality safety in the key identification points, and performing the following operations according to the comparison result:

if the quality safety in the key information point is different from the quality safety in the key identification point, marking the quality safety in the abnormal points as abnormal, marking the initial review opinion as abnormal, and simultaneously writing the quality safety in the key information point and the quality safety in the key identification point into the quality safety in the abnormal points;

otherwise, marking the quality safety in the abnormal points as normal, and then entering S240;

s240, comparing the design change in the key information point with the design change in the key identification point, and performing the following operations according to the comparison result:

if the design change in the key information point is different from the design change in the key identification point, marking the design change in the non-normative exception point as abnormal, marking the initial review opinion as abnormal, and simultaneously writing the design change in the key information point and the design change in the key identification point into the design change in the non-normative exception point in sequence;

otherwise, marking the design change in the unnormalized exception point as 'normal', and then entering S250;

s250, comparing the design drawing service in the key information points with the design drawing service in the key identification points, and performing the following operations according to a comparison result:

if the design drawing service in the key information point is different from the design drawing service in the key identification point, marking the design drawing service in the non-standard abnormal point as abnormal, marking the initial review opinion as abnormal, and simultaneously writing the design drawing service in the key information point and the design drawing service in the key identification point into the design drawing service in the non-standard abnormal point in sequence;

otherwise, marking the design in the non-specification exception point as normal for the graph service, and then entering S260;

s260, comparing the progress control in the key information point with the progress control in the key identification point, and performing the following operations according to the comparison result:

if the progress control in the key information point is different from the progress control in the key identification point, marking the progress control in the unnormalized exception point as abnormal, marking the preliminary review opinion as abnormal, and simultaneously writing the progress control in the key information point and the progress control in the key identification point into the progress control in the unnormalized exception point in sequence;

otherwise, marking the progress control in the unnormalized exception point as 'normal', and then entering S270;

s270, comparing the contract matching in the key information points with the contract matching in the key identification points, and performing the following operations according to the comparison result:

if the contract matching in the key information point is different from the contract matching in the key identification point, marking the contract matching in the abnormal points as abnormal, marking the initial review opinion as abnormal, and simultaneously sequentially writing the contract matching in the key information point and the contract matching in the key identification point into the contract matching in the abnormal points;

otherwise, the contract match in the unnormalized exception point is marked as "normal" while the initial review result is marked as "normal".

9. The hydraulic engineering building modular management method according to claim 8, characterized in that: in S400, the trace management of the report, the management instruction, and the evaluation result includes the following steps:

s410, packaging the report, the corresponding management instruction and the evaluation result, and then storing the report in the file library;

and S420, pushing a reminding message to the construction unit terminal.

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