CN115049306A - Overall process engineering consultation management system - Google Patents

Abstract

The invention discloses a whole-process engineering consultation management system, and relates to the technical field of engineering consultation management. The item-setting decision module is combined with the BIM and the GIS to establish an initial model; the method comprises the following steps that a reconnaissance design module carries out collaborative editing design on the basis of an initial model to obtain a project design model; the bid inviting purchasing module calls a project design model and an evaluation report to generate and issue a bid inviting file; the construction supervision module establishes a field construction model on the basis of the initial model, updates the field construction model in real time to obtain a target building model, and manages the engineering project based on a real-time management system of vision; the construction acceptance module accepts the target project; and the operation management module is used for performing operation management on the target building. Through the system, information in stages of item establishment decision, investigation and design, bid inviting and purchase, construction supervision, construction acceptance and operation management and the like can be connected in series, so that the management efficiency is improved, and the management of all elements such as cost, quality, time, safety and the like is realized.

Description

Overall process engineering consultation management system

Technical Field

The invention relates to the technical field of engineering consultation management, in particular to an overall process engineering consultation management system.

Background

At present, the whole-process engineering consultation service is an engineering consultation service which provides various relevant aspects including design and planning, relating to organization, management, economy, technology and the like for the early-stage research and decision of engineering construction projects and the whole life cycle of the implementation and operation (or called operation) of the engineering projects. The whole process engineering consultation service can adopt various organizational modes, and provides a local or overall solution for project decision, implementation and operation continuously.

In the prior art, all stages of engineering consultation in the whole process exist in a separated mode, all stages are managed by manpower respectively, and the interaction processes among personnel and between the personnel and a plurality of systems are complicated and long in time consumption, so that the management efficiency is low.

Disclosure of Invention

The present invention is directed to solve the above problems of the background art, and provides a system for consulting and managing engineering in the whole process.

The purpose of the invention can be realized by the following technical scheme:

the embodiment of the invention provides an overall process engineering consultation management system, which comprises an engineering information cloud storage server and a terminal; the engineering information cloud storage server comprises an item establishment decision-making module, a survey design module, a bid inviting and purchasing module, a construction supervision module, a construction acceptance module and an operation management module; wherein:

the terminal is used for uploading data of each stage of the full life cycle of the construction target project to the engineering information cloud storage server and inquiring information of the engineering information cloud storage server;

the item establishment decision module is used for establishing an initial model according to the field information and the surrounding environment information of the target project area by combining the BIM and the GIS;

the reconnaissance design module is used for carrying out collaborative editing design on the basis of the initial model by integrating and using BIM software to obtain a project design model, and carrying out cost and construction period estimation through the project design model to obtain an evaluation report;

the bid inviting purchasing module is used for calling the project design model and the evaluation report to generate and issue a bid inviting file and performing contract management;

the construction supervision module is used for establishing a field construction model on the basis of the initial model, updating the field construction model in real time according to the project progress, and managing the construction site, the construction scheme, the project progress and the construction cost acceptance of the project through the field construction model and the real-time management system based on vision; after the construction of the engineering project is completed, the field construction model is updated to be a target building model;

the construction acceptance module is used for accepting the target project according to the target building model;

and the operation management module is used for performing operation management on the target building according to the target building model.

Optionally, the terminal includes a management terminal, a designer terminal, a client terminal and a constructor terminal;

the management terminal is used for carrying out full life cycle management on the project establishment decision, the exploration design, the bid inviting purchase, the construction supervision, the construction acceptance and the operation management of the target project; the management terminal comprises a site environment uploading module, a supervision and audit module and a query management module;

the designer terminal is used for uploading the engineering construction drawing and the model to the engineering information cloud storage server; the designer terminal comprises an engineering design unit, an engineering drawing unit, an engineering model unit and an engineering drawing node marking unit;

the client terminal is used for assisting design and inquiring project progress and conditions; the client terminal comprises an assistant design module and a query module;

the construction side terminal is used for uploading information in the construction process to the engineering information cloud storage server; the construction side terminal comprises an engineering personnel module, an engineering progress module, an engineering query management module and an engineering material module; the engineering personnel module comprises a personnel information storage unit, a post and personnel matching unit and a management relationship display unit; the project progress module comprises a work daily report unit and a daily report uploading unit; the engineering material module comprises an engineering material purchasing unit, a material daily consumption uploading unit, an engineering equipment repair reporting unit and an engineering equipment damage reporting unit.

Optionally, the survey design module comprises a collaborative design module;

and the collaborative design module is used for providing a collaborative design interface for the terminal so that multiple designers and clients carry out collaborative design on the target project to obtain a project design model.

Optionally, the collaborative design module is specifically configured to determine a functional module included in the target project according to a customer requirement, as a building element, provide a first collaborative design interface to the terminal of each designer according to the building element, and provide a second collaborative design interface to the terminal of the customer; the first co-design interface is used for creating various building element models; the second co-design interface is used for adjusting various building element models within a preset range.

Optionally, the reconnaissance design module comprises a cost schedule estimation module; the cost construction period estimation module comprises a building semantic model, a cost construction period database, a building component extraction unit, a cost estimation unit and a construction period estimation unit; the building semantic model defines the hierarchical structure contained in the building, the type of building components and design information thereof;

the building component extracting unit is used for calling the building semantic model to extract each building component and design information thereof in the project design model, and matching the installation time and building materials in a cost construction period database according to the building components and the design information thereof to obtain an installation time list and a building material list; the cost construction period database comprises installation time of each building component and cost data of each building material;

the construction period estimation unit is used for estimating the construction period according to the installation time list;

the cost estimation unit is used for estimating cost according to the building bill of materials.

Optionally, the construction supervision module comprises a safety monitoring module; the terminal comprises a safety helmet with a camera shooting function; the safety monitoring module comprises a positioning unit, a static danger monitoring unit, a dynamic danger monitoring unit and an alarm unit;

the positioning unit is used for acquiring image data which is transmitted by the terminal and records a first-person visual angle of a construction worker moving in a construction site, and positioning the current position of the terminal in the site construction model according to the image data;

the static danger monitoring unit is used for judging whether a static danger exists in the current position according to a pre-marked danger position; the hazard source of the static hazard comprises at least one of a distribution box, a large-scale device and a material storage area;

the dynamic danger monitoring unit is used for judging whether a dynamic danger exists in the current position according to the image data; the hazard source of the dynamic hazard comprises at least one of a running vehicle, a cutting and welding device, a cable and an external leakage steel bar;

and the alarm unit is used for giving an alarm to the terminal when the static danger and/or the dynamic danger exist.

Optionally, the positioning unit is specifically configured to extract a current directional fast rotation briefing ORB of the image data, obtain an ORB vocabulary of the field construction model, perform feature matching in the ORB vocabulary by using the current ORB, and determine the current position of the terminal; the ORB vocabulary records historical ORB features extracted from an image captured at a job site and the location of acquisition of the image.

Optionally, the static risk monitoring unit is specifically configured to convert a dangerous position marked in advance in the site construction model and coordinates of the current position into a real world coordinate system, calculate an euclidean distance between the current position and the dangerous position marked in advance, and determine that a static risk exists if the euclidean distance is smaller than a preset threshold.

Optionally, the dynamic risk monitoring unit is specifically configured to identify an object included in the image data, and determine that a dynamic risk exists if a risk source of the dynamic risk is included.

The embodiment of the invention provides an overall process engineering consultation management system, which comprises an engineering information cloud storage server and a terminal; the engineering information cloud storage server comprises an item establishment decision module, a survey design module, a bid inviting and purchasing module, a construction supervision module, a construction acceptance module and an operation management module; wherein: the terminal is used for uploading data of each stage of the full life cycle of the construction target project to the engineering information cloud storage server and inquiring information of the engineering information cloud storage server; the item decision-making module is used for establishing an initial model according to the field information and the surrounding environment information of the target project area by combining the BIM and the GIS; the reconnaissance design module is used for carrying out collaborative editing design on the basis of the initial model by integrating and using BIM software to obtain a project design model, and carrying out cost and construction period estimation through the project design model to obtain an evaluation report; the bid inviting purchasing module is used for calling the project design model and the evaluation report to generate and issue a bid inviting file and performing contract management; the construction supervision module is used for establishing a field construction model on the basis of the initial model, updating the field construction model in real time according to the project progress, and managing the construction site, the construction scheme, the project progress and the construction cost acceptance of the project through the field construction model and the vision-based real-time management system; after the construction of the engineering project is completed, the site construction model is updated to a target building model; the construction acceptance module is used for accepting the target project according to the target building model; and the operation management module is used for performing operation management on the target building according to the target building model. By combining the BIM and the GIS, the system provides an information management means for the whole-process engineering consultation management service, can serially connect information in stages of item establishment decision, investigation design, bid inviting purchase, construction supervision, construction acceptance and operation management and the like, improves the management efficiency, and realizes the whole-element management of cost, quality, time, safety and the like.

Drawings

The invention will be further described with reference to the accompanying drawings.

Fig. 1 is a system block diagram of an overall process engineering consulting management system according to an embodiment of the present invention.

Detailed Description

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

The embodiment of the invention provides an engineering consultation management system in the whole process. Referring to fig. 1, fig. 1 is a system block diagram of an overall process engineering consultation management system according to an embodiment of the present invention, where the system includes an engineering information cloud storage server and a terminal; the engineering information cloud storage server comprises an item establishment decision module, a survey design module, a bid inviting and purchasing module, a construction supervision module, a construction acceptance module and an operation management module; wherein:

the terminal is used for uploading data of each stage of the full life cycle of the construction target project to the engineering information cloud storage server and inquiring information of the engineering information cloud storage server;

the item establishment decision module is used for establishing an initial model according to the field information and the surrounding environment information of the target project area by combining the BIM and the GIS;

the reconnaissance design module is used for carrying out collaborative editing design on the basis of the initial model by integrating and using BIM software to obtain a project design model, and carrying out cost and construction period estimation through the project design model to obtain an evaluation report;

the bid inviting purchasing module is used for calling the project design model and the evaluation report to generate and issue a bid inviting file and performing contract management;

the construction supervision module is used for establishing a field construction model on the basis of the initial model, updating the field construction model in real time according to the project progress, and managing the construction site, the construction scheme, the project progress and the construction cost acceptance of the project through the field construction model and the real-time management system based on vision; after the construction of the engineering project is completed, the field construction model is updated to be a target building model;

the construction acceptance module is used for accepting the target project according to the target building model;

and the operation management module is used for performing operation management on the target building according to the target building model.

The embodiment of the invention provides an overall process engineering consultation management system, which provides an information management means for overall process engineering consultation management service by combining a BIM (building information modeling) system and a GIS (geographic information system), can serially connect information in stages of item establishment decision, investigation design, bid procurement, construction supervision, construction acceptance and operation management and the like, improves the management efficiency, and realizes overall element management of cost, quality, time, safety and the like.

In one implementation, the full process engineering advisory management system may employ a C/S (Client/Server, Client and Server) architecture, or may employ a B/S (Browser/Server, Browser and Server) architecture.

In one implementation, terminals of different users may have different permissions to implement different functions.

In one implementation, the engineering consulting company may use the project decision module to perform site analysis, planning and design, project selection, and building index adjustment of the target project area.

In one embodiment, the terminals include a management terminal, a designer terminal, a client terminal, and a constructor terminal;

the management terminal is used for carrying out full-life-cycle management on project establishment decision, survey design, tender purchase, construction supervision, construction acceptance and operation management of a target project; the management terminal comprises a site environment uploading module, a supervision and audit module and a query management module;

the designer terminal is used for uploading the engineering construction drawing and the model to the engineering information cloud storage server; the designer terminal comprises an engineering design unit, an engineering drawing unit, an engineering model unit and an engineering drawing node marking unit;

the client terminal is used for assisting design and inquiring the progress and condition of the project; the client terminal comprises an assistant design module and a query module;

the construction side terminal is used for uploading information in the construction process to the engineering information cloud storage server; the construction side terminal comprises an engineering personnel module, an engineering progress module, an engineering query management module and an engineering material module; the engineering personnel module comprises a personnel information storage unit, a post and personnel matching unit and a management relationship display unit; the project progress module comprises a work daily report unit and a daily report uploading unit; the engineering material module comprises an engineering material purchasing unit, a material daily consumption uploading unit, an engineering equipment repair reporting unit and an engineering equipment damage reporting unit.

In one embodiment, the survey design module comprises a collaborative design module;

and the collaborative design module is used for providing a collaborative design interface for the terminal so that multiple designers and clients carry out collaborative design on the target project to obtain a project design model.

In one implementation, the collaborative design module can realize that a designer and a client carry out collaborative design on a target project, establish direct contact between a design process and the client, improve the communication efficiency of the design process, and reduce potential reworking in the fields of manufacturing, assembling and construction.

In an embodiment, the collaborative design module is specifically configured to determine a function module included in the target project according to a customer requirement, as a building element, provide a first collaborative design interface to the terminal of each designer according to the building element, and provide a second collaborative design interface to the terminal of the customer; the first co-design interface is used for creating various building element models; the second co-design interface is used for adjusting various building element models within a preset range.

In one implementation, a designer may design a building element model of a building element via a first co-design interface, which may include a plurality of selectable forms and sizes. The customer may select the form and size of the architectural element model through the second co-design interface. Enabling the customer to participate in the configuration of the building within a controlled range allows the customer to select among the provided building element models.

In one embodiment, the reconnaissance design module comprises a cost schedule estimation module; the cost construction period estimation module comprises a building semantic model, a cost construction period database, a building component extraction unit, a cost estimation unit and a construction period estimation unit; the building semantic model defines the hierarchical structure contained in the building, the type of building components and design information thereof;

the building component extracting unit is used for calling the building semantic model to extract each building component and design information thereof in the project design model, and matching the installation time and building materials in a cost construction period database according to the building components and the design information thereof to obtain an installation time list and a building material list; the cost construction period database comprises installation time of each building component and cost data of each building material;

the construction period estimation unit is used for estimating the construction period according to the installation time list;

the cost estimation unit is used for estimating cost according to the building bill of materials.

In one implementation, the project design model is split into a plurality of building components through the building semantic model, the cost and the construction period of all the building components are estimated, and the cost and the construction period of the project design model can be obtained through summation.

In one embodiment, the construction supervision module comprises a safety monitoring module; the terminal comprises a safety helmet with a camera shooting function; the safety monitoring module comprises a positioning unit, a static danger monitoring unit, a dynamic danger monitoring unit and an alarm unit;

the positioning unit is used for acquiring image data which is transmitted by the terminal and records a first-person visual angle of a construction worker moving in a construction site, and positioning the current position of the terminal in the site construction model according to the image data;

the static danger monitoring unit is used for judging whether a static danger exists in the current position according to a pre-marked danger position; the hazard source of the static hazard comprises at least one of a distribution box, a large-scale device and a material storage area;

the dynamic danger monitoring unit is used for judging whether a dynamic danger exists in the current position according to the image data; the hazard source of the dynamic hazard comprises at least one of a running vehicle, a cutting and welding device, a cable and an external leakage steel bar;

and the alarm unit is used for giving an alarm to the terminal when the static danger and/or the dynamic danger exist.

In an embodiment, the positioning unit is specifically configured to extract a current directional fast rotation bulletin ORB of the image data, obtain an ORB vocabulary of the field construction model, perform feature matching in the ORB vocabulary using the current ORB, and determine the current location of the terminal; the ORB vocabulary records historical ORB features extracted from an image captured at a job site and the location of acquisition of the image.

In an embodiment, the static risk monitoring unit is specifically configured to convert coordinates of a pre-marked dangerous position and the current position in the site construction model into a real world coordinate system, calculate an euclidean distance between the current position and the pre-marked dangerous position, and determine that a static risk exists if the euclidean distance is smaller than a preset threshold.

In one implementation, the preset threshold may be set by a technician according to experience, and is not limited herein.

In an embodiment, the dynamic risk monitoring unit is specifically configured to identify an object included in the image data, and determine that a dynamic risk exists if a risk source of the dynamic risk is included.

While one embodiment of the present invention has been described in detail, the description is only a preferred embodiment of the present invention and should not be taken as limiting the scope of the invention. All equivalent changes and modifications made within the scope of the present invention shall fall within the scope of the present invention.

Claims (9)

1. A whole-process engineering consultation management system is characterized by comprising an engineering information cloud storage server and a terminal; the engineering information cloud storage server comprises an item establishment decision-making module, a survey design module, a bid inviting and purchasing module, a construction supervision module, a construction acceptance module and an operation management module; wherein:

the terminal is used for uploading data of each stage of the full life cycle of the construction target project to the engineering information cloud storage server and inquiring information of the engineering information cloud storage server;

the item establishment decision module is used for establishing an initial model according to the field information and the surrounding environment information of the target project area by combining the BIM and the GIS;

the reconnaissance design module is used for carrying out collaborative editing design on the basis of the initial model by integrating and using BIM software to obtain a project design model, and carrying out cost and construction period estimation through the project design model to obtain an evaluation report;

the bid inviting purchasing module is used for calling the project design model and the evaluation report to generate and issue a bid inviting file and performing contract management;

the construction supervision module is used for establishing a field construction model on the basis of the initial model, updating the field construction model in real time according to the project progress, and managing the construction site, the construction scheme, the project progress and the construction cost acceptance of the project through the field construction model and the real-time management system based on vision; after the construction of the engineering project is completed, the field construction model is updated to be a target building model;

the construction acceptance module is used for accepting the target project according to the target building model;

and the operation management module is used for performing operation management on the target building according to the target building model.

2. The system for consulting and managing the whole process engineering according to claim 1, wherein the terminals include a management terminal, a designer terminal, a client terminal and a constructor terminal;

the management terminal is used for carrying out full-life-cycle management on project establishment decision, survey design, tender purchase, construction supervision, construction acceptance and operation management of a target project; the management terminal comprises a site environment uploading module, a supervision and audit module and a query management module;

the designer terminal is used for uploading the engineering construction drawing and the model to the engineering information cloud storage server; the designer terminal comprises an engineering design unit, an engineering drawing unit, an engineering model unit and an engineering drawing node marking unit;

the client terminal is used for assisting design and inquiring project progress and conditions; the client terminal comprises an assistant design module and a query module;

the construction side terminal is used for uploading information in the construction process to the engineering information cloud storage server; the construction side terminal comprises an engineering personnel module, an engineering progress module, an engineering query management module and an engineering material module; the engineering personnel module comprises a personnel information storage unit, a post and personnel matching unit and a management relationship display unit; the project progress module comprises a work daily report unit and a daily report uploading unit; the engineering material module comprises an engineering material purchasing unit, a material daily consumption uploading unit, an engineering equipment repair reporting unit and an engineering equipment damage reporting unit.

3. The system for total process engineering consulting management of claim 1, wherein the survey design module includes a collaborative design module;

and the collaborative design module is used for providing a collaborative design interface for the terminal so that multiple designers and clients carry out collaborative design on the target project to obtain a project design model.

4. The system for consulting and managing engineering in whole process according to claim 3, wherein the collaborative design module is specifically configured to determine a functional module included in the target project according to a requirement of a client, as a building element, provide a first collaborative design interface to the terminal of each designer according to the building element, and provide a second collaborative design interface to the terminal of the client; the first co-design interface is used for creating various building element models; the second co-design interface is used for adjusting various building element models within a preset range.

5. The system for total process engineering advisory management of claim 1 wherein the survey design module comprises a cost schedule estimation module; the cost construction period estimation module comprises a building semantic model, a cost construction period database, a building component extraction unit, a cost estimation unit and a construction period estimation unit; the building semantic model defines the hierarchical structure contained in the building, the type of building components and design information thereof;

the building component extracting unit is used for calling the building semantic model to extract each building component and design information thereof in the project design model, and matching the installation time and building materials in a cost construction period database according to the building components and the design information thereof to obtain an installation time list and a building material list; the cost construction period database comprises installation time of each building component and cost data of each building material;

the construction period estimation unit is used for estimating the construction period according to the installation time list;

the cost estimation unit is used for estimating cost according to the building bill of materials.

6. The system for consulting and managing the whole process engineering according to claim 1, wherein the construction supervision module includes a safety monitoring module; the terminal comprises a safety helmet with a camera shooting function; the safety monitoring module comprises a positioning unit, a static danger monitoring unit, a dynamic danger monitoring unit and an alarm unit;

the positioning unit is used for acquiring image data which is transmitted by the terminal and records a first-person visual angle of a construction worker moving in a construction site, and positioning the current position of the terminal in the site construction model according to the image data;

the static danger monitoring unit is used for judging whether a static danger exists in the current position according to a pre-marked danger position; the danger source of the static danger comprises at least one of a distribution box, large-scale equipment and a material storage area;

the dynamic danger monitoring unit is used for judging whether a dynamic danger exists in the current position according to the image data; the hazard source of the dynamic hazard comprises at least one of a running vehicle, a cutting and welding device, a cable and an external leakage steel bar;

and the alarm unit is used for giving an alarm to the terminal when the static danger and/or the dynamic danger exist.

7. The system as claimed in claim 6, wherein the positioning unit is specifically configured to extract a current directional quick rotation bulletin ORB of the image data, obtain an ORB vocabulary of the on-site construction model, perform feature matching in the ORB vocabulary using the current ORB, and determine the current location of the terminal; the ORB vocabulary records historical ORB features extracted from an image captured at a job site and the location of acquisition of the image.

8. The system according to claim 6, wherein the static risk monitoring unit is specifically configured to convert coordinates of a pre-marked dangerous position and the current position in the site construction model into a real-world coordinate system, calculate an Euclidean distance between the current position and the pre-marked dangerous position, and determine that a static risk exists if the Euclidean distance is smaller than a preset threshold.

9. The system as claimed in claim 6, wherein the dynamic risk monitoring unit is configured to identify an object included in the image data, and determine that a dynamic risk exists if a risk source of the dynamic risk is included.

Images