CN113032645A - Intelligent engineering Internet of things data integrated management method and management system based on building - Google Patents

Abstract

The invention discloses an intelligent engineering internet of things data integrated management method based on buildings, which comprises the following steps: generating a space model according to a building design drawing of a building, dividing a functional area of the space model, collecting information of all intelligent devices in the functional area, and adding the information to corresponding positions in the space model; numbering and naming the functional areas according to the positions of the functional areas; numbering and naming according to the use of the intelligent equipment; establishing an information data management base, and performing classified management on the information data of the intelligent equipment; according to the accessed mobile equipment, converting the data in the information data management base into data in a corresponding format and transmitting the data to each mobile equipment; and establishing analysis charts for the intelligent equipment under different application scenes based on the information data management base and by combining the real-time working state of the functional area. The invention can quickly generate the required management information, is convenient for the unified management of the building intelligent equipment and the management of different requirements of each functional area.

Description

Intelligent engineering Internet of things data integrated management method and management system based on building

Technical Field

The invention belongs to the technical field of intelligent engineering internet of things data integrated management, and particularly relates to an intelligent engineering internet of things data integrated management method and system based on a building.

Background

The internet of things is based on the internet and aims to realize interconnection of objects at any time and place, carry out ubiquitous calculation and become a ubiquitous network. With the development of 5G technology and the popularization of base stations, end-to-end time delay of millisecond magnitude and massive connection number can be achieved, the distances between people and people, between people and objects and between objects are infinitely shortened, and the idea of interconnection of all objects is more feasible. For the management of buildings in modern office parks, in the aspects of building visualization, real estate datamation and archive informatization, the prior art has low equipment access efficiency, needs to build basic equipment and also needs embedded developers and cloud developers for joint development, and has the advantages of large workload, low efficiency and high labor cost; the service performance and the expansibility are insufficient, enterprise users need to realize an expansibility architecture by themselves, and infrastructure such as a device granularity scheduling server and load balancing are extremely difficult to realize; the downtime needs to be discovered and the migration is completed, and the service in the migration process is interrupted; the customization degree is low, a general platform generally provides visual statistical charts, but the number of the charts is usually very limited, actual requirements of various industry fields cannot be covered, and the management efficiency is low.

Disclosure of Invention

The invention aims to solve the technical problem of providing an intelligent engineering internet of things data integrated management method and system based on a building aiming at the defects of the prior art.

In order to achieve the technical purpose, the technical scheme adopted by the invention is as follows:

an intelligent engineering internet of things data integrated management method based on buildings comprises the following steps:

step S1: generating a space model according to a building design drawing of a building, dividing a functional area of the space model, collecting information of all intelligent devices in the functional area, and adding the information to corresponding positions in the space model;

step S2: numbering and naming the functional areas according to the positions of the functional areas; numbering and naming the intelligent equipment according to the use of the intelligent equipment;

step S3: establishing an information data management base according to the number information of the functional area and the intelligent equipment, and performing classified management on the information data management base;

step S4: according to the accessed mobile equipment, converting the data in the information data management base into data in a corresponding format and transmitting the data to each mobile equipment;

step S5: and establishing analysis charts for the intelligent equipment under different application scenes based on the information data management base and by combining the real-time working state of the functional area.

In order to optimize the technical scheme, the specific measures adopted further comprise:

further, the functional areas in step S1 are specifically divided into: and carrying out floor division according to the space model, and dividing different functional areas of each floor, wherein the functional areas comprise office areas, public areas and special areas.

Further, the intelligent device in the step S1 includes security monitoring equipment, broadcasting equipment, air conditioning equipment, lighting equipment, elevator equipment, and door control equipment, and the door control equipment manages the numbers of different people according to the numbers of the functional areas.

For example: for enterprise staff, numbering management is carried out on the staff of the enterprise according to floors where different enterprises are located, dynamic judgment can be carried out, and staff in office areas can flow.

Further, step S2 is specifically:

s21: according to the floors where different functional areas are located and the positions of the functional areas of each floor, the functional areas are numbered as Xa and b;

wherein: x is the functional area of the X type, a represents the floor, b represents the sequencing of the same functional area;

s22: the intelligent equipment is numbered as Yx according to the use of the intelligent equipment by combining the functional area;

wherein: y denotes different types of smart devices and X denotes a functional area.

Further, step S3 is specifically:

s31: according to the distribution of the functional areas, collecting and managing the information of the intelligent equipment in each functional area, establishing a functional area information base, setting at least one working state for each functional area, and setting a corresponding relation between the working state of the functional area and the working mode of the intelligent equipment;

s32: establishing an intelligent equipment dynamic information base according to the position and the working mode of the intelligent equipment;

s33: establishing a safety data information base according to the service life and the maintenance condition of the intelligent equipment;

s34: and fusing the functional area information base, the intelligent equipment dynamic information base and the safety data information base into an information data management base.

Further, step S5 is specifically:

s51: establishing an application scene, wherein the application scene is generated according to a functional area and intelligent equipment which need to be checked;

s52: according to an application scene, relevant information of a corresponding functional area and intelligent equipment is called from mobile equipment to generate an analysis chart, the analysis chart comprises a daily management chart and a safety management chart, the daily management chart displays the real-time state of the intelligent equipment, the safety management chart displays the service life of the intelligent equipment and compares the service life with a safety threshold, and the remaining service time of the intelligent equipment lower than the safety threshold is calculated; and for the intelligent equipment higher than the safety threshold, warning information is provided, and overhaul is carried out.

An intelligent engineering Internet of things data integrated management system based on a building comprises a space model generation module, an equipment management module and a demand analysis module;

the space model generation module is used for generating a space model according to a building design drawing of a building, dividing functional areas of the space model, collecting information of all intelligent devices in the functional areas, adding the information to corresponding positions in the space model, and numbering and naming each functional area and each intelligent device;

the equipment management module is used for establishing an information data management database for the intelligent equipment and performing classified management on the information data of the intelligent equipment;

the demand analysis module is used for analyzing the functional areas and the intelligent equipment which need to be analyzed, and managing different demands of each functional area.

And the user management module is used for adjusting the operation information of the intelligent equipment in the corresponding functional area according to the control instruction sent by the user.

The invention has the beneficial effects that:

according to the intelligent engineering internet of things data integrated management method based on the building, the required management information can be quickly generated through the division of the functional areas of the building and the data information of each intelligent device, so that the unified management of the intelligent devices of the building and the management of different requirements of each functional area are facilitated.

Drawings

FIG. 1 is a flow chart of the management method of the present invention.

Detailed Description

Embodiments of the present invention are described in further detail below with reference to the accompanying drawings.

As shown in fig. 1, the invention relates to an intelligent engineering internet of things data integration management method based on a building, which comprises the following steps:

step s 1: generating a space model according to a building design drawing of a building, dividing a functional area of the space model, collecting information of all intelligent devices in the functional area, and adding the information to corresponding positions in the space model.

The specific division of the functional areas in step S1 is: the space model is used for dividing floors, and different functional areas of each floor are divided, wherein the functional areas comprise office areas, public areas and special areas.

Considering actual office buildings, the floor height of the actual office buildings is high, and management of managers in property or different office areas is inconvenient, so that the intelligent equipment and the functional areas are numbered respectively.

Step S2: numbering and naming the functional areas according to the positions of the functional areas; the intelligent devices are numbered according to their use.

S21: according to the floors where different functional areas are located and the positions of the functional areas on each floor, the functional areas are numbered as Xa and b, wherein: x is the functional area of the X-th category, a represents the floor, and b represents the ranking of the same functional area.

S22: combine the functional area, according to the usage of smart machine, be Yx to smart machine number, wherein: y denotes different types of smart devices and X denotes a functional area.

For example: the office area, the public area and the special area are respectively as follows: a, B, C; the office building is 20 floors high, and has a special area every 5 floors, and the special area is general weak electricity room and strong electricity room for the intelligent equipment of these 5 floors of management.

Then each floor has office area and public area, the position of each floor of its public area is unanimous, and office area divides according to the enterprise that belongs to, and the office area of the first enterprise that is located 5 th floor is: a. the_5，1(ii) a The special area of the first floor is C_1，1。

Step S3: and establishing an information data management base, and performing classified management on the information data of the intelligent equipment.

Step S3 specifically includes:

s31: according to the distribution of the functional areas, information of the intelligent equipment in each functional area is collected and managed, a functional area information base is established, at least one working state is set for each functional area, and a corresponding relation is set between the working state of the functional area and the working mode of the intelligent equipment.

S32: and establishing an intelligent equipment dynamic information base according to the position and the working mode of the intelligent equipment.

S33: and establishing a safety data information base according to the service life and the overhaul condition of the intelligent equipment.

S34: and fusing the functional area information base, the intelligent equipment dynamic information base and the safety data information base into an information data comprehensive management base.

Because the working time of each enterprise is inconsistent and the working time of intelligent equipment in different functional areas is inconsistent, the patrol management is carried out by only manually, time and labor are consumed, therefore, a data comprehensive management library is established to manage the whole functional areas, the data of each functional area and the intelligent equipment are summarized firstly, and the summarized information comprises the current state of the intelligent equipment.

For example: the functional area of a first enterprise located in the 8 th floor is in a working state, equipment such as an illuminating lamp is in a working state, the personnel access control card punching state of the company is checked, whether the enterprise is in overtime work or not is judged, and if the enterprise is not in overtime work, property management personnel can close the intelligent equipment according to the information.

Meanwhile, various abnormally-working intelligent devices can be processed in the first time, and various conditions of the intelligent devices in building management are greatly improved.

Step S4: according to the accessed mobile equipment, converting the data in the information data management base into data in a corresponding format and transmitting the data to each mobile equipment;

the data of the information management library in the method can be compatible with various mobile devices, namely the data can be converted into various formats, the information checking and management under various states can be met, and the remote monitoring is facilitated.

Step S5: and establishing analysis charts for the intelligent equipment under different application scenes based on the information data management base and by combining the real-time working state of the functional area.

Step S5 specifically includes:

s51: and establishing an application scene, and generating the application scene according to the functional area and the intelligent equipment which need to be checked.

S52: according to an application scene, relevant information of a corresponding functional area and intelligent equipment is called from the mobile equipment to generate an analysis chart, the analysis chart comprises a daily management chart and a safety management chart, the daily management chart displays the real-time state of the intelligent equipment, the safety management chart displays the service life of the intelligent equipment, the service life of the intelligent equipment is compared with a safety threshold, and the remaining service time of the intelligent equipment lower than the safety threshold is calculated; and for the intelligent equipment higher than the safety threshold, warning information is provided, and overhaul is carried out.

In practical application, for various management requirements, different functional areas and intelligent device data information can be selected, then application scenes can be produced, and required intelligent device information can be displayed at the same time.

For example: to the emergency lighting lamp of each floor, need overhaul at intervals, but the consuming time and the power of traditional maintenance mode, now through the analysis chart, can each emergency lighting lamp's of real-time detection state, contrast state and safety threshold value simultaneously.

An intelligent engineering internet of things data integrated management system based on a building comprises a space model generation module, an equipment management module and a demand analysis module.

The space model generation module is used for generating a space model according to a building design drawing of a building, dividing functional areas of the space model, collecting information of all intelligent devices in the functional areas, adding the information to corresponding positions in the space model, and numbering and naming each functional area and each intelligent device.

The equipment management module is used for establishing an information data management base for the intelligent equipment and carrying out classification management on the information data of the intelligent equipment.

The demand analysis module is used for analyzing the functional areas and the intelligent equipment which need to be analyzed, and management of different demands of each functional area is achieved.

The above is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above-mentioned embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may be made by those skilled in the art without departing from the principle of the invention.

Claims (8)

1. An intelligent engineering internet of things data integrated management method based on a building is characterized by comprising the following steps:

step S1: generating a space model according to a building design drawing of a building, dividing a functional area of the space model, collecting information of all intelligent devices in the functional area, and adding the information to corresponding positions in the space model;

step S2: numbering and naming the functional areas according to the positions of the functional areas; numbering and naming the intelligent equipment according to the use of the intelligent equipment and the position of the functional area;

step S3: establishing an information data management base according to the number information of the functional area and the intelligent equipment, and performing classified management on the information data management base; setting at least one working state for each functional area, wherein a corresponding relation is set between the working state of each functional area and the working mode of part of intelligent equipment;

step S4: according to the accessed mobile equipment, converting the data in the information data management base into data in a corresponding format and transmitting the data to each mobile equipment;

step S5: and establishing analysis charts for the intelligent equipment under different application scenes based on the information data management base and by combining the real-time working state of the functional area.

2. The building-based intelligent engineering internet of things data integration management method as claimed in claim 1, wherein the functional areas in step S1 are specifically divided into: and carrying out floor division according to the space model, and dividing different functional areas of each floor, wherein the functional areas comprise office areas, public areas and special areas.

3. The intelligent engineering internet of things data integrated management method based on the building as claimed in claim 2, wherein: and in the step S1, the intelligent equipment comprises security monitoring equipment, broadcasting equipment, air conditioning equipment, lighting equipment, elevator equipment and access control equipment, and the access control equipment carries out numbering management on different personnel according to the functional area numbers.

4. The intelligent engineering internet of things data integrated management method based on the building as claimed in claim 3, wherein: the step S2 specifically includes:

s21: according to the floors where different functional areas are located and the positions of the functional areas of each floor, the functional areas are numbered as Xa and b;

wherein: x is the functional area of the X type, a represents the floor, b represents the sequencing of the same functional area;

s22: the intelligent equipment is numbered as Yx according to the use of the intelligent equipment by combining the functional area;

wherein: y denotes different types of smart devices and X denotes a functional area.

5. The intelligent engineering internet of things data integrated management method based on the building as claimed in claim 4, wherein: the step S3 specifically includes:

s31: according to the distribution of the functional areas, collecting and managing the information of the intelligent equipment in each functional area, establishing a functional area information base, setting at least one working state for each functional area, and setting a corresponding relation between the working state of the functional area and the working mode of the intelligent equipment;

s32: establishing an intelligent equipment dynamic information base according to the position and the working mode of the intelligent equipment;

s33: establishing a safety data information base according to the service life and the maintenance condition of the intelligent equipment;

s34: and fusing the functional area information base, the intelligent equipment dynamic information base and the safety data information base into an information data management base.

6. The intelligent engineering internet of things data integrated management method based on the building as claimed in claim 5, wherein: the step S5 specifically includes:

s51: establishing an application scene, wherein the application scene is generated by combining a space model according to a functional area and intelligent equipment which need to be checked;

s52: according to an application scene, relevant information of a corresponding functional area and intelligent equipment is called from mobile equipment to generate an analysis chart, the analysis chart comprises a daily management chart and a safety management chart, the daily management chart displays the real-time state of the intelligent equipment, the safety management chart displays the service life of the intelligent equipment and compares the service life with a safety threshold, and the remaining service time of the intelligent equipment lower than the safety threshold is calculated; and for the intelligent equipment higher than the safety threshold, warning information is provided, and overhaul is carried out.

7. The utility model provides an intelligent engineering thing allies oneself with data integrated management system based on building which characterized in that: the system comprises a space model generation module, an equipment management module and a demand analysis module;

the space model generation module is used for generating a space model according to a building design drawing of a building, dividing functional areas of the space model, collecting information of all intelligent devices in the functional areas, adding the information to corresponding positions in the space model, and numbering and naming each functional area and each intelligent device;

the equipment management module is used for establishing an information data management database for the intelligent equipment and performing classified management on the information data of the intelligent equipment;

the demand analysis module is used for analyzing the functional areas and the intelligent equipment which need to be analyzed, and managing different demands of each functional area.

8. The intelligent engineering internet of things data integrated management system based on building as claimed in claim 7, wherein: the intelligent equipment management system further comprises a user management module, wherein the user management module is used for adjusting the intelligent equipment information of the functional area and the operation information of the intelligent equipment of the corresponding functional area according to the control instruction sent by the user.

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