CN112632781A - Electromechanical installation system and method - Google Patents

Abstract

The system comprises a rear-end platform, a three-dimensional model module which runs in the rear-end platform and is established according to an electromechanical installation standard, and operating equipment which is in communication connection with the rear-end platform and is used for modifying the three-dimensional model module in real time; and when the operation equipment is verified by the back-end platform and the verification is passed, the information modified by the operation equipment is transmitted to the back-end platform in real time and is updated to the three-dimensional model module. The problem of current electromechanical modification information update of installing three-dimensional model module have the time delay is solved, this application has the effect that makes relevant installation technical personnel in time master the actual conditions of three-dimensional model module, obtains more accurate three-dimensional model module.

Description

Electromechanical installation system and method

Technical Field

The application relates to the technical field of electromechanical installation, in particular to an electromechanical installation system and method.

Background

The electromechanical installation comprises the installation of automatic machine equipment such as a boiler, ventilation, air-conditioning refrigeration, electricity, instruments, motors, compressor units, broadcast movies, television broadcast control and the like. The electromechanical installation project is huge in information quantity and numerous in project management content, and at present, the electromechanical installation is subjected to modeling management by adopting a BIM technology, so that various project contents can be displayed in order, and the management efficiency of the electromechanical installation project is effectively improved.

However, after the three-dimensional model module installed in the electromechanical system is built, a corresponding technician is often required to continuously perform adaptive modification on the three-dimensional model module according to actual conditions during the installation process, however, the update of the modification information of the three-dimensional model module is delayed, and real-time update is difficult to realize, so that the related installation technician is difficult to grasp the actual conditions of the three-dimensional model module in time, and the progress of electromechanical installation is influenced.

For the related technologies, the inventor thinks that there is a delay in updating the modification information of the existing electromechanical installation three-dimensional model module, and the related installation technicians are difficult to grasp the actual situation of the three-dimensional model module in time, which affects the progress of the electromechanical installation.

Disclosure of Invention

In order to enable related installation technicians to master the actual situation of the three-dimensional model module in time and obtain a more accurate three-dimensional model module, the application provides an electromechanical installation system and method.

The purpose of the application is to provide an electromechanical installation system which has the characteristic of updating modification information of an electromechanical installation three-dimensional model module in real time.

The above object of the present application is achieved by the following technical solutions:

an electromechanical installation system comprises a rear-end platform, a three-dimensional model module which runs in the rear-end platform and is established according to an electromechanical installation standard, and operating equipment which is in communication connection with the rear-end platform and is used for modifying the three-dimensional model module in real time;

and when the operation equipment is verified by the back-end platform and the verification is passed, the information modified by the operation equipment is transmitted to the back-end platform in real time and is updated to the three-dimensional model module.

By adopting the technical scheme, the three-dimensional model module is established according to the electromechanical installation standard, so that the three-dimensional model module runs on the rear-end platform to manage the electromechanical installation engineering in order and improve the management efficiency of the electromechanical installation engineering; the three-dimensional model module is modified in real time by means of the operating equipment, so that remote correction operation is realized, and convenience and rapidness are realized; the back-end platform is in communication connection with the operating equipment, when the back-end platform verifies the operating equipment and passes the verification, the information modified by the operating equipment is transmitted to the back-end platform in real time and is updated to the three-dimensional model module, so that the modification permission of relevant installation technicians is matched, and the purpose of modifying the three-dimensional model module by the relevant installation technicians with permission is realized; and further, related installation technicians can timely master the actual conditions of the three-dimensional model module, the more accurate three-dimensional model module can be obtained, and the electromechanical installation work can be favorably carried out.

The present application may be further configured in a preferred example to: the operation equipment is in communication connection with the server, and the server is in communication connection with the rear-end platform;

and a three-dimensional model verification module established according to an electromechanical installation standard is operated in the server and used for verifying whether the modification information of the three-dimensional model module is accurate or not.

By adopting the technical scheme, the three-dimensional model verification module is used for verifying whether the modification information of the three-dimensional model module is accurate or not so as to further improve the accuracy of the three-dimensional model module; the operation equipment is in communication connection with the server, the three-dimensional model verification module runs in the server, and the server is in communication connection with the back-end platform so that modification information of the operation equipment is verified by the three-dimensional model verification module of the server and then transmitted into the back-end platform, and therefore the modification information of the three-dimensional model module is more accurate.

The present application may be further configured in a preferred example to: the three-dimensional model verification module comprises a simulation unit, a comparison unit and a verification unit;

the simulation unit is used for acquiring correction parameter information input by the operating equipment and inputting the correction parameter information into the three-dimensional model verification module, so that the corrected three-dimensional model verification module simulates the installation process of an electromechanical installation project and automatically acquires electromechanical installation parameter information;

the comparison unit is connected to the output end of the simulation unit and used for comparing the acquired electromechanical installation parameter information with a preset value;

the verification unit is connected to the output end of the comparison unit, and when the comparison result of the simulated electromechanical installation parameter information and the preset value meets the condition, the corrected three-dimensional model verification module is uploaded into the rear-end platform so as to update the three-dimensional model module.

By adopting the technical scheme, the simulation unit acquires the modification parameter information of the operation equipment to the three-dimensional model module, inputs the three-dimensional model verification module to modify the three-dimensional model verification module, and then enables the modified three-dimensional model verification module to simulate the installation process of an electromechanical installation project and automatically acquires the electromechanical installation parameter information in the simulation process; the comparison unit compares the acquired electromechanical installation parameter information with a preset value, and verifies whether the simulated electromechanical installation parameters meet preset conditions; when the comparison result of the simulated electromechanical installation parameter information and the preset value meets the condition, namely the corrected three-dimensional model verification module is more accurate and representative than the actual condition of electromechanical installation, the corrected three-dimensional model verification module is uploaded into the rear-end platform to update the corrected three-dimensional model module, so that the corrected three-dimensional model module is more accurate.

The present application may be further configured in a preferred example to: a three-dimensional model modification module for automatically modifying modification information of the three-dimensional model module is also operated in the server; and when the comparison result of the simulated electromechanical installation parameter information and the preset value does not meet the condition, automatically correcting the modification information of the three-dimensional model module.

By adopting the technical scheme, when the comparison result of the simulated electromechanical installation parameter information and the preset value does not meet the condition, namely the modification information of the three-dimensional model is unreasonable, the modification information of the three-dimensional model module is automatically modified by using the three-dimensional model modification module, so that the modified three-dimensional model module is more accurate and representative; modification suggestions are provided for related installation technicians, and operation is intelligent.

The present application may be further configured in a preferred example to: the three-dimensional model correction module comprises a learning unit, a rule unit, a training unit and a correction unit;

the learning unit is used for storing relevant data of electromechanical installation and updating the relevant data periodically;

the rule unit is connected with the output end of the learning unit and used for acquiring relevant electromechanical installation data of the learning unit, training and learning and counting relevant electromechanical installation parameter ranges in electromechanical installation engineering;

the training unit is connected to the output end of the rule unit and used for correcting the electromechanical installation parameter range of the electromechanical installation project counted by the rule unit according to the relevant data updated by the learning unit;

the correcting unit is connected to the output end of the training unit and used for correcting the three-dimensional model module modification information according to the relevant electromechanical installation parameter range in the electromechanical installation engineering counted by the training unit, so that the modification information of the three-dimensional model module meets the verification requirement of the three-dimensional model verification module.

By adopting the technical scheme, relevant data of electromechanical installation are stored in the learning unit and are periodically updated to be used as learning data of the rule unit; the rule unit acquires relevant electromechanical installation data, trains and learns, and counts relevant electromechanical installation parameter ranges in electromechanical installation engineering so as to learn correct parameters of electromechanical installation and assist in correcting modification information of the three-dimensional model module; the training unit corrects the parameter range of the electromechanical installation in the electromechanical installation project counted by the rule unit according to the relevant data updated by the learning unit, so that the parameter information of the electromechanical installation is more accurate, and the correction information of the three-dimensional model module can be corrected in an auxiliary manner; the correction unit corrects the modification information of the three-dimensional model module according to the phase-off electrical installation parameter range in the electromechanical installation engineering counted by the training unit, so that the modification information of the three-dimensional model module meets the verification requirement of the three-dimensional model verification module, and the purpose of automatically correcting the modification information of the three-dimensional model module is achieved.

The present application may be further configured in a preferred example to: and when the comparison condition is not met, the three-dimensional model modification module modifies the three-dimensional model module and transmits modification information to the operating equipment to carry out flash reminding with preset frequency in a pop-up window mode.

By adopting the technical scheme, the three-dimensional model correction module automatically corrects the information of the three-dimensional model module, transmits the correction information to the operation equipment, and carries out flicker reminding with preset frequency in a pop-up window mode, thereby providing correction suggestions for corresponding installation technicians and being beneficial to the installation technicians to make more accurate correction.

The second purpose of the application is to provide an electromechanical installation method which has the characteristic of updating the modification information of the electromechanical installation three-dimensional model module in real time.

The second application object of the present application is achieved by the following technical scheme:

an electromechanical installation method based on the electromechanical installation system comprises the following steps,

an electromechanical installation three-dimensional model established according to an electromechanical installation standard;

establishing a plurality of electromechanical installation roles on the electromechanical installation three-dimensional model, so that the operating equipment corresponds to a unique identification code, and the plurality of electromechanical installation roles are respectively bound with different identification codes of the operating equipment;

and establishing communication connection with the bound operating equipment.

By adopting the technical scheme, the electromechanical installation three-dimensional model, namely the three-dimensional model module, is established according to the electromechanical installation standard, so that the three-dimensional model module runs on the rear-end platform to manage the electromechanical installation engineering in order and improve the management efficiency of the electromechanical installation engineering; the three-dimensional model module is modified in real time by means of the operating equipment, so that remote correction operation is realized, and convenience and rapidness are realized; establishing a plurality of electromechanical installation roles on the electromechanical installation three-dimensional model, respectively binding identification codes of different operating devices by the electromechanical installation roles, establishing communication connection between the rear-end platform and the bound operating devices, acquiring modification information of the operating devices, transmitting the modification information to the rear-end platform in real time, and modifying and updating the three-dimensional model module so as to realize the purposes of matching modification permissions of related installation technicians and allowing the related installation technicians with the permissions to modify the three-dimensional model module; and further, related installation technicians can timely master the actual conditions of the three-dimensional model module, the more accurate three-dimensional model module can be obtained, and the electromechanical installation work can be favorably carried out.

The present application may be further configured in a preferred example to: before obtaining modification information of the operating equipment, inputting parameter information modified by the operating equipment into the three-dimensional model verification module, and modifying the three-dimensional model verification module, so that the modified three-dimensional model verification module simulates the installation process of an electromechanical installation project and automatically obtains electromechanical installation parameter information;

comparing the acquired electromechanical installation parameter information with a preset value;

and when the comparison condition is met, acquiring the modified modification information of the three-dimensional model verification module, and updating the modified modification information into the three-dimensional model module.

By adopting the technical scheme, the three-dimensional model verification module is used for verifying whether the modification information of the three-dimensional model module is accurate; and after the modification information of the operating equipment is verified and passes through the three-dimensional model verification module of the server, the modification information is transmitted to the back-end platform to update the three-dimensional model module, so that the accuracy of the three-dimensional model module is further improved, and the electromechanical installation work can be carried out orderly.

The present application may be further configured in a preferred example to: acquiring relevant data of electromechanical installation, training and learning, and counting relevant electromechanical installation parameter ranges in electromechanical installation engineering;

and when the comparison result of the acquired electromechanical installation parameter information and the preset value does not meet the preset condition, modifying the modification information of the three-dimensional model module according to the counted electromechanical installation parameter range in the electromechanical installation project, so that the modification information of the three-dimensional model module meets the verification requirement of the three-dimensional model verification module.

By adopting the technical scheme, the modification information of the three-dimensional model module is automatically modified, so that the modified three-dimensional model module is more accurate and representative; modification suggestions are provided for related installation technicians, and operation is intelligent.

The present application may be further configured in a preferred example to: and transmitting modification information meeting the verification requirements of the three-dimensional model verification module to the operating equipment, and carrying out flash reminding with preset frequency in a pop-up window mode.

By adopting the technical scheme, the modification information meeting the verification requirements of the three-dimensional model verification module is transmitted to the operation equipment, and the flicker reminding with the preset frequency is carried out in a pop-up window mode, so that modification suggestions are provided for corresponding installation technicians, and the installation technicians can make more accurate modification.

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

1. the modification permission of related installation technicians is matched, the related installation technicians with permission are allowed to modify the three-dimensional model module, and the three-dimensional model module is updated in real time, so that the related installation technicians can master the actual condition of the three-dimensional model module in time, a more accurate three-dimensional model module is obtained, and the electromechanical installation work is facilitated;

2. after the modification information of the operating equipment is verified by a three-dimensional model verification module on the server, the modification information is transmitted to a back-end platform, so that the modification information of the three-dimensional model module is more accurate;

3. when the modification information of the three-dimensional model is unreasonable, the modification information of the three-dimensional model module is automatically modified by using the three-dimensional model modification module, so that the modified three-dimensional model module is more accurate and representative; modification suggestions are provided for related installation technicians, and operation is intelligent.

Drawings

Fig. 1 is a block diagram of an electromechanical mounting system according to an embodiment of the present application.

Fig. 2 is a schematic flow chart of an electromechanical installation method according to an embodiment of the present application.

FIG. 3 is a flow chart of the operation of the three-dimensional model verification module and the three-dimensional model modification module.

Detailed Description

The present embodiment is only for explaining the present application, and it is not limited to the present application, 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 application.

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

In addition, the term "and/or" herein is only one kind of association relationship describing an associated object, and means that there may be three kinds of relationships, for example, a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship, unless otherwise specified.

The embodiments of the present application will be described in further detail with reference to the drawings attached hereto.

Referring to fig. 1, an embodiment of the present application provides an electromechanical mounting system, including a backend platform and a three-dimensional model module that runs in the backend platform and is established according to an electromechanical mounting standard. The specific building steps of the three-dimensional model module comprise that the data information of electromechanical installation is divided, and the electromechanical installation type is determined; and various relevant parameter information attributes with electromechanical installation are provided in the electromechanical installation category, and inheritance relationship and correlation among various relevant parameter information are established to form an electromechanical installation three-dimensional model. The method comprises the steps of dynamically simulating the installation process of each electromechanical installation project by means of the electromechanical installation three-dimensional model, acquiring and storing parameter information in the electromechanical installation process, inputting, modifying and deleting the parameter information of the electromechanical installation project in the three-dimensional model, and overall planning electromechanical installation work.

The electromechanical installation system further comprises a server in wireless communication connection with the rear-end platform and operating equipment in wireless communication connection with the server, and the operating equipment is used for modifying the three-dimensional model module in real time. The operating device can be a mobile phone or a tablet computer. In this embodiment, the operating device is a mobile phone, and each mobile phone uniquely corresponds to a mobile device identification code. And when the back-end platform verifies the operating equipment and the verification is passed, transmitting the information modified by the operating equipment to the back-end platform in real time, and modifying and updating the three-dimensional model module.

And a three-dimensional model verification module established according to an electromechanical installation standard operates in the server and is used for verifying whether the modification information of the three-dimensional model module is accurate or not. A three-dimensional model correction module for automatically correcting the correction information of the three-dimensional model module is also operated in the server; and when the comparison result of the electromechanical installation parameter information simulated by the three-dimensional model verification module and the preset value does not meet the condition, the three-dimensional model correction module automatically corrects the modification information of the three-dimensional model module.

The three-dimensional model verification module comprises a simulation unit, a comparison unit and a verification unit.

The simulation unit is used for acquiring correction parameter information input by the operating equipment and inputting the correction parameter information into the three-dimensional model verification module, so that the corrected three-dimensional model verification module simulates the installation process of an electromechanical installation project and automatically acquires electromechanical installation parameter information.

The comparison unit is connected to the output end of the simulation unit and used for comparing the acquired electromechanical installation parameter information with a preset value. The preset value is set according to the electromechanical installation parameter range of the corresponding category of the previous electromechanical installation project.

The verification unit is connected to the output end of the comparison unit, and when the comparison result of the simulated electromechanical installation parameter information and the preset value meets the condition, the corrected three-dimensional model verification module is uploaded into the rear-end platform so as to correct and update the three-dimensional model module.

The three-dimensional model correction module comprises a learning unit, a rule unit, a training unit and a correction unit.

The learning unit is used for storing relevant data of electromechanical installation and updating regularly.

The rule unit is connected with the output end of the learning unit and used for acquiring relevant electromechanical installation data of the learning unit, training and learning and counting relevant electromechanical installation parameter ranges in electromechanical installation engineering.

The training unit is connected with the output end of the rule unit and used for correcting the range of the electromechanical installation parameters of the electromechanical installation engineering counted by the rule unit according to the relevant data updated by the learning unit.

The correcting unit is connected with the output end of the training unit and used for correcting the modification information of the three-dimensional model module according to the relevant electromechanical installation parameter range in the electromechanical installation engineering counted by the training unit, so that the modification information of the three-dimensional model module meets the verification requirement of the three-dimensional model verification module.

And when the comparison condition is not met, the three-dimensional model modification module modifies the three-dimensional model module, transmits modification information to the operating equipment, and carries out flicker reminding with preset frequency in a pop-up window mode.

Referring to fig. 2, an embodiment of the present application further provides an electromechanical mounting method, including the steps of,

and establishing an electromechanical installation three-dimensional model according to an electromechanical installation standard.

And a plurality of electromechanical installation roles are created on the electromechanical installation three-dimensional model, so that the operating equipment corresponds to the unique identification code, and the plurality of electromechanical installation roles are respectively bound with the identification codes of different operating equipment.

And establishing communication connection with the bound operating equipment.

And acquiring the modification information of the operating equipment, and updating the modification information into the three-dimensional model module.

Furthermore, before the modification information of the operating equipment is acquired, the parameter information modified by the operating equipment is recorded into the three-dimensional model verification module, and the three-dimensional model verification module is modified, so that the modified three-dimensional model verification module simulates the installation process of an electromechanical installation project and automatically acquires electromechanical installation parameter information.

And comparing the acquired electromechanical installation parameter information with a preset value.

Referring to fig. 3, when the acquired electromechanical installation parameter information is compared with a preset value, it is determined whether the acquired electromechanical installation parameter information is within a preset value range.

And when the acquired electromechanical installation parameter information is within a preset value range, acquiring modification information of the modified three-dimensional model verification module, uploading the modification information to a rear-end platform, and modifying and updating the three-dimensional model module.

And acquiring relevant data of electromechanical installation, training and learning, and counting relevant electromechanical installation parameter ranges in electromechanical installation engineering.

And when the acquired electromechanical installation parameter information is out of the preset value range, modifying the modification information of the three-dimensional model module according to the counted electromechanical installation parameter range of the electromechanical installation engineering, so that the modification information of the three-dimensional model module meets the verification requirement of the three-dimensional model verification module.

And transmitting the modification information meeting the verification requirements of the three-dimensional model verification module to the operation equipment, and carrying out flash reminding with preset frequency in a pop-up window mode.

The implementation principle of the embodiment is as follows: and establishing a three-dimensional model module according to an electromechanical installation standard, and enabling the three-dimensional model module to operate on a rear-end platform so as to manage the electromechanical installation project in order and improve the management efficiency of the electromechanical installation project.

The back-end platform is in communication connection with the operating equipment, the operating equipment is in communication connection with the server, the three-dimensional model verification module runs in the server, the server is in communication connection with the back-end platform, and when the back-end platform verifies the operating equipment and passes the verification, related installation technicians with permission are allowed to modify the three-dimensional model module, so that the purpose of matching the modification permission of the related installation technicians is achieved.

After the three-dimensional model module is modified by the operating equipment, the modified information of the operating equipment is verified by the three-dimensional model verification module of the server and passes the verification, then the modified information of the operating equipment is transmitted to the back-end platform in real time, and the three-dimensional model module is modified and updated, so that the purpose of verifying whether the modified information is accurate in advance is achieved, and the accuracy of the three-dimensional model module is further improved.

When the modification information of the operating equipment is verified by the three-dimensional model verification module of the server and the verification is failed, the three-dimensional model modification module automatically modifies the modification information of the operating equipment until the modification information of the three-dimensional model module meets the verification requirement of the three-dimensional model verification module, so that modification suggestions are provided for related installation technicians, and the operation is intelligent; and the corrected three-dimensional model module is more accurate and representative.

At the moment, modification information meeting the verification requirements of the three-dimensional model verification module is transmitted to the operation equipment, flashing reminding with preset frequency is carried out in a pop-up window mode, and related electromechanical installation technicians are reminded to carry out manual confirmation on the operation equipment.

And after the related installation technicians manually confirm the operation equipment, the modification information meeting the verification requirements of the three-dimensional model verification module is transmitted to the rear-end platform through the server, and the three-dimensional model module in the rear-end platform is modified and updated.

And further, the electromechanical installation system and the electromechanical installation method are beneficial to relevant installation technicians to master the actual situation of the three-dimensional model module in time, obtain more accurate three-dimensional model modules and are beneficial to the implementation of electromechanical installation work.

Claims (10)

1. An electromechanical installation system comprises a rear-end platform and a three-dimensional model module which runs in the rear-end platform and is established according to an electromechanical installation standard, and is characterized by further comprising an operating device which is in communication connection with the rear-end platform, wherein the operating device is used for modifying the three-dimensional model module in real time;

and when the operation equipment is verified by the back-end platform and the verification is passed, the information modified by the operation equipment is transmitted to the back-end platform in real time and is updated to the three-dimensional model module.

2. An electro-mechanical mounting system as set forth in claim 1 further comprising a server, said operating device being communicatively coupled to said server, said server being communicatively coupled to said backend platform;

and a three-dimensional model verification module established according to an electromechanical installation standard is operated in the server and used for verifying whether the modification information of the three-dimensional model module is accurate or not.

3. An electro-mechanical mounting system according to claim 2, wherein the three-dimensional model verification module comprises a simulation unit, a comparison unit and a verification unit;

the simulation unit is used for acquiring correction parameter information input by the operating equipment and inputting the correction parameter information into the three-dimensional model verification module, so that the corrected three-dimensional model verification module simulates the installation process of an electromechanical installation project and automatically acquires electromechanical installation parameter information;

the comparison unit is connected to the output end of the simulation unit and used for comparing the acquired electromechanical installation parameter information with a preset value;

the verification unit is connected to the output end of the comparison unit, and when the comparison result of the simulated electromechanical installation parameter information and the preset value meets the condition, the corrected three-dimensional model verification module is uploaded into the rear-end platform so as to update the three-dimensional model module.

4. An electromechanical installation system according to claim 2, wherein a three-dimensional model modification module for automatically modifying modification information of said three-dimensional model module is further operated in said server; and when the comparison result of the simulated electromechanical installation parameter information and the preset value does not meet the condition, automatically correcting the modification information of the three-dimensional model module.

5. An electro-mechanical installation system according to claim 4, wherein said three-dimensional model modification module comprises a learning unit, a rules unit, a training unit and a modification unit;

the learning unit is used for storing relevant data of electromechanical installation and updating the relevant data periodically;

the rule unit is connected with the output end of the learning unit and used for acquiring relevant electromechanical installation data of the learning unit, training and learning and counting relevant electromechanical installation parameter ranges in electromechanical installation engineering;

the training unit is connected to the output end of the rule unit and used for correcting the electromechanical installation parameter range of the electromechanical installation project counted by the rule unit according to the relevant data updated by the learning unit;

the correcting unit is connected to the output end of the training unit and used for correcting the three-dimensional model module modification information according to the relevant electromechanical installation parameter range in the electromechanical installation engineering counted by the training unit, so that the modification information of the three-dimensional model module meets the verification requirement of the three-dimensional model verification module.

6. The electromechanical installation system of claim 4, wherein when the comparison condition is not satisfied, the three-dimensional model modification module modifies the three-dimensional model module and transmits modification information to the operating device to perform a flashing prompt with a preset frequency in a pop-up window mode.

7. An electromechanical mounting method, based on an electromechanical mounting system according to any of claims 1 to 6, comprising the steps of,

establishing an electromechanical installation three-dimensional model according to an electromechanical installation standard;

establishing a plurality of electromechanical installation roles on the electromechanical installation three-dimensional model, so that the operating equipment corresponds to a unique identification code, and the plurality of electromechanical installation roles are respectively bound with different identification codes of the operating equipment;

establishing communication connection with the bound operating equipment;

and acquiring modification information of the operating equipment, and updating the modification information into the three-dimensional model module.

8. The electromechanical installation method according to claim 7, wherein before obtaining modification information of the operating device, parameter information modified by the operating device is entered into the three-dimensional model verification module, and the three-dimensional model verification module is modified, so that the modified three-dimensional model verification module simulates an installation process of an electromechanical installation project and automatically obtains electromechanical installation parameter information;

comparing the acquired electromechanical installation parameter information with a preset value;

and when the comparison condition is met, acquiring the modified modification information of the three-dimensional model verification module, and updating the modified modification information into the three-dimensional model module.

9. The electromechanical installation method according to claim 8, wherein relevant data of electromechanical installation are acquired and trained for learning, and relevant electromechanical installation parameter ranges in electromechanical installation engineering are counted;

and when the comparison result of the acquired electromechanical installation parameter information and the preset value does not meet the preset condition, modifying the modification information of the three-dimensional model module according to the counted electromechanical installation parameter range in the electromechanical installation project, so that the modification information of the three-dimensional model module meets the verification requirement of the three-dimensional model verification module.

10. The electromechanical installation method according to claim 9, wherein modification information meeting the verification requirement of the three-dimensional model verification module is transmitted to the operating device, and a flashing prompt with a preset frequency is performed in a pop-up window mode.

Images