CN114862627A

CN114862627A - Digitalized building construction system

Info

Publication number: CN114862627A
Application number: CN202210484860.1A
Authority: CN
Inventors: 刘德建; 周凤; 刘伟迟; 安琦; 何威; 王亚新
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-05-06
Filing date: 2022-05-06
Publication date: 2022-08-05

Abstract

The invention belongs to the technical field of building construction, and particularly relates to a datamation building construction system which comprises a control platform, a material distribution unit, a data storage module, a material estimation unit, a data correction unit, a BIM building module, a data detection unit, a comparison module, an alarm unit, a difference application unit, a display module, an information input module, a margin import module, an information storage module and an information export module; the invention carries out data construction control on the whole construction process through the BIM building module, can autonomously arrange construction materials, and arrange the materials to enter a construction site in reasonable time, and does not influence the construction of the next stage when the materials enter the construction site, so that the whole construction process is data and has high efficiency.

Description

Digitalized building construction system

Technical Field

The invention belongs to the technical field of building construction, and particularly relates to a data building construction system.

Background

The building model is between a plane drawing and an actual three-dimensional space, organically connects the plane drawing and the actual three-dimensional space, is a three-dimensional mode, is beneficial to the knock of design and creation, can visually express the design intention, makes up the limitation of the drawing on the expression, is a part of the design process of a designer, belongs to an expression form of the design, and is widely applied to the aspects of city construction, real estate development, commodity sale, design and bidding, recruitment and the like.

Some current building engineering models only provide a preliminary model for a construction building, do not perform a series of cost budgets and related cost control on the building model, do not perform staged distribution on the building cost based on the model, avoid data construction causing waste on materials, and do not specifically arrange when the materials enter the field to ensure that the materials enter in order, and do not perform data control on whether the materials are used less during construction; in order to realize the concept, a technical scheme is provided.

Disclosure of Invention

In view of the problems in the prior art, the invention aims to provide a data building construction system.

In order to achieve the purpose, the invention adopts the following technical scheme:

a digitized building construction system comprising: the system comprises a control platform, a material distribution unit, a data storage module, a material estimation unit, a data correction unit, a BIM building module, a data detection unit, a comparison module, an alarm unit, a difference application unit, a display module, an information input module, a margin import module, an information storage module and an information export module;

the material distribution unit distributes materials in stages for construction, construction materials corresponding to each stage are arranged in an autonomous mode, the comparison module is used for comparing actual used materials of each stage with estimated used materials, when the actual used materials are insufficient, constructors report and approve to arrange redundant materials, and when the actual used materials are surplus, the data detection unit finds out areas with insufficient construction consumption to control the alarm unit to conduct alarm processing.

Preferably, the BIM building module establishes a BIM building model according to a building engineering area, the material estimation unit is used for estimating required materials according to the building BIM model, and the information input module is used for constructors to input preset days, expected construction period and allowed loss and transmit the preset days, expected construction period and allowed loss to the control platform.

Preferably, the control platform is configured to transmit the preset number of days and the expected duration to the material dispensing unit, and transmit the allowable loss amount to the data correction unit, and the data correction unit transmits the received allowable loss amount to the material dispensing unit.

Preferably, the data detection unit comprises a material detection unit and a construction detection unit, the material detection unit is used for detecting the residual quantity of the constructed material, and the construction detection unit is used for capturing the construction image in real time.

Preferably, the alarm unit comprises a buzzer and a loudspeaker, the comparison module is used for comparing the material distribution amount of the material distribution unit with the actual material amount used by the material detection unit, comparing pictures captured by the construction detection unit when the material is left, and finding out the area with insufficient construction amount to control the alarm unit to give an alarm.

Preferably, the comparison module is further configured to transmit the material allowance data to the allowance import module, the allowance import module is configured to import the excess material allowance data and the snapshot picture to the control platform, and the control platform is configured to transmit the allowance data and the snapshot picture to the display module for real-time display and transmit the allowance data to the information storage module for backup storage.

Preferably, the information export module is used for exporting the data of the information storage module, the information input module, the construction detection unit, the material estimation unit and the material distribution unit.

Preferably, the differential application unit is used for a constructor to input additional material application amount and additional reason when the materials are not enough.

Compared with the prior art, the invention has the following technical effects:

according to the data building construction system provided by the invention, the BIM building module is used for holding the data construction of the whole construction process, the construction materials can be arranged autonomously, the materials are arranged to enter a construction site within a reasonable time, and when the materials enter the construction site, the next-stage construction is not influenced, so that the data and the efficiency of the whole construction process are high;

the data detection unit is arranged to detect the whole construction process and the material use condition, after the material loss of special conditions occurs, the data can be displayed in real time through the display module, constructors report the data, corresponding redundant materials are arranged after the materials are approved by managers, the alarm unit can give an alarm to remind the constructors when the materials are left, the data and the snapshot pictures are led into the control platform through the allowance leading-in module, the control platform is used for transmitting the allowance data and the scratch pictures to the display module to be displayed in real time, the allowance data are transmitted to the information storage module to be backed up and stored, the constructors can repair the materials according to the displayed pictures and data, the construction is carried out again in the area which does not reach the standard, the situation that the materials are not used in place and the bean curd residue engineering is formed is avoided;

the information storage module, the information input module, the construction detection unit are used for snapshotting moral pictures, the total amount of materials pre-estimated by the material pre-estimation unit and construction material data distributed by the material distribution unit in the staged construction are exported by the information export module, the data exported by the information export module are analyzed and duplicated by the communication duplication disc unit, a correct construction scheme is obtained again, and the construction scheme data are transmitted to the data storage module, so that the next better construction is facilitated.

Additional features and advantages of the invention will be set forth in the detailed description which follows.

Drawings

FIG. 1 illustrates a block diagram of a digitized building construction system provided in accordance with an embodiment of the present invention;

FIG. 2 illustrates a block diagram of an information derivation module provided in accordance with embodiments of the present invention;

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further clarified by combining the specific drawings.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not denote a unique embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Example 1:

referring to fig. 1, the present embodiment provides a digitalized building construction system, which includes: the system comprises a control platform, a material distribution unit, a data storage module, a material estimation unit, a data correction unit, a BIM building module, a data detection unit, a comparison module, an alarm unit, a differential application unit, a display module, an information input module, a residual import module, an information storage module and an information export module, wherein the material estimation module estimates the used materials according to a BIM building model, the material distribution unit distributes the materials in stages for construction, each stage is arranged to correspond to the construction materials autonomously, the comparison module is used for comparing the actual used materials and the estimated used materials in each stage, when the actual used materials are insufficient, constructors report and approve the arrangement of redundant materials and display the redundant materials through the display module, the information storage module stores the report information, and when the actual used materials are residual, the data detection unit finds out the construction insufficient area to control the alarm unit to carry out alarm processing, and the display module is used for displaying, and the information storage module is used for storing allowance data.

In this embodiment, the BIM building module establishes a BIM building model according to a building engineering area, the material estimation unit is used for estimating required materials according to the building BIM model, and the information input module is used for constructors to input preset days, a preset construction period and an allowable loss amount and transmit the preset days, the preset construction period and the allowable loss amount to the control platform;

in this embodiment, the control platform is configured to transmit the preset number of days and the expected period to the material dispensing unit, and transmit the allowable loss amount to the data correction unit, and the data correction unit transmits the allowable loss amount to the material dispensing unit when receiving the transmission of the control platform to the allowable loss amount.

The material distribution unit is used for storing the allowable loss amount transmitted by the data correction unit when receiving the allowable loss amount; the material distribution unit is also used for replacing the original allowable loss amount with the new allowable loss amount when the allowable loss amount transmitted by the data correction unit is received.

In this embodiment, the data detection unit includes a material detection unit and a construction detection unit, the material detection unit is used for detecting the residual amount of the constructed material, and the construction detection unit is used for capturing the construction image in real time.

In this embodiment, the alarm unit includes a buzzer and a loudspeaker, and the comparison module is configured to compare the amount of material dispensed by the material dispensing unit with the last amount of material detected by the material detection unit, compare pictures captured by the construction detection unit when the material remains, and find out an area with insufficient construction amount to control the alarm unit to perform alarm processing.

In this embodiment, the differential application unit is used for a constructor to input the additional amount and the reason for applying the material when the material is insufficient, transmit the additional amount and the reason for applying the material to the control platform, display the additional amount and the reason for applying the material in real time through the display module, and perform backup storage through the information storage module.

In this embodiment, the control platform is configured to transmit the additional amount and the additional reason of the material application to the display module for real-time display, and further configured to transmit the time marked for the additional amount and the additional reason of the material application to the information storage module for backup storage, and when receiving the approval signal transmitted by the data input module, the control platform is further configured to mark the additional amount and the additional reason of the material application with the time marked in the storage module as approved.

In this embodiment, the information input module is used for engineering management personnel to input an agreement signal when agreeing to apply for addition of materials;

the data input module is used for transmitting an agreement signal to the controller, and the controller utilizes the driving display module to display when receiving the agreement signal transmitted by the data input module.

The material distribution unit is used for obtaining the current approach material according to the staged distribution; the material distribution unit is used for transmitting the approach materials and the corresponding non-building areas or building areas thereof to the display module for displaying.

In order to distribute the material into the construction site in stages, the material distribution unit is used for transmitting the approach material and the corresponding non-floor area or floor area to the storage module for storage.

In this embodiment, in order to monitor specific construction conditions and material usage conditions, the comparison module is further configured to transmit material allowance data to an allowance import module, the allowance import module is configured to import redundant material allowance data and a snapshot picture to the control platform, and the control platform is configured to transmit the allowance data and the snapshot picture to the display module for real-time display and transmit the allowance data to the information storage module for backup storage.

Example 2:

referring to fig. 2, on the basis of embodiment 1, the information export module of this embodiment is configured to export information from an information storage module, an information input module, a construction detection unit, a captured moral picture, a total amount of material estimated by a material estimation unit, and construction material data distributed by a material distribution unit in a staged construction process, where the information export module is communicatively connected to a copy recovery unit, and the copy recovery unit is configured to analyze and copy the data exported by the information export module, obtain a correct construction scheme again, and transmit the construction scheme data to the data storage module.

Through exporting the information at last to carry out the analysis with the concrete data of whole construction through the unit of duplicating, make managers summarize the concrete condition of construction, and obtain better construction scheme, make things convenient for better the construction next time.

Example 3:

on the basis of embodiment 1, the embodiment discloses a digitalized building construction allocation method, which comprises the following steps:

step 1: building a BIM (building information modeling) building model according to the building engineering area, and combining a data storage module according to the building BIM model to obtain materials required by the unit area of the corresponding building BIM model;

step 2: dividing the construction project area into a large building area and a non-large building area according to the built BIM building model;

and step 3: dividing building areas according to floors; calculating the building floor material quantity required by each floor area of the building BIM model according to the building material required by unit area, and marking the building floor material quantity; dividing the non-building area into a plurality of non-building areas according to the area; calculating the non-building material quantity required by each non-building area of the building BIM model according to the building material required by unit area, and marking the non-building material quantity;

and 4, step 4: obtaining an average project progress required to be completed every day by utilizing the input expected construction period, wherein the average project progress can be obtained by dividing the total project progress by the single-day completion amount, the total project progress can be obtained according to a building BIM model, and the stage material distribution is carried out according to the average project progress and a preset material distribution rule; obtaining the specific position of the required engineering material quantity in the current engineering stage according to the total engineering schedule, and enabling the specific position to reach a floor area of a building or a non-building area;

and 5: judging the current total engineering progress, if the total engineering progress is in the first engineering stage, marking the non-building material quantity or the building floor material quantity of the first engineering stage and the second engineering stage as an entrance material, and transporting the entrance material to a corresponding non-building area or a building floor area; in this process, the material quantity is allowed to be lost, so that a preset consumption is additionally added;

the amount of non-building materials or building floor materials to be transported is determined according to whether the current engineering stage and the next engineering stage are located in the building floor area or the non-building area.

Step 6: when each building floor area and non-building area of a building area and a non-building area are constructed, a construction monitoring module is used for carrying out image snapshot on construction specific conditions, after construction is finished, the last material quantity detected by a material detection unit is monitored, data are transmitted to a comparison module to be compared with the material quantity actually used by each building floor area or non-building area, if the materials are found to be not enough, a difference application unit inputs material application additional quantity and additional reason and transmits the material application additional quantity and additional reason to a control platform, the control platform transmits the material application additional quantity and additional reason to a display module for real-time display and backup storage in a storage module, an information input module transmits an approval signal to the control platform, and the control platform utilizes a driving display module to display when receiving the approval signal transmitted by the information input module, marking the additional amount and the additional reason of the material application with the time in the information storage module as agreed;

if the materials have surplus, the alarm unit gives an alarm, the surplus import module imports data and snapshot pictures into the control platform, the control platform is used for transmitting the surplus data and the snapshot pictures to the display module for real-time display, transmitting the surplus data to the information storage module for backup storage, and constructors repair the materials according to the displayed pictures and data, construct the materials and rebuild the regions which cannot reach the standard.

And 7: the construction method comprises the steps of carrying out information export on construction pictures captured by an information storage module, an information input module and a construction detection unit, the total amount of materials estimated by a material estimation unit and construction material data distributed by a material distribution unit in a specific stage, analyzing and re-recording the data exported by the information export module by using a re-recording unit, obtaining a correct construction scheme again, transmitting the construction scheme data to a data storage module, and obtaining a better construction scheme conveniently next time.

In the embodiment, the material prediction module is used for transmitting the non-building area, the corresponding non-floor material amount and the floor area and the corresponding floor material amount; the material distribution unit is used for distributing non-floor material quantity and floor material quantity in a staged mode.

In this embodiment, the phase material distribution specification is expressed as:

s1: setting preset days as an engineering stage to obtain a plurality of engineering stages;

s2: marking the average project progress, and automatically obtaining the progress of each project stage, corresponding to the completed non-building area and building area according to the average project progress;

s3: and integrating the non-building areas and the building areas which can be processed by each engineering stage to form construction period progress information.

The invention carries out data construction control on the whole construction process through the BIM building module, the materials are respectively combined with the construction period required by BIM construction, staged and separate construction materials can be carried out, the construction materials can be arranged independently, and the materials are arranged to enter the construction site in reasonable time;

the data detection unit is arranged to detect the whole construction process and the material use condition, after the material loss of special conditions occurs, the data detection unit can report the material loss through constructors, after managers approve the material loss, corresponding redundant materials are arranged, the time for recording the redundant material loss and the approval condition is stored in the storage module, the waste summary of related construction materials is convenient to be carried out after the construction is completed, the next same condition is avoided, when the materials are remained, the alarm unit can give an alarm to remind the constructors, the residual leading-in module leads the data and the snapshot pictures into the control platform, the control platform is used for transmitting the residual data and the snapshot pictures to the display module for real-time display and transmitting the residual data to the information storage module for backup storage, the constructors carry out repair according to the displayed pictures and data, carry out construction, and carry out re-construction in areas which cannot reach the standard, the situation that the soybean curb residue engineering is formed due to the fact that the forming material is not used in place is avoided.

The foregoing shows and describes the general principles, essential features, and inventive features of this invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A digitized building construction system, comprising: the system comprises a control platform, a material distribution unit, a data storage module, a material estimation unit, a data correction unit, a BIM building module, a data detection unit, a comparison module, an alarm unit, a residual quantity application unit, a display module, an information input module, a residual quantity import module, an information storage module and an information export module;

2. The digitalized building construction system according to claim 1, wherein the BIM building module builds a BIM building model according to a building engineering area, the material estimation unit estimates required materials according to the building BIM model, and the information input module inputs preset days, expected construction period and allowable loss amount and transmits them to the control platform.

3. The digitized construction system of claim 2, wherein the control platform is configured to transmit the predetermined number of days and the expected period to the material distribution unit, and transmit the allowable loss amount to the data correction unit, and the data correction unit transmits the received allowable loss amount to the material distribution unit.

4. The datamation building construction system of claim 1, wherein the data detection unit comprises a material detection unit and a construction detection unit, the material detection unit is used for detecting the residual quantity of materials after construction, and the construction detection unit is used for capturing construction images in real time.

5. The datamation building construction system of claim 1, wherein the alarm unit comprises a buzzer and a loudspeaker, the comparison module is configured to compare the amount of material dispensed by the material dispensing unit with the actual amount of material used detected by the material detection unit, compare the pictures captured by the construction detection unit when there is a surplus of material, and find out an area with insufficient construction amount to control the alarm unit to perform alarm processing.

6. The datamation building construction system of claim 5, wherein the comparison module is further configured to transmit the material allowance data to an allowance import module, the allowance import module is configured to import the excess material allowance data and the snapshot picture to the control platform, and the control platform is configured to transmit the allowance data and the snapshot picture to the display module for real-time display and transmit the allowance data to the information storage module for backup storage.

7. The datamation building construction system of claim 1, wherein the information derivation module is configured to derive the information from the data of the information storage module, the information input module, the construction detection unit, the material estimation unit, and the material distribution unit.

8. The digitized building construction system of claim 1, wherein the differential application unit is used for the constructor to input additional amount of material application and additional reason when the material is not enough.