CN114757593A

CN114757593A - Operation and maintenance management method and system for building group infrastructure

Info

Publication number: CN114757593A
Application number: CN202210670656.9A
Authority: CN
Inventors: 刘春凤; 平晓林; 何国苗; 孟祚
Original assignee: Beijing Beitou Smart City Technology Co ltd
Current assignee: Beijing Beitou Smart City Technology Co ltd
Priority date: 2022-06-15
Filing date: 2022-06-15
Publication date: 2022-07-15
Anticipated expiration: 2042-06-15
Also published as: CN114757593B

Abstract

The invention provides an operation and maintenance management method and system of a building group infrastructure, which relate to the technical field of operation and maintenance management, and are characterized in that data acquisition calling parameters are configured by analyzing information of preset building components, and each sensor in a data acquisition fitting device is matched and called according to the data acquisition calling parameters to acquire and output component modeling data; inputting component modeling data into the BIM modeling system to output a building group operation and maintenance model; and connecting the building group operation and maintenance model to the equipment operation and maintenance module, displaying and converting the equipment operation and maintenance module on a visual platform, and performing visual operation and maintenance management according to a plurality of visual controls. The technical problems that due to the fact that timeliness and accuracy of operation and maintenance management are poor, basic setting management is not in place, and using effects and service life are affected are solved. The technical effects that the management of the infrastructure is converted into visual management, the running states of the infrastructure and the equipment can be known in time, and the operation and maintenance management states are known, so that the operation and maintenance management efficiency is improved are achieved.

Description

Operation and maintenance management method and system for building group infrastructure

Technical Field

The invention relates to the technical field of operation and maintenance management, in particular to an operation and maintenance management method and system for building group infrastructure.

Background

Along with city construction's development for the life demand of more laminating people, the infrastructure project is along with perfect and development, and infrastructure including municipal construction provides convenient for people live, simultaneously for promoting district environment and people's civilian breath, also can carry out the construction that the community basis set up in the construction of district building to promote resident comfort level and convenience of resident family. It should be understood that the infrastructure is a public engineering facility, a public life service facility and the like, and is a basis for the development of various causes of national economy, including transportation, post and telecommunications, water and power supply, commercial service, scientific research and technical service, landscaping, environmental protection, cultural education, health care and the like. In a public service area, because the used population is complex and the utilization rate is high, the daily operation and maintenance management of the public service area is particularly important, and whether infrastructure normally operates or not and the service life of the infrastructure are concerned.

In general, the operation and maintenance management of the infrastructure utilizes full-time staff to perform daily maintenance, and mainly depends on field manual work to check the current situation of the public facilities and perform corresponding maintenance processing on the facilities.

Disclosure of Invention

In order to solve the problems, the application provides an operation and maintenance management method and system for infrastructure of a building group, and solves the technical problems that in the prior art, due to the fact that timeliness and accuracy of operation and maintenance management of the infrastructure are poor, foundation setting management is not in place, and using effects and service life are affected. The management of the infrastructure is converted into visual control management, the running state and the operation and maintenance management state of the infrastructure and the equipment can be known in time, abnormal equipment can be found and tracked in time, management means are adopted rapidly, the plan maintenance scheme is updated and managed by the equipment, the operation and maintenance information is efficient and accurate, and the operation and maintenance management efficiency is improved.

In view of the above problems, the present application provides an operation and maintenance management method and system for building group infrastructure.

In one aspect, the application provides an operation and maintenance management method for building group infrastructure, the method is applied to a visual management system for building group infrastructure, the system is in communication connection with a BIM modeling system, a data acquisition fitting device and an equipment operation and maintenance module, and the method comprises the following steps: acquiring information of preset building components of a building group infrastructure; analyzing the information of the preset building component, configuring data acquisition calling parameters, carrying out matching calling acquisition on each sensor in the data acquisition and simulation device according to the data acquisition calling parameters, and outputting component modeling data; inputting the component modeling data into the BIM modeling system, modeling the building group infrastructure according to the BIM modeling system, and outputting a building group operation and maintenance model; connecting the building group operation and maintenance model to the equipment operation and maintenance module, wherein the equipment operation and maintenance module comprises an information management module, a data monitoring module, an equipment positioning module and a plan maintenance module, and each sub-module in the equipment operation and maintenance module carries out data interaction; displaying and converting the equipment operation and maintenance module on a visualization platform, wherein the visualization platform comprises a plurality of visualization controls; and carrying out visual operation and maintenance management on the building group infrastructure according to the plurality of visual controls.

Preferably, the method further comprises: obtaining building wiring information of the building group infrastructure; based on the building wiring information, performing wiring connection relation analysis on the information of the preset building components to obtain the ring topology relation of each building; acquiring a building wiring point center according to the ring topology relationship, wherein the building wiring point center is a building reaching a preset wiring density; and identifying the building equipment in the center of the building wiring point as key operation and maintenance equipment.

Preferably, the building wiring point center is obtained according to the ring topology relationship, and the method further includes: acquiring cable connection points corresponding to each building according to the ring topology relation, wherein the cable connection points comprise starting connection points and terminal connection points; carrying out wiring density weight calculation on each node in the ring topology relation according to the number of the initial connection points and the terminal connection points, and outputting a wiring density calculation result, wherein the configuration weight of the initial connection points is more than or equal to that of the terminal connection points; and comparing the wiring density calculation result with the preset wiring density, and outputting the building wiring point center.

Preferably, the system further includes an operation and maintenance logging module, and the method further includes: connecting an operation and maintenance log recording module to the equipment operation and maintenance module, and recording a multi-source data set in the equipment operation and maintenance module according to the operation and maintenance log recording module to generate an operation and maintenance record data set; performing operation and maintenance characteristic analysis according to the operation and maintenance record data set, and outputting operation and maintenance plan characteristic data; carrying out data offline loading according to the operation and maintenance plan feature data, and storing the data into an offline cloud storage space; and carrying out visual offline operation and maintenance management on the building group infrastructure based on the offline cloud storage space.

Preferably, the method further comprises: acquiring environment resource information for performing visual operation and maintenance management on the building group infrastructure, wherein the environment resource information comprises hardware resource information and software resource information; aiming at the environment resource information, outputting a data processor resource environment and a data memory resource environment for data processing and data storage; according to the data processor resource environment and the data memory resource environment as constraint variables, the operation and maintenance record data set is used as an input variable, and a cloud storage response objective function is built; and outputting an operation and maintenance record quantization coefficient according to the cloud storage response objective function, wherein the operation and maintenance record quantization coefficient is the size of critical data volume for cloud storage calling.

Preferably, the building group operation and maintenance model is connected to the equipment operation and maintenance module, where the equipment operation and maintenance module includes an information management module, a data monitoring module, an equipment positioning module, and a plan maintenance module, where each sub-module in the equipment operation and maintenance module interacts with data, and the method further includes: acquiring loop interaction information of the equipment operation and maintenance module, wherein the loop interaction information is loop feedback information formed by connecting the information management module, the data monitoring module, the equipment positioning module and the plan maintenance module; and forming an information updating coefficient through the loop interaction information, evaluating the operation and maintenance effect of the operation and maintenance visual management according to the information updating coefficient, and outputting an operation and maintenance decision effect.

Preferably, the method further comprises: acquiring building scale information and building layer information of the building group infrastructure; performing visualized area analysis according to the building scale information and the building layer information, and outputting an operation and maintenance area for visualized operation and maintenance management; analyzing the operation and maintenance loss according to the operation and maintenance area to generate an operation and maintenance computing power requirement; and performing parameter configuration on the computer resources of the visual operation and maintenance management according to the operation and maintenance computing power requirement.

In another aspect, the present application provides an operation and maintenance management system for a building complex infrastructure, the system including: the system comprises: the information acquisition module is used for acquiring information of preset building components of the building group infrastructure; the data processing module is connected with the information acquisition module and used for analyzing the information of the preset building component, configuring data acquisition calling parameters, matching, calling and acquiring each sensor in the data acquisition and simulation device according to the data acquisition calling parameters and outputting component modeling data; the model building module is used for inputting the component modeling data into the BIM modeling system, modeling the building group infrastructure according to the BIM modeling system, and outputting a building group operation and maintenance model; the equipment operation and maintenance module is connected with the model construction module and is used for connecting the building group operation and maintenance model to the equipment operation and maintenance module, wherein the equipment operation and maintenance module comprises an information management module, a data monitoring module, an equipment positioning module and a plan maintenance module, and data interaction is performed on each sub-module in the equipment operation and maintenance module; the visualization conversion module is used for displaying and converting the equipment operation and maintenance module on a visualization platform, wherein the visualization platform comprises a plurality of visualization controls; and the operation and maintenance management module is used for performing visual operation and maintenance management on the building group infrastructure according to the plurality of visual controls.

Preferably, the information acquisition module includes a wiring acquisition unit, and the wiring acquisition unit is configured to acquire building wiring information of the building group infrastructure; the data processing module comprises a topological relation analysis unit, and the topological relation analysis unit is used for analyzing the wiring connection relation of the information of the preset building components based on the building wiring information to obtain the ring topological relation of each building; the wiring point center determining unit is used for acquiring a building wiring point center according to the ring topology relation, wherein the building wiring point center is a building reaching a preset wiring density; and the operation and maintenance equipment identification unit is used for identifying the building equipment in the building wiring point center as key operation and maintenance equipment.

The technical scheme provided in the application at least has the following technical effects:

the application provides an operation and maintenance management method and system for building group infrastructure, which comprises the steps of acquiring information of preset building components of the building group infrastructure; analyzing the information of the preset building component, configuring data acquisition calling parameters, carrying out matching calling acquisition on each sensor in the data acquisition and simulation device according to the data acquisition calling parameters, and outputting component modeling data; inputting the component modeling data into the BIM modeling system, modeling the building group infrastructure according to the BIM modeling system, and outputting a building group operation and maintenance model; connecting the building group operation and maintenance model to the equipment operation and maintenance module, wherein the equipment operation and maintenance module comprises an information management module, a data monitoring module, an equipment positioning module and a plan maintenance module, and each sub-module in the equipment operation and maintenance module carries out data interaction; the functions of each corresponding module in the equipment operation and maintenance module are displayed and converted through a visual platform, the information collected by basic equipment is subjected to data visual conversion through the equipment operation and maintenance module, the functions are converted into visual controls through the functional partitions corresponding to the sub-modules, the visual controls are used for executing the functions of corresponding collection, control, positioning, operation and maintenance management, for example, a visual management interface is set for the functions of each partition, the visual management interface is clicked to click the picture of the function through the corresponding visual controls, the current collected data, history records, operation options and the like of each module are mastered, and corresponding operation and information extraction are carried out. The management of the infrastructure is converted into visual control management, the running state and the operation and maintenance management state of the infrastructure and the equipment can be known in time, abnormal equipment is found and tracked in time and effectively, management means are adopted rapidly, the plan maintenance scheme is updated and managed by the infrastructure, the high efficiency and the accuracy of the operation and maintenance information are ensured, and the technical effect of the operation and maintenance management efficiency is improved. The method solves the technical problems that in the prior art, the operation and maintenance management of the infrastructure is poor in timeliness and accuracy, so that the foundation setting management is not in place, and the use effect and the service life are affected.

Drawings

Fig. 1 is a schematic flowchart of an operation and maintenance management method for a building group infrastructure according to an embodiment of the present application;

FIG. 2 is a schematic flow chart illustrating another method for operation and maintenance management of infrastructure of a building complex according to an embodiment of the present disclosure;

FIG. 3 is a schematic flow chart illustrating another method for operation and maintenance management of infrastructure of a building complex according to an embodiment of the present disclosure;

FIG. 4 is a schematic flow chart illustrating another method for operation and maintenance management of infrastructure of a building complex according to an embodiment of the present disclosure;

fig. 5 is a schematic structural diagram of an operation and maintenance management system for a building complex infrastructure according to an embodiment of the present application.

Detailed Description

The application provides an operation and maintenance management method and system for infrastructure of a building group, and aims to solve the technical problems that in the prior art, due to the fact that timeliness and accuracy of operation and maintenance management of infrastructure are poor, foundation setting management is not in place, and using effects and service life are affected.

The following detailed description of the invention is made with reference to specific examples.

Example one

As shown in fig. 1, an embodiment of the present application provides an operation and maintenance management method for building group infrastructure, where the method is applied to a visualization management system for building group infrastructure, the system is in communication connection with a BIM modeling system, a data acquisition fitting device, and an equipment operation and maintenance module, and the method includes:

S1: information of preset building components of a building group infrastructure is obtained.

S2: and analyzing the information of the preset building component, configuring data acquisition calling parameters, carrying out matching calling acquisition on each sensor in the data acquisition and simulation device according to the data acquisition calling parameters, and outputting component modeling data.

Specifically, the building component information is collected and extracted from the infrastructure constructed by the building group, and the information of the preset building components is the components of the building, such as floors, walls, columns, etc., although the building components are not limited to the functions and structures of different infrastructures. The structure, material, function, equipment model, etc. of the infrastructure can be grasped using the information of the preset building components.

The method comprises the steps of analyzing information and determining which parameters are needed for realizing restoration of the components based on the composition and specific information of the preset building components, acquiring and calling the data, namely the parameter information needed for describing the building components, and displaying the parameters such as the shape, the size, the position, the connection relation or the function of the preset building components through the parameters. If parameters such as material, structure, size, quantity, distribution position and the like are needed for the column to restore the column, the determined data acquisition calling parameters are used for acquiring data of one sensor, the determined data acquisition calling parameters are matched with the acquisition parameters of the sensors to find out the needed parameter requirements, the sensors are set for data acquisition sensing, the data acquisition fitting device is connected with the sensors, the data monitored by the sensors are received to fit all the data according to the setting information, the position information, the size information, the proportion information and the like of the preset building components, namely, the data with relevance are integrated and connected according to the relationship of the components of the infrastructure, and the data relationship of the preset building components is restored to be used as component modeling data.

S3: and inputting the component modeling data into the BIM modeling system, modeling the building group infrastructure according to the BIM modeling system, and outputting a building group operation and maintenance model.

Specifically, the building information base is a building engineering information base which is complete and consistent with the actual situation and is provided for a virtual building engineering three-dimensional model through building the BIM technology and utilizing the digitization technology. The infrastructure is visually restored through the building group operation and maintenance model, and the structure, the state and the data information of the infrastructure can be accurately analyzed.

S4: and connecting the building group operation and maintenance model to the equipment operation and maintenance module, wherein the equipment operation and maintenance module comprises an information management module, a data monitoring module, an equipment positioning module and a plan maintenance module, and each sub-module in the equipment operation and maintenance module performs data interaction.

Further, the building group operation and maintenance model is connected to the equipment operation and maintenance module, where the equipment operation and maintenance module includes an information management module, a data monitoring module, an equipment positioning module, and a plan maintenance module, where data interaction is performed between sub-modules in the equipment operation and maintenance module, and S4 includes: s401: acquiring loop interaction information of the equipment operation and maintenance module, wherein the loop interaction information is loop feedback information formed by connecting the information management module, the data monitoring module, the equipment positioning module and the plan maintenance module; s402: and forming an information updating coefficient through the loop interaction information, evaluating the operation and maintenance effect of the operation and maintenance visual management according to the information updating coefficient, and outputting an operation and maintenance decision effect.

Specifically, the equipment operation and maintenance module is used for monitoring data and analyzing and early warning the running state of infrastructure and equipment, wherein the equipment operation and maintenance module comprises an information management module for implementing the foundation and collecting and managing the running parameters of the foundation equipment, the data monitoring module is used for analyzing the received collected data to determine whether the data are normal or not, when the data are abnormal, the equipment positioning module is used for positioning the abnormal foundation equipment, the positioning information is sent to the plan maintenance module for maintaining and adjusting the abnormal foundation equipment, an information loop is formed by data transmission of the information management module, the data monitoring module, the equipment positioning module and the plan maintenance module, and the foundation equipment is effectively managed. The building group operation and maintenance model is connected to the equipment operation and maintenance module, the building group operation and maintenance model is updated according to the loop information obtained by the equipment operation and maintenance module, the information updating coefficient is determined based on the information quantity of the information updating, the more the information updating, the larger the information updating coefficient, the better the operation and maintenance effect is indicated, and the operation and maintenance effect is evaluated based on the information updating coefficient.

S5: and displaying and converting the equipment operation and maintenance module on a visualization platform, wherein the visualization platform comprises a plurality of visualization controls.

S6: and carrying out visual operation and maintenance management on the building group infrastructure according to the plurality of visual controls.

Specifically, the functions of each corresponding module in the equipment operation and maintenance module are displayed and converted through a visualization platform, the information acquired by the basic equipment is subjected to data visualization conversion through the equipment operation and maintenance module, the information is converted into a visualization control through the function partition corresponding to each sub-module, the visualization control is utilized to execute the corresponding functions of acquisition, control, positioning, operation and maintenance management and the like, the visualization control corresponds to the basic equipment of the operation and maintenance and comprises a plurality of controls, and simultaneously, the visualization control is associated with the information management module, the data monitoring module, the equipment positioning module and the plan maintenance module, the function visualization conversion operation corresponding to each function module can be realized, for example, a visualization management interface is arranged for the function of each partition, and the function of the visualization management interface is clicked to perform click operation on the picture of the function through the visualization of the corresponding control, and (4) mastering the current acquired data, historical records, operation options and the like of each module, and carrying out corresponding operation and information extraction. The management of the infrastructure is converted into visual control management, the running state and the operation and maintenance management state of the infrastructure and the equipment can be known in time, abnormal equipment is found and tracked in time and effectively, management means are adopted rapidly, the plan maintenance scheme is updated and managed by the infrastructure, the high efficiency and the accuracy of the operation and maintenance information are ensured, and the technical effect of the operation and maintenance management efficiency is improved. Therefore, the technical problems that in the prior art, the operation and maintenance management of the infrastructure is poor in timeliness and accuracy, and the foundation setting management is not in place, so that the use effect is affected and the service life is prolonged are solved.

Further, as shown in fig. 2, the method further includes: s7, acquiring the building wiring information of the building group infrastructure; s8, based on the building wiring information, carrying out wiring connection relation analysis on the information of the preset building components to obtain the ring topology relation of each building; s9, acquiring building wiring point centers according to the ring topology relation, wherein the building wiring point centers are buildings reaching preset wiring density; and S10, identifying the building equipment in the center of the building wiring point as key operation and maintenance equipment.

Further, the obtaining a building wiring point center according to the ring topology relationship, S9 further includes: s901, obtaining cable connection points corresponding to each building according to the ring topology relation, wherein the cable connection points comprise initial connection points and terminal connection points; s902, calculating the wiring density weight of each node in the ring topology relation according to the number of the initial contact and the terminal contact, and outputting the wiring density calculation result, wherein the configuration weight of the initial contact is more than or equal to the configuration weight of the terminal contact; and S903 is used for comparing the wiring density calculation result with the preset wiring density and outputting the building wiring point center.

Specifically, building communication lines are laid among buildings in a building group according to communication requirements, building wiring information is building wiring information among the buildings and infrastructure, wiring connection relations of preset building components are analyzed by the building wiring information, ring topology relations are described, wiring relations of the infrastructure of the building group can be intuitively grasped, the buildings and the infrastructure are connected by wiring, wiring intersection, wiring combination and the like exist, the most dense wiring is determined as a central point of the wiring according to the topology relations of the wiring, namely a traffic junction of communication information, the place with the most frequent signal transmission and the largest information amount is identified by taking a wiring point center as a key operation and maintenance device, key operation and maintenance can be performed on the key device by utilizing the identification, the key operation and maintenance device is taken as the center, other operation and maintenance equipment is used for comprehensive management, so that the pertinence of the operation and maintenance management is strong, and the reasonable distribution of the operation and maintenance management strength is facilitated.

When determining which equipment is taken as key operation and maintenance equipment to perform main management or finer management in the center of a building wiring point, intelligently analyzing by using a ring topology relationship, wherein cable joints comprise a starting joint and a terminal joint, performing weight calculation of connecting lines on each connecting node in the ring topology relationship according to the number of the starting joint and the terminal joint, namely wiring density weight calculation, performing weight calculation according to the importance degree of the connecting equipment for connecting wiring and the number of the connected lines, wherein the more the connected lines are and the higher the importance degree of the connected equipment is, the larger the wiring density calculation result is, determining the grade degree of the equipment by historical experience data in the evaluation of the importance degree of the connecting equipment, performing weight calculation of the center of the connecting point by using the grade degree and the number of the wiring, and comparing the weight of each starting joint, terminal configuration point and the preset wiring density requirement of preset key equipment, the cable connection node meeting the requirement of the preset wiring density is used as a building wiring point center, key operation and maintenance are carried out on basic equipment connected with the building wiring point center, and a primary and secondary operation and maintenance management mode is set, so that the management efficiency can be improved, and the normal operation state of the main equipment is ensured.

When the center of the building wiring point is determined, the initial contact is the access of the signal, the terminal contact is the flow direction of the signal, the initial node has a large influence on the transmission speed of the signal, and if the density of the access cables from the initial contact is large, the quantity of the transmitted signals is influenced, so when the weight of the wiring point is calculated, if the quantity of the access cables is the same, the weight value of the central point with more initial contacts is high if the quantity of the initial contacts is larger than that of the terminal contacts, and the probability of the central point as the center is large. For example, if two nodes are connected to 8 cables, one node includes 5 initial contacts and the other includes 3 initial contacts, the weight of the contact including 5 initial contacts is higher.

Further, the system further includes an operation and maintenance logging module, as shown in fig. 3, and the method further includes:

s11, connecting an operation and maintenance log recording module to the equipment operation and maintenance module, and generating an operation and maintenance record data set according to a multi-source data set in the equipment operation and maintenance module recorded by the operation and maintenance log recording module; s12, performing operation and maintenance characteristic analysis according to the operation and maintenance record data set, and outputting operation and maintenance plan characteristic data; s13, carrying out data offline loading according to the operation and maintenance plan feature data, and storing the data into an offline cloud storage space; s14, performing visual offline operation and maintenance management on the building group infrastructure based on the offline cloud storage space.

Specifically, the operation and maintenance log recording module is a module for recording and managing all logs in the operation and maintenance management, wherein the operation and maintenance log recording module comprises logs processed by events in the operation and maintenance management process, analyzes the operation and maintenance management data characteristics of all data sets recorded in the operation and maintenance log recording module to realize off-line management, the operation and maintenance plan characteristic data is the data management characteristics in the operation and maintenance management according to the operation and maintenance plan, different management requirements, processing events and management equipment correspond to the processing data characteristics of the events, extracts and analyzes the operation and maintenance management characteristics of a resource data set in the operation and maintenance log recording module, stores the operation and maintenance plan characteristic data in an off-line cloud storage space, can realize off-line management of basic equipment according to the operation and maintenance management characteristics of the plan by calling the off-line cloud storage space in an off-line state, compares the current data of the basic equipment according to the characteristics of historical operation and maintenance management data, and off-line operation and maintenance management is realized.

Further, as shown in fig. 4, the method further includes:

s15, acquiring environment resource information of the building group infrastructure for visual operation and maintenance management, wherein the environment resource information comprises hardware resource information and software resource information; s16, aiming at the environment resource information, outputting a data processor resource environment and a data memory resource environment for data processing and data storage; s17, according to the data processor resource environment and the data memory resource environment as constraint variables, the operation and maintenance record data set is used as an input variable, and a cloud storage response objective function is built; and S18, outputting an operation and maintenance record quantization coefficient according to the cloud storage response objective function, wherein the operation and maintenance record quantization coefficient is the critical data size for cloud storage calling.

Specifically, resources occupied when the operation and maintenance management is performed on the infrastructure of the building group are analyzed, the amount of resources required when the operation and maintenance management is performed is determined, the hardware resources and the software resources are included, the amount of hardware resources and the amount of software resources required when the data are processed and the amount of hardware resources and the amount of software resources required when the data are stored are determined, in order to ensure the effective performance of the data processing and the data storage, the resources required when the data are processed and the data are stored are utilized for constraint, the resource condition in the operation and maintenance recorded data is analyzed, a cloud storage response objective function is built for calculating when the cloud storage needs to be started, when the hardware resources and the software resources are insufficient for the data storage or the data processing, the processing speed and the storage are influenced, the cloud storage is started, the operation and maintenance recorded data is determined according to the cloud storage response objective function, and when the operation and maintenance record reaches the operation and maintenance record quantization coefficient, starting cloud storage to store the operation and maintenance record data, and determining which data to store in the cloud storage according to the operation and maintenance record quantization coefficient which is the critical data volume for cloud storage calling, namely the critical data volume for cloud storage calling from where the operation and maintenance record data is stored in the cloud storage. The effective management and storage of the operation and maintenance recorded data are ensured, and the effective execution of data processing and data storage is ensured.

Further, the method further comprises: s19, acquiring the building scale information and the building layer information of the building group infrastructure; s20, performing visual area analysis according to the building scale information and the building layer information, and outputting an operation and maintenance area for visual operation and maintenance management; s21, analyzing the operation and maintenance loss according to the operation and maintenance area to generate the operation and maintenance computing power requirement; s22, configuring parameters of the computer resources for the visual operation and maintenance management according to the operation and maintenance computing power requirement.

Specifically, the building scale of the building group infrastructure, i.e. the number of buildings, the building layer is the height of the building, the number of floors is set, the visual area analysis is performed according to the building scale information, the building layer information and the area managed and controlled by the visual control, the operation and maintenance area of the visual operation and maintenance management is obtained, the operation and maintenance power analysis is performed aiming at the management control corresponding to each operation and maintenance area, the operation and maintenance resources required to be paid by the management control for the currently managed operation and maintenance area are obtained, the operation and maintenance power requirement, i.e. how much software, equipment and the like are required for executing each function of the operation and maintenance management, such as memory, cpu and the like, the resource parameters are configured according to the operation and maintenance power requirement and the management power of the computer resources, so as to ensure the effective distribution of the computer resources, avoid the waste of the resources, and when the operation and maintenance management is executed by some controls, the efficiency of the operation and maintenance management is influenced due to insufficient resources, and some controls need less resources and more configured resources when performing visual management, which causes resource waste, so that the resources required by each operation and maintenance management module and visual controls are correspondingly allocated to improve the allocation efficiency of the resources, thereby ensuring the reliable operation and maintenance management functions.

Example two

Based on the same inventive concept as the operation and maintenance management method of the building group infrastructure in the foregoing embodiment, an embodiment of the present application provides an operation and maintenance management system of the building group infrastructure, as shown in fig. 5, the system includes:

the information acquisition module is used for acquiring information of preset building components of the building group infrastructure;

the data processing module is connected with the information acquisition module and used for analyzing the information of the preset building component, configuring data acquisition calling parameters, matching, calling and acquiring each sensor in the data acquisition and simulation device according to the data acquisition calling parameters and outputting component modeling data;

the model building module is used for inputting the component modeling data into the BIM modeling system, modeling the building group infrastructure according to the BIM modeling system, and outputting a building group operation and maintenance model;

the equipment operation and maintenance module is connected with the model construction module and is used for connecting the building group operation and maintenance model to the equipment operation and maintenance module, wherein the equipment operation and maintenance module comprises an information management module, a data monitoring module, an equipment positioning module and a plan maintenance module, and data interaction is performed on each sub-module in the equipment operation and maintenance module;

The visualization conversion module is used for displaying and converting the equipment operation and maintenance module on a visualization platform, wherein the visualization platform comprises a plurality of visualization controls;

and the operation and maintenance management module is used for performing visual operation and maintenance management on the building group infrastructure according to the plurality of visual controls.

Further, the information acquisition module includes a wiring acquisition unit, and the wiring acquisition unit is configured to acquire building wiring information of the building group infrastructure;

the data processing module comprises a topological relation analysis unit, and the topological relation analysis unit is used for analyzing the wiring connection relation of the information of the preset building components based on the building wiring information to obtain the annular topological relation of each building;

the wiring point center determining unit is used for acquiring a building wiring point center according to the annular topological relation, wherein the building wiring point center is a building reaching a preset wiring density;

and the operation and maintenance equipment identification unit is used for identifying the building equipment in the building wiring point center as key operation and maintenance equipment.

Further, the routing point center determining unit is further configured to:

acquiring cable connection points corresponding to each building according to the ring topology relationship, wherein the cable connection points comprise an initial connection point and a terminal connection point;

carrying out wiring density weight calculation on each node in the ring topology relation according to the number of the initial connection points and the terminal connection points, and outputting a wiring density calculation result, wherein the configuration weight of the initial connection points is more than or equal to that of the terminal connection points;

and comparing the wiring density calculation result with the preset wiring density, and outputting the building wiring point center.

Further, the system further comprises an operation and maintenance logging module, wherein the operation and maintenance logging module comprises:

the recorded data generating unit is used for connecting an operation and maintenance log recording module to the equipment operation and maintenance module, recording a multi-source data set in the equipment operation and maintenance module according to the operation and maintenance log recording module, and generating an operation and maintenance recorded data set;

the plan feature output unit is used for carrying out operation and maintenance feature analysis according to the operation and maintenance record data set and outputting operation and maintenance plan feature data;

The off-line data loading unit is used for carrying out off-line data loading according to the operation and maintenance plan characteristic data and storing the data into an off-line cloud storage space;

and the offline management unit is used for performing visual offline operation and maintenance management on the building group infrastructure based on the offline cloud storage space.

Further, the system comprises:

the system comprises an environmental resource acquisition unit, a management unit and a management unit, wherein the environmental resource acquisition unit is used for acquiring environmental resource information for performing visual operation and maintenance management on the building group infrastructure, and the environmental resource information comprises hardware resource information and software resource information;

a resource processing unit, configured to output, for the environment resource information, a data processor resource environment and a data memory resource environment for data processing and data storage;

the target function building unit is used for building a cloud storage response target function by taking the operation and maintenance record data set as an input variable according to the data processor resource environment and the data memory resource environment as constraint variables;

and the recording quantization coefficient unit is used for outputting an operation and maintenance recording quantization coefficient according to the cloud storage response objective function, wherein the operation and maintenance recording quantization coefficient is the critical data size for cloud storage calling.

Further, the device operation and maintenance module further includes:

the loop interaction unit is used for acquiring loop interaction information of the equipment operation and maintenance module, wherein the loop interaction information is loop feedback information formed by connecting the information management module, the data monitoring module, the equipment positioning module and the plan maintenance module;

and the operation and maintenance evaluation unit is used for forming an information updating coefficient through the loop interaction information, evaluating the operation and maintenance effect of the operation and maintenance visual management according to the information updating coefficient and outputting an operation and maintenance decision effect.

Further, the system further comprises:

a scale, building floor information acquisition unit for acquiring building scale information and building floor information of the building group infrastructure;

the area analysis unit is used for performing visual area analysis according to the building scale information and the building layer information and outputting an operation and maintenance area for visual operation and maintenance management;

the operation and maintenance loss analysis unit is used for analyzing the operation and maintenance loss according to the operation and maintenance area to generate an operation and maintenance computing power requirement;

And the parameter configuration unit is used for carrying out parameter configuration on the computer resources of the visual operation and maintenance management according to the operation and maintenance computing power requirement.

The operation and maintenance management system for the infrastructure of the building group provided in the embodiment of the present application can implement any process in the second embodiment, and please refer to the detailed contents of the second embodiment, which is not described herein again.

The specification and drawings are merely illustrative of the present application, and various modifications and combinations can be made thereto without departing from the spirit and scope of the application. Such modifications and variations of the present application are within the scope of the claims of the present application and their equivalents, and the present application is intended to include such modifications and variations.

Claims

1. An operation and maintenance management method for building group infrastructure is applied to a visual management system of the building group infrastructure, the system is in communication connection with a BIM modeling system, a data acquisition fitting device and an equipment operation and maintenance module, and the method comprises the following steps:

acquiring information of preset building components of a building group infrastructure;

analyzing the information of the preset building component, configuring data acquisition calling parameters, carrying out matching calling acquisition on each sensor in the data acquisition and simulation device according to the data acquisition calling parameters, and outputting component modeling data;

Inputting the component modeling data into the BIM modeling system, modeling the building group infrastructure according to the BIM modeling system, and outputting a building group operation and maintenance model;

connecting the building group operation and maintenance model to the equipment operation and maintenance module, wherein the equipment operation and maintenance module comprises an information management module, a data monitoring module, an equipment positioning module and a plan maintenance module, and each sub-module in the equipment operation and maintenance module carries out data interaction;

displaying and converting the equipment operation and maintenance module on a visualization platform, wherein the visualization platform comprises a plurality of visualization controls;

and carrying out visual operation and maintenance management on the building group infrastructure according to the plurality of visual controls.

2. The method of claim 1, wherein the method further comprises:

building wiring information of the building group infrastructure is obtained;

based on the building wiring information, performing wiring connection relation analysis on the information of the preset building components to obtain the ring topology relation of each building;

acquiring a building wiring point center according to the ring topology relationship, wherein the building wiring point center is a building reaching a preset wiring density;

And identifying the building equipment in the center of the building wiring point as key operation and maintenance equipment.

3. The method of claim 2, wherein the building wiring point center is obtained according to the ring topology relationship, the method further comprising:

acquiring cable connection points corresponding to each building according to the ring topology relation, wherein the cable connection points comprise starting connection points and terminal connection points;

4. The method of claim 1, wherein the system further comprises an operation logging module, the method further comprising:

connecting an operation and maintenance log recording module to the equipment operation and maintenance module, and recording a multi-source data set in the equipment operation and maintenance module according to the operation and maintenance log recording module to generate an operation and maintenance record data set;

Performing operation and maintenance characteristic analysis according to the operation and maintenance record data set, and outputting operation and maintenance plan characteristic data;

carrying out data offline loading according to the operation and maintenance plan feature data, and storing the data into an offline cloud storage space;

and carrying out visual offline operation and maintenance management on the building group infrastructure based on the offline cloud storage space.

5. The method of claim 4, wherein the method further comprises:

acquiring environment resource information for performing visual operation and maintenance management on the building group infrastructure, wherein the environment resource information comprises hardware resource information and software resource information;

aiming at the environment resource information, outputting a data processor resource environment and a data memory resource environment for data processing and data storage;

according to the data processor resource environment and the data memory resource environment as constraint variables, the operation and maintenance record data set is used as an input variable, and a cloud storage response objective function is built;

and outputting an operation and maintenance record quantization coefficient according to the cloud storage response objective function, wherein the operation and maintenance record quantization coefficient is the size of critical data volume for cloud storage calling.

6. The method of claim 1, wherein the building complex operation and maintenance model is connected to the equipment operation and maintenance module, wherein the equipment operation and maintenance module comprises an information management module, a data monitoring module, an equipment positioning module and a plan maintenance module, wherein each sub-module in the equipment operation and maintenance module is in data interaction with each other, and the method further comprises:

acquiring loop interaction information of the equipment operation and maintenance module, wherein the loop interaction information is loop feedback information formed by connecting the information management module, the data monitoring module, the equipment positioning module and the plan maintenance module;

and forming an information updating coefficient through the loop interaction information, evaluating the operation and maintenance effect of the operation and maintenance visual management according to the information updating coefficient, and outputting an operation and maintenance decision effect.

7. The method of claim 1, wherein the method further comprises:

acquiring building scale information and building layer information of the building group infrastructure;

performing visual area analysis according to the building scale information and the building layer information, and outputting an operation and maintenance area for visual operation and maintenance management;

Analyzing the operation and maintenance loss according to the operation and maintenance area to generate an operation and maintenance computing power requirement;

and performing parameter configuration on the computer resources of the visual operation and maintenance management according to the operation and maintenance computing power requirement.

8. An operation and maintenance management system for building complex infrastructure, the system comprising:

the model building module is used for inputting the component modeling data into a BIM modeling system, modeling the building group infrastructure according to the BIM modeling system and outputting a building group operation and maintenance model;

the equipment operation and maintenance module is connected with the model construction module and is used for connecting the building group operation and maintenance model to the equipment operation and maintenance module, wherein the equipment operation and maintenance module comprises an information management module, a data monitoring module, an equipment positioning module and a plan maintenance module, and data interaction of each sub-module in the equipment operation and maintenance module is realized;

9. The system of claim 8, wherein the information acquisition module comprises a wiring acquisition unit for acquiring building wiring information for the building complex infrastructure;

the data processing module comprises a topological relation analysis unit, and the topological relation analysis unit is used for analyzing the wiring connection relation of the information of the preset building components based on the building wiring information to obtain the ring topological relation of each building;

the wiring point center determining unit is used for acquiring a building wiring point center according to the ring topology relation, wherein the building wiring point center is a building reaching a preset wiring density;