CN110516370A - Prefabricated components deepen drawing creation method, apparatus, computer equipment and medium - Google Patents
Prefabricated components deepen drawing creation method, apparatus, computer equipment and medium Download PDFInfo
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- CN110516370A CN110516370A CN201910808064.7A CN201910808064A CN110516370A CN 110516370 A CN110516370 A CN 110516370A CN 201910808064 A CN201910808064 A CN 201910808064A CN 110516370 A CN110516370 A CN 110516370A
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
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- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
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Abstract
This application involves a kind of prefabricated components in-depth drawing creation method, apparatus, computer equipment and storage mediums.The described method includes: obtaining building structure plane construction drawing, building structure plane construction drawing is split to obtain prefabricated components plan view;Prefabricated components profile information is extracted from prefabricated components plan view;Default prefabricated components substance parameter is obtained, prefabricated components entity information model is generated according to prefabricated components profile information and default prefabricated components substance parameter, and assign prefabricated components number to each prefabricated components entity information model;Drawing management is obtained, each prefabricated components entity information model after number is generated into prefabricated components Deepen Design drawing according to drawing management.Prefabricated components Deepen Design drawing can be improved using this method and draw efficiency.
Description
Technical field
This application involves field of computer technology, more particularly to a kind of prefabricated components in-depth drawing creation method, apparatus,
Computer equipment and medium.
Background technique
The prefabricated prefabricated components of assembled architecture, such as Prefabricated stacking floor, precast beam, precast stair, due to its globality
It is good, the workload of construction site support template is reduced, saves manually and circulation material, high production efficiency, installation speed is fast, have
The advantages that good economy, has a wide range of applications in building field.
However currently, the Deepen Design drawing of most of prefabricated prefabricated components, is manually to pass through two-dimensional graphics
Software on Drawing, due to be it is artificial draw and prefabricated prefabricated components quantity is again more, cause Plot Work amount very big, scheme the time out
It is long, and error is easy in drawing process, it needs to modify repeatedly, be imitated so as to cause the drawing of prefabricated prefabricated components Deepen Design drawing
Rate is very low.
Summary of the invention
Based on this, it is necessary in view of the above technical problems, provide one kind and can be improved prefabricated components Deepen Design drawing and draw
Prefabricated components in-depth drawing creation method, apparatus, computer equipment and the storage medium of efficiency processed.
A kind of prefabricated components in-depth drawing creation method, which comprises
Building structure plane construction drawing is obtained, it is flat to be split to obtain prefabricated components to the building structure plane construction drawing
Face figure;
Prefabricated components profile information is extracted from the prefabricated components plan view;
Default prefabricated components substance parameter is obtained, it is real according to the prefabricated components profile information and the default prefabricated components
Body parameter generates prefabricated components entity information model, and assigns prefabricated components to each prefabricated components entity information model and compile
Number;
Drawing management is obtained, each prefabricated components entity information model after number is generated according to the drawing management
Prefabricated components Deepen Design drawing.
It is described in one of the embodiments, that be split to obtain prefabricated components to the building structure plane construction drawing flat
Face figure, comprising:
Building unit plan view is extracted from the building structure plane construction drawing;
Prefabricated components are obtained by force information and size requirements data;
Prefabricated components, which are calculated, by force information and the size requirements data according to the prefabricated components splits quantity;
It splits quantity according to the prefabricated components building unit plan view is split to obtain prefabricated components plane
Figure.
It is described in one of the embodiments, to assign prefabricated components number to each prefabricated components entity information model,
Include:
Obtain the corresponding prefabricated components plan view of the prefabricated components entity information model;
The building unit information for obtaining the corresponding building unit of the prefabricated components plan view is believed according to the building unit
Cease generation unit code;
Fractionation location information of the prefabricated components plan view relative to the building unit is obtained, according to the fractionation position
Confidence breath generates location code;
Prefabricated components number is generated according to the cell codes and the location code.
It is described in one of the embodiments, that prefabricated components profile information, packet are extracted from the prefabricated components plan view
It includes:
Obtain the plane domain chosen;
Each prefabricated components plan view for including in the plane domain is scanned, each prefabricated components are obtained
The angular coordinate of plan view;
The profile coordinate of each prefabricated components plan view is generated according to the angular coordinate.
It is described according to the prefabricated components profile information and the default prefabricated components entity in one of the embodiments,
Parameter generates prefabricated components entity information model, comprising:
Component absolute altitude parameter, material parameter and built-in fitting parameter are extracted from the default prefabricated components substance parameter;
3D solid letter is generated according to the prefabricated components profile information, the component absolute altitude parameter and the material parameter
Cease model;
Built-in fitting distributing position data are calculated according to the prefabricated components profile information and the built-in fitting parameter;
According to the built-in fitting distributing position data and the built-in fitting parameter, set in the Three-dimension Solid Information model
It sets built-in fitting and obtains prefabricated components entity information model.
Each prefabricated components entity information model by after number is according to the figure in one of the embodiments,
Paper template generation prefabricated components Deepen Design drawing, comprising:
Obtain the module parameter of each drawing module in the drawing management;
Information parameter corresponding with the module parameter is extracted from the prefabricated components entity information model, according to institute
Information parameter generation module data are stated, and prefabricated components Deepen Design drawing is generated according to each module data.
Method in one of the embodiments, further include:
Drawing modification instruction is received, obtains prefabricated components number and corrected parameter from drawing modification instruction;
It searches the prefabricated components and numbers corresponding prefabricated components entity information model, and obtain the prefabricated components entity
The corresponding prefabricated components substance parameter of information model repairs the prefabricated components substance parameter according to the corrected parameter
Change;
According to the modified prefabricated components entity information model of the modified prefabricated components substance parameter generation, and according to
The modified prefabricated components entity information model generates modified prefabricated components Deepen Design drawing;
It searches the prefabricated components and numbers corresponding prefabricated components Deepen Design drawing, the prefabricated components that will be found
Deepen Design drawing replaces with the modified prefabricated components Deepen Design drawing.
A kind of prefabricated components in-depth drawing creation device, described device include:
Module is split to split the building structure plane construction drawing for obtaining building structure plane construction drawing
Obtain prefabricated components plan view;
Profile extraction module, for extracting prefabricated components profile information from the prefabricated components plan view;
Physical model generation module is believed for obtaining default prefabricated components substance parameter according to the prefabricated components profile
Breath and the default prefabricated components substance parameter generate prefabricated components entity information model, and believe each prefabricated components entity
It ceases model and assigns prefabricated components number;
Drawing creation module, for obtaining drawing management, by each prefabricated components entity information model root after number
Prefabricated components Deepen Design drawing is generated according to the drawing management.
A kind of computer equipment, including memory and processor, the memory are stored with computer program, the processing
The step of device realizes the above method when executing the computer program.
A kind of computer readable storage medium, is stored thereon with computer program, and the computer program is held by processor
The step of above method is realized when row.
Above-mentioned prefabricated components in-depth drawing creation method, apparatus, computer equipment and storage medium, to the building knot of acquisition
Structure plane construction drawing carries out automatic split and obtains the plan view of prefabricated components, and the profile information of prefabricated components is extracted in identification, according to
The entity information model of profile information and the substance parameter of building building prefabricated components, is automatically converted to three for two-dimensional plan view
The physical model of dimension, entity information model can intuitively react the profile information and architectural entity information of prefabricated components, and right
After each prefabricated components entity information model is numbered, prefabricated components entity new model is converted to according to drawing management and is used to apply
The building Deepen Design figure of work improves prefabricated components in-depth and sets to realize from design drawing to the automatic conversion of Deepen Design figure
It counts drawing and draws efficiency, and entity information model is associated by prefabricated components number with Deepen Design drawing, can facilitate
Carry out the associated modification of prefabricated components parameter information and drawing.
Detailed description of the invention
Fig. 1 is the application scenario diagram that prefabricated components deepen drawing creation method in one embodiment;
Fig. 2 is the flow diagram that prefabricated components deepen drawing creation method in one embodiment;
Fig. 3 is the prefabricated components plan view in one embodiment after Prefabricated stacking floor fractionation;
Fig. 4 is that prefabricated components plan view selects schematic diagram in one embodiment;
Fig. 5 is the flow diagram of drawing amendment step in one embodiment;
Fig. 6 is the structural block diagram that prefabricated components deepen drawing creation device in one embodiment;
Fig. 7 is the internal structure chart of computer equipment in one embodiment.
Specific embodiment
It is with reference to the accompanying drawings and embodiments, right in order to which the objects, technical solutions and advantages of the application are more clearly understood
The application is further elaborated.It should be appreciated that specific embodiment described herein is only used to explain the application, not
For limiting the application.
Prefabricated components provided by the present application deepen drawing creation method, can be applied in application environment as shown in Figure 1.
Wherein, terminal 102 is communicated by network with demand client 104.Demand client 104 sends pending to terminal 102
The building structure plane construction drawing that prefabricated components drawing is drawn, after terminal 102 receives building structure plane construction drawing, to building
Structural plan construction drawing is split to obtain prefabricated components plan view;Prefabricated components profile letter is extracted from prefabricated components plan view
Breath;Default prefabricated components substance parameter is obtained, is generated according to prefabricated components profile information and default prefabricated components substance parameter pre-
Component entity information model processed, and prefabricated components number is assigned to each prefabricated components entity information model;Drawing management is obtained, it will
Each prefabricated components entity information model after number generates prefabricated components Deepen Design drawing according to drawing management, and terminal 102 will
The building Deepen Design drawing of generation returns to demand client 104.
Wherein, terminal 102 and demand client 104 can be, but not limited to be various personal computers, laptop, intelligence
It can mobile phone, tablet computer and portable wearable device.
In one embodiment, as shown in Fig. 2, providing a kind of prefabricated components in-depth drawing creation method, in this way
Applied to being illustrated for the terminal 102 in Fig. 1, comprising the following steps:
Step 210, building structure plane construction drawing is obtained, building structure plane construction drawing is split to obtain prefabricated structure
Part plan view.
Demand client will can need to carry out the building structure plane construction drawing hair of the building of prefabricated components drawing drafting
Terminal is given, terminal obtains building structure plane construction drawing.Building structure plane construction drawing is architect according to building
Topology requirement, the integrally-built floor plan design of drafting.For example, when the prefabricated components for needing to draw are Prefabricated stacking floor
When, building structure plane construction drawing can be the floor plan design of self-contained floor, when the prefabricated components for needing to draw are prefabricated building
When terraced, building structure plane construction drawing can be the floor plan design of stair whole in building.
Terminal obtains prefabricated components construction information, and prefabricated components construction information can be by party in request's input terminal, can also be with
It is obtained from demand client, terminal extracts the unit size of each building unit from building structure plane construction drawing, according to pre-
Component construction information processed and unit size calculate prefabricated components and split quantity, apply further according to quantity is split to building structure plane
Overall structure in work figure is split, the prefabricated components plan view of each prefabricated components after being split.
Wherein, building unit is the minimum unit before prefabricated components are split, such as the floor of first floor.Prefabricated components construction
Information may include prefabricated components material by force information, prefabricated components transport or lift etc. during permitted maximum
Size.Terminal identifies the cellar area equidimension information of each building unit from building structure plane construction drawing, according to unit
Parameters COMPREHENSIVE CALCULATING in size and building construction information goes out prefabricated components and splits quantity.Number is split further according to prefabricated components
Amount and the shape of building unit etc. are rationally split.
Step 220, prefabricated components profile information is extracted from prefabricated components plan view.
Terminal extracts each profile information for splitting prefabricated components from each prefabricated components plan view after fractionation.Prefabricated structure
Part plan view is the two-dimensional section figure of prefabricated components, and the prefabricated components profile information that terminal extracts is prefabricated components section side
The coordinate information of edge is able to reflect relative position of the prefabricated components in whole design figure.
Step 230, default prefabricated components substance parameter is obtained, it is real according to prefabricated components profile information and default prefabricated components
Body parameter generates prefabricated components entity information model, and assigns prefabricated components number to each prefabricated components entity information model.
Default prefabricated components substance parameter can also be sent to end by demand client by party in request's input terminal
End, terminal obtain default prefabricated components substance parameter.Default prefabricated components substance parameter may include the material ginseng of prefabricated components
Number, such as material category, color that prefabricated components use can also include component absolute altitude parameter, the prefabricated components of prefabricated components
Interior built-in fitting parameter etc., wherein when prefabricated components are laminated floor slab, built-in fitting can be the floor bar etc. in floor.
Terminal respectively by the prefabricated components profile information of default prefabricated components substance parameter and each prefabricated components plan view into
Row operation is created that the prefabricated components entity information model of each prefabricated components after splitting in batches.Prefabricated components entity information model
It can also be according to pre- other than the three-dimensional size information that can characterize prefabricated components for the three-dimensional stereo model of prefabricated components
The material information of component processed be model different texture colors is set, according to the built-in fitting parameter of prefabricated components in three-dimensional model
Characterize built-in fitting information etc..Prefabricated components entity information model can be the models such as building BIM model.
Terminal carries out prefabricated components number to the building entity information model of all prefabricated components of Mass production, and terminal obtains
Take preset numbers regular, and go out the encoding Factor information of prefabricated components after each fractionation according to preset numbers Rule Extraction, coding because
Sub-information can be the relative position information of the location information, prefabricated components of building unit described in prefabricated components in building unit
Deng obtaining each prefabricated components building number according to preset numbers rule and encoding Factor information, and prefabricated components are numbered and are assigned
Prefabricated components number is associated storage with prefabricated components entity information model by corresponding prefabricated components entity information model.
Step 240, drawing management is obtained, each prefabricated components entity information model after number is generated according to drawing management
Prefabricated components Deepen Design drawing.
Drawing management is the drawing management of preset prefabricated components Deepen Design drawing, may include in drawing management
Multiple prefabricated components information modules, such as prefabricated components sectional view, prefabricated components calculation amount statistical module, prefabricated components built-in fitting detail
Module etc., each calculative achievement data of module and structure chart difference, terminal acquisition modules needs obtain prefabricated
Component parameter, then parameter value corresponding with prefabricated components parameter is extracted from prefabricated components entity information model, it is calculated each
The module index or structure chart of module, then calculated all data input drawing managements are generated into prefabricated components Deepen Design figure
Paper, and assign prefabricated components Deepen Design drawing and the consistent prefabricated components number of prefabricated components entity information model.
In above-mentioned prefabricated components in-depth drawing creation method, the building structure plane construction drawing of acquisition is split automatically
The plan view of prefabricated components is obtained, the profile information of prefabricated components is extracted in identification, according to the substance parameter of profile information and building
Two-dimensional plan view is automatically converted to three-dimensional physical model, entity information mould by the entity information model for constructing prefabricated components
Type can intuitively react the profile information and architectural entity information of prefabricated components, and to each prefabricated components entity information model into
After row number, prefabricated components entity new model is converted to the building Deepen Design figure for being used for constructing according to drawing management, thus
It realizes from design drawing to the automatic conversion of Deepen Design figure, improves prefabricated components Deepen Design drawing and draw efficiency, and by entity
Information model is associated by prefabricated components number with Deepen Design drawing, can facilitate and carry out prefabricated components parameter information and figure
The associated modification of paper.
In one embodiment, the building structure plane construction drawing is split to obtain the step of prefabricated components plan view
It suddenly may include: to extract building unit plan view from the building structure plane construction drawing;Obtain prefabricated components stress letter
Breath and size requirements data;Prefabricated components are calculated by force information and the size requirements data according to the prefabricated components to split
Quantity;It splits quantity according to the prefabricated components building unit plan view is split to obtain prefabricated components plan view.
Terminal extracts building unit plan view from building structure plane construction drawing, in each building unit plan view
Building unit is the minimum unit before prefabricated components are split;The quantity for the building unit plan view that terminal extracts can be more
It is a.For example, prefabricated components are Prefabricated stacking floor, building unit is the floor of each floor, then terminal is applied from building structure plane
The floor level figure of each floor is extracted in work figure.
Terminal obtains prefabricated components by force information and size requirements data, and prefabricated components are prefabricated components structure by force information
Stress performance data, size requirements data are prefabricated components in the permitted maximum ruler of the links such as production, transport, construction
Very little or weight data.By the size requirements data of each link, the cross-sectional area for being converted into prefabricated components structure is allowed terminal
Full-size, for example, if size requirements data be weight demand data, according to the height of prefabricated components structure, density etc.
Weight requirements data are converted to cross section demand data by data, and terminal is mentioned from the cross section demand data after multiple conversions again
Minimum value therein is taken out, minimum value includes the minimum value in cross-sectional area all directions, if building unit cross section is rule
Rectangle, then extract the minimum value on rectangle length direction and rectangle width direction respectively.
Terminal obtains the cross sectional dimensions data of the building unit in each building unit plan view, obtains building unit each side
Upward size calculates initial stroke in all directions according to the cross sectional dimensions data of building unit and cross section demand data
Dosis refracta.After terminal is split building unit according to initial division quantity, the stress of prefabricated components structure after verifying segmentation
Whether performance can satisfy performance requirement;When can satisfy, then according to initial division quantity to all directions of building unit into
Row segmentation;If not being able to satisfy performance requirement, initial segmentation size can gradually be adjusted according to pre-set dimension step-length, then
Stress performance verifying is carried out, until stress performance can satisfy demand.Terminal is according to the division size finally adjusted to building
It builds cell floor plan to be split, the prefabricated components plan view after being split.
Referring to Fig. 3, Fig. 3 is the prefabricated components plan view after Prefabricated stacking floor is split, the integration building for being before Fig. 3 fractionation
Plate is one irregular trapezoidal, is torn open according to floor by the calculated prefabricated components of size requirements of force information and Prefabricated stacking floor
Dosis refracta be 12, the building plan view that 12 pieces are divided into floor, and is finally obtained according to the features of shape of floor itself it
Between be separated from each other independence.
In one embodiment, the step of assigning prefabricated components number to each prefabricated components entity information model can wrap
It includes: obtaining the corresponding prefabricated components plan view of prefabricated components entity information model;Obtain the corresponding building of prefabricated components plan view
The building unit information of unit, according to building unit information generating unit code;Prefabricated components plan view is obtained relative to building
The fractionation location information of unit generates location code according to location information is split;It is generated according to cell codes and location code pre-
Component number processed.
It is corresponding to obtain each prefabricated components entity information model after generating prefabricated components entity information model for terminal
The building unit information of building unit belonging to prefabricated components plan view and prefabricated components plan view, building unit information can be with
The location information for being building unit in monolithic architecture, terminal obtains default cell encoding rule again, according to building unit information
With default cell encoding rule generating unit code.For example, the belonging second layer floor built of a certain member planar figure, second
Position of the floor plate in monolithic architecture is the second layer height, is 02F-YZB- according to the cell encoding that pre-arranged code rule obtains
1,02F represents number of plies information, and YZB represents Prefabricated stacking floor, and 1 is component name.In other embodiments, other can also be used
Coding rule.
Terminal obtains fractionation location information of the prefabricated components plan view in the building unit, splits location information and is
Split arrangement position of the prefabricated components in building unit, the default positioning coding rule of acquisition, according to fractionation location information and in advance
It sets position coding rule and generates location code.Such as please continue to refer to Fig. 3, the fractionation prefabricated components of the second row secondary series is torn open in figure
Divide location information that can be expressed as (2,2) with the form of array element, according to the positioning generation after default positioning coding rule conversion
Code is ARRAY0202, wherein ARRAY indicates that information representation form is array, and 0202 indicates the value in array.In other realities
It applies in example, other coding rules can also be used.
Terminal assembles cell codes and location code according to preset code arrangement sequence, generates prefabricated components and compiles
Number.For example, the fractionation prefabricated components number of the second row secondary series is H0002ARRAY0202 in the example above.
In one embodiment, the step of prefabricated components profile information is extracted in prefabricated components plan view may include: to obtain
Take the plane domain chosen;Each prefabricated components plan view for including in plane domain is scanned, it is flat to obtain each prefabricated components
The angular coordinate of face figure;The profile coordinate of each prefabricated components plan view is generated according to angular coordinate.
Prefabricated components plan view can be shown by terminal after fractionation obtains prefabricated components plan view, and user can be with
Selection operation is carried out to the prefabricated components plan view of displaying, single prefabricated components plan view can be such as clicked and choose, and can be simultaneously
Multiple prefabricated components plan views are chosen, multiple prefabricated components plan views form the plane domain chosen.Terminal can also be to displaying
Multiple prefabricated components plan views carry out frame choosing, check boxes choosing prefabricated components plan view.As shown in figure 4, for an embodiment
Prefabricated components plan view selects schematic diagram, and subscriber frame has selected all prefabricated components plan views of the second row, then frame selects in frame as choosing
The plane domain selected.
After terminal detects user's confirmation operation, terminal obtains the plane domain chosen, to including in plane domain
Multiple prefabricated components plan views are scanned one by one, identify the angle point of each prefabricated components plan view, and obtain the angle of each angle point
Point coordinate.Terminal calculates the contour line for generating prefabricated components according to each angular coordinate automatically, obtains the profile coordinate of contour line, takes turns
Wide coordinate can only record the coordinate of angle point, also can recorde the coordinate of whole contour line.Terminal can be according to each prefabricated components
In the position for the plane domain chosen, the profile coordinate of each prefabricated components plan view is stored in the form of array.
In the present embodiment, user can be to needing the building for carrying out drawing drafting to select, and terminal can basis
Frame favored area batch obtains the profile coordinate of multiple prefabricated components.
In one embodiment, prefabricated components are generated according to prefabricated components profile information and default prefabricated components substance parameter
The step of entity information model may include: that component absolute altitude parameter, material ginseng are extracted from default prefabricated components substance parameter
Several and built-in fitting parameter;Three-dimension Solid Information mould is generated according to prefabricated components profile information, component absolute altitude parameter and material parameter
Type;Built-in fitting distributing position data are calculated according to prefabricated components profile information and built-in fitting parameter;It is distributed according to built-in fitting
Position data and built-in fitting parameter are arranged built-in fitting in Three-dimension Solid Information model and obtain prefabricated components entity information model.
Terminal extracts the component absolute altitude parameter of prefabricated components from default prefabricated components substance parameter, material parameter and pre-
Embedded part parameter, terminal calculate the three-dimensional dimension number of prefabricated components according to the component absolute altitude parameter and profile information of prefabricated components
According to, three-dimensional stereo model is generated according to three-dimensional dimension data, it such as can be by above-mentioned parameter input 3 d modeling software or modeling
The three-dimensional stereo model of prefabricated components is obtained in operational model.Material parameter can be the construction material that prefabricated components use, material
Expect the parameters such as color, terminal can search with the matched textured pattern of material parameter and color, and textured pattern and color are assigned
Three-dimensional stereo model is given, so that model can also characterize the material information of prefabricated components.
Built-in fitting parameter may include the ginseng such as unit sizes distribution density, built-in fitting material and shape, size of built-in fitting
Number, terminal calculate the built-in fittings such as arrangement position, region, quantity of the built-in fitting in prefabricated components according to built-in fitting parameter and are distributed
Position data, and the corresponding component model of built-in fitting material is searched, according to built-in fitting distributing position data in three-dimensional stereo model
In corresponding position setting component model obtain prefabricated components entity information model.
In one embodiment, user can input unified default prefabricated components substance parameter to terminal, terminal according to
Change default prefabricated components substance parameter and modeling processing is carried out to all prefabricated components plan views.Generally, each in same building
The parameter request of prefabricated components is almost the same, can be carried out according to unified building substance parameter to multiple prefabricated components plan views
Batch processing can be again to processing when the prefabricated components that the prefabricated components for having respective location are such as located at corner have peculiar demand
Prefabricated components entity information model afterwards is individually adjusted and is corrected.
In one embodiment, each prefabricated components entity information model after number is generated into prefabricated structure according to drawing management
The step of part Deepen Design drawing may include: the module parameter for obtaining each drawing module in drawing management;From prefabricated components reality
Information parameter corresponding with module parameter is extracted in body information model, according to information parameter generation module data, and according to each
Module data generates prefabricated components Deepen Design drawing.
Drawing management is the drawing management of preset prefabricated components Deepen Design drawing, may include in drawing management
Multiple drawing modules, such as prefabricated components sectional view, prefabricated components calculation amount statistical module, prefabricated components built-in fitting detail module,
Each calculative achievement data of module obtains the module parameter that modules need to obtain with structure chart difference, terminal, such as
Prefabricated components section module needs to obtain prefabricated components profile coordinate, and prefabricated components built-in fitting detail module needs to obtain prefabricated
The parameters such as the quantity, size of built-in fitting, material in component.Terminal is extracted from prefabricated components entity information model joins with module
The corresponding information parameter of number, judges whether each module parameter carries out data conversion, if desired data conversion, obtains module parameter
Information parameter is converted to module data according to conversion logic by conversion logic.
For example, the data of module demand are built-in fitting weight, and only built-in fitting size and the material number that can be extracted
According to calculating built-in fitting weight according to the built-in fitting size and material data that extract.For another example, module demand data is prefabricated structure
Part sectional view needs the prefabricated components profile Coordinate generation prefabricated components sectional view according to acquisition.
The module data for each drawing module being calculated is inputted corresponding template module in drawing management by terminal respectively
Reserved blank position at, obtain completely constructing Deepen Design drawing.Prefabricated components Deepen Design drawing is two-dimensional prefabricated
The Deepen Design drawing of component.
In one embodiment, as shown in figure 5, prefabricated components in-depth drawing creation method can also following drawing amendment step
It is rapid:
Step 510, drawing modification instruction is received, obtains prefabricated components number and corrected parameter from drawing modification instruction.
After terminal generates prefabricated components Deepen Design drawing, prefabricated components Deepen Design drawing can be shown, be used
Whether the Deepen Design drawing that family can detecte generation holds water, and the tune that can modify to incorrect Deepen Design drawing
It is whole.User can carry out batch or individually modification to Deepen Design drawing.User can batch or individually needs is chosen to modify
Deepen Design drawing is constructed, and to terminal Introduced Malaria parameter, drawing modification instruction is generated after user's confirmation operation.Terminal is from figure
Prefabricated components number and corrected parameter are read out in paper modification instruction.
Step 520, prefabricated components are searched and numbers corresponding prefabricated components entity information model, and obtain prefabricated components entity
The corresponding prefabricated components substance parameter of information model modifies to prefabricated components substance parameter according to corrected parameter.
Terminal searches prefabricated components and numbers corresponding building entity information model, and searches prefabricated components entity information model
Corresponding original preform component substance parameter, terminal therefrom search prefabricated components substance parameter corresponding with corrected parameter, go forward side by side
Row parameters revision.
Step 530, modified prefabricated components entity information model is generated according to modified prefabricated components substance parameter, and
Modified prefabricated components Deepen Design drawing is generated according to modified prefabricated components entity information model.
Terminal can use the generation method of the prefabricated components entity information model as described in above-described embodiment, to modification
Building substance parameter afterwards carries out data processing, obtains new modified prefabricated components entity new model, and can be according to above-mentioned reality
It applies Deepen Design drawing creation method described in example to handle modified prefabricated components entity information model, be corrected
Building Deepen Design drawing.Specific model treatment method please refers to above-described embodiment, and details are not described herein.
Step 540, prefabricated components are searched and numbers corresponding prefabricated components Deepen Design drawing, the prefabricated components that will be found
Deepen Design drawing replaces with modified prefabricated components Deepen Design drawing.
Modified prefabricated components Deepen Design drawing is shown by terminal, the drawing confirmation instruction waiting for receiving user
Afterwards, terminal searches prefabricated components and numbers corresponding prefabricated components Deepen Design drawing, and it is deep to be replaced with revised building
Change design drawing.
In the present embodiment, user can modify tune according to Deepen Design drawing of the practice of construction demand to generation
It is whole, and makeover process is not necessarily to artificial treatment using the automatic amendment of parametrization, improves drawing modification efficiency and accuracy rate.
It should be understood that although each step in the flow chart of Fig. 2-5 is successively shown according to the instruction of arrow,
These steps are not that the inevitable sequence according to arrow instruction successively executes.Unless expressly stating otherwise herein, these steps
Execution there is no stringent sequences to limit, these steps can execute in other order.Moreover, at least one in Fig. 2-5
Part steps may include that perhaps these sub-steps of multiple stages or stage are not necessarily in synchronization to multiple sub-steps
Completion is executed, but can be executed at different times, the execution sequence in these sub-steps or stage is also not necessarily successively
It carries out, but can be at least part of the sub-step or stage of other steps or other steps in turn or alternately
It executes.
In one embodiment, as shown in fig. 6, providing a kind of prefabricated components in-depth drawing creation device, comprising: split
Module 610, profile extraction module 620, physical model generation module 630 and drawing creation module 640, in which:
Module 610 is split building structure plane construction drawing split for obtaining building structure plane construction drawing
To prefabricated components plan view.
Profile extraction module 620, for extracting prefabricated components profile information from prefabricated components plan view.
Physical model generation module 630, for obtaining default prefabricated components substance parameter, according to prefabricated components profile information
Prefabricated components entity information model is generated with default prefabricated components substance parameter, and each prefabricated components entity information model is assigned
Prefabricated components number.
Drawing creation module 640, for obtaining drawing management, by each prefabricated components entity information model after number according to
Drawing management generates prefabricated components Deepen Design drawing.
In one embodiment, splitting module 610 may include:
Unit extraction unit, for extracting building unit plan view from building structure plane construction drawing.
Information acquisition unit, for obtaining prefabricated components by force information and size requirements data.
Amount calculation unit is split for being calculated prefabricated components by force information and size requirements data according to prefabricated components
Quantity.
Cutting unit is split to obtain prefabricated components for splitting quantity according to prefabricated components to building unit plan view
Plan view.
In one embodiment, physical model generation module 630 may include:
Plan view acquiring unit, for obtaining the corresponding prefabricated components plan view of prefabricated components entity information model.
Cell codes generation unit, for obtaining the building unit information of the corresponding building unit of prefabricated components plan view,
According to building unit information generating unit code.
Location code generation unit, for obtaining fractionation location information of the prefabricated components plan view relative to building unit,
Location code is generated according to location information is split.
Number generation unit, for generating prefabricated components number according to cell codes and location code.
In one embodiment, profile extraction module 620 may include:
Region selected cell, for obtaining the plane domain chosen.
Angle point scanning element obtains each pre- for being scanned to each prefabricated components plan view for including in plane domain
The angular coordinate of member planar figure processed.
Profile acquiring unit, for generating the profile coordinate of each prefabricated components plan view according to angular coordinate.
In one embodiment, physical model generation module 630 may include:
Parameter extraction unit, for preset extracted in prefabricated components substance parameter component absolute altitude parameter, material parameter and
Built-in fitting parameter.
Threedimensional model generation unit, for being generated according to prefabricated components profile information, component absolute altitude parameter and material parameter
Three-dimension Solid Information model.
It is distributed computing unit, for built-in fitting distribution position to be calculated according to prefabricated components profile information and built-in fitting parameter
Set data.
Built-in fitting setting unit is used for according to built-in fitting distributing position data and built-in fitting parameter, in Three-dimension Solid Information
Built-in fitting is set in model and obtains prefabricated components entity information model.
In one embodiment, drawing creation module 640 may include:
Module parameter acquiring unit, for obtaining the module parameter of each drawing module in drawing management.
Drawing creation unit, for extracting information ginseng corresponding with module parameter from prefabricated components entity information model
Number generates prefabricated components Deepen Design drawing according to information parameter generation module data, and according to each module data.
In one embodiment, prefabricated components in-depth drawing creation device can also include:
Command reception module, for receive drawing modification instruction, from drawing modification instruction in obtain prefabricated components number and
Corrected parameter.
Parameter adapting module is numbered corresponding prefabricated components entity information model for searching prefabricated components, and is obtained pre-
The corresponding prefabricated components substance parameter of component entity information model processed, repairs prefabricated components substance parameter according to corrected parameter
Change.
Drawing correction module is believed for generating modified prefabricated components entity according to modified prefabricated components substance parameter
Model is ceased, and modified prefabricated components Deepen Design drawing is generated according to modified prefabricated components entity information model.
Drawing replacement module is numbered corresponding prefabricated components Deepen Design drawing for searching prefabricated components, will be found
Prefabricated components Deepen Design drawing replace with modified prefabricated components Deepen Design drawing.
Specific restriction about prefabricated components in-depth drawing creation device may refer to deepen above for prefabricated components
The restriction of drawing creation method, details are not described herein.Modules in above-mentioned prefabricated components in-depth drawing creation device can be complete
Portion or part are realized by software, hardware and combinations thereof.Above-mentioned each module can be embedded in the form of hardware or independently of calculating
In processor in machine equipment, it can also be stored in a software form in the memory in computer equipment, in order to processor
It calls and executes the corresponding operation of the above modules.
In one embodiment, a kind of computer equipment is provided, which can be server, internal junction
Composition can be as shown in Figure 7.The computer equipment include by system bus connect processor, memory, network interface and
Database.Wherein, the processor of the computer equipment is for providing calculating and control ability.The memory packet of the computer equipment
Include non-volatile memory medium, built-in storage.The non-volatile memory medium is stored with operating system, computer program and data
Library.The built-in storage provides environment for the operation of operating system and computer program in non-volatile memory medium.The calculating
The database of machine equipment is for storing prefabricated components in-depth drawing creation data.The network interface of the computer equipment be used for it is outer
The terminal in portion passes through network connection communication.To realize a kind of prefabricated components in-depth drawing when the computer program is executed by processor
Generation method.
In one embodiment, a kind of computer equipment is provided, which can be terminal, internal structure
Figure can be as shown in Figure 7.The computer equipment includes processor, the memory, network interface, display connected by system bus
Screen and input unit.Wherein, the processor of the computer equipment is for providing calculating and control ability.The computer equipment is deposited
Reservoir includes non-volatile memory medium, built-in storage.The non-volatile memory medium is stored with operating system and computer journey
Sequence.The built-in storage provides environment for the operation of operating system and computer program in non-volatile memory medium.The calculating
The network interface of machine equipment is used to communicate with external terminal by network connection.When the computer program is executed by processor with
Realize a kind of prefabricated components in-depth drawing creation method.The display screen of the computer equipment can be liquid crystal display or electronics
Ink display screen, the input unit of the computer equipment can be the touch layer covered on display screen, are also possible to computer and set
Key, trace ball or the Trackpad being arranged on standby shell, can also be external keyboard, Trackpad or mouse etc..
It will be understood by those skilled in the art that structure shown in Fig. 7, only part relevant to application scheme is tied
The block diagram of structure does not constitute the restriction for the computer equipment being applied thereon to application scheme, specific computer equipment
It may include perhaps combining certain components or with different component layouts than more or fewer components as shown in the figure.
In one embodiment, a kind of computer equipment, including memory and processor are provided, which is stored with
Computer program, which performs the steps of when executing computer program obtains building structure plane construction drawing, to building
Structural plan construction drawing is split to obtain prefabricated components plan view;Prefabricated components profile letter is extracted from prefabricated components plan view
Breath;Default prefabricated components substance parameter is obtained, is generated according to prefabricated components profile information and default prefabricated components substance parameter pre-
Component entity information model processed, and prefabricated components number is assigned to each prefabricated components entity information model;Drawing management is obtained, it will
Each prefabricated components entity information model after number generates prefabricated components Deepen Design drawing according to drawing management.
In one embodiment, it is realized when processor executes computer program and building structure plane construction drawing is split
It when obtaining the step of prefabricated components plan view, is also used to: extracting building unit plan view from building structure plane construction drawing;
Prefabricated components are obtained by force information and size requirements data;It is calculated in advance according to prefabricated components by force information and size requirements data
Component processed splits quantity;Quantity is split according to prefabricated components building unit plan view is split to obtain prefabricated components plane
Figure.
In one embodiment, it is realized when processor executes computer program and each prefabricated components entity information model is assigned
It when the step of prefabricated components number, is also used to: obtaining the corresponding prefabricated components plan view of prefabricated components entity information model;It obtains
The building unit information of the corresponding building unit of prefabricated components plan view, according to building unit information generating unit code;It obtains
Fractionation location information of the prefabricated components plan view relative to building unit generates location code according to location information is split;According to
Cell codes and location code generate prefabricated components number.
In one embodiment, it is realized when processor executes computer program and extracts prefabricated structure from prefabricated components plan view
It when the step of part profile information, is also used to: obtaining the plane domain chosen;To each prefabricated components plane for including in plane domain
Figure is scanned, and obtains the angular coordinate of each prefabricated components plan view;Each prefabricated components plan view is generated according to angular coordinate
Profile coordinate.
In one embodiment, it is realized when processor executes computer program according to prefabricated components profile information and is preset pre-
When component substance parameter processed generates the step of prefabricated components entity information model, it is also used to: from default prefabricated components substance parameter
In extract component absolute altitude parameter, material parameter and built-in fitting parameter;According to prefabricated components profile information, component absolute altitude parameter and
Material parameter generates Three-dimension Solid Information model;Built-in fitting point is calculated according to prefabricated components profile information and built-in fitting parameter
Cloth position data;According to built-in fitting distributing position data and built-in fitting parameter, built-in fitting is set in Three-dimension Solid Information model
Obtain prefabricated components entity information model.
In one embodiment, it realizes when processor executes computer program by each prefabricated components entity information after number
It when model generates the step of prefabricated components Deepen Design drawing according to drawing management, is also used to: obtaining each drawing in drawing management
The module parameter of module;Information parameter corresponding with module parameter is extracted from prefabricated components entity information model, according to letter
Parameter generation module data are ceased, and prefabricated components Deepen Design drawing is generated according to each module data.
In one embodiment, it is also performed the steps of when processor executes computer program and receives drawing modification instruction,
Prefabricated components number and corrected parameter are obtained from drawing modification instruction;It searches prefabricated components and numbers corresponding prefabricated components entity
Information model, and the corresponding prefabricated components substance parameter of prefabricated components entity information model is obtained, according to corrected parameter to prefabricated
Component substance parameter is modified;Modified prefabricated components entity information mould is generated according to modified prefabricated components substance parameter
Type, and modified prefabricated components Deepen Design drawing is generated according to modified prefabricated components entity information model;Search prefabricated structure
Part numbers corresponding prefabricated components Deepen Design drawing, the prefabricated components Deepen Design drawing found is replaced with modified pre-
Component Deepen Design drawing processed.
In one embodiment, a kind of computer readable storage medium is provided, computer program is stored thereon with, is calculated
Machine program performs the steps of when being executed by processor obtains building structure plane construction drawing, to building structure plane construction drawing
It is split to obtain prefabricated components plan view;Prefabricated components profile information is extracted from prefabricated components plan view;It obtains default pre-
Component substance parameter processed generates prefabricated components entity information according to prefabricated components profile information and default prefabricated components substance parameter
Model, and prefabricated components number is assigned to each prefabricated components entity information model;Drawing management is obtained, it will be each prefabricated after number
Component entity information model generates prefabricated components Deepen Design drawing according to drawing management.
In one embodiment, it is realized when computer program is executed by processor and building structure plane construction drawing is torn open
It when getting the step of prefabricated components plan view, is also used to: extracting building unit plane from building structure plane construction drawing
Figure;Prefabricated components are obtained by force information and size requirements data;According to prefabricated components by force information and size requirements data meter
It calculates prefabricated components and splits quantity;Splitting quantity according to prefabricated components, to be split to obtain prefabricated components to building unit plan view flat
Face figure.
In one embodiment, it is realized when computer program is executed by processor and each prefabricated components entity information model is assigned
It when giving the step of prefabricated components number, is also used to: obtaining the corresponding prefabricated components plan view of prefabricated components entity information model;It obtains
The building unit information for taking the corresponding building unit of prefabricated components plan view, according to building unit information generating unit code;It obtains
Fractionation location information of the prefabricated components plan view relative to building unit is taken, generates location code according to location information is split;Root
Prefabricated components number is generated according to cell codes and location code.
In one embodiment, realization is extracted prefabricated from prefabricated components plan view when computer program is executed by processor
It when the step of component profile information, is also used to: obtaining the plane domain chosen;It is flat to each prefabricated components for including in plane domain
Face figure is scanned, and obtains the angular coordinate of each prefabricated components plan view;Each prefabricated components plane is generated according to angular coordinate
The profile coordinate of figure.
In one embodiment, it is realized when computer program is executed by processor according to prefabricated components profile information and is preset
It when prefabricated components substance parameter generates the step of prefabricated components entity information model, is also used to: joining from default prefabricated components entity
Component absolute altitude parameter, material parameter and built-in fitting parameter are extracted in number;According to prefabricated components profile information, component absolute altitude parameter
Three-dimension Solid Information model is generated with material parameter;Built-in fitting is calculated according to prefabricated components profile information and built-in fitting parameter
Distributing position data;According to built-in fitting distributing position data and built-in fitting parameter, it is arranged in Three-dimension Solid Information model pre-buried
Part obtains prefabricated components entity information model.
In one embodiment, it is realized when computer program is executed by processor and believes each prefabricated components entity after number
When ceasing step of the model according to drawing management generation prefabricated components Deepen Design drawing, it is also used to: obtains and respectively scheme in drawing management
The module parameter of paper matrix block;Information parameter corresponding with module parameter is extracted from prefabricated components entity information model, according to
Information parameter generation module data, and prefabricated components Deepen Design drawing is generated according to each module data.
In one embodiment, it also performs the steps of to receive drawing and modify when computer program is executed by processor and refer to
It enables, obtains prefabricated components number and corrected parameter from drawing modification instruction;It searches prefabricated components and numbers corresponding prefabricated components
Entity information model, and the corresponding prefabricated components substance parameter of prefabricated components entity information model is obtained, according to corrected parameter pair
Prefabricated components substance parameter is modified;Modified prefabricated components entity letter is generated according to modified prefabricated components substance parameter
Model is ceased, and modified prefabricated components Deepen Design drawing is generated according to modified prefabricated components entity information model;It searches pre-
Component processed numbers corresponding prefabricated components Deepen Design drawing, and the prefabricated components Deepen Design drawing found is replaced with amendment
Prefabricated components Deepen Design drawing.
Those of ordinary skill in the art will appreciate that realizing all or part of the process in above-described embodiment method, being can be with
Relevant hardware is instructed to complete by computer program, the computer program can be stored in a non-volatile computer
In read/write memory medium, the computer program is when being executed, it may include such as the process of the embodiment of above-mentioned each method.Wherein,
To any reference of memory, storage, database or other media used in each embodiment provided herein,
Including non-volatile and/or volatile memory.Nonvolatile memory may include read-only memory (ROM), programming ROM
(PROM), electrically programmable ROM (EPROM), electrically erasable ROM (EEPROM) or flash memory.Volatile memory may include
Random access memory (RAM) or external cache.By way of illustration and not limitation, RAM is available in many forms,
Such as static state RAM (SRAM), dynamic ram (DRAM), synchronous dram (SDRAM), double data rate sdram (DDRSDRAM), enhancing
Type SDRAM (ESDRAM), synchronization link (Synchlink) DRAM (SLDRAM), memory bus (Rambus) direct RAM
(RDRAM), direct memory bus dynamic ram (DRDRAM) and memory bus dynamic ram (RDRAM) etc..
Each technical characteristic of above embodiments can be combined arbitrarily, for simplicity of description, not to above-described embodiment
In each technical characteristic it is all possible combination be all described, as long as however, the combination of these technical characteristics be not present lance
Shield all should be considered as described in this specification.
The several embodiments of the application above described embodiment only expresses, the description thereof is more specific and detailed, but simultaneously
It cannot therefore be construed as limiting the scope of the patent.It should be pointed out that coming for those of ordinary skill in the art
It says, without departing from the concept of this application, various modifications and improvements can be made, these belong to the protection of the application
Range.Therefore, the scope of protection shall be subject to the appended claims for the application patent.
Claims (10)
1. a kind of prefabricated components deepen drawing creation method, which comprises
Building structure plane construction drawing is obtained, the building structure plane construction drawing is split to obtain prefabricated components plane
Figure;
Prefabricated components profile information is extracted from the prefabricated components plan view;
Default prefabricated components substance parameter is obtained, is joined according to the prefabricated components profile information and the default prefabricated components entity
Number generates prefabricated components entity information model, and assigns prefabricated components number to each prefabricated components entity information model;
Drawing management is obtained, each prefabricated components entity information model after number is prefabricated according to drawing management generation
Component Deepen Design drawing.
2. the method according to claim 1, wherein described split the building structure plane construction drawing
Obtain prefabricated components plan view, comprising:
Building unit plan view is extracted from the building structure plane construction drawing;
Prefabricated components are obtained by force information and size requirements data;
Prefabricated components, which are calculated, by force information and the size requirements data according to the prefabricated components splits quantity;
It splits quantity according to the prefabricated components building unit plan view is split to obtain prefabricated components plan view.
3. according to the method described in claim 2, it is characterized in that, described assign each prefabricated components entity information model
Prefabricated components number, comprising:
Obtain the corresponding prefabricated components plan view of the prefabricated components entity information model;
The building unit information for obtaining the corresponding building unit of the prefabricated components plan view, it is raw according to the building unit information
At cell codes;
Fractionation location information of the prefabricated components plan view relative to the building unit is obtained, is believed according to the fractionation position
Breath generates location code;
Prefabricated components number is generated according to the cell codes and the location code.
4. the method according to claim 1, wherein described extract prefabricated structure from the prefabricated components plan view
Part profile information, comprising:
Obtain the plane domain chosen;
Each prefabricated components plan view for including in the plane domain is scanned, each prefabricated components plane is obtained
The angular coordinate of figure;
The profile coordinate of each prefabricated components plan view is generated according to the angular coordinate.
5. the method according to claim 1, wherein described according to the prefabricated components profile information and described pre-
If prefabricated components substance parameter generates prefabricated components entity information model, comprising:
Component absolute altitude parameter, material parameter and built-in fitting parameter are extracted from the default prefabricated components substance parameter;
Three-dimension Solid Information mould is generated according to the prefabricated components profile information, the component absolute altitude parameter and the material parameter
Type;
Built-in fitting distributing position data are calculated according to the prefabricated components profile information and the built-in fitting parameter;
According to the built-in fitting distributing position data and the built-in fitting parameter, it is arranged in the Three-dimension Solid Information model pre-
Embedded part obtains prefabricated components entity information model.
6. the method according to claim 1, wherein each prefabricated components entity information by after number
Model generates prefabricated components Deepen Design drawing according to the drawing management, comprising:
Obtain the module parameter of each drawing module in the drawing management;
Information parameter corresponding with the module parameter is extracted from the prefabricated components entity information model, according to the letter
Parameter generation module data are ceased, and prefabricated components Deepen Design drawing is generated according to each module data.
7. the method according to claim 1, wherein the method also includes:
Drawing modification instruction is received, obtains prefabricated components number and corrected parameter from drawing modification instruction;
It searches the prefabricated components and numbers corresponding prefabricated components entity information model, and obtain the prefabricated components entity information
The corresponding prefabricated components substance parameter of model modifies to the prefabricated components substance parameter according to the corrected parameter;
Modified prefabricated components entity information model is generated according to the modified prefabricated components substance parameter, and according to described
Modified prefabricated components entity information model generates modified prefabricated components Deepen Design drawing;
It searches the prefabricated components and numbers corresponding prefabricated components Deepen Design drawing, the prefabricated components found are deepened
Design drawing replaces with the modified prefabricated components Deepen Design drawing.
8. a kind of prefabricated components deepen drawing creation device, which is characterized in that described device includes:
Module is split the building structure plane construction drawing is split to obtain for obtaining building structure plane construction drawing
Prefabricated components plan view;
Profile extraction module, for extracting prefabricated components profile information from the prefabricated components plan view;
Physical model generation module, for obtaining default prefabricated components substance parameter, according to the prefabricated components profile information and
The default prefabricated components substance parameter generates prefabricated components entity information model, and to each prefabricated components entity information mould
Type assigns prefabricated components number;
Drawing creation module, for obtaining drawing management, by each prefabricated components entity information model after number according to institute
It states drawing management and generates prefabricated components Deepen Design drawing.
9. a kind of computer equipment, including memory and processor, the memory are stored with computer program, feature exists
In the step of processor realizes any one of claims 1 to 7 the method when executing the computer program.
10. a kind of computer readable storage medium, is stored thereon with computer program, which is characterized in that the computer program
The step of method described in any one of claims 1 to 7 is realized when being executed by processor.
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