CN112836271B - Automatic design method and device for hanging plate of high-rise residence based on Revit model - Google Patents

Abstract

The invention relates to the field of building structure design, in particular to an automatic design method and device for a hanging plate of a high-rise residence based on a Revit model, which adopts the technical scheme that: the method comprises the steps of obtaining a building model, writing a first rule, and obtaining the section size of a hanging plate through the first rule; editing the overhanging length of the hanging plate, matching a database in a Revit platform to obtain the width of a door or a door tunnel, and simultaneously writing a second rule, and obtaining the total length of the hanging plate through the second rule; the direction of a door or a door opening in the building model on a plane is obtained, and the arrangement direction of hanging plates is obtained; and generating a hanging plate three-dimensional entity model by combining the cross section size of the hanging plate, the total length of the hanging plate and the arrangement direction of the hanging plate, and storing the model in a database. The invention has the advantages of wide applicability, strong flexibility, high accuracy and high working efficiency.

Description

Automatic design method and device for hanging plate of high-rise residence based on Revit model

Technical Field

The invention relates to the field of building structure design, in particular to an automatic design method and device for a hanging plate of a high-rise residence based on a Revit model.

Background

The hanging plate is mainly used for the project of adopting aluminum mould construction technology, is used for replacing a door top lintel, is generally positioned between a door and an upper layer plate, and has the width larger than the width of the door and the thickness generally equal to the thickness of a wall. The arrangement scheme of the hanging plate is one of the achievements of the professional design of the structure, and means that a structural engineer expresses information such as the plane position, the section and the like of the hanging plate in a plane expression mode.

The hanging plate arrangement scheme based on the Revit platform, which is common in the industry at present, comprises the following steps: in the Revit platform, structural engineers arrange hanging plates at positions meeting structural design rules by judging the relation between masonry walls, doors and existing structural members based on a three-dimensional model.

The technical scheme has the defects that: 1. manually drawing, which is easy to cause error and requires special manpower for correction and modification; 2. the efficiency is low, the relation between the door and the existing structural member is required to be judged manually, the horizontal length of the door is required to be measured and offset in the horizontal position, the height of the door is required to be measured in the vertical direction, the relation between the hanging plates and the adjacent concrete member is required to be considered for arrangement, when the positions are relatively close, the combination is required, and when the building plane is larger or more complex, the number of hanging plates required to be arranged is large, so that the time waste is brought; 3. for the same situation, different designers understand different national specifications, design standards and the like, so that the hanging plates are not identical, the rules are not uniform, and the quality of design results is affected.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention aims to provide an automatic design method and device for a hanging plate of a high-rise residence based on a Revit model, and the method and device have the advantages of wide applicability, strong flexibility, high accuracy and high working efficiency.

The technical aim of the invention is achieved by the following technical scheme, namely an automatic design method of a hanging plate of a high-rise residence based on a Revit model, which comprises the following steps:

obtaining a building model, writing a first rule, and obtaining the section size of the hanging plate through the first rule;

editing the overhanging length of the hanging plate, matching a database in a Revit platform to obtain the width of a door or a door tunnel, and simultaneously writing a second rule, and obtaining the total length of the hanging plate through the second rule;

the direction of a door or a door opening in the building model on a plane is obtained, and the arrangement direction of hanging plates is obtained;

and generating a hanging plate three-dimensional entity model by combining the cross section size of the hanging plate, the total length of the hanging plate and the arrangement direction of the hanging plate, and storing the model in a database.

In one embodiment, the method further comprises the steps of:

acquiring the hanging plate three-dimensional solid model, and calling out the existing concrete members in the building model, wherein the concrete members comprise structural walls, structural beams, structural columns, constructional columns and masonry walls;

judging whether the hanging plate three-dimensional entity model has geometric collision or not;

if geometric collision occurs, modifying a starting point or an ending point of the hanging plate three-dimensional entity model;

if no geometric collision occurs, skipping.

In one embodiment, the step of modifying the starting point or the ending point of the hanging plate three-dimensional solid model includes the steps of:

when the three-dimensional entity model of the hanging plate collides with the existing constructional column geometrically, modifying a point, which is closer to the side of the constructional column, in locating points of the hanging plate to the outer surface of the constructional column;

when the three-dimensional entity model of the hanging plate collides with the existing structural wall geometrically, modifying a point, which is closer to the edge of the structural wall, of locating points of the hanging plate to the outer surface of the structural wall;

when the three-dimensional entity model of the hanging plate collides with the existing structural column geometrically, modifying a point, which is closer to the edge of the structural column, in locating points of the hanging plate to the outer surface of the structural column;

when the hanging plate three-dimensional solid model has geometric collision with the existing structural beam and is intersected outside a plane, a point, which is closer to the edge of the structural beam, in the locating points of the hanging plate is modified to the outer surface of the structural beam.

In one embodiment, the step of modifying the starting point or the ending point of the hanging plate three-dimensional solid model includes the steps of:

when the two hanging plates intersect in the three-dimensional solid model plane, the two hanging plates are combined;

when two hanging plate three-dimensional solid models have geometric collision and are intersected in a plane, the positioning line of one hanging plate is modified to the outer surface of the other hanging plate, and the positioning line of the other hanging plate is modified to the inner surface of the first hanging plate.

In one embodiment, the method further comprises the steps of:

acquiring a starting point and an ending point of each component, and obtaining the distance between the components through vector calculation;

editing user set values;

when the distance between the edge of the hanging plate three-dimensional solid model and the existing constructional column is smaller than or equal to a user set value, modifying a point, which is closer to the side of the constructional column, in the locating points of the hanging plate to the outer surface of the constructional column;

when the distance between the edge of the hanging plate three-dimensional solid model and the existing shear wall is smaller than or equal to a user set value, modifying a point, which is closer to the edge of the shear wall, of the hanging plate locating points to the outer surface of the shear wall;

when the distance between the edge of the hanging plate three-dimensional solid model and the existing structural column is smaller than or equal to a user set value, modifying a point, which is closer to the edge of the structural column, in the locating points of the hanging plate to the outer surface of the structural column;

when the distance between the edge of the hanging plate three-dimensional entity model and the existing hanging plate is smaller than or equal to a user set value, the point, which is closer to the hanging plate, in the locating point of the hanging plate is modified to the outer surface of the existing hanging plate.

The automatic design method of the hanging plate of the high-rise residence based on the Revit model has the following beneficial effects:

1. the applicability is strong. The same method is applicable for different building structure arrangements.

2. The flexibility is strong. The generated three-dimensional model can be used for a plurality of interfaces of calculation, construction and cost.

3. The accuracy is high. After the special design rules of national specifications, standards, atlases and times are implanted into a computer program, the generated result is unique and accurate.

4. High efficiency. The computer program automatically generates the hanging plate, thereby greatly reducing the work of manual arrangement.

The invention also provides an automatic design device of the hanging plate of the high-rise residence based on the Revit model, which comprises the following components:

the model importing module is used for obtaining a building model, writing a first rule, and obtaining the section size of the hanging plate through the first rule;

the hanging plate calculating module is used for editing the extending length of the hanging plate, matching a database in the Revit platform to obtain the width of the door or the door tunnel, writing a second rule, and obtaining the total length of the hanging plate through the second rule;

the hanging plate arrangement module is used for obtaining the direction of a door or a door opening in the building model on a plane to obtain the arrangement direction of the hanging plate;

and the entity generation module is used for generating a hanging plate three-dimensional entity model by combining the section size of the hanging plate, the total length of the hanging plate and the arrangement direction of the hanging plate, and storing the three-dimensional entity model into a database.

In one embodiment, the method further comprises:

and the judging and modifying module is used for acquiring the hanging plate three-dimensional entity model, calling out the existing concrete member in the building model to judge whether the hanging plate three-dimensional entity model collides or not and supporting modification.

Drawings

FIG. 1 is a flow chart showing the steps of the automatic design method in the present embodiment;

fig. 2 is a schematic structural diagram of the automatic design device in this embodiment.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and examples.

As shown in fig. 1, the automatic design method for the hanging plate of the high-rise residence based on the Revit model comprises the following steps:

s1, acquiring a building model, writing a first rule, and obtaining the section size of the hanging plate through the first rule;

specifically, the first rule is that the hanging plate thickness is: when the wall thickness of the two sides of the door (or the door opening) is the same: the wall is as thick as the wall; when the wall thickness at two sides of the door is different: as well as thinner wall thickness;

the hanging plate is as follows: the layer height of the layer where the door (or door opening) is located-the door height-the thickness of the indoor surface layer.

S2, editing the overhanging length of the hanging plate, matching a database in a Revit platform to obtain the width of a door or a door opening, writing a second rule, and obtaining the total length of the hanging plate through the second rule;

specifically, the second rule is that the total length of the hanging plate is: the door (or door opening) is +2 times wider than the extension length of the hanging plate (the extension length allows the user to set the door at his own discretion, and the default value is 250 mm).

And S3, acquiring the direction of a door or a door opening in the building model on a plane to obtain the arrangement direction of the hanging plate.

S4, combining the section size of the hanging plate, the total length of the hanging plate and the arrangement direction of the hanging plate to generate a three-dimensional entity model of the hanging plate, and storing the three-dimensional entity model into a database.

S5, acquiring a hanging plate three-dimensional solid model, and calling out the existing concrete members in the building model, wherein the concrete members comprise structural walls, structural beams, structural columns, constructional columns and masonry walls.

S6, judging whether the three-dimensional entity model of the hanging plate has geometric collision or not.

If geometric collision occurs, modifying a starting point or an ending point of the hanging plate three-dimensional solid model;

if no geometric collision occurs, skipping.

Specifically, when the three-dimensional entity model of the hanging plate collides with the existing constructional column geometrically, a point, which is closer to the side of the constructional column, in locating points of the hanging plate is modified to the outer surface of the constructional column;

when the three-dimensional entity model of the hanging plate collides with the existing structural wall geometrically, modifying a point, which is closer to the edge of the structural wall, of locating points of the hanging plate to the outer surface of the structural wall;

when the three-dimensional entity model of the hanging plate collides with the existing structural column geometrically, modifying a point, which is closer to the edge of the structural column, in locating points of the hanging plate to the outer surface of the structural column;

when the hanging plate three-dimensional solid model has geometric collision with the existing structural beam and is intersected outside a plane, a point, which is closer to the edge of the structural beam, in the locating points of the hanging plate is modified to the outer surface of the structural beam.

When the two hanging plates intersect in the three-dimensional solid model plane, the two hanging plates are combined;

when two hanging plate three-dimensional solid models have geometric collision and are intersected in a plane, the positioning line of one hanging plate is modified to the outer surface of the other hanging plate, and the positioning line of the other hanging plate is modified to the inner surface of the first hanging plate.

S7, acquiring a starting point and an ending point of each component, and obtaining the distance between the components through vector calculation.

Specifically, editing user setting values;

when the distance between the edge of the hanging plate three-dimensional solid model and the existing constructional column is smaller than or equal to a user set value, modifying a point, which is closer to the side of the constructional column, in the locating points of the hanging plate to the outer surface of the constructional column;

when the distance between the edge of the hanging plate three-dimensional solid model and the existing shear wall is smaller than or equal to a user set value, modifying a point, which is closer to the edge of the shear wall, of the hanging plate locating points to the outer surface of the shear wall;

when the distance between the edge of the hanging plate three-dimensional solid model and the existing structural column is smaller than or equal to a user set value, modifying a point, which is closer to the edge of the structural column, in the locating points of the hanging plate to the outer surface of the structural column;

when the distance between the edge of the hanging plate three-dimensional entity model and the existing hanging plate is smaller than or equal to a user set value, the point, which is closer to the hanging plate, in the locating point of the hanging plate is modified to the outer surface of the existing hanging plate.

As shown in fig. 2, the present invention further provides an automatic design device for a hanging board of a high-rise residence based on a Revit model, which comprises:

the model importing module is used for obtaining a building model, writing a first rule, and obtaining the section size of the hanging plate through the first rule;

the hanging plate calculating module is used for editing the extending length of the hanging plate, matching a database in the Revit platform to obtain the width of the door or the door tunnel, writing a second rule, and obtaining the total length of the hanging plate through the second rule;

the hanging plate arrangement module is used for obtaining the direction of a door or a door opening in the building model on a plane to obtain the arrangement direction of the hanging plate;

the entity generation module is used for generating a hanging plate three-dimensional entity model by combining the section size of the hanging plate, the total length of the hanging plate and the arrangement direction of the hanging plate, and storing the three-dimensional entity model into a database;

and the judging and modifying module is used for acquiring the hanging plate three-dimensional entity model, calling out the existing concrete member in the building model to judge whether the hanging plate three-dimensional entity model collides or not and supporting modification.

The foregoing examples illustrate only a few embodiments of the invention and are described in detail herein without thereby limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (3)

1. The automatic design method of the hanging plate of the high-rise residence based on the Revit model is characterized by comprising the following steps:

obtaining a building model, writing a first rule, and obtaining the section size of the hanging plate through the first rule;

editing the overhanging length of the hanging plate, matching a database in a Revit platform to obtain the width of a door or a door tunnel, and simultaneously writing a second rule, and obtaining the total length of the hanging plate through the second rule;

the direction of a door or a door opening in the building model on a plane is obtained, and the arrangement direction of hanging plates is obtained;

combining the section size of the hanging plate, the total length of the hanging plate and the arrangement direction of the hanging plate to generate a three-dimensional entity model of the hanging plate, and storing the three-dimensional entity model into a database;

acquiring the hanging plate three-dimensional solid model, and calling out the existing concrete members in the building model, wherein the concrete members comprise structural walls, structural beams, structural columns, constructional columns and masonry walls;

judging whether the three-dimensional entity model of the hanging plate has geometric collision, if so, modifying the starting point or the end point of the three-dimensional entity model of the hanging plate, and if not, skipping;

wherein, the step of modifying the starting point or the ending point of the hanging plate three-dimensional entity model further comprises:

when the three-dimensional entity model of the hanging plate collides with the existing constructional column geometrically, modifying a point, which is closer to the edge of the constructional column, in locating points of the hanging plate to the outer surface of the constructional column;

when the three-dimensional entity model of the hanging plate collides with the existing structural wall geometrically, modifying a point, which is closer to the edge of the structural wall, in locating points of the hanging plate to the outer surface of the structural wall;

when the three-dimensional entity model of the hanging plate and the existing structural column have geometric collision, modifying a point, which is closer to the edge of the structural column, in locating points of the hanging plate to the outer surface of the structural column;

when the hanging plate three-dimensional solid model has geometric collision with the existing structural beam and is intersected outside a plane, modifying a point, which is closer to the edge of the structural beam, in the hanging plate locating points to the outer surface of the structural beam;

when the two hanging plate three-dimensional solid models intersect in a plane, combining the two hanging plate three-dimensional solid models;

when two hanging plate three-dimensional solid models are geometrically collided and are intersected out of plane, the positioning line of one hanging plate is modified to the outer surface of the other hanging plate, and the positioning line of the other hanging plate is modified to the inner surface of the first hanging plate.

2. The method for automatically designing the hanging plate of the high-rise residence based on the Revit model according to claim 1, further comprising the following steps:

acquiring a starting point and an ending point of each component, and obtaining the distance between the components through vector calculation;

editing user set values;

when the distance between the edge of the hanging plate three-dimensional solid model and the existing constructional column is smaller than or equal to a user set value, modifying a point, which is closer to the edge of the constructional column, in the locating points of the hanging plate to the outer surface of the constructional column;

when the distance between the edge of the hanging plate three-dimensional solid model and the existing shear wall is smaller than or equal to a user set value, modifying a point, which is closer to the edge of the shear wall, of hanging plate positioning points to the outer surface of the shear wall;

when the distance between the edge of the hanging plate three-dimensional solid model and the existing structural column is smaller than or equal to a user set value, modifying a point, which is closer to the edge of the structural column, in the locating points of the hanging plate to the outer surface of the structural column;

when the distance between the edge of the hanging plate three-dimensional entity model and the existing hanging plate is smaller than or equal to a user set value, modifying a point, which is closer to the hanging plate, in the locating points of the hanging plate to the outer surface of the existing hanging plate.

3. An automatic design device of high-rise residential hanging plate based on a Revit model is characterized by comprising:

the model importing module is used for obtaining a building model, writing a first rule, and obtaining the section size of the hanging plate through the first rule;

the hanging plate calculating module is used for editing the extending length of the hanging plate, matching a database in the Revit platform to obtain the width of the door or the door tunnel, writing a second rule, and obtaining the total length of the hanging plate through the second rule;

the hanging plate arrangement module is used for obtaining the direction of a door or a door opening in the building model on a plane to obtain the arrangement direction of the hanging plate;

the entity generation module is used for generating a hanging plate three-dimensional entity model by combining the section size of the hanging plate, the total length of the hanging plate and the arrangement direction of the hanging plate, and storing the three-dimensional entity model into a database;

the judging and modifying module is used for acquiring the hanging plate three-dimensional entity model, calling out the existing concrete member in the building model to judge whether the hanging plate three-dimensional entity model collides or not and supporting modification;

the judging and modifying module modifies the hanging plate three-dimensional entity model by executing the following steps of;

acquiring the hanging plate three-dimensional solid model, and calling out the existing concrete member in the building model, wherein the concrete member comprises a structural wall, a structural beam, a structural column, a constructional column and a masonry wall;

judging whether the three-dimensional entity model of the hanging plate has geometric collision, if so, modifying the starting point or the end point of the three-dimensional entity model of the hanging plate, and if not, skipping;

wherein, the step of modifying the starting point or the ending point of the hanging plate three-dimensional entity model further comprises:

when the three-dimensional entity model of the hanging plate collides with the existing constructional column geometrically, modifying a point, which is closer to the edge of the constructional column, in locating points of the hanging plate to the outer surface of the constructional column;

when the three-dimensional entity model of the hanging plate collides with the existing structural wall geometrically, modifying a point, which is closer to the edge of the structural wall, in locating points of the hanging plate to the outer surface of the structural wall;

when the three-dimensional entity model of the hanging plate and the existing structural column have geometric collision, modifying a point, which is closer to the edge of the structural column, in locating points of the hanging plate to the outer surface of the structural column;

when the hanging plate three-dimensional solid model has geometric collision with the existing structural beam and is intersected outside a plane, modifying a point, which is closer to the edge of the structural beam, in the hanging plate locating points to the outer surface of the structural beam;

when the two hanging plate three-dimensional solid models intersect in a plane, combining the two hanging plate three-dimensional solid models;

when two hanging plate three-dimensional solid models are geometrically collided and are intersected out of plane, the positioning line of one hanging plate is modified to the outer surface of the other hanging plate, and the positioning line of the other hanging plate is modified to the inner surface of the first hanging plate.