CN113191676A - Method and system for managing engineering consultation quality in whole process - Google Patents

Abstract

The application relates to a method and a system for managing the consulting quality of a whole process engineering, wherein the method comprises the following steps: the management terminal sends the engineering project information to an engineering consultation server; the project consultation server judges that the project information meets the project requirement and generates project establishment information; after the auditing server passes the auditing of the engineering project information, feeding back the approved information to the engineering consultation server; the engineering consultation server sends the design requirement of the engineering project information to the design terminal; the engineering consultation server carries out construction unit bidding according to the design information and determines a winning construction unit; the construction terminal sends the construction information to the engineering consultation server; the engineering consultation server detects the construction information and sends the detection information to the management terminal; and the engineering consultation server sends the engineering completion information to the management terminal and the auditing server so that the management terminal and the auditing server perform completion auditing. The method and the system are helpful for improving the management efficiency of the whole process engineering consultation.

Description

Method and system for managing engineering consultation quality in whole process

Technical Field

The application relates to the field of engineering consultation quality management, in particular to a method and a system for managing the engineering consultation quality in the whole process.

Background

The whole process engineering consultation refers to that an owner entrusts the engineering consultation service to an enterprise integrally in the process of project construction, and the enterprise provides engineering consultation service activities such as project planning, feasibility study, environmental impact evaluation report, engineering investigation, engineering design, engineering supervision, cost consulting and bidding agent.

The key point of the whole process engineering consultation project is how to realize the whole process consultation management target of the project. In the related art, the consultation management process includes: after the user edits on the computer, the edited content is uploaded to the system for browsing by related personnel.

In the mode in the related technology, because the mode is carried out by a single person, the interaction between the persons and the system does not exist, the problems of low efficiency of message issuing, message processing and message management and control exist, and the management efficiency is low.

Disclosure of Invention

In order to help to improve the efficiency of overall process engineering consultation quality management, the application provides a method and a system for overall process engineering consultation quality management.

In a first aspect, the present application provides a method for overall process engineering consulting quality management, which adopts the following technical scheme:

a method for consulting quality management of whole process engineering comprises the following steps:

the management terminal sends the project information to the project consultation server;

the engineering consultation server judges whether the engineering project information meets engineering requirements, if so, the project consultation server generates project establishment information, feeds the project establishment information back to the management terminal, and sends the engineering project information to the auditing server;

after the audit server passes the audit of the engineering project information, generating audit passing information, and feeding the audit passing information back to the engineering consultation server;

the engineering consultation server determines the design terminal corresponding to the engineering project information and sends the design requirement of the engineering project information to the design terminal;

when a designer completes design according to the design requirement to obtain design information, the design terminal sends the design information to the engineering consultation server;

the engineering consultation server carries out construction unit bidding according to the design information and determines a winning construction unit;

when the winning bid construction unit carries out construction, the construction terminal sends construction information to the engineering consultation server;

the engineering consultation server detects the construction information, generates detection information and sends the detection information to the management terminal;

and after the construction of the winning construction unit is completed, the engineering consultation server sends the engineering completion information to the management terminal and the auditing server so that the management terminal and the auditing server perform completion auditing.

By adopting the technical scheme, the engineering consultation server judges whether the engineering project information meets the engineering requirements or not through the engineering project information of the management terminal, if so, the item information is generated, the item information is fed back to the management terminal, the engineering project information is sent to the auditing server, the auditing server generates auditing passing information after the engineering project information is approved, the auditing passing information is fed back to the engineering consultation server, the engineering consultation server determines the design terminal corresponding to the engineering project information and sends the design requirements of the engineering project information to the design terminal, when a designer finishes the design according to the design requirements and obtains the design information, the design terminal sends the design information to the engineering consultation server, the engineering consultation server carries out construction unit bidding according to the design information, determines winning construction units, and when the winning construction units carry out construction, the construction terminal sends the construction information to the engineering consultation server, the engineering consultation server detects the construction information to generate detection information, the detection information is sent to the management terminal, and after construction of a Chinese construction unit is completed, the engineering consultation server sends the construction completion information to the management terminal and the auditing server, so that the management terminal and the auditing server perform completion auditing. Through the interaction among the working terminals, the engineering consultation server and the auditing server used by the personnel of each party, the efficiency of information publishing, processing and control is improved, and further the efficiency of engineering consultation quality management in the whole process is improved.

Optionally, the determining, by the engineering consultation server, the design terminal corresponding to the engineering project information, and sending the design requirement of the engineering project information to the design terminal includes:

the engineering consultation server divides the engineering project information into sub-projects according to engineering construction rules to obtain a plurality of sub-project information;

the engineering consultation server determines a plurality of designers associated with each piece of sub-project information, and one designer corresponds to one or more pieces of sub-project information;

the engineering consultation server determines the design requirement and the design terminal corresponding to each designer and sends the design requirement to the design terminal of the corresponding designer.

By adopting the technical scheme, the engineering consultation server is required to divide the engineering project information into the sub-projects according to the engineering construction rules to obtain the information of the sub-projects, the designer associated with each sub-project information is determined, the number of designers is multiple, one designer corresponds to one or more sub-project information, the design requirement and the design terminal corresponding to each designer are determined, and the design requirement is sent to the design terminal of the corresponding designer. And each participating designer can receive design requirements, design information and the like of the engineering project through the design terminal. And a plurality of designers can conveniently and simultaneously promote the design of engineering projects.

Optionally, the construction information includes construction progress data,

the engineering consultation server detects the construction information, generates detection information, and sends the detection information to the management terminal, and the method comprises the following steps:

the engineering consultation server obtains construction progress data according to the construction information, and judges whether the current construction progress is matched with a preset construction progress or not according to the construction progress data;

if the first detection information is matched with the first detection information, the engineering consultation server generates first detection information and sends the first detection information to the management terminal;

if so, the engineering consultation server generates second detection information and sends the second detection information to the management terminal, wherein the second detection information is used for representing that the current construction progress is delayed;

and if so, generating third detection information by the engineering consultation server, and sending the third detection information to the management terminal, wherein the third detection information is used for indicating that the current construction progress is advanced.

By adopting the technical scheme, the detection of the construction progress is the key point for ensuring that the engineering project can be completed on time, the engineering consultation server obtains construction progress data according to the construction information, judges whether the current construction progress is matched with the preset construction progress or not according to the construction progress data, generates first detection information if the current construction progress is matched with the preset construction progress, and sends the first detection information to the management terminal so as to inform a manager that the construction progress is normal; if the construction progress is delayed, generating second detection information, and sending the second detection information to the management terminal to inform a manager that the current construction progress is delayed; and if so, generating third detection information, and sending the third detection information to the management terminal to inform a manager that the current construction progress is advanced. The detection and feedback of the construction progress can enable a manager to know the construction progress through the management terminal, so that the engineering project can be managed in time.

Optionally, the method further comprises:

when the management terminal receives the second detection information, the management terminal sends a lag reason query instruction to the engineering consultation server;

the engineering consultation server acquires natural environment information or social event information, analyzes the construction influence degree of the natural environment information or the social event information, and compares the construction influence degree with the preset construction downtime degree;

if the current construction progress is larger than or equal to the natural environment information or the social event information, the engineering consultation server generates a first lag reason query result, and the first lag reason query result indicates that the current construction progress lag is caused by the natural environment information or the social event information;

and if the current construction progress is smaller than the natural environment information, the engineering consultation server generates a second lag reason query result, and the second lag reason query result indicates that the current construction progress lag is not caused by the natural environment information or the social event information.

By adopting the technical scheme, when the management terminal receives second detection information, namely a manager determines that the current construction progress is delayed, the manager sends a delay reason query instruction to the engineering consultation server through the management terminal, the engineering consultation server acquires natural environment information or social event information, analyzes the construction influence degree of the natural environment information or the social event information, and compares the construction influence degree with the preset construction shutdown degree, for example, the natural environment information can be a weather factor, if the weather is rainstorm, snowstorm, hail and the like, the construction influence degree exceeds the construction shutdown degree, namely, the shutdown is required due to the weather reason, and a first delay reason query result is generated to inform the manager that the current construction progress is delayed due to the weather reason; and if the construction progress is the natural environment information such as weather or light rain, the construction influence degree is smaller than the construction shutdown degree, and a second delay reason inquiry result is generated to inform a manager that the current construction progress delay is not caused by the natural environment information or the social event information. When the construction progress delay is generated, the reason of the construction progress delay can be judged by analyzing the natural environment information or the social event information through the engineering consultation server, and the management of a manager is further facilitated.

Optionally, the construction information further includes construction equipment data, construction material data and constructor data,

after the engineering consultation server generates a second hysteresis reason query result, the method further comprises the following steps:

the engineering consultation server obtains construction equipment data, construction material data and constructor data according to the construction information;

the engineering consultation server judges whether the current construction progress is delayed due to the construction equipment fault or not according to the construction equipment data;

if the current construction progress is delayed due to the construction equipment fault, the engineering consultation server generates a third delay reason query result, and the third delay reason query result indicates that the current construction progress is delayed due to the construction equipment fault;

if the current construction progress is delayed due to the fact that the construction equipment fails, the engineering consultation server judges whether the current construction progress is delayed due to construction material shortage or not according to the construction material data;

if the current construction progress is delayed due to the shortage of the construction materials, the engineering consultation server generates a fourth delay reason query result, and the fourth delay reason query result indicates that the current construction progress is delayed due to the shortage of the construction materials;

if the current construction progress is not delayed due to the shortage of the construction materials, the engineering consultation server judges whether the current construction progress is delayed due to constructors according to the constructor data;

if the current construction progress is delayed due to the constructors, the engineering consultation server generates a fifth delay reason query result, and the fifth delay reason query result indicates that the current construction progress is delayed due to the constructors;

and if the current construction progress is not delayed due to the constructors, the engineering consultation server generates a sixth delay reason query result, and the sixth delay reason query result indicates that the current construction progress is not delayed due to the construction equipment data, the construction material data and the constructor data.

By adopting the technical scheme, after the fact that the current construction progress lag is not caused by natural environment information or social event information is determined, further analysis is needed according to three aspects of construction equipment, construction materials and constructors, whether the current construction progress lag is caused by construction equipment faults or not is judged firstly, whether the current construction progress lag is caused by construction material shortage or not is judged secondly, and whether the current construction progress lag is caused by constructors or not is judged finally, and the obtained lag reason inquiry result can enable a manager to clearly see which problem causes the current construction progress lag, so that construction progress remediation and management are carried out.

In a second aspect, the present application provides a system for overall process engineering consulting quality management, which adopts the following technical solutions:

a system for overall process engineering consulting quality management, comprising:

the system comprises an engineering consultation server, an audit server and a working terminal, wherein the working terminal comprises a management terminal, a design terminal and a construction terminal;

the engineering consultation server comprises an engineering establishment module, an engineering design module, an engineering bidding module, a construction detection module and an engineering completion module;

the management terminal is used for sending the project information to the project consultation server;

the project item establishing module is used for judging whether the project item information meets the project requirements, generating item establishing information if the project item information meets the project requirements, feeding the item establishing information back to the management terminal, and sending the project item information to the auditing server;

the auditing server is used for generating auditing information after the engineering project information is approved and feeding back the auditing information to the engineering consultation server;

the engineering design module is used for determining the design terminal corresponding to the engineering project information and sending the design requirement of the engineering project information to the design terminal;

the design terminal is used for sending the design information to the engineering consultation server when a designer completes the design according to the design requirement to obtain the design information;

the engineering bid inviting module is used for inviting bids of construction units according to the design information and determining bid winning construction units;

the construction terminal is used for sending construction information to the engineering consultation server when the winning construction unit carries out construction;

the construction detection module is used for detecting the construction information, generating detection information and sending the detection information to the management terminal;

and the completion engineering module is used for sending the completion engineering information to the management terminal and the auditing server after the construction of the winning construction unit is completed, so that the management terminal and the auditing server perform completion auditing.

By adopting the technical scheme, the system comprises an engineering consultation server, an audit server and a working terminal, wherein the working terminal comprises a management terminal, a design terminal and a construction terminal, the engineering consultation server judges whether the engineering project information meets the engineering requirements or not through the engineering project information of the management terminal, if yes, the project information is generated, the project information is fed back to the management terminal, the engineering project information is sent to the audit server, the audit server generates audit passing information after the engineering project information is audited by the audit server, the audit passing information is fed back to the engineering consultation server, the engineering consultation server determines the design terminal corresponding to the engineering project information, the design requirement of the engineering project information is sent to the design terminal, when a designer completes the design according to the design requirement and obtains the design information, the design terminal sends the design information to the engineering consultation server, the construction unit bidding is carried out by the engineering consultation server according to the design information, the winning construction unit is determined, when the winning construction unit is constructed, the construction terminal sends the construction information to the engineering consultation server, the engineering consultation server detects the construction information, detection information is generated and sent to the management terminal, and after the winning construction unit is constructed, the engineering consultation server sends the engineering completion information to the management terminal and the auditing server, so that the management terminal and the auditing server complete the completion auditing. Through the interaction among the working terminals, the engineering consultation server and the auditing server used by the personnel of each party, the efficiency of information publishing, processing and control is improved, and further the efficiency of engineering consultation quality management in the whole process is improved.

Optionally, the engineering design module includes:

the system comprises a sub-project dividing unit, a designer associating unit and a design terminal determining unit;

the sub-project dividing unit is used for performing sub-project division on the engineering project information according to engineering construction rules to obtain a plurality of sub-project information;

the designer associating unit is used for determining a plurality of designers associated with each piece of sub-project information, and one designer corresponds to one or more pieces of sub-project information;

the design terminal determining unit is used for determining the design requirement and the design terminal corresponding to each designer and sending the design requirement to the design terminal of the corresponding designer.

By adopting the technical scheme, considering that one engineering project comprises a plurality of sub-projects, and different sub-projects are participated by different designers in order to improve efficiency, therefore, the sub-project dividing unit is required to divide the engineering project information into the sub-projects according to the engineering construction rule to obtain a plurality of sub-project information, the designer association unit determines the designers associated with each sub-project information, the designers are multiple, one designer corresponds to one or more sub-project information, the design terminal determining unit determines the design requirement and the design terminal corresponding to each designer, and the design requirement is sent to the design terminal of the corresponding designer. And each participating designer can receive design requirements, design information and the like of the engineering project through the design terminal. And a plurality of designers can conveniently and simultaneously promote the design of engineering projects.

Optionally, the construction information includes construction progress data,

the construction detection module includes: a construction progress judging unit and a detection information generating unit;

the construction progress judging unit is used for obtaining construction progress data according to the construction information and judging whether the current construction progress is matched with a preset construction progress or not according to the construction progress data;

the detection information generation unit is used for generating first detection information if the current construction progress is matched with the preset construction progress, and sending the first detection information to the management terminal;

the detection information generation unit is further configured to generate second detection information if the current construction progress is delayed from the preset construction progress, and send the second detection information to the management terminal, where the second detection information is used to indicate that the current construction progress is delayed;

the detection information generation unit is further configured to generate third detection information if the current construction progress is ahead of the preset construction progress, and send the third detection information to the management terminal, where the third detection information is used to indicate that the current construction progress is ahead.

By adopting the technical scheme, the detection of the construction progress is the key point for ensuring that the engineering project can be completed on time, the construction progress judging unit obtains construction progress data according to the construction information, judges whether the current construction progress is matched with the preset construction progress or not according to the construction progress data, and if the current construction progress is matched with the preset construction progress, the detection information generating unit generates first detection information and sends the first detection information to the management terminal so as to inform a manager that the construction progress is normal; if the construction progress is delayed, the detection information generating unit generates second detection information and sends the second detection information to the management terminal so as to inform a manager that the current construction progress is delayed; if the construction progress is advanced, the detection information generation unit generates third detection information, and transmits the third detection information to the management terminal to notify the manager that the current construction progress is advanced. The detection and feedback of the construction progress can enable a manager to know the construction progress through the management terminal, so that the engineering project can be managed in time.

Optionally, the construction detection module further includes: a hysteresis cause determination unit and a result generation unit;

the management terminal is further configured to send a hysteresis reason query instruction to the engineering consultation server when the management terminal receives the second detection information;

the delay reason judging unit is used for acquiring natural environment information or social event information, analyzing the construction influence degree of the natural environment information or the social event information, and comparing the construction influence degree with the preset construction downtime degree;

the result generating unit is used for generating a first lag reason query result if the current construction progress is larger than or equal to the natural environment information or the social event information, wherein the first lag reason query result indicates that the current construction progress is lagged by the natural environment information or the social event information;

and if the current construction progress is smaller than the natural environment information, generating a second hysteresis reason query result, wherein the second hysteresis reason query result indicates that the current construction progress is not caused by the natural environment information or the social event information.

By adopting the technical scheme, when the management terminal receives second detection information, namely a manager determines that the current construction progress is delayed, the manager sends a delay reason query instruction to the engineering consultation server through the management terminal, the delay reason judgment unit acquires natural environment information or social event information, analyzes the construction influence degree of the natural environment information or the social event information, and compares the construction influence degree with the preset construction downtime degree, for example, the natural environment information can be a weather factor, if the weather is rainstorm, snowstorm, hail and the like, the construction influence degree exceeds the construction downtime degree, namely, the shutdown is required due to the weather reason, and the result generation unit generates a first delay reason query result to inform the manager that the current construction progress is delayed due to the weather reason; and if the construction progress is the natural environment information such as weather, raininess and the like, the construction influence degree is smaller than the construction shutdown degree, and the result generating unit generates a second delay reason inquiry result to inform a manager that the current construction progress delay is not caused by the natural environment information or the social event information. When the construction progress delay is generated, the reason of the construction progress delay can be analyzed through the engineering consultation server, and management of a manager is further facilitated.

Optionally, the construction information further includes construction equipment data, construction material data and constructor data,

the hysteresis reason judging unit is also used for obtaining construction equipment data, construction material data and constructor data according to the construction information;

the delay reason judging unit is also used for judging whether the current construction progress is delayed due to the construction equipment fault according to the construction equipment data;

the result generation unit is further used for generating a third delay reason query result if the current construction progress is delayed due to the construction equipment fault, wherein the third delay reason query result indicates that the current construction progress is delayed due to the construction equipment fault;

the delay reason judging unit is also used for judging whether the current construction progress is delayed due to the shortage of construction materials according to the construction material data if the current construction progress is delayed due to the absence of the construction equipment fault;

the result generation unit is further used for generating a fourth lag reason inquiry result if the current construction progress is lagged due to the shortage of the construction materials, wherein the fourth lag reason inquiry result indicates that the current construction progress is lagged due to the shortage of the construction materials;

the delay reason judging unit is also used for judging whether the current construction progress is delayed due to constructors according to the constructor data if the current construction progress is not delayed due to the shortage of the construction materials;

the result generation unit is further used for generating a fifth lag reason query result if the current construction progress is lagged due to the constructors, wherein the fifth lag reason query result indicates that the current construction progress is lagged due to the constructors;

the result generating unit is further configured to, if the current construction progress is not delayed due to the constructor, generate a sixth delay reason query result by the engineering consultation server, where the sixth delay reason query result indicates that the current construction progress is not delayed due to the construction equipment data, the construction material data, and the constructor data.

By adopting the technical scheme, after the fact that the current construction progress lag is not caused by natural environment information or social event information is determined, further analysis is needed according to three aspects of construction equipment, construction materials and constructors, the lag reason judging unit judges whether the current construction progress lag is caused by construction equipment faults or not, judges whether the current construction progress lag is caused by construction material shortage or not and judges whether the current construction progress lag is caused by constructors or not, and the lag reason query result obtained by the result generating unit can enable a manager to clearly see which problem causes the current construction progress lag, so that construction progress remediation and management are carried out.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through interaction among the working terminals, the engineering consultation server and the auditing server used by personnel of each party, the efficiency of information publishing, processing and control is improved, and further the efficiency of engineering consultation quality management in the whole process is improved;

2. for the detection and feedback of the construction progress, a manager can know the construction progress through the management terminal, so that the engineering project can be managed in time;

3. when the construction progress delay is generated, the reason of the construction progress delay can be analyzed through the engineering consultation server, and management of a manager is further facilitated.

Drawings

Fig. 1 is a schematic flow chart of a method for consulting quality management of a whole process engineering according to an embodiment of the present disclosure.

Fig. 2 is a schematic flow chart of construction progress detection according to an embodiment of the present disclosure.

FIG. 3 is a flow chart illustrating a hysteresis reason analysis of construction progress hysteresis according to an embodiment of the present disclosure.

FIG. 4 is a flow chart illustrating the analysis of the cause of the delay according to the construction equipment, construction materials and the constructor according to one embodiment of the present application.

FIG. 5 is a schematic structural diagram of a system for consulting quality management in a whole process engineering according to an embodiment of the present application.

FIG. 6 is a schematic structural diagram of an engineering module according to an embodiment of the present disclosure.

Fig. 7 is a schematic structural diagram of a construction detection module according to an embodiment of the present application.

Description of reference numerals: 501. an engineering consultation server; 502. an audit server; 503. a management terminal; 504. designing a terminal; 505. a construction terminal; 5011. an engineering project establishment module; 5012. an engineering design module; 5013. an engineering bidding module; 5014. a construction detection module; 5015. a completion module; 6001. a sub-item dividing unit; 6002. a designer associating unit; 6003. designing a terminal determining unit; 7001. a construction progress judgment unit; 7002. a detection information generation unit; 7003. a hysteresis cause determination unit; 7004. and a result generation unit.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is further described in detail below with reference to fig. 1-7 and the embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The embodiment of the application discloses a method for managing the consulting quality of the engineering in the whole process.

Example 1

Referring to fig. 1, the method is performed by steps including:

101, the management terminal sends the project information to the project consultation server.

When a project needs to be started, the manager needs to write project information into the management terminal, and the management terminal sends the project information to the project consultation server.

And 102, judging whether the engineering project information meets the engineering requirements by the engineering consultation server, if so, generating item establishment information, feeding the item establishment information back to the management terminal, and sending the engineering project information to the auditing server.

The engineering consultation server may be a physical server device or a cloud server, and may be a cluster or a distributed server, which is not limited specifically. The project consultation server judges whether the project information meets the project requirements, if so, the project information is generated and fed back to the management terminal to prompt a manager that the project information is successful, and then the project information is sent to the auditing server which has auditing authority, and specifically can be a special project server of a government department. If the engineering requirements are not met, the project is naturally not allowed to be established, and information can be fed back to the management terminal.

103, after the audit server passes the audit of the project information, generating audit passing information, and feeding the audit passing information back to the project consultation server.

The auditing server audits the project information, generates auditing passing information after the auditing is passed, and feeds the auditing passing information back to the project consultation server through a communication link between the auditing server and the project consultation server.

And 104, the engineering consultation server determines a design terminal corresponding to the engineering project information and sends the design requirement of the engineering project information to the design terminal.

In the design stage, the engineering project is designed by a plurality of designers, each designer uses a corresponding design terminal, and the specific process is as follows:

the method comprises the following steps that firstly, an engineering consultation server divides the engineering project information into sub-projects according to engineering construction rules to obtain a plurality of sub-project information;

secondly, the engineering consultation server determines a plurality of designers related to each piece of sub-project information, wherein one designer corresponds to one or more pieces of sub-project information;

thirdly, the engineering consultation server determines the design requirement and the design terminal corresponding to each designer and sends the design requirement to the design terminal of the corresponding designer;

considering that one engineering project comprises a plurality of sub-projects, and in order to improve efficiency, different sub-projects are participated by different designers, therefore, the engineering consultation server is required to perform sub-project division on engineering project information according to engineering construction rules to obtain a plurality of sub-project information, a designer associated with each sub-project information is determined, the number of designers is multiple, one designer corresponds to one or more sub-project information, a design requirement and a design terminal corresponding to each designer are determined, and the design requirement is sent to the design terminal of the corresponding designer. And each participating designer can receive design requirements, design information and the like of the engineering project through the design terminal, and the design of the engineering project can be promoted by a plurality of designers conveniently.

And 105, when the designer completes the design according to the design requirement to obtain the design information, the design terminal sends the design information to the engineering consultation server.

After the designer uses the design terminal to complete design according to design requirements, design information can be obtained at the design terminal, and the design terminal sends the design information to the engineering consultation server.

And 106, the engineering consultation server carries out construction unit bidding according to the design information and determines winning construction units.

The design information is also multiple because the designer has multiple design information, and after the engineering consultation server collects the multiple design information, the construction units bid according to the construction units, and different construction units need to bid to determine winning construction units.

And 107, when the construction unit with the medium mark performs construction, the construction terminal sends construction information to the engineering consultation server.

The construction terminal is used for recording electronic equipment of information such as construction progress, construction materials, construction equipment, constructors and the like, and the construction terminal sends construction information to the engineering consultation server.

And 108, the engineering consultation server detects the construction information, generates detection information and sends the detection information to the management terminal.

The engineering consultation server detects the construction information according to preset conditions for construction, such as construction progress and the like, generates detection information, and sends the detection information to the management terminal, so that a manager can know the construction condition through the management terminal conveniently.

And 109, after the construction of the medium mark construction unit is completed, the engineering consultation server sends the engineering completion information to the management terminal and the auditing server, so that the management terminal and the auditing server perform completion auditing.

After the construction is finished, the engineering consultation server sends the engineering finishing information to the management terminal and the auditing server so as to facilitate a manager to check and accept the engineering project after the construction is finished through the management terminal, and an auditor audits the engineering project after the construction is finished through the auditing server, and if the engineering project needs to be rectified, the rectified and rectified information is fed back; if so, an as may be suggested.

The implementation principle of the embodiment 1 is as follows: the engineering consultation server judges whether the engineering project information meets engineering requirements or not through the engineering project information of the management terminal, if yes, the project information is generated, the project information is fed back to the management terminal, the engineering project information is sent to the auditing server, the auditing server generates auditing information after the engineering project information is approved, the auditing information is fed back to the engineering consultation server, the engineering consultation server determines a design terminal corresponding to the engineering project information, the design requirements of the engineering project information are sent to the design terminal, when a designer completes design according to the design requirements and obtains the design information, the design terminal sends the design information to the engineering consultation server, the engineering consultation server carries out construction unit bidding according to the design information, a winning construction unit is determined, and when the winning construction unit carries out construction, the construction terminal sends the construction information to the engineering consultation server, the construction consultation server detects the construction information, generates detection information, sends the detection information to the management terminal, and after construction of the construction organization of the Chinese bid is completed, the construction consultation server sends the construction completion information to the management terminal and the auditing server, so that the management terminal and the auditing server perform completion auditing. Through the interaction among the working terminals, the engineering consultation server and the auditing server used by the personnel of each party, the efficiency of information publishing, processing and control is improved, and further the efficiency of engineering consultation quality management in the whole process is improved.

Example 2

Referring to fig. 2, the present embodiment is different from the above embodiment 1 in that, for the detection of the construction information in step 108 in embodiment 1, the present embodiment focuses on the detection of the construction progress, and the method includes the following steps:

201, the engineering consultation server obtains construction progress data according to the construction information, judges whether the current construction progress is matched with a preset construction progress or not according to the construction progress data, and if the current construction progress is matched with the preset construction progress, executes step 202; if yes, go to step 203; if so, go to step 204.

The construction progress is the key point for ensuring that the engineering project can be completed on time and is also the key point for improving the management efficiency, so the engineering consultation server obtains construction progress data according to the construction information, judges whether the current construction progress is matched with the preset construction progress or not according to the construction progress data, and executes the step 202 if the current construction progress is matched with the preset construction progress; if yes, go to step 203; if so, go to step 204.

202, the engineering consultation server generates first detection information and sends the first detection information to the management terminal.

And if the current construction progress is matched with the preset construction progress, the engineering consultation server generates first detection information and sends the first detection information to the management terminal so as to inform a manager that the construction progress is normal.

And 203, generating second detection information by the engineering consultation server, and sending the second detection information to the management terminal.

And if the current construction progress is lagged compared with the preset construction progress, the engineering consultation server generates second detection information and sends the second detection information to the management terminal, wherein the second detection information is used for indicating that the current construction progress is lagged.

And 204, generating third detection information by the engineering consultation server, and sending the third detection information to the management terminal.

And if the current construction progress is advanced compared with the preset construction progress, the engineering consultation server generates third detection information and sends the third detection information to the management terminal, wherein the third detection information is used for indicating that the current construction progress is advanced.

The implementation principle of the embodiment 2 is as follows: the engineering consultation server obtains construction progress data according to the construction information, judges whether the current construction progress is matched with a preset construction progress or not according to the construction progress data, and generates first detection information if the current construction progress is matched with the preset construction progress; if the delay exists, generating second detection information; if the construction progress is advanced, third detection information is generated, and for the detection and feedback of the construction progress, a manager can know the construction progress through the management terminal, so that the engineering project can be managed in time.

Example 3

Referring to fig. 3, the difference between this embodiment and embodiment 2 is that after the management terminal receives the second detection information, the following steps are specifically performed to analyze the reason for the delay of the construction progress delay:

301, when the management terminal receives the second detection information, the management terminal sends a hysteresis reason query instruction to the engineering consultation server.

When the management terminal receives the second detection information, namely the manager determines that the current construction progress is delayed, the manager sends a delay reason query instruction to the engineering consultation server through the management terminal.

302, the engineering consultation server acquires natural environment information or social event information, analyzes the construction influence degree of the natural environment information or the social event information, compares the construction influence degree with the preset construction downtime degree, and executes the step 303 if the construction influence degree is larger than or equal to the preset construction downtime degree; if so, go to step 304.

The engineering consultation server acquires natural environment information or social event information, analyzes the construction influence degree of the natural environment information or the social event information, and compares the construction influence degree with the preset construction shutdown degree, for example, the natural environment information can be a weather factor, if the weather is rainstorm, snowstorm, hailstone and the like, the construction influence degree exceeds the construction shutdown degree, namely, the construction shutdown is required due to the weather; and if the information is natural environment information such as weather or light rain, the construction influence degree is smaller than the construction shutdown degree. The construction influence degree of the social event information is large, and the social event information can be an emergency event, such as occurrence of an epidemic situation blocking construction site. If the construction influence degree is greater than or equal to the preset construction shutdown degree, executing the step 303; if the construction influence degree is less than the preset construction downtime degree, step 304 is executed.

303, the engineering consultant server generates a first hysteresis reason query result.

The engineering consultation server generates a first lag reason inquiry result to inform a manager that the current construction progress lag is caused by natural environment information or social event information.

304, the engineering consultant server generates a second hysteresis cause query result.

Wherein the engineering consultation server generates a second lag reason inquiry result to inform a manager that the current construction progress lag is not caused by natural environment information or social event information

The implementation principle of the embodiment 3 is as follows: when the construction progress delay is generated, the natural environment information or the social event information can be analyzed through the engineering consultation server so as to determine the reason of the construction progress delay, and further, a manager can conveniently manage the construction progress delay.

Example 4

Referring to fig. 4, the difference between this embodiment and embodiment 3 is that after the engineering consultation server generates the second query result of the hysteresis reason, the following steps are specifically performed according to the analysis of the hysteresis reason by the construction equipment, the construction materials and the constructors:

401, the engineering advisory server obtains construction equipment data, construction material data and constructor data according to the construction information.

When it is determined that the current construction progress lag is not lag caused by external factors such as natural environment information or social event information, the engineering consultation server analyzes construction information to obtain construction equipment data, construction material data and constructor data.

402, the engineering consultation server judges whether the current construction progress is delayed due to the construction equipment fault according to the construction equipment data, and if the current construction progress is delayed due to the construction equipment fault, the step 403 is executed; if no construction equipment fault exists, the current construction progress is delayed, and step 404 is executed.

The engineering consultation server can judge which construction equipment fails according to the construction equipment data, for example, the construction tower crane fails and needs to be maintained for a long time, so that the current construction progress is delayed; if one construction vehicle breaks down, the construction progress is not influenced because the construction vehicles are provided with a plurality of construction vehicles. According to the principle, whether the current construction progress is delayed due to the construction equipment fault can be judged, and if the current construction progress is delayed due to the construction equipment fault, the step 403 is executed; if there is no construction equipment failure resulting in a lag in the current construction progress, step 404 is performed.

And 403, generating a third hysteresis reason query result by the engineering consultation server.

When the current construction progress is delayed due to the construction equipment fault, the engineering consultation server generates a third delay reason query result, and the third delay reason query result indicates that the current construction progress is delayed due to the construction equipment fault. The third hysteresis reason inquiry result can also carry a construction equipment identifier of a fault for checking the construction equipment.

404, the engineering consultation server judges whether the current construction progress is delayed due to construction material shortage according to the construction material data, and if the current construction progress is delayed due to construction material shortage, the step 405 is executed; if the current construction progress is not delayed due to the shortage of the construction material, step 406 is executed.

When the current construction progress is delayed due to no construction equipment fault, the engineering consultation server judges whether the current construction progress is delayed due to construction material shortage according to the construction material data, and if the current construction progress is delayed due to construction material shortage, the step 405 is executed; if the current construction schedule is not delayed due to a shortage of construction material, step 406 is performed.

The engineering consultant server generates 405 a fourth hysteresis cause query result.

And when the current construction progress is delayed due to the shortage of the construction materials, the engineering consultation server generates a fourth delay reason query result, and the fourth delay reason query result indicates that the current construction progress is delayed due to the shortage of the construction materials.

406, the engineering consultation server judges whether the current construction progress is delayed due to constructors according to the data of the constructors, and if the current construction progress is delayed due to the constructors, the step 407 is executed; if the current construction progress is not delayed due to the constructor, step 408 is executed.

If the current construction progress is delayed due to the shortage of construction materials, the engineering consultation server judges whether the current construction progress is delayed due to constructors according to the data of the constructors, for example, if the current construction progress is delayed due to the departure of skilled techniques among the constructors, the current construction progress is delayed due to the constructors, and the step 407 is executed; if the constructor has not changed, or has only left work for a few hours, which will not cause the current construction progress to lag, step 408 is performed.

And 407, the engineering consultation server generates a fifth hysteresis reason query result.

When the current construction progress is delayed due to constructors, the engineering consultation server generates a fifth delay reason query result, and the fifth delay reason query result indicates that the current construction progress is delayed due to the constructors.

408, the engineering advisory server generates a sixth hysteresis reason query result.

And when the current construction progress is not delayed due to constructors, the engineering consultation server generates a sixth delay reason query result, and the sixth delay reason query result indicates that the current construction progress is not delayed due to construction equipment data, construction material data and constructor data.

The implementation principle of the embodiment 4 is as follows: after determining that the current construction progress lag is not caused by natural environment information or social event information, further analyzing according to three aspects of construction equipment, construction materials and constructors, judging whether the current construction progress lag is caused by construction equipment faults or not, judging whether the current construction progress lag is caused by construction material shortage or not, and judging whether the current construction progress lag is caused by the constructors or not finally, wherein the obtained lag reason inquiry result can enable a manager to clearly see which problem causes the current construction progress lag, so that construction progress remediation and management are carried out.

The embodiment of the application also discloses a system for managing the engineering consultation quality in the whole process.

Example 5

Referring to fig. 5, the system includes:

the system comprises an engineering consultation server 501, an auditing server 502 and working terminals, wherein the working terminals comprise a management terminal 503, a design terminal 504 and a construction terminal 505;

the engineering consultation server 501 comprises an engineering establishment module 5011, an engineering design module 5012, an engineering bidding module 5013, a construction detection module 5014 and an engineering completion module 5015;

the management terminal 503 is configured to send the engineering project information to the engineering consultation server 501;

the project establishment module 5011 is configured to determine whether the project information meets the project requirements, generate establishment information if the project information meets the project requirements, feed the establishment information back to the management terminal 503, and send the project information to the audit server 502;

the auditing server 502 is used for generating auditing information after the engineering project information is approved and feeding the auditing information back to the engineering consultation server 501;

the engineering design module 5012 is configured to determine a design terminal 504 corresponding to the engineering project information, and send the design requirement of the engineering project information to the design terminal 504;

the design terminal 504 is used for sending the design information to the engineering consultation server 501 when the designer completes the design according to the design requirement and obtains the design information;

the engineering bidding module 5013 is used for bidding construction units according to the design information and determining winning construction units;

the construction terminal 505 is used for sending construction information to the engineering consultation server 501 when a winning bid construction unit carries out construction;

the construction detection module 5014 is configured to detect construction information, generate detection information, and send the detection information to the management terminal 503;

the completion of project module 5015 is configured to send completion of project information to the management terminal 503 and the auditing server 502 after the construction of the winning construction unit is completed, so that the management terminal 503 and the auditing server 502 perform completion auditing.

The implementation principle of the embodiment 5 is as follows: the system comprises an engineering consultation server 501, an auditing server 502 and a working terminal, wherein the working terminal comprises a management terminal 503, a design terminal 504 and a construction terminal 505, the management terminal 503 is a working terminal used by a manager, the working terminal can be an electronic device such as a mobile phone, a tablet computer and a computer, when a certain project needs to be started, the manager needs to write engineering project information into the management terminal 503, the management terminal 503 sends the engineering project information to the engineering consultation server 501, the engineering consultation server 501 judges whether the engineering project information meets the engineering requirement or not through the engineering project information of the management terminal 503, if yes, the project information is generated, the project information is fed back to the management terminal 503, the engineering project information is sent to the auditing server 502, after the engineering project information is audited by the auditing server 502, audit passing information is generated, the audit passing information is fed back to the engineering consultation server 501, the engineering consultation server 501 determines a design terminal 504 corresponding to the engineering project information, transmits the design requirement of the engineering project information to the design terminal 504, when the designer completes the design according to the design requirement to obtain the design information, the design terminal 504 sends the design information to the engineering consultation server 501, the engineering consultation server 501 performs construction unit bidding according to the design information to determine winning construction units, when a winning construction unit carries out construction, the construction terminal 505 sends construction information to the engineering consultation server 501, the engineering consultation server 501 detects the construction information, generates detection information, sends the detection information to the management terminal 503, after the construction of the winning construction unit is completed, the engineering consultation server 501 sends the engineering completion information to the management terminal 503 and the auditing server 502, so that the management terminal 503 and the auditing server 502 perform completion auditing. Through the interaction among the working terminals used by the personnel of each party, the engineering consultation server 501 and the auditing server 502, the efficiency of information publishing, processing and control is improved, and further the efficiency of engineering consultation quality management in the whole process is improved.

Example 6

Referring to fig. 6 in conjunction with embodiment 5 shown in fig. 5, in a preferred embodiment of the present application, the engineering module 5012 includes:

a sub-project division unit 6001, a designer association unit 6002, and a design terminal determination unit 6003;

the sub-project dividing unit 6001, configured to perform sub-project division on the engineering project information according to the engineering construction rule to obtain multiple pieces of sub-project information;

a designer associating unit 6002 configured to determine a plurality of designers associated with each piece of sub-project information, where one designer corresponds to one or more pieces of sub-project information;

a design terminal determining unit 6003, configured to determine the design requirement and the design terminal 504 corresponding to each designer, and send the design requirement to the design terminal 504 of the corresponding designer.

The implementation principle of the embodiment 6 is as follows: considering that one engineering project includes a plurality of sub-projects, and different sub-projects are participated by different designers in order to improve efficiency, the sub-project dividing unit 6001 is required to perform sub-project division on engineering project information according to an engineering construction rule to obtain a plurality of sub-project information, the designer associating unit 6002 determines a designer associated with each sub-project information, the designer is multiple, one designer corresponds to one or more sub-project information, the design terminal determining unit 6003 determines a design requirement and a design terminal 504 corresponding to each designer, and sends the design requirement to the design terminal 504 of the corresponding designer. So that each participating designer can receive design requirements, design information and the like of the engineering project through the design terminal 504. And a plurality of designers can conveniently and simultaneously promote the design of engineering projects.

Example 7

Referring to fig. 7, in a preferred embodiment of the present application, in combination with embodiment 6 shown in fig. 6, the construction information includes construction progress data,

the construction detection module 5014 includes: a construction progress determination unit 7001 and a detection information generation unit 7002;

the construction progress judging unit 7001 is used for obtaining construction progress data according to the construction information and judging whether the current construction progress is matched with the preset construction progress or not according to the construction progress data;

the detection information generation unit 7002 is configured to generate first detection information if the current construction progress is matched with the preset construction progress, and send the first detection information to the management terminal 503;

the detection information generation unit 7002 is further configured to generate second detection information if the current construction progress is delayed from the preset construction progress, and send the second detection information to the management terminal 503, where the second detection information is used to indicate that the current construction progress is delayed;

the detection information generation unit 7002 is further configured to generate third detection information if the current construction progress is ahead of the preset construction progress, and send the third detection information to the management terminal 503, where the third detection information is used to indicate that the current construction progress is ahead.

The implementation principle of example 7 is: because the construction progress is a key point for ensuring that the engineering project can be completed on time and improving the management efficiency, the construction progress judging unit 7001 obtains construction progress data according to the construction progress data, judges whether the current construction progress is matched with the preset construction progress, and if the current construction progress is matched with the preset construction progress, the detection information generating unit 7002 generates first detection information and sends the first detection information to the management terminal 503 to inform a manager that the construction progress is normal; if the construction progress is delayed, the detection information generation unit 7002 generates second detection information, and transmits the second detection information to the management terminal 503 to notify the manager that the current construction progress is delayed; if the lead is found, the detection information generation unit 7002 generates third detection information, which is sent to the management terminal 503 to notify the manager that the current construction progress is advanced. For the detection and feedback of the construction progress, the manager can know the construction progress through the management terminal 503, so that the engineering project can be managed in time.

Alternatively, in connection with the embodiment shown in fig. 7, in a preferred embodiment of the present application,

the construction detection module 5014 further includes: hysteresis factor determination section 7003 and result generation section 7004;

the management terminal 503 is further configured to send a hysteresis reason query instruction to the engineering consultation server 501 when the management terminal 503 receives the second detection information;

the hysteresis cause judgment unit 7003 is used for acquiring natural environment information or social event information, analyzing the construction influence degree of the natural environment information or the social event information, and comparing the construction influence degree with the preset construction downtime degree;

a result generating unit 7004, configured to generate a first hysteresis reason query result if the current construction progress is greater than or equal to the first hysteresis reason query result, where the first hysteresis reason query result indicates that the current construction progress hysteresis is caused by natural environment information or social event information;

the result generation unit 7004 is further configured to, if the current construction progress is less than the predetermined threshold value, generate a second hysteresis reason query result indicating that the current construction progress hysteresis is not caused by the natural environment information or the social event information.

The implementation principle of the embodiment is as follows: when the management terminal 503 receives the second detection information, that is, the manager determines that the current construction progress is delayed, the manager sends a delay reason query instruction to the engineering consultation server 501 through the management terminal 503, the delay reason determination unit 7003 acquires natural environment information or social event information, analyzes the construction influence degree of the natural environment information or the social event information, and compares the construction influence degree with a preset construction downtime degree, for example, the natural environment information may be a weather factor, if weather such as rainstorm, snowstorm, hail and the like, the construction influence degree exceeds the construction downtime degree, that is, the shutdown is required due to the weather factor, and the result generation unit 7004 generates a first delay reason query result to inform the manager that the current construction progress is delayed due to the weather factor; on the other hand, if the information is natural environment information such as weather, rains, or the like, the construction influence degree is smaller than the construction downtime degree, and result generation unit 7004 generates a second delay reason query result to notify the manager that the current construction progress delay is not caused by the natural environment information or the social event information. When the construction progress delay occurs, the reason for the construction progress delay can be analyzed by the engineering consultation server 501, so that the management of a manager is further facilitated.

Optionally, in a preferred embodiment of the present application, in combination with the embodiment shown in fig. 7, the construction information further includes construction equipment data, construction material data and constructor data,

the hysteresis reason judging unit 7003 is further used for obtaining construction equipment data, construction material data and constructor data according to the construction information;

the hysteresis reason judging unit 7003 is further used for judging whether the current construction progress is delayed due to the construction equipment fault according to the construction equipment data;

the result generation unit 7004 is further configured to generate a third delay reason query result if the current construction progress is delayed due to the construction equipment fault, where the third delay reason query result indicates that the current construction progress is delayed due to the construction equipment fault;

the hysteresis reason judging unit 7003 is further used for judging whether the current construction progress is delayed due to the shortage of construction materials according to the construction material data if the current construction progress is delayed due to the absence of the construction equipment fault;

a result generation unit 7004, further configured to generate a fourth hysteresis reason query result if the current construction progress is delayed due to the shortage of the construction materials, the fourth hysteresis reason query result indicating that the current construction progress is delayed due to the shortage of the construction materials;

the hysteresis reason judging unit 7003 is further used for judging whether the current construction progress is delayed due to constructors according to constructor data if the current construction progress is not delayed due to shortage of construction materials;

the result generation unit 7004 is further configured to generate a fifth hysteresis reason query result if the current construction progress is delayed due to the constructors, where the fifth hysteresis reason query result indicates that the current construction progress is delayed due to the constructors;

the result generating unit 7004 is further configured to, if the current construction progress is not delayed due to the constructor, generate a sixth hysteresis reason query result by the engineering consultation server 501, where the sixth hysteresis reason query result indicates that the current construction progress is not delayed due to the construction equipment data, the construction material data, and the constructor data.

The implementation principle of the embodiment is as follows: after determining that the current construction progress lag is not caused by natural environment information or social event information, further analysis is needed according to three aspects of construction equipment, construction materials and construction personnel, the lag reason judgment unit 7003 judges whether the current construction progress lag is caused by construction equipment faults or not, and can judge which construction equipment faults occur according to construction equipment data, for example, a construction tower crane faults occur and long-time maintenance is needed, so that the current construction progress lag is inevitably caused; if one construction vehicle breaks down, the construction progress is not influenced because the construction vehicles are provided with a plurality of construction vehicles; if the current construction progress is delayed due to construction equipment faults, the result generation unit 7004 generates a third delay reason query result;

if there is no construction equipment failure causing the current construction progress to be delayed, the delay cause determination unit 7003 determines from the construction material data whether the current construction progress is delayed due to construction material shortage, and if the current construction progress is delayed due to construction material shortage, the result generation unit 7004 generates a fourth delay cause inquiry result;

if the current construction progress is not delayed due to shortage of construction materials, the delay reason determination unit 7003 determines whether the current construction progress is delayed due to the constructors based on the constructor data, and if the current construction progress is delayed due to shortage of construction materials, the result generation unit 7004 generates a fifth delay reason inquiry result;

if the current construction progress is delayed due to the shortage of construction materials, the result generation unit 7004 generates a sixth delay reason inquiry result

The result of the inquiry about the cause of delay obtained by the result generation unit 7004 allows the administrator to clearly see which problem is causing the delay in the current construction progress, and thus the construction progress can be remedied and managed.

The foregoing is a preferred embodiment of the present application and is not intended to limit the scope of the application in any way, and any features disclosed in this specification (including the abstract and drawings) may be replaced by alternative features serving equivalent or similar purposes, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

Claims (10)

1. A method for managing the engineering consultation quality in the whole process is characterized by being applied to a system for managing the engineering consultation quality in the whole process, wherein the system comprises an engineering consultation server, an audit server and a working terminal, the working terminal comprises a management terminal, a design terminal and a construction terminal, and the method comprises the following steps:

the management terminal sends the project information to the project consultation server;

the engineering consultation server judges whether the engineering project information meets engineering requirements, if so, the project consultation server generates project establishment information, feeds the project establishment information back to the management terminal, and sends the engineering project information to the auditing server;

after the audit server passes the audit of the engineering project information, generating audit passing information, and feeding the audit passing information back to the engineering consultation server;

the engineering consultation server determines the design terminal corresponding to the engineering project information and sends the design requirement of the engineering project information to the design terminal;

when a designer completes design according to the design requirement to obtain design information, the design terminal sends the design information to the engineering consultation server;

the engineering consultation server carries out construction unit bidding according to the design information and determines a winning construction unit;

when the winning bid construction unit carries out construction, the construction terminal sends construction information to the engineering consultation server;

the engineering consultation server detects the construction information, generates detection information and sends the detection information to the management terminal;

and after the construction of the winning construction unit is completed, the engineering consultation server sends the engineering completion information to the management terminal and the auditing server so that the management terminal and the auditing server perform completion auditing.

2. The method for overall process engineering consultation quality management according to claim 1, wherein the engineering consultation server determines the design terminal corresponding to the engineering project information, and sends the design requirement of the engineering project information to the design terminal, and the method comprises the following steps:

the engineering consultation server divides the engineering project information into sub-projects according to engineering construction rules to obtain a plurality of sub-project information;

the engineering consultation server determines a plurality of designers associated with each piece of sub-project information, and one designer corresponds to one or more pieces of sub-project information;

the engineering consultation server determines the design requirement and the design terminal corresponding to each designer and sends the design requirement to the design terminal of the corresponding designer.

3. The total process engineering consultative quality management method of claim 2, wherein the construction information includes construction progress data,

the engineering consultation server detects the construction information, generates detection information, and sends the detection information to the management terminal, and the method comprises the following steps:

the engineering consultation server obtains construction progress data according to the construction information, and judges whether the current construction progress is matched with a preset construction progress or not according to the construction progress data;

if the first detection information is matched with the first detection information, the engineering consultation server generates first detection information and sends the first detection information to the management terminal;

if so, the engineering consultation server generates second detection information and sends the second detection information to the management terminal, wherein the second detection information is used for representing that the current construction progress is delayed;

and if so, generating third detection information by the engineering consultation server, and sending the third detection information to the management terminal, wherein the third detection information is used for indicating that the current construction progress is advanced.

4. The method for total process engineering advisory quality management as claimed in claim 3, the method further comprising:

when the management terminal receives the second detection information, the management terminal sends a lag reason query instruction to the engineering consultation server;

the engineering consultation server acquires natural environment information or social event information, analyzes the construction influence degree of the natural environment information or the social event information, and compares the construction influence degree with the preset construction downtime degree;

if the current construction progress is larger than or equal to the natural environment information or the social event information, the engineering consultation server generates a first lag reason query result, and the first lag reason query result indicates that the current construction progress lag is caused by the natural environment information or the social event information;

and if the current construction progress is smaller than the natural environment information, the engineering consultation server generates a second lag reason query result, and the second lag reason query result indicates that the current construction progress lag is not caused by the natural environment information or the social event information.

5. The total process engineering consultative quality management method of claim 4, wherein the construction information further includes construction equipment data, construction material data and constructor data,

after the engineering consultation server generates a second hysteresis reason query result, the method further comprises the following steps:

the engineering consultation server obtains construction equipment data, construction material data and constructor data according to the construction information;

the engineering consultation server judges whether the current construction progress is delayed due to the construction equipment fault or not according to the construction equipment data;

if the current construction progress is delayed due to the construction equipment fault, the engineering consultation server generates a third delay reason query result, and the third delay reason query result indicates that the current construction progress is delayed due to the construction equipment fault;

if the current construction progress is delayed due to the fact that the construction equipment fails, the engineering consultation server judges whether the current construction progress is delayed due to construction material shortage or not according to the construction material data;

if the current construction progress is delayed due to the shortage of the construction materials, the engineering consultation server generates a fourth delay reason query result, and the fourth delay reason query result indicates that the current construction progress is delayed due to the shortage of the construction materials;

if the current construction progress is not delayed due to the shortage of the construction materials, the engineering consultation server judges whether the current construction progress is delayed due to constructors according to the constructor data;

if the current construction progress is delayed due to the constructors, the engineering consultation server generates a fifth delay reason query result, and the fifth delay reason query result indicates that the current construction progress is delayed due to the constructors;

and if the current construction progress is not delayed due to the constructors, the engineering consultation server generates a sixth delay reason query result, and the sixth delay reason query result indicates that the current construction progress is not delayed due to the construction equipment data, the construction material data and the constructor data.

6. A system for consulting quality management in a whole process project, the system comprising:

the system comprises an engineering consultation server, an audit server and a working terminal, wherein the working terminal comprises a management terminal, a design terminal and a construction terminal;

the engineering consultation server comprises an engineering establishment module, an engineering design module, an engineering bidding module, a construction detection module and an engineering completion module;

the management terminal is used for sending the project information to the project consultation server;

the project item establishing module is used for judging whether the project item information meets the project requirements, generating item establishing information if the project item information meets the project requirements, feeding the item establishing information back to the management terminal, and sending the project item information to the auditing server;

the auditing server is used for generating auditing information after the engineering project information is approved and feeding back the auditing information to the engineering consultation server;

the engineering design module is used for determining the design terminal corresponding to the engineering project information and sending the design requirement of the engineering project information to the design terminal;

the design terminal is used for sending the design information to the engineering consultation server when a designer completes the design according to the design requirement to obtain the design information;

the engineering bid inviting module is used for inviting bids of construction units according to the design information and determining bid winning construction units;

the construction terminal is used for sending construction information to the engineering consultation server when the winning construction unit carries out construction;

the construction detection module is used for detecting the construction information, generating detection information and sending the detection information to the management terminal;

and the completion engineering module is used for sending the completion engineering information to the management terminal and the auditing server after the construction of the winning construction unit is completed, so that the management terminal and the auditing server perform completion auditing.

7. The system for total process engineering advisory quality management as claimed in claim 6 wherein the engineering design module comprises:

the system comprises a sub-project dividing unit, a designer associating unit and a design terminal determining unit;

the sub-project dividing unit is used for performing sub-project division on the engineering project information according to engineering construction rules to obtain a plurality of sub-project information;

the designer associating unit is used for determining a plurality of designers associated with each piece of sub-project information, and one designer corresponds to one or more pieces of sub-project information;

the design terminal determining unit is used for determining the design requirement and the design terminal corresponding to each designer and sending the design requirement to the design terminal of the corresponding designer.

8. The system for total process engineering consulting quality management according to claim 7, wherein the construction information includes construction progress data,

the construction detection module includes: a construction progress judging unit and a detection information generating unit;

the construction progress judging unit is used for obtaining construction progress data according to the construction information and judging whether the current construction progress is matched with a preset construction progress or not according to the construction progress data;

the detection information generation unit is used for generating first detection information if the current construction progress is matched with the preset construction progress, and sending the first detection information to the management terminal;

the detection information generation unit is further configured to generate second detection information if the current construction progress is delayed from the preset construction progress, and send the second detection information to the management terminal, where the second detection information is used to indicate that the current construction progress is delayed;

the detection information generation unit is further configured to generate third detection information if the current construction progress is ahead of the preset construction progress, and send the third detection information to the management terminal, where the third detection information is used to indicate that the current construction progress is ahead.

9. The system for total process engineering consulting quality management according to claim 8, wherein the construction detection module further includes: a hysteresis cause determination unit and a result generation unit;

the management terminal is further configured to send a hysteresis reason query instruction to the engineering consultation server when the management terminal receives the second detection information;

the delay reason judging unit is used for acquiring natural environment information or social event information, analyzing the construction influence degree of the natural environment information or the social event information, and comparing the construction influence degree with the preset construction downtime degree;

the result generating unit is used for generating a first lag reason query result if the current construction progress is larger than or equal to the natural environment information or the social event information, wherein the first lag reason query result indicates that the current construction progress is lagged by the natural environment information or the social event information;

and if the current construction progress is smaller than the natural environment information, generating a second hysteresis reason query result, wherein the second hysteresis reason query result indicates that the current construction progress is not caused by the natural environment information or the social event information.

10. The system for total process engineering consulting quality management according to claim 9, wherein the construction information further includes construction equipment data, construction material data, and constructor data,

the hysteresis reason judging unit is also used for obtaining construction equipment data, construction material data and constructor data according to the construction information;

the delay reason judging unit is also used for judging whether the current construction progress is delayed due to the construction equipment fault according to the construction equipment data;

the result generation unit is further used for generating a third delay reason query result if the current construction progress is delayed due to the construction equipment fault, wherein the third delay reason query result indicates that the current construction progress is delayed due to the construction equipment fault;

the delay reason judging unit is also used for judging whether the current construction progress is delayed due to the shortage of construction materials according to the construction material data if the current construction progress is delayed due to the absence of the construction equipment fault;

the result generation unit is further used for generating a fourth lag reason inquiry result if the current construction progress is lagged due to the shortage of the construction materials, wherein the fourth lag reason inquiry result indicates that the current construction progress is lagged due to the shortage of the construction materials;

the delay reason judging unit is also used for judging whether the current construction progress is delayed due to constructors according to the constructor data if the current construction progress is not delayed due to the shortage of the construction materials;

the result generation unit is further used for generating a fifth lag reason query result if the current construction progress is lagged due to the constructors, wherein the fifth lag reason query result indicates that the current construction progress is lagged due to the constructors;

the result generating unit is further configured to, if the current construction progress is not delayed due to the constructor, generate a sixth delay reason query result by the engineering consultation server, where the sixth delay reason query result indicates that the current construction progress is not delayed due to the construction equipment data, the construction material data, and the constructor data.

Images