Prefabricated building curtain wall connecting piece, frame and curtain wall mounting method

By using intelligent matching and installation methods, the problem of errors and omissions that are prone to occur during manual installation of prefabricated curtain walls has been solved, achieving efficient and accurate installation of the curtain walls.

CN116881486BActive Publication Date: 2026-06-19HEFEI DAYUAN BUILDING & DECORATION ENG CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
HEFEI DAYUAN BUILDING & DECORATION ENG CO LTD
Filing Date
2023-07-10
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

Existing prefabricated curtain wall technology is prone to errors and omissions during manual installation, and the installation efficiency is low.

Method used

An intelligent matching and installation method is adopted. By acquiring the assembly drawings of the prefabricated building curtain wall, the structure is disassembled and numbered. Combined with the visual inspection module, image acquisition and matching are performed to determine the set of assembly points and realize the intelligent installation of the curtain wall.

Benefits of technology

It reduced the installation error rate and improved the accuracy and efficiency of curtain wall installation.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN116881486B_ABST
    Figure CN116881486B_ABST
Patent Text Reader

Abstract

This application relates to the field of intelligent installation technology, providing prefabricated building curtain wall connectors, frames, and curtain wall installation methods. The method includes: structurally disassembling the prefabricated building curtain wall assembly drawings to obtain curtain wall assembly structural element information; assigning structural numbers based on the curtain wall assembly structural element information, and matching them with a curtain wall assembly requirement number set and a curtain wall structural component database to obtain a curtain wall assembly structural component set; acquiring images of the curtain wall structural component set to be installed to obtain a curtain wall structural component image set; matching and selecting between the curtain wall assembly structural component set and the curtain wall structural component image set to determine a curtain wall structural component assembly point set; and performing prefabricated installation of the curtain wall assembly structural components based on the curtain wall structural component assembly point set. This method can achieve intelligent matching and installation of prefabricated building curtain walls, reduce installation error rates, ensure curtain wall installation accuracy, and thus improve curtain wall installation efficiency.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This application relates to the field of intelligent installation technology, and in particular to prefabricated building curtain wall connectors, frames, and curtain wall installation methods. Background Technology

[0002] Prefabricated building curtain walls are designed as large-panel prefabricated structural systems. The curtain wall components and accessories are prefabricated in a factory and then assembled on-site using reliable connection methods. This achieves integrated assembly of the curtain wall structure, waterproofing, insulation, and exterior decoration materials into large panels. The panels are then simply connected to the main structure on-site, quickly completing the curtain wall construction. However, existing prefabricated curtain wall installation methods are prone to errors and omissions due to manual installation, and the installation efficiency is relatively low. Summary of the Invention

[0003] Therefore, it is necessary to address the aforementioned technical issues by providing a prefabricated building curtain wall connector, frame, and curtain wall installation method that enables intelligent matching and installation of prefabricated building curtain walls, reduces installation error rates, ensures curtain wall installation accuracy, and thereby improves curtain wall installation efficiency.

[0004] A method for installing prefabricated building curtain wall connectors, frames, and curtain walls, the method comprising: obtaining a prefabricated building curtain wall assembly drawing, wherein the assembly components of the prefabricated building curtain wall assembly drawing include connectors, frames, and curtain walls; structurally disassembling the prefabricated building curtain wall assembly drawing to obtain curtain wall assembly structural element information; assigning structural numbers based on the curtain wall assembly structural element information to obtain a set of curtain wall assembly requirement numbers; matching the set of curtain wall assembly requirement numbers with a curtain wall structural component database to obtain a set of curtain wall assembly structural components; obtaining a set of curtain wall structural components to be installed; acquiring images of the set of curtain wall structural components to be installed using a visual inspection module to obtain a set of curtain wall structural component images; matching and selecting based on the set of curtain wall assembly structural components and the set of curtain wall structural component images to determine a set of curtain wall structural component assembly points; and prefabricating the curtain wall assembly structural components based on the set of curtain wall structural component assembly points.

[0005] A prefabricated building curtain wall connector, frame, and curtain wall installation system, the system comprising: a curtain wall assembly drawing acquisition module for acquiring prefabricated building curtain wall assembly drawings, wherein the assembly components of the prefabricated building curtain wall assembly drawings include connectors, frames, and curtain walls; an assembly drawing structure disassembly module for structurally disassembling the prefabricated building curtain wall assembly drawings to obtain curtain wall assembly structural element information; a structure numbering module for assigning structure numbers based on the curtain wall assembly structural element information to obtain a set of curtain wall assembly requirement numbers; and an assembly component acquisition module for obtaining components according to the curtain wall assembly... The system matches the set of required numbers with the curtain wall structural component database to obtain a set of curtain wall assembly structural components; an image acquisition module obtains the set of curtain wall structural components to be installed, and performs image acquisition on the set of curtain wall structural components to be installed based on the visual inspection module to obtain a set of curtain wall structural component images; a structural component matching and selection module matches and selects based on the set of curtain wall assembly structural components and the set of curtain wall structural component images to determine a set of curtain wall structural component assembly points; and a prefabricated installation module performs prefabricated installation of the curtain wall assembly structural components based on the set of curtain wall structural component assembly points.

[0006] A computer device includes a memory and a processor, the memory storing a computer program, and the processor executing the computer program performing the following steps:

[0007] Obtain assembly drawings for prefabricated building curtain walls, wherein the assembly components of the prefabricated building curtain wall assembly drawings include connectors, frames, and curtain walls;

[0008] The prefabricated building curtain wall assembly drawing is structurally disassembled to obtain curtain wall assembly structural element information.

[0009] Based on the information of the curtain wall assembly construction elements, structural numbers are generated to obtain a set of curtain wall assembly requirement numbers.

[0010] The curtain wall assembly component set is obtained by matching the set of curtain wall assembly requirement numbers with the curtain wall component database.

[0011] A set of curtain wall structural components to be installed is obtained, and images of the set of curtain wall structural components to be installed are acquired based on the visual detection module to obtain a set of curtain wall structural component images.

[0012] Based on the matching and selection of the set of curtain wall assembly components and the set of curtain wall component images, the set of curtain wall component assembly points is determined.

[0013] The curtain wall assembly components are assembled and installed based on the set of assembly points of the curtain wall components.

[0014] A computer-readable storage medium having a computer program stored thereon, the computer program performing the following steps when executed by a processor:

[0015] Obtain assembly drawings for prefabricated building curtain walls, wherein the assembly components of the prefabricated building curtain wall assembly drawings include connectors, frames, and curtain walls;

[0016] The prefabricated building curtain wall assembly drawing is structurally disassembled to obtain curtain wall assembly structural element information.

[0017] Based on the information of the curtain wall assembly construction elements, structural numbers are generated to obtain a set of curtain wall assembly requirement numbers.

[0018] The curtain wall assembly component set is obtained by matching the set of curtain wall assembly requirement numbers with the curtain wall component database.

[0019] A set of curtain wall structural components to be installed is obtained, and images of the set of curtain wall structural components to be installed are acquired based on the visual detection module to obtain a set of curtain wall structural component images.

[0020] Based on the matching and selection of the set of curtain wall assembly components and the set of curtain wall component images, the set of curtain wall component assembly points is determined.

[0021] The curtain wall assembly components are assembled and installed based on the set of assembly points of the curtain wall components.

[0022] The above-mentioned prefabricated building curtain wall connectors, frames, and curtain wall installation methods solve the technical problems of easy errors and omissions in the manual installation of prefabricated curtain walls in the existing technology, as well as the low installation efficiency. They achieve the technical effect of realizing intelligent matching installation of prefabricated building curtain walls, reducing the installation error rate, ensuring the accuracy of curtain wall installation, and thus improving the installation efficiency of curtain walls.

[0023] The above description is merely an overview of the technical solution of this application. In order to better understand the technical means of this application and to implement it in accordance with the contents of the specification, and to make the above and other objects, features and advantages of this application more obvious and understandable, specific embodiments of this application are given below. Attached Figure Description

[0024] Figure 1 This is a flowchart illustrating the prefabricated building curtain wall connectors, frame, and curtain wall installation method in one embodiment.

[0025] Figure 2 This is a flowchart illustrating the process of obtaining the set of curtain wall assembly requirement numbers in a prefabricated building curtain wall connector, frame, and curtain wall installation method in one embodiment.

[0026] Figure 3 This is a structural block diagram of the prefabricated building curtain wall connectors, frame, and curtain wall installation system in one embodiment;

[0027] Figure 4 This is an internal structural diagram of a computer device in one embodiment.

[0028] Explanation of reference numerals in the attached drawings: Module 11 for obtaining curtain wall assembly drawings, Module 12 for disassembling assembly drawing structure, Module 13 for numbering structure, Module 14 for obtaining assembly components, Module 15 for image acquisition, Module 16 for matching and selecting components, and Module 17 for prefabricated installation. Detailed Implementation

[0029] To make the objectives, technical solutions, and advantages of this application clearer, the following detailed description is provided in conjunction with the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative and not intended to limit the scope of this application.

[0030] like Figure 1 As shown, this application provides prefabricated building curtain wall connectors, frames, and curtain wall installation methods, the methods including:

[0031] Step S100: Obtain the assembly drawing of the prefabricated building curtain wall, wherein the assembly components of the prefabricated building curtain wall assembly drawing include connectors, frames and curtain walls;

[0032] Step S200: The prefabricated building curtain wall assembly drawing is structurally disassembled to obtain curtain wall assembly structural element information;

[0033] Specifically, prefabricated building curtain walls are designed as large-panel prefabricated structural systems. The curtain wall components and accessories for building use need to be processed and manufactured in the factory, and then assembled and installed on site through reliable connection methods. This achieves the integrated assembly of the curtain wall structure, waterproofing and insulation, and exterior decoration materials into a large panel. The panels are simply connected to the main structure on the project site, and the construction of the building curtain wall is completed quickly.

[0034] To achieve intelligent installation of the curtain wall, the first step is to obtain the assembly drawing of the prefabricated building curtain wall to be installed. This assembly drawing shows the composition, dimensions, and relationships of the curtain wall components. The assembly components include connectors, frames, and the curtain wall itself, providing a basis for installation. The assembly drawing is then structurally disassembled, meaning the structural components are broken down to obtain information on the curtain wall assembly construction elements. This information includes details about the specific structural components, such as their type, model, and quantity.

[0035] Step S300: Based on the information of the curtain wall assembly construction elements, perform structural numbering to obtain a set of curtain wall assembly requirement numbers;

[0036] In one embodiment, such as Figure 2 As shown, in obtaining the set of curtain wall assembly requirement numbers, step S300 of this application further includes:

[0037] Step S310: Divide the curtain wall assembly structural element information into hierarchical levels to obtain structural element disassembly hierarchical information;

[0038] Step S320: Based on the curtain wall assembly structural element information, perform structural attribute marking to obtain structural element attribute information;

[0039] Step S330: Obtain the assembly structure numbering rules, which include hierarchical numbering rules and attribute numbering rules;

[0040] Step S340: Based on the hierarchical numbering rules and attribute numbering rules, number the hierarchical information and attribute information of the structural elements to obtain the set of curtain wall assembly requirement numbers.

[0041] In one embodiment, the step S320 of obtaining the construction element attribute information further includes:

[0042] Step S321: Obtain the prefabricated building curtain wall database, which includes information on various types of structural elements;

[0043] Step S322: Formulate element attribute layering criteria, which include element type, element specification, and element model;

[0044] Step S323: Based on the element attribute hierarchical criteria, perform attribute hierarchical analysis on the prefabricated building curtain wall database and construct a structural attribute classifier;

[0045] Step S324: Based on the structural attribute classifier, perform attribute classification and labeling on the curtain wall assembly structural element information to obtain the structural element attribute information.

[0046] Specifically, to achieve rapid curtain wall installation, structural numbering is performed based on the curtain wall assembly structural element information. First, the curtain wall assembly structural element information is hierarchically divided, i.e., structural elements are divided into structural levels. For example, the curtain wall body and frame belong to the first structural level, while the structural components of the body belong to the second structural level. The disassembly of the prefabricated structure yields the disassembly hierarchical information of the structural elements. Next, structural attribute marking is performed based on the curtain wall assembly structural element information, i.e., the assembled structural components are subdivided into types. Specifically, a prefabricated building curtain wall database is obtained, which includes information on various types of structural elements. Element attribute layering criteria are formulated, which serve as the basis for element attribute subdivision, specifically including element type, element specification, and element model. Based on the element attribute layering criteria, the prefabricated building curtain wall database is layered by attribute, obtaining the attribute layering information corresponding to each structural element in the database. This information is used to construct a structural attribute classifier, improving the comprehensiveness and accuracy of classification. Based on the structural attribute classifier, the curtain wall assembly structural element information is classified and marked by attribute, obtaining the corresponding structural element attribute information, improving the accuracy and efficiency of attribute classification.

[0047] The assembly structure numbering rules are obtained, which serve as the basis for numbering assembly structural components. These rules include the number of digits and display format rules for hierarchical and attribute numbering. Based on these rules, the hierarchical and attribute information of the structural elements are numbered. Hierarchical numbers can be displayed using numerical codes, while attribute numbers can be generated using attribute classification sequences output by an attribute classifier. These hierarchical and attribute numbers form a set of curtain wall assembly requirement numbers, representing the structural component numbering information required for prefabricated curtain wall installation. This information is used for rapid matching and selection of subsequent structural components. Identifying assembly components through structural numbers improves the accuracy of structural component classification and assembly, thereby reducing the error rate in curtain wall installation.

[0048] Step S400: Match the curtain wall assembly requirement number set with the curtain wall structural component database to obtain the curtain wall assembly structural component set;

[0049] Step S500: Obtain a set of curtain wall structural components to be installed, and perform image acquisition on the set of curtain wall structural components to be installed based on the visual detection module to obtain a set of curtain wall structural component images;

[0050] Specifically, the system matches the curtain wall assembly requirement number set with a curtain wall component database. This database contains inventory information for curtain wall components and can also be stored and displayed using a numbered format. This allows for rapid matching to obtain the required set of curtain wall assembly components. The system also obtains a set of curtain wall components to be installed from the production warehouse or installation site; this set is the inventory of components. A visual inspection module acquires images of these components, using high-precision industrial cameras or other industrial vision equipment to capture images of each component in the inventory, resulting in a corresponding set of curtain wall component images for subsequent component matching and selection.

[0051] Step S600: Based on the set of curtain wall assembly components and the set of curtain wall component images, perform matching and selection to determine the set of curtain wall component assembly points;

[0052] In one embodiment, the step of determining the set of assembly points for curtain wall structural components further includes:

[0053] Step S610: Construct a multi-channel component network model based on the attribute information of the constructed elements;

[0054] Step S620: Based on the multi-channel component network model, perform image recognition on the set of curtain wall structural components to be installed, and generate a set of structural component classification images;

[0055] Step S630: Match the set of curtain wall assembly components with the set of component classification images to obtain the target set of assembly components;

[0056] Step S640: Select assembly points for each of the target assembly components to determine the assembly point set of the curtain wall components.

[0057] In one embodiment, the step S640 of selecting assembly points for the target assembly component set further includes:

[0058] Step S641: Select a reference component from the target assembly component set to obtain a reference assembly component;

[0059] Step S642: Obtain the set of reference assembly points for the reference assembly structure;

[0060] Step S643: Determine the connection assembly points of the remaining components in the target assembly component set to obtain the remaining assembly point set;

[0061] Step S644: Map and match the reference assembly point set and the remaining assembly point set to determine the curtain wall structural component assembly point set.

[0062] Specifically, selection is based on the set of curtain wall assembly structural components and the set of curtain wall structural component images. To achieve rapid selection of structural components, a multi-channel component network model is trained and constructed based on the structural element attribute information. This multi-channel component network model is used for structural component attribute recognition, and its model recognition channels correspond to the structural element attribute information, and can be divided into model recognition channels such as element type, element specification, and element model. Based on the multi-channel component network model, multi-channel image recognition is performed on the set of curtain wall structural components to be installed, generating the structural component attribute information obtained by each channel of the model, and images with the same element attribute type are grouped into one category to obtain a structural component classification image set. Then, the set of curtain wall assembly structural components and the structural component classification image set are matched, that is, the required structural components are quickly matched and marked with the corresponding structural component classification image set to obtain the target assembly structural component set corresponding to the matched image.

[0063] Assembly points are selected for each of the target assembly component sets. First, a reference component is selected for the target assembly component set, typically the curtain wall body itself. Then, the reference assembly point set for the reference assembly component is obtained through assembly drawing design. Simultaneously, the connection assembly points for the remaining components in the target assembly component set are determined, resulting in a set of remaining assembly points. The reference assembly point set and the set of remaining assembly points are mapped and matched, that is, the assembly points are associated and matched according to the assembly relationships of the structural components to determine the curtain wall component assembly point set, i.e., the actual installation connection points of the curtain wall components. This enables rapid identification and matching of curtain wall assembly components and assembly points, reducing installation errors and ensuring the accuracy of curtain wall installation.

[0064] Step S700: Perform prefabricated installation of the curtain wall assembly components based on the set of assembly points of the curtain wall components.

[0065] In one embodiment, the prefabricated installation of the curtain wall assembly components based on the set of assembly points of the curtain wall components, step S700 of this application further includes:

[0066] Step S710: Perform connection function analysis on the assembly point set of the curtain wall structural components to obtain assembly point connection function information;

[0067] Step S720: Determine the assembly point connection method based on the assembly point connection function information;

[0068] Step S730: Perform a fit analysis on the assembly point connection function information to obtain tolerance fit information;

[0069] Step S740: Based on the assembly point connection method and the tolerance fit information, perform assembly-type installation on the target assembly component set.

[0070] In one embodiment, step S740 of this application further includes:

[0071] Step S741: Monitor the installation process of the prefabricated building curtain wall in real time and obtain curtain wall project installation process information;

[0072] Step S742: Based on the curtain wall engineering installation process information, perform anomaly identification to obtain curtain wall installation anomaly information;

[0073] Step S743: Perform operation and maintenance analysis on the curtain wall installation anomaly information and generate a curtain wall installation operation and maintenance plan;

[0074] Step S744: Based on the curtain wall installation and maintenance plan, perform prefabricated installation correction on the target assembly component set.

[0075] Specifically, based on the assembly point set of the curtain wall structural components, the curtain wall assembly components are prefabricated and installed. First, a connection function analysis is performed on the assembly point set to obtain the connection function information of each component's assembly points, including functions such as pressure connection, tension connection, and friction connection. Then, based on the assembly point connection function information, the corresponding connection method is determined, including tightening, welding, riveting, and bonding. A fit analysis is performed on the assembly point connection function information, i.e., the tolerance fit of the structural components is determined, obtaining the corresponding tolerance fit information, including clearance fit, transition fit, and interference fit. Based on the assembly point connection method and the tolerance fit information, the target assembly component set is prefabricated and installed, achieving intelligent and precise installation.

[0076] Simultaneously, the installation process of prefabricated building curtain walls can be monitored in real time through video surveillance or on-site quality inspection to obtain curtain wall installation process information. Based on this installation process information, anomaly identification can be performed. Assembly standards and safety assembly standards can be set for the curtain wall process. Anomalies in curtain wall installation, such as incorrect assembly components or structural errors, can be identified by comparing these standards. Operational and maintenance analysis of these anomalies can be conducted, and an installation and maintenance plan can be generated through expert analysis or curtain wall assembly experience analysis to resolve assembly errors. Based on this installation and maintenance plan, the target assembly component set can be corrected through prefabricated installation, ensuring timely correction of assembly errors and omissions, thereby improving the accuracy and efficiency of curtain wall installation.

[0077] In one embodiment, such as Figure 3As shown, a prefabricated building curtain wall connector, frame, and curtain wall installation system are provided, including: a curtain wall assembly drawing acquisition module 11, an assembly drawing structure disassembly module 12, a structure numbering module 13, an assembly component acquisition module 14, an image acquisition module 15, a component matching and selection module 16, and a prefabricated installation module 17, wherein:

[0078] The curtain wall assembly drawing acquisition module 11 is used to acquire the assembly drawing of the prefabricated building curtain wall, wherein the assembly components of the prefabricated building curtain wall assembly drawing include connectors, frames and curtain walls.

[0079] The assembly drawing structure disassembly module 12 is used to disassemble the assembly drawing of the prefabricated building curtain wall to obtain the curtain wall assembly construction element information.

[0080] The structural numbering module 13 is used to number the structure based on the curtain wall assembly construction element information to obtain a set of curtain wall assembly requirement numbers.

[0081] Assembly component acquisition module 14 is used to match the curtain wall assembly requirement number set and the curtain wall component database to obtain a curtain wall assembly component set.

[0082] Image acquisition module 15 is used to obtain a set of curtain wall structural components to be installed, and to acquire images of the set of curtain wall structural components based on the visual detection module to obtain a set of curtain wall structural component images.

[0083] The component matching and selection module 16 is used to perform matching and selection based on the set of curtain wall assembly components and the set of curtain wall component images to determine the set of curtain wall component assembly points.

[0084] The prefabricated installation module 17 is used to perform prefabricated installation of the curtain wall assembly components based on the set of assembly points of the curtain wall components.

[0085] In one embodiment, the system further includes:

[0086] A hierarchical division unit is used to hierarchically divide the curtain wall assembly structural element information to obtain structural element disassembly hierarchical information.

[0087] A construction attribute marking unit is used to mark construction attributes based on the curtain wall assembly construction element information to obtain construction element attribute information;

[0088] A structural numbering rule acquisition unit is used to acquire assembly structure numbering rules, which include hierarchical numbering rules and attribute numbering rules.

[0089] The assembly requirement numbering unit is used to number the hierarchical information and attribute information of the structural elements based on the hierarchical numbering rules and attribute numbering rules, so as to obtain the set of curtain wall assembly requirement numbers.

[0090] In one embodiment, the system further includes:

[0091] A curtain wall database acquisition unit is used to acquire a prefabricated building curtain wall database, which includes information on various types of structural elements.

[0092] The layering criteria formulation unit is used to formulate element attribute layering criteria, which include element type, element specification, and element model.

[0093] The attribute classifier construction unit is used to perform attribute layering on the prefabricated building curtain wall database based on the element attribute layering criteria, and to construct an attribute classifier.

[0094] The attribute classification and labeling unit is used to classify and label the curtain wall assembly structural element information based on the structural attribute classifier to obtain the structural element attribute information.

[0095] In one embodiment, the system further includes:

[0096] A multi-channel component network model construction unit is used to construct a multi-channel component network model based on the attribute information of the construction elements.

[0097] The image recognition unit is used to perform image recognition on the set of curtain wall structural components to be installed based on the multi-channel component network model, and generate a set of structural component classification images.

[0098] The component matching unit is used to match the set of curtain wall assembly components with the set of component classification images to obtain a target set of assembly components;

[0099] The assembly point selection unit is used to select assembly points for the target assembly component set and determine the curtain wall component assembly point set.

[0100] In one embodiment, the system further includes:

[0101] A reference component selection unit is used to select reference components from the target assembly component set to obtain a reference assembly component.

[0102] A reference assembly point acquisition unit is used to acquire a set of reference assembly points for the reference assembly structure.

[0103] The remaining assembly point acquisition unit is used to determine the connection assembly points of the remaining components in the target assembly component set to obtain the remaining assembly point set.

[0104] The assembly point mapping and matching unit is used to map and match the reference assembly point set and the remaining assembly point set to determine the assembly point set of the curtain wall structural component.

[0105] In one embodiment, the system further includes:

[0106] The connection function analysis unit is used to perform connection function analysis on the assembly point set of the curtain wall structural components to obtain assembly point connection function information.

[0107] The assembly point connection method determination unit is used to determine the assembly point connection method based on the assembly point connection function information.

[0108] The matching analysis unit is used to perform matching analysis on the connection function information of the assembly point to obtain tolerance matching information;

[0109] The component installation unit is used to perform assembly-type installation of the target assembly component set based on the assembly point connection method and the tolerance fit information.

[0110] In one embodiment, the system further includes:

[0111] The real-time monitoring unit is used to monitor the installation process of prefabricated building curtain walls in real time and obtain information on the curtain wall engineering installation process.

[0112] An anomaly identification unit is used to identify anomalies based on the curtain wall engineering installation process information and obtain curtain wall installation anomaly information.

[0113] The operation and maintenance analysis unit is used to perform operation and maintenance analysis on the curtain wall installation anomaly information and generate a curtain wall installation operation and maintenance plan.

[0114] The prefabricated installation correction unit is used to perform prefabricated installation correction on the target assembly of structural components based on the curtain wall installation and maintenance plan.

[0115] Specific embodiments regarding prefabricated building curtain wall connectors, frames, and curtain wall installation systems can be found in the embodiments above regarding prefabricated building curtain wall connectors, frames, and curtain wall installation methods, and will not be repeated here. Each module in the aforementioned prefabricated building curtain wall connectors, frames, and curtain wall installation devices can be implemented entirely or partially through software, hardware, or a combination thereof. These modules can be embedded in or independent of the processor in a computer device in hardware form, or stored in the memory of a computer device in software form, so that the processor can call and execute the operations corresponding to each module.

[0116] In one embodiment, a computer device is provided, which may be a server, and its internal structure diagram may be as follows: Figure 4 As shown, the computer device includes a processor, memory, and a network interface connected via a system bus. The processor provides computing and control capabilities. The memory includes non-volatile storage media and internal memory. The non-volatile storage media stores the operating system, computer programs, and a database. The internal memory provides the environment for the operation of the operating system and computer programs in the non-volatile storage media. The database stores news data and data such as time decay factors. The network interface communicates with external terminals via a network connection. When the processor executes the computer program, it implements the prefabricated building curtain wall connectors, frame, and curtain wall installation methods.

[0117] Those skilled in the art will understand that Figure 4 The structure shown is merely a block diagram of a portion of the structure related to the present application and does not constitute a limitation on the computer device to which the present application is applied. Specific computer devices may include more or fewer components than those shown in the figure, or combine certain components, or have different component arrangements.

[0118] In one embodiment, a computer device is provided, including a memory and a processor. The memory stores a computer program, and the processor executes the computer program to perform the following steps: acquiring an assembly drawing of a prefabricated building curtain wall, wherein the assembly components of the prefabricated building curtain wall assembly drawing include connectors, frames, and curtain walls; structurally disassembling the prefabricated building curtain wall assembly drawing to obtain curtain wall assembly structural element information; assigning structural numbers based on the curtain wall assembly structural element information to obtain a set of curtain wall assembly requirement numbers; matching the set of curtain wall assembly requirement numbers with a curtain wall structural component database to obtain a set of curtain wall assembly structural components; obtaining a set of curtain wall structural components to be installed; acquiring images of the set of curtain wall structural components to be installed using a visual inspection module to obtain a set of curtain wall structural component images; matching and selecting based on the set of curtain wall assembly structural components and the set of curtain wall structural component images to determine a set of curtain wall structural component assembly points; and performing prefabricated installation of the curtain wall assembly structural components based on the set of curtain wall structural component assembly points.

[0119] In one embodiment, a computer-readable storage medium is provided, on which a computer program is stored. When the computer program is executed by a processor, it performs the following steps: obtaining an assembly drawing of a prefabricated building curtain wall, wherein the assembly components of the prefabricated building curtain wall assembly drawing include connectors, frames, and curtain walls; structurally disassembling the prefabricated building curtain wall assembly drawing to obtain curtain wall assembly structural element information; assigning structural numbers based on the curtain wall assembly structural element information to obtain a set of curtain wall assembly requirement numbers; matching the set of curtain wall assembly requirement numbers with a curtain wall structural component database to obtain a set of curtain wall assembly structural components; obtaining a set of curtain wall structural components to be installed; acquiring images of the set of curtain wall structural components to be installed using a visual inspection module to obtain a set of curtain wall structural component images; matching and selecting based on the set of curtain wall assembly structural components and the set of curtain wall structural component images to determine a set of curtain wall structural component assembly points; and performing prefabricated installation of the curtain wall assembly structural components based on the set of curtain wall structural component assembly points. The technical features of the above embodiments can be combined in any way. For the sake of brevity, not all possible combinations of the technical features in the above embodiments are described. However, as long as there is no contradiction in the combination of these technical features, they should be considered to be within the scope of this specification.

[0120] The embodiments described above are merely illustrative of several implementation methods of this application, and while the descriptions are relatively specific and detailed, they should not be construed as limiting the scope of the invention patent. It should be noted that those skilled in the art can make various modifications and improvements without departing from the concept of this application, and these all fall within the protection scope of this application. Therefore, the protection scope of this patent application should be determined by the appended claims.

Claims

1. A fabricated building curtain wall connector, frame, and curtain wall installation method, characterized in that, The method includes: Obtain assembly drawings for prefabricated building curtain walls, wherein the assembly components of the prefabricated building curtain wall assembly drawings include connectors, frames, and curtain walls; The prefabricated building curtain wall assembly drawing is structurally disassembled to obtain curtain wall assembly structural element information. Based on the information of the curtain wall assembly construction elements, structural numbers are generated to obtain a set of curtain wall assembly requirement numbers. The curtain wall assembly component set is obtained by matching the set of curtain wall assembly requirement numbers with the curtain wall component database. A set of curtain wall structural components to be installed is obtained, and images of the set of curtain wall structural components to be installed are acquired based on the visual detection module to obtain a set of curtain wall structural component images. Based on the matching and selection of the set of curtain wall assembly components and the set of curtain wall component images, the set of curtain wall component assembly points is determined. The curtain wall assembly components are prefabricated and installed based on the set of assembly points of the curtain wall components. The determination of the set of assembly points for curtain wall structural components includes: Based on the attribute information of the building elements, a multi-channel component network model is constructed; Based on the multi-channel component network model, image recognition is performed on the set of curtain wall structural components to be installed to generate a set of structural component classification images. The set of curtain wall assembly components and the set of component classification images are matched to obtain the target set of assembly components; Assembly points are selected for the target assembly component set to determine the curtain wall component assembly point set; The prefabricated installation of the curtain wall assembly components based on the set of assembly points includes: A connection function analysis was performed on the assembly point set of the curtain wall structural components to obtain the assembly point connection function information. The assembly point connection method is determined based on the assembly point connection function information; The connection function information of the assembly points is analyzed to obtain tolerance and fit information; Based on the assembly point connection method and the tolerance matching information, the target assembly component set is assembled.

2. The method of claim 1, wherein, The set of curtain wall assembly requirement numbers obtained includes: The information on the structural elements of the curtain wall assembly is hierarchically divided to obtain the hierarchical information of the structural element disassembly. Based on the curtain wall assembly structural element information, structural attribute marking is performed to obtain structural element attribute information; Obtain the assembly structure numbering rules, which include hierarchical numbering rules and attribute numbering rules; Based on the hierarchical numbering rules and attribute numbering rules, the hierarchical information and attribute information of the structural elements are numbered to obtain the set of curtain wall assembly requirement numbers.

3. The method of claim 2, wherein, The process of obtaining the attribute information of the constructed element includes: Obtain a database of prefabricated building curtain walls, which includes information on various types of structural elements; Establish element attribute hierarchical criteria, which include element type, element specification, and element model; Based on the element attribute hierarchical criteria, the prefabricated building curtain wall database is hierarchically classified to construct a structural attribute classifier. The structural attribute classifier is used to classify and label the structural element information of the curtain wall assembly to obtain the structural element attribute information.

4. The method of claim 1, wherein, The step of selecting assembly points for the target assembly component set includes: A reference component is selected from the target assembly component set to obtain the reference assembly component; Obtain the set of reference assembly points for the reference assembly component; The connection assembly points of the remaining components in the target assembly component set are determined to obtain the remaining assembly point set. The set of reference assembly points and the set of other assembly points are mapped and matched to determine the set of assembly points for the curtain wall structural components.

5. The method of claim 1, wherein, The method includes: Real-time monitoring of the installation process of prefabricated building curtain walls to obtain information on the curtain wall engineering installation process; Anomaly identification is performed based on the curtain wall engineering installation process information to obtain curtain wall installation anomaly information; The abnormal installation information of the curtain wall is analyzed for operation and maintenance, and an operation and maintenance plan for the curtain wall installation is generated. Based on the curtain wall installation and maintenance plan, the target assembly component set is modified for prefabricated installation.

6. A fabricated building curtain wall connector, frame, and curtain wall mounting system, characterized in that, The system includes: A curtain wall assembly drawing acquisition module is used to acquire assembly drawings of prefabricated building curtain walls, wherein the assembly components of the prefabricated building curtain wall assembly drawings include connectors, frames and curtain walls. The assembly drawing structure disassembly module is used to disassemble the assembly drawing of the prefabricated building curtain wall to obtain the curtain wall assembly construction element information. The structural numbering module is used to number the structures based on the curtain wall assembly construction element information to obtain a set of curtain wall assembly requirement numbers. The assembly component acquisition module is used to match the curtain wall assembly requirement number set with the curtain wall component database to obtain a curtain wall assembly component set. The image acquisition module is used to obtain a set of curtain wall structural components to be installed, and to acquire images of the set of curtain wall structural components based on the visual inspection module to obtain a set of curtain wall structural component images. The component matching and selection module is used to perform matching and selection based on the set of curtain wall assembly components and the set of curtain wall component images to determine the set of curtain wall component assembly points. The prefabricated installation module is used to prefabricate and install the curtain wall assembly components based on the set of assembly points of the curtain wall components. The system also includes: A multi-channel component network model construction unit is used to construct a multi-channel component network model based on the attribute information of the construction elements. The image recognition unit is used to perform image recognition on the set of curtain wall structural components to be installed based on the multi-channel component network model, and generate a set of structural component classification images. The component matching unit is used to match the set of curtain wall assembly components with the set of component classification images to obtain a target set of assembly components; The assembly point selection unit is used to select assembly points for the target assembly structural component set respectively, and to determine the curtain wall structural component assembly point set; The system also includes: The connection function analysis unit is used to perform connection function analysis on the assembly point set of the curtain wall structural components to obtain assembly point connection function information. The assembly point connection method determination unit is used to determine the assembly point connection method based on the assembly point connection function information. The matching analysis unit is used to perform matching analysis on the connection function information of the assembly point to obtain tolerance matching information; The component installation unit is used to perform assembly-type installation of the target assembly component set based on the assembly point connection method and the tolerance fit information.

7. A computer device comprising a memory and a processor, wherein the memory stores a computer program, characterized in that, When the processor executes the computer program, it implements the steps of the method according to any one of claims 1 to 5.

8. A computer-readable storage medium having a computer program stored thereon, characterized in that, When the computer program is executed by a processor, it implements the steps of the method according to any one of claims 1 to 5.