CN113128974A - Intelligent progress control method and device for building matching product and electronic information platform - Google Patents

Abstract

The application discloses an intelligent progress control method, an intelligent progress control device and an electronic information platform of a building matching product, wherein the method and the intelligent progress control device are specifically used for carrying out visual modeling on a target building based on the electronic information platform to obtain a simulated building sand table, and the simulated building sand table comprises engineering information and engineering codes of the target building; performing information conversion processing on the engineering information and the engineering code to obtain product key identification information of the target building; and performing production, warehousing, delivery, receiving, carrying and installation of the building matching products based on the product key identification information. The construction process of the building matching product is characterized in that electronic scanning and information processing are carried out on the building matching product based on the key identification information of the product, information transmission is not needed in the middle, transmission efficiency is effectively improved, and accordingly construction speed of the building matching product is improved.

Description

Intelligent progress control method and device for building matching product and electronic information platform

Technical Field

The application relates to the technical field of enterprise information management, in particular to an intelligent progress control method and device for a building matching product and an electronic information platform.

Background

The construction process of building accessories such as doors and windows is a process of multi-party cooperation and coordination, but because an exchange channel capable of sharing effective information and data is lacked, the information and data can be transmitted among all links only by a manual mode at present, the transmission efficiency is low, most of time is wasted in an invalid and tedious communication process when the building accessories are constructed, and the construction speed of the building accessories is slowed down.

Disclosure of Invention

In view of this, the present application provides an intelligent progress control method and apparatus for a building complete product, and an electronic information platform, which are used for effectively transmitting various information in door and window engineering, so as to improve the construction speed of the building complete product.

In order to achieve the above object, the following solutions are proposed:

an intelligent progress control method of a building matching product is applied to an electronic information platform, and comprises the following steps:

performing visual modeling on a target building based on the electronic information platform to obtain a simulated building sand table, wherein the simulated building sand table comprises engineering information and engineering codes of the target building;

performing information conversion processing on the engineering information and the engineering code to obtain product key identification information of the target building;

and performing production, warehousing, delivery, receiving, carrying and installation of the building matching products based on the product key identification information.

Optionally, the production, warehousing, delivery, receiving, carrying and installation of the building matching products are performed based on the product key identification information, and the method includes the steps of:

after the corresponding batch of building matching products are produced in a production place according to the construction progress, key identification information of the products is obtained and printed, and the printed labels are pasted on the building matching products;

after the production of the building matching product is finished, scanning the label on the building matching product, and performing warehousing;

according to the building installation requirement, carrying out delivery by scanning the label on the building matching product from a storehouse;

performing receiving by scanning a label on the construction kit product when the construction kit product is transported to the target building;

acquiring the installation position of the building matching product by scanning the label, so that a carrying person carries the building matching product to the installation position;

acquiring whether the building matching product is matched with the installation position or not by scanning the label, so that an installer can execute installation operation when the installation position is matched with the building matching product;

and after the installation personnel perform installation, processing the full-flow information according to the installation completion information obtained by scanning the label, and displaying the construction completion information.

Optionally, after the building supporting products of the corresponding batch are produced at the production site according to the construction progress, the key identification information of the products is acquired and printed, and the printed labels are pasted to the building supporting products, including the steps of:

acquiring batch information corresponding to the construction progress so that a production department can produce construction of the building matching products corresponding to the batch information according to the batch information;

extracting product key identification information corresponding to the batch information, printing a label comprising the product key identification information, and pasting the label on the building matching product.

Optionally, the step of obtaining whether the building matching product is matched with the installation position by scanning the tag so that an installer can perform an installation operation when the installation position is matched with the building matching product includes:

displaying whether the building matching product is matched with the installation position or not through scanning processing of product key identification information on the label, so that an installer can execute installation operation when the installation position is matched with the building matching product;

and after the installation is finished, calculating and uploading labor remuneration of installation personnel and carrying personnel.

The utility model provides an intelligent progress management and control device of building supporting product, is applied to the electronic information platform, intelligent progress management and control device includes:

the building modeling module is configured to perform visual modeling on a target building based on the electronic information platform to obtain a simulated building sand table, and the simulated building sand table comprises engineering information and engineering codes of the target building;

the information conversion module is configured to perform information conversion processing on the engineering information and the engineering code to obtain product key identification information of the target building;

and the progress execution module is configured to execute production, warehousing, delivery, receiving, carrying and installation of the building matching products based on the product key identification information.

Optionally, the schedule executing module includes:

the production execution unit is configured to obtain and print the key identification information of the product and paste a printed label onto the building matching product after the building matching product of a corresponding batch is produced at a production site according to a construction progress;

the warehousing execution unit is configured to perform warehousing by scanning the label on the building matching product after the production of the building matching product is finished;

a shipment execution unit configured to execute shipment by scanning a label on the building supporting product from a warehouse according to a building installation curve;

a receiving execution unit configured to execute receiving by scanning a label on the building kit when the building kit is transported to the target building;

a carrying execution unit configured to acquire an installation position of the building matching product by scanning the tag so as to enable a carrying person to carry the building matching product to the installation position;

an installation execution unit configured to acquire whether the building kit product matches the installation location by scanning the tag so that an installer can perform an installation operation when the installation location matches the building kit product;

and the information summarizing unit is configured to process the full-flow information according to the installation completion information obtained by scanning the label after the installer finishes the installation, and display the construction completion information.

Optionally, the production execution unit includes:

the first execution subunit is configured to acquire batch information corresponding to the construction progress so as to enable a production department to produce construction of the building matching products corresponding to the batch information according to the batch information;

and the second execution subunit is configured to extract product key identification information corresponding to the batch information, print a label including the product key identification information, and attach the label to the building matching product.

Optionally, the installation executing unit includes:

a third execution subunit configured to display whether the building kit product matches the installation location through a scanning process of product key identification information on the tag, so that an installer can execute an installation operation when the installation location matches the building kit product;

and the fourth execution subunit is configured to calculate and upload labor remuneration of the installation personnel and the carrying personnel after the installation is finished.

An electronic information platform comprises the intelligent progress control device of the building matching product.

An electronic information platform comprising at least one processor and a memory coupled to the processor, wherein:

the memory is for storing a computer program or instructions;

the processor is configured to execute the computer program or the instructions, so that the electronic information platform implements the intelligent progress control device for the building matching product as described above.

From the technical scheme, the method and the device for intelligently managing and controlling the progress of the building matching products and the electronic information platform are specifically used for carrying out visual modeling on a target building based on the electronic information platform to obtain a simulated building sand table, wherein the simulated building sand table comprises engineering information and engineering codes of the target building; performing information conversion processing on the engineering information and the engineering code to obtain product key identification information of the target building; and performing production, warehousing, delivery, receiving, carrying and installation of the building matching products based on the product key identification information. The construction process of the building matching product is characterized in that electronic scanning and information processing are carried out on the building matching product based on the key identification information of the product, information transmission is not needed in the middle, transmission efficiency is effectively improved, and accordingly construction speed of the building matching product is improved.

Drawings

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

Fig. 1 is a flowchart of an intelligent progress control method for a building matching product according to an embodiment of the present application;

FIG. 2 is a flow chart of a construction process of a building kit according to an embodiment of the present disclosure;

fig. 3 is a block diagram of an intelligent progress control device for a building kit according to an embodiment of the present application;

fig. 4 is a block diagram of another intelligent progress control device for building accessories according to an embodiment of the present application;

fig. 5 is a block diagram of an electronic information platform according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, 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 application.

Example one

Fig. 1 is a flowchart of an intelligent progress control method for a building kit product according to an embodiment of the present application.

The intelligent progress control method provided by the embodiment is used for controlling the construction progress of a building matching product, the building matching product can be an electric matching product, a gas matching product and a water supply matching product, the concrete technical scheme is described by taking a door and window matching product as an example in the application, the intelligent progress control method is applied to an electronic information platform, and the electronic information platform refers to an information system with information interaction and information data processing functions and comprises a network platform and terminal equipment.

As shown in fig. 1, the intelligent progress control method provided in this embodiment specifically includes the following steps:

and S1, carrying out visual modeling on the target building.

The method comprises the steps of performing visual modeling on a target building based on a web platform in the electronic information platform to obtain a simulated building sand table, inputting basic information of the target building based on the web platform while modeling, wherein the basic information comprises but is not limited to specific engineering information such as contract names, engineering quantities, contract lists, window types, window content calculation modes, construction wage calculation standards and the like, creating engineering batches, and generating recognizable engineering codes by a system.

And S2, performing information conversion processing on the engineering information and the engineering code.

Also, the processing here is realized based on a web platform in the electronic information platform, and the door and window stereoscopic information is converted into two-dimensional data through information conversion processing. The specific form is that information data such as buildings, floors, directions, sizes and the like corresponding to the openings are input into a Web platform by an operator, the Web platform converts the information into unique product key identification information (KIF) corresponding to the product according to engineering codes and modeling information, and the KIF has unique specificity on the whole process from the production start to the installation completion of the corresponding product.

And S3, constructing the building matching product based on the product key identification information.

The construction comprises production, warehousing, delivery, receiving, carrying and installation, and is particularly based on a web platform and a mobile device or a transfer scanning device which is bound and connected with the web platform during production. Information acquisition is realized through mobile equipment or scanning equipment in the construction process of corresponding building corollary equipment rooms, and information interaction with a web platform is realized. The specific process is as follows, as shown in fig. 2:

and S31, producing the building matching product based on the product key identification information.

The production link of the product is from the material lifting and batching to the delivery ending.

Firstly, determining batch information according to the specific construction condition of a project site; and then, extracting the KIF of the product corresponding to the batch information, and then printing a KIF label through the network connection of a Web platform and a KIF label printer.

And (4) sticking labels from the first step of production, and entering a corresponding process for scanning through a mobile client. And setting that the label scanning of the corresponding process is finished to represent the completion of the process, so once the Web platform automatically judges that the process is finished and enters the calculation of the next process after the process KIF label scanning is finished, product process information begins to be generated, and the labor remuneration of the operator is calculated by using the piece wage standard through the window type information of the product key identification information (KIF). And designing an early warning threshold value in each process, and triggering production organization and management and examination of the previous process through the early warning threshold value. The processes of machining, assembling and delivering of subsequent production all need to scan a product KIF label through a mobile client, and the Web platform has the same operation mode as the blanking process.

And S32, performing warehousing of the building matching products based on the product key identification information.

After the production of building accessories such as doors and windows is completed, a warehouse manager scans a product KIF label by using a mobile client to determine whether the product KIF label needs to be warehoused, and arranges a warehouse location based on information on the label and warehouses the product KIF label when the product KIF label needs to be warehoused.

And S33, carrying out the shipment of the building matching products based on the product key identification information.

After the corresponding building matching product is put in storage, according to the building installation requirement, logistics personnel scan the product KIF label through the mobile client to obtain a receiving place of the product, and the building matching product is sent to the receiving place or a corresponding construction site from a storehouse based on the receiving place.

And S34, receiving the building matching products based on the product key identification information.

After the produced building matching products are transported to a construction site, an operator at a project department scans a product KIF label by using a mobile client to confirm receiving, a Web platform processes whether receiving information is consistent with delivery information or not, and sends feedback and synchronizes to the mobile client, and if the information is correct, the platform is abnormal and can receive goods normally; if there is difference, alarm is given, and the specific information of the difference is displayed, so that the personnel can process the difference in time.

And S35, carrying out the transportation of the building matching products based on the product key identification information.

The operator at the department of project carries out product transportation through building, floor and opening information data displayed by scanning a KIF label, the product KIF is scanned and confirmed by a mobile client after the transportation is finished, the accuracy of the product transportation position can be carried out through detailed information in the mobile client, the scanned product KIF information enters a Web platform, the Web platform corresponds the information of the data to an opening list, and the transportation process display of the opening is finished.

And S36, installing the building matching product based on the product key identification information.

Firstly, before installing a product, an operator at the department of project scans the KIF by using a mobile client, a page can display whether the product is matched with the corresponding position information of the opening, if so, the product can be directly installed, after the installation is finished, a procedure is opened to scan the KIF, and a Web platform calculates that the procedure is finished; then, on the basis of completing installation, calculating the labor remuneration of the operators in the link and the transport link, synchronizing the data to the mobile client, and enabling the operators to check the remuneration details at the Web end and the mobile end.

And S37, processing the full-flow information after the installation is finished.

And after the installation procedure is completed, namely the installation of the product represented by the KIF is completed, after the KIF is scanned and uploaded in the installation procedure, the Web platform temporarily defaults that all work types of the product are completed, information processing is started from production to installation, if all links are matched with the uniqueness of the information data, the product construction is completed, and the data display is normal. If the production is not finished and no other man-made processing trace exceeds a period of time, the Web platform dynamically generates a production supplementary note and corresponding KIF data of the product, and the information conversion operation is performed in a circulating way again until the product finally finishes the data information display and is normal.

According to the technical scheme, the method is applied to an electronic information platform, specifically, a target building is visually modeled based on the electronic information platform to obtain a simulated building sand table, and the simulated building sand table comprises engineering information and engineering codes of the target building; performing information conversion processing on the engineering information and the engineering code to obtain product key identification information of the target building; and performing production, warehousing, delivery, receiving, carrying and installation of the building matching products based on the product key identification information. The construction process of the building matching product is characterized in that electronic scanning and information processing are carried out on the building matching product based on the key identification information of the product, information transmission is not needed in the middle, transmission efficiency is effectively improved, and accordingly construction speed of the building matching product is improved.

Example two

Fig. 3 is a block diagram of an intelligent progress control device for a building kit product according to an embodiment of the present application.

The intelligent progress management and control device that this embodiment provided is used for managing and controlling the construction progress of building supporting product, and this building supporting product can be electric supporting product, gas supporting product, the supporting product of water supply, explains specific technical scheme for example with the supporting product of door and window in this application, and this intelligent progress management and control device is applied to electronic information platform, and this electronic information platform indicates the information system who has information interaction and information data processing function, including network platform and terminal equipment.

As shown in fig. 3, the intelligent progress control apparatus provided in this embodiment specifically includes a building modeling module 10, an information conversion module 20, and a progress execution module 30.

The building modeling module is used for carrying out visual modeling on a target building.

The method comprises the steps of performing visual modeling on a target building based on a web platform in the electronic information platform to obtain a simulated building sand table, inputting basic information of the target building based on the web platform while modeling, wherein the basic information comprises but is not limited to specific engineering information such as contract names, engineering quantities, contract lists, window types, window content calculation modes, construction wage calculation standards and the like, creating engineering batches, and generating recognizable engineering codes by a system.

The information conversion module is used for performing information conversion processing on the engineering information and the engineering codes.

Also, the processing here is realized based on a web platform in the electronic information platform, and the door and window stereoscopic information is converted into two-dimensional data through information conversion processing. The specific form is that information data such as buildings, floors, directions, sizes and the like corresponding to the openings are input into a Web platform by an operator, the Web platform converts the information into unique product key identification information (KIF) corresponding to the product according to engineering codes and modeling information, and the KIF has unique specificity on the whole process from the production start to the installation completion of the corresponding product.

And the progress execution module is used for constructing the building matching products based on the product key identification information.

The construction comprises production, warehousing, delivery, receiving, carrying and installation, and is particularly based on a web platform and a mobile device or a transfer scanning device which is bound and connected with the web platform during production. Information acquisition is realized through mobile equipment or scanning equipment in the construction process of corresponding building corollary equipment rooms, and information interaction with a web platform is realized. The module comprises a production execution unit 31, a warehousing execution unit 32, a delivery execution unit 33, a receiving execution unit 34, a transportation execution unit 35, an installation execution unit 36 and an information summarizing unit 37, and is shown in fig. 4:

the production execution unit is used for executing the production of the building matching product based on the product key identification information.

The production link of the product is from the material lifting and batching to the delivery ending. The production execution unit includes a first execution subunit and a second execution subunit.

The first execution subunit is used for determining batch information according to the specific construction condition of the project site; the second execution subunit is used for extracting the KIF of the product corresponding to the batch information and then printing the KIF label through the network connection of the Web platform and the KIF label printer.

And (4) sticking labels from the first step of production, and entering a corresponding process for scanning through a mobile client. And setting that the label scanning of the corresponding process is finished to represent the completion of the process, so once the Web platform automatically judges that the process is finished and enters the calculation of the next process after the process KIF label scanning is finished, product process information begins to be generated, and the labor remuneration of the operator is calculated by using the piece wage standard through the window type information of the product key identification information (KIF). And designing an early warning threshold value in each process, and triggering production organization and management and examination of the previous process through the early warning threshold value. The processes of machining, assembling and delivering of subsequent production all need to scan a product KIF label through a mobile client, and the Web platform has the same operation mode as the blanking process.

The warehousing execution unit is used for executing warehousing of the building matched products based on the product key identification information.

After the production of building accessories such as doors and windows is completed, a warehouse manager scans a product KIF label by using a mobile client to determine whether the product KIF label needs to be warehoused, and arranges a warehouse location based on information on the label and warehouses the product KIF label when the product KIF label needs to be warehoused.

The delivery execution unit is used for executing delivery of the building matching product based on the product key identification information.

After the corresponding building matching product is produced, the logistics personnel scan the KIF label of the product through the mobile client to obtain a receiving place of the product, and send the building matching product to the receiving place or a corresponding construction site from the storeroom based on the receiving place.

And the receiving execution module is used for executing the receiving of the building matching products based on the product key identification information.

After the produced building matching products are transported to a construction site, an operator at a project department scans a product KIF label by using a mobile client to confirm receiving, a Web platform processes whether receiving information is consistent with delivery information or not, and sends feedback and synchronizes to the mobile client, and if the information is correct, the platform is abnormal and can receive goods normally; if there is difference, alarm is given, and the specific information of the difference is displayed, so that the personnel can process the difference in time.

The carrying execution unit is used for carrying out the carrying of the building matching products based on the product key identification information.

The operator at the department of project carries out product transportation through building, floor and opening information data displayed by scanning a KIF label, the product KIF is scanned and confirmed by a mobile client after the transportation is finished, the accuracy of the product transportation position can be carried out through detailed information in the mobile client, the scanned product KIF information enters a Web platform, the Web platform corresponds the information of the data to an opening list, and the transportation process display of the opening is finished.

The installation execution unit is used for executing the installation of the building matching product based on the product key identification information. The installation execution unit comprises a third execution subunit and a fourth execution subunit.

The third execution subunit is used for scanning the product KIF by using the mobile client before the operator at the project department installs the product, the page can display whether the product is matched with the corresponding hole position information, if so, the product can be directly installed, after the installation is finished, the procedure is opened to scan the KIF, and the Web platform calculates that the procedure is finished; and the fourth execution subunit is used for calculating the labor remuneration of the operators in the link and the transport link on the basis of finishing installation, and synchronizing data to the mobile client, so that the operators can check the remuneration details at both the Web end and the mobile end.

And the information summarizing unit is used for processing the full-flow information after the installation is finished.

And after the installation procedure is completed, namely the installation of the product represented by the KIF is completed, after the KIF is scanned and uploaded in the installation procedure, the Web platform temporarily defaults that all work types of the product are completed, information processing is started from production to installation, if all links are matched with the uniqueness of the information data, the product construction is completed, and the data display is normal. If the production is not finished and no other man-made processing trace exceeds a period of time, the Web platform dynamically generates a production supplementary note and corresponding KIF data of the product, and the information conversion operation is performed in a circulating way again until the product finally finishes the data information display and is normal.

According to the technical scheme, the intelligent progress control device for the building matching products is applied to an electronic information platform, specifically, a target building is visually modeled based on the electronic information platform to obtain a simulated building sand table, and the simulated building sand table comprises engineering information and engineering codes of the target building; performing information conversion processing on the engineering information and the engineering code to obtain product key identification information of the target building; and performing production, warehousing, delivery, receiving, carrying and installation of the building matching products based on the product key identification information. The construction process of the building matching product is characterized in that electronic scanning and information processing are carried out on the building matching product based on the key identification information of the product, information transmission is not needed in the middle, transmission efficiency is effectively improved, and accordingly construction speed of the building matching product is improved.

EXAMPLE III

The embodiment provides an electronic information platform which comprises a network platform and a network terminal. The intelligent progress control device is specifically used for carrying out visual modeling on a target building based on the electronic information platform to obtain a simulated building sand table, and the simulated building sand table comprises engineering information and engineering codes of the target building; performing information conversion processing on the engineering information and the engineering code to obtain product key identification information of the target building; and performing production, warehousing, delivery, receiving, carrying and installation of the building matching products based on the product key identification information. The construction process of the building matching product is characterized in that electronic scanning and information processing are carried out on the building matching product based on the key identification information of the product, information transmission is not needed in the middle, transmission efficiency is effectively improved, and accordingly construction speed of the building matching product is improved.

Example four

Fig. 5 is a block diagram of an electronic information platform according to an embodiment of the present application.

As shown in fig. 5, the electronic information platform provided in this embodiment includes a network platform and a network terminal, and particularly, when implemented, the electronic information platform includes at least one processor 101 and a memory 102, which are connected by a data bus 103.

The memory is used for storing a computer program or instructions, and the processor is used for executing the computer program or instructions, so that the electronic information platform can realize the intelligent progress control method of the building matching product provided by the embodiment. The method specifically comprises the steps that visual modeling is carried out on a target building based on the electronic information platform, and a simulated building sand table is obtained, wherein the simulated building sand table comprises engineering information and engineering codes of the target building; performing information conversion processing on the engineering information and the engineering code to obtain product key identification information of the target building; and performing production, warehousing, delivery, receiving, carrying and installation of the building matching products based on the product key identification information. The construction process of the building matching product is characterized in that electronic scanning and information processing are carried out on the building matching product based on the key identification information of the product, information transmission is not needed in the middle, transmission efficiency is effectively improved, and accordingly construction speed of the building matching product is improved.

The embodiments in the present specification are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

As will be appreciated by one skilled in the art, embodiments of the present invention may be provided as a method, apparatus, or computer program product. Accordingly, embodiments of the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, embodiments of the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

Embodiments of the present invention are described with reference to flowchart illustrations and/or block diagrams of methods, terminal devices (systems), and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing terminal to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing terminal, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing terminal to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing terminal to cause a series of operational steps to be performed on the computer or other programmable terminal to produce a computer implemented process such that the instructions which execute on the computer or other programmable terminal provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

While preferred embodiments of the present invention have been described, additional variations and modifications of these embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all such alterations and modifications as fall within the scope of the embodiments of the invention.

Finally, it should also be noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or terminal that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or terminal. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or terminal that comprises the element.

The technical solutions provided by the present invention are described in detail above, and the principle and the implementation of the present invention are explained in this document by applying specific examples, and the descriptions of the above examples are only used to help understanding the method and the core idea of the present invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims (10)

1. An intelligent progress control method of a building matching product is applied to an electronic information platform and is characterized by comprising the following steps:

performing visual modeling on a target building based on the electronic information platform to obtain a simulated building sand table, wherein the simulated building sand table comprises engineering information and engineering codes of the target building;

performing information conversion processing on the engineering information and the engineering code to obtain product key identification information of the target building;

and performing production, warehousing, delivery, receiving, carrying and installation of the building matching products based on the product key identification information.

2. The intelligent progress control method according to claim 1, wherein the production, warehousing, delivery, receipt, transportation and installation of the building supporting products are performed based on the product key identification information, and the method includes the steps of:

after the corresponding batch of building matching products are produced in a production place according to the construction progress, key identification information of the products is obtained and printed, and the printed labels are pasted on the building matching products;

after the production of the building matching product is finished, scanning the label on the building matching product, and performing warehousing;

according to the building installation requirement, carrying out delivery by scanning the label on the building matching product from a storehouse;

performing receiving by scanning a label on the construction kit product when the construction kit product is transported to the target building;

acquiring the installation position of the building matching product by scanning the label, so that a carrying person carries the building matching product to the installation position;

acquiring whether the building matching product is matched with the installation position or not by scanning the label, so that an installer can execute installation operation when the installation position is matched with the building matching product;

and after the installation personnel perform installation, processing the full-flow information according to the installation completion information obtained by scanning the label, and displaying the construction completion information.

3. The intelligent progress control method according to claim 2, wherein the steps of obtaining and printing the key identification information of the product and pasting a printed label to the building matching product after the building matching product of a corresponding batch is produced at a production site according to a construction progress comprise:

acquiring batch information corresponding to the construction progress so that a production department can produce construction of the building matching products corresponding to the batch information according to the batch information;

extracting product key identification information corresponding to the batch information, printing a label comprising the product key identification information, and pasting the label on the building matching product.

4. The intelligent progress control method according to claim 2, wherein the obtaining of whether the building accessories are matched with the installation positions by scanning the tags so that an installer can perform an installation operation when the installation positions are matched with the building accessories comprises:

displaying whether the building matching product is matched with the installation position or not through scanning processing of product key identification information on the label, so that an installer can execute installation operation when the installation position is matched with the building matching product;

and after the installation is finished, calculating and uploading labor remuneration of installation personnel and carrying personnel.

5. The utility model provides an intelligent progress management and control device of supporting product of building, is applied to the electronic information platform, its characterized in that, intelligent progress management and control device includes:

the building modeling module is configured to perform visual modeling on a target building based on the electronic information platform to obtain a simulated building sand table, and the simulated building sand table comprises engineering information and engineering codes of the target building;

the information conversion module is configured to perform information conversion processing on the engineering information and the engineering code to obtain product key identification information of the target building;

and the progress execution module is configured to execute production, warehousing, delivery, receiving, carrying and installation of the building matching products based on the product key identification information.

6. The intelligent progress management and control apparatus of claim 5, wherein the progress execution module comprises:

the production execution unit is configured to obtain and print the key identification information of the product and paste a printed label onto the building matching product after the building matching product of a corresponding batch is produced at a production site according to a construction progress;

the warehousing execution unit is configured to perform warehousing by scanning the label on the building matching product after the production of the building matching product is finished;

a shipment execution unit configured to execute shipment by scanning a label on the building supporting product from a warehouse according to a building installation curve;

a receiving execution unit configured to execute receiving by scanning a label on the building kit when the building kit is transported to the target building;

a carrying execution unit configured to acquire an installation position of the building matching product by scanning the tag so as to enable a carrying person to carry the building matching product to the installation position;

an installation execution unit configured to acquire whether the building kit product matches the installation location by scanning the tag so that an installer can perform an installation operation when the installation location matches the building kit product;

and the information summarizing unit is configured to process the full-flow information according to the installation completion information obtained by scanning the label after the installer finishes the installation, and display the construction completion information.

7. The intelligent progress management and control apparatus according to claim 6, wherein the production execution unit includes:

the first execution subunit is configured to acquire batch information corresponding to the construction progress so as to enable a production department to produce construction of the building matching products corresponding to the batch information according to the batch information;

and the second execution subunit is configured to extract product key identification information corresponding to the batch information, print a label including the product key identification information, and attach the label to the building matching product.

8. The intelligent progress management and control apparatus of claim 6, wherein the installation execution unit comprises:

a third execution subunit configured to display whether the building kit product matches the installation location through a scanning process of product key identification information on the tag, so that an installer can execute an installation operation when the installation location matches the building kit product;

and the fourth execution subunit is configured to calculate and upload labor remuneration of the installation personnel and the carrying personnel after the installation is finished.

9. An electronic information platform, characterized by comprising the intelligent progress control device of the building accessories according to any one of claims 5 to 8.

10. An electronic information platform comprising at least one processor and a memory coupled to the processor, wherein:

the memory is for storing a computer program or instructions;

the processor is used for executing the computer program or the instructions to enable the electronic information platform to realize the intelligent progress control device of the building matching product according to any one of claims 1-4.

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