CN115689501A - Digital construction auxiliary construction method for architectural decoration component - Google Patents

Abstract

The invention provides a digital construction auxiliary construction method of a building decoration member, and relates to the technical field of construction methods. The construction method specifically comprises the following steps: s1, digital construction early-stage preparation management and S2, digital construction management. According to the construction method, a full-digital management mode is adopted in the whole processes of production, transportation and hoisting of the prefabricated parts, information such as the size, the serial number, the production time, the delivery time, the approach time and the installation position of each prefabricated decorative part is implanted into the prefabricated parts by utilizing an RFID technology, data visualization is realized by scanning, acquiring and uploading the prefabricated parts, the dynamic state of each prefabricated part is tracked in real time, meanwhile, the position installation accuracy of each decorative part is guaranteed based on a BIM model, the position installation accuracy of each decorative part is improved, the production progress control capability of the prefabricated parts is improved, the digital construction auxiliary construction is realized, and the purposes of saving the construction period and reducing the cost are achieved.

Description

Digital construction auxiliary construction method for architectural decoration component

Technical Field

The invention relates to the technical field of construction methods, in particular to a digital construction auxiliary construction method of a building decoration member.

Background

The digital construction mainly refers to the application of a digital technology to assist the construction of engineering, is carried out by interaction of people and information terminals, is mainly embodied in the construction of continuous information flow in the whole processes of expression, analysis, calculation, simulation, monitoring, control and has the essence that the evolution of an engineering organization form and a construction process is driven on the basis of the digital technology, and the engineering construction process and the product revolution are finally realized;

the digital construction of the engineering construction covers a plurality of links such as structure construction, equipment installation, decoration and fitment, wherein the architectural decoration industry is particularly suitable for large-scale popularization and promotion, the digital construction is the inevitable trend of the development of the architectural decoration industry, and the development of the digital construction also has the corresponding development direction.

The whole life cycle of architectural decoration construction relates to a plurality of links such as raw materials, product processing, engineering design, engineering construction, engineering management, and the participation unit, department, personnel are many and miscellaneous, and different work types work is big in coordination degree of difficulty, and the complexity is strong, produces the confusion easily when installing the equipment to prefabricated component, causes the installation inaccurate, influences the normal clear of construction progress, delays the time limit for a project.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a digital construction auxiliary construction method for a building decoration member, which solves the problems that the building decoration member is easy to generate installation disorder during installation and construction, the work efficiency is low, and the construction period is prolonged.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: a digital construction auxiliary construction method of a building decoration component specifically comprises the following steps:

s1, preparation management in early stage of digital construction

a. Architectural decoration component model acquisition

Obtaining building size appearance data by referring to a building drawing and carrying out indoor environment actual investigation, and designing a building decoration member construction model through a BIM (building information modeling) management platform according to the data;

b. deep-split component model

Carrying out deep splitting on the architectural decoration component model by using a BIM management platform, carrying out deep splitting on each primitive in the built BIM according to the installation steps of the prefabricated components, enabling each primitive in the BIM to correspond to an actual prefabricated component, and issuing an RFID chip according to a GUID (identity identifier) derived from each component in the BIM so that each component has an identity number corresponding to and independent from the BIM;

c. building a production database

Exporting basic information of the building decoration component required to be prefabricated in advance in an Excel file format, filling the actual volume and the amount of each prefabricated decoration component, importing the information into a prefabricated component information management system, and intelligently managing the components by using an information platform;

d. implanted RFID chip

Writing information of the corresponding prefabricated part to be produced into an RFID chip by using an RFID reader-writer according to the actual production progress, and placing the RFID chip into the decorative member;

e. collecting production information

The method comprises the steps that a handheld scanning device is used for scanning a prefabricated decorative component in each link of production, quality inspection and delivery of the prefabricated decorative component, information collection is carried out, after the required prefabricated decorative component is machined and formed, quality inspection is carried out on the prefabricated decorative component, the size and the appearance of the prefabricated decorative component are checked, drawing information is compared, after a bad item is found in the quality inspection process, corresponding actual value data needs to be filled, reworking and correcting are carried out, after the production and the processing of the architectural decorative design component are finished, a scanning label is used for confirming delivery, and an information management platform updates the state of the prefabricated decorative component in real time;

f. production data management

After finishing information acquisition by a decorative component producer, the prefabricated component RFID information management system automatically arranges, summarizes and classifies all information;

s2, digital construction management

A. Advance data information acquisition

After a prefabricated building decoration component enters a field, a construction site quality inspector performs quality inspection on the prefabricated component, information such as appearance quality and weight of the prefabricated component is acquired by using a PDA (personal digital assistant), the components are compared through accessory drawing information on the PDA, quality problems are found, unqualified information is submitted and the defective component is returned in time, and after the quality inspection is qualified, a stock yard preset according to the prefabricated component is obtained through a scanning label and unloaded to be put in storage;

B. hoist data information management

During hoisting construction operation of the prefabricated part, the prefabricated part can be scanned to obtain the installation position and the installation direction of the prefabricated part, and meanwhile, the prefabricated part can be highlighted in a BIM model by using a BIM management platform, and information such as the installation position and the like is displayed for checking and confirming to guide hoisting construction;

C. component tracing management

After the prefabricated building decoration component is hoisted, if information of a certain component needs to be inquired, the use traceability management function can be inquired about basic information, drawing information, production information, factory quality inspection and factory leaving records of the component, as well as construction site entrance and quality inspection information and hoisting records by scanning a prefabricated component chip;

D. full process visual management

Information acquisition is carried out from the production to the hoisting of the prefabricated parts, the tracking of the whole process is realized, the dynamic real-time inquiry of all the parts can be realized on an information management platform, and the digital management is realized.

Preferably, when the architectural decoration component model in the S1 is obtained, the model data is perfected by referring to the construction local concept meteorological data and geological conditions.

Preferably, when the deepened component model is split in S1, the identity numbers are arranged in sequence according to the installation sequence of the components.

Preferably, when the production database is established in S1, the basic information of the architectural decoration component includes a component type, a name, a prefabricated component number, an engineering name, a building number, a floor number, and an installation position.

Preferably, when the RFID chip is implanted in the S1, the concrete decoration prefabricated part needs to be poured after the prefabricated part is finished, the RFID chip is lightly pressed into the concrete when the surface of the concrete is initially set, and the chip can not fall off and can be normally read.

Preferably, when the production information is collected in S1, the production information is collected during production of the prefabricated part, and the number, the model, the type, and the like of the prefabricated part are rechecked.

Preferably, when the hoisting data information is managed in the S2, after the completion of hoisting is confirmed, the BIM platform automatically updates the model, and performs information closing on the constructed component.

Preferably, in the S2, the information and the state of the actual component can be written into the RFID chip through the handheld PDF device to realize the association between the external component and the RFID chip, and finally, the whole information flow is connected in series through the RFID chip to be displayed in the prefabricated component BIM information repository.

(III) advantageous effects

The invention provides a digital construction auxiliary construction method of a building decoration component. The method has the following beneficial effects:

1. the invention provides a digital construction auxiliary construction method of a building decoration component, which applies BIM and RFID technology to the whole process of design, customization, production, transportation and construction of the building decoration component, realizes the visualization and systematic management of the whole process, improves the operation efficiency and accuracy and saves the construction period.

2. The invention provides a digital construction auxiliary construction method of architectural decoration members, which is characterized in that an RFID chip is issued by a BIM model which is deeply split by a prefabricated member in the early construction period, in the hoisting construction process, the hoisting is guided according to the BIM model, the hoisting is completed, the BIM model information is updated in real time, the seamless and nondestructive butt joint of the BIM software and the model information in the RFID software is perfected, the management is convenient, the construction disorder is avoided, the rework is reduced, the construction period is shortened, and the construction cost is saved.

3. The invention provides a digital construction auxiliary construction method of a building decoration component, which realizes the whole-course tracking technology of the building industrialization construction process, and a BIM platform and an RFID information management platform exchange information through a cloud server, thereby realizing the traceability of component information besides the information management of each stage of the component and facilitating the subsequent management.

Detailed Description

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

The embodiment is as follows:

the embodiment of the invention provides a digital construction auxiliary construction method of a building decoration member, which specifically comprises the following steps:

s1, preparation management in early stage of digital construction

a. Architectural decoration component model acquisition

Building dimension and appearance data are obtained by referring to a building drawing and carrying out indoor environment actual reconnaissance, a building decoration component construction model is designed through a BIM management platform according to the data, reference opinions of field construction personnel are fully considered during modeling, and auxiliary modeling is carried out by combining the reference opinions of the construction personnel, so that the situation that design is disconnected from actual construction is avoided;

b. deep-split component model

The building decoration component model is deeply split by using a BIM management platform, each primitive in the built BIM model is deeply split according to the installation steps of the prefabricated components, each primitive in the BIM model corresponds to an actual prefabricated component, an RFID chip is issued according to a GUID (globally unique identifier) derived from each component in the BIM model, each component has an identity number corresponding to and independent of the BIM model, and the follow-up tracking and checking of the individual components are facilitated;

c. building a production database

Exporting basic information of the building decoration component required to be prefabricated in advance in an Excel file format, filling the actual volume and the amount of each prefabricated decoration component, importing the information into a prefabricated component information management system, and intelligently managing the components by using an information platform;

d. implanting an RFID chip

According to the best scheme, the RFID chip is arranged inside the member and is not easy to damage, and the RFID chip needs to be arranged at a position where the installation is not affected when the requirement cannot be met, and is damaged in a protection measure mode;

e. collecting production information

The method comprises the steps that a handheld scanning device is used for scanning a prefabricated decorative component in each link of production, quality inspection and delivery of the prefabricated decorative component, information collection is carried out, after the required prefabricated decorative component is machined and formed, quality inspection is carried out on the prefabricated decorative component, the size and the appearance of the prefabricated decorative component are checked, drawing information is compared, after a bad item is found in the quality inspection process, corresponding actual value data needs to be filled, reworking and correcting are carried out, after the production and the processing of the architectural decorative design component are finished, a scanning label is used for confirming delivery, and an information management platform updates the state of the prefabricated decorative component in real time;

f. production data management

After finishing information acquisition by a decorative component producer, the prefabricated component RFID information management system automatically arranges, summarizes and classifies all information, so that subsequent reference is facilitated, and a reference function can be provided for subsequent projects;

s2. Digital construction management

A. Advance data information acquisition

After the prefabricated building decoration component enters a field, a construction site quality inspector performs quality inspection on the prefabricated component, information such as appearance quality and weight of the prefabricated component is collected by using a PDA (personal digital assistant), the component is compared through accessory drawing information on the PDA, quality problems are found, unqualified information is submitted and the component with the problems is returned in time, and after the quality inspection is qualified, a stock yard preset according to the prefabricated component is obtained through a scanning label and unloaded and warehoused;

B. hoist data information management

During the hoisting construction operation of the prefabricated part, the prefabricated part can be scanned, the installation position and the installation direction of the prefabricated part are obtained, meanwhile, the BIM management platform can be used for highlighting the prefabricated part in a BIM model, displaying information such as the installation position and the like for checking and confirming, guiding the hoisting construction, and enabling the architectural decoration member to be accurately installed at a set working position according to a preset installation sequence;

C. component traceability management

After the prefabricated building decoration component is hoisted, if information of a certain component needs to be inquired, the use traceability management function can be inquired through scanning a chip of the prefabricated component, and basic information, drawing information, production information, factory quality inspection and factory leaving records of the component, as well as construction site entrance and quality inspection information and hoisting records are inquired, so that supervision and management and post-inspection are facilitated;

D. full process visual management

Information acquisition is carried out from the production to the hoisting of the prefabricated parts, the tracking of the whole process is realized, the dynamic real-time query of all the parts can be realized on an information management platform, and the digital management is realized;

according to the method, by combining RFID and BIM technologies, the whole process of production, transportation and hoisting of the prefabricated decorative components adopts an Internet of things mode, the numbering and positioning of the components are realized, the dynamic state of each prefabricated component is tracked in real time, and the using tools mainly comprise three parts, namely a BIM management platform, a component information management platform, a handheld PDA and an RFID chip:

1. BIM management platform: the method mainly comprises the steps of displaying information such as production and construction of prefabricated components in a three-dimensional mode by using a lightweight model, splitting a building decoration component model according to each prefabricated component by using BIM in the early period to reach the depth of guiding construction, compiling a component production sequence by using a GUID (globally unique identifier) generated by software to enable each actually produced component to correspond to the model one by one, and displaying all information hung on each decoration component through the three-dimensional model;

2. component information management platform: information such as the size, the serial number, the production time, the delivery time, the approach time and the installation position of all prefabricated decorative components are integrated to form an information database, information acquisition is carried out through the Internet, the component state is automatically judged according to the information type returned by the PDA, the information of the corresponding component is updated, and a management platform can be organized and built by a professional technical team under the participation of field construction personnel;

3. handheld PDA and RFID chips: the method comprises the steps that information of a decorative prefabricated part is written into a chip by utilizing an RFID (radio frequency identification) wireless radio frequency technology, a handheld PDA (personal digital assistant) device is used for scanning a tag in production, transportation, construction and operation and maintenance links, product information stored in the chip is sent out by means of energy obtained by induced current, an SIM (subscriber identity module) card is arranged in the handheld PDA device, the information is uploaded to an information management platform in real time through a mobile network, the PDA device displays the mounting position of the part according to the tag information of the read part in the hoisting construction process, a BIM (building information modeling) lightweight model is used for highlighting the part, three-dimensional guiding construction is realized, the advantage of non-contact information reading of an RFID passive tag is utilized, and traceability management can be still carried out after hoisting is completed and even completion delivery;

when the building decoration component model in the S1 is obtained, the model data is perfected by referring to the construction local concept meteorological data and geological conditions, particularly considering that the building decoration component needs to meet the local earthquake-resistant requirement and the wind-resistant requirement, when the deepened component model is disassembled in the S1, the identity numbers are arranged in sequence according to the installation sequence of the components, and the sequential construction is convenient, when a production database is established in the S1, the basic information of the building decoration components comprises component types, names, prefabricated component numbers, engineering names, building numbers, layer numbers and installation positions, when the RFID chip is implanted into the S1, for the concrete decoration prefabricated component, after the prefabricated component is poured, the RFID chip is lightly pressed into the concrete when the surface of the concrete is initially solidified, the chip is ensured not to fall off and can be normally read, and for other material processing components, the RFID chip is required to be fixed at the position which does not influence the construction;

the method comprises the following steps that S1, when production information is collected, when prefabricated parts are produced, the production information is collected, the serial numbers, the models, the types and the like of the prefabricated parts are rechecked, construction errors are reduced, confusion is avoided, when data information management is confirmed to be completed in S2, a BIM platform automatically updates the models, the constructed parts are closed, follow-up query is facilitated, information and states of actual parts can be written into an RFID chip through handheld PDF equipment in the whole process visual management in S2, the external parts and the RFID chip are related, finally the whole information flow is connected in series through the RFID chip, and display is carried out in a BIM information center library of the prefabricated parts.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. A digital construction auxiliary construction method of a building decoration component is characterized by comprising the following steps:

s1, preparation management in early stage of digital construction

a. Architectural decoration component model acquisition

Obtaining building size appearance data by referring to a building drawing and carrying out indoor environment actual investigation, and designing a building decoration member construction model through a BIM (building information modeling) management platform according to the data;

b. deep-split component model

Carrying out deep splitting on the architectural decoration component model by using a BIM management platform, carrying out deep splitting on each primitive in the built BIM according to the installation steps of the prefabricated components, enabling each primitive in the BIM to correspond to an actual prefabricated component, and issuing an RFID chip according to a GUID (identity identifier) derived from each component in the BIM so that each component has an identity number corresponding to and independent from the BIM;

c. building a production database

Exporting basic information of building decoration component parts needing to be prefabricated in advance in an Excel file format, filling in the actual volume and the amount of each prefabricated decoration component part, importing the information into a prefabricated component information management system, and intelligently managing the component parts by using an information platform;

d. implanting an RFID chip

Writing information of the corresponding prefabricated part to be produced into an RFID chip by using an RFID reader-writer according to the actual production progress, and placing the RFID chip into the decorative member;

e. collecting production information

The method comprises the steps that a handheld scanning device is used for scanning a prefabricated decorative component in each link of production, quality inspection and delivery of the prefabricated decorative component, information collection is carried out, after the required prefabricated decorative component is machined and formed, quality inspection is carried out on the prefabricated decorative component, the size and the appearance of the prefabricated decorative component are checked, drawing information is compared, after a bad item is found in the quality inspection process, corresponding actual value data needs to be filled, reworking and correcting are carried out, after the production and the processing of the architectural decorative design component are finished, a scanning label is used for confirming delivery, and an information management platform updates the state of the prefabricated decorative component in real time;

f. production data management

After finishing information acquisition by a decorative component producer, the prefabricated component RFID information management system automatically arranges, summarizes and classifies all information;

s2. Digital construction management

A. Advance data information acquisition

After the prefabricated building decoration component enters a field, a construction site quality inspector performs quality inspection on the prefabricated component, information such as appearance quality and weight of the prefabricated component is collected by using a PDA (personal digital assistant), the component is compared through accessory drawing information on the PDA, quality problems are found, unqualified information is submitted and the component with the problems is returned in time, and after the quality inspection is qualified, a stock yard preset according to the prefabricated component is obtained through a scanning label and unloaded and warehoused;

B. hoist data information management

During hoisting construction operation of the prefabricated part, the prefabricated part can be scanned to obtain the installation position and the installation direction of the prefabricated part, and meanwhile, the prefabricated part can be highlighted in a BIM model by using a BIM management platform, and information such as the installation position and the like is displayed for checking and confirming to guide hoisting construction;

C. component traceability management

After the prefabricated building decoration component is hoisted, if information of a certain component needs to be inquired, the use traceability management function can be inquired about basic information, drawing information, production information, factory quality inspection and factory leaving records of the component, as well as construction site entrance and quality inspection information and hoisting records by scanning a prefabricated component chip;

D. full process visual management

Information acquisition is carried out from the production to the hoisting of the prefabricated parts, the tracking of the whole process is realized, the dynamic real-time inquiry of all the parts can be realized on an information management platform, and the digital management is realized.

2. The digital construction auxiliary construction method of architectural ornament members according to claim 1, wherein: when the architectural decoration component model in the S1 is obtained, the model data is perfected by referring to the construction local concept meteorological data and geological conditions.

3. The digital construction auxiliary construction method of architectural ornament members according to claim 1, wherein: and when the S1 is used for disassembling the deepened component model, the identity numbers are arranged in sequence according to the installation sequence of each component.

4. The digital construction auxiliary construction method of architectural ornament members according to claim 1, wherein: s1, when a production database is established, the basic information of the building decoration component comprises component types, names, prefabricated component numbers, engineering names, building numbers, floor numbers and installation positions.

5. The digital construction auxiliary construction method of architectural ornament members according to claim 1, wherein: s1 when implanting the RFID chip, to the prefabricated component is decorated to the concrete, need treat that the prefabricated component pours the back that finishes, lightly impress the concrete with the RFID chip when treating concrete surface initial set, can carry out the chip and normally read when guaranteeing that the chip can not drop.

6. The digital construction auxiliary construction method of architectural ornament members according to claim 1, wherein: and S1, when the production information is collected, the production information is collected when the prefabricated part is produced, and the number, the model, the type and the like of the prefabricated part are rechecked.

7. The digital construction auxiliary construction method of architectural ornament members according to claim 1, wherein: and in S2, when the hoisting data information is managed, after the completion of hoisting is confirmed, the BIM platform automatically updates the model, and the information closing is carried out on the constructed component.

8. The digital construction auxiliary construction method of architectural ornament members according to claim 1, wherein: and in the S2, the information and the state of the actual component can be written into the RFID chip through the handheld PDF equipment for the whole process visual management, so that the correlation between the external component and the RFID chip is realized, and finally, the whole information flow is connected in series through the RFID chip and displayed in the BIM information center library of the prefabricated component.