CN113449365B - Assembled building information model design platform - Google Patents

Abstract

The invention discloses an assembled building information model design platform, which comprises a model filtering module: namely, rapidly selecting the components meeting the conditions from the designated component set according to the set filtering conditions; floor definition module: the method comprises the steps of defining an elevation range of a floor and designating floor attributes of components in the elevation range; designating a component floor module: specifying to specify a floor to which the component belongs; floor merging module: setting a merging layer concept, wherein the number of the merging layers is one; and the component connection module is as follows: the connection sequence of the components is adjusted according to the sequence of the column, the beam, the wall and the plate. The invention can realize the cooperation of cooperative design among professions, and provide accurate positioning design for reserved holes and the like required by the professions of water, heating, electric equipment and the like, thereby ensuring the accuracy of an assembled structural model, providing accurate data for the processing and production of prefabricated components, realizing seamless connection of design and production and improving the overall design efficiency of an assembled building.

Description

Assembled building information model design platform

Technical Field

The invention relates to the technical field of building information model design, in particular to an assembled building information model design platform.

Background

Currently, the assembly design on the market has the following problems;

1. the cooperative coordination cannot be well realized;

2. the accuracy of the assembled structural model is poor;

3. the overall design efficiency is low.

Disclosure of Invention

The invention aims to provide an assembled building information model design platform for solving the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: an assembled building information model design platform, comprising:

model filtering module: namely, rapidly selecting the components meeting the conditions from the designated component set according to the set filtering conditions;

floor definition module: the method comprises the steps of defining an elevation range of a floor and designating floor attributes of components in the elevation range;

designating a component floor module: specifying to specify a floor to which the component belongs;

floor merging module: setting a merging layer concept, wherein the number of the merging layers is one;

and the component connection module is as follows: adjusting the connection sequence of the components according to the sequence of the column, the beam, the wall and the plate;

canceling the connection module: canceling the connection relationship between the connected components within the selected range;

and a switching connection module: switching the connection sequence between the connected components in batches within a selected range;

Plate blocking module: dividing a monolithic floor slab into a plurality of floor slabs according to the sealed area formed by the designated boundary members;

plate boundary module: according to the set floor boundary line position option, adjusting the selected floor contour boundary to a specified position;

board support checking and modifying module: checking and modifying the floor support;

wall splitting module: cutting off the wall body at the pick-up point;

wall breaking module: breaking the selected wall at the designated location;

wall merging module: combining the selected walls under corresponding conditions;

and (5) opening a hole module according to the surface: holes perpendicular to selected faces of roof, floor, ceiling can be created;

vertical hole-forming module: a vertical opening through a roof, floor or ceiling may be cut;

wall hole-forming module: rectangular, circular or arched through and non-through holes can be created at designated positions of the selected wall;

batch plate production module: the method is used for batch production of boards;

beam module: creating a beam;

standard column module: creating a standard column;

the wall module is given birth to line: creating a wall body;

arbitrary wall→sandwich insulation exterior wall module: changing a wall body imported by a data center into a sandwich heat-insulating outer wall, changing a wall body which is created by a user and only has a structural layer into a sandwich heat-insulating outer wall, and changing any wall body selected by the user into a sandwich heat-insulating outer wall;

Creating a prefabricated balcony slab module: creating a full prefabricated slab balcony slab;

creating a prefabricated air conditioning panel module: creating a prefabricated air conditioning plate, and selecting whether to synchronously create the reinforcing steel bars and the embedded parts according to actual requirements;

creating a prefabricated stair module: creating prefabricated double-track stairs;

prefabricated component library: collecting, storing and managing prefabricated parts;

and a color setting module: the color, transparency and filling patterns of the designated components and the detached parts are set;

and a display splitting module: setting three states for the part visibility of the current view or all views;

component specifying module: changing the selected component into a part, and endowing the selected component with two parameter attributes of cast-in-situ/prefabrication and component attribute/split type;

cancel specification module: canceling the specification of the component attribute and restoring the original state;

splitting a parameter module; setting splitting parameters;

splitting the module according to layers: according to the set splitting parameters, splitting commands are executed in a mode of selecting floors;

a local splitting module: executing a splitting command in a mode of selecting a local range according to the set splitting parameters;

manual splitting module of board: carrying out parameterization splitting on any single floor slab or floor slab-based parts;

Edge member generation module: generating edge components for the wall bodies in the selected range according to parameter setting;

manual splitting module of pure structure wall: parameterizing and splitting the selected wall;

manual split module of sandwich wall: carrying out parameterized splitting on the selected sandwich heat-insulating wall;

generating a plate chamfering module: chamfering the floor slab or the part based on the floor slab;

deleting plate chamfering module: deleting the chamfer angle of the floor slab or the part based on the floor slab;

wall chamfer/keyway module: generating corner cutting and shear key grooves on a wall body or parts based on the wall body;

deleting the wall corner cut/keyway module: cutting corners/keyways of the wall body or the wall body-based parts;

external wallboard detail construction module: generating a waterproof node detail structure of the wall body or the wall body-based part;

deleting the waterproof node module: deleting the waterproof node detail structure of the wall body or the wall body-based part;

delete Liang Aokou/keyway module: deleting Liang Aokou and key slots;

deleting the column key groove module: deleting the column key groove;

part deletion module: restoring the part and its associated part to an original state;

The similar merging module: when the components are parts, the similar components with consistent attributes are combined;

part decomposition module: restoring the combined parts to the original state before combination;

component numbering module: numbering the split components;

component number description module: the method is used for explaining the component numbers and solving the problem of ambiguity of understanding of the concept of the parts proposed by partial users;

and the invisible operation module is used for: hiding, restoring and displaying the selected target in the current view or the whole project, and isolating;

the unit weight setting module: for setting the bulk weight of the material;

prefabricated/cast-in-situ component statistics module: counting the components based on the part level, and obtaining a calculation table;

the statistical table checking module: inquiring the last statistical result of the item;

and a prefabricated assembly rate calculation module: according to national or various standards, carrying out statistics on the prefabrication assembly rate of a single floor or a whole floor;

a calculation result viewing module: inquiring the last calculation result of the item;

the steel bar color setting module: for setting the display color of the reinforcing steel bar in all views;

the steel bar number setting module: the number of the steel bars in the prefabricated part is set;

sleeve selection library: the sleeve used in the project is set in a shape selecting mode;

Creating a superimposed sheet rebar module: the method comprises the steps of creating steel bars for a single precast slab;

creating a prefabricated wall steel bar module: building reinforcing steel bars for the single prefabricated wall body;

creating an outer leaf/outer wallboard rebar module: building reinforcing steel bars for the single prefabricated wall body;

creating a precast beam reinforcement module: the method comprises the steps of creating a steel bar for a single precast beam;

creating a prefabricated column reinforcement module: creating a reinforcing steel bar for the single prefabricated column;

creating a balcony slab rebar module: the method comprises the steps of creating a reinforcing steel bar for a single balcony slab;

creating an air conditioner plate reinforcement module: the method comprises the steps of creating reinforcing steel bars for a single air conditioner plate;

creating a prefabricated stair reinforcement module: building a steel bar for a single stair;

deleting the steel bar module: selectively deleting the generated steel bars according to the member classification;

reinforcing bar shows hidden module: performing display hiding operation on the steel bars selected according to the member classification and the steel bar type;

a real steel bar module: displaying the real style of the steel bar;

the embedded part arrangement module comprises: setting an embedded part on a target component;

linking cad base graph module: linking cad bottom graph as liner graph;

and the embedded part deleting module is used for: performing batch deletion on target embedded parts in the selected range;

creating a component module: binding the main body component and the reinforcing steel bars, embedded parts or other bundles generated based on the main body into a whole, numbering according to the merging condition, and preparing for subsequent drawing;

Component revealing module: in the current view, the selected target part is displayed/hidden;

component isolation module: in the current view, selecting a target component to perform isolation operation on the target component;

and the component searching module is used for: searching for a target component in the current view or the whole project;

component decomposition module: in the current view, selecting a target component to perform a decomposition operation on the target component;

component deletion module: in the current view, selecting a target component to delete the target component;

component description module: explaining the definition of the components;

the drawing annotation setting module: setting size marks and text patterns and positions in the drawings;

component detail drawing module: generating a standard detail graph for the created part;

floor plan module: generating a plan view of the prefabricated part;

part number revealing module: displaying, hiding and deleting part numbers;

rough surface/die plate surface labeling module: creating rough surface/template surface labels by arbitrary arrangement or automatic identification;

and the assembly direction marking module is as follows: arbitrarily arranging or automatically identifying the creation assembly direction;

detail drawing dimension marking module: positioning the components and positioning the steel bars in the component detailed diagram;

and (3) a reinforcing steel bar marking module: marking a target steel bar number by clicking the target steel bar;

And the embedded part marking module is used for: marking the number of the target embedded part by clicking the target embedded part;

the steel bar table module: generating a reinforcement bar table of the member by one key based on the current view or the selected view;

the embedded part table module: based on the current view or the selected view, a table of embedments for the component is generated with one key.

Preferably, the setting of the three states in the display splitting module includes "display part", "display original state" and "display.

Preferably, the splitting parameter module includes:

board splitting parameter module: setting a plate splitting parameter;

wall splitting parameter setting module: setting wall splitting parameters;

liang Cafen parameter setting module: setting Liang Cafen parameters;

column splitting parameter setting module: and setting column splitting parameters.

Preferably, the revealing operation module comprises a cast-in-situ part revealing module and a prefabricated part revealing module.

Preferably, the component specifying module includes a pre-disassembly component specifying module, a prefabricated component specifying module, and a cast-in-place component specifying module.

Compared with the prior art, the invention has the beneficial effects that:

the invention can realize the cooperation of cooperative design among professions, provide accurate positioning design for reserved holes and the like required by the professions of water, heating, electric equipment and the like, thereby ensuring the accuracy of an assembled structural model, providing accurate data for the processing and production of prefabricated components, realizing the seamless connection of the design and the production, improving the overall design efficiency of the assembled building, and conforming to the advanced design concept advocated by the current BIM design and running through the whole life cycle.

Drawings

FIG. 1 is an interface diagram of a model filtration module of the present invention;

FIG. 2 is an interface diagram of a floor definition module of the present invention;

FIG. 3 is a floor module interface diagram of a designated component of the present invention;

fig. 4 is a floor merging module interface diagram of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without creative efforts, are within the protection scope of the invention.

Referring to fig. 1-4, the present invention provides a technical solution: an assembled building information model design platform, the software operating system: windows 7/8/10 Chinese version; 64 bits;

software running environment: revit 2016, 2018.

3. Operation

The running environment of the software described by the embodiment of the invention is a Revit platform, and after the software is installed, a corresponding shortcut icon is automatically generated on a desktop. Upon activation, the shortcut icon may be double-clicked. After the software is started, a cursor point takes a lower template menu of an item or clicks a pull-down arrow at the left upper corner of a software interface, a new item is taken in an opened application menu, and after the item template referred by the new item is selected, the creation of the new item can be completed.

The upper part of the operation interface is a function area, the top of the function area is a tab, and the lower part is a tool area. Clicking on any one of the tabs causes the tool field to display a tool icon associated with that item.

4. Exit from

Clicking a pull-down button at the left upper corner of the software interface, clicking a [ close ] button in an opened application menu, or directly clicking a close button at the right upper corner of the interface, so that the software can be directly exited. If the save operation has not been performed before the modification by the software, the software will prompt the user whether to save the current modification.

1. Model filter module

Tab: the preprocessing module- & gt model filtering & gt

The functions are as follows: namely, according to the set filtering conditions, rapidly selecting the components meeting the conditions from the designated component set.

After clicking the "model filter" command, the software pops up a dialog box as shown in FIG. 1 below;

[ Selective ] the method comprises: setting a mode of selecting a model member; the parameter values are: by family type and by family parameters.

[ Selective ]: setting a range of selection model members; the parameter values are: the current selection set, the current view and the entire item,

and the link model can be checked according to actual conditions.

[ Filter rules ]: when the component is filtered according to the group parameters, setting a filtering rule comprising filtering parameters, filtering conditions and filtering values;

2. Floor definition module

Tab: the preprocessing module- & gt floor definition & gt

The functions are as follows: this command is used to define the range of elevation to which the floor belongs and to specify attributes such as the floor for the components within the range of elevation.

After clicking the "floor set" command, the software pops up a dialog box as shown in fig. 2 below:

[ re-dividing the floor where the component is located by floor definition ]: and re-dividing the floors where the components are located according to the current floor definition and the built-in rules of the system.

3. Designated component floor module

Tab: the pretreatment module- & gt designates the component floor & gt

The functions are as follows: to specify the floor to which the component belongs.

After clicking the "designate component floor" command, the software pops up a dialog box as shown in FIG. 3 below;

[ Single layer three-dimensional ]: the floor is set, and the whole floor can be selected, or a certain floor can be selected.

[ Member shows ]: a member to be displayed is provided.

[ floor designation ]: designating a floor of the selected component;

4. floor merging module

Tab: pretreatment module →

The functions are as follows: the concept of the merging layer is set, so that the number of the merging layers is one, the subsequent unified processing is convenient, and the operation is simplified.

After clicking the "floor merge" command, the software pops up a dialog box as shown in fig. 4 below:

[ production ]: for selecting floors that need to be merged.

[ structural layer ]: rvt the actual floors of the structure.

[ Standard layer ]: the standard layer is set in the computing software such as PKPM or yjk.

[ merge layer ]: and displaying the merged floors.

[ representative layer ]: the merging floors represent floors. The lowest layer in the default merge floor is the representative layer.

[ recovery defaults ]: restoring the program default value.

[ MEANS FOR CARRYING ] A method for producing a semiconductor device comprising: and merging the selected floors.

[ functional description ]: a functional description;

5. component connection module

Tab: the pretreatment module- & gt component connection & lt- & gt

The functions are as follows: the connection sequence of the components is adjusted according to the sequence of the column, the beam, the wall and the plate.

After clicking the component connection command, the software pops up a dialog box;

[ connection Range ]: the range of components to be connected is set. Either by region, by item, or by floor.

[ floor list ]: when the connection range is selected by floor, the model floor determined by the floor definition is displayed and selected.

[ connection setup ]: the connection arrangement among the components comprises wall column connection, wall beam connection, wall connection, wallboard connection, beam column connection, beam plate connection, column connection and plate connection;

6. Canceling connection module

Tab: the preprocessing module- & gt cancel connection & gt

The functions are as follows: the connection between the connected components (column, beam, wall, panel) is canceled within the selected range.

[ setting ]: the type of connection of the members that needs to be disconnected is set.

[ Selective ] the method comprises: the manner in which the selection member is provided. The method can be singly selected and multiply selected, and can also be selected according to the floor;

7. switching connection module

Tab: the preprocessing module- & gt switching connection & lt- & gt

The functions are as follows: the connection sequence between the connected components (columns, beams, walls, panels) is switched in batches within a selected range.

[ setting ]: the connection type of the member requiring the switching connection is set.

[ Selective ] the method comprises: the manner in which the selection member is provided. The method can be singly selected and multiply selected, and can also be selected according to the floor;

8. board blocking module

Tab: the preprocessing module- & gt board partitioning & gt

The functions are as follows: a monolithic floor slab is divided into a plurality of floor slabs along an enclosed area defined by designated boundary members.

[ boundary conditions ]: the primitives forming the slab boundaries are set. Including walls, columns, beams, axes, reference planes.

[ inner outline ]: after the hooking, processing the selected floor slab boundary into the inner profile of the support;

9. Board boundary module

Tab: the preprocessing module- & gt board boundary & gt

The functions are as follows: and adjusting the selected floor contour boundary to a specified position according to the set floor boundary line position option.

Select new edge position: floor boundary line positions are arranged, and can be separation center lines or inner contours. When the floor slab is split, the floor slab needs to be modified into an inner contour.

[ Selective ] the method comprises: clicking or framing;

10. board support checking and modifying module

Tab: the pretreatment module- & gt board support inspection improvement & gt

The functions are as follows: the floor support is inspected and modified.

[ Single bidirectional plate aspect ratio Limit ]: the supports at the periphery of the rectangular plate with the length-width ratio less than or equal to [ length-width ratio limit value ] are all support seats; the rectangular plate with length-width ratio > [ length-width ratio limit value ] is a unidirectional plate, only the long side is supported as a support, and each supporting side of the irregular plate is a support.

[ showing last mount setup/modify mount ]: displaying the setting of the stand according to the default aspect ratio limit or displaying the modified stand according to the last input aspect ratio setting, into view, on which the user can modify.

Reset mount/modify mount according to input values: the aspect ratio limit is re-entered and the stand-off condition is reset at this value, and the view is entered, based on which the user can modify.

11. Wall splitting module

Tab: the preprocessing module- & gt splitting & lt- & gt

The functions are as follows: the wall is cut at the pick-up point.

12. Wall breaking module

Tab: the preprocessing module- & gt wall break & gt

The functions are as follows: breaking the selected wall at the designated location.

After clicking the "wall break" command, the software pops up a dialog box:

[ optional position ]: can collude post, crossing wall, axle net intersection point

All selections or all erasures;

13. wall merging module

Tab: the preprocessing module- & gt wall merging & lt- & gt

The functions are as follows: combining the selected walls under corresponding conditions;

after clicking the wall merge command, the software pops up a dialog box;

[ optional position ]: the column, the intersecting wall and the intersection point of the shaft net can be selected, and after the selection, the positions are not combined.

[ Whole selection/Total definition ]: all selections or all purges;

14. surface-pressed hole-punching module

Tab: the preprocessing module- & gt surface-opening;

the functions are as follows: an opening perpendicular to selected surfaces of the roof, floor, ceiling may be created.

15. Vertical hole-forming module

Tab: the pretreatment module- & gt vertical punching & lt- & gt

The functions are as follows: a vertical opening through the roof, floor or ceiling may be cut.

16. Wall hole-forming module

Tab: the pretreatment module- & gt wall opening & lt- & gt

The functions are as follows: rectangular, circular or arched through and non-through openings can be created at designated locations of selected walls

After clicking the wall hole command, the software pops up a dialog box;

[ hole shape ]: rectangular, circular or arched may be selected.

[ Placement mode ]: the hole may optionally penetrate the wall.

[ operation mode ]: the selection, aliquoting or sequencing may be selected.

[ interface parameter ]: displaying or modifying the hole width, hole height, bottom height and quantity of the holes;

17. batch board production module

Tab: the pretreatment module- & gt batch production of boards & gt

The functions are as follows: and (5) producing plates in batches.

After clicking the batch production command, the software pops up a dialog box:

18. beam module

Tab: the preprocessing module- & gt beam & gt

The functions are as follows: the creation of the beam is performed.

After clicking the "beam" command, the software pops up a dialog box;

19. standard column module

Tab: the preprocessing module- & gt standard column & gt

The functions are as follows: standard column creation is performed.

After clicking the "standard column" command, the software pops up a dialog box:

20. wall module is given birth to line

Tab: the pretreatment module- & gt wire wall production & gt

The functions are as follows: and (5) creating the wall body.

After clicking the 'line wall' command, the software pops up a dialog box;

21. arbitrary wall-sandwich heat-insulating external wall module

Tab: the pretreatment module- & gt any wall- & gt sandwich heat-insulating outer wall & gt

The functions are as follows: changing a structural wall body led in by a data center into a sandwich heat-insulating outer wall; wall with only structural layers created by users

The body becomes a sandwich heat-insulating outer wall; changing any wall body selected by a user into a sandwich heat-insulating outer wall.

After clicking the command of 'any wall-sandwich heat-insulating outer wall', the software pops up a dialog box and a status bar prompts:

please select the wall body to be modified into the sandwich thermal insulation outer wall (the current mode is point selection, TAB key switch selection mode): after the selection is finished (clicking is finished), the selected wall body switching type is directly given to the making method. Pressing esc key to exit;

[ type name ]: default sandwich insulation outer wall-t/t 1/t 2; the drop down may select the type of history created with the command,

and after the history type is switched, the interface parameters are correspondingly changed.

[ Sandwich insulation exterior wall Structure ]: inner She Qiang wall thickness t: default 200, user editable; thickness t1 of heat insulation layer: default 70, user editable; outer leaf wall thickness: by default 60, the user can edit.

[ alternative to this ]: default selection of "core layer centerline alignment"; the pull down may select "wall centerline alignment", "core".

Layer center line alignment "," outer wall skin alignment "," inner wall skin alignment "," core layer outer skin "," core layer inner skin ";

22. creating prefabricated balcony slab modules

Tab: the pretreatment module- & gt creation of prefabricated balcony slab & gt

The functions are as follows: creating a fully prefabricated pallet.

After clicking the "create prefabricated balcony slab" command, the software pops up a dialog box, after entering the corresponding parameters,

click determination, and executing a creation command;

23. creating prefabricated air conditioner panel modules

Tab: the pretreatment module- & gt creation of prefabricated air conditioner board & gt

The functions are as follows: and creating a prefabricated air conditioning plate, and selecting whether to synchronously create the reinforcing steel bars and the embedded parts according to actual requirements.

Clicking a command of creating a prefabricated air conditioner board, and then popping up a dialog box by software;

[ geometry ]: length L (mm): default 630, drop down selectable 630/730/740/840, user editable; width B (mm) default 1100, drop down option 1100/1200/1300, user editable; thickness h (mm): by default 80, the user may edit.

[ Create Rebar ]: and creating a No. 1 stress reinforcement and a No. 2 distributed reinforcement.

[ Create an opening and burial ]: and a key creates an opening and an embedded part of the air conditioner plate according to the atlas.

[ avoidance of the hole and the buried part is considered by the reinforcing steel bar ]: the avoidance modes are five, namely: the reinforcing steel bar is not treated, cut off, processed around the hole, cut off and added, and the whole deflection of the reinforcing steel bar is realized.

The rotation angle is automatically picked up or input.

24. Creating prefabricated stairway modules

Tab: the preprocessing module- & gt creation of prefabricated stairway & gt

The functions are as follows: creating prefabricated double-track stairs.

After clicking the command of creating the prefabricated staircase, the software pops up a dialog box, and after inputting corresponding parameters, clicking to determine and executing the creation command.

25. Prefabricated component warehouse

Tab: pretreatment module- & gt prefabricated component library & gt

The functions are as follows: and collecting, storing and managing the prefabricated parts.

After clicking the "prefabricated component library" command, the software pops up a dialog box:

[ prefabricated building block library ]: the display system defaults to classification or the user sets classification.

[ prefabricated part type selection ]: and displaying the prefabricated component family or the family type, and optionally arranging the prefabricated components after selecting.

[ group library ]: clicking can enter the interface (family library management), and users can conduct classification and corresponding family resetting according to specific requirements.

[ Arbitrary arrangement ]: randomly arranging selected prefabricated member families or family types;

1. color setting module

Tab: splitting module →

The functions are as follows: the method is used for setting the color, transparency and filling pattern of the designated component and each part after the disassembly.

After clicking the "color setting" command, the software pops up a dialog box;

[ applied to the current view ]: not hooked, only the setting of the color scheme, only the view that subsequently executes this command is affected;

after the hook, the color scheme is applied to the current view.

[ Member Attribute color setting ]: the designated component is a pre-detached component or a cast-in-situ component.

[ split type color setting ]: the pre-disassembled component is split into a pre-assembled component and a superimposed part, which parts are of split type.

[ color ]: the colors can be edited arbitrarily.

[ transparency ]: transparency can be arbitrarily edited.

[ filling pattern ]: any filling pattern can be set;

2. display splitting

Tab: splitting module- & gt display splitting & lt- & gt

The functions are as follows: the three states of the part visibility of the current view or all views are set, including "display part", "display original state", "display both".

After clicking the "split visibility" command, the software pops up a dialog box:

[ State selection ]: the default display part can select the display part, the display original state and the display.

[ application scope ]: the method can be applied to the current view and the whole project;

3. pre-dismantling component designating module

Tab: splitting module- & gt pre-splitting component assignment & gt

The functions are as follows: changing the selected component into a part, and endowing two parameters of cast-in-situ/prefabrication and component attribute/split type

Attributes.

After clicking the "pre-break component" command, the software pops up a dialog box, after selecting the corresponding specified type,

status bar prompt: please select the object to be specified (the current mode is frame selection, TAB key switches selection mode), click is completed after the selection is completed, and the specified command is executed.

[ type of pre-split building block ]: the main body components of the beam, the wall, the plate, the column and the like mainly comprise a pre-dismantling plate, a pre-dismantling outer wall, a pre-dismantling inner wall, a pre-dismantling column, a pre-dismantling main beam and a pre-dismantling secondary beam.

[ color settings ]: for controlling the color of the split type in the current view.

4. Designation module

Tab: splitting module → cancel specification

The functions are as follows: the specification of the component attribute is canceled, and the original state is restored.

After clicking the "cancel assignment" command, the status bar prompts:

please click the target member (TAB key switching selection mode):

after the selection is completed (click is completed), the component part attribute is canceled.

5. Prefabricated part designating module

Tab: splitting module →

The functions are as follows: the selected component is changed into a part, and two corresponding parameter attributes of cast-in-situ/prefabrication and component attribute/split type are given.

After clicking the "prefabricated part designation" command, the software pops up a dialog box, and after selecting the corresponding designated type, the status bar prompts: please select the object to be specified (the current mode is frame selection, TAB key switches selection mode), click is completed after the selection is completed, and the specified command is executed;

[ prefabricated building element type ]: the prefabricated building block comprises laminated slabs, prefabricated main beams, prefabricated secondary beams, prefabricated columns, prefabricated outer walls, prefabricated inner walls, prefabricated external wall panels, prefabricated balcony boards, prefabricated air-conditioning boards and prefabricated stairways.

[ color settings ]: for controlling the color of the specified pre-made type in the current view.

6. Cast-in-place component appointing module

Tab: splitting module → cast-in-place component assignment

The functions are as follows: the selected component is changed into a part, and two corresponding parameter attributes of cast-in-situ/prefabrication and component attribute/split type are given.

After clicking the 'cast-in-place component designation' command, the software pops up a dialog box, and after selecting the corresponding designated type, the status bar prompts: please select the object to be specified (the current mode is frame selection, TAB key switches selection mode), click is completed after the selection is completed, and the specified command is executed;

[ cast-in-place building block type ]: the system comprises cast-in-situ slabs, cast-in-situ main beams, cast-in-situ secondary beams, cast-in-situ columns, cast-in-situ outer walls, cast-in-situ inner walls, cast-in-situ balcony boards, cast-in-situ air conditioner boards and cast-in-situ stairways.

[ color settings ]: for controlling the color of the specified pre-made type in the current view.

7. Splitting parameter module

7.1. Board splitting parameter setting

Tab: splitting module- & gt splitting parameter- & gt board splitting parameter setting & gt

The functions are as follows: and setting the plate splitting parameters.

Clicking the split parameter setting command, and then popping up a dialog box by the software;

[ split plate type ]: the split plate types are divided into three types, namely: unidirectional board, bi-directional board, seamless bi-directional board.

The software automatically recognizes the single or double direction board by default.

[ resolution thickness ]: the thickness of the prefabricated bottom plate of the laminated slab.

[ prefabricated floor seam construction ]: the seam form of the prefabricated base plate and the width value of the seam are set.

[ support overlap Length ]: the overlap length of the support is set.

[ Board width modulus setting ]: the width modulus value of the precast slab is set, and the precast slab can be added, modified, deleted and emptied.

[ precast slab limit setting ]: the limit value of the prefabricated panel is set.

[ resolution outcome preference factor ]: the priority of the board splitting result is set.

[ split direction ]: the direction of plate detachment is set.

[ consider symmetry ]: consider the case of symmetry in a home; when the hook is selected, in a plan view, the symmetry axis (Y) is picked up or the symmetry axis (N) is drawn.

7.2. Wall splitting parameter setting module

Tab: splitting module- & gt splitting parameter- & gt wall splitting parameter setting & gt

The functions are as follows: and setting the wall splitting parameters.

After clicking the split parameter set command, the software pops up a dialog box.

[ if split modulo ]: whether split according to modulus is set, default value is yes, pull-down can select yes or no.

[ edge Member ]: parameters for generating the edge member are set.

[ adjusting measures when the wall body is overweight with overlength or does not accord with modulus ]: when the wall is overweight due to overlength or does not conform to the modulus, adjustment is needed. The adjustment measures comprise properly enlarging the size of the cast-in-situ edge component, and setting the minimum limit value of the width of the post-cast strip and the hole side wall of the non-edge component.

[ wall Wide modulus setting ]: setting the width modulus value of the prefabricated wall.

[ Board width modulus setting ]: the width of the prefabricated plate is modularized, and the prefabricated plate can be added, modified, deleted and emptied.

Prefabricated wall limit value setting: setting the limit value of the prefabricated wall.

[ prefabricated wall detail Structure ]: setting parameter values of the prefabricated wall edge distance, the lower edge distance, the chamfer angle and the key groove.

[ resolution results and preferences ]: and setting priority factors of wall splitting results.

[ consider symmetry ]: consider the case of symmetry in a home; when the hook is selected, in a plan view, the symmetry axis (Y) is picked up or the symmetry axis (N) is drawn.

7.3. Liang Cafen parameter setting module

Tab: splitting module- & gt splitting parameter- & gt Liang Cafen parameter setting & gt

The functions are as follows: the Liang Cafen parameter is set.

Clicking the split parameter setting command, and then popping up a dialog box by the software;

[ height of the lamination layer ]: and (5) defaulting to hook. The non-selection is denoted as fully precast beam. Default: the thickness of the adjacent plates is smaller; pull-down is optional: "adjacent plate thickness is a large value", and the user can manually input any specific value.

[ precast beam top surface notch set ]: default is not checked. Notch width: default 140, user can edit; notch height: default 50, user editable; centrally arranged in the width direction of the beam, in alignment with the beam top surface.

[ shear key groove ]: setting the size and arrangement of key grooves;

[ precast beam limit setting ]: limiting the maximum weight and the maximum length, and not splitting when the maximum weight and the maximum length exceed the values;

7.4. column splitting parameter setting module

Tab: splitting module- & gt splitting parameter- & gt column splitting parameter setting & gt

The functions are as follows: and setting column splitting parameters.

After clicking the split parameter set command, the software pops up a dialog box:

[ column top edge distance ] column bottom edge distance ]: and setting the split value of the upper edge distance and the lower edge distance of the column.

[ precast column cross section practice ]: whether the key groove is arranged or not and the key groove arrangement position are set.

[ shear key groove ]: the key grooves are arranged in size and arrangement.

[ precast column limit set ]: limiting the maximum weight and the maximum length, and not splitting when the maximum weight and the maximum length exceed the values;

8. splitting module by layer

Tab: splitting module- & gt splitting by layer

The functions are as follows: and executing the split command according to the set split parameter in a floor selection mode.

Clicking the split command according to the layer, and then popping up a dialog box by the software;

[ floor selection ]: the floor to be split is set, and floor information after default merging or re-merging is displayed according to the floor merging.

[ Member selection ]: the type of pre-split member to be split is selected, here shown.

9. Local splitting module

Tab: splitting module →

The functions are as follows: according to the set split parameters, split commands are executed in a manner of selecting a local scope.

After clicking the "partial split" command, the software pops up a dialog box;

[ Member selection ]: the type of preform to be split is selected, here shown.

[ determining ]: after clicking "ok", status bar prompts:

please select the target member in frame (the current mode is frame selection, TAB key switches selection mode):

clicking to finish after finishing the selection, and executing a split command;

10. manual splitting module of board

Tab: splitting module →

The functions are as follows: parameterized splitting is performed on any individual floor slab or floor slab-based component.

Clicking a 'manual plate splitting' command, popping up a prompt from the lower right corner, selecting a plate or a plate-based part, and popping up a dialog box by software after the picking-up is finished;

[ Handover initiation direction ]: the direction of plate detachment is set. Clicking can switch the direction.

[ split plate type ]: the split plate types are divided into three types, namely: unidirectional plate, two-way plate with joint, two-way plate without joint.

[ resolution thickness ]: the thickness of the prefabricated bottom plate of the laminated slab.

[ generating chamfer ]: and (5) setting floor chamfering parameters.

[ support overlap Length ]: the overlap length of the support is set.

[ bottom plate split parameters ]: the seam width and floor width parameter values are set and can be edited in a table.

[ handling means when it cannot be just split ]: the rest part can be selected to be treated according to the prefabricated plate, the rest part is treated according to the cast-in-situ joint, the number of split plates is kept unchanged, the joint is equally divided, the width of the cast-in-situ joint is kept unchanged, and the split plates are equally divided to the prefabricated plates;

11. manual split module of wall

11.1. Edge member generation

Tab: splitting module- & gt manual splitting of wall- & gt edge component generation & gt

The functions are as follows: and generating edge components for the wall bodies in the selected range according to parameter setting.

Clicking the 'edge component generation' command, and then popping up a dialog box by software;

[ construction edge Member according to the high rule ]: when in choosing, the edge component is generated according to the requirement of a high gauge; when not selected, the edge component is generated according to the requirements of the anti-specification.

[ generating constructional dark columns under out-of-plane beams ]: pull-down is optional: none, and no articulation.

[ generating dark column Length ]: setting the length of the generated dark column.

[ wall column clear distance minimum limit ]: setting a minimum limit value of the wall column clear distance, and merging the dark columns when the clear distance between the dark columns is smaller than the minimum limit value.

[ layer by layer ]: and selecting floors on which dark columns are generated.

[ Manual selection ]: after clicking and determining the selection mode, entering a view, and prompting by a status bar:

please select the wall or the wall-based parts (currently the mode is frame selection, TAB key switch selection mode)

Clicking is completed after the selection is completed, and a command for generating the edge component is executed.

[ only for the specified prefabricated wall ]: when the prefabricated wall is checked, only edge components are generated for the appointed prefabricated wall; when the wall is not selected, directly generating an edge component for the selected wall, namely a component wall or a part wall;

11.2. manual splitting module of pure structure wall

Tab: splitting module- & gt manual splitting of wall- & gt manual splitting of pure structure wall & gt

The functions are as follows: parameterized splitting is performed for the selected wall.

After clicking the command of 'manual splitting of a pure structure wall', the right lower corner pops up a prompt, please select a wall or a wall-based part, and after picking up, the software pops up a dialog box:

[ split wall type ]: the type of wall picked up is automatically identified and user modifiable.

[ prefabricated wall Structure ]: setting parameter values of the prefabricated wall edge distance, the lower edge distance, the chamfer angle and the key groove.

[ wall splitting parameter ]: parameters when the wall body is split are set, including parameter values such as constraint edge component post-cast strip, construction edge post-cast strip, non-edge component post-cast strip, prefabricated wall width and the like, and split classification and editing size can be redefined in the table.

11.3. Manual split module of sandwich wall

Tab: splitting module- & gt manual splitting of wall- & gt manual splitting of sandwich wall & gt

The functions are as follows: and carrying out parameterized splitting on the selected sandwich heat-insulating wall.

After clicking the manual split command of the sandwich heat-insulating wall, the right lower corner pops up a prompt, please select the wall or the wall-based parts, and after picking up, the software pops up a dialog box:

[ exterior wall structural joint ]: by default 20mm, the user can modify.

[ prefabricated outer wall sets up the structural joint when adjacent ]: when the split condition results in adjacent prefabricated outer walls, it is determined whether a construction joint is provided between the prefabricated walls.

[ prefabricated interior leaf wall detail Structure ]: including whether the wall upper edge distance, the wall lower edge distance, the wall chamfer and the wall keyway are set and parameters.

[ prefabricated outer leaf wall west Structure ]: the method comprises the steps of setting waterproof nodes of all parts of the wall body and setting parameters.

[ resolution parameters ]: setting the attribute and the size of each part of the wall;

12. adjustment/deepening tool

12.1. Chamfering module for generating plate

Tab: splitting module, adjusting/deepening tool, generating board chamfer

The functions are as follows: chamfering the floor slab or floor slab-based part.

After clicking the "generate board chamfer" command, the software pops up a dialog box:

after clicking "ok", status bar prompts:

please select floor or floor-based parts (current mode is click, TAB key switch selection mode)

Clicking to finish after finishing the selection, and executing to generate a chamfering command;

12.2. delete plate chamfer module

Tab: splitting module, adjusting/deepening tool, deleting plate chamfer

The functions are as follows: and deleting the chamfer angles of the floor slab or the parts based on the floor slab.

After clicking the "generate plate chamfer" command, the status bar prompts:

please select floor or floor-based parts (current mode is click, TAB key switch selection mode)

Clicking is completed after the selection is completed, and executing and generating a chamfering command.

12.3. Wall chamfer/keyway module

Tab: splitting module →' tool-like- & gt wall corner cutting/key slot & lt- & gt

The functions are as follows: and (3) generating corner cuts and shear key grooves on the wall body or parts based on the wall body.

After clicking the "wall corner cut/keyway" command, the software pops up a dialog box.

After clicking "ok", status bar prompts:

please select the wall or the wall-based parts (the current mode is click, TAB key switch selection mode)

Clicking is completed after the selection is completed, and executing and generating a chamfering command.

12.4. Delete wall chamfer/keyway module

Tab: splitting module- & gt adjusting/deepening tool- & gt deleting wall corner/key slot & gt

The functions are as follows: and deleting the corner cutting/key groove of the wall body or the wall body-based part.

After clicking the "delete wall corner/keyway" command, the status bar prompts:

please select the wall or the wall-based parts (the current mode is click, TAB key switch selection mode)

Clicking is completed after the selection is completed, and a wall corner cutting/key slot deleting command is executed.

12.5. External wall panel detail structure module

Tab: splitting module, adjusting/deepening tool, and external wall panel detail structure

The functions are as follows: and (3) generating detailed structures such as waterproof nodes and the like on the wall body or the parts based on the wall body.

Clicking the command of 'external wall panel detail construction', and then popping up a dialog box by software;

After clicking "ok", status bar prompts:

please select the wall or the wall-based parts (the current mode is click, TAB key switch selection mode)

Clicking to finish after finishing the selection, and executing the command;

12.6. deleting waterproof node module

Tab: splitting module- & gt adjusting/deepening class tool- & gt deleting waterproof node & gt

The functions are as follows: and deleting the detail structures such as waterproof nodes and the like of the wall body or the parts based on the wall body.

12.7. Delete Liang Aokou/keyway module

Tab: splitting module- & gt adjusting/deepening class tool- & gt deleting Liang Aokou key slot- & gt

The functions are as follows: liang Aokou and keyways are deleted.

12.8. Deleting column key groove module

Tab: splitting module- & gt adjusting/deepening class tool- & gt deleting column key slot- & gt

The functions are as follows: and deleting the column key groove.

12.9. Part deleting module

Tab: splitting module- & gt adjusting/deepening class tool- & gt part deleting & gt

The functions are as follows: restoring the part and its associated parts to their original state.

12.10. Similar merging module

Tab: splitting module →' class tools- & gtclass merge & lt- & gt

The functions are as follows: when the components are parts, the similar components with consistent properties are combined.

12.11. Part decomposition module

Tab: splitting module- & gt adjusting/deepening tool- & gt component decomposition & gt

The functions are as follows: restoring the combined parts to the original state before combination;

component numbering module: numbering the split components;

component number description module: the method is used for explaining the component numbers and solving the problem of ambiguity of understanding of the concept of the parts proposed by partial users;

and the invisible operation module is used for: hiding, restoring and displaying the selected target in the current view or the whole project, and isolating;

the unit weight setting module: for setting the bulk weight of the material;

prefabricated/cast-in-situ component statistics module: counting the components based on the part level, and obtaining a calculation table;

the statistical table checking module: inquiring the last statistical result of the item;

and a prefabricated assembly rate calculation module: according to national or various standards, carrying out statistics on the prefabrication assembly rate of a single floor or a whole floor;

a calculation result viewing module: inquiring the last calculation result of the item;

the steel bar color setting module: for setting the display color of the reinforcing steel bar in all views;

the steel bar number setting module: the number of the steel bars in the prefabricated part is set;

Sleeve selection library: the sleeve used in the project is set in a shape selecting mode;

creating a superimposed sheet rebar module: the method comprises the steps of creating steel bars for a single precast slab;

creating a prefabricated wall steel bar module: building reinforcing steel bars for the single prefabricated wall body;

creating an outer leaf/outer wallboard rebar module: building reinforcing steel bars for the single prefabricated wall body;

creating a precast beam reinforcement module: the method comprises the steps of creating a steel bar for a single precast beam;

creating a prefabricated column reinforcement module: creating a reinforcing steel bar for the single prefabricated column;

creating a balcony slab rebar module: the method comprises the steps of creating a reinforcing steel bar for a single balcony slab;

creating an air conditioner plate reinforcement module: the method comprises the steps of creating reinforcing steel bars for a single air conditioner plate;

creating a prefabricated stair reinforcement module: building a steel bar for a single stair;

deleting the steel bar module: selectively deleting the generated steel bars according to the member classification;

reinforcing bar shows hidden module: performing display hiding operation on the steel bars selected according to the member classification and the steel bar type;

a real steel bar module: displaying the real style of the steel bar;

the embedded part arrangement module comprises: setting an embedded part on a target component;

linking cad base graph module: linking cad bottom graph as liner graph;

and the embedded part deleting module is used for: performing batch deletion on target embedded parts in the selected range;

Creating a component module: binding the main body component and the reinforcing steel bars, embedded parts or other bundles generated based on the main body into a whole, numbering according to the merging condition, and preparing for subsequent drawing;

component revealing module: in the current view, the selected target part is displayed/hidden;

component isolation module: in the current view, selecting a target component to perform isolation operation on the target component;

and the component searching module is used for: searching for a target component in the current view or the whole project;

component decomposition module: in the current view, selecting a target component to perform a decomposition operation on the target component;

component deletion module: in the current view, selecting a target component to delete the target component;

component description module: explaining the definition of the components;

the drawing annotation setting module: setting size marks and text patterns and positions in the drawings;

component detail drawing module: generating a standard detail graph for the created part;

floor plan module: generating a plan view of the prefabricated part;

part number revealing module: displaying, hiding and deleting part numbers;

rough surface/die plate surface labeling module: creating rough surface/template surface labels by arbitrary arrangement or automatic identification;

and the assembly direction marking module is as follows: arbitrarily arranging or automatically identifying the creation assembly direction;

Detail drawing dimension marking module: positioning the components and positioning the steel bars in the component detailed diagram;

and (3) a reinforcing steel bar marking module: marking a target steel bar number by clicking the target steel bar;

and the embedded part marking module is used for: marking the number of the target embedded part by clicking the target embedded part;

the steel bar table module: generating a reinforcement bar table of the member by one key based on the current view or the selected view;

the embedded part table module: based on the current view or the selected view, a table of embedments for the component is generated with one key.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. An assembled building information model design platform, characterized by comprising:

model filtering module: namely, rapidly selecting the components meeting the conditions from the designated component set according to the set filtering conditions;

floor definition module: the method comprises the steps of defining an elevation range of a floor and designating floor attributes of components in the elevation range;

Designating a component floor module: specifying to specify a floor to which the component belongs;

floor merging module: setting a merging layer concept, wherein the number of the merging layers is one;

and the component connection module is as follows: adjusting the connection sequence of the components according to the sequence of the column, the beam, the wall and the plate;

canceling the connection module: canceling the connection relationship between the connected components within the selected range;

and a switching connection module: switching the connection sequence between the connected components in batches within a selected range;

plate blocking module: dividing a monolithic floor slab into a plurality of floor slabs according to a sealed area formed by a designated boundary member;

plate boundary module: according to the set floor boundary line position option, adjusting the selected floor contour boundary to a specified position;

board support checking and modifying module: checking and modifying the floor support;

wall splitting module: cutting off the wall body at the pick-up point;

wall breaking module: breaking the selected wall at the designated location;

wall merging module: combining the selected walls under corresponding conditions;

and (5) opening a hole module according to the surface: holes perpendicular to selected faces of roof, floor, ceiling can be created;

vertical hole-forming module: a vertical opening through a roof, floor or ceiling may be cut;

Wall hole-forming module: rectangular, circular or arched penetrating and non-penetrating openings can be created at designated positions of the selected wall;

batch plate production module: the method is used for batch production of boards;

beam module: creating a beam;

standard column module: creating a standard column;

the wall module is given birth to line: creating a wall body;

arbitrary wall→sandwich insulation exterior wall module: changing a wall body imported by a data center into a sandwich heat-insulating outer wall, changing a wall body which is created by a user and only has a structural layer into a sandwich heat-insulating outer wall, and changing any wall body selected by the user into a sandwich heat-insulating outer wall;

creating a prefabricated balcony slab module: creating a full prefabricated slab balcony slab;

creating a prefabricated air conditioning panel module: creating a prefabricated air conditioning plate, and selecting whether to synchronously create the reinforcing steel bars and the embedded parts according to actual requirements;

creating a prefabricated stair module: creating prefabricated double-track stairs;

prefabricated component library: collecting, storing and managing prefabricated parts;

and a color setting module: the color, transparency and filling patterns of the designated components and the detached parts are set;

and a display splitting module: setting three states for the part visibility of the current view or all views;

component specifying module: changing the selected component into a part, and endowing the selected component with two parameter attributes of cast-in-situ/prefabrication and component attribute/split type;

Cancel specification module: canceling the specification of the component attribute and restoring the original state;

splitting a parameter module; setting splitting parameters;

splitting the module according to layers: executing a splitting command according to the set splitting parameters and the mode of selecting floors;

a local splitting module: executing a split command in a mode of selecting a local range according to the set split parameters;

manual splitting module of board: carrying out parameterization splitting on any single floor slab or floor slab-based parts;

edge member generation module: generating edge components for the wall bodies in the selected range according to parameter setting;

manual splitting module of pure structure wall: parameterizing and splitting the selected wall;

manual split module of sandwich wall: carrying out parameterized splitting on the selected sandwich heat-insulating wall;

generating a plate chamfering module: chamfering the floor slab or the part based on the floor slab;

deleting plate chamfering module: deleting the chamfer angle of the floor slab or the part based on the floor slab;

wall chamfer/keyway module: generating corner cutting and shear key grooves on the wall body or parts based on the wall body;

deleting the wall corner cut/keyway module: deleting corners/keyways of the wall body or parts based on the wall body;

External wallboard detail construction module: generating a waterproof node detail structure for the wall body or the wall body-based part;

deleting the waterproof node module: deleting the waterproof node detail structure of the wall body or the wall body-based part;

delete Liang Aokou/keyway module: deleting Liang Aokou and key slots;

deleting the column key groove module: deleting the column key groove;

part deletion module: restoring the part and its associated part to an original state;

the similar merging module: when the components are parts, the similar components with consistent attributes are combined;

part decomposition module: restoring the combined parts to the original state before combination;

component numbering module: numbering the split components;

component number description module: the method is used for explaining the component numbers and solving the problem of ambiguity of component concept understanding, which is proposed by partial users;

and the invisible operation module is used for: hiding, restoring and displaying the selected target in the current view or the whole project, and isolating;

the unit weight setting module: for setting the bulk weight of the material;

prefabricated/cast-in-situ component statistics module: counting the components based on the part level, and obtaining a calculation table;

The statistical table checking module: inquiring the last statistical result of the item;

and a prefabricated assembly rate calculation module: according to national or various standards, carrying out statistics on the prefabrication assembly rate of a single floor or a whole building;

a calculation result viewing module: inquiring the last calculation result of the item;

the steel bar color setting module: for setting the display color of the reinforcing steel bar in all views;

the steel bar number setting module: the number of the steel bars in the prefabricated part is set;

sleeve selection library: the sleeve used in the project is set in a shape selecting mode;

creating a superimposed sheet rebar module: the method comprises the steps of creating steel bars for a single precast slab;

creating a prefabricated wall steel bar module: building reinforcing steel bars for the single prefabricated wall body;

creating an outer leaf/outer wallboard rebar module: building reinforcing steel bars for the single prefabricated wall body;

creating a precast beam reinforcement module: the method comprises the steps of creating a steel bar for a single precast beam;

creating a prefabricated column reinforcement module: creating a reinforcing steel bar for the single prefabricated column;

creating a balcony slab rebar module: the method comprises the steps of creating a reinforcing steel bar for a single balcony slab;

creating an air conditioner plate reinforcement module: the method comprises the steps of creating reinforcing steel bars for a single air conditioner plate;

creating a prefabricated stair reinforcement module: building a steel bar for a single stair;

Deleting the steel bar module: selectively deleting the generated steel bars according to the member classification;

reinforcing bar shows hidden module: performing display hiding operation on the steel bars selected according to the member classification and the steel bar type;

a real steel bar module: displaying the real style of the steel bar;

the embedded part arrangement module comprises: setting an embedded part on a target component;

linking cad base graph module: linking cad bottom graph as liner graph;

and the embedded part deleting module is used for: performing batch deletion on target embedded parts in the selected range;

creating a component module: the main body component, the reinforcing steel bars, embedded parts or other binding parts generated based on the main body are integrated, numbering is carried out according to the merging condition, and preparation is carried out for subsequent drawing;

component revealing module: in the current view, the selected target part is displayed/hidden;

component isolation module: in the current view, selecting a target component to perform isolation operation on the target component;

and the component searching module is used for: searching for a target component in the current view or the whole project;

component decomposition module: in the current view, selecting a target component to perform a decomposition operation on the target component;

component deletion module: in the current view, selecting a target component to delete the target component;

Component description module: explaining the definition of the components;

the drawing annotation setting module: setting size marks and text patterns and positions in the drawings;

component detail drawing module: generating a standard detail graph for the created part;

floor plan module: generating a plan view of the prefabricated part;

part number revealing module: displaying, hiding and deleting part numbers;

rough surface/die plate surface labeling module: creating rough surface/template surface labels by arbitrary arrangement or automatic identification;

and the assembly direction marking module is as follows: arbitrarily arranging or automatically identifying the creation assembly direction;

detail drawing dimension marking module: positioning the components and positioning the steel bars in the component detailed diagram;

and (3) a reinforcing steel bar marking module: marking a target steel bar number by clicking the target steel bar;

and the embedded part marking module is used for: marking the number of the target embedded part by clicking the target embedded part;

the steel bar table module: generating a reinforcement bar table of the member by one key based on the current view or the selected view;

the embedded part table module: based on the current view or the selected view, a table of embedments for the component is generated with one key.

2. The fabricated building information model design platform of claim 1, wherein: the three states in the display splitting module are set to be a part, an original state and a display.

3. The fabricated building information model design platform of claim 1, wherein: the splitting parameter module comprises:

board splitting parameter module: setting a plate splitting parameter;

wall splitting parameter setting module: setting wall splitting parameters;

liang Cafen parameter setting module: setting Liang Cafen parameters;

column splitting parameter setting module: and setting column splitting parameters.

4. The fabricated building information model design platform of claim 1, wherein: the revealing operation module comprises a cast-in-situ part revealing module and a prefabricated part revealing module.

5. The fabricated building information model design platform of claim 1, wherein: the component designating module comprises a pre-disassembly component designating module, a prefabricated component designating module and a cast-in-situ component designating module.

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