CN114819488A

CN114819488A - Building construction operation informatization management platform based on big data analysis

Info

Publication number: CN114819488A
Application number: CN202210259015.4A
Authority: CN
Inventors: 周敦斌
Original assignee: Wuhan Linxin Architectural Decoration Engineering Co ltd
Current assignee: Wuhan Linxin Architectural Decoration Engineering Co ltd
Priority date: 2022-03-14
Filing date: 2022-03-14
Publication date: 2022-07-29

Abstract

The invention discloses a building construction operation informatization management platform based on big data analysis. This building construction operation information-based management platform based on big data analysis includes: the system comprises a target fire fighting area basic information acquisition module, a fire fighting equipment layout information detection module, a fire fighting equipment layout environment parameter detection module, a cloud management platform, a database and an information sending terminal; according to the invention, the basic information, the layout information and the layout environment parameters corresponding to the fire fighting equipment are allocated to each target fire fighting area of the building construction operation field for detailed detection and detailed analysis, so that the problem that the management efficiency of the existing building construction operation information management platform cannot be effectively improved is effectively solved, the safety of workers and construction resources in the building construction field is greatly improved, and the emergency treatment effect on accidental fire accidents is also effectively improved.

Description

Building construction operation informatization management platform based on big data analysis

Technical Field

The invention belongs to the technical field of building construction management, and relates to a building construction operation informatization management platform based on big data analysis.

Background

With the rapid development of economy, the construction industry has also been rapidly developed, but because the construction industry has many construction projects, the construction information cross section between each project is relatively complicated, and it is difficult for construction personnel to effectively guarantee the construction progress, therefore, the construction operation information needs to be managed.

The existing building construction operation information management platform mainly manages corresponding material information in building construction operation, mechanical equipment and labor service personnel, and fire fighting information of a building construction operation field is not managed, so the existing building construction operation information management platform also has certain disadvantages, on one hand, the content managed by the existing building construction operation information management platform has one-sidedness, the management efficiency of building construction operation information cannot be effectively improved, on the one hand, the safety of building construction field workers and construction resources cannot be effectively improved by the existing building construction operation information management platform, on the other hand, the emergency treatment effect of accidental fire fighting accidents cannot be effectively improved by the existing building construction operation information management platform.

Disclosure of Invention

In view of the above, in order to solve the problems in the background art, a building construction operation informatization management platform based on big data analysis is provided, so that accurate management of fire fighting information of a building construction operation site is realized;

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

the invention provides a building construction operation informatization management platform based on big data analysis, wherein the cloud management platform is respectively connected with a target fire fighting area basic information acquisition module, a fire fighting equipment layout information detection module, a fire fighting equipment layout environment parameter detection module, a database and an information sending terminal;

the basic information acquisition module of the target fire fighting area is used for acquiring basic information corresponding to the target fire fighting area of the building construction operation site, further acquiring the number corresponding to the target fire fighting area of the building construction operation site, numbering the target fire fighting areas corresponding to the building construction operation site according to a preset sequence, and sequentially marking the target fire fighting areas as 1, 2,. j,. m, and further acquiring the basic information corresponding to each target fire fighting area of the building construction operation site;

the fire fighting equipment basic information acquisition module is used for acquiring basic information corresponding to fire fighting equipment in each target fire fighting area of the building construction operation site, further acquiring the number of matched fire fighting equipment corresponding to each target fire fighting area of the building construction operation site, numbering the number of matched fire fighting equipment corresponding to each target fire fighting area of the building construction operation site according to a preset sequence, and sequentially marking the number as 1, 2, 1.. i.. n, further acquiring basic information corresponding to each matched fire fighting equipment in each target fire fighting area;

the fire fighting equipment layout information detection module is used for detecting the layout information corresponding to the fire fighting equipment in each target fire fighting area of the building construction operation field, and further acquiring the layout information corresponding to the fire fighting equipment in each target fire fighting area of the building construction operation field;

the fire fighting equipment layout environment parameter detection module is used for detecting the layout environment parameters corresponding to the fire fighting equipment in each target fire fighting area of the building construction operation field so as to obtain the layout environment parameters corresponding to the fire fighting equipment in each target fire fighting area of the building construction operation field;

the cloud management platform is used for analyzing information corresponding to fire fighting equipment equipped in each target fire fighting area of the building construction operation site, further counting comprehensive safety of the fire fighting equipment in each target fire fighting area, and analyzing the safety of the fire fighting equipment in each target fire fighting area;

the information sending terminal is used for sending the target fire-fighting area information with fire-fighting hidden danger in the building construction operation site to the safety supervision personnel in the building construction operation site.

Preferably, the basic information of each target fire-fighting area of the building construction operation site includes the type corresponding to each target fire-fighting area, the floor area corresponding to each target fire-fighting area and the position corresponding to each target fire-fighting area, and a basic information set F of each target fire-fighting area is constructed according to the obtained basic information corresponding to each target fire-fighting area of the building construction operation site _w (F _w 1,F _w 2,...F _w j,...F _w m)，F _w i represents w-th basic information corresponding to j-th target fire-fighting area of the building construction operation site, w represents basic information of the target fire-fighting area, and w is a1, a2, a3, a1, a2 and a3 which respectively represent each target fire-fighting area pairType, footprint and location of application.

Preferably, the basic information corresponding to each kind of fire fighting equipment in each target fire fighting area includes the type corresponding to each kind of fire fighting equipment and the grade corresponding to each kind of fire fighting equipment, and then according to the basic information corresponding to each kind of fire fighting equipment in each target fire fighting area in the building construction work site, a basic information set X of each kind of fire fighting equipment in each target fire fighting area is constructed _e ^d (X _e ^d 1,X _e ^d 2,...X _e ^d i,...X _e ^d n)，X _e ^d i represents the e-th basic information corresponding to the ith fire fighting equipment in the ith target fire fighting area of the building construction operation site, e represents the basic information of each fire fighting equipment, and e represents b1, b2, b1 and b2 respectively represent the type corresponding to the fire fighting equipment and the level corresponding to each type of fire fighting equipment.

Preferably, the fire fighting equipment layout information detection is used for detecting the layout heights corresponding to the respective equipped fire fighting equipment in each target fire fighting area of the building construction operation field and the layout intervals between the respective equipped fire fighting equipment, and further detecting the layout heights corresponding to the respective equipped fire fighting equipment in each target fire fighting area and the layout intervals between the respective equipped fire fighting equipment by using a laser range finder, obtaining the layout heights corresponding to the respective equipped fire fighting equipment in each target fire fighting area of the building construction operation field and the corresponding layout intervals between the respective equipped fire fighting equipment, and recording the layout heights corresponding to the respective equipped fire fighting equipment in each target fire fighting area of the building construction operation field and the corresponding layout intervals between the respective equipped fire fighting equipment as H and L, respectively.

Preferably, the fire fighting equipment layout environment parameters include a plurality of environment parameter detection units, which are respectively used for detecting corresponding environment parameters in each target fire fighting area of the building construction operation site, which is equipped with the fire fighting equipment layout area, so as to obtain corresponding environment parameters in each target fire fighting area of the building construction operation site, which is equipped with the fire fighting equipment layout area, wherein the corresponding environment parameters in each target fire fighting area of the building construction operation site include temperature, humidity and acid-baseAnd further constructing a distribution environment parameter set J of all fire fighting equipment in all target fire fighting areas _z ^d (J _z ^d 1,J _z ^d 2,...J _z ^d i,...J _z ^d n)，J _z ^d i represents a numerical value corresponding to the environmental parameter of the ith fire fighting equipment-equipped area of the ith target fire fighting area of the building construction operation site, z represents the environmental parameter of the fire fighting equipment-equipped area, and z is c1, c2, c3, c1, c2 and c3 which respectively represent the corresponding temperature, humidity and pH value in the fire fighting equipment-equipped area.

Preferably, the cloud management platform is configured to analyze basic information corresponding to fire fighting equipment allocated to each target fire fighting area of the building construction work site, acquire a basic information set of each target fire fighting area, further acquire a type and a floor area corresponding to each target fire fighting area, simultaneously acquire a basic information set of various fire fighting equipment allocated to each target fire fighting area, further acquire a type corresponding to each fire fighting equipment allocated and a grade corresponding to each type of fire fighting equipment allocated, and count basic information safety compliance influence coefficients of the fire fighting equipment allocated to each target fire fighting area according to the basic information corresponding to each target fire fighting area of the building construction work site and the basic information corresponding to each target fire fighting area.

Preferably, the cloud management platform is used for analyzing the layout information corresponding to the fire fighting equipment equipped in each target fire fighting area of the building construction operation site, acquiring the layout height corresponding to the fire fighting equipment equipped in each target fire fighting area of the building construction operation site and the layout distance corresponding to the fire fighting equipment equipped, and then according to the type corresponding to each target fire fighting area of the building construction operation field, calling the standard layout height and the standard layout interval corresponding to each target fire fighting area type fire fighting equipment of the building construction operation field from the database, comparing the layout height corresponding to each equipped fire fighting equipment and the layout interval corresponding to each equipped fire fighting equipment with the standard layout height and the standard layout interval corresponding to each target fire fighting area type fire fighting equipment of the building construction operation field, and counting the layout safety of each target fire fighting area equipped fire fighting equipment to meet the influence coefficient.

Preferably, the cloud management platform is configured to analyze layout environment parameters corresponding to fire fighting equipment equipped in each target fire fighting area of the building construction work site, obtain a layout environment parameter set corresponding to each fire fighting equipment equipped in each target fire fighting area, further obtain a temperature, a humidity and a ph value corresponding to each fire fighting equipment equipped in each target fire fighting area of the building construction work site, compare the temperature, the humidity and the ph value corresponding to each fire fighting equipment equipped in each target fire fighting area of the building construction work site with a standard temperature, a standard humidity and a standard ph value corresponding to each fire fighting equipment equipped in each target fire fighting area, and further count safety compliance influence coefficients of the layout environment information of each fire fighting equipment equipped in each target fire fighting area.

Preferably, the cloud management platform is used for carrying out comprehensive analysis on basic information, layout information and layout environment information corresponding to fire fighting equipment allocated to each target fire fighting area of the building construction operation site, further counting the number of the fire fighting hidden danger areas of the building construction operation site, extracting the number corresponding to each fire fighting hidden danger area, and further acquiring the position corresponding to each fire fighting hidden danger area.

Preferably, the database is used for storing the types of standard equipped fire-fighting equipment corresponding to the types and the occupied areas of the fire-fighting areas, the standard equipped grades corresponding to the types of fire-fighting equipment, the standard equipped numbers corresponding to the types of fire-fighting equipment, the standard laying heights and the standard laying intervals corresponding to the types of fire-fighting equipment of the target fire-fighting areas, the standard temperatures, the standard humidity and the standard pH values corresponding to the types of fire-fighting equipment of the target fire-fighting areas, and the standard safety compliance influence coefficients corresponding to the fire-fighting laying of the building construction site.

The invention has the beneficial effects that:

(1) according to the building construction operation informatization management platform based on big data analysis, the fire fighting equipment basic information acquisition module, the fire fighting equipment layout information detection module and the fire fighting equipment layout environment parameter detection module are combined with the cloud management platform, and detailed detection and detailed analysis are carried out on basic information, layout information and layout environment parameters corresponding to the fire fighting equipment in each target fire fighting area of the building construction operation field, so that the problem that the content of management of the existing building construction operation information management platform is one-sided is effectively solved, the management efficiency of building construction operation information cannot be effectively improved, the safety of building construction field workers and construction resources is greatly improved, and meanwhile, the emergency treatment effect of accidental fire accidents is also effectively improved.

(2) According to the invention, the basic information acquisition module of the target fire-fighting area acquires the basic information corresponding to each target fire-fighting area, so that an effective information basis is provided for the analysis of the fire-fighting equipment allocated to each target fire-fighting area, and meanwhile, the reliability and stability of the analysis result of the fire-fighting equipment allocated to each target fire-fighting area are greatly improved.

(3) According to the invention, at the information sending terminal, the number and the positions of the target fire-fighting areas with fire-fighting hidden dangers in the building construction operation site are sent to the safety supervision personnel in the building construction operation site, so that the elimination efficiency of the safety supervision personnel in the building construction operation site on the hidden dangers of the fire-fighting equipment is greatly improved, the smoothness of the building construction operation progress is further greatly improved, and meanwhile, the important property loss and life threat caused by the arrangement problem of the fire-fighting equipment are effectively avoided.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic diagram showing the connection of modules of the system of the present invention.

Detailed Description

While the foregoing is directed to embodiments of the present invention, other and further embodiments of the invention may be devised without departing from the basic scope thereof, and the scope thereof is determined by the claims that follow.

Referring to fig. 1, a building construction operation informatization management platform based on big data analysis comprises a target fire fighting area basic information acquisition module, a fire fighting equipment layout information detection module, a fire fighting equipment layout environment parameter detection module, a cloud management platform, a database and an information sending terminal;

the cloud management platform is respectively connected with a basic information acquisition module of a target fire fighting area, a basic information acquisition module of fire fighting equipment, a fire fighting equipment layout information detection module, a fire fighting equipment layout environment parameter detection module, a database and an information sending terminal; the basic information acquisition module of the target fire fighting area is used for acquiring basic information corresponding to the target fire fighting area of the building construction operation site, further acquiring the number corresponding to the target fire fighting area of the building construction operation site, numbering the target fire fighting areas corresponding to the building construction operation site according to a preset sequence, and sequentially marking the target fire fighting areas as 1, 2,. j,. m, and further acquiring the basic information corresponding to each target fire fighting area of the building construction operation site;

specifically, the basic information of each target fire fighting area of the building construction operation site comprises the type corresponding to each target fire fighting area, the floor area corresponding to each target fire fighting area and the position corresponding to each target fire fighting area, and a basic information set F of each target fire fighting area is constructed according to the obtained basic information corresponding to each target fire fighting area of the building construction operation site _w (F _w 1,F _w 2,...F _w j,...F _w m)，F _w The information processing method comprises the steps that i represents w-th basic information corresponding to the jth target fire-fighting area of the building construction operation site, w represents basic information of the target fire-fighting area, and w is a1, a2, a3, a1, a2 and a3 which respectively represent the type, the occupied area and the position corresponding to each target fire-fighting area.

According to the embodiment of the invention, the basic information acquisition module of the target fire-fighting area acquires the basic information corresponding to each target fire-fighting area, so that an effective information basis is provided for the analysis of the fire-fighting equipment allocated to each target fire-fighting area, and meanwhile, the reliability and stability of the analysis result of the fire-fighting equipment allocated to each target fire-fighting area are greatly improved.

specifically, the basic information corresponding to each kind of fire fighting equipment in each target fire fighting area comprises the type corresponding to each kind of fire fighting equipment and the grade corresponding to each kind of fire fighting equipment, and then a basic information set X of each kind of fire fighting equipment in each target fire fighting area is constructed according to the basic information corresponding to each kind of fire fighting equipment in each target fire fighting area in the building construction operation site _e ^d (X _e ^d 1,X _e ^d 2,...X _e ^d i,...X _e ^d n)，X _e ^d i represents the e-th basic information corresponding to the ith fire-fighting equipment in the d-th target fire-fighting area of the building construction operation site, e represents the basic information of each fire-fighting equipment, and e represents b1, b2, b1 and b2 respectively represent the type corresponding to the fire-fighting equipment and the level corresponding to each type of fire-fighting equipment.

According to the embodiment of the invention, the basic information corresponding to the fire fighting equipment equipped in each target fire fighting area is obtained, so that the convenience of the basic information safety conformity analysis of the fire fighting equipment equipped in each target fire fighting area is greatly improved, and the authenticity of the basic information safety conformity analysis result of the fire fighting equipment equipped in each target fire fighting area is also greatly improved.

The cloud management platform is used for analyzing basic information corresponding to fire fighting equipment allocated to each target fire fighting area of the building construction operation site, acquiring a basic information set of each target fire fighting area, further acquiring types and occupied areas corresponding to each target fire fighting area, simultaneously acquiring various basic information sets of fire fighting equipment allocated to each target fire fighting area, further acquiring types corresponding to each fire fighting equipment and grades corresponding to various fire fighting equipment allocated, and according to the basic information corresponding to the fire fighting equipment of each target fire fighting area of the building construction operation site and the basic information corresponding to each target fire fighting area, counting the basic information safety coincidence influence coefficient of the fire fighting equipment allocated to each target fire fighting area.

The specific statistical process of basic information safety conformity influence coefficients of the fire fighting equipment in each target fire fighting area comprises the following steps:

a1, according to the type and the occupied area corresponding to each target fire-fighting area of the building construction operation site, calling the type of standard equipment fire-fighting equipment corresponding to each target fire-fighting area, the standard equipment level corresponding to each type of fire-fighting equipment and the standard equipment quantity corresponding to each type of fire-fighting equipment from a database;

a2, according to the types corresponding to the fire fighting equipment of each target fire fighting area of the building construction operation site, comparing the types corresponding to the fire fighting equipment of each target fire fighting area, further counting the comprehensive types corresponding to the fire fighting equipment of each target fire fighting area of the building construction operation site and the quantity corresponding to the fire fighting equipment of each type, further numbering the types of the comprehensive equipped fire fighting equipment corresponding to each target fire fighting area of the building construction operation site according to a preset sequence, and sequentially marking the types as 1, 2,... p,. q;

a3, matching and comparing the comprehensive types corresponding to the fire fighting equipment equipped in each target fire fighting area of the building construction site with the types of the standard equipped fire fighting equipment corresponding to each target fire fighting area, counting the safety conformity influence coefficient of the types of the fire fighting equipment equipped in each target fire fighting area, if the comprehensive type corresponding to the fire fighting equipment equipped in a certain target fire fighting area of the building construction site is consistent with the type of the standard equipped fire fighting equipment corresponding to the target fire fighting area of the building construction site, if the comprehensive type corresponding to the fire fighting equipment allocated in a certain target fire fighting area of the building construction operation site is inconsistent with the type of the standard allocated fire fighting equipment corresponding to the target fire fighting area of the building construction site, recording the type safety coincidence influence coefficient of the fire fighting equipment allocated in the target fire fighting area as delta;

a4, when the comprehensive type of the fire fighting equipment allocated to each target fire fighting area of the building construction site is consistent with the type of the standard fire fighting equipment allocated to each target fire fighting area of the building construction site, comparing the level and the quantity of the fire fighting equipment allocated to each type of the target fire fighting area of the building construction site with the standard allocation level and the standard allocation quantity corresponding to each type of the fire fighting equipment, and further counting the basic information safety conformity influence coefficient of each type of the fire fighting equipment allocated to each target fire fighting area;

wherein, the basic information safety conformity influence coefficient calculation formula of various fire fighting equipment equipped in each target fire fighting area is as follows

β _v ^dt The safety of the ith basic information of the fire fighting equipment equipped in the tth target fire fighting area of the building construction operation site conforms to the influence coefficient s1 _d ^t ,s2 _d ^t Respectively representing the corresponding grade and quantity of the t type fire fighting equipment in the d target fire fighting area of the building construction operation site, s1 _{d standard} ^t ,s2 _{d standard} ^t The method comprises the steps of respectively indicating the standard allocation level and the standard allocation quantity corresponding to the t-th type of fire-fighting equipment in the d-th target fire-fighting area of the building construction operation site, v indicating basic information of various types of fire-fighting equipment, v being s1, s2, s1 and s2 indicating the level and the quantity corresponding to various types of fire-fighting equipment, t indicating the comprehensive type number of the fire-fighting equipment allocated in each target fire-fighting area, and t being 1, 2,. p,. q;

a5, according to the statistic basic information safety coincidence influence coefficients of various fire fighting equipment equipped in each target fire fighting area, and further, the statistic basic information safety coincidence influence coefficients of the fire fighting equipment equipped in each target fire fighting area are obtained.

Wherein, the basic information safety conformity influence coefficient calculation formula of each target fire fighting area equipped with fire fighting equipment is

γ _d Indicating that the d-th target fire-fighting area of the building construction operation site is provided with a safety coincidence influence coefficient corresponding to the basic information of the fire-fighting equipment, q indicating the type corresponding to the fire-fighting equipment of each target fire-fighting area, mu _d Indicates that the d-th target fire-fighting area of the building construction operation site is provided with fire-fighting equipment with the type safety according with the influence coefficient mu _d Value of alpha _d Or delta _d ，α _d The safety coincidence influence coefficient is delta when the comprehensive type corresponding to the d-th target fire fighting area of the building construction operation site equipped with the fire fighting equipment is consistent with the standard equipped fire fighting equipment type corresponding to the d-th target fire fighting area of the building construction site, and the safety coincidence influence coefficient is delta _d The safety coincidence influence coefficient corresponding to the type of the fire fighting equipment allocated in the d-th target fire fighting area of the building construction site is shown when the type of the comprehensive type corresponding to the d-th target fire fighting area of the building construction site is inconsistent with the type of the standard fire fighting equipment allocated corresponding to the d-th target fire fighting area of the building construction site.

According to the embodiment of the invention, the type, the grade and the quantity corresponding to the fire fighting equipment allocated to each target fire fighting area of the building construction operation site are analyzed, so that the reasonability that the safety of the fire fighting equipment allocated to each target fire fighting area accords with the analysis result is greatly improved, and the reference of the safety of the fire fighting equipment allocated to each target fire fighting area accords with the analysis result is also greatly improved.

specifically, the fire fighting equipment layout information detection is used for detecting the layout heights corresponding to the fire fighting equipment in each target fire fighting area of the building construction operation field and the layout intervals among the fire fighting equipment, further detecting the layout heights corresponding to the fire fighting equipment in each target fire fighting area and the layout intervals among the fire fighting equipment in each target fire fighting area by using a laser range finder, obtaining the layout heights corresponding to the fire fighting equipment in each target fire fighting area of the building construction operation field and the layout intervals corresponding to the fire fighting equipment in each target fire fighting area of the building construction operation field, and recording the layout heights corresponding to the fire fighting equipment in each target fire fighting area of the building construction operation field and the layout intervals corresponding to the fire fighting equipment in each target fire fighting area of the building construction operation field as H and L respectively.

The invention visually reflects the convenience of taking the fire fighting equipment in the building construction site by detecting the arrangement height of the fire fighting equipment and the distance between the arrangement of the fire fighting equipment, and greatly improves the accuracy of the arrangement safety analysis of the fire fighting equipment arranged in each target fire fighting area.

The cloud management platform is used for analyzing the layout information corresponding to the fire fighting equipment equipped in each target fire fighting area of the building construction operation field, acquiring the layout height corresponding to the fire fighting equipment equipped in each target fire fighting area of the building construction operation field and the layout space corresponding to the fire fighting equipment equipped, and then according to the type corresponding to each target fire-fighting area in the building construction operation field, calling the standard layout height and the standard layout interval corresponding to each target fire-fighting area type fire-fighting equipment in the building construction operation field from the database, comparing the layout height corresponding to each equipped fire-fighting equipment and the layout interval corresponding to each equipped fire-fighting equipment with the standard layout height and the standard layout interval corresponding to each target fire-fighting area type fire-fighting equipment in the building construction operation field, and counting the layout safety coincidence influence coefficient of each target fire-fighting area equipped with the fire-fighting equipment.

Wherein, the fire fighting equipment layout information safety conformity influence coefficient calculation formula of each target fire fighting area is as follows

λ _d The safety corresponding to the information of the layout of the fire fighting equipment in the d-th target fire fighting area of the construction site is expressed as the influence coefficient H _d ^r The layout height L corresponding to the r-th equipped fire-fighting equipment in the d-th target fire-fighting area of the building construction operation site is shown _d ^r+1,r Indicating the distance between the (r + 1) th and the (r) th fire-fighting equipment in the (d) th target fire-fighting area of the construction site, H _{d standard} And L _{d standard} And respectively showing the standard laying height and the standard laying interval corresponding to the d-th target fire-fighting area of the building construction operation field.

According to the embodiment of the invention, by analyzing the layout height and the layout space of each target fire fighting device, the occurrence of an event that the fire fighting device is difficult to take due to unreasonable layout position is effectively avoided, great convenience is provided for the follow-up taking of the fire fighting device, and effective equipment guarantee is provided for a building construction operation site.

specifically, the fire fighting equipment layout environment parameter comprises a plurality of environment parameter detection units which are respectively used for detecting corresponding environment parameters in each target fire fighting area of the building construction operation field and each equipped fire fighting equipment layout area, so as to obtain corresponding environment parameters in each target fire fighting area of the building construction operation field and each equipped fire fighting equipment layout area, wherein the corresponding environment parameters in each equipped fire fighting equipment layout area comprise temperature, humidity and pH value, and further construct each target fire fighting area and each equipped fire fighting equipment layout environment parameter set J _z ^d (J _z ^d 1,J _z ^d 2,...J _z ^d i,...J _z ^d n)，J _z ^d i represents a numerical value corresponding to the environmental parameter of the ith fire fighting equipment-equipped area of the ith target fire fighting area of the building construction operation site, z represents the environmental parameter of the fire fighting equipment-equipped area, and z is c1, c2, c3, c1, c2 and c3 which respectively represent the corresponding temperature, humidity and pH value in the fire fighting equipment-equipped area.

The environment parameter detection unit is a temperature sensor, a humidity sensor and a pH value detector, the temperature sensor is used for detecting the corresponding temperature in each target fire fighting area of the building construction operation field, the humidity sensor is used for detecting the corresponding humidity in each target fire fighting area of the building construction operation field, and the pH value detector is used for detecting the corresponding pH value in each target fire fighting area of the building construction operation field, wherein each target fire fighting area is provided with a fire fighting device.

The cloud management platform is used for analyzing layout environment parameters corresponding to the fire fighting equipment equipped in each target fire fighting area of the building construction operation field, acquiring a layout environment parameter set corresponding to the fire fighting equipment equipped in each target fire fighting area, further acquiring the temperature, humidity and pH value corresponding to the layout area corresponding to the fire fighting equipment equipped in each target fire fighting area of the building construction operation field, comparing the temperature, humidity and pH value corresponding to the layout area corresponding to the fire fighting equipment equipped in each target fire fighting area of the building construction operation field with the standard temperature, standard humidity and standard pH value corresponding to the fire fighting equipment equipped in each target fire fighting area, and further counting the layout environment information safety of each target fire fighting area and meeting the influence coefficient.

Wherein, the fire fighting equipment distribution environment information safety conformity influence coefficient calculation formula of each target fire fighting area is

Indicating the d-th target fire-fighting area of the construction siteSafety conformity of the deployment environment information corresponding to the equipped fire-fighting equipment to the influence coefficient, c1 _d ^r ,c2 _d ^r ,c3 _d ^r Respectively showing the temperature, humidity and pH value corresponding to the r < th > equipped fire-fighting equipment layout area of the d < th > target fire-fighting area of the building construction site, c1 _{d standard} ,c2 _{d standard} ,c3 _{d standard} The standard temperature, the standard humidity and the standard pH value corresponding to the d-th target fire-fighting area of the building construction site are represented, r represents that each target fire-fighting area is provided with a fire-fighting equipment number, and r is 1, 2.

According to the embodiment of the invention, through the analysis of the distribution environment of the fire fighting equipment allocated to each target fire fighting area, the influence of the distribution environment parameters of the fire fighting equipment allocated to the current target fire fighting area on the fire fighting equipment allocation capacity is effectively analyzed, and the distribution management scientificity of the fire fighting equipment allocated to each target fire fighting area is greatly improved.

The cloud management platform is used for carrying out comprehensive analysis on basic information, layout information and layout environment information corresponding to fire fighting equipment equipped in each target fire fighting area of the building construction operation field, further counting the number of the fire fighting hidden danger areas of the building construction operation field, extracting the number corresponding to each fire fighting hidden danger area, and further acquiring the position corresponding to each fire fighting hidden danger area.

Wherein, the process of being equipped with fire fighting equipment integrated analysis to each target fire fighting zone in this building construction operation place is: according to the counted basic information safety coincidence influence coefficients of the fire fighting equipment equipped in each target fire fighting area, the safety coincidence influence coefficients of the fire fighting equipment equipped layout information in each target fire fighting area and the safety coincidence influence coefficients of the fire fighting equipment equipped layout environment information in each target fire fighting area, the comprehensive safety coincidence influence coefficients of the fire fighting equipment equipped layout in each target fire fighting area are counted;

wherein, the comprehensive safety coincidence influence coefficient calculation formula of the arrangement of the fire fighting equipment in each target fire fighting area is

Q _d Shows that the d-th target fire-fighting area of the building construction site is equipped with fire-fighting equipment to lay comprehensive safety and accord with the influence coefficient

Wherein, this building construction operation place fire control hidden danger regional statistical process does: and if a certain target fire fighting area is provided with fire fighting equipment to lay the comprehensive safety coincidence influence coefficient to be greater than the building construction operation field fire fighting laying standard safety coincidence influence coefficient, recording the target fire fighting area as the building construction operation field, and then counting the number of the building construction operation field in the building construction operation field.

The embodiment of the invention carries out detailed detection and detailed analysis by allocating basic information, layout information and layout environment parameters corresponding to fire fighting equipment to each target fire fighting area of the building construction operation field, effectively solves the problem that the content managed by the existing building construction operation information management platform has one-sidedness, further cannot effectively improve the management efficiency of the building construction operation information, greatly improves the safety of workers and construction resources of the building construction field, and also effectively improves the emergency treatment effect of accidental fire fighting accidents.

The database is used for storing the types of standard equipped fire-fighting equipment corresponding to the types and the occupied areas of all the fire-fighting areas, the standard equipped grades corresponding to all the types of fire-fighting equipment, the standard equipped quantity corresponding to all the types of fire-fighting equipment, the standard laying height and the standard laying interval corresponding to all the target fire-fighting area types of fire-fighting equipment, the standard temperature, the standard humidity and the standard pH value corresponding to all the target fire-fighting area types of fire-fighting equipment, and the standard safety compliance influence coefficient corresponding to the fire-fighting laying of the building construction operation site.

Specifically, the information sending terminal is used for sending the corresponding quantity of the fire-fighting hidden danger areas of the building construction operation site and the corresponding positions of the fire-fighting hidden danger areas to the safety supervision personnel of the building construction operation site.

According to the embodiment of the invention, at the information sending terminal, the number and the positions of the target fire-fighting areas with fire-fighting hidden dangers in the building construction operation site are sent to the safety supervision personnel in the building construction operation site, so that the elimination efficiency of the safety supervision personnel in the building construction operation site on the fire-fighting equipment hidden dangers is greatly improved, the smoothness of the building construction operation progress is further greatly improved, and meanwhile, the important property loss and life threat caused by the arrangement problem of the fire-fighting equipment are effectively avoided.

The foregoing is merely exemplary and illustrative of the principles of the present invention and various modifications, additions and substitutions of the specific embodiments described herein may be made by those skilled in the art without departing from the principles of the present invention or exceeding the scope of the claims set forth herein.

Claims

1. The utility model provides a building construction operation information-based management platform based on big data analysis which characterized in that: the cloud management platform is respectively connected with a target fire fighting area basic information acquisition module, a fire fighting equipment layout information detection module, a fire fighting equipment layout environment parameter detection module, a database and an information sending terminal;

2. The building construction work informatization management platform based on big data analysis according to claim 1, characterized in that: the basic information of each target fire-fighting area of the building construction operation site comprises the type corresponding to each target fire-fighting area, the floor area corresponding to each target fire-fighting area and the position corresponding to each target fire-fighting area, and a basic information set F of each target fire-fighting area is constructed according to the obtained basic information corresponding to each target fire-fighting area of the building construction operation site _w (F _w 1,F _w 2,...F _w j,...F _w m)，F _w The information processing method comprises the steps that i represents w-th basic information corresponding to the jth target fire-fighting area of the building construction operation site, w represents basic information of the target fire-fighting area, and w is a1, a2, a3, a1, a2 and a3 which respectively represent the type, the occupied area and the position corresponding to each target fire-fighting area.

3. The building construction operation informatization management platform based on big data analysis according to claim 1, characterized in that: the basic information corresponding to the fire fighting equipment in each target fire fighting area comprises the type corresponding to the fire fighting equipment and the grade corresponding to the fire fighting equipment in each type, and then a basic information set X of the fire fighting equipment in each target fire fighting area is established according to the basic information corresponding to the fire fighting equipment in each type in each target fire fighting area of the building construction operation site _e ^d (X _e ^d 1,X _e ^d 2,...X _e ^d i,...X _e ^d n)，X _e ^d i represents the e-th basic information corresponding to the ith fire fighting equipment in the ith target fire fighting area of the building construction operation site, e represents the basic information of each fire fighting equipment, and e represents b1, b2, b1 and b2 respectively represent the type corresponding to the fire fighting equipment and the level corresponding to each type of fire fighting equipment.

4. The building construction work informatization management platform based on big data analysis according to claim 1, characterized in that: the fire fighting equipment layout information detection is used for detecting the layout heights corresponding to all the equipped fire fighting equipment in all the target fire fighting areas of the building construction operation field and the layout intervals among all the equipped fire fighting equipment, further detecting the layout heights corresponding to all the equipped fire fighting equipment in all the target fire fighting areas and the layout intervals among all the equipped fire fighting equipment by using a laser range finder, acquiring the layout heights corresponding to all the equipped fire fighting equipment in all the target fire fighting areas of the building construction operation field and the layout intervals corresponding to all the equipped fire fighting equipment, and recording the layout heights corresponding to all the equipped fire fighting equipment in all the target fire fighting areas of the building construction operation field and the layout intervals corresponding to all the equipped fire fighting equipment as H and L respectively.

5. The building construction work informatization management platform based on big data analysis according to claim 1, characterized in that: the fire fighting equipment layout environment parameter comprises a plurality of environment parameter detection units which are respectively used for detecting corresponding environment parameters in each target fire fighting area of the building construction operation field and each fire fighting equipment layout area, and further acquiring corresponding environment parameters in each target fire fighting area of the building construction operation field and each fire fighting equipment layout area, wherein the corresponding environment parameters in each fire fighting equipment layout area comprise temperature, humidity and pH value, and further constructing each target fire fighting area and each fire fighting equipment layout environment parameter set J _z ^d (J _z ^d 1,J _z ^d 2,...J _z ^d i,...J _z ^d n)，J _z ^d i represents a numerical value corresponding to the environmental parameter of the ith fire fighting equipment-equipped area of the ith target fire fighting area of the building construction operation site, z represents the environmental parameter of the fire fighting equipment-equipped area, and z is c1, c2, c3, c1, c2 and c3 which respectively represent the corresponding temperature, humidity and pH value in the fire fighting equipment-equipped area.

6. The building construction work informatization management platform based on big data analysis according to claim 1, characterized in that: the cloud management platform is used for analyzing basic information corresponding to fire fighting equipment allocated to each target fire fighting area of the building construction operation site, acquiring a basic information set of each target fire fighting area, further acquiring types and occupied areas corresponding to each target fire fighting area, simultaneously acquiring various basic information sets of fire fighting equipment allocated to each target fire fighting area, further acquiring types corresponding to each fire fighting equipment and grades corresponding to various fire fighting equipment allocated, and according to the basic information corresponding to the fire fighting equipment of each target fire fighting area of the building construction operation site and the basic information corresponding to each target fire fighting area, counting the basic information safety coincidence influence coefficient of the fire fighting equipment allocated to each target fire fighting area.

7. The building construction work informatization management platform based on big data analysis according to claim 1, characterized in that: the cloud management platform is used for analyzing the layout information corresponding to the fire fighting equipment equipped in each target fire fighting area of the building construction operation field, acquiring the layout height corresponding to the fire fighting equipment equipped in each target fire fighting area of the building construction operation field and the layout space corresponding to the fire fighting equipment equipped, and then according to the type corresponding to each target fire fighting area of the building construction operation field, calling the standard layout height and the standard layout interval corresponding to each target fire fighting area type fire fighting equipment of the building construction operation field from the database, comparing the layout height corresponding to each equipped fire fighting equipment and the layout interval corresponding to each equipped fire fighting equipment with the standard layout height and the standard layout interval corresponding to each target fire fighting area type fire fighting equipment of the building construction operation field, and counting the layout safety of each target fire fighting area equipped fire fighting equipment to meet the influence coefficient.

8. The building construction work informatization management platform based on big data analysis according to claim 1, characterized in that: the cloud management platform is used for analyzing layout environment parameters corresponding to the fire fighting equipment equipped in each target fire fighting area of the building construction operation field, acquiring a layout environment parameter set corresponding to the fire fighting equipment equipped in each target fire fighting area, further acquiring the temperature, humidity and pH value corresponding to the layout area corresponding to the fire fighting equipment equipped in each target fire fighting area of the building construction operation field, comparing the temperature, humidity and pH value corresponding to the layout area corresponding to the fire fighting equipment equipped in each target fire fighting area of the building construction operation field with the standard temperature, standard humidity and standard pH value corresponding to the fire fighting equipment equipped in each target fire fighting area, and further counting the layout environment information safety of each target fire fighting area and meeting the influence coefficient.

9. The building construction operation informatization management platform based on big data analysis according to claim 1, characterized in that: the cloud management platform is used for carrying out comprehensive analysis on basic information, layout information and layout environment information corresponding to fire fighting equipment equipped in each target fire fighting area of the building construction operation field, further counting the number of the fire fighting hidden danger areas of the building construction operation field, extracting the number corresponding to each fire fighting hidden danger area, and further acquiring the position corresponding to each fire fighting hidden danger area.

10. The building construction operation informatization management platform based on big data analysis according to claim 1, characterized in that: the database is used for storing the types of standard equipped fire-fighting equipment corresponding to the types and the occupied areas of all the fire-fighting areas, the standard equipped grades corresponding to all the types of fire-fighting equipment, the standard equipped quantity corresponding to all the types of fire-fighting equipment, the standard laying height and the standard laying interval corresponding to all the target fire-fighting area types of fire-fighting equipment, the standard temperature, the standard humidity and the standard pH value corresponding to all the target fire-fighting area types of fire-fighting equipment, and the standard safety compliance influence coefficient corresponding to the building construction site fire-fighting arrangement.