CN112069565A - Design method of plastic-stone rockery - Google Patents

Abstract

The present disclosure provides a design method of a plastic stone rockery, including: establishing a digital model of the plastic stone rockery; carrying out die assembly on the digital model and the fact model to generate a processing model; establishing a coordinate system for the processing model and generating an installation diagram; outputting a processing drawing according to the installation drawing; this openly can reduce the material extravagant, reduces artifical loss, reduces human error, improves engineering design's fineness, and high-quality efficient promotes project work.

Description

Design method of plastic-stone rockery

Technical Field

The invention belongs to the technical field of assembly type buildings, and particularly relates to a design method of a plastic stone rockery.

Background

The plastic stone rockery is used as an artistic handicraft or can be formed by manually building and stacking by taking cement as a cementing material and concrete as a foundation; or may be made of cement mixed mortar, steel wire net or GRC (low alkalinity glass fiber cement) and through artificial plastic turnover molding.

In general, in the process of preparing the plastic-stone rockery, a designer who manufactures the plastic-stone rockery cannot easily check unreasonable arrangement details after arranging a design scheme of the plastic-stone rockery, because the content displayed on the surface of the plastic-stone rockery after the design is finished is easy to disclose the internal structure of the plastic-stone rockery; in addition, the two-dimensional manually-arranged plastic stone rockery is troublesome and unobvious in the adjustment of the display effect in the functional area, because the traditional sand table manufacturing and scanning process at least has a pair of problems of the size error of the building solid model after equal scaling, the manufacturing error of the rockery solid model and the digital scanning error, and the probability of three errors is higher.

Disclosure of Invention

The invention provides a method for designing a plastic stone rockery, which can reduce material waste, reduce labor loss, reduce human errors, improve the fineness of engineering design and promote project work with high quality and high efficiency. The specific technical scheme is as follows.

A design method of a plastic stone rockery comprises the following steps:

s10: establishing a digital model of the plastic stone rockery;

s20: carrying out die assembly on the digital model and the fact model to generate a processing model;

s30: establishing a coordinate system for the processing model and generating an installation diagram;

s40: and outputting a processing drawing according to the installation drawing.

As a specific technical solution, the establishing of the digital model of the plastic stone rockery includes:

carrying out a grass wound design on the stone-plastic rockery, wherein the grass wound design comprises the following steps: and building a style system of the plastic-stone rockery according to the decoration style and theme requirements.

As a specific technical solution, the establishing of the digital model of the plastic stone rockery further comprises:

establishing a digital model, wherein the establishing of the digital model comprises the following steps: and establishing a digital model according to the style system, and designing control points in the digital model.

As a specific technical solution, the establishing of the digital model of the plastic stone rockery further comprises:

engraving the digital model, the engraving the digital model comprising: after the digital model is subjected to topology processing, the digital model is subjected to stretching and Boolean operation processing, and the digital model is characterized by form and fluctuation relation.

As a specific technical solution, the generating a processing model by matching the digital model and the fact model includes:

building a building model and a structure model;

and (3) carrying out die assembly on the digital model, the building model and the structure model, and correcting the digital model to generate a processing model.

As a specific technical solution, the establishing a coordinate system for the processing model and generating the installation diagram includes:

establishing a coordinate system for the processing model according to the size of a clamp, and establishing a dividing line with the same interval as the size of the clamp to perform first mesh division on the processing model;

the coordinate system comprises an X-axis direction, a Y-axis direction and a Z-axis direction.

As a specific technical solution, the establishing a coordinate system for the processing model and generating the installation diagram further includes:

scanning the processing model divided by the meshes and carrying out partition processing according to area calculation;

and performing second mesh segmentation on the processing model subjected to partition processing by using a tangent line, and setting a distinguishing color block on meshes segmented by adjacent second meshes.

As a specific technical solution, the establishing a coordinate system for the processing model and generating the installation diagram further includes:

and setting consistent serial numbers for the meshes divided by the second mesh, and generating the installation drawing according to the serial numbers.

As a specific technical solution, the outputting the processing drawing according to the installation drawing includes:

placing the meshes divided by the second mesh into the coordinate system to generate a mesh processing diagram;

numbering the appliances in the coordinate system to generate an appliance processing diagram;

and outputting a drawing and marking the drawing.

As a specific technical solution, the method further includes: and establishing an entity operation flow chart according to the processing diagram.

In conclusion, the beneficial technical effects of the invention are as follows:

in the embodiment of the invention, the existing materials are used for generating the draft design, the draft design is stored in the processing system, and the draft design is updated at different times, so that the materials are full to meet the requirements of various scenes; the digital model of the plastic stone rockery is established by the creative design, a plurality of digital models can be established by selecting different creative designs for comparison processing, the data model is perfected, and the working efficiency can be improved by a digital processing mode; the digital model and the fact model are matched to generate the processing model, so that the digital model can be attached to a real scene, the digital model can meet the requirements of the scene and the theme, designers can visually describe the information of the digital model, the design process is accelerated, the digital model can be further improved according to the characteristics of the scene, the design effect is rapidly improved, and the material cost is reduced; a coordinate system is set for the processing model, an installation drawing is generated, and a processing drawing is output according to the installation drawing, so that a worker can clearly know the installation process of the plastic stone rockery, misoperation of the worker in the installation process due to excessive components is reduced, and the working efficiency is improved.

The construction method of the plastic-stone rockery greatly improves the overall simulation degree of the plastic-stone rockery, so that the plastic-stone rockery can be highly harmoniously fused into the natural landscape of a scenic spot; the construction method is simple and easy to operate, greatly improves the construction efficiency and shortens the construction period.

Drawings

FIG. 1 is a schematic flow chart of a method for designing a plastic stone rockery according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a creative design of a method for designing a stone-plastic rockery according to an embodiment of the present invention;

FIG. 3 is a schematic view of a digital model of a method for designing a plastic stone rockery according to an embodiment of the present invention;

FIG. 4 is a schematic illustration of engraving a digital model of a method for designing a plastic stone rockery according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of mold clamping of the method for designing a plastic stone rockery according to the embodiment of the present invention;

FIG. 6 is a schematic view of mesh segmentation in the method for designing a plastic stone rockery according to the embodiment of the present invention;

FIG. 7 is a schematic view of a partition processing of the method for designing a plastic stone rockery according to an embodiment of the present invention;

FIG. 8 is a schematic view of mesh numbering process of the method for designing a plastic stone rockery according to the embodiment of the present invention;

FIG. 9 is a schematic view of a mesh sheet processing diagram of a method for designing a plastic stone rockery according to an embodiment of the present invention;

fig. 10 is a schematic cross-sectional view of a mesh sheet processing diagram of a method for designing a plastic stone rockery according to an embodiment of the present invention.

Detailed Description

The present application will be described in detail below with reference to the accompanying drawings in conjunction with embodiments. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

The embodiment of the invention provides a method for designing a plastic stone rockery, which can reduce material waste, reduce labor loss, reduce human errors, improve the fineness of engineering design and promote project work with high quality and high efficiency.

As shown in fig. 1, an embodiment of the present invention provides a method for designing a plastic stone rockery, including:

s10: establishing a digital model of the plastic stone rockery;

in the embodiment of the invention, the design and coloring of the plastic stone rockery are completely carried out by using a digital form, namely the digital model modeling is carried out by using software such as Sketch UP, Maya and the like, and the software used for carrying out the digital model is not limited and only the process of carrying out the digital model modeling is explained; according to the scene used by the plastic-stone rockery, a designer of the plastic-stone rockery describes the structure related to the plastic-stone rockery in the existing scene before designing, selects initial designs which can be combined with the characteristic structures corresponding to the existing scene and can show the functions of the initial designs, then correspondingly combines the initial designs one by one, and performs encumbrance optimization in the combination process to obtain an initial digital model. This process can improve the data processing of the stone rockery of moulding that designs and corresponding scene, reduces the extravagant problem of material among the tradition is manual, can reduce artifical loss, reduces human error simultaneously.

S20: carrying out die assembly on the digital model and the fact model to generate a processing model;

in the embodiment of the present invention, the fact models include building models, structural models, and the like, because the scenes are different, the generated fact models are different, and the types of the models included in the fact models are also different, so that the types and the number of the fact models are not limited herein; therefore, in the embodiment of the present invention, the matching of the digital model and the fact model may be described as that the digital model and the fact model are matched according to the fact model related to the usage scenario design of the plastic stone rockery, and the matching process may be a process of matching the digital model and the fact model, and the digital model is optimized according to the characteristics of the fact model to output a processed model. The process can reduce the scale error of artificially designed plastic stone rockery and improve the fineness of engineering design.

S30: establishing a coordinate system for the processing model and generating an installation diagram;

in the embodiment of the invention, the coordinate system comprises a two-dimensional, three-dimensional, four-dimensional and other coordinate systems of various dimensional sections, and the corresponding coordinate system is designed according to the requirement of a processing model of the plastic stone rockery; the coordinate system can be established in the embodiment of the invention in Maya and other design software according to the size of the steel bar clamp, the coordinate system in three axial directions is designed X, Y, Z in the embodiment of the invention, the existing processing model can be divided according to the working requirement through the established coordinate system, a plurality of corresponding installation diagrams are generated at the same time, and the processing model can be combined through each installation diagram. In the process, the working efficiency of the design of the plastic stone rockery can be improved, and the fineness of engineering design is improved.

S40: and outputting a processing drawing according to the installation drawing.

In the embodiment of the invention, by marking each installation drawing and outputting the processing drawings by arranging the marked installation drawings in sequence, the processing drawings can guide workers to finish the installation of the plastic stone rockery; the process can improve the installation efficiency of the project.

The embodiment of the invention provides a method for designing a plastic stone rockery, which can reduce material waste, reduce labor loss, reduce human errors, improve the fineness of engineering design and promote project work with high quality and high efficiency.

Further, as a refinement and an extension of the above embodiment, in order to fully illustrate a specific implementation process of the above embodiment, another method for designing a plastic stone rockery is provided, as shown in fig. 2 to 10, the method comprising:

step S201: carrying out a grass wound design on the stone-plastic rockery, wherein the grass wound design comprises the following steps: and building a style system of the plastic-stone rockery according to the decoration style and theme requirements.

Wherein, in the embodiment of the invention, the design of the grass cut is as follows: according to the decoration style and theme requirements of different application scenes of the plastic-stone rockery, the design of the plastic-stone rockery in the garden in each scene is built by a brand-new art system, similar rocks need to be searched in nature for wind collection and are optimized to form a draft design, the trend of the overall artistic style system of the plastic-stone rockery is set, enough materials can be provided for subsequent design, and the style system of the plastic-stone rockery is convenient to build.

For example, as shown in fig. 2, a scene in the existing nature is used for recording, and the scene is optimized to generate a corresponding material.

Step 202: establishing a digital model, wherein the establishing of the digital model comprises the following steps: and establishing a digital model according to the style system, and designing control points in the digital model.

In the embodiment of the invention, the rockery digital model is created, and a rectangular simple digital model can be quickly created by software such as Sketch Up and the like at the initial stage; creating a digital model is established according to the characteristics of a style system; and the corresponding control points are designed by feature processing in the digital model. Wherein, the control point can be subjected to mouse click dragging to change the digital model. This process can facilitate the optimization process for the digital model.

For example, as shown in fig. 3, because the model calculation method and compatibility between Sketch Up and Z brush software are different, the digital model created in Sketch Up needs to be loaded into Maya software to add control points according to the data characteristics of the digital model.

Step S203: engraving the digital model, the engraving the digital model comprising: after the digital model is subjected to topology processing, the digital model is subjected to stretching and Boolean operation processing, and the digital model is characterized by form and fluctuation relation.

In the embodiment of the present invention, the digital model is loaded into software such as Z brush, and topology processing is performed on the digital model according to design elements such as scene characteristics, and then optimization processing such as stretching and boolean operations is performed on the digital model to carve required relationship elements such as the general form and the fluctuation relationship of the plastic-stone rockery, for example, as shown in fig. 4, so that the digital model can be processed intuitively and quickly.

Step S204: building a building model and a structure model; and (3) carrying out die assembly on the digital model, the building model and the structure model, and correcting the digital model to generate a processing model.

In the embodiment of the present invention, the fact models include building models, structural models, and the like, because the scenes are different, the generated fact models are different, and the types of the models included in the fact models are also different, so that the types and the number of the fact models are not limited herein; therefore, the step of carrying out mold clamping on the digital model and the fact model can be described in the embodiment of the invention as that the digital model and the fact model are subjected to mold clamping processing according to the fact model related to the use scene design of the plastic stone rockery, wherein the mold clamping processing can be the processing of carrying out optimization processing on the digital model according to the characteristics of the fact model to output a processing model; in the processing software, for example, as shown in fig. 5, the mold closing processing is performed on the carved model of the plastic stone rockery, the model of the building and the model of the structure in the Zbrush processing software, the digital model is optimized, the size of the digital model is adjusted, the exposed positions of the model of the building and the model of the structure are corrected, the conflict between decoration and an actual building structure is avoided, problems are found in advance, and the accuracy and the practicability of the plastic stone rockery are ensured. The process can reduce the scale error of artificially designed plastic stone rockery and improve the fineness of engineering design.

Step S205: establishing a coordinate system for the processing model according to the size of a clamp, and establishing a dividing line with the same interval as the size of the clamp to perform first mesh division on the processing model; the coordinate system comprises an X-axis direction, a Y-axis direction and a Z-axis direction.

In the embodiment of the invention, the coordinate system comprises a two-dimensional, three-dimensional, four-dimensional and other coordinate systems of various dimensional sections, and the corresponding coordinate system is designed according to the requirement of a processing model of the plastic-stone rockery; in the embodiment of the present invention, as shown in fig. 6, a coordinate system is established, which may be established in Maya and other design software according to the size of the steel bar fixture, and in the embodiment of the present invention, three axial coordinate systems are designed X, Y, Z, the established coordinate systems may be used to divide the existing processing model according to the work requirement, and simultaneously, a plurality of corresponding installation diagrams may be generated, and the processing model may be combined by each installation diagram. In the embodiment of the invention, the mesh sheet segmentation is carried out on the digital model by creating the segmentation lines with the same spacing as the size of the reinforcing steel bar clamp. In the process, the working efficiency of the design of the plastic stone rockery can be improved, and the fineness of engineering design is improved.

Step S206: scanning the processing model divided by the meshes and carrying out partition processing according to area calculation; and performing second mesh segmentation on the processing model subjected to partition processing by using a tangent line, and setting a distinguishing color block on meshes segmented by adjacent second meshes.

In the embodiment of the present invention, the processing model subjected to mesh segmentation is scanned, as shown in fig. 7, and it is ensured that the areas of the regions are similar as much as possible, so that the shape does not have too large fluctuation, and unnecessary trouble for the subsequent slicing operation is avoided. The rockery model is divided by using the tangent line, and adjacent meshes are distinguished by using color blocks with different colors, so that preparation is conveniently made for a later mesh installation drawing.

Step S207: and setting consistent serial numbers for the meshes divided by the second mesh, and generating the installation drawing according to the serial numbers.

In the embodiment of the present invention, as shown in fig. 8, the mesh sheets divided by each second mesh sheet are numbered, the numbering forms are kept consistent, and the mesh sheet installation diagram is generated according to a certain sequence of the numbering.

Step S208: placing the meshes divided by the second mesh into the coordinate system to generate a mesh processing diagram; numbering the appliances in the coordinate system to generate an appliance processing diagram; and outputting a drawing and marking the drawing.

In the embodiment of the present invention, as shown in fig. 9 and 10, in the processing software, for example, in Maya software, the mesh divided by the second mesh is placed in the coordinate system of the reinforcing bar fixture, and the mesh processing diagram is generated. The processing software, for example, the CAD software, numbers the reinforcing bars to generate a reinforcing bar processing drawing. And outputting the CAD drawing, and labeling the CAD drawing. Wherein, the utensil can be supporting tools such as reinforcing bars. This is not a limitation in the embodiments of the present invention.

In the embodiment of the invention, the entity operation flow chart is established according to the processing diagram, and the annotation and numbering can be carried out on each drawing according to the sequence of the drawings, so that the follow-up work is facilitated.

In the embodiment of the invention, the existing materials are used for generating the draft design, the draft design is stored in the processing system, and the draft design is updated at different times, so that the materials are full to meet the requirements of various scenes; the digital model of the plastic stone rockery is established by the creative design, a plurality of digital models can be established by selecting different creative designs for comparison processing, the data model is perfected, and the working efficiency can be improved by a digital processing mode; the digital model and the fact model are matched to generate the processing model, so that the digital model can be attached to a real scene, the digital model can meet the requirements of the scene and the theme, designers can visually describe the information of the digital model, the design process is accelerated, the digital model can be further improved according to the characteristics of the scene, the design effect is rapidly improved, and the material cost is reduced; a coordinate system is set for the processing model, an installation drawing is generated, and a processing drawing is output according to the installation drawing, so that a worker can clearly know the installation process of the plastic stone rockery, misoperation of the worker in the installation process due to excessive components is reduced, and the working efficiency is improved.

The construction method of the plastic-stone rockery greatly improves the overall simulation degree of the plastic-stone rockery, so that the plastic-stone rockery can be highly harmoniously fused into the natural landscape of a scenic spot; the construction method is simple and easy to operate, greatly improves the construction efficiency and shortens the construction period.

The above embodiments are merely provided for full disclosure and not for limitation, and any replacement of equivalent technical features based on the creative work of the invention should be regarded as the scope of the disclosure of the present application.

Claims (10)

1. A design method of a plastic stone rockery is characterized by comprising the following steps:

s10: establishing a digital model of the plastic stone rockery;

s20: carrying out die assembly on the digital model and the fact model to generate a processing model;

s30: establishing a coordinate system for the processing model and generating an installation diagram;

s40: and outputting a processing drawing according to the installation drawing.

2. The design method of claim 1, wherein the creating a digital model of the plastic stone rockery comprises:

carrying out a grass wound design on the stone-plastic rockery, wherein the grass wound design comprises the following steps: and building a style system of the plastic-stone rockery according to the decoration style and theme requirements.

3. The design method of claim 2, wherein said creating a digital model of a plastic stone rockery further comprises:

establishing a digital model, wherein the establishing of the digital model comprises the following steps: and establishing a digital model according to the style system, and designing control points in the digital model.

4. The design method of claim 3, wherein said creating a digital model of a plastic stone rockery further comprises:

engraving the digital model, the engraving the digital model comprising: after the digital model is subjected to topology processing, the digital model is subjected to stretching and Boolean operation processing, and the digital model is characterized by form and fluctuation relation.

5. The design method of claim 1, wherein the generating a process model by matching the digital model with a fact model comprises:

building a building model and a structure model;

and (3) carrying out die assembly on the digital model, the building model and the structure model, and correcting the digital model to generate a processing model.

6. The design method of claim 1, wherein the generating the installation map by establishing a coordinate system for the process model comprises:

establishing a coordinate system for the processing model according to the size of a clamp, and establishing a dividing line with the same interval as the size of the clamp to perform first mesh division on the processing model;

the coordinate system comprises an X-axis direction, a Y-axis direction and a Z-axis direction.

7. The design method of claim 6, wherein the generating the installation map by establishing a coordinate system for the process model further comprises:

scanning the processing model divided by the meshes and carrying out partition processing according to area calculation;

and performing second mesh segmentation on the processing model subjected to partition processing by using a tangent line, and setting a distinguishing color block on meshes segmented by adjacent second meshes.

8. The design method of claim 7, wherein the generating the installation map by establishing a coordinate system for the process model further comprises:

and setting consistent serial numbers for the meshes divided by the second mesh, and generating the installation drawing according to the serial numbers.

9. The design method of claim 8, wherein outputting the tooling drawing based on the installation drawing comprises:

placing the meshes divided by the second mesh into the coordinate system to generate a mesh processing diagram;

numbering the appliances in the coordinate system to generate an appliance processing diagram;

and outputting a drawing and marking the drawing.

10. The design method of claim 1, further comprising: and establishing an entity operation flow chart according to the processing diagram.

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