CN117521187A - Digital processing supervision method and system based on BIM - Google Patents

Abstract

The invention relates to the technical field of BIM digitization, in particular to a digital engineering supervision method and system based on BIM, comprising the following steps: step 1, setting at least one upper computer for constructing and supervising a three-dimensional simulation engineering model and a plurality of independent portable lower computers capable of performing remote data interaction with the upper computer; personnel of the remote operation upper computer can make marks on the three-dimensional simulation engineering model in real time according to a feedback file packet, the feedback file packet contains an engineering model plane diagram marked with the quality and safety problem positions, and a patrol problem description diagram can be drawn out according to the quality and safety problems, so that the efficiency of accurately marking the conditions of a construction site by the personnel of the remote operation upper computer can be greatly improved, and paperless management can be realized.

Description

Digital processing supervision method and system based on BIM

Technical Field

The invention relates to the technical field of BIM digitization, in particular to a digital engineering supervision method and system based on BIM.

Background

Building information model, BIM, is a new tool in architecture, engineering and civil engineering. The term building information model or building information model is created by Autodesk. It is a computer aided design mainly based on three-dimensional graphics, object-oriented and architecture-related. The existence of the data of the building model in the building information model is based on a plurality of digital technologies, so that the digital information model is used as the basis of each building project to perform each related work. The construction engineering and related work can extract the information needed by each user from the construction information model, so that the corresponding work can be guided, the information of the corresponding work can be fed back to the model, and paperless management can be achieved.

At present, an engineering management platform is arranged to build a BIM model construction module for generating a three-dimensional simulation engineering model, when a field inspection entity finds quality and safety problems, marks are needed to be made on the BIM model, but the existing BIM model marking operation is generally carried out on terminal equipment with larger body types such as a computer, more inconvenience is brought to the field inspection personnel when the terminal equipment such as the computer is carried for operation, more difficulty is often brought to the search of the corresponding position of the BIM model through direct memory, notebook recording or mobile phone shooting recording quality and safety problems, the BIM model is marked later, the BIM model cannot be marked according to the BIM model in the field when the direct memory, notebook recording or mobile phone shooting quality and safety problems are found, the BIM model is marked later according to the recorded problems, the BIM model is required to be searched for corresponding positions in the operation process of marking the BIM model, the BIM model is often carried out through direct memory, the mode of notebook recording or mobile phone shooting recording, the position recording is inaccurate or forgetting, the condition is increased, the problem that the worker can find the corresponding positions of the BIM model is more difficult, and if the BIM model is printed, the quality is only needs to be improved, the problem can be solved through the improvement of the printing management scheme, and the problem is solved.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a technical scheme capable of solving the problems.

A digital engineering supervision method based on BIM comprises the following steps:

step 1, setting at least one upper computer for constructing and supervising a three-dimensional simulation engineering model and a plurality of independent portable lower computers capable of performing remote data interaction with the upper computer;

step 2, building a three-dimensional simulation engineering model through an upper computer, deriving an engineering model plane graph through the three-dimensional simulation engineering model, and sending the engineering model plane graph to a lower computer in a data interaction mode;

step 3, marking the corresponding positions on the engineering model plan by a lower computer according to the positions corresponding to the quality and safety problems of the inspection construction site;

step 4, photo collection and text description are carried out on a construction site through a lower computer, and the collected photos and the described text are combined into a patrol problem description diagram;

step 5, merging the patrol problem description diagram, the marked engineering model plan and the collected photo into a feedback file package, and sending the feedback file package to an upper computer in a data interaction mode;

and 6, after receiving the feedback file package, the upper computer reminds the user in a display or sounding mode, and the user marks quality and safety problems at corresponding positions on the three-dimensional simulation engineering model according to the feedback file package.

Preferably, a description column template is stored and arranged on the lower computer, when the engineering model plan is marked, the lower computer imports a description column template uniquely matched with the marking position, and after the collected photo and the descriptive text are input into the lower computer, a patrol problem description diagram uniquely matched with the marking position is automatically generated according to the description column template.

The digital engineering supervision system based on the BIM is arranged based on the digital engineering supervision method based on the BIM, and comprises a BIM model building module, an engineering supervision module and a plurality of inspection recording instruments, wherein the BIM model building module and the engineering supervision module are used as an upper computer, and the inspection recording instruments are used as a lower computer;

the BIM model building module is used for building a three-dimensional simulation engineering model, converting the three-dimensional simulation engineering model into an engineering model plan, and then sending the engineering model plan to the engineering supervision module, and also used for obtaining a feedback file packet stored in the engineering supervision module;

the engineering supervision module is used for receiving the engineering model plan of the BIM model construction module, appointing and sending the engineering model plan to the corresponding inspection recording instrument, receiving a feedback file packet sent by the inspection recording instrument, and reminding a user in a display or sounding mode after receiving the feedback file packet;

the inspection recording instrument is used for receiving the engineering model plan sent by the engineering supervision module, marking the corresponding position of the engineering model plan according to the quality and safety problems found by the on-site inspection, importing words and pictures based on the marking to generate an inspection problem description graph, merging the inspection problem description graph, the engineering model plane and the pictures into a feedback file package, and sending the feedback file package to the engineering supervision module.

Preferably, the engineering supervision module is provided with:

the power supply unit is used for supplying power to the engineering supervision module;

the terminal data transmission interface performs data interaction with the BIM model building module or performs data interaction with the patrol mark expectation;

the terminal remote receiving and transmitting unit is used for performing remote wireless data interaction with the patrol recording instrument;

the terminal storage unit stores the engineering model plan and the feedback file package;

the problem generation reminding unit is used for reminding a user in a display or sounding mode after receiving the feedback file packet;

an operation panel unit for generating a control instruction;

the terminal management control unit acquires a corresponding engineering model plan in the terminal storage unit according to the control instruction and sends the engineering model plan to a corresponding inspection recording instrument through the terminal remote receiving and transmitting unit or the data transmission interface;

the terminal management control unit drives the data transmission interface or the terminal remote receiving and transmitting unit to receive the feedback file packet sent by the patrol recording instrument, stores the feedback file packet in the terminal storage unit, and controls the driving problem generation reminding unit according to the moment of receiving the feedback file packet.

Preferably, the patrol recording instrument is provided with:

the battery unit is used for supplying power for the patrol recording instrument;

the sub-end data transmission interface is used for carrying out data interaction with the engineering supervision module;

the sub-end remote receiving and transmitting unit is used for carrying out remote wireless data interaction with the engineering supervision module;

the child end storage unit is used for storing engineering model plane diagrams, description column templates, patrol problem description diagrams, photos and feedback file packages;

the text editing unit is used for editing the text;

the camera unit is used for shooting the position with quality and safety problems in the inspection process;

the image processing unit is used for acquiring photographing information of the camera unit and generating a photo;

the sub-end touch display unit is used for displaying the engineering plan, the description column template, the inspection problem description graph, the photo and the feedback file package to a user, and marking the engineering model plan on the sub-end touch display unit;

the MCU main control unit marks the engineering plan according to the operation of the sub-end touch display unit and imports a description column template matched with the mark according to the mark; the MCU main control unit acquires the characters edited by the character editing unit based on the corresponding marks on the engineering plan, acquires the pictures generated by the image processing module, and imports the characters and the pictures based on the description column templates corresponding to the marks to generate a patrol problem description graph; and combining the patrol problem description diagram, the photo and the marked engineering model plan into a file packet, and then sending the file packet to an engineering supervision module through a sub-end data transmission interface or a sub-end remote receiving and sending unit.

Preferably, the terminal remote transceiver unit and the child remote transceiver unit both adopt WIFI chips with the model number of BCM 4325.

Preferably, the MCU master control unit adopts a control chip with the model number of STM32F767IGT 6.

Compared with the prior art, the invention has the beneficial effects that:

the remote control method has the advantages that pictures are transmitted in a mode of carrying out remote data interaction with a plurality of lower computers by adopting at least one upper computer, the constructed three-dimensional simulation model is converted into an engineering model plane diagram on the upper computer and then is sent to the lower computers remotely, construction site personnel can mark the engineering model plane diagram based on the engineering model plane diagram according to the lower computers, edit a corpus or collect site pictures to match the mark, the collected pictures and edited characters can be automatically generated into a patrol problem description diagram, the marked engineering model plane diagram and the collected pictures are combined into a feedback file packet to be sent to the upper computers, personnel remotely operating the upper computers can mark the three-dimensional simulation engineering model in real time according to the feedback file packet, the feedback file packet contains the engineering model plane diagram marked with quality and safety problem positions, and can draw out a patrol problem description diagram according to the quality and safety problems, so that the efficiency of personnel remotely operating the upper computers on the construction site can be greatly improved, and the realization of the precision management of the patrol problem description diagram is realized.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the invention, and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

FIG. 1 is a flow chart of the present invention;

FIG. 2 is a block diagram of the connection of the upper computer and the lower computer according to the present invention;

FIG. 3 is a block diagram of the modular connections of the BIM model building module, the engineering supervision module and the inspection logging instrument of the present invention.

Reference numerals and names in the drawings are as follows:

the BIM model building module 10, the engineering supervision module 20, the power supply unit 21, the terminal data transmission interface 22, the terminal remote receiving and transmitting unit 23, the terminal storage unit 24, the problem generation reminding unit 25, the operation panel unit 26, the terminal management control unit 27, the patrol recording instrument 30, the battery unit 31, the sub-end data transmission interface 32, the sub-end remote receiving and transmitting unit 33, the sub-end storage unit 34, the text editing unit 35, the camera unit 36, the image processing unit 37, the sub-end touch display unit 38 and the MCU main control unit 39.

Detailed Description

The following description of the technical solutions in the embodiments of the present invention will be clear and complete, and it is obvious that the described embodiments are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-3, in an embodiment of the present invention, a digitalized engineering supervision method based on BIM includes the following steps:

step 1, setting at least one upper computer for constructing and supervising a three-dimensional simulation engineering model and a plurality of independent portable lower computers capable of performing remote data interaction with the upper computer;

step 2, building a three-dimensional simulation engineering model through an upper computer, deriving an engineering model plane graph through the three-dimensional simulation engineering model, and sending the engineering model plane graph to a lower computer in a data interaction mode;

step 3, marking the corresponding positions on the engineering model plan by a lower computer according to the positions corresponding to the quality and safety problems of the inspection construction site;

step 4, photo collection and text description are carried out on a construction site through a lower computer, and the collected photos and the described text are combined into a patrol problem description diagram;

step 5, merging the patrol problem description diagram, the marked engineering model plan and the collected photo into a feedback file package, and sending the feedback file package to an upper computer in a data interaction mode;

and 6, after receiving the feedback file package, the upper computer reminds the user in a display or sounding mode, and the user marks quality and safety problems at corresponding positions on the three-dimensional simulation engineering model according to the feedback file package.

According to the technical scheme, pictures are transmitted in a mode of carrying out remote data interaction with a plurality of lower computers by adopting at least one upper computer, the constructed three-dimensional simulation model is converted into an engineering model plane diagram on the upper computer and then sent to the lower computers remotely, a construction site worker can mark on the basis of the engineering model plane diagram according to the lower computers, can edit a corpus or collect a site picture to match with the mark, can automatically generate a patrol problem description diagram by using the collected picture and the edited text, can also combine the engineering model plane diagram with the collected picture with the patrol problem description diagram into a feedback file packet to be sent to the upper computer, and a worker remotely operating the upper computer can mark the three-dimensional simulation engineering model in real time according to the feedback file packet, wherein the feedback file packet contains the engineering model plane diagram with marked quality and safety problem positions, can simulate a part of the patrol problem description diagram according to the quality and the safety problem, so that the precision of the personnel remotely operating the upper computer can be managed in a paper-free manner.

Further, the generation of the patrol problem description graph is based on the fact that a description bar template is stored and arranged on a lower computer, when the engineering model plan graph is marked, the lower computer imports a description bar template uniquely matched with the marking position, the collected photo and the description text are input into the lower computer, and then the patrol problem description graph uniquely matched with the marking position is automatically generated according to the description bar template.

Referring to fig. 2-3, in order to further explain the above technical solution, the present invention sets a BIM-based digital engineering supervision system based on the above described BIM-based digital engineering supervision method, which includes a BIM model building module 10, an engineering supervision module 20 and a plurality of inspection recording instruments 30, wherein the BIM model building module 10 is a PC, the BIM model building module 10 and the engineering supervision module 20 are used as an upper computer, and the inspection recording instruments 30 are used as a lower computer;

the BIM model construction module 10 is used for constructing a three-dimensional simulation engineering model, converting the three-dimensional simulation engineering model into an engineering model plan, and then sending the engineering model plan to the engineering supervision module 20, and also used for acquiring a feedback file packet stored in the engineering supervision module 20;

the engineering supervision module 20 is configured to receive the engineering model plan of the BIM model building module 10, send the engineering model plan to the corresponding inspection recording instrument 30, and receive the feedback file packet sent by the inspection recording instrument 30, and send the feedback file packet to remind the user in a display or sounding manner after receiving the feedback file packet;

the inspection recording instrument 30 is configured to receive the plan of the engineering model sent by the engineering supervision module 20, mark a corresponding position of the plan of the engineering model according to quality and security problems found by on-site inspection, import text and photo based on the mark, generate an inspection problem description graph, and combine the inspection problem description graph, the engineering model plane and the photo into a feedback file package to send to the engineering supervision module 20.

By the mode, a plurality of patrol personnel can be simultaneously instructed to patrol different positions on the scene, so that the combination of BIM digitization and the system management of patrol is realized, and paperless management technology is further realized.

Referring to fig. 3, the engineering supervision module 20 is provided with:

the power supply unit 21, the power supply unit 21 supplies power for the engineering supervision module 20;

the terminal data transmission interface 22, the terminal data transmission interface 22 performs data interaction with the BIM model building module 10 or performs data interaction with the patrol mark expectation;

the terminal remote receiving and transmitting unit 23, the terminal remote receiving and transmitting unit 23 carries out remote wireless data interaction with the patrol recording instrument 30;

the terminal storage unit 24, the terminal storage unit 24 stores engineering model plan and feedback file packet;

the problem generation reminding unit 25, after receiving the feedback file packet, the problem generation reminding unit 25 reminds the user in a display or sounding mode, and the problem generation reminding unit can be a display screen, an indicator light or a loudspeaker;

an operation panel unit 26, the operation panel unit 26 being for generating control instructions;

the terminal management control unit 27, the terminal management control unit 27 obtains the plan of the corresponding engineering model in the terminal storage unit 24 according to the control instruction, and sends the plan of the engineering model to the corresponding patrol recording instrument 30 through the terminal remote receiving and transmitting unit 23 or the data transmission interface;

the terminal management control unit 27 drives the data transmission interface or the terminal remote transceiving unit 23 to receive the feedback file packet transmitted by the patrol recording instrument 30, stores the feedback file packet in the terminal storage unit 24, and controls the driving problem generating reminding unit 25 according to the timing of receiving the feedback file packet.

Referring to fig. 3, the patrol recording apparatus 30 is provided with:

the battery unit 31, the battery unit 31 supplies power for the patrol recording instrument 30;

the sub-end data transmission interface 32, the sub-end data transmission interface 32 is used for carrying out data interaction with the engineering supervision module 20;

the sub-end remote transceiver unit 33, the sub-end remote transceiver unit 33 is used for performing remote wireless data interaction with the engineering supervision module 20;

the child end storage unit 34, the child end storage unit 34 is used for storing engineering model plane diagrams, description column templates, inspection problem description diagrams, photos and feedback file packages;

a character editing unit 35, the character editing unit 35 being used for editing characters;

the camera unit 36, the camera unit 36 is used for shooting the position where quality and safety problems occur in the inspection process;

an image processing unit 37, the image processing unit 37 is used for obtaining the shooting information of the camera unit 36 and generating a photo;

the sub-end touch display unit 38, the sub-end touch display unit 38 is used for displaying the engineering plan, the description column template, the inspection problem description graph, the photo and the feedback file package to the user, and can mark the engineering model plan on the sub-end touch display unit 38;

the MCU main control unit 39, the MCU main control unit 39 marks on the engineering plan according to the operation of the sub-end touch display unit 38, and imports a description column template matched with the mark according to the mark; the MCU main control unit 39 acquires the characters edited by the character editing unit 35 based on the corresponding marks on the engineering plan, acquires the pictures generated by the image processing module, and imports the characters and the pictures based on the description column templates corresponding to the marks to generate a patrol problem description graph; the patrol issue description map, the photo and the marked engineering model plan are combined into a file packet, and then sent to the engineering supervision module 20 through the sub-end data transmission interface 32 or the sub-end remote transceiver unit 33.

Further, the terminal remote transceiver unit 23 and the sub-end remote transceiver unit 33 both adopt WIFI chips with the model number of BCM 4325; the MCU master control unit 39 adopts a control chip with the model number of STM32F767IGT 6.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Claims (7)

1. The digital engineering supervision method based on BIM is characterized by comprising the following steps:

step 1, setting at least one upper computer for constructing and supervising a three-dimensional simulation engineering model and a plurality of independent portable lower computers capable of performing remote data interaction with the upper computer;

step 2, building a three-dimensional simulation engineering model through an upper computer, deriving an engineering model plane graph through the three-dimensional simulation engineering model, and sending the engineering model plane graph to a lower computer in a data interaction mode;

step 3, marking the corresponding positions on the engineering model plan by a lower computer according to the positions corresponding to the quality and safety problems of the inspection construction site;

step 4, photo collection and text description are carried out on a construction site through a lower computer, and the collected photos and the described text are combined into a patrol problem description diagram;

step 5, merging the patrol problem description diagram, the marked engineering model plan and the collected photo into a feedback file package, and sending the feedback file package to an upper computer in a data interaction mode;

and 6, after receiving the feedback file package, the upper computer reminds the user in a display or sounding mode, and the user marks quality and safety problems at corresponding positions on the three-dimensional simulation engineering model according to the feedback file package.

2. The method for managing digital engineering based on BIM according to claim 1, wherein a description bar template is stored on a lower computer, when the engineering model plan is marked, the lower computer imports a description bar template uniquely matched with the marking position, and after the collected photo and the descriptive text are input into the lower computer, a patrol question description map uniquely matched with the marking position is automatically generated according to the description bar template.

3. A digital engineering supervision system based on BIM, which is set based on the digital engineering supervision method based on BIM according to any one of claims 1-2, and is characterized by comprising a BIM model building module, an engineering supervision module and a plurality of inspection recording instruments, wherein the BIM model building module and the engineering supervision module are used as an upper computer, and the inspection recording instruments are used as a lower computer;

the BIM model building module is used for building a three-dimensional simulation engineering model, converting the three-dimensional simulation engineering model into an engineering model plan, and then sending the engineering model plan to the engineering supervision module, and also used for obtaining a feedback file packet stored in the engineering supervision module;

the engineering supervision module is used for receiving the engineering model plan of the BIM model construction module, appointing and sending the engineering model plan to the corresponding inspection recording instrument, receiving a feedback file packet sent by the inspection recording instrument, and reminding a user in a display or sounding mode after receiving the feedback file packet;

the inspection recording instrument is used for receiving the engineering model plan sent by the engineering supervision module, marking the corresponding position of the engineering model plan according to the quality and safety problems found by the on-site inspection, importing words and pictures based on the marking to generate an inspection problem description graph, merging the inspection problem description graph, the engineering model plane and the pictures into a feedback file package, and sending the feedback file package to the engineering supervision module.

4. A BIM-based digital engineering management system according to claim 3, wherein the engineering management module is provided with:

the power supply unit is used for supplying power to the engineering supervision module;

the terminal data transmission interface performs data interaction with the BIM model building module or performs data interaction with the patrol mark expectation;

the terminal remote receiving and transmitting unit is used for performing remote wireless data interaction with the patrol recording instrument;

the terminal storage unit stores the engineering model plan and the feedback file package;

the problem generation reminding unit is used for reminding a user in a display or sounding mode after receiving the feedback file packet;

an operation panel unit for generating a control instruction;

the terminal management control unit acquires a corresponding engineering model plan in the terminal storage unit according to the control instruction and sends the engineering model plan to a corresponding inspection recording instrument through the terminal remote receiving and transmitting unit or the data transmission interface;

the terminal management control unit drives the data transmission interface or the terminal remote receiving and transmitting unit to receive the feedback file packet sent by the patrol recording instrument, stores the feedback file packet in the terminal storage unit, and controls the driving problem generation reminding unit according to the moment of receiving the feedback file packet.

5. The BIM-based digital engineering supervision system according to claim 4, wherein the patrol recording instrument is provided with:

the battery unit is used for supplying power for the patrol recording instrument;

the sub-end data transmission interface is used for carrying out data interaction with the engineering supervision module;

the sub-end remote receiving and transmitting unit is used for carrying out remote wireless data interaction with the engineering supervision module;

the child end storage unit is used for storing engineering model plane diagrams, description column templates, patrol problem description diagrams, photos and feedback file packages;

the text editing unit is used for editing the text;

the camera unit is used for shooting the position with quality and safety problems in the inspection process;

the image processing unit is used for acquiring photographing information of the camera unit and generating a photo;

the sub-end touch display unit is used for displaying the engineering plan, the description column template, the inspection problem description graph, the photo and the feedback file package to a user, and marking the engineering model plan on the sub-end touch display unit;

the MCU main control unit marks the engineering plan according to the operation of the sub-end touch display unit and imports a description column template matched with the mark according to the mark; the MCU main control unit acquires the characters edited by the character editing unit based on the corresponding marks on the engineering plan, acquires the pictures generated by the image processing module, and imports the characters and the pictures based on the description column templates corresponding to the marks to generate a patrol problem description graph; and combining the patrol problem description diagram, the photo and the marked engineering model plan into a file packet, and then sending the file packet to an engineering supervision module through a sub-end data transmission interface or a sub-end remote receiving and sending unit.

6. The BIM-based digital processing system of claim 5, wherein the terminal remote transceiver unit and the child-side remote transceiver unit each employ WIFI chips having a model number BCM 4325.

7. The BIM-based digital processing management system as recited in claim 5, wherein the MCU master control unit is a control chip of STM32F767IGT 6.