CN116415814A - Task risk management and control method based on three-dimensional model - Google Patents

Abstract

The invention discloses a task risk management and control method based on a three-dimensional model, which comprises the steps of constructing a platform simulation system, importing a grid-specific GIM (graphic information model) into the platform simulation system, and reading and identifying GIM model data in the platform simulation system; newly building a plurality of construction units in a platform simulation system, and binding each construction unit with a corresponding GIM model; writing a specific construction plan in a construction progress management interface in a platform simulation system, binding each construction task with a corresponding GIM model, setting execution time of the construction tasks, and marking risk grades of the construction tasks; loading a current ongoing construction unit, a construction state and a risk level through a simulation construction module in a platform simulation system; the platform simulation system is used for calling weather environment data of the construction site, monitoring weather conditions of the following days and sending early warning information according to the weather conditions. The invention can effectively manage and control the risk of the construction task and improve the safety of construction.

Description

Task risk management and control method based on three-dimensional model

Technical Field

The invention relates to the field of power transmission and transformation engineering safety, in particular to a task risk management and control method based on a three-dimensional model.

Background

In the power transmission and transformation engineering construction process, a foundation management platform is generally adopted to monitor the construction progress, but the existing foundation management platform cannot effectively control the risk of a construction task, and cannot reasonably adjust the construction plan according to future weather conditions, so that construction accidents can be possibly caused.

Disclosure of Invention

The invention aims to provide a task risk management and control method based on a three-dimensional model, aiming at the problem that the existing infrastructure management platform in the background technology cannot effectively manage and control the risk of a construction task.

In order to achieve the above purpose, the invention is realized by the following technical scheme: a task risk management and control method based on a three-dimensional model comprises the following steps:

s1, constructing a platform simulation system;

s2, the platform simulation system is in butt joint with the special three-dimensional design software of the power grid, the special GIM model of the power grid is imported into the platform simulation system through the special three-dimensional design software of the power grid, and GIM model data are read and identified in the platform simulation system;

s3, newly building a plurality of construction units in the platform simulation system, naming each construction unit, wherein the names of the construction units correspond to the names of each GIM model in the step S2; binding each construction unit with the GIM model with the corresponding name obtained in the step S2;

s4, writing a specific construction plan in a construction progress management interface in the platform simulation system, binding each construction task with a corresponding construction unit, binding each construction task with a corresponding GIM model, setting the planned starting time, the planned ending time, the actual starting time and the actual ending time of the construction tasks, and marking the risk level of each construction task;

s5, loading the current construction unit, the construction state corresponding to the construction unit and the risk level in the platform simulation system through a simulation construction module;

s6, the platform simulation system is used for calling weather environment data of the construction site, monitoring weather conditions of the following days, and pushing related early warning information, ongoing construction tasks and risk grades to construction project management staff if the weather conditions of the following days affect construction so as to facilitate adjustment of a construction plan.

In the above scheme, in step S1, a platform simulation system is built by using a PC host and an external device. Through the arrangement, construction risk management and control of the power transformation project can be performed on the PC host.

In the above scheme, in step S5, in the simulation construction module, the risk level of the ongoing construction unit is represented by the different colors of the GIM model. Through the arrangement, the risk level of the construction task can be more conveniently and intuitively known, and the corresponding safety management and control can be conveniently carried out on the construction site.

In the above scheme, the platform simulation system is a GIM digital twin infrastructure management platform.

In the above scheme, in step S6, if the temperature, wind, rain or snow in the following days affects the construction in the same day according to the weather conditions, the platform simulation system sends early warning information to the client of the construction project manager, so as to adjust the construction plan.

The invention has the positive effects that: the task risk management and control method based on the three-dimensional model adopts a platform simulation system which can be in butt joint with special software for three-dimensional design of a power grid, can load a special GIM model of the power grid, is provided with a construction unit, a construction progress management module, a simulation construction module and other modules, binds a construction task with the GIM model, can simulate a construction task and a construction state through the simulation construction module, displays the risk grade of the construction task through the GIM model corresponding to the construction task, is convenient for effectively managing and controlling the construction state and the construction risk, can be used for acquiring weather environment data of a construction site, detecting weather conditions in several days in future, and sending early warning information to construction managers to remind the construction managers to adjust the construction plan if the weather conditions in several days in future influence the construction.

Detailed Description

The technical solutions of the present invention will be clearly and completely described by means of examples, and it is obvious that the described examples are only some, but not all, examples of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The task risk management and control method based on the three-dimensional model comprises the following steps:

s1, constructing a GIM digital twin-type infrastructure management platform on a PC, and enabling the GIM digital twin-type infrastructure management platform to be connected with external equipment, wherein the external equipment can comprise various information acquisition equipment, such as equipment for acquiring weather information, information acquisition equipment for acquiring construction state information and the like.

S2, the platform simulation system is in butt joint with the special three-dimensional design software of the power grid, the special GIM model of the power grid is imported into the platform simulation system through the special three-dimensional design software of the power grid, and GIM model data are read and identified in the platform simulation system.

S3, newly building a plurality of construction units in the platform simulation system, naming each construction unit, wherein the names of the construction units correspond to the names of each GIM model in the step S2; and then binding each construction unit with the GIM model with the corresponding name acquired in the step S2.

S4, writing a specific construction plan in a construction progress management interface in the platform simulation system, binding each construction task with a corresponding construction unit, binding each construction task with a corresponding GIM model, setting the planned starting time, the planned ending time, the actual starting time and the actual ending time of the construction tasks, and marking the risk level of each construction task.

S5, loading the current construction unit, the construction state corresponding to the construction unit and the risk level in the platform simulation system through the simulation construction module.

The risk level of the ongoing construction unit can be represented by different colors of the GIM model, for example, the steel structure construction task in the construction task is three-level, and the color of the corresponding GIM model can be set to be red; the foundation treatment task has a first risk level, and the color of the corresponding GIM model can be set to be green; the water supply and drainage tasks have the risk level of two levels, and the color of the corresponding GIM model can be set to be yellow.

S6, the platform simulation system is used for calling weather environment data of the construction site, monitoring weather conditions of the following days, and pushing related early warning information, ongoing construction tasks and risk grades to construction project management staff if the weather conditions of the following days affect construction so as to facilitate adjustment of a construction plan.

For example, if the construction task for several days in the future is a steel structure construction task, and the days have moderate rain or high wind weather above level 6, the steel structure construction will be affected, the platform simulation system sends early warning information to the client of the construction project manager, so that the construction project manager can adjust the construction plan in time.

According to the task risk management and control method based on the three-dimensional model, a GIM digital twin-type infrastructure management platform is adopted, the platform can be in butt joint with special software for three-dimensional design of a power grid, the special GIM model of the power grid can be loaded, and modules such as a construction unit, a construction progress management module, a simulation construction module and the like are arranged on the GIM digital twin-type infrastructure management platform, so that a construction task and a construction state can be bound with the GIM model, the risk grade of the construction task can be simulated through the simulation construction module, and the risk grade of the construction task can be displayed through different colors of the GIM model corresponding to the construction task, effective management and control of the construction state and the construction risk are facilitated.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The task risk management and control method based on the three-dimensional model is characterized by comprising the following steps of:

s1, constructing a platform simulation system;

s2, the platform simulation system is in butt joint with the special three-dimensional design software of the power grid, the special GIM model of the power grid is imported into the platform simulation system through the special three-dimensional design software of the power grid, and GIM model data are read and identified in the platform simulation system;

s3, newly building a plurality of construction units in the platform simulation system, naming each construction unit, wherein the names of the construction units correspond to the names of each GIM model in the step S2; binding each construction unit with the GIM model with the corresponding name obtained in the step S2;

s4, writing a specific construction plan in a construction progress management interface in the platform simulation system, binding each construction task with a corresponding construction unit, binding each construction task with a corresponding GIM model, setting the planned starting time, the planned ending time, the actual starting time and the actual ending time of the construction tasks, and marking the risk level of each construction task;

s5, loading the current construction unit, the construction state corresponding to the construction unit and the risk level in the platform simulation system through a simulation construction module;

s6, the platform simulation system is used for calling weather environment data of the construction site, monitoring weather conditions of the following days, and pushing related early warning information, ongoing construction tasks and risk grades to construction project management staff if the weather conditions of the following days affect construction so as to facilitate adjustment of a construction plan.

2. The three-dimensional model-based task risk management method according to claim 1, wherein: in step S1, a platform simulation system is built by using a PC host and external equipment.

3. The three-dimensional model-based task risk management method according to claim 1, wherein: in step S5, in the simulation construction module, the risk level of the ongoing construction element is represented by the different colors of the GIM model.

4. The three-dimensional model-based task risk management method according to claim 1, wherein: the platform simulation system is a GIM digital twin infrastructure management platform.

5. The three-dimensional model-based task risk management method according to claim 1, wherein: in step S6, if the temperature, wind, rain or snow in the following days affects the construction in the same day according to the weather conditions, the platform simulation system sends early warning information to the client of the construction project manager, so as to adjust the construction plan.