CN113111425A - Revit-based assembly type ceiling hardcover design modeling method - Google Patents

Abstract

The invention discloses an assembly type ceiling hardcover design modeling method based on Revit, which comprises the following steps: 1) selecting a layout point of a ceiling structure to be installed, and acquiring the outer contour parameters of the layout point; 2) selecting a ceiling type, and combining four structural members, namely a hanging plate, an aluminum plate, a T-shaped bone and a back bone, into a ceiling structure; 3) forming a three-dimensional model of a ceiling structure at the arrangement point position based on the contour parameter and the position parameter of the hanging plate, the contour parameter and the position parameter of the aluminum plate, the length parameter and the position parameter of the T bone and the length parameter and the position parameter of the back bone, and performing collision inspection; the assembling type ceiling hardcover design modeling method based on Revit can directly model in Revit without Dwg derivation and modification, and saves design efficiency.

Description

Revit-based assembly type ceiling hardcover design modeling method

Technical Field

The invention relates to an assembled ceiling hardcover design modeling method based on Revit.

Background

The assembly decoration is a novel built-in mode. Different from the traditional decoration mode of field operation. Most parts used in assembly decoration are produced in factories, such as walls, floors, ceilings and the like, and only need to be assembled on site. Such as integrated bathroom, integrated kitchen, etc., and also belongs to the field of assembly decoration.

At present, the assembly decoration of China is still in a relatively early development stage, the market permeability is low, and a product system is not completely mature. But from the trend, the capital and policy level are very good, and the market prospect is wide.

Assembly decoration theoretically belongs to the science and technology field of real estate, but from the view of actual industrial chain flow, science and technology content and innovation are easily overestimated. In the view of the industry experts, the fabricated industry is not supported by high technology, and the technology content and the technology barrier are not so high. After the market in the later period fully competes, the current eye irritation concept is quickly filled; therefore, the method is a choice for assembly type decoration enterprises to embrace new technology in time. Such as BIM application in design, VR preview of decoration scheme, MR construction inspection and the like. The head enterprises need to establish barriers through innovations and technologies to fully face market competition.

At present, the BIM software which is most widely applied in the industry is Autodesk Revit, and civil structure model modeling is carried out in the Revit. And performing assembly type hardbound design based on a civil engineering model, and completing assembly type component statistics by using a list function of Revit. And deriving the construction drawing by adopting an Dwg derivation function of Revit.

The conventional mode has the disadvantage that no auxiliary tool for the assembled finishing design exists at present, so that the design process needs to consume a lot of time for creating and modifying the design model. And component data cannot be exported directly to inventory lists for docking production. After the drawing is exported by adopting the original Revit Dwg export function, the drawing needs to be modified. Meanwhile, because of manual modeling, a certain amount of errors are brought.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide the assembling type ceiling hardback design modeling method based on Revit, which can directly model in Revit, does not need Dwg to be derived and modified, and saves the design efficiency.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a Revit-based assembly type ceiling hardcover design modeling method comprises the following steps:

1) selecting a layout point of a ceiling structure to be installed, and acquiring the outer contour parameters of the layout point;

2) selecting a ceiling type, and combining four structural members, namely a hanging plate, an aluminum plate, a T-shaped bone and a back bone, into a ceiling structure;

3) setting profile parameters of the aluminum plate, and obtaining profile sidelines of the hanging plate according to the profile parameters of the arrangement points;

4) setting profile parameters of the hanging plate, and performing transverse and longitudinal offset in a profile sideline of the hanging plate according to the profile parameters of the hanging plate to obtain grid lines formed by the transverse and longitudinal offset;

5) the contour parameter and the position parameter of the grid line are defined as the length parameter and the position parameter of the T bone;

6) breaking the intersection points of the grid lines to obtain the position parameters of each hanging plate in a loop finding mode;

7) calculating position parameters and length parameters of inward directions of a field side center line and two sides of a long side of the hanging plate according to the position parameters and the contour parameters of the hanging plate, defining the length parameters as length parameters of the dorsal bones, deviating the obtained position parameters by 100mm in the inward direction, and defining the deviated position parameters as the position parameters of the dorsal bones;

8) and forming a three-dimensional model of the ceiling structure at the arrangement point position based on the contour parameter and the position parameter of the hanging plate, the contour parameter and the position parameter of the aluminum plate, the length parameter and the position parameter of the T bone and the length parameter and the position parameter of the back bone, and performing collision inspection.

Further, the contour parameters include a length parameter and a width parameter, and the position parameter is a coordinate parameter of a center point position in the plane direction.

Further, in step 2), the ceiling structure is of the type including an inner light trough ceiling, an outer light trough ceiling, a flat ceiling and a middle double light trough ceiling.

Further, in the step 2), when the type of the ceiling structure is selected as an inner light trough ceiling, a horizontal position difference parameter is given to the aluminum plate when a three-dimensional model of the ceiling structure is formed, so that the aluminum plate is positioned below the hanging plate.

Further, in the step 2), when the ceiling structure type is selected to be an outer light trough ceiling, a horizontal potential difference parameter is given to the hanging plate when a three-dimensional model of the ceiling structure is formed, so that the hanging plate is positioned below the aluminum plate.

Further, in step 2), when the ceiling structure type is selected to be a flat ceiling and a middle double-light-trough ceiling, the profile parameter of the aluminum plate is set to be 0.

Further, in step 4), the center point position of the contour line of the link plate is shifted when the lateral shift is performed.

Further, in step 4), the side edge position of the contour line of the hanging plate is shifted when the longitudinal shift is performed.

Further, in step 8), loading a hanging plate, an aluminum plate, a T bone and a dorsal bone model in a Revit model database, and establishing a three-dimensional model for the arrangement point position according to the parameters.

Further, in step 8), when the ceiling structure type is selected to be an inner light trough ceiling, an outer light trough ceiling and a middle double-light trough ceiling, the arrangement of the light troughs is performed after the three-dimensional model of the ceiling structure is formed, and the light troughs are arranged above the hanging plate or the aluminum plate with the lowest horizontal position.

The invention has the beneficial effects that:

the method is creatively improved aiming at the defects of the traditional mode, a mode of providing a UI (user interface) for user interaction is adopted, a three-dimensional model is automatically calculated and generated according to parameters provided by a user, collision check, component statistics and construction drawing derivation are carried out through the model, so that the design efficiency is greatly improved, the model precision is improved, and the workload is reduced.

Drawings

FIG. 1 is a reference interface diagram for generating a model of an interior troffer ceiling structure;

FIG. 2 is a reference interface diagram for generating a model of an exterior troffer ceiling structure;

FIG. 3 is a reference interface diagram for generating a model of a flatbed ceiling structure;

FIG. 4 is a reference interface diagram for generating a model of an intermediate dual-troffer ceiling structure;

fig. 5 is an actual effect diagram of a ceiling structure model with two lamp slots in the middle.

Detailed Description

The present invention is further described with reference to the following drawings and specific examples so that those skilled in the art can better understand the present invention and can practice the present invention, but the examples are not intended to limit the present invention.

Example 1

Referring to fig. 1, a modeling method of an internal light trough ceiling structure model based on Revit secondary development comprises the following steps:

1) selecting a layout point of a ceiling structure to be installed, and acquiring the outer contour parameters of the layout point;

2) selecting a ceiling type as an inner light groove ceiling, and combining four structural members of a hanging plate, an aluminum plate, a T-shaped bone and a back bone into a ceiling structure;

3) setting profile parameters of the aluminum plate, and obtaining profile sidelines of the hanging plate according to the profile parameters of the arrangement points;

4) setting profile parameters of the hanging plate, performing transverse and longitudinal offset in the profile sideline of the hanging plate according to the profile parameters of the hanging plate, performing offset according to the midpoint position of the profile sideline of the hanging plate when performing transverse offset, and performing offset according to the side position of the profile sideline of the hanging plate when performing longitudinal offset to obtain a grid line formed by transverse and longitudinal offset;

5) the contour parameter and the position parameter of the grid line are defined as the length parameter and the position parameter of the T bone;

6) breaking the intersection points of the grid lines to obtain the position parameters of each hanging plate in a loop finding mode;

7) calculating position parameters and length parameters of inward directions of a field side center line and two sides of a long side of the hanging plate according to the position parameters and the contour parameters of the hanging plate, defining the length parameters as length parameters of the dorsal bones, deviating the obtained position parameters by 100mm in the inward direction, and defining the deviated position parameters as the position parameters of the dorsal bones;

8) based on the profile parameter and the position parameter of the hanging plate, the profile parameter and the position parameter of the aluminum plate, the length parameter and the position parameter of the T bone and the length parameter and the position parameter of the back bone, and giving a horizontal position difference parameter to the aluminum plate, enabling the aluminum plate to be positioned below the hanging plate, loading the hanging plate, the aluminum plate, the T bone and the back bone model in a Revit model database, establishing a three-dimensional model for the arrangement point position according to the parameters, and performing collision inspection;

9) the arrangement of the light trough is carried out after the three-dimensional model of the ceiling structure is formed, and the light trough is arranged above the aluminum plate.

The contour parameters comprise length parameters and width parameters, and the position parameters are coordinate parameters of the central point position in the plane direction.

Example 2

Referring to fig. 2, a method for modeling an external light trough ceiling structure model based on Revit secondary development includes the following steps:

1) selecting a layout point of a ceiling structure to be installed, and acquiring the outer contour parameters of the layout point;

2) selecting a ceiling type as an external light trough ceiling, and combining four structural components of a hanging plate, an aluminum plate, a T-shaped bone and a back bone into a ceiling structure;

3) setting profile parameters of the aluminum plate, and obtaining profile sidelines of the hanging plate according to the profile parameters of the arrangement points;

4) setting profile parameters of the hanging plate, performing transverse and longitudinal offset in the profile sideline of the hanging plate according to the profile parameters of the hanging plate, performing offset according to the midpoint position of the profile sideline of the hanging plate when performing transverse offset, and performing offset according to the side position of the profile sideline of the hanging plate when performing longitudinal offset to obtain a grid line formed by transverse and longitudinal offset;

5) the contour parameter and the position parameter of the grid line are defined as the length parameter and the position parameter of the T bone;

6) breaking the intersection points of the grid lines to obtain the position parameters of each hanging plate in a loop finding mode;

7) calculating position parameters and length parameters of inward directions of a field side center line and two sides of a long side of the hanging plate according to the position parameters and the contour parameters of the hanging plate, defining the length parameters as length parameters of the dorsal bones, deviating the obtained position parameters by 100mm in the inward direction, and defining the deviated position parameters as the position parameters of the dorsal bones;

8) based on the profile parameter and the position parameter of the hanging plate, the profile parameter and the position parameter of the aluminum plate, the length parameter and the position parameter of the T bone and the length parameter and the position parameter of the back bone, and giving a horizontal potential difference parameter to the hanging plate to enable the hanging plate to be positioned below the aluminum plate, loading the hanging plate, the aluminum plate, the T bone and the back bone model in a Revit model database, establishing a three-dimensional model for the arrangement point position according to the parameters, and performing collision inspection;

9) the arrangement of the lamp grooves is carried out after the three-dimensional model of the ceiling structure is formed, and the lamp grooves are arranged above the hanging plates.

The contour parameters comprise length parameters and width parameters, and the position parameters are coordinate parameters of the central point position in the plane direction.

Example 3

Referring to fig. 3, a flat ceiling structure model modeling method based on Revit secondary development includes the following steps:

1) selecting a layout point of a ceiling structure to be installed, and acquiring the outer contour parameters of the layout point;

2) selecting a ceiling type as a flat ceiling, and combining three structural members of a hanging plate, a T-shaped bone and a back bone into a ceiling structure;

3) setting profile parameters of the hanging plate, and carrying out transverse and longitudinal offset in the outer contour of the arrangement point according to the profile parameters of the hanging plate, carrying out offset according to the midpoint position of the profile sideline of the hanging plate when carrying out transverse offset, and carrying out offset according to the side position of the profile sideline of the hanging plate when carrying out longitudinal offset to obtain a grid line formed by transverse and longitudinal offset;

4) the contour parameter and the position parameter of the grid line are defined as the length parameter and the position parameter of the T bone;

5) breaking the intersection points of the grid lines to obtain the position parameters of each hanging plate in a loop finding mode;

6) calculating position parameters and length parameters of inward directions of a field side center line and two sides of a long side of the hanging plate according to the position parameters and the contour parameters of the hanging plate, defining the length parameters as length parameters of the dorsal bones, deviating the obtained position parameters by 100mm in the inward direction, and defining the deviated position parameters as the position parameters of the dorsal bones;

7) loading a hanging plate model, a T bone model and a back bone model in a Revit model database based on the contour parameter and the position parameter of the hanging plate, the length parameter and the position parameter of the T bone and the length parameter and the position parameter of the back bone, establishing a three-dimensional model for the arrangement point position according to the parameters, and performing collision inspection;

the contour parameters comprise length parameters and width parameters, and the position parameters are coordinate parameters of the central point position in the plane direction.

Example 4

Referring to fig. 4-5, a modeling method of a middle double-light-trough ceiling structure model based on Revit secondary development comprises the following steps:

1) selecting a layout point of a ceiling structure to be installed, and acquiring the outer contour parameters of the layout point;

2) selecting a ceiling type as a ceiling with double lamp slots in the middle, and combining three structural members of a hanging plate, a T-shaped bone and a back bone into a ceiling structure;

3) setting profile parameters of the hanging plate, and carrying out transverse and longitudinal offset in the outer contour of the arrangement point according to the profile parameters of the hanging plate, carrying out offset according to the midpoint position of the profile sideline of the hanging plate when carrying out transverse offset, and carrying out offset according to the side position of the profile sideline of the hanging plate when carrying out longitudinal offset to obtain a grid line formed by transverse and longitudinal offset;

4) the contour parameter and the position parameter of the grid line are defined as the length parameter and the position parameter of the T bone;

5) breaking the intersection points of the grid lines to obtain the position parameters of each hanging plate in a loop finding mode;

6) calculating position parameters and length parameters of inward directions of a field side center line and two sides of a long side of the hanging plate according to the position parameters and the contour parameters of the hanging plate, defining the length parameters as length parameters of the dorsal bones, deviating the obtained position parameters by 100mm in the inward direction, and defining the deviated position parameters as the position parameters of the dorsal bones;

7) loading a hanging plate model, a T bone model and a back bone model in a Revit model database based on the contour parameter and the position parameter of the hanging plate, the length parameter and the position parameter of the T bone and the length parameter and the position parameter of the back bone, establishing a three-dimensional model for the arrangement point position according to the parameters, and performing collision inspection;

8) the arrangement of the lamp grooves is carried out after the three-dimensional model of the ceiling structure is formed, and the lamp grooves are arranged above the hanging plates.

The contour parameters comprise length parameters and width parameters, and the position parameters are coordinate parameters of the central point position in the plane direction.

The invention has the beneficial effects that:

the method is creatively improved aiming at the defects of the traditional mode, a mode of providing a UI (user interface) for user interaction is adopted, a three-dimensional model is automatically calculated and generated according to parameters provided by a user, collision check, component statistics and construction drawing derivation are carried out through the model, so that the design efficiency is greatly improved, the model precision is improved, and the workload is reduced.

The above-described embodiments of the present invention are not intended to limit the scope of the present invention, and the embodiments of the present invention are not limited thereto, and various other modifications, substitutions and alterations can be made to the above-described structure of the present invention without departing from the basic technical concept of the present invention as described above, according to the common technical knowledge and conventional means in the field of the present invention.

Claims (10)

1. An assembly type ceiling hardcover design modeling method based on Revit is characterized by comprising the following steps:

1) selecting a layout point of a ceiling structure to be installed, and acquiring the outer contour parameters of the layout point;

2) selecting a ceiling type, and combining four structural members, namely a hanging plate, an aluminum plate, a T-shaped bone and a back bone, into a ceiling structure;

3) setting profile parameters of the aluminum plate, and obtaining profile sidelines of the hanging plate according to the profile parameters of the arrangement points;

4) setting profile parameters of the hanging plate, and performing transverse and longitudinal offset in a profile sideline of the hanging plate according to the profile parameters of the hanging plate to obtain grid lines formed by the transverse and longitudinal offset;

5) the contour parameter and the position parameter of the grid line are defined as the length parameter and the position parameter of the T bone;

6) breaking the intersection points of the grid lines to obtain the position parameters of each hanging plate in a loop finding mode;

7) calculating position parameters and length parameters of inward directions of a field side center line and two sides of a long side of the hanging plate according to the position parameters and the contour parameters of the hanging plate, defining the length parameters as length parameters of the dorsal bones, deviating the obtained position parameters by 100mm in the inward direction, and defining the deviated position parameters as the position parameters of the dorsal bones;

8) and forming a three-dimensional model of the ceiling structure at the arrangement point position based on the contour parameter and the position parameter of the hanging plate, the contour parameter and the position parameter of the aluminum plate, the length parameter and the position parameter of the T bone and the length parameter and the position parameter of the back bone, and performing collision inspection.

2. The assembly type ceiling hardpack design modeling method based on Revit of claim 1, characterized in that: the contour parameters comprise length parameters and width parameters, and the position parameters are coordinate parameters of the position of a central point in the plane direction.

3. The assembly type ceiling hardpack design modeling method based on Revit according to claim 2, characterized in that: in step 2), the ceiling structure types comprise an inner light trough ceiling, an outer light trough ceiling, a flat plate ceiling and a middle double-light trough ceiling.

4. The assembly type ceiling hardpack design modeling method based on Revit according to claim 2, characterized in that: in the step 2), when the type of the ceiling structure is selected to be an inner lamp groove ceiling, and a three-dimensional model of the ceiling structure is formed, the aluminum plate is endowed with a horizontal potential difference parameter, so that the aluminum plate is positioned below the hanging plate.

5. The assembly type ceiling hardpack design modeling method based on Revit according to claim 2, characterized in that: in the step 2), when the type of the ceiling structure is selected to be an outer lamp groove ceiling, and a three-dimensional model of the ceiling structure is formed, a horizontal potential difference parameter is given to the hanging plate, so that the hanging plate is positioned below the aluminum plate.

6. The assembly type ceiling hardpack design modeling method based on Revit according to claim 2, characterized in that: in step 2), when the ceiling structure type is selected to be a flat ceiling and a middle double-light-trough ceiling, the set outline parameter of the aluminum plate is 0.

7. The assembly type ceiling hardpack design modeling method based on Revit of claim 1, characterized in that: in step 4), when the lateral deviation is performed, the deviation is performed by the midpoint position of the contour line of the hanging plate.

8. The assembly type ceiling hardpack design modeling method based on Revit of claim 7, characterized in that: in step 4), the side edge position of the contour sideline of the hanging plate is used for shifting when the longitudinal shifting is carried out.

9. The assembly type ceiling hardpack design modeling method based on Revit of claim 1, characterized in that: in step 8), loading a hanging plate model, an aluminum plate model, a T bone model and a back bone model in a Revit model database, and establishing a three-dimensional model for the arrangement point position according to the parameters.

10. The assembly type ceiling hardpack design modeling method based on Revit of claim 3, characterized in that: in step 8), when the ceiling structure type is selected to be an inner light trough ceiling, an outer light trough ceiling and a middle double-light trough ceiling, the arrangement of the light troughs is carried out after the three-dimensional model of the ceiling structure is formed, and the light troughs are arranged above the hanging plate or the aluminum plate with the lowest horizontal position.

Images