CN117094663A

CN117094663A - Engineering design pre-information generation method, information display method and drawing examination method

Info

Publication number: CN117094663A
Application number: CN202310916382.1A
Authority: CN
Inventors: 邓克凡
Original assignee: Jianzhi Technology Chengdu Co ltd
Current assignee: Jianzhi Technology Chengdu Co ltd
Priority date: 2023-07-25
Filing date: 2023-07-25
Publication date: 2023-11-21

Abstract

The invention discloses an engineering design pre-information generating method, an information display method and a drawing method, wherein the method displays pre-information related to a current drawing file and intelligent information related to a target object by calling an information display plug-in loaded in engineering design software, so that a user can automatically display the related intelligent information along with a design action in the process of designing the drawing file, information follow-up display is realized, relevant design specifications of the user are reminded at any time, the workload caused by manually searching the intelligent information by a designer is saved, the problem of frequent accidents of various qualities caused by incomplete searching, inaccurate searching and the like caused by manually searching the intelligent information by the designer is solved, the design research and development efficiency is greatly improved, and positive economic benefits and social benefits are provided for automatic design and subsequent automatic production of manufacturing industry, construction industry and engineering industry.

Description

Engineering design pre-information generation method, information display method and drawing examination method

Technical Field

The invention relates to the technical field of building design, in particular to an engineering design pre-information generation method, an information display method and a drawing examination method.

Background

With the development of basic technologies such as computer technology, mathematical algorithm, deep learning and the like, the whole society is in the era of Internet and digitalization at present, all interconnection is characterized in that a rich and complete database is taken as a core, namely 'people are linked into a whole, and people are connected into a whole', so that the digitalization technology and the artificial intelligence technology are particularly applied to the aspects of mobile payment, unmanned driving, intelligent navigation and the like, and the working and living efficiency is greatly improved.

In contrast, engineering design software CAD and BIM series software widely used in the industry at present are 2 types of single edition and cloud edition. The two are different in storage mode, but are still simple drawing tools, data information in the drawing process cannot be displayed, and drawing design is finished by means of artificial memory information, so that the problem that the industry is infinite in full chain, such as incapability of obtaining the design before the design, incapability of accurately applying the design, disqualification of design results, general disconnection from links of follow-up inspection, management, production, quality inspection and the like, is caused.

Taking the building design as an example: the acquisition of the standard information, the calculation and the execution of the tasks are completed by manual steps of recording, searching, calculating, comparing, checking and the like, and the standard information is unchanged for more than 20 years.

An important task in architectural design work is the selection and determination of the terms of the applicable specification of the design, which the architect needs to "correctly align, correctly understand, correctly take value and correctly output" on these mutually-interrelated terms. However, the difficulty in reality is that:

(1) The standards are many and updated quickly, so that many new people and old people can not know the corresponding standards comprehensively, and especially the standards are omitted without knowing the existence of individual standards, the alignment difficulty is increased, for example, the building design of a kindergarten of a supporting house is about forty technical standards such as national standard, industry standard, local standard and the like, for example, more than twenty standard restrictions are arranged on single factors such as building height, building area, each door and window, walkway, toilet and the like, and the design result of an ordinary architect engineer is extremely low in one-time qualification rate and has many wrong inefficiency, which is industry normal.

(2) The correct understanding of the terms is difficult, the standard terms are expressed by words, and due to the limitation of language expression and the concise characteristic of the legal language, deviation in terms understanding of practitioners is caused, namely, the understanding of terms by the users of the terms and the terms formulator is inconsistent, and the understanding errors of the designers are easily caused. For example, "personnel-intensive places" in the clauses 5.4.12 and 5.4.13 of "fire protection Specification for building design" in GB50016-2014 (2018 edition) are more reasonable, and the code editor of the Specification acknowledges that the code editor is a mistake in a certain occasion and is exactly the "personnel-intensive places" (the personnel-intensive places are places where the building industry refers to kindergartens, schools, malls and the like, the building design specifications of the places are strict, the personnel-intensive places generally refer to a certain space with larger personnel flow, and the space is possibly in the personnel-intensive places, and therefore, the design specifications of the personnel-intensive places and the personnel-intensive places are different. However, for most designers, this mistake may result in simple and applicable clauses, or may be misleading due to suspicion.

(3) In the independent technical specifications, there are dispersed a plurality of terms defining the same technical subject. There are essentially multi-directional constraints such as "front-to-back logic, mutual constraints" and the like and constrained relations between them, so that numerous design points in each actual service of engineering design can be correctly subjected to multiple terms of "consulting, understanding and deciding". Such as a design dot in a building design "what is the minimum net width of a common aisle in a commercial building? "because public walkways generally bear the functions of evacuation walkways, barrier-free channels and the like at the same time, namely, 5 building design technical specifications make provision:

1) The 7.1.4 th rule of the general building fireproof standard GB55037-2022 is that the net width of the evacuation walkway, the first-layer evacuation outer door and the indoor evacuation stairs in public buildings should not be smaller than 1.1 m;

2) The 2.2.2 of the general standard for accessible construction and municipal engineering GB55019-2021 specifies that the clear width of accessible channels should not be less than 1.20m and the clear width of public places with dense personnel should not be less than 1.80m. ";

3) The general Specification of civil construction GB55031-2022, 5.3.12, states that the clear width of public corridor of civil construction should meet the minimum clear width requirement of various functional places except the residence, and should not be less than 1.30 m;

4) 5.5.18 of the building design fireproof Specification GB50016-2014 (2018 edition) specifies that the clear width of an evacuation pavement and an evacuation stair should not be less than 1.1 m;

5) The 3.5.1 of the accessible design Specification GB50763-2012 specifies that the indoor pavement is not smaller than 1.20m, and the indoor pavement width of a large public building with more people flow or more concentrated is not smaller than 1.80 m;

in each actual business, innumerable alignment of the specification terms by each design small point is a difficult problem, and a great deal of cost is required to be required to perform more complex logic analysis comparison, so that the analysis workload is great, the analysis conclusion is often not necessarily correct, and a plurality of errors can occur in the final design result. The situation is that the people of all ages are in actual work. Thus increasing the effort and difficulty in terms selection and decision making.

(4) The fire protection system is characterized by comprising a plurality of clauses, namely definition clauses, classification clauses (such as building classification and fire-resistant grade classification), qualitative applicability clauses (such as 'between an opening on a building roof and an adjacent building or facility of GB50016-2014 (2018 edition)' 6.3.7. The fire protection system should take measures for preventing fire spread ',' between GB50016-2014 (2018 edition) 'between a closed stairwell, a smoke-resistant stairwell and a front room thereof, a rolling curtain should not be arranged)' and also comprising a plurality of design parameter clauses (such as 'building design fire protection system' GB50016-2014 (2018 edition) 'between 6.2.9 and' fire limit of an elevator landing door should not be lower than 1.00 h) 'and a plurality of calculation method clauses (such as' building design fire protection system 'GB 50016-2014 (2018 edition)' 5.5.29. The distance from a door of a building stairwell to a nearest safety exit should be noted), a small projection distance from the door of the building stairwell can be calculated according to 1.50 times the horizontal projection length of the building stairwell, and the like, and whether the condition is different in terms are required to be read or not be compared.

This results in a large amount of time for the building design engineer to find the normalization data (paper books or electronic documents) and to perform a number of steps such as manual calculation, logic analysis, self-checking, communication confirmation, execution, and product delivery. The decision-making by artificial thinking varies from person to person, and the understanding and execution abilities between individuals vary greatly. In addition, various technical standards have the objective difficulty factors of insufficient expression, various related data and the like, and subjective factors of insufficient experience, inaccurate understanding, execution deviation and the like, wherein the error of a serious grade and a common grade basically occurs every time, the phenomenon of reworking is unavoidable, and the labor cost is high.

Disclosure of Invention

The invention aims to overcome the technical defects and provide an engineering design pre-information generating method, an information displaying method and a drawing examining method so as to solve the technical problems of low automation degree, low design efficiency and low accuracy of engineering design software in the related technology.

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

according to a first aspect of the present invention, there is provided an engineering design pre-information generating method, comprising:

The server side is used for newly-built projects and/or newly-added engineering monomers are used for configuring pre-information items to be filled in, and a rule engine is configured for the pre-information items; the new engineering monomer comprises: newly added engineering monomers under the history project or newly added engineering monomers under the current newly built project;

the webpage end obtains assignment of the user to the pre-information item;

substituting the assignment into the rule engine by the server side for calculation to obtain an information result table of a new project and/or a newly-added engineering monomer, wherein the information result table comprises basic attribute data calculated by the rule engine according to the assignment of the preposed information item;

and the server side assigns the user as a new project and/or adds the pre-information item of the engineering monomer, and the information result list is stored as the pre-information.

Preferably, the method further comprises:

and the webpage end receives the information result table fed back by the client end and outputs the information result table to the user for viewing.

According to a second aspect of the present invention, there is provided an intelligent information display method based on engineering design software, implemented by a web page end calling client, including:

The webpage end acquires the pre-information of the newly added engineering design according to the method, and displays all projects of the current user and engineering monomer information under the projects in a list form;

after detecting that a user clicks a drawing button of the project or the engineering monomer, the webpage end wakes up the client to acquire a drawing file associated with the current drawing, and downloads the drawing file to a designated path;

the client side calls engineering design software with the information display plug-in loaded in advance and transmits information parameters of the drawing file, so that the drawing file is automatically loaded after the engineering design software is started;

the information display plug-in receives the prepositive information transmitted by the client, displays the prepositive information on a design interface of the current engineering design software, and is also used for displaying intelligent information of a target object selected by a user;

the target includes: labeling words input by a user and/or drawn component graphics;

the intelligent information comprises at least one of the following: engineering design specification clause information, business information, engineering provider information, engineering design related industry best practice information.

According to a third aspect of the present invention, there is provided an intelligent information display method based on engineering design software, loaded on a web page end, including:

after detecting that a user clicks a drawing button of the project or the engineering monomer, the webpage end pops up a design interface of engineering design software of a webpage version, and an information display plug-in is preloaded in the engineering design software of the webpage version;

the webpage end transmits information parameters of drawing files associated with the current drawing to engineering design software through URL links, and the engineering design software automatically loads the drawing files according to the URL links;

the information display plug-in receives the prepositive information transmitted by the webpage end, displays the prepositive information on a design interface of the current engineering design software, and is also used for displaying intelligent information of a target object selected by a user;

According to a fourth aspect of the present invention, there is provided an intelligent graphic method based on engineering design software, comprising:

Acquiring prepositive information of a current drawing file, wherein the prepositive information is generated according to the engineering design prepositive information generating method;

summarizing drawing data in a current drawing file;

and comparing the difference between the pre-information and the drawing data, and informing a user of specific data difference conditions when the data difference exists between the pre-information and the drawing data so as to remind the user of modifying.

Preferably, the summarizing the drawing data in the current drawing file includes:

the information display plug-in monitors drawing information in the current drawing file, and gathers drawing data in the current drawing file after the editing of the current drawing file is completed;

the information display plug-in calls a summary data notification interface, and a drawing editing unique identifier corresponding to the current drawing file and the drawing data are transmitted to the client;

the client calls a verification interface to verify whether the unique drawing editing identifier is valid or not, and when judging that the unique drawing editing identifier is valid, acquires a drawing ID corresponding to the unique drawing editing identifier;

and the client stores the drawing data into a summary data table, and establishes a corresponding relation between the drawing ID and the drawing data, the item ID corresponding to the drawing ID and the newly added engineering monomer ID.

The technical scheme provided by the embodiment of the invention can comprise the following beneficial effects:

according to the engineering design pre-information generation method provided by the invention, the pre-information required by engineering design is automatically generated by setting the rule engine, so that compared with the method for manually searching related specifications for manual accounting according to project information in the prior art, the automatic generation of the pre-information is realized. The designer can directly go to project design according to the pre-information provided by the embodiment, so that the workload brought by the designer to manually search the standard clause information is saved, and the design research and development efficiency can be improved.

According to the intelligent information display method based on engineering design software, the information display plug-in which is preloaded in engineering design software is called, and the front information related to the current drawing file and the intelligent information related to the target object are displayed, so that a user can automatically display the related intelligent information along with the design action in the process of designing the drawing file, information follow-up display is realized, relevant design specifications of the user are reminded at any time, the workload caused by manually searching the intelligent information by a designer is saved, the problem that various quality accidents frequently occur due to incomplete searching, inaccurate searching and the like caused by manually searching the intelligent information by the designer is solved, the design research and development efficiency is greatly improved, and the method has positive economic and social benefits for automatic design and subsequent automatic production of manufacturing industry, building industry and engineering industry.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the invention as claimed.

Drawings

FIG. 1 is a flow chart illustrating a method of engineering design pre-information generation according to an exemplary embodiment;

FIG. 2A is a schematic diagram of a table of information outcomes of newly added building monomers, according to an example embodiment;

FIG. 2B is an enlarged view of a portion of FIG. 2A;

FIG. 2C is an enlarged view of a portion of FIG. 2A;

FIG. 2D is an enlarged view of a portion of FIG. 2A;

FIG. 2E is an enlarged view of a portion of FIG. 2A;

FIG. 3 is a flowchart illustrating a method of smart information display based on engineering software, according to another exemplary embodiment;

FIG. 4A is a diagram illustrating an instant display effect of smart information according to an example embodiment;

FIG. 4B is an enlarged view of a portion of FIG. 4A;

FIG. 4C is an enlarged view of a portion of FIG. 4A;

FIG. 4D is a complete display schematic diagram of canonical clause information;

FIG. 5 is a flowchart illustrating a smart card method based on engineering software, according to an exemplary embodiment;

FIG. 6 is a flowchart illustrating user operation steps according to an exemplary embodiment.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

As described in the foregoing background art, there is a technical problem in the related art that the automation degree of engineering design software is low, and the design efficiency and accuracy are low.

In order to effectively solve the problems in the related art, the invention provides an engineering design pre-information generating method, an information displaying method and a drawing examining method, which are specifically described below.

It should be noted that, the technical scheme provided by the invention requires the interactive implementation of the webpage end, the client end, the server end and the engineering design software. The webpage end and the client end are installed in terminal equipment (including electronic equipment such as a computer, a tablet personal computer and a mobile phone) of a user, and the server end can be a local server or a cloud server. The various interfaces mentioned in the following embodiments are, for example: the verification interface, the basic information inquiry interface, the standard original text interface, the summarized data notification interface and the like are all interfaces provided for the application in the server side.

Example 1

FIG. 1 is a flow chart illustrating a method of engineering design pre-information generation, as shown in FIG. 1, according to an exemplary embodiment, comprising:

step S11, a server side is a newly-built project, and/or a newly-added engineering monomer is used for configuring a pre-information item to be filled in, and a rule engine is configured for the pre-information item; the new engineering monomer comprises: newly added engineering monomers under the history project or newly added engineering monomers under the current newly built project;

Step S12, the webpage end obtains the assignment of the user to the pre-information item (the user carries out assignment in a mode including but not limited to words, pictures, voices and the like);

s13, substituting the assignment into the rule engine by the server side to calculate to obtain a new project and/or an information result table of a newly-added engineering monomer, wherein the information result table comprises basic attribute data calculated by the rule engine according to the assignment of the preposed information item;

and S14, the server side assigns the user as a newly-built project and/or adds the pre-information item of the engineering monomer, and the information result table is stored as the pre-information.

Preferably, the method further comprises:

It should be noted that the engineering design mentioned in this embodiment includes, but is not limited to: and (5) building design. The engineering monomer is a building monomer, which is assumed to be a building design.

Taking building design as an example, in specific practice, the pre-information items under an item include, but are not limited to: building units, construction periods, construction areas, project members, and the like. As types of building monomers include, but are not limited to: kindergarten, hospital, mall, office building, commodity house, etc., so the pre-information items of the newly added building unit include, but are not limited to: building monomer name, building type, building belonged structure class, building height (fire protection definition), maximum building area, green building level, aviation limit of highest point of building, etc.

In specific practice, the belonging pre-information items may be classified into, for example, newly added building monomers, for example, pre-information items of overground parts, pre-information items of underground part-semi-underground buildings, pre-information items of underground part-underground buildings, and the like. The pre-information items are specifically classified, so that the user can fill in and meet the characteristics of the building, and the pre-information items are set according to the user's needs.

The rule engine is used for reading the assignment of the pre-information item, and carrying out logic operation on the assignment according to engineering design specifications pre-stored in the database to generate basic attribute data of the current engineering design.

In order to facilitate understanding of the rule engine mentioned in this embodiment, the specific working principle of the rule engine will now be explained by taking a building design as an example as follows:

1. taking the building design of the kindergarten project of the support house as an example, the generation of the pre-information comprises the following steps:

1.1 user-filled/selected pre-information items: the user fills in or selects the information actually necessary for the item. More information content, for example, several of the more important are as follows: the method comprises the steps of (1) designing project addresses in a stage (2), (3) newly building/rebuilding/expanding (4) building functions (5), and (5) class composition (6) building layer number (7) total building area (8) building area of a house for children (9) building structure form (10) overground/underground/semi-underground (11) green building class (12) number of users;

1.2 Assignment of the pre-information items by the user: for example, a kindergarten reconstruction project of a support house in a sea lake area in Beijing city is shown, the specific assignment of a user of a certain architect is respectively corresponding to (1) a construction scheme stage (2) the reconstruction of a sea lake area in Beijing city (3) (4) the shift composition of a kindergarten (5) in the support house in Beijing city is '9 support house stages, 11 child house stages' (6) the total construction area of a three-layer (7) overground construction is 5100 square meter (8) the construction area of a child house is 3100 square meter (9) overground construction, the concrete structure (10) comprises overground, an underground (11) overground construction is a green construction secondary star, and the total construction area of a basement is 600 square meters and is more than 200 people for equipment houses (12);

1.3 value of basic attribute data:

the rule engine establishes a logical mapping relation between basic data (the assignment of the user to the pre-information item belongs to the basic data) and the standard rule, and the following is implemented:

1.3.1 Specification database: the standard technical data volume is too large, and only examples are partial such as "working stage division standard, national administrative division information and local technical standard correspondence rule, building type classification table, kindergarten building design standard, civil building unified design standard, building design fire prevention standard, building fire prevention general standard, whether it is the relevant standard of special construction engineering, whether it is the relevant standard of important public building, whether it is the relevant standard of personnel intensive places, whether it is the relevant standard of children activity places, the relevant standard of green building, the relevant standard of engineering design grade, etc.;

1.3.2 Rule engine and outcome:

based on the condition selected/input by the user according to the condition, the following basic attribute data are obtained:

(1) Item information:

1 building unit on the ground is a kindergarten building of a large-scale support, 1 building unit underground is in a building scheme stage, is a reconstruction project, and the project needs to adopt related Beijing city local technical standards (including green building, reconstruction and the like) besides the national and industry standards

Building monomer information

1) Building on the ground:

the building is in the stage of building scheme, is a kindergarten building of a large-scale career, has fireproof definition of single-layer and multi-layer public buildings, has the service life of the building design of 50 years, has 3 layers, has the lowest fireproof level of two layers, is a special construction project (to be subjected to fire protection design examination), is an important public building, is a personnel intensive place, is a child activity place, is a green building of two stars, has the engineering design level of two layers and is in a concrete structure form.

2) Underground building:

the building is an underground building with the functions of a warehouse and equipment, the number of layers is 1, the fire resistance grade is one level, the service life of the building design is 50 years, and the roof of the structure is waterproof one level, and the structure is a concrete structure.

2. Taking the building design of the residential building project as an example, the generation of the pre-information includes:

2.1 user-filled/selected pre-information items: including without limitation: the method comprises the following steps of (1) designing project addresses (2) (3) newly building/rebuilding/expanding (4) (building functions (5) (building single body number) (6) (building layer number (7) (total building area) (8) (building structure form) (9) (above-ground/underground/semi-underground) (10)) green building grades;

2.2 Assignment of the pre-information items by the user: for example, a residential building project in Qing sheep district of Du City in Sichuan province is provided, the specific assignment of a certain architect user is respectively corresponding to (1) a building construction diagram stage (2) a new building (4) in Qing sheep district (3) of Du City in Sichuan province, (5) 5 building monomers (all the same) (6) the number of building layers is 4, the total building area is 11200 square meters (8) the building structure form is a concrete structure (9) comprising an overground building, an underground (10) overground building is a green building secondary star level, and the total building area of a basement is 4700 square meters;

2.3 value of basic specification data:

2.3.1 Specification database: the same as 1.3.1, which is not described here again;

2.3.2 Rule engine and outcome:

(1) Item information:

the building construction method has 5 residential building monomers on the ground, 1 building monomer underground, is in the stage of building construction diagram, is a new project, and needs to adopt the relevant technical standards (including green building, residential building and the like) of the places of the city of the Sichuan province in addition to the national and industry standards

(2) Building monomer information:

1) Building on the ground:

the building is a multi-storey residential building, the service life of the building design is 50 years, the number of layers is 4, the lowest fire resistance level is three-level, the building is not a special construction project (to be subjected to fire protection design examination), the building is not an important public building, is not a personnel-intensive place, is not a child activity place, is a two-star green building, and the engineering design level is three-level and concrete structural form.

2) Underground building:

the building is an attached motor vehicle garage building, the number of layers is 1, the building belongs to a class III garage, the building belongs to a medium-sized garage, the fire-resistant grade is one-level, the service life of the building design is 50 years, an automatic fire extinguishing system is arranged, a smoke discharging system is arranged, and the roof of the structure is waterproof one-level and in a concrete structure form.

Referring to fig. 2A to fig. 2E, taking a building design as an example, when assigning values to pre-information items, specific values or texts can be selected for assignment through a drop-down box on a newly added building single information input interface, and assignment can be performed in a manner of manual filling by a user. The benefit of assigning values through the drop down boxes is that: the rule engine can identify the values in the drop-down frame, if the values are manually written, the rule engine cannot identify the values possibly due to inconsistent written standard names (for example, some users write houses, some users write commodity houses, some users write 10m in height, and the drop-down frame has the advantages of avoiding random filling of users or inconsistent written standards, affecting the rule engine identification) and affecting the pre-information generation effect.

It should be noted that, in specific practice, the pre-information items may be different from the content shown in fig. 2A to 2E in number and item, and this is limited by the display space and the definition requirement of the resolution of the picture after display, and only a part of the screenshot is taken as an example. In specific practice, the display manner and arrangement layout of various information may not be limited to the one illustrated in fig. 2A to 2E. Any method and manner of displaying information required by a designer when using engineering design software design drawings is within the scope of the present embodiment.

Referring to fig. 2A to fig. 2E, taking a building design as an example, the information result table of the newly added building monomer includes basic attribute data calculated by the rule engine according to the assignment of the pre-information item. The basic attribute data includes: for example, the fire-proof level is two-level, the water-proof level is one-level, and the fire-proof level is a person-dense place, and there is information such as an automatic fire extinguishing system.

It should be noted that, in the prior art, the generation of the pre-information is completed by a manual query, and basically 100% of the pre-information is missed to cause the reworking, low quality or invalidation of the subsequent work. The technical scheme provided by the embodiment directly provides the unified technical standard (path) of the functions of various technical specification databases, display engine execution, task automatic execution logic and the like and related professional collaboration through the rule engine, and the subsequent work is accurate at one time, so that the work efficiency of research and development designers is greatly improved.

In specific practice, taking a building design as an example, the data stored in the database includes:

1. the project basic data is stored in a basic data table, which comprises:

the monomer building information is stored in a monomer building data table;

storing the expansion data into a data expansion table;

2. Specification data comprising:

the rule engine analyzes basic specification design and calculation logic of the industry and outputs specification requirements according to conditions; storing basic attribute data generated by a rule engine into a standard data table;

3. designing participant data;

4. the design flow flows the data.

It can be understood that, according to the technical scheme provided by the embodiment, the rule engine is set to automatically generate the pre-information required by engineering design, so that compared with the method for manually searching relevant specifications for manual accounting according to the project information in the prior art, the automatic generation of the pre-information is realized. The designer can directly go to project design according to the pre-information provided by the embodiment, so that the workload brought by the designer to manually search the standard clause information is saved, and the design research and development efficiency can be improved.

Example two

FIG. 3 is a flowchart illustrating a method for displaying intelligent information based on engineering design software, implemented by a web-side calling client, as shown in FIG. 3, according to an exemplary embodiment, the method comprising:

step S21, the webpage end acquires the pre-information of the newly added engineering design according to the method, and displays all projects of the current user and engineering monomer information under the projects in a list form (for example, displays projects and building monomers under the projects in a list form, wherein the positions of the project information on the webpage are frozen, and the building monomer information under the projects can be checked by pulling up and sliding down);

S22, after detecting that a user clicks a drawing button of the project or the engineering monomer, a webpage end wakes up a client to acquire a drawing file associated with a current drawing, and downloads the drawing file to a designated path;

s23, the client side calls engineering design software with the information display plug-in loaded in advance and transmits information parameters of the drawing file, so that the engineering design software can automatically load the drawing file after being started;

step S24, an information display plug-in receives the prepositive information transmitted by the client, displays the prepositive information on a design interface of the current engineering design software, and is also used for displaying intelligent information of a target object selected by a user;

It should be noted that, the technical solution provided in this embodiment is implemented based on engineering design software, where the engineering design software includes but is not limited to: CAD, BIM, solidWorks, et al, 2D or 3D cartography software. Preferably, the engineering design software is CAD or BIM series software.

Specifically, in step S21, each item on the list and the engineering monomer under each item are configured with a drawing button, and the user selects to view a historical drawing or a newly built drawing by clicking the drawing button, and one drawing is associated with one drawing file of the engineering design software.

The labeling characters refer to identification characters which are input by a user in engineering design software and are used for indicating the meaning of the currently drawn pattern, such as doors, safety channels, stairs and the like; the component graphics refer to component graphics directly selected by a user from engineering design software, such as door component graphics, stair-rotating component graphics, swimming pool component graphics, and the like. These component graphics, engineering software, are self-contained with their attribute information, e.g., name, type, etc.

It can be understood that the technical scheme provided by the embodiment is a set of self-grinding software, and an interface capable of calling the existing engineering design software is embedded in the self-grinding software. And triggering the webpage end to wake up the client to start the associated engineering design software by clicking the created drawing by the user.

Preferably, the method further comprises:

the webpage end is provided with drawing buttons for engineering monomers under each project;

If the user creates a drawing under the project, the webpage end correlates the newly created drawing ID with the corresponding project ID;

if the user creates a drawing under the engineering monomer, the webpage end establishes an association relation between the newly created drawing ID and the corresponding project ID and the engineering monomer ID, and generates a current drawing editing unique identifier according to the current drawing ID, the current login user ID and the mechanism ID to which the current user belongs;

when the webpage end wakes up the client end to start the associated engineering design software, the association relation, the drawing editing unique identifier, the drawing ID, the drawing name and the drawing downloading link are transmitted to the client end;

the client calls a verification interface to verify whether the unique drawing editing identifier is valid or not, and the verification interface returns a drawing ID corresponding to the unique drawing editing identifier when judging that the unique drawing editing identifier is valid;

the client compares the drawing ID transmitted by the webpage end with the drawing ID returned by the verification interface, if the two are consistent, the next step is executed, otherwise, the process is ended;

the client judges whether the information display plug-in is updated or not, if yes, the plug-in is updated (taking engineering design SOFTWARE as an example of AutoCAD, the updated plug-in name is added into a registry, namely HKEY_LOCAL_MACHINE\SOFTWARE\Autodesk\AutoCAD\R19.1\ACAD-D001:804\applications (taking AutoCAD2014 as an example), meanwhile, the plug-in path is added under a trust path TRUSTEDPATHS of the AutoCAD, and the updated information display plug-in is automatically loaded according to registry setting after the AutoCAD is opened;

The client judges whether a drawing file exists locally or not, if not, downloads the drawing file stored in the cloud through the drawing download link, and if the drawing file is a newly built drawing, downloads a blank drawing file from the server;

when the client starts the associated engineering design software, a drawing file path is transmitted, and the engineering design software directly opens the drawing file under the drawing file path.

Preferably, the information display plug-in step S24 receives the preamble information transmitted by the client, and displays the preamble information on a design interface of the current engineering design software, including:

the information display plug-in reads the unique identification of the current drawing edit transmitted by the webpage end, calls a basic information inquiry interface and acquires the front information of the drawing file opened in the current engineering design software;

the client calls a verification interface to verify whether the unique drawing editing identifier is valid or not, and when judging that the unique drawing editing identifier is valid, acquires a drawing ID corresponding to the current unique drawing editing identifier;

the client acquires a corresponding item ID through the drawing ID, and returns the pre-information under the item ID to the information display plug-in; or the client acquires the corresponding project ID and the engineering monomer ID through the drawing ID, and returns the pre-information under the engineering monomer ID to the information display plug-in;

And the information display plug-in dragably displays the pre-information at a preset position of the engineering design software in a preset display mode.

Preferably, the information display plug-in step S24 displays intelligent information of the target object selected by the user, including:

detecting triggering operation of a user on a target object in a current drawing file, and displaying intelligent information of the target object in a preset information display mode when detecting preset triggering operation;

the preset triggering operation at least comprises the following steps: hovering, clicking, selecting, defocusing, and creating and changing target objects of the mouse.

It can be understood that, according to the technical scheme provided by the embodiment, after a single component graph is newly modified or one or more component graphs are selected (through hovering, frame selection, clicking or shortcut key), the specification clauses related to the component graph can be checked in real time, so that the method is simple and quick, the workload caused by manually searching the specification clause information by a designer is saved, the problem of frequent quality accidents caused by incomplete searching, inaccurate searching and the like caused by manually searching the specification clause information by the designer is solved, and the design research and development efficiency is greatly improved.

Specifically, the displaying the intelligent information of the target object in a preset information display mode includes:

the client calls a verification interface to verify whether the unique identifier of the current drawing edit is valid or not, and obtains the drawing ID corresponding to the unique identifier of the current drawing edit when the verification interface judges that the unique identifier of the current drawing edit is valid;

the client acquires pre-information according to the drawing ID, wherein the pre-information at least comprises: newly creating basic attribute data under the item or newly adding basic attribute data under the monomer;

and the information display plug-in retrieves all intelligent information of the target object from a database according to the attribute information of the target object, performs secondary screening on the intelligent information according to the basic attribute data, and sequences and displays the intelligent information subjected to secondary screening in engineering design software.

For example, assuming that a target object is a door, 100 pieces of all specification term information related to the target object are queried from a pre-stored building specification database, taking a building design as an example. Because the building type displayed in the basic attribute data is kindergarten, and the door of the current target object is positioned at the attic of the building, the 100 pieces of data can be screened for the second time through the kindergarten and the attic in the basic attribute data, and finally only 3 pieces of specification clause information conforming to project information are displayed in engineering design software.

Therefore, according to the technical scheme provided by the embodiment, only the normative term information which meets the design requirement of the current single building and is related to the target object under the current project is displayed, and no redundant information exists, so that the reference of a designer is greatly facilitated, and the reference can be used as a very reliable reference basis when the designer designs.

Preferably, the method further comprises:

analyzing the intelligent information text according to preset rules and splitting the intelligent information text into a plurality of pieces of sub data;

and associating the split sub data with the corresponding intelligent information original text ID, so that when a user clicks any sub data, the information display plug-in unit queries a standard original text interface through the intelligent information original text ID, reads the intelligent information original text and displays the intelligent information original text in the engineering design software.

Taking the building design as an example, the concrete steps are as follows:

analyzing and splitting the original text of the building design specification into a plurality of rules Fan Tiaokuan according to preset rules;

each split specification term corresponds to the original document ID of the building design specification where the specification term is located, so that when a user clicks any specification term, the information display plug-in queries the original document interface through the original document ID of the building design specification, reads the original document of the building design specification and displays the original document in the engineering design software.

Preferably, the method further comprises:

extracting keywords in each piece of split sub data, and establishing a mapping table between the keywords and attribute information of the target object;

the information display plug-in retrieves all intelligent information of the target object from a database according to the attribute information of the target object, specifically:

mapping the attribute information of the target object to corresponding keywords from the mapping table;

and searching all intelligent information of the target object according to the keywords.

Taking the building design as an example, the concrete steps are as follows:

extracting keywords in each split specification term, and establishing a mapping table between the keywords and the attribute information of the target object;

the information display plug-in queries all specification clause information related to the target object from a pre-stored building specification database according to the attribute information of the target object, specifically:

mapping to corresponding keywords according to the attribute information of the target object;

and searching all specification clause information related to the target object according to the keywords.

Preferably, the pre-information is displayed on the left side of the current drawing file in a drag frame (e.g., in the form of a palette component in the engineering software CAD);

The intelligent information of the object is displayed in a drag frame (e.g., a palette frame may be dragged to any location of the design software by a user) in the current design software interface;

the intelligent information text is displayed in a Form frame which is popped up;

the display mode of the information at least comprises the following steps: pop-up boxes, prompts, forms.

The user can follow-up display the intelligent information in a mode including clicking, leaning, selecting by frames and the like.

It should be noted that the above information display method and method are only examples, any scheme of displaying intelligent information (no matter what way is adopted) by adopting the technical scheme of the embodiment is within the protection scope of the embodiment,

in order to facilitate understanding of the information display plug-in mentioned in this embodiment, a building design will be taken as an example, and when implementing information intelligent display, the implementation of information interaction with autopad will be originally explained as follows:

1. adding object selection reactors in AutoCad when initializing plug-ins

(Autodesk. AutoCAD. Application services. Application. Document manager. Mdiactiveivedocument. Immunication selected Changed), database save reactor

(Autodesk. AutoCAD. Application services. Application. Document manager, mdiactiveivedocument. Database object), database modification reactor

(Autodesk. AutoCAD. Application services. Application. Document manager. Mdiactiveivedocument. Database. Object modified) to achieve the purpose of timely querying specifications.

2. When a user adds a graph in the AutoCAD, a database storage reactor is triggered to obtain an object (DBObject) stored in the current database, attribute information (such as a name, a type and the like) of acadObject, mtext, DBText, blockReference and the like is obtained through the DBObject, and the specification list data is taken and displayed on a Patterset box together with the name of the added graph through an attribute information query specification list interface. The specification list data includes one or more pieces of specification term information.

3. When the user modifies the graph in the AutoCAD, a database modification reactor is triggered to obtain an object (DBObject) stored in the current database, attribute information (such as name, type and the like) of acadObject, mtext, DBText, blockReference and the like is obtained through the DBObject, and the specification list data is taken and displayed on a Patterset box together with the name of the modified graph through an attribute information query specification list interface.

4. When the user selects or clicks the graph in the AutoCAD frame, an object selection reactor is triggered to obtain the ObjectId array of the current selected object, attribute information (such as names, types and the like) of acadObject, mtext, DBText, blockReference and the like is obtained through the ObjectId array, and the specification list data is taken and displayed on the PaletteNet frame together with the names of the selected or clicked graph through the attribute information query specification list interface.

5. When a user clicks a certain piece of data in the standard list, the standard original text interface is queried through the standard original text ID, and the standard original text data is taken and displayed in a pop-up Form frame.

Taking engineering design software CAD as an example, the technical effects of the technical solution provided in this embodiment may be shown in fig. 4a to 4c, where the information of the specification clause information is displayed in real time when the user frames the kitchen. Fig. 4A is only a partial screenshot of a CAD design software interface, fig. 4B and 4C are corresponding partial enlarged views, and fig. 4D is a complete representation of specification clause information, as required by display space and display resolution.

It can be understood that, by invoking the information display plug-in preloaded in engineering design software, the technical scheme provided by the embodiment displays the front information related to the current drawing file and the intelligent information related to the target object, so that the system can automatically display the related intelligent information along with the design action in the process of designing the drawing file, thereby realizing information follow-up display, reminding the user of related design specifications at any time, saving the workload caused by manually searching the intelligent information by the designer, further solving the problem of frequent quality accidents caused by insufficient searching, inaccurate searching and the like caused by manually searching the intelligent information by the designer, greatly improving the design research and development efficiency, and having positive economic and social benefits for automatic design and subsequent automatic production of manufacturing industry, building industry and engineering industry.

Example III

FIG. 5 is a flowchart illustrating a smart aesthetic method based on engineering software, as shown in FIG. 5, according to an exemplary embodiment, the method comprising:

step S31, acquiring the prepositive information of the current drawing file, wherein the prepositive information is generated according to the engineering design prepositive information generating method;

step S32, summarizing drawing data in the current drawing file;

and step S33, comparing the difference between the pre-information and the drawing data, and informing a user of specific data difference conditions when the data difference exists between the pre-information and the drawing data so as to remind the user of modification.

It can be appreciated that, the technical scheme provided by this embodiment helps the designer to check the place where the deviation appears in the drawing process by drawing and checking, and reminds the designer to correct the error in time.

Referring to fig. 6, taking engineering design software as a CAD as an example, when a user uses the technical solution provided in this embodiment, the operation steps include:

A user logs in a webpage end and enters a project list;

if the project exists, the user directly checks project information and an engineering monomer information list under the project; if the project is not the existing project, the user creates the project, and after adding project basic information (namely the pre-information in the embodiment), the project information and the project monomer information list under the project are checked;

if the user wants to view the project drawing, clicking a CAD drawing button under the project or the engineering monomer (the project can be provided with the engineering monomer or the engineering monomer can be provided with the engineering monomer), and displaying a CAD drawing list at the webpage end (if one project is provided with a plurality of CAD drawings to be displayed in a list form, or one engineering monomer is provided with a plurality of CAD drawings to be displayed in a list form);

if the user wants to check the engineering monomer drawing, if the engineering monomer exists, the user can directly click a CAD drawing button under the corresponding engineering monomer to check, if the engineering monomer does not exist, after the user creates the engineering monomer, basic information (namely the pre-information in the embodiment) of the engineering monomer is added, and then the user clicks the CAD drawing button under the corresponding engineering monomer to check;

if the user clicks the CAD drawing button and then the CAD drawing is available, the user clicks and opens the corresponding CAD drawing according to the viewing requirement, and the webpage end wakes the client to start CAD (the client needs to be installed in advance);

If the user clicks the CAD drawing button and does not have a CAD drawing, the user clicks the new button, the drawing name is input to create a drawing, and the webpage end wakes the client to start CAD (the client needs to be installed in advance);

the client transmits drawing related information to the CAD (an information display plug-in is loaded in advance in the CAD), and the plug-in is installed in advance along with the client);

the client detects updating of the information display plug-in, detects the input parameters and downloads the drawing file;

the client detects CAD software installed locally, and pops up in a list form for a user to select and open when a plurality of versions are executed;

the client brings drawing parameters and opens CAD software;

the CAD software opens the drawing and loads the information display plug-in;

the plug-in exposes a palette window, the exposed information including, but not limited to: project and engineering monomer information corresponding to the current drawing;

in the drawing process of the user, after the component is selected or newly added and modified, the information display plug-in acquires the attribute information of the component;

the information display plug-in calls a server side API to acquire specification information, design best practice, business information and the like of attribute information of the component, which are matched under the current project and engineering monomers;

the information display plug-in stores the drawing file of the uploading user according to the triggering of the user or at regular time;

Detecting drawing content by user triggering or information display plug-in timing triggering;

the information display plug-in acquires user drawing data and calls an API of a server side;

the server side obtains drawing data, project information and engineering monomer information and compares the drawing data with the pre-information;

when the comparison results are different, prompting the corresponding problems of the user in the plug-in;

and the user modifies and stores the drawing and exits the system.

It should be noted that the technical solution provided in this embodiment is only an example, and any modification (including but not limited to modification of engineering design software, adjustment of method steps, modification and replacement of execution sequence) in this embodiment is within the protection scope of this embodiment.

Example IV

An electronic device is shown according to an exemplary embodiment, comprising:

a processor and a memory coupled to the processor;

the memory is used for storing a computer program;

the processor is configured to invoke and execute the computer program in the memory to perform the method described above.

Example five

A non-transitory computer readable storage medium storing computer instructions for causing a computer to perform the above-described method is shown according to an exemplary embodiment.

Further, the technical scheme provided by the embodiment helps the designer to check the place where the deviation appears in the drawing process by means of drawing and checking, and reminds the designer to correct the error in time.

Of course, those skilled in the art will appreciate that implementing all or part of the above-described methods may be implemented by a computer program for instructing relevant hardware (e.g., a processor, a controller, etc.), where the program may be stored in a computer-readable storage medium, and where the program may include the steps of the above-described method embodiments when executed. The storage medium may be a memory, a magnetic disk, an optical disk, or the like.

The above-described embodiments of the present invention do not limit the scope of the present invention. Any other corresponding changes and modifications made in accordance with the technical idea of the present invention shall be included in the scope of the claims of the present invention.

Claims

1. A method for generating engineering design pre-information, comprising:

the webpage end obtains assignment of the user to the pre-information item;

2. The method as recited in claim 1, further comprising:

3. The information display method is realized by calling a client through a webpage end and is characterized by comprising the following steps of:

the method according to claim 1 or 2, wherein the webpage end obtains the pre-information of the newly added engineering design, and displays all projects of the current user and engineering monomer information under the projects in a list form;

4. The method of claim 3, wherein the step of,

and each item on the list and the engineering monomer under each item are provided with a drawing button, and a user selects to check a historical drawing or a newly built drawing by clicking the drawing button, wherein one drawing is associated with one drawing file of the engineering design software.

5. A method according to claim 3, further comprising:

the client judges whether the information display plug-in is updated or not, and if so, the plug-in is updated;

6. A method according to claim 3, wherein the information display plug-in receives the client-transmitted preamble information and displays the preamble information on a design interface of current engineering design software, comprising:

7. A method according to claim 3, wherein the information display plug-in displays intelligent information of the object selected by the user, comprising:

8. The method of claim 7, wherein displaying the intelligent information of the target in a preset information display manner comprises:

9. The method as recited in claim 8, further comprising:

10. The method as recited in claim 9, further comprising:

11. The method according to any one of claims 3 to 10, further comprising:

the front information is displayed on the left side of the current drawing file in a dragging frame mode;

The intelligent information of the target object is displayed in a drag frame in a current design software interface;

12. An information display method loaded on a web page end is characterized by comprising the following steps:

13. A method of mapping comprising:

acquiring the prepositive information of the current drawing file, wherein the prepositive information is generated according to the engineering design prepositive information generating method of claim 1 or 2;

summarizing drawing data in a current drawing file;

14. The method of claim 13, wherein the summarizing drawing data in the current drawing file comprises: