CN112508340A

CN112508340A - Project supervision project progress supervision method, system, device and storage medium

Info

Publication number: CN112508340A
Application number: CN202011247507.9A
Authority: CN
Inventors: 王健; 俞国华; 郝攀博
Original assignee: Zhejiang Xinren Project Management Co ltd
Current assignee: Zhejiang Xinren Project Management Co ltd
Priority date: 2020-11-10
Filing date: 2020-11-10
Publication date: 2021-03-16

Abstract

The application relates to a project supervision project progress supervision method, system, device and storage medium. The construction method comprises the steps of obtaining a construction drawing, and dividing a construction process into a plurality of construction stages according to the construction drawing; according to the construction stages, BIM modeling is respectively carried out to generate a plurality of first construction models, and the first construction models correspond to the construction stages one by one; monitoring a construction state in real time, and acquiring a construction video corresponding to the construction state; acquiring video clips corresponding to the construction stages in the construction video, and generating a plurality of second construction models according to three-dimensional modeling of the video clips; and comparing the plurality of first construction models with the plurality of second construction models, and supervising the construction progress. The project progress monitoring method has the effect of improving project progress monitoring efficiency of project supervision.

Description

Project supervision project progress supervision method, system, device and storage medium

Technical Field

The present application relates to the field of project supervision, and in particular, to a project supervision progress supervision method, system, apparatus, and storage medium.

Background

The construction project supervision unit is entrusted by the construction unit, controls the quality, cost and progress of the construction project in the construction stage according to laws and regulations, engineering construction standards, survey design files and contracts, manages the contracts and information, coordinates the relation of the relevant parties of the construction project and performs the service activities of legal obligations of the safety production management of the construction project.

In order to ensure the construction quality, the whole life cycle of the engineering construction needs to be effectively monitored, but the engineering construction usually has a long period and a large construction range, so that when supervision personnel monitor the construction site by a common side-station supervision method, because the monitoring range of each supervision personnel is limited, if the supervision personnel completely cover the whole construction site, a large number of supervision personnel need to be equipped for a long time, the supervision efficiency is low, and therefore, the improvement space is provided.

Disclosure of Invention

In order to improve the project progress supervision efficiency of project supervision, the application provides a project progress supervision method, a project progress supervision system, a project progress supervision device and a storage medium for project supervision.

In a first aspect, the present application provides a method for supervising progress of an engineering supervision project, which adopts the following technical scheme:

a project supervision project progress supervision method comprises the following steps:

acquiring a construction drawing, and dividing a construction process into a plurality of construction stages according to the construction drawing;

according to the construction stages, BIM modeling is respectively carried out to generate a plurality of first construction models, and the first construction models correspond to the construction stages one by one;

monitoring a construction state in real time, and acquiring a construction video corresponding to the construction state;

acquiring video clips corresponding to the construction stages in the construction video, and generating a plurality of second construction models according to three-dimensional modeling of the video clips;

and comparing the plurality of first construction models with the plurality of second construction models, and supervising the construction progress.

Through adopting above-mentioned technical scheme, divide into a plurality of construction stages with the work progress, so that the engineering supervision supervises according to the construction stage, more have orderliness, the convenience, carry out the BIM respectively to every construction stage and model, generate the first construction model of a plurality of promptly, through the actual construction state of unmanned aerial vehicle monitoring, generate the second construction model with actual construction state, compare the construction model after wherein every completion construction stage, compare actual construction model and BIM model promptly on-line, can realize the control to actual construction state, thereby the supervision efficiency of engineering supervision to the project progress has been improved.

The present invention in a preferred example may be further configured to: before the project is started, the method further comprises the following steps:

checking construction raw materials until all the raw materials pass the checking;

distributing the raw materials to corresponding construction stages according to the requirements in batches;

and monitoring the raw materials, and judging whether the raw materials are distributed to the corresponding construction stages at corresponding time.

By adopting the technical scheme, before construction begins, construction raw materials need to be checked, and failure of project engineering acceptance caused by unqualified raw materials is avoided; raw materials are divided according to construction stages, input to a construction site according to batches and monitored, so that the construction process is monitored, project progress can be monitored conveniently, and supervision efficiency is improved.

The present invention in a preferred example may be further configured to: the checking of the construction raw materials comprises:

transporting the raw materials to a warehouse and storing the raw materials according to the types of the raw materials;

sampling and detecting the raw materials, and if the raw materials are unqualified, acquiring supplier information of the unqualified raw materials;

and (4) comprehensively checking all raw materials provided by the suppliers, and entering the next step after all raw materials are qualified.

By adopting the technical scheme, the raw materials are transported to the construction site in batches and are put into the warehouse, so that the raw materials are convenient to store and manage, the workload is reduced and the working efficiency is improved in a sampling detection mode; if the sampling inspection is unqualified, the raw materials provided by the suppliers are comprehensively inspected according to the suppliers of the unqualified raw materials so as to ensure the quality of the raw materials and the normal operation of project engineering.

The present invention in a preferred example may be further configured to: the distributing the raw materials to the corresponding construction stages according to the batch according to the requirements comprises:

calculating the expected raw material quantity required by each construction stage, wherein the expected raw material quantity corresponds to a plurality of construction stages one to one;

and according to the sequence of the construction stages, transporting the raw materials with corresponding amount to a construction site in batches.

By adopting the technical scheme, the consumption of the raw materials required by each construction stage is calculated through the planning book and the construction drawing, and the corresponding raw materials are transported to the construction site according to the sequence of the whole construction process, so that the raw materials are easier to manage, and the disordered condition is reduced.

The present invention in a preferred example may be further configured to: the monitoring the raw materials and judging whether the raw materials are distributed to the corresponding construction stages at the corresponding time comprises the following steps:

respectively setting corresponding RFID labels for the raw materials at different stages;

reading the RFID tag and recording the time when the stock material exits the warehouse;

and reading the time, and judging whether the time is matched with the corresponding time plan of the construction stage.

By adopting the technical scheme, the time that raw materials leave the warehouse is monitored, the raw materials correspond to which construction stage, and then the time is matched with the time that the raw materials leave the warehouse according to the construction time of the construction stage, so that the construction progress is judged, and the project supervision efficiency is improved.

The present invention in a preferred example may be further configured to: after the construction video corresponding to the construction state is obtained, the method further comprises the following steps:

and dividing the construction video into a plurality of parts according to the construction steps, and naming and storing each part according to the corresponding construction step.

Through adopting above-mentioned technical scheme, the construction video that will monitor the construction step divide into a plurality of shares, when the engineering supervision finds that the transit-out time of raw and other materials does not match with the engineering time of the construction stage that corresponds, can acquire the construction video of this construction stage or this construction stage previous stage to further monitor the construction progress, find which step appears the problem, name with the construction step, the supervision management of being convenient for.

In a second aspect, the project supervision project progress supervision system provided by the application adopts the following technical scheme:

a project supervision project progress supervision system comprising:

the device comprises an acquisition device, a construction drawing acquisition device and a construction control device, wherein the construction drawing acquisition device is used for acquiring a construction drawing and dividing a construction process into a plurality of construction stages according to the construction drawing;

the first modeling device is used for respectively carrying out BIM modeling according to the plurality of construction stages to generate a plurality of first construction models, and the plurality of first construction models correspond to the plurality of construction stages one by one;

the checking device is used for checking the construction raw materials until all the raw materials pass the checking; distributing the raw materials to corresponding construction stages according to the requirements in batches; monitoring the raw materials, and judging whether the raw materials are distributed to the corresponding construction stages at corresponding time;

the monitoring device monitors the construction state in real time and acquires a construction video corresponding to the construction state;

the second modeling device is used for acquiring video clips corresponding to the plurality of construction stages in the construction video, and generating a plurality of second construction models according to three-dimensional modeling of the video clips;

and the comparison device is used for comparing the plurality of first construction models with the plurality of second construction models and supervising the construction progress.

The present invention in a preferred example may be further configured to: and the storage device is used for dividing the construction video into a plurality of parts according to the construction steps, and each part is named and stored according to the corresponding construction step.

In a third aspect, the present application provides an apparatus for supervising progress of project supervision, which adopts the following technical solution:

an engineering supervision project progress supervision device, comprising:

the acquisition module acquires a construction drawing and divides a construction process into a plurality of construction stages according to the construction drawing;

the first modeling module is used for respectively carrying out BIM modeling according to the plurality of construction stages to generate a plurality of first construction models, and the plurality of first construction models correspond to the plurality of construction stages one by one;

the checking module is used for checking the construction raw materials until all the raw materials pass the checking; distributing the raw materials to corresponding construction stages according to the requirements in batches; monitoring the raw materials, and judging whether the raw materials are distributed to the corresponding construction stages at corresponding time;

the monitoring module monitors the construction state in real time and acquires a construction video corresponding to the construction state;

the second modeling module is used for acquiring video clips corresponding to the plurality of construction stages in the construction video, and generating a plurality of second construction models according to three-dimensional modeling of the video clips;

the comparison module compares the plurality of first construction models with the plurality of second construction models and supervises the construction progress;

and the storage module is used for dividing the construction video into a plurality of parts according to the construction steps, and each part is named and stored according to the corresponding construction step.

By adopting the technical scheme, the construction process is divided into a plurality of construction stages, so that project supervision is carried out according to the construction stages, the method is more orderly and convenient, BIM modeling is carried out on each construction stage respectively, namely a plurality of first construction models are generated, the actual construction state is monitored by the unmanned aerial vehicle, a second construction model is generated according to the actual construction state, the construction models after each construction stage is completed are compared, namely the actual construction models and the BIM models are compared on line, the actual construction state can be monitored, and the project progress supervision efficiency of the project supervision is improved; the construction video that will monitor the construction step divide into a plurality of shares, when the engineering supervision finds that the transit time of raw and other materials is not matched with the engineering time in the construction stage that corresponds, can acquire the construction video in this construction stage or this construction stage previous stage to further monitor the construction progress, find which step appears the problem, name with the construction step, be convenient for supervise the management.

In a fourth aspect, the present application provides a computer-readable storage medium storing a computer program capable of being loaded by a processor and executing any one of the above-mentioned project supervision project progress supervision methods.

By adopting the technical scheme, the project supervision project progress supervision method can be stored in the readable storage medium, so that a computer program of the project supervision project progress supervision method stored in the readable storage medium can be executed by the processor, and the effect of improving the stability of the processing system is achieved.

In summary, the present application includes at least one of the following beneficial technical effects:

1. in the scheme, the construction process is divided into a plurality of construction stages, BIM modeling is respectively carried out on each construction stage to generate a plurality of first construction models, the actual construction state is monitored through the unmanned aerial vehicle, a second construction model is generated according to the actual construction state, and the monitoring of the actual construction state can be realized by comparing the first construction model with the second construction model, so that the project progress supervision efficiency of project supervision is improved;

2. in the scheme, the raw materials are divided according to the construction stage, input to a construction site according to batches and monitored, so that the construction process is monitored, project progress can be monitored conveniently by engineering supervision, and supervision efficiency is improved;

3. in the scheme, the construction video for monitoring the construction steps is divided into a plurality of parts, and when the project supervision finds that the delivery time of the raw materials is not matched with the construction time of the corresponding construction stage, the construction video of the construction stage or the previous stage of the construction stage can be acquired to further supervise the project progress.

Drawings

Fig. 1 is a schematic flow chart in the first embodiment of the present application.

Fig. 2 is a schematic diagram of a system in a second embodiment of the present application.

Fig. 3 is a block diagram of the third embodiment of the present application.

Description of reference numerals: 201. an acquisition device; 202. a first modeling means; 203. a verification device; 204. a monitoring device; 205. a second modeling means; 206. a comparison device; 207. a storage device; 301. an acquisition module; 302. a first modeling module; 303. a checking module; 304. a monitoring module; 305. a second modeling module; 306. a comparison module; 307. and a storage module.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

The first embodiment is as follows:

a project supervision project progress supervision method, referring to fig. 1, comprising:

101. and acquiring a construction drawing, and dividing the construction process into a plurality of construction stages according to the construction drawing.

Specifically, the construction drawing includes a construction plan book and a CAD plane drawing of the target building, where the plan book includes a complete construction scheme, the construction scheme includes at least a plurality of construction stages, and the construction time of each construction stage, i.e., a construction progress plan, is planned, and the construction scheme further includes the type and amount of raw materials required by each construction stage, and a budget. It is worth mentioning that the construction steps in the present application are performed strictly in the construction order.

102. And according to the plurality of construction stages, performing BIM modeling respectively to generate a plurality of first construction models, wherein the plurality of first construction models correspond to the plurality of construction stages one to one.

Specifically, according to a CAD (computer-aided design) plane drawing of a target building, a three-dimensional model of a target building structure is established by using Autodesk Revit software. Respectively carrying out BIM modeling according to different construction stages, for example, the whole construction process at least comprises the construction stages of foundation construction, cement pouring and the like, and when the foundation construction stage is completed, generating a BIM model, namely a first construction model; after the cement pouring is completed, a BIM model is generated. A first construction model corresponds to a construction phase.

103. Checking construction raw materials until all the raw materials pass the checking;

Specifically, before the engineering project is developed, the raw materials need to be checked, so that the quality problem of the raw materials is avoided, and the problem is caused when the project is developed. The raw materials are checked, and after the raw materials are checked, the qualified marks are attached to the surfaces of the packaging boxes of the raw materials, so that a constructor can manage the raw materials conveniently, the checking is facilitated, and the checking repetition is avoided.

According to the construction stages divided in the step 101, the raw materials purchased in the whole construction process are divided according to the construction stages and the types and the usage of the raw materials corresponding to each construction stage, construction is performed according to the sequence in the project construction process, the raw materials required by the construction stage are transported to a construction site when each construction stage starts, the raw materials required by each construction stage can be transported only once, and the raw materials required by each construction stage can be transported only one construction stage at a time.

The raw materials of each construction stage are monitored, and the time and the corresponding construction stage when the raw materials enter the construction field are recorded by recording the batch of raw materials when the raw materials are transported to the construction field and pass through a gate of the construction field at each time. By monitoring the movement direction of the raw materials, whether the construction stage of the corresponding raw materials is carried out on time or not and is completed on time is judged, and therefore the supervision efficiency of project supervision is improved.

Further, the raw materials are transported to a warehouse and stored according to the types of the raw materials;

Specifically, all raw materials purchased in the whole construction process are stored in a warehouse, so that the raw materials are stored and managed conveniently. The raw materials are classified by category and each raw material of the same category is provided by the same supplier.

The method has the advantages that sampling detection is carried out on different types of raw materials, each type of raw material is subjected to sampling detection according to the amount of 5 percent of the total amount of the type of raw material, so that detection of a plurality of samples is carried out on more raw materials in the construction process, detection of a large number of samples is carried out on fewer raw materials without spending too much time, and efficiency and detection quality are improved.

When the condition that the raw materials are unqualified is detected, the supplier information of the raw materials is obtained through a purchase order, all the raw materials purchased by the supplier are screened in an ERP system, all the raw materials provided by the supplier are comprehensively checked, and the qualified raw materials are marked after all the raw materials are qualified, namely the raw materials pass the inspection.

Preferably, if the unqualified raw materials are not qualified, the contract condition of the supplier is acquired, corresponding claims are made to the supplier according to the contract condition, and meanwhile, the unqualified raw materials are purchased to other suppliers to ensure that the project is carried out.

Further, calculating the expected raw material quantity required by each construction stage, wherein the expected raw material quantity corresponds to a plurality of construction stages one by one;

Specifically, according to the planning of the construction drawing and the planning book in step 101, the amount of raw materials required by each stage is calculated, specifically, by obtaining the amount of raw materials required by each construction step in the planning book, if one construction step is divided into two construction stages or the two construction steps are combined into one construction stage when the construction stages are divided, the amount of raw materials used in each construction stage is calculated according to the corresponding construction step.

And matching the calculated raw material quantity with the corresponding construction stage, and transporting the calculated raw material quantity to a construction site according to the sequence of the construction stage, namely transporting the raw material quantity required by the construction stage to the construction site when each construction stage is started so as to finish the construction stage.

Further, corresponding RFID labels are respectively arranged on the raw materials at different stages;

Specifically, after the raw material amounts corresponding to different construction stages are calculated, the raw materials are divided into a plurality of groups of raw materials, each group of raw materials are uniformly packaged and transported, each group of raw materials can be packaged into the same storage box, RFID tags are arranged on the surface of the storage box, and the name, the total amount and the corresponding construction stage of each raw material are recorded in each RFID tag.

The warehouse is internally provided with a camera and a reader, when the warehouse door is opened and the storage box provided with the RFID label leaves the warehouse door, the reader reads the RFID label, obtains the raw material name corresponding to the storage box and records the time when the storage box leaves the warehouse; the camera acquires the monitoring of the leaving of the storage box, and the monitoring also comprises time information.

And comparing the time of the storage box leaving the warehouse with the construction time of the construction stage corresponding to the raw material, and checking whether the leaving time of the raw material is the opening time of the construction stage. If the raw materials are consistent with the construction period, judging that the construction period is carried out as expected, if the leaving time of the raw materials is earlier than the starting time of the construction period, the construction period before the construction period is possibly finished in advance, or the quality is unqualified; if the departure time of the raw material is later than the opening time of the construction stage, the raw material may not be delivered on time in the construction stage before the construction stage. So that the project supervision real-time supervision project can be conveniently carried out.

104. And monitoring the construction state in real time, and acquiring a construction video corresponding to the construction state.

Specifically, accessible unmanned aerial vehicle monitors, carries the camera on the unmanned aerial vehicle, sets up in the construction place, monitors actual construction state to acquire the construction video that construction state corresponds, the video of actual construction stage promptly.

Preferably, still can carry signal reader on the unmanned aerial vehicle, when raw and other materials entered into the construction site in, read the RFID label of this raw and other materials to confirm again that this raw and other materials get into the accurate time of construction site, in order to ensure the monitoring result.

105. And acquiring video clips corresponding to the plurality of construction stages in the construction video, and generating a plurality of second construction models according to three-dimensional modeling of the video clips.

Specifically, each time a construction stage is completed, a construction segment for which the construction stage is completed is obtained, and 3D modeling is performed on the construction segment through 3Dmax software, so that a second construction model is generated.

And because one construction stage is completed each time and 3D modeling is carried out once, a plurality of second construction models are generated, and each second construction model corresponds to the corresponding construction stage.

106. And comparing the plurality of first construction models with the plurality of second construction models, and supervising the construction progress.

Specifically, obtain first construction model and second construction model after, compare first construction model and the second construction model that corresponds, because first construction model and second construction model homoenergetic carry out multi-angle, multiple range and many-sided monitoring on line, then change in engineering supervision and monitor the project progress, and for online supervision, it is more convenient, efficiency is higher.

107. And dividing the construction video into a plurality of parts according to the construction steps, and naming and storing each part according to the corresponding construction step.

Specifically, after the unmanned aerial vehicle carries the camera to acquire the construction video, the construction video is sent to the server, and the server stores the construction video.

The construction video is divided into a plurality of video segments according to the nodes of each construction stage, each video segment corresponds to one construction stage, and the name of the construction stage is used for naming and storing so as to facilitate the follow-up project supervision to check.

It should be noted that the step may be placed after the step 104 or after the step 106, and the order of the steps is not limited in the present application.

The project supervision can obtain a desired construction video clip according to the comparison between the second construction model and the first construction model, and check the construction video clip; also can be according to whether the transit time of raw and other materials matches with the construction stage, if the discovery mismatching circumstances, then can acquire the construction stage video that corresponds, the video clip of the preceding construction stage in the construction stage that raw and other materials match promptly to further monitor the construction progress, in time discover which link goes wrong through the video, and divide into a plurality of fragment with the construction video after, change in engineering supervision and look over, improved efficiency.

The implementation principle of the embodiment is as follows: dividing the construction process into a plurality of construction stages so that project supervision can be conducted according to the construction stages, and the method is more orderly and convenient, conducting BIM modeling on each construction stage respectively, namely generating a plurality of first construction models, monitoring the actual construction state through an unmanned aerial vehicle, generating a second construction model according to the actual construction state, comparing the construction models after each construction stage is completed, namely comparing the actual construction models with the BIM models on line, and monitoring the actual construction state can be achieved, so that the project progress supervision efficiency of the project supervision is improved;

before the construction begins, divide into a plurality of shares with raw and other materials, every share corresponds a construction stage, and when opening a construction stage at every turn, the raw and other materials that will correspond are transported to the construction site, through the monitoring to raw and other materials, and the supervision project progress is whether accomplish every construction stage as scheduled to improve the supervision's of engineering efficiency.

The construction video that will monitor the construction step divide into a plurality of shares, when the engineering supervision finds that the transit time of raw and other materials is not matched with the engineering time in the construction stage that corresponds, can acquire the construction video in this construction stage or this construction stage previous stage to further monitor the construction progress, find which step appears the problem, name with the construction step, be convenient for supervise the management.

Example two:

a project supervision project progress supervision system, referring to fig. 2, comprising:

the acquisition device 201 acquires a construction drawing, and divides a construction process into a plurality of construction stages according to the construction drawing.

The first modeling device 202 performs BIM modeling respectively according to the plurality of construction stages to generate a plurality of first construction models, and the plurality of first construction models correspond to the plurality of construction stages one to one.

The checking device 203 is used for checking the construction raw materials until all the raw materials pass the checking; distributing the raw materials to corresponding construction stages according to the requirements in batches; and monitoring the raw materials, and judging whether the raw materials are distributed to the corresponding construction stages at corresponding time.

Further, checking construction raw materials until all the raw materials pass the checking;

And the monitoring device 204 is used for monitoring the construction state in real time and acquiring a construction video corresponding to the construction state.

And the second modeling device 205 is used for acquiring video clips corresponding to a plurality of construction stages in the construction video, and generating a plurality of second construction models according to three-dimensional modeling of the video clips.

And the comparison device 206 compares the plurality of first construction models with the plurality of second construction models and supervises the construction progress.

And the storage device 207 is used for dividing the construction video into a plurality of parts according to the construction steps, and each part is named and stored according to the corresponding construction step.

Example three:

an apparatus for supervising progress of a project for project supervision, referring to fig. 3, comprising:

the obtaining module 301 obtains a construction drawing, and divides a construction process into a plurality of construction stages according to the construction drawing.

The first modeling module 302 is used for performing BIM modeling respectively according to the plurality of construction stages to generate a plurality of first construction models, and the plurality of first construction models correspond to the plurality of construction stages one by one.

The checking module 303 is used for checking the construction raw materials until all the raw materials pass the checking; distributing the raw materials to corresponding construction stages according to the requirements in batches; and monitoring the raw materials, and judging whether the raw materials are distributed to the corresponding construction stages at corresponding time.

And the monitoring module 304 is used for monitoring the construction state in real time and acquiring a construction video corresponding to the construction state.

The second modeling module 305 obtains video segments corresponding to the plurality of construction phases in the construction video, and generates a plurality of second construction models according to three-dimensional modeling of the video segments.

And the comparison module 306 compares the plurality of first construction models with the plurality of second construction models and supervises the construction progress.

And the storage module 307 is used for dividing the construction video into a plurality of parts according to the construction steps, and naming and storing each part according to the corresponding construction step.

It should be noted that: when the device and the system for supervising the progress of the project supervision provided by the above embodiments execute the method for supervising the progress of the project supervision, the division of the functional modules is only used for illustration, and in practical application, the function distribution can be completed by different functional modules according to needs, that is, the internal structures of the equipment and the device are divided into different functional modules, so as to complete all or part of the functions described above. In addition, the embodiments of the method, the system and the device for supervising the progress of the project supervision provided by the above embodiments belong to the same concept, and specific implementation processes thereof are detailed in the embodiments of the method and are not described herein again.

It will be understood by those skilled in the art that all or part of the steps for implementing the above embodiments may be implemented by hardware, or may be implemented by a program instructing relevant hardware, where the program may be stored in a computer-readable storage medium, and the above-mentioned storage medium may be a read-only memory, a magnetic disk or an optical disk, etc.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims

1. A project supervision project progress supervision method is characterized by comprising the following steps:

2. The method of claim 1, wherein prior to initiating a project, the method further comprises:

3. The method of claim 2, wherein the checking of construction raw materials comprises:

4. The method of claim 3, wherein said distributing said raw materials in batches to respective construction stages as required comprises:

5. The method of claim 4, wherein the monitoring the raw materials to determine whether the raw materials are distributed to the corresponding construction stage at the corresponding time comprises:

6. The method according to claim 1 or 5, wherein after the construction video corresponding to the construction state is acquired, the method further comprises:

7. A project supervision project progress supervision system, comprising:

the device comprises an acquisition device (201) for acquiring a construction drawing and dividing the construction process into a plurality of construction stages according to the construction drawing;

the first modeling device (202) is used for carrying out BIM modeling respectively according to the plurality of construction stages to generate a plurality of first construction models, and the plurality of first construction models correspond to the plurality of construction stages one by one;

the checking device (203) is used for checking the construction raw materials until all the raw materials pass the checking; distributing the raw materials to corresponding construction stages according to the requirements in batches; monitoring the raw materials, and judging whether the raw materials are distributed to the corresponding construction stages at corresponding time;

the monitoring device (204) is used for monitoring the construction state in real time and acquiring a construction video corresponding to the construction state;

the second modeling device (205) is used for acquiring video clips corresponding to a plurality of construction stages in the construction video, and generating a plurality of second construction models according to three-dimensional modeling of the video clips;

and the comparison device (206) compares the plurality of first construction models with the plurality of second construction models and supervises the construction progress.

8. The system of claim 7, comprising:

and the storage device (207) is used for dividing the construction video into a plurality of parts according to the construction steps, and each part is named and stored according to the corresponding construction step.

9. A project supervision project progress supervision device, comprising:

the construction process control device comprises an acquisition module (301) for acquiring a construction drawing and dividing a construction process into a plurality of construction stages according to the construction drawing;

the first modeling module (302) is used for respectively carrying out BIM modeling according to the plurality of construction stages to generate a plurality of first construction models, and the plurality of first construction models correspond to the plurality of construction stages one by one;

the checking module (303) is used for checking the construction raw materials until all the raw materials pass the checking; distributing the raw materials to corresponding construction stages according to the requirements in batches; monitoring the raw materials, and judging whether the raw materials are distributed to the corresponding construction stages at corresponding time;

the monitoring module (304) is used for monitoring the construction state in real time and acquiring a construction video corresponding to the construction state;

the second modeling module (305) is used for acquiring video clips corresponding to a plurality of construction stages in the construction video, and generating a plurality of second construction models according to three-dimensional modeling of the video clips;

a comparison module (306) for comparing the plurality of first construction models with the plurality of second construction models and supervising the construction progress;

and the storage module (307) is used for dividing the construction video into a plurality of parts according to the construction steps, and each part is named and stored according to the corresponding construction step.

10. A computer-readable storage medium, in which a computer program is stored which can be loaded by a processor and which executes the method of any one of claims 1 to 6.