CN113190904A - Integrated data acquisition and butt-joint order placing system for factory production based on point cloud measurement - Google Patents

Abstract

The invention discloses an ordering system for integrated data acquisition butt-joint factory production based on point cloud measurement, which comprises the following steps: s1, measurement: and the measurer enters a decoration construction site, and then scans the house type data of the whole house through the point cloud scanning instrument, so as to obtain the house type style. The integrated data acquisition based on point cloud measurement can be butted with an ordering system for factory production, and the construction efficiency can be increased through the system and the construction process.

Description

Integrated data acquisition and butt-joint order placing system for factory production based on point cloud measurement

Technical Field

The invention relates to the field of decoration, in particular to an ordering system based on point cloud measurement and capable of realizing integrated data acquisition and butting to factory production.

Background

The decoration engineering has the functions of protecting various members of the building from being eroded by natural wind, rain and moisture, improving the functions of heat insulation, sound insulation and moisture prevention, improving the durability of the building, prolonging the service life of the building, simultaneously creating good production, life and working environments for people, modeling, namely establishing a model, namely an abstraction made for understanding things, establishing a written description of things without ambiguity, establishing a system model process, also called modeling, wherein modeling is an important means and premise for researching the system, wherein the process of describing the cause-effect relationship or the mutual relationship of the system by the model belongs to modeling, and the described relationships are different, so that the means and the method for realizing the process are also diversified, modeling can be realized by analyzing the motion rule of the system and according to the mechanism of the things, and processing experimental or statistical data of the system, and modeled based on prior knowledge and experience with the system, several methods may also be used simultaneously.

At present, fitment on the market, generally the designer goes to the scene and measures information such as house length through measuring instrument, later the designer passes through drawing software drawing construction drawing according to these data, design behind the construction drawing, the designer can generally accompany the owner and go to select a standard specification ornamental material to install together, but from measuring and laying basically can cost a large amount of time between accomplishing, and at the fitment in-process, the decoration subassembly of single size probably need carry out a large amount of tailorres in the work progress, thereby cause a large amount of materials extravagant.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides an ordering system based on point cloud measurement and capable of realizing integrated data acquisition and butt joint with factory production, solves the problem that the size precision is not known in the traditional decoration process, and can effectively solve the problem in the background technology.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the integrated data acquisition based on point cloud measurement can be butted with an ordering system for factory production, and the method comprises the following steps:

1 integrated data acquisition based on point cloud measurement can dock the ordering system of factory production, its characterized in that: the method comprises the following steps:

s1, measurement: the measuring personnel enter a decoration construction site, and then the whole house is scanned by a point cloud scanning instrument, so that indoor house type point cloud data are obtained;

s2, copying: the measuring personnel copies house type data in the point cloud scanning instrument through a data line or a storage card and copies the data into a computer;

s3, inputting: the house type data copied into the computer is uploaded to the Lei card point cloud processing software through data transmission: in the Seconong, the software can conveniently analyze and process the uploaded data;

s4, processing: and the data is transmitted to a Leica point cloud processing software: after Seconong, a designer analyzes and processes the scanned data in Leica point cloud processing software to obtain point cloud data available for Revit, and processes unnecessary data including redundant point clouds and the like;

s5, drawing: according to the data processed by the Lycra point cloud processing software, a designer establishes a new project, then transmits the data into the new project, then transmits the new project into Revit software, and then draws a house indoor layout through Revit;

s6, modeling: drawing a house layout under the action of Revit software, and then, carrying out civil engineering and fabricated decoration model creation by a designer according to the house layout drawn in the step S5;

s7, calculating: the gap between the veneer and the civil engineering surface layer is a structural layer of the veneer in the assembly type decoration, and because the civil engineering and the pipeline are separated and dry operation construction is realized in a matching way, a part of space needs to be reserved between a decoration object and a wall body in the modeling process so as to improve the service life of the decoration;

s8, analysis: after the designer carries out modeling through software, the designer can check all kinds of parameters of the component through Revit software to comprehensively analyze the design rationality;

s9, number: after the partition modeling is finished, sequentially marking the modeled decoration parts through software, so as to facilitate the rapid production and decoration in the later period;

s10, tabulation: the whole modeling is converted into a table or a construction drawing by using Mitd software, and the conditions such as the labels and the specifications of required materials are noted in the table;

s11, send and produce: the worker transmits the prepared table to a manufacturer through a network, then the manufacturer inputs data on the table into the control assembly on the automatic production machine, the automatic production machine can facilitate the manufacturer to produce decorative materials with corresponding specifications required by the house type, and the decorative materials are correspondingly marked;

s12, warehousing and transporting: after the manufacturer finishes production, the decorative material with the specification is scanned and warehoused by a handheld point cloud scanning instrument and is waited to be transported to a construction place;

s13, decoration: the transported decorative materials are disassembled and assembled and then are compared with the modeling data diagram inside the handheld terminal, so that an initial decorative point is found, and then construction is carried out according to the number of the decorative materials and the modeling data diagram inside the handheld terminal, so that the construction efficiency is improved;

s14, acceptance: after the construction of the constructor is completed, the checking and accepting personnel compare the modeling schematic diagram inside the handheld terminal with the overall effect of the construction site, so that whether the decorative effect is consistent with the schematic diagram effect or not is checked, and a checking and accepting report is completed.

2. The integrated data acquisition dockable factory-produced ordering system based on point cloud measurement according to claim 1, wherein: the application of Lycra point cloud processing software comprises the following steps: the Seconolon can extract data collected by the scanner into software for analysis.

3. The integrated data acquisition dockable factory-produced ordering system based on point cloud measurement according to claim 1, wherein: the Revit software can process software data for analysis, and then draw house indoor layout drawings through Revit.

4. The integrated data acquisition dockable factory-produced ordering system based on point cloud measurement according to claim 1, wherein: after various components of the whole house assembly type decoration are drawn, the decoration material is modeled and partitioned through software.

5. The integrated data acquisition dockable factory-produced ordering system based on point cloud measurement according to claim 1, wherein: in the house modeling process, the material size can be conveniently planned through software, so that the planned whole house fabricated decoration component model is conveniently numbered, and the worker can conveniently record and install in the later period.

6. The integrated data acquisition dockable factory-produced ordering system based on point cloud measurement according to claim 1, wherein: the output end of the scanner is in signal connection with the input end of the BIM system, and the output end of the BIM system is connected with the TPL control module and the Lycra software: the input ends of the Seconolon software and the Revit software are both electrically connected, and the output end of the TPL control module is connected with the Leica software: the output end of the BIM system is in signal connection with the input ends of a first manufacturer ERP system, a second manufacturer ERP system and an N manufacturer ERP system, the output ends of the first manufacturer ERP system, the second manufacturer ERP system and the N manufacturer ERP system are in signal connection with the input end of the automatic production machine, and the input end of the handheld terminal is in signal connection with the output end of the BIM system.

(III) advantageous effects

The invention provides an ordering system based on point cloud measurement and capable of realizing integrated data acquisition and butting to factory production. The method has the following beneficial effects: the method comprises the following steps of firstly scanning the whole house through a scanner to obtain basic data such as the length of the whole house, copying the data in the scanner into a BIM system, and inputting the data into Leica point cloud processing software by a worker: inside the Secoiron, the input data can be analyzed under the action of software, then under the work of designers, the data which is not needed in the data can be deleted, effective data points are left, new projects are established, then the new projects are input into Revit software for analysis, then the analyzed data can be drawn under the action of a Cyclone RE gisTER 360, the drawn house type diagram can be modeled under the action of the Revit software, then the designers draw the wall body according to the house type diagram, after the wall body drawing is finished, the designers draw the house outline, because a certain space exists between the wall body and the wall decoration plate, the damage of the wall panel for decoration caused when the wall panel is matched with the wall surface is prevented, the distance of 35mm is required to be left between the wall body, and then the building assembly inside the software is used for building the house outline decoration, the specification required by house decoration can be calculated under the action of software to be partitioned, then the partitioned decoration parts are labeled, then workers manufacture production form information according to the serial numbers of the modeled decoration parts, workers record the information of the decoration plates under each label in the form, particularly the materials needing to be cut need to be noted, so that the manufacturer can do large spots relatively, later-stage cutting is facilitated, resource waste is reduced, after the form is manufactured, the workers send the form to the manufacturer through a network, the manufacturer conveys the form data to the interior of an automatic production machine, the specification of the decoration materials of the house is produced through the automatic production machine, then the manufacturer scans the decoration materials through a scanner to wait for transportation, when the constructors transport the materials from the manufacturer to the construction site, the constructors read the interior decoration modeling schematic diagram of the BIM system through a handheld terminal, then installing the decorating material with corresponding number on the corresponding position according to the schematic diagram, facilitating the accurate performance of installing the decorating part through the handheld terminal, improving the installation efficiency, then checking and accepting the installed decorating part through the checking and accepting personnel, increasing the construction efficiency through the system and the construction process, reducing the time length of manual measurement by using a scanner, improving the measurement efficiency and the precision, reducing the material waste caused by errors, increasing the modeling efficiency through the Leica point cloud processing software and the Revit software, providing modeling data, providing accurate data for construction conveniently, providing more accurate and refined laying modes conveniently, finally facilitating the installation of the decorating material through the modeling schematic diagram in the handheld terminal during the construction process, further improving the construction efficiency and the construction effect, and reducing the construction time length through the system and the process, the construction efficiency can also be improved.

Drawings

FIG. 1 is a flow chart of the system in the ordering system of the integrated data acquisition butt-joint factory production based on point cloud measurement.

Detailed Description

The described embodiments are only some embodiments of the invention, 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.

Based on the technical problems existing in the background technology, the invention provides a technical scheme that: the integrated data acquisition based on point cloud measurement can be butted with an ordering system for factory production, and the method comprises the following steps:

example (b):

1 integrated data acquisition based on point cloud measurement can dock the ordering system of factory production, its characterized in that: the method comprises the following steps:

s1, measurement: the measuring personnel enter a decoration construction site, and then the whole house is scanned by a point cloud scanning instrument, so that indoor house type point cloud data are obtained;

s2, copying: the measuring personnel copies house type data in the point cloud scanning instrument through a data line or a storage card and copies the data into a computer;

s3, inputting: the house type data copied into the computer is uploaded to the Lei card point cloud processing software through data transmission: in the Seconong, the software can conveniently analyze and process the uploaded data;

s4, processing: and the data is transmitted to a Leica point cloud processing software: after Seconong, a designer analyzes and processes the scanned data in Leica point cloud processing software to obtain point cloud data available for Revit, and processes unnecessary data including redundant point clouds and the like;

s5, drawing: according to the data processed by the Lycra point cloud processing software, a designer establishes a new project, then transmits the data into the new project, then transmits the new project into Revit software, and then draws a house indoor layout through Revit;

s6, modeling: drawing a house layout under the action of Revit software, and then, carrying out civil engineering and fabricated decoration model creation by a designer according to the house layout drawn in the step S5;

s7, calculating: the gap between the veneer and the civil engineering surface layer is a structural layer of the veneer in the assembly type decoration, and because the civil engineering and the pipeline are separated and dry operation construction is realized in a matching way, a part of space needs to be reserved between a decoration object and a wall body in the modeling process so as to improve the service life of the decoration;

s8, analysis: after the designer carries out modeling through software, the designer can check all kinds of parameters of the component through Revit software to comprehensively analyze the design rationality;

s9, number: after the partition modeling is finished, sequentially marking the modeled decoration parts through software, so as to facilitate the rapid production and decoration in the later period;

s10, tabulation: the whole modeling is converted into a table or a construction drawing by using Mitd software, and the conditions such as the labels and the specifications of required materials are noted in the table;

s11, send and produce: the worker transmits the prepared table to a manufacturer through a network, then the manufacturer inputs data on the table into the control assembly on the automatic production machine, the automatic production machine can facilitate the manufacturer to produce decorative materials with corresponding specifications required by the house type, and the decorative materials are correspondingly marked;

s12, warehousing and transporting: after the manufacturer finishes production, the decorative material with the specification is scanned and warehoused by a handheld point cloud scanning instrument and is waited to be transported to a construction place;

s13, decoration: the transported decorative materials are disassembled and assembled and then are compared with the modeling data diagram inside the handheld terminal, so that an initial decorative point is found, and then construction is carried out according to the number of the decorative materials and the modeling data diagram inside the handheld terminal, so that the construction efficiency is improved;

s14, acceptance: after the construction of the constructor is completed, the checking and accepting personnel compare the modeling schematic diagram inside the handheld terminal with the overall effect of the construction site, so that whether the decorative effect is consistent with the schematic diagram effect or not is checked, and a checking and accepting report is completed.

The method comprises the following steps of firstly scanning the whole house through a scanner to obtain basic data such as the length of the whole house, copying the data in the scanner into a BIM system, and inputting the data into Leica point cloud processing software by a worker: inside the Secoiron, the input data can be analyzed under the action of software, then under the work of designers, the data which is not needed in the data can be deleted, effective data points are left, new projects are established, then the new projects are input into Revit software for analysis, then the analyzed data can be drawn under the action of a Cyclone RE gisTER 360, the drawn house type diagram can be modeled under the action of the Revit software, then the designers draw the wall body according to the house type diagram, after the wall body drawing is finished, the designers draw the house outline, because a certain space exists between the wall body and the wall decoration board, the damage of the wall panel for decoration caused when the wall panel is matched with the wall surface is prevented, a part of distance needs to be left between the wall body, then the modeling component inside the software is used for building the house outline decoration, the specification required by house decoration can be calculated under the action of software to be partitioned, then the partitioned decoration parts are labeled, then workers manufacture production form information according to the serial numbers of the modeled decoration parts, workers record the information of the decoration plates under each label in the form, particularly the materials needing to be cut need to be noted, so that the manufacturer can do large spots relatively, later-stage cutting is facilitated, resource waste is reduced, after the form is manufactured, the workers send the form to the manufacturer through a network, the manufacturer conveys the form data to the interior of an automatic production machine, the specification of the decoration materials of the house is produced through the automatic production machine, then the manufacturer scans the decoration materials through a scanner to wait for transportation, when the constructors transport the materials from the manufacturer to the construction site, the constructors read the interior decoration modeling schematic diagram of the BIM system through a handheld terminal, and then installing the decorative material with the corresponding number on the corresponding position according to the schematic diagram, facilitating the installation of the decorative part by the handheld terminal, improving the installation efficiency, and then checking and accepting the installed decorative part by checking and accepting personnel.

It is 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 apparatus 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 apparatus. Without further limitation. The use of the phrase "comprising one of the elements does not exclude the presence of other like elements in the process, method, article, or apparatus that comprises the element.

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 (6)

1. But integration data acquisition butt joint mill production's ordering system based on point cloud measurement, its characterized in that: the method comprises the following steps:

s1, measurement: the measuring personnel enter a decoration construction site, and then the whole house is scanned by a point cloud scanning instrument, so that indoor house type point cloud data are obtained;

s2, copying: the measuring personnel copies house type data in the point cloud scanning instrument through a data line or a storage card and copies the data into a computer;

s3, inputting: the house type data copied into the computer is uploaded to the Lei card point cloud processing software through data transmission: in the Seconong, the software can conveniently analyze and process the uploaded data;

s4, processing: and the data is transmitted to a Leica point cloud processing software: after Seconong, a designer analyzes and processes the scanned data in Leica point cloud processing software to obtain point cloud data available for Revit, and processes unnecessary data including redundant point clouds and the like;

s5, drawing: according to the data processed by the Lycra point cloud processing software, a designer establishes a new project, then transmits the data into the new project, then transmits the new project into Revit software, and then draws a house indoor layout through Revit;

s6, modeling: drawing a house layout under the action of Revit software, and then, carrying out civil engineering and fabricated decoration model creation by a designer according to the house layout drawn in the step S5;

s7, calculating: the gap between the veneer and the civil engineering surface layer is a structural layer of the veneer in the assembly type decoration, and because the civil engineering and the pipeline are separated and dry operation construction is realized in a matching way, a part of space needs to be reserved between a decoration object and a wall body in the modeling process so as to improve the service life of the decoration;

s8, analysis: after the designer carries out modeling through software, the designer can check all kinds of parameters of the component through Revit software to comprehensively analyze the design rationality;

s9, number: after the partition modeling is finished, sequentially marking the modeled decoration parts through software, so as to facilitate the rapid production and decoration in the later period;

s10, tabulation: the whole modeling is converted into a table or a construction drawing by using Mitd software, and the conditions such as the labels and the specifications of required materials are noted in the table;

s11, send and produce: the worker transmits the prepared table to a manufacturer through a network, then the manufacturer inputs data on the table into the control assembly on the automatic production machine, the automatic production machine can facilitate the manufacturer to produce decorative materials with corresponding specifications required by the house type, and the decorative materials are correspondingly marked;

s12, warehousing and transporting: after the manufacturer finishes production, the decorative material with the specification is scanned and warehoused by a handheld scanning instrument and waits for transportation to a construction place;

s13, decoration: the transported decorative materials are disassembled and assembled and then are compared with the modeling data diagram inside the handheld terminal, so that an initial decorative point is found, and then construction is carried out according to the number of the decorative materials and the modeling data diagram inside the handheld terminal, so that the construction efficiency is improved;

s14, acceptance: after the construction of the constructor is completed, the checking and accepting personnel compare the modeling schematic diagram inside the handheld terminal with the overall effect of the construction site, so that whether the decorative effect is consistent with the schematic diagram effect or not is checked, and a checking and accepting report is completed.

2. The integrated data acquisition dockable factory-produced ordering system based on point cloud measurement according to claim 1, wherein: the application of Lycra point cloud processing software comprises the following steps: the Seconolon can extract data collected by the scanner into software for analysis.

3. The integrated data acquisition dockable factory-produced ordering system based on point cloud measurement according to claim 1, wherein: the Revit software can process software data for analysis, and then draw house indoor layout drawings through Revit.

4. The integrated data acquisition dockable factory-produced ordering system based on point cloud measurement according to claim 1, wherein: after various components of the whole house assembly type decoration are drawn, the decoration material is modeled and partitioned through software.

5. The integrated data acquisition dockable factory-produced ordering system based on point cloud measurement according to claim 1, wherein: in the house modeling process, the material size can be conveniently planned through software, so that the planned whole house fabricated decoration component model is conveniently numbered, and the worker can conveniently record and install in the later period.

6. The integrated data acquisition dockable factory-produced ordering system based on point cloud measurement according to claim 1, wherein: the output end of the scanner is in signal connection with the input end of the BIM system, and the output end of the BIM system is connected with the TPL control module and the Lycra software: the input ends of the Seconolon software and the Revit software are both electrically connected, and the output end of the TPL control module is connected with the Leica software: the output end of the BIM system is in signal connection with the input ends of a first manufacturer ERP system, a second manufacturer ERP system and an N manufacturer ERP system, the output ends of the first manufacturer ERP system, the second manufacturer ERP system and the N manufacturer ERP system are in signal connection with the input end of the automatic production machine, and the input end of the handheld terminal is in signal connection with the output end of the BIM system.

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