CN115294248B - Super high-rise building engineering supervision method and terminal - Google Patents

Abstract

The application relates to a super high-rise building engineering supervision method and a terminal, which belong to the field of building construction supervision, wherein the method comprises the following steps: after receiving a construction start signal for a first floor, retrieving a first floor standard map corresponding to the first floor; generating a first floor live map corresponding to the first floor based on the first floor standard map; after receiving the construction completion signal, identifying a target building structure for which the construction completion signal is directed, and actual measurement data corresponding to the target building structure; updating a target live structure diagram corresponding to the target building structure in the first floor standard diagram based on the measured data, and setting the target live structure diagram to be in a display state; and after receiving a construction condition checking request for the first floor, feeding back the first floor standard diagram and the first floor live diagram at the current moment. The application has the effects of being convenient for timely finding out construction faults and reducing the possibility of fault accumulation.

Description

Super high-rise building engineering supervision method and terminal

Technical Field

The application relates to the field of building supervision, in particular to a super high-rise building engineering supervision method and a terminal.

Background

Currently, a construction control network is a measurement control network laid out for engineering construction, and its function is to control the three-dimensional position (plane position and elevation) of the construction of the area. The construction control net is the basis for construction lofting, engineering completion, building settlement observation and future building reconstruction and extension. When some super high-rise buildings are constructed, a plane control network is generally adopted for vertical transmission, all transmission data are overlapped, and in the transmission process, errors of the data are accumulated along with the data.

In carrying out the present application, the inventors have found that the above-described technique has at least the following problems: on the one hand, if the accumulated errors are not found in time due to the position of the high-rise building, poor construction quality is caused, and on the other hand, the existence of the delay found errors also causes the inconvenience of reworking.

Disclosure of Invention

In order to facilitate timely finding out construction defects and reduce the possibility of defect accumulation, the application provides a super high-rise building engineering supervision method and a terminal.

In a first aspect, the application provides a super high-rise building engineering supervision method, which adopts the following technical scheme:

the method is based on an engineering supervision terminal, wherein a BIM building drawing is stored in the engineering supervision terminal, the BIM building drawing comprises a plurality of floor standard diagrams corresponding to floors one by one, and the floor standard diagrams comprise a plurality of standard structure diagrams corresponding to building structures one by one, and the method comprises the following steps:

after receiving a construction start signal for a first floor, retrieving a first floor standard map corresponding to the first floor;

generating a first floor live view corresponding to the first floor based on the first floor standard view, wherein the first floor live view comprises a plurality of live structure diagrams, the live structure diagrams are in one-to-one correspondence with the building structures, and each live structure diagram is in a hidden state initially;

after receiving a construction completion signal, identifying a target building structure for which the construction completion signal is intended, and actual measurement data corresponding to the target building structure;

updating a target live structure diagram corresponding to the target building structure in the first floor standard diagram based on the measured data, and setting the target live structure diagram to be in a display state;

and after receiving a construction condition checking request for the first floor, feeding back the first floor standard diagram and the first floor live diagram at the current moment.

By adopting the technical scheme, in the construction process, the supervision personnel can input a construction start signal aiming at the first floor into the engineering supervision terminal after the construction of the first floor is started, so that the engineering supervision terminal can call the first floor standard diagram corresponding to the first floor, and then the engineering supervision terminal can copy and generate a new drawing, namely the first floor live diagram corresponding to the first floor based on the extracted first floor standard diagram. Along with the construction process, each time the construction of a building structure is completed, the supervision personnel can measure the actual measurement parameters, and input a construction completion signal aiming at the building structure into the engineering supervision terminal, so that the engineering supervision terminal updates the first floor standard diagram. And after receiving the construction condition checking request for the first floor, the engineering supervision terminal feeds back the first floor standard diagram and the first floor live diagram at the current moment for display. On the one hand, the first floor live view can be updated by taking a single building structure as a unit, so that a supervisor can control the construction process in a staged manner, the possibility of reworking due to error accumulation is reduced, and on the other hand, in the first floor live view, only the live structure diagram corresponding to the constructed building structure is in a display state, thereby facilitating the supervisor to lock focus of attention and timely grasp the construction process.

Optionally, after updating the target live structure diagram corresponding to the target building structure in the first floor standard diagram based on the measured data, the method further includes:

and verifying the construction quality of the target building structure based on the measured data and a preset building quality judging rule, and setting a display mode of the target live structure diagram based on a verification result.

Optionally, in each floor standard diagram, at least one building structure is a basic frame structure;

after receiving the construction completion signal, the method further comprises the following steps of:

when the target building structure is identified as a basic frame structure and all basic frame structures in the first floor are constructed, obtaining laser casting control points corresponding to the first floor based on a live structure diagram corresponding to all basic frame structures;

and converting to obtain the actual position of the laser casting control point in the first floor, and transmitting the actual position to a preset user terminal.

Optionally, the method further comprises:

after all the live structure diagrams in the first floor live diagram are identified to be updated, generating or updating a building live diagram based on the current first floor live diagram, wherein the building live diagram records floor live diagrams of the current completed construction floors according to the building sequence.

Optionally, the method further comprises:

after updating the building live diagram every time, counting accumulated construction errors of all current completed construction floors based on the building live diagram;

and when the target accumulated construction error is identified to exceed the corresponding preset accumulated error threshold value, generating prompt information aiming at the target accumulated construction error.

Optionally, the accumulated construction error may include one or more of accumulated inclination, accumulated horizontal offset, accumulated number of failures.

In a second aspect, the present application provides an engineering supervision terminal, which adopts the following technical scheme:

an engineering supervision terminal comprising:

the storage module is used for storing BIM building drawings, the BIM building drawings comprise a plurality of floor standard diagrams which are in one-to-one correspondence with floors, and the floor standard diagrams comprise a plurality of standard structure diagrams which are in one-to-one correspondence with building structures;

the drawing calling module is used for calling a first floor standard drawing corresponding to a first floor after receiving a construction start signal aiming at the first floor;

the floor live view generation module is used for generating a first floor live view corresponding to the first floor based on the first floor standard graph, wherein the first floor live view comprises a plurality of live structure diagrams, the live structure diagrams are in one-to-one correspondence to the building structures, and each live structure diagram is in a hidden state initially;

the construction completion signal identification module is used for identifying a target building structure aimed by the construction completion signal and actual measurement data corresponding to the target building structure after receiving the construction completion signal;

the live structure diagram updating module is used for updating a target live structure diagram corresponding to the target building structure in the first floor standard diagram based on the actual measurement data, and setting the target live structure diagram to be in a display state;

and the drawing feedback module is used for feeding back the first floor standard drawing and the first floor live drawing at the current moment after receiving the construction condition checking request aiming at the first floor.

In a third aspect, the present application provides an intelligent terminal, which adopts the following technical scheme:

a smart terminal comprising a memory and a processor, the memory having stored thereon a computer program capable of being loaded by the processor and executing the method according to the first aspect.

In a fourth aspect, the present application provides a computer readable storage medium, which adopts the following technical scheme:

a computer readable storage medium comprising a computer program stored with instructions executable by a processor to load and execute the method according to the first aspect.

By adopting the technical scheme, when the computer readable storage medium is loaded into any computer, the computer can execute the super high-rise building engineering supervision method of the first aspect.

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

1. in the construction process, the supervision personnel can input a construction start signal for the first floor into the engineering supervision terminal after the construction of the first floor is started, so that the engineering supervision terminal can call the first floor standard diagram corresponding to the first floor, and then the engineering supervision terminal can copy and generate a new drawing, namely the first floor live diagram corresponding to the first floor, based on the extracted first floor standard diagram. Along with the construction process, each time the construction of a building structure is completed, the supervision personnel can measure the actual measurement parameters, and input a construction completion signal aiming at the building structure into the engineering supervision terminal, so that the engineering supervision terminal updates the first floor standard diagram. And after receiving the construction condition checking request for the first floor, the engineering supervision terminal feeds back the first floor standard diagram and the first floor live diagram at the current moment for display. On the one hand, the first floor live view can be updated by taking a single building structure as a unit, so that a supervisor can control the construction process in a staged manner, the possibility of reworking due to error accumulation is reduced, and on the other hand, in the first floor live view, only the live structure diagram corresponding to the constructed building structure is in a display state, thereby facilitating the supervisor to lock focus of attention and timely grasp the construction process.

Drawings

FIG. 1 is a schematic flow chart for implementing a method for supervision of super high-rise building engineering in an embodiment of the application;

FIG. 2 is a block diagram of a system for implementing an engineering supervision terminal in an embodiment of the application;

fig. 3 is a block diagram of a system for implementing another engineering supervision terminal in an embodiment of the present application.

Reference numerals illustrate: 21. a storage module; 22. a drawing calling module; 23. a floor live map generation module; 24. a construction completion signal identification module; 25. a live structure map update module; 26. a drawing feedback module; 31. a construction quality verification module; 32. and a display mode setting module.

Detailed Description

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

The embodiment of the application discloses a super high-rise building engineering supervision method which can be applied to the construction process of a high-rise building, and an execution main body is an engineering supervision terminal. The engineering supervision terminal can be intelligent processing equipment such as a computer, BIM building drawings aiming at current construction can be input in the engineering supervision terminal in advance, the BIM building drawings consist of a plurality of floor standard drawings corresponding to floors one by one, the engineering supervision terminal can integrally display all floor standard drawings in the BIM building drawings according to the floor sequence based on user requirements, and can also independently extract and display any floor standard drawing based on user selection. Each floor standard chart comprises a plurality of standard structure diagrams corresponding to building structures one by one, and the building structures can be floor base plates, walls, inner structures and the like.

The process flow shown in fig. 1 will be described in detail with reference to the specific embodiments, and the following may be included:

s10: upon receiving a construction start signal for a first floor, a first floor standard map corresponding to the first floor is retrieved.

The first floor may be any floor among all floors, specifically, a floor to be constructed currently.

In implementation, after the construction of the first floor is started, the supervision personnel can input a construction start signal carrying the floor number of the first floor into the engineering supervision terminal, so that the engineering supervision terminal invokes the floor standard diagram corresponding to the first floor, namely the first floor standard diagram.

S20: based on the first floor standard diagram, a first floor live diagram corresponding to the first floor is generated, the first floor live diagram comprises a plurality of live structure diagrams, the live structure diagrams correspond to building structures one by one, and each live structure diagram is in a hidden state initially.

In implementation, the engineering supervision terminal can copy and generate a new drawing, namely, a first floor live diagram corresponding to the first floor, based on the extracted first floor standard diagram. Each of the standard structure diagrams in the first floor standard diagram is copied to obtain a live structure diagram included in the live diagram of the first floor, and each live structure diagram corresponds to a building structure. In the initial state, each live structure diagram is in a hidden state, and when the first floor live diagram is displayed by any device, the live structure diagrams in the hidden state are not directly displayed.

S30: upon receiving the construction completion signal, a target building structure for which the construction completion signal is directed, and measured data corresponding to the target building structure, are identified.

Wherein the target building structure may be any one or more of all building structures in the first floor.

In practice, the supervision personnel can measure various parameters of the target building structure on site after completing the construction of the target building structure, thereby obtaining the measured data aiming at the target building structure. Then, the supervision personnel can input the actual measurement data into the engineering supervision terminal, and input a construction completion signal carrying the actual measurement data into the engineering supervision terminal. The construction completion signal can carry the structure number of the target building structure, so that the engineering supervision terminal can conveniently confirm the target building structure aimed at by the construction completion signal.

S40: and updating a target live structure diagram corresponding to the target building structure in the first floor standard diagram based on the measured data, and setting the target live structure diagram to be in a display state.

In an implementation, the engineering supervision terminal may update the target live structure diagram corresponding to the target building structure in the first floor standard diagram based on the measured data corresponding to the target building structure. For example, the target live structure diagram may have a plurality of editable structural parameters, each item of the measured data may correspond to one of the structural parameters, and when a difference between any one of the parameters in the measured data and the corresponding structural parameter is greater than a parameter modification threshold corresponding to the structural parameter, the engineering supervision terminal may modify and update the structural parameter based on the one of the parameters in the measured data. After the updating of all the structural parameters is completed, the updating of the target live structure diagram can be completed. And then, the engineering supervision terminal can set the target live structure diagram to be in a display state, and when the first floor live structure diagram is displayed by any equipment, the live structure diagram in the display state is directly displayed.

S50: and after receiving a construction condition checking request for the first floor, feeding back the first floor standard diagram and the first floor live diagram at the current moment.

In implementation, in the construction process, a supervision person can send a construction condition checking request aiming at the first floor to the engineering supervision terminal at any time, so that the engineering supervision terminal feeds back the first floor standard diagram and the first floor live diagram at the current moment for display. On the one hand, the first floor live view can be updated by taking a single building structure as a unit, so that a supervisor can control the construction process in a staged manner, the possibility of reworking due to error accumulation is reduced, and on the other hand, in the first floor live view, only the live structure diagram corresponding to the constructed building structure is in a display state, thereby facilitating the supervisor to lock focus of attention and timely grasp the construction process.

Optionally, in another embodiment, in order to facilitate the supervision personnel to find out the poorly constructed building structure in time, after S40 above, the following may be further included:

and verifying the construction quality of the target building structure based on the actual measurement data and a preset building quality judgment rule, and setting a display mode of the target live structure diagram based on a verification result.

In implementation, after receiving the measured data for the target building structure, the engineering supervision terminal may compare each parameter in the measured data with the corresponding structural parameter, so as to determine whether the difference between each parameter and the corresponding structure is greater than a corresponding preset reasonable threshold, and mark the parameter determined as yes as an abnormal parameter. The engineering supervision terminal can distinguish and display the target live structure chart after recognizing that the abnormal parameters exist in the measured data, for example, display in different colors, highlight and the like. The project supervision terminal can also display the target live structure chart in a distinguishing mode based on the number or the type of the identified abnormal parameters, and the more the number of the abnormal parameters is, the darker the color is when the abnormal parameters are displayed.

Optionally, in another embodiment, in each of the floor standard diagrams, at least one building structure is a base frame structure. The foundation framework structure refers to a floor base plate or a wall body. In this case, after S30 described above, the following may be included:

and after the target building structure is identified as the basic frame structure and all basic frame structures in the first floor are constructed, obtaining the laser casting control point corresponding to the first floor based on the live structure diagram corresponding to all basic frame structures.

In an implementation, for a first floor, the project supervision terminal may record an updated status of each live structure drawing in the live view of the first floor. After receiving the construction completion signal, each terminal identifies whether the target building structure aimed at by the construction completion signal is a basic frame structure, and when the identification result is yes, the engineering supervision terminal can further identify whether the live structure diagram corresponding to all basic frame structures in the first floor is updated, that is, whether all basic frame structures in the first floor are constructed. When the identification result is yes, the engineering supervision terminal can identify the geometric center of the first floor as a laser casting control point based on the live structure diagrams corresponding to all the basic framework structures in the live view of the first floor. The laser casting control point is a position point for a supervisor to detect verticality through a laser plumb meter.

And converting to obtain the actual position of the laser casting control point in the first floor, and transmitting the actual position to a preset user terminal.

In implementation, the engineering supervision terminal can identify the distance between the laser casting control point and each wall in the first floor live view map, and convert the distance based on the proportional relationship between the first floor live view map and the actual size of the first floor, so as to obtain the actual distance between the actual laser casting control point and each actual wall in the first floor, and further obtain the actual position of the laser casting control point in the first floor. And then, the engineering supervision terminal can send the actual position to a preset user terminal, such as a smart phone, a tablet personal computer and the like carried by a designated supervision person, so that the supervision person can further perform the operation of detecting verticality by the laser plumber.

Optionally, in another embodiment, the method may further include the following:

after all live structure diagrams in the first floor live diagram are identified to be updated, generating or updating a building live diagram based on the current first floor live diagram, wherein the building live diagram records floor live diagrams of the current completed construction floors according to building sequence.

In implementation, when the engineering supervision terminal recognizes that all live structure diagrams in the live diagram of the first floor are updated, the engineering supervision terminal represents that the construction of the first floor is completed completely, at this time, the engineering supervision terminal can generate or update a live diagram of a building, and the live diagram of the building of the current completed construction floor is recorded in the live diagram of the building according to the building sequence. When the first floor is the first floor completed in the construction, the engineering supervision terminal generates a building live map corresponding to the current engineering based on the first floor live map, otherwise, the engineering supervision terminal updates the existing building live map corresponding to the current engineering based on the first floor live map. And then, the supervision personnel can retrieve and check the building live map, so that the current overall construction condition can be checked.

Optionally, in another embodiment, the method may further include the following:

and counting accumulated construction errors of all the current completed construction floors based on the building live diagram after updating the building live diagram every time.

Wherein, in some embodiments, the above-mentioned accumulated construction errors may include one or more of accumulated inclination, accumulated horizontal offset, accumulated number of failures. The cumulative inclination may be obtained by counting the verticality of each floor where construction is completed, the cumulative horizontal offset refers to the sum of absolute values of the positional offsets of each floor where construction is completed in the horizontal direction, and the cumulative defective amount refers to the sum of the numbers of building structures having abnormal parameters.

In implementation, each time after updating the building live diagram is completed, the engineering supervision terminal can count all accumulated construction errors of all the current completed construction floors based on the building live diagram.

And when the target accumulated construction error is identified to exceed the corresponding preset accumulated error threshold value, generating prompt information aiming at the target accumulated construction error.

The target accumulated construction error may be any one or more of all accumulated construction errors.

In implementation, the engineering supervision terminal may compare each accumulated construction error with a corresponding preset accumulated error threshold, and generate prompt information for the target accumulated construction error when the target accumulated construction error exceeds the corresponding accumulated error threshold. And then, the engineering supervision terminal can broadcast the prompt information through preset prompt equipment, and can also send the prompt information to a preset user terminal.

Based on the above method, the embodiment of the present application further discloses an engineering supervision terminal, referring to fig. 2, where the engineering supervision terminal includes:

the storage module 21 stores BIM building drawings in the storage module 21, wherein the BIM building drawings comprise a plurality of floor standard diagrams corresponding to floors one by one, and the floor standard diagrams comprise a plurality of standard structure diagrams corresponding to building structures one by one.

The drawing retrieving module 22 is configured to retrieve a first floor standard drawing corresponding to the first floor after receiving a construction start signal for the first floor.

The floor live map generating module 23 is configured to generate a first floor live map corresponding to a first floor based on a first floor standard map, where the first floor live map includes a plurality of live structure maps, the live structure maps are in one-to-one correspondence to building structures, and each live structure map is initially in a hidden state.

The construction completion signal identifying module 24 is configured to identify, after receiving the construction completion signal, the target building structure for which the construction completion signal is directed, and actual measurement data corresponding to the target building structure.

The live structure map updating module 25 is configured to update a target live structure map corresponding to the target building structure in the first floor standard map based on the measured data, and set the target live structure map to a display state.

The drawing feedback module 26 is configured to feedback the first floor standard drawing and the first floor live drawing at the current moment after receiving a construction condition checking request for the first floor.

Optionally, in combination with fig. 3, the engineering supervision terminal further includes:

the construction quality verification module 31 is configured to verify the construction quality of the target building structure based on the measured data and a preset building quality judgment rule after updating the target live structure corresponding to the target building structure in the first floor standard chart based on the measured data.

A display mode setting module 32 for setting a display mode of the target live structure chart based on the verification result of the construction quality verification module 31.

Optionally, in each floor standard, there is at least one building structure as a base frame structure. The engineering supervision terminal further comprises a laser casting control point generation module, wherein the laser casting control point generation module is used for obtaining the laser casting control point corresponding to the first floor based on a live structure diagram corresponding to all the foundation frame structures after the target building structure is identified to be the foundation frame structure and all the foundation frame structures in the first floor are constructed.

The actual position conversion module is used for obtaining the actual position of the laser casting control point in the first floor in a conversion mode and sending the actual position to a preset user terminal.

Optionally, the engineering supervision terminal further includes a building live view processing module, configured to generate or update a building live view based on the current first building live view after identifying that all live structure views in the first building live view are updated, where the building live view records floor live views of the current completed building floor according to a building sequence.

Optionally, the engineering supervision terminal further includes:

and the accumulated construction error statistics module is used for counting accumulated construction errors of all current completed construction floors based on the building live diagram after updating the building live diagram every time.

The prompt information generation module is used for generating prompt information aiming at the target accumulated construction error when the target accumulated construction error is identified to exceed the corresponding preset accumulated error threshold value.

The embodiment of the application also discloses an intelligent terminal, which comprises a memory and a processor, wherein the memory stores a computer program which can be loaded by the processor and execute the super high-rise building engineering supervision method.

The embodiment of the present application also discloses a computer-readable storage medium storing a computer program capable of being loaded by a processor and executing the above-described super high-rise building engineering supervision method, for example, the computer-readable storage medium comprising: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a random access Memory (Random Access Memory, RAM), a magnetic disk, or an optical disk, or other various media capable of storing program codes.

The above embodiments are only for illustrating the technical solution of the present application, and not for limiting the scope of application. It will be apparent that the described embodiments are merely some, but not all, embodiments of the application. Based on these embodiments, all other embodiments that may be obtained by one of ordinary skill in the art without inventive effort are within the scope of the application.

Claims (9)

1. The utility model provides a super high-rise building engineering manages method which characterized in that, the method is based on an engineering manages terminal, the engineering manages the terminal and has stored BIM building drawing, BIM building drawing includes a plurality of floor standard diagrams that correspond to the floor one by one, the floor standard diagram includes a plurality of standard structure diagrams that correspond to building structure one by one, the method includes:

after receiving a construction start signal for a first floor, retrieving a first floor standard map corresponding to the first floor;

generating a first floor live view corresponding to the first floor based on the first floor standard view, wherein the first floor live view comprises a plurality of live structure diagrams, the live structure diagrams are in one-to-one correspondence with the building structures, and each live structure diagram is in a hidden state initially;

after receiving a construction completion signal, identifying a target building structure for which the construction completion signal is intended, and actual measurement data corresponding to the target building structure;

updating a target live structure diagram corresponding to the target building structure in the first floor standard diagram based on the measured data, and setting the target live structure diagram to be in a display state;

and after receiving a construction condition checking request for the first floor, feeding back the first floor standard diagram and the first floor live diagram at the current moment.

2. The method according to claim 1, further comprising, after the updating of the target live structure map corresponding to the target building structure in the first floor standard map based on the measured data:

and verifying the construction quality of the target building structure based on the measured data and a preset building quality judging rule, and setting a display mode of the target live structure diagram based on a verification result.

3. The method of superelevation building engineering supervision according to claim 1, wherein in each of the floor standard diagrams, at least one of the building structures is a base frame structure;

after receiving the construction completion signal, the method further comprises the following steps of: when the target building structure is identified as a basic frame structure and all basic frame structures in the first floor are constructed, obtaining laser casting control points corresponding to the first floor based on a live structure diagram corresponding to all basic frame structures;

and converting to obtain the actual position of the laser casting control point in the first floor, and transmitting the actual position to a preset user terminal.

4. The method of superelevation building engineering supervision according to claim 1, wherein the method further comprises:

after all the live structure diagrams in the first floor live diagram are identified to be updated, generating or updating a building live diagram based on the current first floor live diagram, wherein the building live diagram records floor live diagrams of the current completed construction floors according to the building sequence.

5. The method of superelevation building engineering supervision of claim 4, wherein the method further comprises: after updating the building live diagram every time, counting accumulated construction errors of all current completed construction floors based on the building live diagram;

and when the target accumulated construction error is identified to exceed the corresponding preset accumulated error threshold value, generating prompt information aiming at the target accumulated construction error.

6. The method of claim 5, wherein the accumulated construction errors include one or more of accumulated inclination, accumulated horizontal offset, accumulated failure count.

7. An engineering supervision terminal, which is characterized by comprising:

the storage module (21) is used for storing BIM building drawings, wherein the BIM building drawings comprise a plurality of floor standard diagrams which are in one-to-one correspondence with floors, and the floor standard diagrams comprise a plurality of standard structure diagrams which are in one-to-one correspondence with building structures; a drawing retrieving module (22) for retrieving a first floor standard drawing corresponding to a first floor after receiving a construction start signal for the first floor;

the floor live view generation module (23) is used for generating a first floor live view corresponding to the first floor based on the first floor standard view, wherein the first floor live view comprises a plurality of live structure diagrams, the live structure diagrams are in one-to-one correspondence to the building structures, and each live structure diagram is in a hidden state initially;

a construction completion signal identifying module (24) for identifying a target building structure for which the construction completion signal is directed and actual measurement data corresponding to the target building structure after receiving the construction completion signal;

a live structure diagram updating module (25) for updating a target live structure diagram corresponding to the target building structure in the first floor standard diagram based on the actual measurement data, and setting the target live structure diagram to a display state;

and the drawing feedback module (26) is used for feeding back the first floor standard diagram and the first floor live diagram at the current moment after receiving a construction condition checking request aiming at the first floor.

8. An intelligent terminal comprising a memory and a processor, the memory having stored thereon a computer program capable of being loaded by the processor and performing the method according to any of claims 1 to 6.

9. A computer readable storage medium, characterized in that a computer program is stored which can be loaded by a processor and which performs the method according to any of claims 1 to 6.