CN110704932A - Revit software-based prefabricated staircase detailed graph rapid plotting method - Google Patents

Abstract

A method for quickly plotting detailed diagrams of prefabricated stairs based on Revit software sequentially comprises the following steps: s1, setting sharing parameters; s2: pre-creating a parameterized family; s3: creating a project file of the prefabricated staircase, designing a view template, loading each parameterized family, setting parameters of the prefabricated staircase and adding and placing embedded parts; s4: drawing a template drawing section and a detail drawing of the prefabricated staircase; s5, drawing steel bars; s6, creating a detail list; s7: drawing a reinforcement diagram and a section diagram of the shape of the steel bar; s8: marking the size; s9: typesetting; s10: and printing a graph. The method for quickly plotting the detailed prefabricated staircase graph based on the Revit software provided by the invention has the advantages of instant linkage modification, simple and convenient information extraction, high data statistics efficiency and high plotting speed.

Description

Revit software-based prefabricated staircase detailed graph rapid plotting method

Technical Field

The invention mainly relates to the field of building design, in particular to a method for quickly plotting detailed diagrams of prefabricated stairs based on Revit software.

Background

In the current assembled building design field, the design of the detailed diagram of the prefabricated staircase relates to the profession and has the advantages of high complexity, high precision requirement and extremely low error rate requirement. However, the detailed prefabricated staircase drawing design at the present stage usually uses Autodesk AutoCAD two-dimensional design software, and the drawing speed is slow, the modification is not linked, the error is easy, the omission is easy, the information extraction is difficult, the data statistics is difficult, and the intelligent degree of data processing is low when the two-dimensional design is used. In order to avoid the defects of two-dimensional design, the requirements for new tools and new technologies are more urgent, with the arrival of the information era, the building design industry also comes to the Building Informatization (BIM), after the three-dimensional design software is continuously improved, the detailed design of the prefabricated staircase gradually changes from two-dimensional to three-dimensional design, most typically, Autodesk Revit is used in the three-dimensional design software, and the software has strong functions of parameter design, view processing and information statistics, but does not have the parameterized family and parameterized files of the prefabricated staircase.

Therefore, the invention is especially provided.

Disclosure of Invention

The invention provides a method for rapidly drawing a detailed diagram of a prefabricated staircase based on Revit software.

The application provides a method for quickly plotting detailed diagrams of prefabricated stairs based on Revit software, which is sequentially carried out according to the following steps:

s1, setting sharing parameters;

s2: pre-creating a parameterized family;

s3: creating a project file of the prefabricated staircase, designing a view template, loading each parameterized family, setting parameters of the prefabricated staircase and adding and placing embedded parts;

s4: drawing a template drawing section and a detail drawing of the prefabricated staircase;

s5, drawing steel bars;

s6, creating a detail list;

s7: drawing a reinforcement diagram and a section diagram of the shape of the steel bar;

s8: dimension marking

S9: typesetting;

s10: and printing a graph.

Preferably, the sharing parameters in step S1 include a prefabricated part sharing parameter and a reinforcement shape sharing parameter.

Preferably, the parameterized family in step S2 includes at least one of parameterized stairway family, parameterized banister family, parameterized bolt sleeve family, reinforced bar mark family, and reinforced bar diameter-number family.

Preferably, each parameterized family loaded in step S3 is a parameterized family pre-created in step S2.

Preferably, the steel bars drawn in step S5 are marked and modified according to the positions of the steel bars in the prefabricated staircase.

Preferably, the detail list in step S6 includes at least one of a steel bar detail list, a prefabricated staircase information list and an embedded part detail list.

Preferably, the dimensioning in step S8 includes the dimensions of the rebar and the members in each view, the positioning and dimensions of the embedments, and the names of the embedments.

The method for quickly plotting the detailed graph of the prefabricated staircase based on the Revit software, provided by the invention, has at least the following advantages:

and modifying the instant linkage: the sizes of the template drawings are designed in a three-dimensional parameterization mode, the sizes of the prefabricated components and the embedded parts are parameterized, all the sectional drawings, the node detailed drawings and the embedded part detailed drawings are cut from a main model and are equivalent to the situation that the same component is seen from different perspectives, and therefore the consistency with the main model is kept in the sectional drawings, the node detailed drawings and the embedded part detailed drawings at all times. When the size of the prefabricated part or the size of the embedded part changes, only parameters need to be modified, and all related views are modified correspondingly, so that instant linkage modification is realized, the inconsistency of the views on the expression of the same part is avoided, and the error rate and omission of each template graph and node detailed graph are reduced;

the number and the diameter model of the steel bars in the reinforcement distribution diagram are marked with attributes and type name attributes by adopting a detailed list of the steel bars, the attributes are attached to an entity steel bar model, and the number and the diameter model of the steel bars in any view are the same as long as the number and the diameter model of the steel bars in the same steel bar are the same, so that the number or the model of the steel bars in a certain view is modified, other views are automatically modified, instant linkage is modified, and error rate and omission of the number and the diameter of the steel bars in the detailed reinforcement distribution diagram are reduced;

the information extraction is simple and convenient, and the data statistics is high-efficient: the statistical data of the embedded part detail list is linked with all embedded parts, fields in the embedded part detail list are obtained by reading related attributes of the embedded parts, the consistency with the attributes of the embedded parts is kept at any time, the quantity of the embedded parts is automatically added according to the embedded parts with the same number, and therefore the quantity statistics is automatically updated when the number of the embedded parts is increased or decreased. The number of the steel bars is obtained by reading the detail table mark example attribute of the entity steel bars in the steel bar detail table, the number is automatically added according to the same number, the diameter of the steel bars is extracted to be the steel bar type attribute, the length of a single steel bar and the total weight of the steel bars are obtained by extracting the volume of the entity steel bars and adding the length of the steel bars ABCDE, so that the linkage with the entity steel bars is maintained, and the data is automatically updated in the steel bar detail table when the number or the length of the entity steel bars is changed. Therefore, complicated information extraction and data statistics do not need to be manually counted and extracted, and only need to be easily extracted and counted through the organization mode of calculation formulas and fields in the detail list;

the drawing speed is fast: the project template of the standard prefabricated staircase is formed through the design scheme of the detail drawing of the prefabricated staircase, when the prefabricated staircase of a certain project is drawn, the operation is carried out only according to the scheme of the using process, and the operation steps are as follows: adjusting parameters → checking the position of each embedded part → moving each detailed picture frame and section position → modifying the steel bar model → moving the reinforcement map and the steel bar shape section → checking the size marking → adjusting the typesetting and printing, thus the scheme can achieve the purpose of modifying the template map and the reinforcement map of the prefabricated staircase and greatly improving the graph speed of the prefabricated staircase.

Drawings

FIG. 1 is a flow chart of a detailed drawing method for prefabricating a staircase based on Revit software, which is provided by the invention;

fig. 2 is a schematic diagram of the method for quickly drawing a detailed diagram of a prefabricated staircase based on Revit software according to the present invention, wherein in step S2, the prefabricated staircase entity is generated by stretching the entity;

fig. 3 is a schematic diagram of entity filling-in related parameters generated by entity stretching in step S2 of the method for quickly plotting a detailed diagram of a prefabricated staircase based on Revit software according to the present invention;

FIG. 4 is a schematic diagram of the method for rapidly creating a step cutting group in step S2 based on the detailed diagram of the Revit software prefabricated staircase provided by the invention;

fig. 5 is a schematic diagram of the method for quickly drawing a detailed diagram of a prefabricated staircase based on Revit software according to the present invention, wherein in step S2, the prefabricated staircase entity is generated by stretching the entity;

fig. 6 is a schematic diagram of a buried part generated in step S2 of the quick drawing method based on the detailed diagram of the Revit software prefabricated staircase provided by the invention;

fig. 7 is a schematic diagram of related parameters of embedded parts generated in step S2 of the method for quickly plotting details of a prefabricated staircase based on Revit software according to the present invention;

fig. 8 is a schematic view of a bolt sleeve with reinforcing ribs generated in step S2 of the quick drawing method based on the detailed view of the Revit software prefabricated staircase provided by the invention;

fig. 9 is a schematic diagram of filling-in relevant parameters of a bolt sleeve with reinforcing ribs generated in step S2 of the method for quickly plotting a detailed diagram of a prefabricated staircase based on Revit software provided by the present invention;

fig. 10 is a detailed representation intention of the prefabricated staircase created in step S6 of the method for quickly plotting the detailed diagram of the prefabricated staircase based on Revit software according to the present invention;

fig. 11 is a detailed illustration of the embedded part created in step S6 of the method for quickly drawing a detailed diagram of a prefabricated staircase based on Revit software according to the present invention;

fig. 12 is a detailed representation of the reinforcing steel bar with the specific reinforcing steel bar shape section generated in step S7 of the method for quickly mapping the detailed diagram of the prefabricated staircase based on Revit software.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer and more complete, the technical solutions in the embodiments of the present invention will be described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention, and based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the scope of the present invention.

Referring to fig. 1, fig. 1 is a flowchart of a method for quickly plotting a detailed diagram of a prefabricated staircase based on Revit software according to the present invention.

The method comprises the following steps in sequence:

s1 setting sharing parameters

In the invention, the sharing parameters comprise a prefabricated part sharing parameter and a steel bar shape sharing parameter.

As a specific implementation mode, the prefabricated part sharing parameters comprise the total length of the lifting ring steel bar, the diameter of the lifting ring, the diameter of the embedded part reinforcing steel bar and BCCI view standard.

And the steel bar shape sharing parameters comprise the lengths (A, B, C, D, E and F) of the steel bars.

The length of the steel bar in the later parameterized family can be related through the shared parameters by utilizing the shared parameters, so that the function of automatically marking data is realized.

However, it should be noted that the present invention is not limited to the specific content of the sharing parameter, and in other embodiments, a person skilled in the art may select to set an additional sharing parameter according to actual needs.

S2: pre-creating parameterized families

The parameterized family is created using existing metric framework templates.

As a specific embodiment, the parameterized family includes at least one of a parameterized staircase family, a parameterized banister family, a parameterized bolt sleeve family, a reinforced bar mark family, and a reinforced bar diameter-number family.

As shown in fig. 2-5, in some embodiments, the parameterized staircase family includes: the ladder section, put the board on, put the board down, choose the ear, and construct the fixed hinge preformed hole in upper portion on putting the board on last, put the board down and construct the slip hinge preformed hole in lower part on. The creation of the parameterized staircase family is performed according to the following steps: 1) creating a stepping cutting family: selecting a ' surface-based metric system conventional model ' rft ', creating step shape outline hollow shearing, step chamfer outline hollow shearing and two anti-skid strip hollow shearing on a top view, locking an upper horizontal point of an outline with an ' upper ' reference plane, locking an outline lower edge with a ' lower ' reference plane, locking an outline left side point with a reference plane, locking an outline right side with a reference plane, marking sizes of the step chamfer and the anti-skid strip and locking the sizes; 2) creating a stair tread family: rft' in front view, generating inclined stair treads by stretching, wherein two oblique lines of the tread outline are marked with angles and are associated with stair angle parameters, the two oblique lines are marked with alignment marks and are associated with parameter stair total thickness parameters, and the left and right vertical lines of the outline are respectively locked with the left and right reference planes, so that the inclination of the stairs can be controlled by the stair angle related parameters, and the related parameters in the step cutting family can be associated; 3) the step cutting families are placed and arranged on the inclined stair step plate entity in a last mode, and the Revit automatically calculates the numerical value according to the preset vertical height, step number, horizontal length, stair width and step plate thickness parameter changes of the stair, so that the perfect stair steps are cut out to form the prefabricated stair families. Furthermore, an upper placing plate and a lower placing plate can be added to the prefabricated staircase family which is manufactured as required, and the corresponding staircase lifting lugs are arranged.

It should be noted that the above technical solution is only one specific embodiment of the steps in the present invention, and those skilled in the art can modify the specific embodiment according to actual needs, and the above modifications should also be included in the scope of the present invention.

As shown in fig. 6-7, the parameterized railing embedded part family selects a ' surface-based metric conventional model ' rft ' to form a square table gap with an upper width of 70mm and a lower width of 60mm and a height of 10mm by hollow fusion in a top view, the gap is used for backfilling concrete after welding and mounting the railing, an embedded steel plate with a thickness of 6mm and a length of 60mmX60mm is produced by solid stretching by taking the lower plane of the gap as the top surface, all edges are marked and restrained, a U-shaped anchoring steel bar is generated by solid lofting by taking the bottom surface of the embedded steel plate as the top surface, the U-shaped steel bar is anchored in the precast stair concrete to play a role of stabilizing the railing, and then all marks of the parameterized railing embedded part family are associated with parameters to form the parameterized railing embedded part family.

It should be noted that the above technical solution is only one specific embodiment of the steps in the present invention, and those skilled in the art can modify the specific embodiment according to actual needs, and the above modifications should also be included in the scope of the present invention.

As shown in fig. 8-9, the parameterized bolt sleeve family selected the "face-based metric model rft" creation in which the embedded reinforcement bar diameter references the "preform sharing parameters" created in step S1 and in front view a hollow shear profile of a conical cup is created with a hollow rotation, wherein each marking is associated with a parameter, wherein the cup depth is set to 10mm for later screwing of the toroided nut into the sleeve and concrete backfill to act as a protective sleeve after the prefabricated staircase is installed. And then, generating a bolt sleeve model by using the bottom surface of the cup opening as the top surface through solid rotation, and associating each mark with a parameter to form a parameterized bolt sleeve family.

The reinforcing rib steel bar family selects 'metric conventional model rft' as a basic sample plate, generates the reinforcing rib steel bar family by stretching a solid, and sets two parameters of the diameter of the reinforcing rib and the length of the reinforcing rib to form the reinforcing rib steel bar family.

Further, in other embodiments, the manufactured reinforcing bar reinforcement family can be added to the parameterized bolt sleeve family, two parameters of the diameter and the length of the reinforcing bar in the reinforcing bar reinforcement family are respectively associated with the same-name parameters in the parameterized bolt sleeve family, and the central reference plane of the reinforcing bar reinforcement family is locked with the central reference plane of the bolt sleeve family to form the bolt sleeve family, so that the reinforcing bar reinforcement family can be directly called in later use.

Furthermore, three commonly used bolt sleeve models of M16, M18 and M20 can be created in the bolt sleeve family in advance, and the size of the bolt sleeve is set according to the actual size so as to be called directly at the later stage and improve the drawing efficiency.

The steel bar mark families comprise two types of steel bar mark families, wherein one type of steel bar mark family is an embedded steel bar mark family, and the other type of steel bar mark family is a mark family for each section length of the prefabricated stair stressed steel bar.

The embedded part steel bar mark family takes a metric conventional mark rft as a template, associates the total length parameter of the lifting ring steel bar in the shared parameter of the prefabricated parts, and outputs the value in the parameterized steel plate cushion block family to the embedded part steel bar mark family by associating the diameter parameter of the embedded part reinforcing steel bar in the parameterized steel plate cushion block family so as to realize the automatic reading and marking of the total length of the embedded part steel bar and the diameter of the embedded part reinforcing steel bar.

The length mark families of the stress steel bars of the prefabricated staircase take metric conventional marks, rft, are used as templates, a plurality of labels are added in family files, parameters are established for each label, the parameters of each label are respectively associated with the lengths of the steel bars in the steel bar shape sharing parameters, and meanwhile, visibility is set for each label, so that the stress steel bars of the prefabricated staircase are expressed by the length marks of the steel bars in the steel bar shape sharing parameters.

The steel bar diameter-number group takes 'metric conventional marking-rft' as a template, tags are added into a group file, each tag is edited, and steel bar diameter and detail table marking parameters are created, so that the diameter of the steel bar can be read only by changing the example attribute of the steel bar into the steel bar number in the detail table marking parameters in the later period of drawing the steel bar.

It should be noted that the pre-created parameterized family is not limited in particular by the present invention, and those skilled in the art can select an appropriate parameterized family and perform pre-creation in an appropriate manner according to actual needs.

S3: creating project files of the prefabricated staircase, designing view templates, loading various parameter families, setting parameters of the prefabricated staircase and adding and placing embedded parts

Newly building a project file in Revit, and adding a view organization sharing parameter in the project parameter of the project file. The view organization sharing parameter selects BCCI view standard in prefabricated part sharing parameter, only selects view in the category, and selects all view in the category when adding A parameter, thus preparing for cross-sectional view display in the subsequent step. The BCCI view standard is set as an organization mode in the project browser, and the chart view organization is divided into 9 parts of a structural plane (drawing), three dimensions, a detail embedded part drawing, a node sample, a template drawing, a reinforcement diagram, a steel bar shape, a statistical table and a drawing through the BCCI view standard.

The view template names are named in such a way that M represents the template map, P represents the reinforcement map, and X represents the detail map.

The design of a conventional model under the model category is visible, the line color is changed into mauve, the structural framework is set to be blue, the structural steel bars are set to be invisible, 4 filters are designed in the filters and are respectively named as 'template picture', 'reinforcement map' and 'reinforcement shape', the filtering rule of the template picture filter is that A does not contain the reinforcement map, the filtering condition of the reinforcement map filter is that A does not contain the template map, the filtering condition of the reinforcement shape filter is that A contains the steel bars, 3 filters are added in the template of each view, the M template picture-section only marks other settings of the template picture filter and is invisible, the P reinforcement map only marks other settings of the reinforcement map filter and is invisible, and the X detailed view only marks other settings of the template picture filter and is invisible. When drawing each section in the subsequent steps, the template picture, the reinforcement picture and the shape of the steel bar are only needed to be added into the value of the project parameter A, and the technical effect that the required section frame is displayed in each view and other unnecessary section frames are automatically hidden is achieved.

It should be noted that, the above-mentioned manner of creating a project file and the specific implementation manner of the view template are only used as reference examples for implementing the steps by those skilled in the art, and the present invention is not limited in this respect, and those skilled in the art may adjust the specific implementation manner of the actual steps according to actual needs.

And loading the pre-created parameterized family in the S2 into the established project file, generating a prefabricated staircase model by modifying parameters according to actual requirements, and placing embedded parts on the prefabricated staircase model according to the actual requirements, wherein the embedded parts also refer to the self-created parameterized family.

Further, in order to reduce the possibility of error, as a preferred embodiment, the embedded parts embedded in the same side can be locked on the same reference plane, and the positions of the corresponding embedded parts on the two sides can be related, so that when the size of the staircase or the positions of the embedded parts are modified, the embedded parts on the same side can be ensured to be positioned on the same plane, and the positions of the corresponding embedded parts on the other side are also modified.

S4: drawing section and detail drawing of prefabricated staircase template drawing

And drawing a section and a facade to generate a section map synchronous with the model, and controlling the display contents of the template map, the detailed map large sample map and the reinforcement map by using the view template so as to meet the map drawing requirement.

Further, for ease of distinction, the template view section and the reinforcement section are named, and as one possible embodiment, the template view section is named by a number and the reinforcement section is named by a letter.

S5 drawing steel bar

And classifying the reinforcing steel bars in the prefabricated staircase according to different positions. In some embodiments, the rebars are classified according to shape and arrangement position, and each type of rebar is marked with an integer as a rebar number.

Loading a linear steel bar shape family preset in Revit in the project, and drawing the steel bars in the corresponding section view. And after the drawing is finished, modifying the detailed list mark of each steel bar, marking the number of each steel bar according to the previous classification rule, and marking the steel bar by using the steel bar diameter-number family created in the step S2.

S6 creating a list

And creating a steel bar detail list, a prefabricated staircase detail list and an embedded part detail list according to requirements.

The detailed surface and the interior of the steel bar comprise the following fields:

the number, the diameter, the shape image, the length (A, B, C, D, E, F) of each segment, the length of a single steel bar, the total weight and the name (position in the prefabricated staircase) of the steel bar are determined, wherein the total weight of the steel bar is calculated by the volume and the volume weight, and the number of the steel bar is consistent with the number when the steel bar is drawn in the step S5.

The prefabricated staircase detail table comprises the following fields:

the number of the component is manually input, the volume of the component is automatically extracted by Revit according to a model, and the weight of the component is calculated according to a preset formula from the volume of the component (as shown in FIG. 10).

The embedded part list comprises the following fields:

embedded metal (i.e., embedded part name), legend, numbering, number, and description (as shown in fig. 11).

After the list is made, a separate filter is arranged for each list for the purpose of convenient use.

It should be noted that the above detailed descriptions are only used as one possible embodiment of the present invention, and those skilled in the art can select the detailed descriptions to be created and the detailed descriptions in the detailed descriptions according to the actual needs, and the present invention is not limited to this.

S7: section view for drawing reinforcing bar diagram and reinforcing bar shape

And drawing a steel bar section diagram for each type of steel bar so as to output the shape of the steel bar by matching with the view template, loading the steel bar section diagram to the corresponding position of the shape image column in the steel bar detail list, and simultaneously realizing that the corresponding items in the steel bar detail list are consistent with the steel bar model when the length and the shape of each type of steel bar are changed (as shown in figure 12).

S8: dimension marking

And marking the steel bars, the sizes of the components, the positioning and the sizes of the embedded parts in all the views according to the drawing requirements, marking the names of the embedded parts, and marking the lengths of the reinforcing ribs of the embedded parts by utilizing the total length of the lifting ring steel bars in the sharing parameters of the prefabricated components so as to form the prefabricated stair template drawing.

And numbering the reinforcing steel bars and marking the diameters of the reinforcing steel bars by using a group of 'diameter-number' according to the drawing requirements in each reinforcing steel bar view and each reinforcing steel bar section view, and marking the intervals and the positioning by using size marks, thereby finishing the marking of various reinforcing steel bar views.

S9: composing (types)

And newly building a drawing as a template drawing, and dragging each plane view, section view, node detail drawing, three-dimensional drawing of the prefabricated staircase, and a prefabricated staircase detail sheet and a buried part detail sheet in the drawing organization according to the drawing arrangement requirement.

And newly building a drawing as a reinforcement map, and dragging a reinforcement map in a plane view, a section view and a reinforcement list in the list according to the requirements of the arrangement map in the view organization.

However, it should be noted that the layout mode described above is only one possible specific embodiment of the present invention, and those skilled in the art can select a suitable layout mode according to actual needs, and the present invention is not limited in this regard.

S10: print out

And printing the typeset drawing and drawing.

Compared with the existing prefabricated staircase detailed graph designed by two-dimensional design software, the technical scheme of the invention at least has the following advantages:

(1) and (3) immediate linkage of component modification: the sizes of the template drawings are designed in a three-dimensional parameterization mode, the sizes of the prefabricated components and the embedded parts are parameterized, all the sectional drawings, the node detailed drawings and the embedded part detailed drawings are cut from a main model and are equivalent to the situation that the same component is seen from different perspectives, and therefore the consistency with the main model is kept in the sectional drawings, the node detailed drawings and the embedded part detailed drawings at all times. When the size of the prefabricated part or the size of the embedded part changes, only parameters need to be modified, and all related views are modified correspondingly, so that instant linkage modification is realized, the inconsistency of the views on the expression of the same part is avoided, and the error rate and omission of each template graph and node detailed graph are reduced;

(2) and (3) steel bar modification instant linkage: the number and the diameter model of the steel bars in the reinforcement distribution diagram are marked with the attribute and the type name attribute by adopting a detailed list of the steel bars, the attributes are attached to an entity steel bar model, and as long as the number and the diameter model of the steel bars in any view of the same steel bar are the same, the number or the model of the steel bars in a certain view is modified, other views can be automatically modified together, so that the purposes of modifying the steel bars in real time and linking, and reducing the error rate and omission of the number and the diameter of the steel bars in each reinforcement distribution detailed diagram are achieved.

(3) The information extraction is simple and convenient, and the data statistics is high-efficient: the statistical data of the embedded part detail list is linked with all embedded parts, fields in the embedded part detail list are obtained by reading related attributes of the embedded parts, the consistency with the attributes of the embedded parts is kept at any time, the quantity of the embedded parts is automatically added according to the embedded parts with the same number, and therefore the quantity statistics is automatically updated when the number of the embedded parts is increased or decreased. The number of the steel bars is obtained by reading the detail table mark example attribute of the entity steel bars in the steel bar detail table, the number is automatically added according to the same number, the diameter of the steel bars is extracted to be the steel bar type attribute, the length of a single steel bar and the total weight of the steel bars are obtained by extracting the volume of the entity steel bars and adding the length of the steel bars ABCDEF, therefore, the linkage with the entity steel bars is kept, and the data is automatically updated in the steel bar detail table when the number or the length of the entity steel bars is changed. Therefore, complicated information extraction and data statistics do not need to be manually carried out and extracted, and the information can be easily extracted and counted only by the organization mode of calculation formulas and fields in the detail table.

(4) The drawing speed is fast: the project template of the standard prefabricated staircase is formed through the design scheme of the detail drawing of the prefabricated staircase, when the prefabricated staircase of a certain project is drawn, the operation is carried out only according to the scheme of the using process, and the operation steps are as follows: adjusting parameters → checking the position of each embedded part → moving each detailed picture frame and section position → modifying the steel bar model → moving the reinforcement map and the steel bar shape section → checking the size marking → adjusting the typesetting and printing, thus the scheme can achieve the purpose of modifying the template map and the reinforcement map of the prefabricated staircase and greatly improving the graph speed of the prefabricated staircase.

Finally, it is to be noted that: the above description is only a preferred embodiment of the present invention, and is only used to illustrate the technical solutions of the present invention, and not to limit the protection scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention shall fall within the protection scope of the present invention.

Claims (7)

1. A method for quickly plotting detailed diagrams of prefabricated stairs based on Revit software is characterized by comprising the following steps in sequence:

s1, setting sharing parameters;

s2: pre-creating a parameterized family;

s3: creating a project file of the prefabricated staircase, designing a view template, loading each parameterized family, setting parameters of the prefabricated staircase and adding and placing embedded parts;

s4: drawing a template drawing section and a detail drawing of the prefabricated staircase;

s5, drawing steel bars;

s6, creating a detail list;

s7: drawing a reinforcement diagram and a section diagram of the shape of the steel bar;

s8: dimension marking

S9: typesetting;

s10: and printing a graph.

2. The method for rapidly drawing the detailed graph of the prefabricated staircase based on the Revit software as claimed in claim 1, wherein the sharing parameters in the step S1 comprise a prefabricated part sharing parameter and a steel bar shape sharing parameter.

3. The method for rapidly plotting a detailed stair diagram based on Revit software as claimed in claim 1, wherein the pre-created parameterized family in step S2 at least comprises at least one of parameterized family of stairs, parameterized family of balustrade embedded parts, parameterized family of bolt sleeves, reinforced bar mark family, and reinforced bar diameter-number family.

4. The method for rapidly drawing the graph based on the Revit software prefabricated staircase detail drawing of claim 1, wherein each parameterized family loaded in the step S3 is the parameterized family pre-created in the step S2.

5. The method for quickly drawing the detailed graph of the prefabricated staircase based on the Revit software as claimed in claim 1, wherein the marking is modified according to the position of the steel bar in the prefabricated staircase when the steel bar is drawn in the step S5.

6. The method for rapidly drawing the detailed graph of the prefabricated staircase based on the Revit software as claimed in claim 1, wherein the detail list created in the step S6 comprises at least one of a steel bar detail list, a prefabricated staircase information list and a buried part detail list.

7. The method for rapidly drawing the detailed view of the prefabricated staircase based on the Revit software as claimed in claim 1, wherein the size labels in the step S8 comprise the sizes of the steel bars and the members, the positions and the sizes of the embedded parts and the names of the embedded parts in each view.

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