CN115828402A - Construction method of building with clear water member - Google Patents
Construction method of building with clear water member Download PDFInfo
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- CN115828402A CN115828402A CN202310107854.9A CN202310107854A CN115828402A CN 115828402 A CN115828402 A CN 115828402A CN 202310107854 A CN202310107854 A CN 202310107854A CN 115828402 A CN115828402 A CN 115828402A
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Abstract
The present disclosure relates to a construction method of a building with a green water member. The method comprises the following steps: responding to a curved surface flattening command in the Rhino software, and unfolding a target clear water curved surface in a target member in a three-dimensional model of a target building to obtain a plane unfolded drawing of the target clear water curved surface; importing the planar development drawing of the target clear water curved surface into CAD software, and carrying out deepening design on the planar development drawing of the target clear water curved surface in the CAD software to obtain a deepened design drawing of the target clear water curved surface; in the process of construction of the target building, construction is performed according to the deepened design drawing of each clear water surface of each target member. According to the method, the target clear water curved surface is flattened and unfolded to obtain a planar development drawing, the planar development drawing is subjected to deepening design to obtain a deepened design drawing, and construction is carried out according to the deepened design drawing. The construction error caused by inaccurate positioning of the key parameters due to the curved surface is reduced, and the construction efficiency is improved.
Description
Technical Field
The disclosure relates to the technical field of building construction, in particular to a construction method of a building with a fair-faced component.
Background
The deep design of the clear water template is an important step before construction. If the clear water surface is a complex irregular curved surface, a designer needs to do the process according to the map recognizing capability and the space imagination, and certain errors are generated on the structure of detail nodes and the size of elevation, so that the clear water template cannot be accurately assembled, the forming effect of the clear water concrete is influenced, and the efficiency is low.
Disclosure of Invention
To overcome the problems of the related art, the present disclosure provides a construction method of a building with a fresh water member to solve the above-mentioned problems.
According to a first aspect of embodiments of the present disclosure, there is provided a method of constructing a building with a drywall member, the method comprising: responding to a curved surface flattening command in the Rhino software, and unfolding a target clear water curved surface in a target member in a three-dimensional model of a target building to obtain a plane unfolded drawing of the target clear water curved surface;
importing the planar development drawing of the target clear water curved surface into CAD software, and performing deepening design on the planar development drawing of the target clear water curved surface in the CAD software to obtain a deepened design drawing of the target clear water curved surface;
and in the construction process of the target building, construction is carried out according to the deepened design drawing of each clear water surface of each target component.
In one embodiment, before the unfolding the target clean water curved surface in the target member of the target building to obtain the plane unfolding map of the target clean water curved surface in response to the curved surface flattening command in the Rhino software, the method further comprises:
acquiring a two-dimensional design drawing of the target building;
in the Rhino software, establishing a three-dimensional model of the target building according to the two-dimensional design drawing;
determining a target bare water member in a three-dimensional model of the target building;
determining the target fresh water curved surface in the target fresh water component.
In one embodiment, determining the target green water member in the three-dimensional model of the target building comprises:
according to a target clear water component record in the two-dimensional design drawing, clicking and determining the target clear water component in the three-dimensional model;
determining the target fresh water curved surface in the target fresh water member, comprising:
according to a target clear water component record in the two-dimensional design drawing, clicking to determine the target clear water curved surface in the target clear water component three-dimensional model;
and setting the target clear water curved surface as a first color, and setting the non-target clear water curved surface as a second color.
In one embodiment, further comprising: for the condition that the two target clear water curved surfaces are adjacent, sequentially clicking and determining a first target clear water curved surface and a second target clear water curved surface which are adjacent in software; and a boundary line;
and adjusting the range of the first target clear water curved surface and the second target clear water curved surface.
In one embodiment, adjusting the range of the first target clean water curved surface comprises:
moving the boundary line to the direction of the second target clear water curved surface by a partial distance to obtain a first overlapping area; taking the original first target clear water curved surface range and the first overlapped area as the adjusted first target clear water curved surface;
adjusting the range of the second target clean water curved surface, including:
moving the boundary line to the direction of the second target clear water curved surface by a partial distance to obtain a second overlapping area; and taking the original second target clear water curved surface range and the second overlapped area as the adjusted second target clear water curved surface.
In one embodiment, the first overlapping area is marked on the adjusted first target clear water curved surface unfolded plane view;
and marking the second overlapping area in the planar view after the adjusted second target clear water curved surface is unfolded.
In one embodiment, before obtaining the two-dimensional design drawing of the target building, the method further includes:
presetting each layer in the deepened design drawing, which specifically comprises the following steps:
setting each attribute of the layer; wherein the attributes comprise drawing size, color, character font and character size;
the image layer comprises: the device comprises a picture frame layer, a shaft line layer, a contour layer, a Buddhist seam layer, an open seam layer, a bolt hole layer, a size marking layer, a component filling layer and a character marking layer;
carrying out deepening design on the planar development drawing of the target component to obtain a deepened design drawing of the target component, wherein the deepened design drawing comprises the following steps:
and generating the deepened design drawing according to the preset attribute of each layer and drawing.
In one embodiment, further comprising: uniformly coding each member, and each surface, in the target building;
determining the code of the target clear water member and the code of each target clear water surface from the unified codes;
and sequentially determining each target clear water component and each target clear water surface according to the code of each target clear water component and the code of each target clear water surface.
In one embodiment, after the construction is performed according to the deepened design drawing of each clear water surface of each target member during the construction of the target building, the method further includes:
after each clear water surface is constructed, parameters of the curved surface area part of the clear water surface are mainly checked, if abnormal conditions are found, the values of the parameters in the deepened design drawing, the plane development drawing and the three-dimensional model are checked according to the two-dimensional design drawing, and if the deepened design drawing, the plane development drawing and the three-dimensional model are determined to be wrong, the deepened design drawing, the plane development drawing and the three-dimensional model are modified.
In one embodiment, if it is determined that the parameter is wrong in the two-dimensional design drawing, information of the parameter design mistake is fed back to a design unit.
The technical scheme provided by the embodiment of the disclosure can have the following beneficial effects: according to the method, the curved surface flattening command in the Rhino software is utilized to flatten and expand the curved surface of the target clear water to obtain a planar development drawing, and then the planar development drawing is subjected to deep design to obtain a deep design drawing. And then construction is carried out according to the deepened design drawing. The construction precision is improved, the construction error caused by inaccurate positioning of the key parameters due to the curved surface is reduced, the construction efficiency is improved, and the construction cost is reduced.
It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.
Drawings
The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and, together with the description, serve to explain the principles of the disclosure.
FIG. 1 is a flow diagram illustrating a method of constructing a building with a drywall member in accordance with an exemplary embodiment;
FIG. 2 is a schematic structural diagram illustrating a component according to an exemplary embodiment;
FIG. 3 is a schematic diagram illustrating two intersecting clean water curves according to an exemplary embodiment.
Detailed Description
Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The implementations described in the exemplary embodiments below do not represent all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present disclosure.
It should be noted that all actions of acquiring signals, information or data in the present application are performed under the premise of complying with the corresponding data protection regulation policy of the country of the location and obtaining the authorization given by the owner of the corresponding device.
The application provides a construction method of a building with a fair-faced component, which is shown in a flow chart of the construction method of the building with the fair-faced component shown in the attached figure 1; the method may comprise the steps of:
in step S102, in response to a curved surface flattening command in the Rhino software, a planar expansion diagram of a target clean water curved surface is obtained by expanding the target clean water curved surface in a target member in a three-dimensional model of a target building.
In this embodiment, a three-dimensional model of the target building may be established in advance by using three-dimensional model software. The three-dimensional software may be PROE, SOLIDWORKS, UG, CAD, etc. And importing the three-dimensional model software into the Rhino software, opening the three-dimensional model software, and unfolding the curved surface of the target clear water by using a curved surface flattening command in the Rhino software to obtain a plane unfolding picture of the curved surface of the target clear water.
In step S104, the planar development drawing of the target clean water curved surface is imported into CAD software, and in the CAD software, the planar development drawing of the target clean water curved surface is subjected to a deepened design to obtain a deepened design drawing of the target clean water curved surface.
In this embodiment, a two-dimensional planar design work is performed on a planar development of a target clear water curved surface in CAD software. And when the CAD drawing is derived, deriving the planar development drawing into the CAD drawing in the dxf format.
In step S106, in the process of constructing the target building, construction is performed according to the deepened design drawing of each clear water surface of each target member.
In this embodiment, after the deepened design drawing of the target clean water curved surface is obtained, the construction is performed based on the deepened design drawing of each clean water surface of each target member.
According to the method, the curved surface flattening command in the Rhino software is utilized to flatten and expand the curved surface of the target clear water to obtain a planar development drawing, and then the planar development drawing is subjected to deep design to obtain a deep design drawing. Construction is carried out according to the deepened design drawing. The construction precision is improved, the construction error caused by inaccurate positioning of the key parameters due to the curved surface is reduced, the construction efficiency is improved, and the construction cost is reduced.
In one embodiment, before the step S102, in response to the surface flattening command in the Rhino software, unfolding the target clean water curved surface in the target member of the target building to obtain the plane unfolding map of the target clean water curved surface, the method may further include the following steps:
in step S202, a two-dimensional design drawing of the target building is obtained.
In the present embodiment, the two-dimensional design drawing is provided by the design unit of the target building described above. After obtaining the two-dimensional design drawing, a construction unit firstly reads the drawing, carefully reads construction drawings such as a structural drawing, a building drawing, a curtain wall drawing and the like, and masters the types, shapes, sizes, elevations and positioning requirements of all members, particularly the different curved surfaces of the building.
In step S204, in Rhino software, a three-dimensional model of the target building is established according to the two-dimensional design drawing.
In this embodiment, the Rhino software is opened, a template of large model-millimeter.3 dm is selected, an operation interface is entered, the two-dimensional design drawing is imported, an elevation and an axis network are established, structural members are drawn according to a vertical member and a horizontal member, different members are mutually deducted and combined to form a model.
In step S206, the target fresh water member in the three-dimensional model of the target building is determined.
In this embodiment, the three-dimensional model is decomposed, and the fresh water member in the decomposed three-dimensional model is identified according to the design requirement.
In step S208, the target fresh water curved surface in the target fresh water member is determined.
In this embodiment, each fresh water member may have one or more surfaces that are fresh water surfaces. According to the records of the two-dimensional design drawing, the selected target clear water surface can be selected.
For the case that the curved surfaces are adjacent, the boundary of the curved surface can be manually adjusted with extra care when the boundary of the curved surface is drawn during clicking. Particular attention is paid to the intersection of a curved surface with a curved surface. Avoiding missing the intersection area of the curved surface and the curved surface.
In order to avoid selection omission, when the first curved surface is bounded, the boundary of the first curved surface is extended towards the direction of the second curved surface for multiple parts of the overlapped area; in plan view, the first overlap region described above is marked. For example, the indicia may be displayed in different colors. So as to play the role of reminding attention when the worker is constructed according to the deepened drawing.
When the second curved surface is used for drawing a boundary, extending a part of the second overlapped area towards the first curved surface; in plan view, the above-described second overlapping area is marked.
The curved surface can be a special-shaped curved surface with a complex shape. For the special-shaped curved surface with a complex shape, the method is more important.
In one embodiment, determining the target green water member in the three-dimensional model of the target building comprises:
according to a target clear water component record in the two-dimensional design drawing, clicking and determining the target clear water component in the three-dimensional model;
determining the target fresh water curved surface in the target fresh water member, comprising:
according to a target clear water component record in the two-dimensional design drawing, clicking to determine the target clear water curved surface in the target clear water component three-dimensional model;
and setting the target clear water curved surface as a first color, and setting the non-target clear water curved surface as a second color.
Illustratively, referring to FIG. 2, the clean water surface 21 may be colored red and the other surfaces may be colored gray.
In one embodiment, the method further comprises: for the condition that the two target clear water curved surfaces are adjacent, sequentially clicking and determining a first target clear water curved surface and a second target clear water curved surface which are adjacent in software; and a boundary line; and adjusting the range of the first target clear water curved surface and the second target clear water curved surface.
If two adjacent curved surfaces in the member are clear water surfaces, the range of the clear water curved surfaces can be enlarged after the clear water curved surfaces are selected and determined in software, so that all areas of the clear water curved surfaces can be selected.
In one embodiment, adjusting the range of the first target clean water curved surface comprises:
moving the boundary line to the direction of the second target clear water curved surface by a partial distance to obtain a first overlapping area; and taking the original first target clear water curved surface range and the first overlapping area as the adjusted first target clear water curved surface.
Adjusting the range of the second target clear water curved surface, comprising the following steps:
moving the boundary line to the direction of the second target clear water curved surface by a partial distance to obtain a second overlapping area; and taking the original second target clear water curved surface range and the second overlapped area as the adjusted second target clear water curved surface.
In this embodiment, referring to fig. 3, the first target clean water curved surface 1 and the second target clean water curved surface 2 are adjacent to each other, and the intersection line is 3. When adjusting the range of the first target clean water curved surface 1, the intersecting line 3 can be moved in parallel towards the second target clean water curved surface 2 by a predetermined distance, so as to obtain a first overlapping area 5. For example, the predetermined distance is 3 mm. The predetermined distance can be flexibly set. And taking the original first target clear water curved surface range 1 and the first overlapping area 5 as the adjusted first target clear water curved surface. Similarly, the second target clean water curved surface range 2 can be adjusted by the same method, the intersection line 3 is moved in parallel for a predetermined distance towards the first target clean water curved surface 1 to obtain the second overlapped area 6, and the original second target clean water curved surface range 2 and the second overlapped area 6 are used as the adjusted second target clean water curved surface range.
In one embodiment, the first overlapping area is marked in a planar view of the adjusted first target clean water after curved surface unfolding.
And marking the second overlapped area in the planar view after the adjusted second target clear water curved surface is unfolded.
Illustratively, the first overlap region 5 may be marked with a particular color in the adjusted first target clean water curved surface unfolded plan view. In the adjusted second target fresh water curved surface unfolded plan view, the second overlap region 6 may be marked with a special color.
In one embodiment, before obtaining a two-dimensional design drawing of a target building, presetting each layer in the deepened design drawing, specifically including:
setting each attribute of the layer; wherein the attributes comprise drawing size, color, character font and character size;
the image layer comprises: the device comprises a picture frame layer, a shaft line layer, a contour layer, a Buddhist seam layer, an open seam layer, a bolt hole layer, a size marking layer, a component filling layer and a character marking layer;
the method for obtaining the deepened design drawing of the target component by deepening the planar development drawing of the target component comprises the following steps:
and generating the deepened design drawing according to the preset attribute of each layer and drawing.
For example, when the user performs the deepening design in the CAD, a drawing is performed using a unified standardized frame in which a unified format is set for each drawing layer. Therefore, the drawing is more standard and standard, and the specialization level is improved.
When the clear water template is deeply designed, the plain development drawing is used for designing the positions of the template buddhist seams, the open seams and the bolt holes according to the requirements of the size, the size of a component, the position of a hole, the construction seam height, the stress of the template and the like of the template in site construction, and drawing the clear water template deepening drawing. The construction formwork is divided into two types, namely a small formwork with 900 gamma 1800mm and a large formwork with 1200 gamma 2400mm.
In one embodiment, each member, and each surface, is uniformly coded in the target building; determining the codes of the target clear water members and the codes of each target clear water surface from the unified codes; and sequentially determining each target clear water member and each target clear water surface according to the code of each target clear water member and the code of each target clear water surface.
In this embodiment, referring to fig. 2, the code of the table leg on which the clear water curved surface is located can be set to 01; the four surfaces of the table leg are sequentially arranged to be 0101, 0102, 0103 and 0104. Wherein, the number of the clean water curved surface 21 can be 0102. Due to the arrangement of the serial numbers, statistics is facilitated, and the clear water curved surfaces are distinguished.
In one embodiment, in the construction process of the target building, after construction is performed according to the deepened design drawing of each clear water surface of each target component, parameters of the curved surface area part of each clear water surface are mainly checked after construction of each clear water surface, if an abnormal condition is found, the values of the parameters in the deepened design drawing, the plane expansion drawing and the three-dimensional model are checked according to the two-dimensional design drawing, and if the deepened design drawing, the plane expansion drawing and the three-dimensional model are determined to be wrong, the deepened design drawing, the plane expansion drawing and the three-dimensional model are modified.
And if the parameter is determined to be wrong in the two-dimensional design drawing, feeding back the wrong parameter design information to a design unit.
In this embodiment, referring to fig. 3, in the vicinity of the intersection line 3 of two clear water curved surfaces, an important inspection should be performed, parameters of the region include a dimension parameter, and some parameters in construction, for example, a through hole is provided in the region, and a coordinate position and a diameter size of the through hole and the like all need to be carefully checked, because in a three-dimensional solid space, due to factors of a special-shaped curved surface, the coordinate positioning of the parameter of the position is not easy to perform, and an error is easy to occur. If the problem is found, the design unit is modified, or the construction unit modifies the deepened design drawing, the plane expansion drawing and the three-dimensional model.
The method utilizes the Rhino software to carry out component and curved surface modeling, the structural shape can be seen before construction, particularly the intersection line of the curved surface and the curved surface, and the complex shape structure is visual and clear. And the curved surface is directly flattened into a plane figure by utilizing the Rhino software, so that the size precision is improved.
The method utilizes Rhino to establish a model, spreads the curved surface of the clear water surface which needs to be deeply designed into a plane, and carries out drawing construction after the deep design. Help reducing because the recognition picture is unclear, consider the mistake in the construction that does not fully cause, not only can improve deepening the design speed, show and improve deepening efficiency, can also improve construction speed, improve the efficiency of construction, help reducing and do over again. The working time of personnel is saved, and the economic cost is saved. When the standardized clear water template is deepened, all nodes and elements are considered, and omission is avoided. Standardized drawing picture frames have high drawing quality.
Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure. This application is intended to cover any variations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.
It will be understood that the present disclosure is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.
Claims (10)
1. A construction method of a building with a fair-faced component is characterized by comprising the following steps:
responding to a curved surface flattening command in the Rhino software, and unfolding a target clear water curved surface in a target member in a three-dimensional model of a target building to obtain a plane unfolded drawing of the target clear water curved surface;
importing the planar development drawing of the target clear water curved surface into CAD software, and performing deepening design on the planar development drawing of the target clear water curved surface in the CAD software to obtain a deepened design drawing of the target clear water curved surface;
and in the construction process of the target building, construction is carried out according to the deepened design drawing of each clear water surface of each target component.
2. The method for constructing a building with a clean water member as claimed in claim 1, wherein before the step of unfolding the target clean water curved surface in the target member of the target building to obtain the planar unfolding view of the target clean water curved surface in response to the curved surface unfolding command in the Rhino software, the method further comprises:
acquiring a two-dimensional design drawing of the target building;
in the Rhino software, establishing a three-dimensional model of the target building according to the two-dimensional design drawing;
determining a target bare water member in a three-dimensional model of the target building;
determining the target fresh water curved surface in the target fresh water component.
3. The method of constructing a building with a drywall member of claim 2, wherein,
determining the target green water member in a three-dimensional model of the target building, comprising:
according to a target clear water component record in the two-dimensional design drawing, clicking and determining the target clear water component in the three-dimensional model;
determining the target fresh water curved surface in the target fresh water member, comprising:
according to a target clear water component record in the two-dimensional design drawing, clicking to determine the target clear water curved surface in the target clear water component three-dimensional model;
and setting the target clear water curved surface as a first color, and setting the non-target clear water curved surface as a second color.
4. The method of constructing a building with a drywall member of claim 3, further comprising: for the condition that the two target clear water curved surfaces are adjacent, sequentially clicking and determining a first target clear water curved surface and a second target clear water curved surface which are adjacent in software; and a boundary line;
and adjusting the range of the first target clear water curved surface and the second target clear water curved surface.
5. The method of constructing a building with a drywall member of claim 4, wherein,
adjusting the range of the first target clean water curved surface, including:
moving the boundary line to the direction of the second target clear water curved surface by a partial distance to obtain a first overlapping area; taking the original first target clear water curved surface range and the first overlapping area as the adjusted first target clear water curved surface;
adjusting the range of the second target clean water curved surface, including:
moving the boundary line to the direction of the second target clear water curved surface by a partial distance to obtain a second overlapping area; and taking the original second target clear water curved surface range and the second overlapped area as the adjusted second target clear water curved surface.
6. The method of constructing a building with a drywall member of claim 5, wherein,
marking the first overlapping area in the planar view after the adjusted first target clear water curved surface is unfolded;
and marking the second overlapped area in the planar view after the adjusted second target clear water curved surface is unfolded.
7. The method of constructing a building with a drywall member of claim 1,
before obtaining the two-dimensional design drawing of the target building, the method further comprises the following steps:
presetting each layer in the deepened design drawing, which specifically comprises the following steps:
setting each attribute of the layer; wherein the attributes comprise drawing size, color, character font and character size;
the image layer comprises: the device comprises a picture frame layer, a shaft line layer, a contour layer, a Buddhist seam layer, an open seam layer, a bolt hole layer, a size marking layer, a component filling layer and a character marking layer;
carrying out deepening design on the planar development drawing of the target component to obtain a deepened design drawing of the target component, wherein the deepened design drawing comprises the following steps:
and generating the deepened design drawing according to the preset attribute of each layer and drawing.
8. The method of constructing a building with a drywall member of claim 1, further comprising:
uniformly coding each member, and each surface, in the target building;
determining the codes of the target clear water members and the codes of each target clear water surface from the unified codes;
and sequentially determining each target clear water component and each target clear water surface according to the code of each target clear water component and the code of each target clear water surface.
9. The method of constructing a building with a drywall member of claim 2, wherein,
in the process of the construction of the target building, after the construction is carried out according to the deepened design drawing of each clear water surface of each target component, the method further comprises the following steps:
after each clear water surface is constructed, parameters of the curved surface area part of the clear water surface are mainly checked, if abnormal conditions are found, the values of the parameters in the deepened design drawing, the plane development drawing and the three-dimensional model are checked according to the two-dimensional design drawing, and if the deepened design drawing, the plane development drawing and the three-dimensional model are determined to be wrong, the deepened design drawing, the plane development drawing and the three-dimensional model are modified.
10. The method of constructing a building with a drywall member of claim 9, wherein,
and if the parameter is determined to be wrong in the two-dimensional design drawing, feeding back the wrong parameter design information to a design unit.
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