CN112560140A

CN112560140A - Assembly type building visual construction intelligent cloud management platform based on cloud computing

Info

Publication number: CN112560140A
Application number: CN202011438038.9A
Authority: CN
Inventors: 刘国迁; 高远
Original assignee: Nanjing Jiasu E Commerce Co ltd
Current assignee: Nanjing Jiasu E Commerce Co ltd
Priority date: 2020-12-10
Filing date: 2020-12-10
Publication date: 2021-03-26

Abstract

The invention discloses an assembly type building visual construction intelligent cloud management platform based on cloud computing, which comprises a model construction module, a model division module, a prefabricated part classification module, a prefabricated part analysis module, a prefabricated part statistic module, a prefabricated part comparison module, a splicing number statistic module, a cloud management platform, an early warning display module and a cloud database; the method comprises the steps of constructing an assembly type building model to be constructed, splicing and demonstrating, counting the number of prefabricated components of each type in the assembled type building at each spliced assembly stage, analyzing whether the assembled type building at the last spliced assembly stage meets requirements or not, carrying out early warning reminding when the assembled type building does not meet the requirements, calculating the residual total number of the prefabricated components of each type in the assembled type building, analyzing whether the number of the prefabricated components of each type in the assembled type building meets the standards or not, and carrying out early warning display on the prefabricated components of each type with the unqualified number in the assembled type building, so that the construction efficiency and the construction accuracy of the assembled type building are improved.

Description

Assembly type building visual construction intelligent cloud management platform based on cloud computing

Technical Field

The invention relates to the field of construction management of constructional engineering, in particular to an intelligent cloud management platform for visual construction of an assembly type building based on cloud computing.

Background

With the acceleration of the urbanization construction rhythm of China and the continuous promotion of building industrialization, the assembly type building is gradually applied and popularized in the building industry of China. The fabricated building is a building fabricated by fabricated parts on a construction site, the design of the fabricated building meets the requirements of building functions and performance, meets the design principles of sustainable development and environmental protection, and is increasingly adopted in the construction of building engineering in China.

At present, the existing assembly type building construction assembly technology is mainly based on a manual assembly mode, a building information model technology is not applied to an assembly type building, a series of problems are assembled manually by experience, the accuracy of the assembly type building is influenced by human subjective factors, the integrity and the rigidity of the assembly type building are reduced, the safety of the assembly type building is seriously influenced, meanwhile, the quantity of prefabricated parts of the assembly type building is not matched due to manual assembly errors, the construction efficiency and the accuracy of the assembly type building are reduced, the development of the assembly type building is restricted, the requirement of the existing rapidly-developed urban building is difficult to meet, and in order to solve the problems, an assembly type building visual construction intelligent cloud management platform based on cloud computing is designed.

Disclosure of Invention

The invention aims to provide an intelligent cloud management platform for visual construction of an assembly building based on cloud computing, and by constructing an assembly building model to be constructed, meanwhile, the prefabricated members are divided according to different assembly stages of the prefabricated building, the total number of the prefabricated members of each category in the prefabricated building to be constructed is counted, splicing demonstration is carried out through a cloud management platform, meanwhile, the number of prefabricated members of various types in the assembled building in each assembled stage which is spliced is counted, whether the assembled building in the final assembled stage which is spliced meets the requirement is analyzed, when the prefabricated components do not meet the requirements, early warning reminding is carried out, the residual total number of the prefabricated components of each category in the fabricated building is calculated, whether the number of the prefabricated components of each category in the fabricated building reaches the standards or not is analyzed, early warning display is carried out to each type of prefabricated members of which the number does not reach the standard in the fabricated building, and the problems existing in the background technology are solved.

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

the cloud computing-based intelligent cloud management platform for visual construction of the fabricated building comprises a model construction module, a model division module, a prefabricated part classification module, a prefabricated part analysis module, a prefabricated part statistics module, a prefabricated part comparison module, a splicing number statistics module, a cloud management platform, an early warning display module and a cloud database;

the cloud management platform is respectively connected with the model building module, the prefabricated part analysis module, the prefabricated part statistics module, the prefabricated part comparison module, the splicing number statistics module, the early warning display module and the cloud database, the cloud database is respectively connected with the model dividing module and the prefabricated part comparison module, the model building module is connected with the model dividing module, the prefabricated part classification module is connected with the prefabricated part analysis module, and the prefabricated part statistics module is respectively connected with the prefabricated part comparison module and the splicing number statistics module;

the model building module is used for obtaining an assembled building model to be constructed, recording an assembled building design drawing to be constructed into the platform, extracting each size data on the assembled building design drawing to be constructed, building the assembled building model to be constructed, and respectively sending the built assembled building model to be constructed to the model dividing module and the cloud management platform;

the model dividing module is used for receiving the assembled building model to be constructed sent by the model building module, dividing the received assembled building model to be constructed, dividing the assembled building model to be constructed into a plurality of models in assembly stages according to the dividing sequence of different assembly stages of the assembled building, numbering the models in the assembly stages in the assembled building model to be constructed in sequence, wherein the model numbers of the assembly stages in the assembled building model to be constructed are respectively 1,2, 1, i, n, and sending the model numbers of the assembly stages in the assembled building model to be constructed to the cloud database;

the prefabricated part classifying module is used for classifying prefabricated parts of the prefabricated building to be constructed, classifying the prefabricated parts of the prefabricated building to be constructed according to different types of the prefabricated parts, classifying the prefabricated parts into prefabricated parts of various types in the prefabricated building to be constructed, sequentially numbering the prefabricated parts of various types in the prefabricated building to be constructed according to a set sequence, wherein the number of the prefabricated parts of various types in the prefabricated building to be constructed is 1,2, a.

The prefabricated part analysis module is used for receiving the serial numbers of all types of prefabricated parts in the prefabricated part classification module to be constructed, counting the total number of all types of prefabricated parts in the prefabricated part to be constructed and forming a total number set X (X) of all types of prefabricated parts in the prefabricated part to be constructed₁,x₂,...,x_j,...,x_m)，x_jThe total number of the prefabricated components of the jth category in the prefabricated building to be constructed is represented, and the total number of the prefabricated components of all categories in the prefabricated building to be constructed is sent to the cloud management platform;

the cloud management platform is used for receiving the prefabricated building models to be constructed sent by the model building module, receiving the total number set of all types of prefabricated components in the prefabricated building to be constructed sent by the prefabricated component analysis module, splicing and demonstrating the prefabricated building models to be constructed in a Gao splicing and practicing mode, and sending the assembled building at the assembled stage to the prefabricated component counting module after splicing of the assembled building at the assembled stage is completed;

the prefabricated part counting module is used for receiving the assembled buildings in all assembled stages which are spliced and sent by the cloud management platform, counting the number of prefabricated parts in all types in the assembled buildings in all the assembled stages to form a number set X' A of the prefabricated parts in all the types in the assembled buildings in all the assembled stages_r(x′₁a_r,x′₂a_r,...,x′_ja_r,...,x′_ma_r)，x′_ja_rThe number of the jth prefabricated members in the spliced prefabricated building at the r-th assembly stage is represented, wherein r is 1,2, k is less than or equal to n, and the number set of the prefabricated members in all the categories in the spliced prefabricated building at all the assembly stages is respectively sent to a prefabricated member comparison module and a splicing number counting module;

for the preform contrast moduleReceiving the number set of the prefabricated components of each category in the assembled building of each assembled stage which is spliced and sent by the prefabricated component counting module, extracting the standard number of the prefabricated components of each category required by construction of each assembled stage in the assembled building stored in the cloud database, comparing the number of the prefabricated components of each category in the assembled building of each spliced assembled stage with the standard number of the prefabricated components of the corresponding category required by construction of the corresponding assembled stage in the assembled building, and obtaining the number comparison difference value set delta X' A of the prefabricated components of each category in the assembled building of each spliced assembled stage_r(Δx′₁a_r,Δx′₂a_r,...,Δx′_ja_r,...,Δx′_ma_r)，Δx′_ja_rThe method comprises the steps that a comparison difference value is expressed as the number of jth prefabricated members in spliced assembly-stage assembly-type buildings and the standard number of corresponding prefabricated members required by corresponding assembly-stage construction in the stored assembly-type buildings, wherein r is 1,2, k, k is less than or equal to n, and the number comparison difference value set of the prefabricated members in each category in the spliced assembly-type buildings is sent to a cloud management platform;

the cloud management platform is used for receiving the number comparison difference value set of the prefabricated components of all types in the assembled building of all assembled stages which are spliced and sent by the prefabricated component comparison module, analyzing the received number comparison difference value set of the prefabricated components of all types in the assembled building of the final assembled stage which is spliced, continuing to splice and demonstrate the assembled building model of the next assembled stage if the number comparison difference value of the prefabricated components of all types in the assembled building of the final assembled stage which is spliced is equal to zero and shows that the assembled building of the assembled stage which is spliced meets the requirements, and sending an early warning instruction to the early warning display module if the number comparison difference value of the prefabricated components of a certain type in the assembled building of the final assembled stage which is spliced is greater than or less than zero and shows that the assembled building of the assembled stage which is spliced does not meet the requirements;

the splicing number counting module is used for receiving the number of the prefabricated members of each category in the assembled building at each assembling stage which are spliced and sent by the prefabricated member counting moduleAnd a purpose set, calculating the total number of prefabricated members of each category in the spliced assembly type building, counting the total number of prefabricated members of each category in the spliced assembly type building, and forming a total number set x '(x'₁,x′₂,...,x′_j,...,x′_m)，x′_jThe total number of the prefabricated members of the jth category in the spliced assembly type building is represented, and the total number of the prefabricated members of all categories in the spliced assembly type building is collected and sent to a cloud management platform;

the cloud management platform is used for receiving the total number set of the prefabricated components of all types in the spliced assembly type building sent by the splicing number counting module, calculating the residual total number of the prefabricated components of all types in the assembly type building, counting the residual total number of the prefabricated components of all types in the assembly type building, and forming a residual total number set delta x (delta x) of the prefabricated components of all types in the assembly type building₁,Δx₂,...,Δx_j,...,Δx_m)，Δx_jRepresenting the number of the jth category of prefabricated components in the prefabricated building, extracting the standard number of the prefabricated components of each category required by construction of each remaining assembly stage in the prefabricated building, which is stored in a cloud database, calculating the standard total number of the prefabricated components of each category required by construction of each remaining assembly stage in the prefabricated building, comparing the remaining total number of the prefabricated components of each category in the prefabricated building with the standard total number of the prefabricated components of each category required by construction of each remaining assembly stage, if the remaining total number of the prefabricated components of a certain category in the prefabricated building is equal to the standard total number of the prefabricated components of each category required by construction of each remaining assembly stage, indicating that the number of the prefabricated components of the category in the prefabricated building reaches the standard, and if the remaining total number of the prefabricated components of a certain category in the prefabricated building is greater than or less than the standard total number of the prefabricated components of each category required by construction of each, the number of the prefabricated members of the type in the fabricated building is indicated to be not up to the standard, the prefabricated members of the types which are not up to the standard in the fabricated building are counted, and the prefabricated members of the types which are not up to the standard in the fabricated building are sent to an early warning display module;

the early warning display module is used for receiving the early warning instruction which is sent by the cloud management platform and is not qualified by the assembled building at the final assembly stage and the prefabricated parts of various types, the number of which is not qualified, in the assembled building, carrying out early warning display and informing related personnel to carry out corresponding operation treatment;

the cloud database is used for receiving the model numbers of all assembly stages in the assembly building model to be constructed, which are sent by the model dividing module, and storing the standard number of all types of prefabricated parts required by construction of all assembly stages in the assembly building;

further, the model building module adopts a BIM technology to build a virtual assembly type building engineering three-dimensional model;

furthermore, the prefabricated members in all categories comprise prefabricated shear wall external wall panels, prefabricated shear wall internal wall panels, prefabricated columns, prefabricated hidden columns, prefabricated composite beams, prefabricated nodes, prefabricated composite slabs, prefabricated external wall panels, prefabricated stair boards, prefabricated balcony slabs, prefabricated parapet walls, prefabricated integral kitchens and bathrooms and the like;

further, the total number of prefabricated members of each category in the spliced assembly type building is calculated according to the formula

x′_jExpressed as total number of category j preforms in spliced fabricated building, x'_ja_rExpressing the number of the jth category prefabricated members in the spliced assembly building at the r assembling stage, and expressing k as the number of the assembling stages in the spliced assembly building;

further, the calculation formula of the residual total number of the prefabricated members in each category in the fabricated building is delta x_j＝x_j-x′_j，Δx_jExpressed as the remaining total number of the j category of prefabricated members in the fabricated building, x_jExpressed as total number of prefabricated elements of category j in the fabricated building to be constructed, x'_jExpressed as the total number of the jth category of prefabricated members in the spliced assembly building;

further, the standard total number of all kinds of prefabricated members required by construction in the rest assembly stage in the assembly type buildingThe formula is

X_jExpressed as the standard total number, X, of the jth class of prefabricated elements required for the construction of the remaining assembly phases in the fabricated building_jB_lThe standard number of the j categories of prefabricated components required for the construction of the remaining l erection stage in the prefabricated building is expressed.

Has the advantages that:

(1) the cloud computing-based visual construction intelligent cloud management platform for the prefabricated building, provided by the invention, has the advantages that the prefabricated building model to be constructed is constructed, meanwhile, the prefabricated building model to be constructed is divided according to different assembly stages of the prefabricated building, the total number of prefabricated components of various types in the prefabricated building to be constructed is counted, the splicing demonstration is carried out through the cloud management platform, the problem that the precision of the prefabricated building is influenced by human subjective factors is avoided, the construction process of the prefabricated building is clearer and more standard, the integrity and the rigidity of the prefabricated building are improved, the safety of the prefabricated building is ensured not to be influenced, the number of the prefabricated components of various types in the assembled building in each spliced assembly stage is counted, reliable reference data are provided for calculating the residual total number of the prefabricated components of various types in the assembled building in the later stage, and whether the assembled building in the final spliced assembly stage meets the requirements or not is analyzed, carry out the early warning when not conform to the requirement and remind to avoid manual assembly prefab to take place the problem of error, improved fabricated building's efficiency of construction.

(2) According to the method, the cloud management platform is used for calculating the residual total number of all types of prefabricated parts in the fabricated building, analyzing whether the number of all types of prefabricated parts in the fabricated building reaches the standard or not, and early warning and displaying all types of prefabricated parts which do not reach the standard in the fabricated building, so that the construction accuracy of the fabricated building is improved, the sustainable development of the fabricated building is promoted, and the requirement of the existing rapidly-developed urban building is met.

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 of the present invention.

Detailed Description

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

Referring to fig. 1, the cloud computing-based intelligent cloud management platform for visual construction of the fabricated building comprises a model building module, a model dividing module, a prefabricated part classifying module, a prefabricated part analyzing module, a prefabricated part counting module, a prefabricated part comparing module, a splicing number counting module, a cloud management platform, an early warning display module and a cloud database.

The cloud management platform is respectively connected with the model building module, the prefabricated member analysis module, the prefabricated member statistics module, the prefabricated member comparison module, the splicing number statistics module, the early warning display module and the cloud database, the cloud database is respectively connected with the model dividing module and the prefabricated member comparison module, the model building module is connected with the model dividing module, the prefabricated member classification module is connected with the prefabricated member analysis module, and the prefabricated member statistics module is respectively connected with the prefabricated member comparison module and the splicing number statistics module.

The model building module is used for obtaining the fabricated building model to be constructed, extracting all dimensional data on the fabricated building design drawing to be constructed by inputting the fabricated building design drawing to be constructed into the platform, building the fabricated building three-dimensional model to be constructed by adopting a BIM (building information modeling) technology, and respectively sending the built fabricated building model to be constructed to the model dividing module and the cloud management platform.

The model dividing module is used for receiving the assembled building model to be constructed sent by the model building module, dividing the received assembled building model to be constructed, dividing the assembled building model to be constructed into a plurality of models in assembly stages according to the dividing sequence of different assembly stages of the assembled building, numbering the models in the assembly stages in the assembled building model to be constructed in sequence, wherein the model numbers of the assembly stages in the assembled building model to be constructed are respectively 1,2, 1, i, n, and sending the model numbers of the assembly stages in the assembled building model to be constructed to the cloud database.

The prefabricated part analysis module is used for receiving the serial numbers of all types of prefabricated parts in the prefabricated part classification module to be constructed, counting the total number of all types of prefabricated parts in the prefabricated part to be constructed and forming a total number set X (X) of all types of prefabricated parts in the prefabricated part to be constructed₁,x₂,...,x_j,...,x_m)，x_jAnd (4) the total number of the prefabricated components of the jth category in the prefabricated building to be constructed is represented, and the total number of the prefabricated components of all categories in the prefabricated building to be constructed is sent to the cloud management platform.

The cloud management platform is used for receiving the prefabricated building models to be constructed sent by the model building modules, receiving the total number set of all kinds of prefabricated components to be constructed in the prefabricated building to be constructed sent by the prefabricated component analysis modules, splicing and demonstrating the prefabricated building models to be constructed in a mode of Caogong splicing and practicing, avoiding the problem that human subjective factors influence the accuracy of the prefabricated building, enabling the construction process of the prefabricated building to be clearer and more standard, improving the integrity and rigidity of the prefabricated building, ensuring that the safety of the prefabricated building is not influenced, and meanwhile, after splicing of a certain assembly stage in the prefabricated building is completed, sending the spliced prefabricated building in the assembly stage to the prefabricated component counting module.

The prefabricated part counting module is used for receiving the assembled buildings in all assembled stages which are spliced and sent by the cloud management platform, counting the number of prefabricated parts in all types in the assembled buildings in all the assembled stages which are spliced, providing reliable reference data for later-stage calculation of the total number of the prefabricated parts in all the types in the assembled buildings which are spliced, and forming a number set X' A of the prefabricated parts in all the types in the assembled buildings in all the assembled stages which are spliced_r(x′₁a_r,x′₂a_r,...,x′_ja_r,...,x′_ma_r)，x′_ja_rAnd the number of the jth prefabricated members in the spliced prefabricated buildings at the r-th assembly stage is represented, wherein r is 1,2, k is less than or equal to n, and the number set of the prefabricated members in all the categories in the spliced prefabricated buildings at all the assembly stages is respectively sent to the prefabricated member comparison module and the splicing number counting module.

The prefabricated part comparison module is used for receiving the number set of prefabricated parts of all types in the assembled building of all assembled stages which are spliced and sent by the prefabricated part statistics module, extracting the standard number of the prefabricated parts of all types required by construction of all assembled stages in the assembled building stored in the cloud database, comparing the number of the prefabricated parts of all types in the assembled building of all assembled stages which are spliced with the standard number of the prefabricated parts of corresponding types required by construction of corresponding assembled stages in the assembled building, and obtaining the number comparison difference set delta X' A of the prefabricated parts of all types in the assembled building of all assembled stages which are spliced_r(Δx′₁a_r,Δx′₂a_r,...,Δx′_ja_r,...,Δx′_ma_r)，Δx′_ja_rIndicated as splicedAnd comparing the number of the jth type prefabricated members in the prefabricated building of the r-th assembly stage with the standard number of the corresponding type prefabricated members required by the construction of the corresponding assembly stage in the stored prefabricated building, wherein r is 1,2, and k is less than or equal to n, and sending the number comparison difference set of the prefabricated members of each type in the assembled building of each assembly stage after splicing to the cloud management platform.

The cloud management platform is used for receiving the number comparison difference value set of the prefabricated components of all types in the assembled building of all assembled stages which are spliced and sent by the prefabricated component comparison module, analyzing the received number comparison difference value set of the prefabricated components of all types in the assembled building of the final assembled stage which is spliced, continuing to splice and demonstrate the assembled building model of the next assembled stage if the number comparison difference value of the prefabricated components of all types in the assembled building of the final assembled stage which is spliced is equal to zero, indicating that the assembled building of the assembled stage which is spliced meets the requirements, and sending an early warning instruction to the early warning display module if the number comparison difference value of the prefabricated components of a certain type in the assembled building of the final assembled stage which is spliced is greater than or less than zero, indicating that the assembled building of the assembled stage which is spliced does not meet the requirements, so as to avoid the problem of errors of the manually assembled prefabricated components, the construction efficiency of the fabricated building is improved.

The splicing number counting module is used for receiving the number set of all kinds of prefabricated members in the assembled building in all assembling stages which are spliced and sent by the prefabricated member counting module, calculating the total number of all kinds of prefabricated members in the spliced assembled building, providing reliable reference data for later-period calculation of the residual total number of all kinds of prefabricated members in the assembled building, and the total number calculation formula of all kinds of prefabricated members in the spliced assembled building is

x′_jExpressed as total number of category j preforms in spliced fabricated building, x'_ja_rExpressed as the number of the jth category prefabricated members in the spliced r-th assembly stage assembly structure, and k is expressed as the number of the spliced assembly structureThe number of assembly stages is counted, the total number of prefabricated members in each category in the assembled building is counted, and a total number set x ' (x ') of prefabricated members in each category in the assembled building is formed '₁,x′₂,...,x′_j,...,x′_m)，x′_jAnd sending the total number of the prefabricated members in each category in the spliced assembly type building to a cloud management platform.

The cloud management platform is used for receiving the total number set of the prefabricated members of all types in the spliced assembly type building sent by the splicing number counting module, calculating the residual total number of the prefabricated members of all types in the assembly type building, and the residual total number calculation formula of the prefabricated members of all types in the assembly type building is delta x_j＝x_j-x′_j，Δx_jExpressed as the remaining total number of the j category of prefabricated members in the fabricated building, x_jExpressed as total number of prefabricated elements of category j in the fabricated building to be constructed, x'_jThe total number of the prefabricated members of the jth category in the spliced prefabricated building is represented, the residual total number of the prefabricated members of each category in the prefabricated building is counted, and a residual total number set delta x (delta x) of the prefabricated members of each category in the prefabricated building is formed₁,Δx₂,...,Δx_j,...,Δx_m)，Δx_jExpressed as the remaining total number of jth category preforms in the fabricated building;

meanwhile, the cloud management platform extracts the standard number of the prefabricated members of each category required by construction of the rest assembly stages in the prefabricated building stored in the cloud database, the standard total number of the prefabricated members of each category required by construction of the rest assembly stages in the prefabricated building is calculated, and the standard total number of the prefabricated members of each category required by construction of the rest assembly stages in the prefabricated building is calculated according to the formula

X_jExpressed as the standard total number, X, of the jth class of prefabricated elements required for the construction of the remaining assembly phases in the fabricated building_jB_lExpressed as the remaining first assembly in the fabricated buildingThe number of the j classes of prefabricated components required by stage construction is compared with the total number of the classes of prefabricated components required by the construction of the remaining assembly stages, if the total number of the prefabricated components in a certain class of the prefabricated components in the prefabricated building is equal to the total number of the classes of prefabricated components required by the construction of the remaining assembly stages, the number of the prefabricated components in the class of the prefabricated building is up to the standard, if the total number of the prefabricated components in a certain class of the prefabricated building is larger than or smaller than the total number of the prefabricated components in the classes required by the construction of the remaining assembly stages, the number of the prefabricated components in the class of the prefabricated building is not up to the standard, the prefabricated components in the classes, the number of which is not up to the standard, in the prefabricated building is counted, and the prefabricated components in the classes, the number of which is not up to the standard, in the prefabricated.

The early warning display module is used for receiving the early warning instruction which is sent by the cloud management platform and is not qualified by the assembled building in the spliced final assembly stage and the prefabricated members of various types, the number of which is not qualified, in the assembled building, and performing early warning display to inform relevant personnel of performing corresponding operation treatment, so that the construction accuracy of the assembled building is improved, the sustainable development of the assembled building is promoted, and the requirement of the existing rapidly-developed urban building is met.

The cloud database is used for receiving model numbers of all assembling stages in the assembled building model to be constructed, which are sent by the model dividing module, and storing standard numbers of all types of prefabricated parts required by the construction of all assembling stages in the assembled building, wherein all types of prefabricated parts comprise prefabricated shear wall external wall panels, prefabricated shear wall internal wall panels, prefabricated columns, prefabricated hidden columns, prefabricated superposed beams, prefabricated nodes, prefabricated superposed slabs, prefabricated external wall panels, prefabricated stair boards, prefabricated balcony slabs, prefabricated parapet walls, prefabricated whole kitchens and bathrooms and the like.

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. Visual construction intelligence cloud management platform of assembled building based on cloud calculates, its characterized in that: the system comprises a model construction module, a model division module, a prefabricated part classification module, a prefabricated part analysis module, a prefabricated part statistics module, a prefabricated part comparison module, a splicing number statistics module, a cloud management platform, an early warning display module and a cloud database;

the prefabricated part counting module is used for receiving the assembled buildings in all assembled stages which are spliced and sent by the cloud management platform, counting the number of prefabricated parts in all types in the assembled buildings in all the assembled stages to form a number set X' A of the prefabricated parts in all the types in the assembled buildings in all the assembled stages_r(x′₁a_r,x′₂a_r,...,x′_ja_r,...,x′_ma_r)，x′_ja_rOf prefabricated elements of the jth category in prefabricated buildings, denoted as the spliced-up r-th assembly stageThe number r is 1,2, the.. k, k is less than or equal to n, and the number set of the prefabricated components of all types in the assembled building at all the assembled stages which are spliced is respectively sent to a prefabricated component comparison module and a splicing number counting module;

the prefabricated part comparison module is used for receiving the number set of prefabricated parts of all types in the assembled building of all assembled stages which are spliced and sent by the prefabricated part statistics module, extracting the standard number of the prefabricated parts of all types required by construction of all assembled stages in the assembled building stored in the cloud database, comparing the number of the prefabricated parts of all types in the assembled building of all assembled stages which are spliced with the standard number of the prefabricated parts of corresponding types required by construction of corresponding assembled stages in the assembled building, and obtaining the number comparison difference set delta X' A of the prefabricated parts of all types in the assembled building of all assembled stages which are spliced_r(Δx′₁a_r,Δx′₂a_r,...,Δx′_ja_r,...,Δx′_ma_r)，Δx′_ja_rThe method comprises the steps that a comparison difference value is expressed as the number of jth prefabricated members in spliced assembly-stage assembly-type buildings and the standard number of corresponding prefabricated members required by corresponding assembly-stage construction in the stored assembly-type buildings, wherein r is 1,2, k, k is less than or equal to n, and the number comparison difference value set of the prefabricated members in each category in the spliced assembly-type buildings is sent to a cloud management platform;

the splicing number counting module is used for receiving the number set of prefabricated components of all types in the assembled building in all the assembling stages after being spliced sent by the prefabricated component counting module, calculating the total number of the prefabricated components of all types in the assembled building after being spliced, counting the total number of the prefabricated components of all types in the assembled building after being spliced, and forming a total number set x ' (x ') of the prefabricated components of all types in the assembled building after being spliced '₁,x′₂,...,x′_j,...,x′_m)，x′_jThe total number of the prefabricated members of the jth category in the spliced assembly type building is represented, and the total number of the prefabricated members of all categories in the spliced assembly type building is collected and sent to a cloud management platform;

the cloud management platform is used for receiving the total number set of the prefabricated components of all types in the spliced assembly type building sent by the splicing number counting module, calculating the residual total number of the prefabricated components of all types in the assembly type building, counting the residual total number of the prefabricated components of all types in the assembly type building, and forming a residual total number set delta x (delta x) of the prefabricated components of all types in the assembly type building₁,Δx₂,...,Δx_j,...,Δx_m)，Δx_jRepresenting the number of the jth category of prefabricated components in the prefabricated building, extracting the standard number of the prefabricated components of each category required by construction of each remaining assembly stage in the prefabricated building, which is stored in a cloud database, calculating the standard total number of the prefabricated components of each category required by construction of each remaining assembly stage in the prefabricated building, comparing the remaining total number of the prefabricated components of each category in the prefabricated building with the standard total number of the prefabricated components of each category required by construction of each remaining assembly stage, if the remaining total number of the prefabricated components of a certain category in the prefabricated building is equal to the standard total number of the prefabricated components of each category required by construction of each remaining assembly stage, indicating that the number of the prefabricated components of the category in the prefabricated building reaches the standard, and if the remaining total number of the prefabricated components of a certain category in the prefabricated building is greater than or less than the standard total number of the prefabricated components of each category required by construction of each, showing that the number of the prefabricated members in the category in the fabricated building does not reach the standard, counting the fabricated buildingSending the prefabricated members of different types, the number of which does not reach the standard, in the fabricated building to an early warning display module;

the cloud database is used for receiving the model numbers of all assembly stages in the assembly type building model to be constructed, which are sent by the model dividing module, and storing the standard number of all types of prefabricated members required by construction of all assembly stages in the assembly type building.

2. The cloud computing-based intelligent cloud management platform for visual construction of prefabricated buildings according to claim 1, wherein: the model building module adopts BIM technology to build a virtual assembly type building engineering three-dimensional model.

3. The cloud computing-based intelligent cloud management platform for visual construction of prefabricated buildings according to claim 1, wherein: each type of prefabricated member comprises a prefabricated shear wall external wall plate, a prefabricated shear wall internal wall plate, a prefabricated column, a prefabricated hidden column, a prefabricated composite beam, a prefabricated node, a prefabricated composite slab, a prefabricated external wall-hung plate, a prefabricated stair board, a prefabricated balcony slab, a prefabricated parapet, a prefabricated integral kitchen and bathroom and the like.

4. The cloud computing-based intelligent cloud management platform for visual construction of prefabricated buildings according to claim 1, wherein: the total number of the prefabricated members of all categories in the spliced assembly type building is calculated according to the formula

x′_jExpressed as total number of category j preforms in spliced fabricated building, x'_ja_rDenoted as spliced r-th assemblyThe number of the j category prefabricated members in the assembled building of the stage, and k is expressed as the number of the assembling stages in the assembled building which is spliced.

5. The cloud computing-based intelligent cloud management platform for visual construction of prefabricated buildings according to claim 1, wherein: the calculation formula of the residual total number of the prefabricated members of each category in the prefabricated building is delta x_j＝x_j-x′_j，Δx_jExpressed as the remaining total number of the j category of prefabricated members in the fabricated building, x_jExpressed as total number of prefabricated elements of category j in the fabricated building to be constructed, x'_jExpressed as the total number of the j category preforms in the assembled building that have been spliced.

6. The cloud computing-based intelligent cloud management platform for visual construction of prefabricated buildings according to claim 1, wherein: the standard total number calculation formula of all types of prefabricated parts required by construction in the residual assembly stage in the assembly type building is