CN110929311A - Three-dimensional component modeling and construction drawing linkage editing method thereof - Google Patents

Abstract

The invention discloses a method for editing a three-dimensional component in a linkage manner with modeling and construction drawing, which comprises the following steps: defining a three-dimensional component, a key position and a sub-part, wherein the key position comprises and is limited to a mile pile number position, a telescopic seam position, a support seat, a node position, a construction seam position, a section mounting position, a transverse partition plate position, a vertical stiffening position, an anchor cable position, an anchor box position and the like, and the key position adopts in-situ editing and marking in the length direction of the component; creating a top plane, a bottom plane and a key position plane layout drawing of the component; establishing a vertical face of a lofting state along the length direction of the component and a corresponding key position vertical face layout drawing; creating a cross-sectional diagram of the corresponding member key position and the position needing to be designed in detail; and respectively importing the component information model into a local or cloud parameter performance evaluation system and a local or cloud mechanical safety evaluation system, wherein the parameter performance evaluation system and the mechanical safety evaluation system are subjected to analysis, the parameter performance evaluation system and the mechanical safety evaluation system are visually displayed in a mode of a graph, a table and the like, and if the system evaluation is satisfied, the last key of component construction drawing is drawn.

Description

Three-dimensional component modeling and construction drawing linkage editing method thereof

Technical Field

The invention belongs to the technical field of design of three-dimensional components of design software in industries such as civil engineering construction, bridge engineering and the like, and particularly relates to a method for editing three-dimensional component modeling and construction drawing in a mutual linkage manner.

Background

At present, in the fields of civil engineering, bridge engineering and the like, component design software adopts a dialog box or a form to input two-dimensional information, then a three-dimensional component is created and a two-dimensional construction drawing is drawn, if the construction drawing is found to be incorrect, the dialog box or the form is required to be returned again to modify model data, then redesign and drawing the construction drawing are carried out, the design data are one-way from top to bottom in the traditional software design concept, a three-dimensional model and a two-dimensional construction drawing information model are completely separated, the correlation is not realized, the linkage is not realized, if a local construction drawing is modified, the whole model is required to be analyzed again, the general modeling function is not realized, the error is more, the intuition is not realized, the time and labor.

In order to realize real-time mutual linkage updating of component key positions and component sub-part information models of a three-dimensional component editor viewport, a plane editor viewport, a facade editor viewport and a section editor viewport, the invention provides a mutual linkage editing method for three-dimensional component modeling and construction drawing, which can solve the problem of component errors, is visual in display, saves a large amount of design cost and time, and greatly improves the working efficiency.

Disclosure of Invention

The invention aims to provide a method for editing a three-dimensional component by mutual linkage of modeling and drawing of a construction drawing, so as to overcome the defects of missing component design information, non-intuition, no general modeling function, time and labor waste, low efficiency and the like in the background technology, and seriously limit and obstruct the ability of designers to design complex components.

In order to achieve the purpose, the invention provides the following technical scheme: the method for editing the mutual linkage between the modeling of the three-dimensional component and the drawing of the construction drawing comprises the following steps:

the method comprises the following steps: creating a three-dimensional component and its key positions in a viewport of a three-dimensional component editor, wherein the key positions comprise and are limited to a mile pile number position, a telescopic seam position, a support seat, a construction seam position, a section installation position, a transverse partition plate position, a vertical stiffening position, an anchor cable position, an anchor box position and the like, and the key positions are arranged in the length direction of the component by adopting in-situ editing and labeling: (1) by means of a command mechanism: inputting a section and a three-dimensional coordinate point set required to be installed by a component; then, creating a component key position, and inputting a key position type and a key position arrangement expression; (2) the method comprises the steps of importing the map layer by a DXF file, wherein the map layer is not limited to a road center line flat curve map layer, a road center line vertical curve map layer, a road installation section name, a mileage stake number map layer, an expansion joint map layer, a support map layer, a road installation point map layer and the like. The three-dimensional component and the key position thereof are created through two modes of (1) or (2), a key position on-position editing label and a key position attribute table are generated, the operations are repeated to create other three-dimensional components and the key position thereof, the on-position editing label or the key position attribute table is double-clicked, the modification and editing of the key position type, the step distance, the color, the design parameter and other parameter attributes of the components are carried out, meanwhile, the key position layout diagrams and component sub-part information models of the components corresponding to the viewport of the plane editor, the viewport of the facade editor and the viewport of the section editor are respectively updated, and the component information models corresponding to the four viewports are mutually updated in a linkage manner in real.

Step two: creating a top plane, a bottom plane and a key position plane layout diagram of the corresponding three-dimensional member in a viewport of a plane editor: (1) generating a component top plane layout diagram by one key; (2) generating a component bottom plane layout diagram by one key; (3) generating a shear key plane layout diagram by one key; (4) generating other floor plan drawings by one key; (5) arranging pictures on the top plane and the bottom plane to increase the design of a web plate; (6) arranging a picture on the top plane and the bottom plane and adding a stiffening rib design; (7) arranging designs of reinforcing steel bars, steel bundles, tooth blocks and the like on the arrangement diagrams of the top plane and the bottom plane; (8) adding steel beams and other layout designs on the top plane layout; (9) and adding a support arrangement design on the bottom plane arrangement diagram. (10) Arranging a transverse partition system on the arrangement diagram of the top plane and the bottom plane; (11) and adding a suspended bottom plate arrangement design in a top plane arrangement diagram. (1) And (11) generating a component key bit arrangement and a component sub-part in-place editing label and an attribute table, double-clicking the in-place editing label or clicking the attribute table, modifying and editing the attributes such as the component key bit type, the step pitch, the color, the design parameters and the like, and simultaneously updating the key bit arrangement diagrams of the components corresponding to the three-dimensional component editor viewport, the facade editor viewport and the section editor viewport respectively so as to ensure that the component information models corresponding to the four viewports are updated in a real-time mutual linkage manner.

Step three: creating a facade corresponding to the lofted state along the component length integration direction and a corresponding key position facade layout drawing in a facade editor viewport: (1) generating a floor plan by a key; (2) performing transverse partition system arrangement and corresponding type design on the vertical layout: the method comprises two types of transverse partition plates and vertical stiffening ribs; (3) the design of adding stiffening ribs to the web is carried out on the vertical layout; (4) designing web steel bars, steel bundles, tooth blocks and the like on the vertical layout; (5) performing a shear key elevation layout design on the elevation layout drawing; (6) and designing the thickness of the steel plate along the bridge direction on a vertical layout. (1) And (6) generating member key positions and member sub-part in-place editing labels and attribute tables, double-clicking the member key positions and the member sub-part in-place editing labels or clicking the attribute tables, modifying and editing the attributes of the member key positions and the member sub-part types, the step distances, the colors, the design parameters and the like, simultaneously updating the key position layout diagrams of the members corresponding to the three-dimensional member editor viewport, the plane editor viewport and the section editor viewport respectively, and enabling the member information models corresponding to the four viewports to be updated in a real-time mutual linkage manner.

Step four: creating a section diagram at a position corresponding to the member key position and needing detailed design in a viewport of a section editor: (1) designing the thickness of the cross section diaphragm plate; (2) designing a vertical stiffening rib of the section; (3) designing a transverse partition system stiffening plate through section control line deviation or vertical copying; (4) designing reinforcing steel bars, steel bundles and the like through section control line deviation or vertical copying; (5) designing a diaphragm series manhole through cross section control line offset or vertical copying; (6) the cross section control line is used for deviating the design of the transverse clapboard support stiffening plate and the support coaming. (1) And (6) generating a member key position and a member sub-part in-place editing label and an attribute table, double-clicking the member key position and the member sub-part in-place editing label or clicking the attribute table, modifying and editing the attributes such as the member key position and the member sub-part type, the step pitch, the color, the design parameters and the like, simultaneously updating the member key position and the member sub-part layout corresponding to the three-dimensional member editor viewport, the facade editor viewport and the plane editor viewport respectively, and enabling the member information models corresponding to the four viewports to be updated in a real-time linkage manner, wherein the member sub-parts comprise and are limited to transverse partition plates, vertical stiffening plates, transverse partition plate stiffening plates, manholes, support stiffening plates, support stiffening coamings, suspension bottom plates, reinforcing steel bars, steel beams, tooth blocks, anchor cables, anchor boxes and.

Step five: the component and the key bit information model thereof are respectively led into a local or cloud parameter performance evaluation system and a local or cloud mechanical safety evaluation system, the parameter performance evaluation system and the mechanical safety evaluation system are analyzed and visually displayed in the modes of a graph, a table and the like, and if the system evaluation is met, the last key component construction graph is drawn.

As a preferred embodiment of the present invention, the three-dimensional component design view port is summarized into 4 view ports, each of which is: a three-dimensional component editor viewport, a plane editor viewport, a facade editor viewport and a cross-section editor viewport.

In a preferred embodiment of the present invention, the three-dimensional member modeling includes, but is not limited to, member modeling of any curved type, linear type, any variable height type, any variable width type, any variable height variable width type, and the like.

As a preferred technical scheme of the invention, the three-dimensional component editor viewport, the component, the sub-parts and the key bits thereof adopt in-place editing labels and attribute tables, double-click in-place editing labels or click attribute tables to realize the modification and editing of the attributes such as the component key bits and the component sub-part types, steps, colors, steps, design parameters and the like, and simultaneously update the component key bit layout diagrams and the sub-part information models corresponding to the plane editor viewport, the facade editor viewport and the section editor viewport respectively, so that the component information models corresponding to the four viewports are updated in a real-time mutual linkage manner.

As a preferred technical scheme of the invention, the planar editor viewport, the component, the sub-parts thereof and the key bits adopt in-place editing labels and attribute tables, double-click in-place editing labels or click attribute tables to realize attribute modification editing of the component key bits and the component sub-parts, such as types, steps, colors, steps, design parameters and the like, and simultaneously update the component key bit layout diagrams and the sub-part information models corresponding to the three-dimensional component editor viewport, the facade editor viewport and the section editor viewport respectively, so that the component information models corresponding to the four viewports are updated in a real-time mutual linkage manner.

As a preferred technical scheme of the invention, the elevation editor viewport, the component, the sub-parts thereof and the key bits adopt in-place editing labels and attribute tables, double-click in-place editing labels or click attribute tables to realize attribute modification editing of the component key bits and the component sub-parts such as types, steps, colors, steps, design parameters and the like, and simultaneously update the component key bit layout diagrams and the sub-part information models corresponding to the three-dimensional component editor viewport, the plane editor viewport and the section editor viewport respectively, so that the component information models corresponding to the four viewports are updated in a real-time mutual linkage manner.

As a preferred technical scheme of the invention, the cross section editor viewport, the component, the sub-parts thereof and the key bits adopt in-place editing labels and attribute tables, double-click in-place editing labels or click attribute tables to realize attribute modification and editing of the component key bits and the component sub-parts such as types, steps, colors, steps, design parameters and the like, and simultaneously update the key bit layout drawing and the sub-part information model of the corresponding component of the three-dimensional component editor viewport, the plane editor viewport and the facade editor viewport respectively, so that the component information models corresponding to the four viewports are updated in a real-time mutual linkage manner.

As a preferable technical scheme of the invention, the three-dimensional member modeling and construction drawing linkage editing method comprises the following steps: continuously creating component parts and updating data through a plane editor viewport, a facade editor viewport, a section editor viewport and the like, and gradually creating a complete three-dimensional component model; and in-place editing annotation or clicking attribute table modification generated by double-clicking the component, the key positions and the component sub-part objects in the three-dimensional component editor viewport, updating the key positions and the component sub-parts of the components corresponding to the plane editor viewport, the facade editor viewport and the section editor viewport in real time, so that the component information models corresponding to the four viewports are updated in a linkage manner in real time, the component information models of the four viewport are in linkage with each other, the component related information model of any viewport is modified, and the component information models of other three viewports are modified in a linkage manner in real time.

As a preferred technical aspect of the present invention, the method for editing the three-dimensional member modeling and the construction drawing thereof in linkage with each other comprises: the method comprises the following steps that four view ports such as a three-dimensional component editor view port, a plane editor view port, a facade editor view port and a section editor view port are uniformly subjected to interface management in a total view port frame view port, namely a user always sees the four view ports simultaneously, and the four view ports can be arranged in a moving mode at will and can be divided into view port sizes at will; the method also comprises a three-dimensional component editor viewport, a plane editor viewport, a facade editor viewport and a section editor viewport, wherein each viewport can independently manage and display, move and arrange randomly and divide the size of the viewport randomly.

As a preferable technical scheme of the invention, the three-dimensional member modeling and construction drawing linkage editing method comprises the following steps: and respectively importing the component and the key bit information model thereof into a local or cloud parameter performance evaluation system and a local or cloud mechanical safety evaluation system, wherein the parameter performance evaluation system and the mechanical safety evaluation system are analyzed and visually displayed in the modes of a graph, a table and the like, if the system evaluation is satisfied, drawing the construction drawing of the last key component, and if the system evaluation is not satisfied, returning to the four view ports for redesigning until the system evaluation is satisfied.

Compared with the prior art, the invention has the beneficial effects that: the method for editing the three-dimensional component by mutual linkage of modeling and drawing of the construction drawing of the three-dimensional component can ensure that the design of any component, especially the design of complex special-shaped components, is flexible, convenient, time-saving, labor-saving, intuitive and difficult to make mistakes, and greatly improves the working efficiency.

Drawings

FIG. 1 is a flow chart of the present invention;

Detailed Description

The invention provides a method for editing a three-dimensional component by performing high abstraction on component design and realizing mutual linkage of modeling of the three-dimensional component and drawing of a construction drawing of the three-dimensional component, which comprises the following steps:

the method comprises the following steps: creating a three-dimensional component and its key positions in a viewport of a three-dimensional component editor, wherein the key positions comprise and are limited to a mile pile number position, a telescopic seam position, a support seat, a construction seam position, a section mounting position, a transverse partition plate position, a vertical stiffening position, an anchor cable position, an anchor box and the like, and the key positions are arranged in the length direction of the component and adopt in-place editing and labeling: (1) by means of a command mechanism: inputting a section and a three-dimensional coordinate point set required to be installed by a component; then, creating a component key position, and inputting a key position type and a key position arrangement expression; (2) importing the map by a DXF file, wherein the map is not limited to a road center line flat curve map layer, a road center line vertical curve map layer, a mounting section name, a mileage pile number map layer, an expansion joint map layer, a support map layer, a section mounting point map layer, an anchor cable map layer and the like; the three-dimensional component and the key position thereof are created through the two modes of (1) or (2), a key position on-position editing label and a key position attribute table are generated, the operations are repeated to create other three-dimensional components and the key position thereof, the on-position editing label or the key position attribute table is double-clicked, the attribute modification editing such as component key position types, step distances, colors, design parameters and the like is carried out, meanwhile, the key position layout diagrams of the components corresponding to the viewport of the plane editor, the viewport of the facade editor and the viewport of the section editor are respectively updated, and the information models of the components corresponding to the four viewports are updated in a real-time mutual linkage manner.

Step two: creating a top plane, a bottom plane and a key position plane layout diagram of the corresponding three-dimensional member in a viewport of a plane editor: (1) generating a component top plane layout diagram by one key; (2) generating a component bottom plane layout diagram by one key; (3) generating a shear key plane layout diagram by one key; (4) generating other floor plan drawings by one key; (5) arranging pictures on the top plane and the bottom plane to increase the design of a web plate; (6) arranging a picture on the top plane and the bottom plane and adding a stiffening rib design; (7) arranging designs of reinforcing steel bars, steel bundles, tooth blocks and the like on the arrangement diagrams of the top plane and the bottom plane; (8) adding steel beams and other layout designs on the top plane layout; (9) and adding a support arrangement design on the bottom plane arrangement diagram. (10) Arranging a transverse partition system on the arrangement diagram of the top plane and the bottom plane; (11) and adding a suspended bottom plate arrangement design in a top plane arrangement diagram. (1) And (11) generating a component key bit arrangement and a component sub-part in-place editing label and an attribute table, double-clicking the in-place editing label or the attribute table, modifying and editing the attributes such as the component key bit type, the step pitch, the color, the design parameters and the like, and simultaneously updating a component key bit arrangement diagram and a component sub-part information model corresponding to a three-dimensional component editor viewport, a facade editor viewport and a section editor viewport respectively so as to ensure that component information models corresponding to the four viewports are updated in a real-time mutual linkage manner.

Step three: creating a facade corresponding to the lofted state along the component length integration direction and a corresponding key position facade layout drawing in a facade editor viewport: (1) generating a floor plan by a key; (2) performing transverse partition system arrangement and corresponding type design on the vertical layout: the method comprises two types of transverse partition plates and vertical stiffening ribs; (3) the design of adding web stiffening ribs is carried out on the floor layout; (4) designing web steel bars, steel bundles, tooth blocks and the like on the vertical layout; (5) performing a shear key elevation layout design on the elevation layout drawing; (6) and designing the thickness of the steel plate along the bridge direction on a vertical layout. (1) And (6) generating member key positions and member sub-part in-place editing labels and attribute tables, double-clicking the member key positions and the member sub-part in-place editing labels or clicking the attribute tables, modifying and editing the attributes of the member key positions and the member sub-part types, the step distances, the colors, the design parameters and the like, simultaneously updating the key position layout diagrams of the members corresponding to the three-dimensional member editor viewport, the plane editor viewport and the section editor viewport respectively, and enabling the member information models corresponding to the four viewports to be updated in a real-time mutual linkage manner.

Step four: creating a section diagram at a position corresponding to the member key position and needing detailed design in a viewport of a section editor: (1) designing the thickness of the cross section diaphragm plate; (2) designing a vertical stiffening rib of the section; (3) designing a transverse partition system stiffening plate through section control line deviation or vertical copying; (4) designing reinforcing steel bars, steel bundles, tooth blocks and the like through section control line deviation or vertical copying; (5) designing a diaphragm series manhole through cross section control line offset or vertical copying; (6) the cross section control line is used for deviating the design of the transverse clapboard support stiffening plate and the support coaming. (1) And (6) generating a member key position and a member sub-part in-place editing label and an attribute table, double-clicking the member key position and the member sub-part in-place editing label or clicking the attribute table, modifying and editing the attributes such as the member key position and the member sub-part type, the step pitch, the color, the design parameters and the like, simultaneously updating a three-dimensional member editor viewport, a vertical surface editor viewport, a plane editor viewport corresponding member key position arrangement drawing and a member sub-part information model respectively, and enabling the four viewport corresponding member information models to be updated in a real-time linkage manner, wherein the member sub-parts comprise and are limited to a transverse partition plate, a vertical stiffening plate, a transverse partition plate stiffening plate, a manhole, a support stiffening plate, a support stiffening bounding plate, a suspension bottom plate, a reinforcing steel bar, a steel beam.

Step five: and respectively importing the component, the key positions of the component and the component sub-part information model into a local or cloud parameter performance evaluation system and a local or cloud mechanical safety evaluation system, wherein the parameter performance evaluation system and the mechanical safety evaluation system are subjected to analysis, the parameter performance evaluation system and the mechanical safety evaluation system are visually displayed in a form of a graph, a table and the like, and if the system evaluation is met, the last key component construction graph is drawn.

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

Claims (9)

1. The method for editing the three-dimensional component modeling and the construction drawing in a linkage manner is characterized by comprising the following steps of:

the method comprises the following steps: creating a three-dimensional component and its key positions In a viewport of a three-dimensional component editor, wherein the key positions comprise and are limited to mile pile number positions, telescopic seam positions, support seats, node positions, construction seam positions, section mounting positions, diaphragm positions, vertical stiffening positions and the like, and the key positions are adopted In the length direction of the component and adopt In-Place editing and marking (Edit-In-Place-Dim) steps In the length direction of the component: (1) by means of a command mechanism: inputting a section and a three-dimensional coordinate point set required to be installed by a component; then, creating a component key position, and inputting a key position type and a key position arrangement expression; (2) importing the map by a DXF file, wherein the map comprises a road center line flat curve map layer, a road center line vertical curve map layer, a mounting section name, a mileage pile number map layer, an expansion joint map layer, a support map layer, a section mounting point map layer and the like; the three-dimensional component and the key position thereof are created through two modes of (1) or (2), a key position on-position editing label and a key position attribute table are generated, the operations are repeated to create other three-dimensional components and the key position thereof, the on-position editing label or the key position attribute table is double-clicked, the modification and editing of the attributes such as the key position type, the step pitch, the color, the design parameter and the like of the component are carried out, meanwhile, the key position layout drawing and the component sub-part information model of the component corresponding to the viewport of the plane editor, the viewport of the facade editor and the viewport of the section editor are respectively updated, and the component information models corresponding to the four viewports are updated in a.

Step two: creating a top plane, a bottom plane and a key position plane layout diagram of the corresponding three-dimensional member in a viewport of a plane editor: (1) generating a component top plane layout diagram by one key; (2) generating a component bottom plane layout diagram by one key; (3) generating a shear key plane layout diagram by one key; (4) generating other floor plan drawings by one key; (5) arranging pictures on the top plane and the bottom plane to increase the design of a web plate; (6) arranging a picture on the top plane and the bottom plane and adding a stiffening rib design; (7) arranging designs such as reinforcing steel bars, steel bundles, tooth blocks and the like on the arrangement diagrams of the top plane and the bottom plane; (8) adding steel beams and other layout designs on the top plane layout; (9) adding a support arrangement design on a bottom plane arrangement diagram; (10) arranging a transverse partition system on the arrangement diagram of the top plane and the bottom plane; (11) and adding a suspended bottom plate arrangement design in a top plane arrangement diagram. (1) And (11) generating a key bit arrangement in-place editing label and an attribute table of the component, double-clicking the in-place editing label or clicking the attribute table, modifying and editing the attributes such as the type, the step distance, the color, the design parameters and the like of the key bit of the component, and simultaneously updating the key bit arrangement diagrams of the components corresponding to the viewport of the three-dimensional component editor, the viewport of the facade editor and the viewport of the section editor respectively so as to ensure that the information models of the components corresponding to the four viewports are updated in a real-time mutual linkage manner.

Step three: creating a facade corresponding to the lofted state along the component length integration direction and a corresponding key position facade layout drawing in a facade editor viewport: (1) generating a floor plan by a key; (2) performing transverse partition system arrangement and corresponding type design on the vertical layout: the method comprises two types of transverse partition plates and vertical stiffening ribs; (3) the design of adding stiffening ribs to the web is carried out on the vertical layout; (4) designing web steel bars, steel bundles and the like on the vertical layout; (5) performing a shear key elevation layout design on the elevation layout drawing; (6) and designing the thickness of the steel plate along the bridge direction on a vertical layout. (1) And (6) generating a member key position and a member sub-part in-place editing label and an attribute table, double-clicking the member key position and the member sub-part in-place editing label or clicking the attribute table, modifying and editing the attributes of the member key position and the member sub-part such as type, step pitch, color, design parameters and the like, and simultaneously updating a member key position layout drawing and a member sub-part model corresponding to a three-dimensional member editor viewport, a plane editor viewport and a section editor viewport respectively so as to ensure that the member information models corresponding to the four viewports are updated in a real-time linkage manner.

Step four: creating a section diagram and a component sub-part at a position corresponding to the member key position and needing detailed design in a viewport of a section editor: (1) designing the thickness of the cross section diaphragm plate; (2) designing a vertical stiffening rib of the section; (3) designing a transverse partition system stiffening plate through section control line deviation or vertical copying; (4) designing reinforcing steel bars, steel bundles, tooth blocks and the like through section control line deviation or vertical copying; (5) designing a diaphragm manhole through cross section control line offset or vertical copying; (6) and designing the transverse clapboard support stiffening plate and the support coaming plate through the deviation of the section control line. (1) And (6) generating a member key position and a member sub-part in-place editing label and an attribute table, double-clicking the member key position and the member sub-part in-place editing label or clicking the attribute table, modifying and editing the attributes such as the member key position and the member sub-part type, the step pitch, the color, the design parameters and the like, simultaneously updating a three-dimensional member editor viewport, a vertical surface editor viewport, a plane editor viewport corresponding member key position arrangement drawing and a member sub-part information model respectively, and enabling the four viewport corresponding member information models to be updated in a real-time linkage manner, wherein the member sub-parts comprise and are limited to a transverse partition plate, a vertical stiffening plate, a transverse partition plate stiffening plate, a manhole, a support stiffening plate, a support stiffening bounding plate, a suspension bottom plate, a reinforcing steel bar, a steel beam, a tooth block, an.

Step five: and respectively importing the component, the key positions of the component and the component sub-part information model into a local or cloud parameter performance evaluation system and a local or cloud mechanical safety evaluation system, wherein the parameter performance evaluation system and the mechanical safety evaluation system are subjected to analysis, the parameter performance evaluation system and the mechanical safety evaluation system are visually displayed in a form of a graph, a table and the like, and if the system evaluation is met, the last key component construction graph is drawn.

2. The editing method for the mutual linkage between the modeling of the three-dimensional component and the drawing of the construction drawing according to claim 1, wherein: and secondly, in-place editing marks and attribute tables are adopted for the components and key positions thereof, attributes such as key position types, step distances, colors, parameters and the like of the components are modified and edited by double-clicking the in-place editing marks or clicking the attribute tables, and meanwhile, key position layout diagrams and component sub-part information models of the components corresponding to the viewport of the plane editor, the viewport of the facade editor and the viewport of the section editor are respectively updated, so that the information models of the components corresponding to the four viewports are updated in a real-time and mutually linked manner.

3. The editing method for the mutual linkage between the modeling of the three-dimensional component and the drawing of the construction drawing according to claim 1, wherein: and step two, generating key position layout in-place editing labels and attribute tables of the components, double-clicking the in-place editing labels or clicking the attribute tables, modifying and editing the attributes of the parameters such as key position types, step distances, colors and the like of the components, simultaneously updating the key position layout diagrams and the component sub-part information models corresponding to the viewport of the three-dimensional component editor, the viewport of the facade editor and the viewport of the section editor respectively, and enabling the component information models corresponding to the four viewports to be updated in a real-time and mutually linked manner.

4. The editing method for the mutual linkage between the modeling of the three-dimensional component and the drawing of the construction drawing according to claim 1, wherein: and in the second step, creating the component parametric sub-parts on the top plane and the bottom plane, wherein the component parametric sub-parts comprise but not limited to web plate objects, stiffening rib objects, steel beam objects, support objects, shear key objects, steel bar objects, steel beam objects, tooth block objects, anchor cable objects, anchor box objects and other objects, generating bit editing labels and attribute tables of the parametric sub-parts, double-clicking the bit editing labels or clicking the attribute tables, modifying and editing the attributes of the component parametric sub-parts such as types, step distances, colors, design parameters and the like, and simultaneously updating the key bit layout of the component and the component sub-part information models corresponding to the viewport, the viewport of the three-dimensional component editor, the viewport of the vertical surface editor and the viewport of the section editor respectively, so that the component information models corresponding to the four viewports are updated in a linkage.

5. The editing method for the mutual linkage between the modeling of the three-dimensional component and the drawing of the construction drawing according to claim 1, wherein: and in the third step, the designs including the transverse partition system central line of the control line of the member sub-part, the web plate additionally provided with stiffening rib lines, the thickness change line of the steel plate along the forward bridge direction, the web plate steel bar lines, the web plate steel wire lines, the haunching positioning lines, the tooth block positioning lines and the like are generated in the elevation diagram, the on-site editing marks and the attribute table of the control line of the member sub-part are generated, the marks are edited or the attribute table is clicked in a double-click on-site mode, the attribute modification editing such as the type, the step pitch, the color, the design parameters and the like of the control line of the member sub-part is carried out, meanwhile, the key positions of the corresponding members of the viewport, the viewport of the elevation editor and the viewport of the section editor and the arrangement diagram of the control line of the member sub-part are respectively.

6. The editing method for the mutual linkage between the modeling of the three-dimensional component and the drawing of the construction drawing according to claim 1, wherein: the method comprises the steps of creating component sub-parts including but not limited to a diaphragm plate, a manhole, a diaphragm plate stiffening plate, a support stiffening plate, a vertical stiffening plate, a support coaming, a steel bar, a steel beam suspended bottom plate, a tooth block, a steel bar, a steel beam and the like through section control line deviation or vertical copying, generating on-site editing marks and attribute tables of the component sub-parts, double-clicking on-site editing marks or clicking the attribute tables, modifying and editing attributes such as component sub-part types, step distances, colors, design parameters and the like, simultaneously updating key positions of the corresponding components of a three-dimensional component editor viewport, a facade editor viewport and a plane editor viewport and information models of the corresponding components of the component sub-parts respectively, and enabling the information models of the corresponding components of the four viewports to.

7. The editing method for the mutual linkage between the modeling of the three-dimensional component and the drawing of the construction drawing according to claim 1, wherein: continuously creating and updating data of the component sub-parts through the two-plane editor viewport, the three-facade editor viewport, the four-section editor viewport and the like, and gradually creating a complete three-dimensional component overall information model; and in-place editing and marking or clicking attribute table modification generated by double-clicking the component, the key positions and the component sub-part objects in the viewport of the three-dimensional component editor, updating the key positions and the component sub-parts of the corresponding components of the viewport of the plane editor, the viewport of the facade editor and the viewport of the section editor in real time, and enabling the information models of the corresponding components of the four viewports to be updated in real time in a linkage manner.

8. The editing method for the mutual linkage between the modeling of the three-dimensional component and the drawing of the construction drawing according to claim 1, wherein: step one, step two, step three, step four, step five four viewport such as three-dimensional component editor viewport, flat editor viewport, facade editor viewport, section editor viewport, etc. carry on an interface management in a overall viewport frame viewport in unison, namely users see four viewports at the same time all the time, and these four viewports can move and arrange wantonly, cut the size of viewport wantonly; the method also comprises the steps of a first step, a second step, a third step, a fourth step and a fifth step, wherein each viewport of the four viewports, such as the three-dimensional component editor viewport, the plane editor viewport, the facade editor viewport and the section editor viewport, can independently manage and display, move and arrange randomly and divide the size of the viewport randomly.

9. The editing method for the mutual linkage between the modeling of the three-dimensional component and the drawing of the construction drawing according to claim 1, wherein: and respectively importing the component and the key bit information model thereof into a local or cloud parameter performance evaluation system and a local or cloud mechanical safety evaluation system, wherein the parameter performance evaluation system and the mechanical safety evaluation system are analyzed and visually displayed in the modes of a graph, a table and the like, if the system evaluation is satisfied, drawing a construction drawing of the component by the last key, and if the system evaluation is not satisfied, re-designing in the first step, the second step, the third step and the fourth step until the system evaluation is satisfied.

Images