CN109033671B - Revit-based building block filler wall model modeling method capable of calculating engineering quantity - Google Patents
Revit-based building block filler wall model modeling method capable of calculating engineering quantity Download PDFInfo
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- 238000000034 method Methods 0.000 title claims abstract description 30
- 239000000945 filler Substances 0.000 title claims description 9
- 239000011449 brick Substances 0.000 claims abstract description 71
- 239000004570 mortar (masonry) Substances 0.000 claims abstract description 6
- 239000000463 material Substances 0.000 claims description 10
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- 238000007789 sealing Methods 0.000 claims 1
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Abstract
The invention discloses a building method of a masonry infilled wall model capable of calculating engineering quantity based on Revit, wherein the masonry infilled wall model can be established only by Revit software and a built-in dynamo integrated tool thereof; the masonry infilled wall model is automatically created and generated by using a dynamo linear modeling method program by taking a common building block family and a capping building block family as basic primitives; and the masonry infilled wall model automatically calculates the masonry engineering quantity through the list function of Revit software. The invention provides a convenient creating mode for a masonry infilled wall model in Revit software, and solves the problems that the workload is large, the working efficiency is low and the built wall model cannot calculate the engineering quantity in the process of creating the masonry infilled wall model with a serrated raft, a masonry mortar joint and a capping brick by using the Revit software.
Description
Technical Field
The invention relates to the technical field of engineering construction BIM, in particular to a masonry infilled wall model capable of calculating engineering quantity in Revit software and a dynamo linear modeling method corresponding to the masonry infilled wall model.
Technical Field
Revit is one of the most widely used software in the BIM system of the construction industry in China. It takes various types of 'families' as constituent elements, and accurately designs and builds an efficient building information model. "family" is a powerful concept used in Revit, and is the basic primitive that makes up a model. Each family element is capable of defining within it a variety of types such as beams, columns, doors, windows, ducts, and the like. Each type may have a different size, shape, material setting, or other parametric variables, depending on the modeler's design.
In Revit software, families are divided into system families, built-in families, and standard component families. The system family is a basic component family with various adjustable parameters designed in advance in Revit, and a user can only modify the parameters in the system family to create a model; the built-in family is directly created in an engineering project, and the geometric shapes and the family of the categories of the geometric shapes can be customized; the family of standard building blocks is a family created in a family template, where the geometry can be customized by a family editor, and where a variety of adjustable parameters can be designed for changing model geometry or data statistics. After the group model is created in the group sample plate, the group model can be stored into an independent group model file and then loaded into an engineering project for use. The standard component family plays a key role in a rapid and efficient modeling process due to the characteristics of high self definition, high parameterization and transferability.
In Revit, wall primitives are typically created by the system family during the modeling process. However, in the system family, the appearance of the wall body is presented by the brick map, the arrangement mode of the masonry in the wall body cannot be changed, and the whole wall body is selected (namely the wall is a basic primitive) when the brick body is selected. The parameter of wall primitive can't satisfy the multiple structure characteristic of brickwork infilled wall in actual construction, like the specification and size of brickwork, mortar joint thickness, the placing of capping brick, the reservation of serrated racking etc.. Therefore, in Revit modeling, the modeling fineness of the masonry infilled wall is not high, and the purposes of guiding construction and counting the engineering quantity cannot be achieved.
Disclosure of Invention
The invention aims to overcome the defects of the prior art, provides a masonry infilled wall model capable of calculating engineering quantity in Revit software and a dynamo linear modeling method corresponding to the masonry infilled wall model, and provides the calculable masonry infilled wall model which is convenient and quick in creation mode and can meet the guiding function of actual construction.
The technical scheme of the invention is as follows: the building method of the masonry infilled wall model capable of calculating the engineering quantity based on Revit comprises the following steps:
(1) Establishing a common building block family model and a capping building block family model, wherein the two families have adjustable sharing parameters required by wall body establishment;
(2) Using the Revit family of systems: the wall comprises a wall body, a basic wall body model and a data processing module, wherein the wall body model is used for acquiring length and height parameters of the wall body;
(3) Loading a common building block family and a capping building block family, and setting type parameters of the common building block family and the capping building block family;
(4) Automatically creating a masonry infilled wall model by using an automatic brick arrangement method program created by visual programming in dynamo, reading type parameters of a common block family and a capping block family, and the length and height of a system family wall body;
(5) And (5) the engineering quantity of the masonry filler wall model is counted in a Revit software project list.
Further, the common block family in the step (1) is used for creating main primitives of the masonry filler wall; building block family models with adjustable sharing parameters are created on the basis of metric conventional model family template files provided by Revit software, wherein the adjustable sharing parameters comprise brick length, brick width, brick height, material and total brick number.
Further, the capping building block family in the step (1) is used for creating masonry primitives obliquely placed on the upper part of the wall; and establishing a capping building block family model with adjustable sharing parameters based on a metric conventional model family sample plate file provided by Revit software, wherein the adjustable sharing parameters comprise brick length, brick width, brick height, material quality, inclination angle and total brick number.
Further, the automatic brick arrangement method in the step (4) comprises the following steps:
(1) clicking a dynamo icon under the management tab and opening a dynamo tool;
(2) the automatic brick arrangement method comprises the following procedures:
clicking a change button in a node for picking up the length of the bottom edge of the wall body, and then transferring to a Revit project for picking up the bottom edge of the wall body drawn in the step (2) to enable a program to obtain the length of the wall body;
clicking a change button in a node for picking up the side length of the left side of the wall body, and then transferring to the Revit project for picking up the left side of the wall body drawn in the step (2) to enable a program to obtain the height of the wall body;
after clicking a pull-down menu in a node of selecting the type of the building block, selecting the type of the building block family which is loaded into the Revit project and has set parameters in the step (3);
inputting the sizes of the types of the building blocks in the nodes of the brick length and the brick height;
inputting the width of a masonry mortar joint to be controlled in a 'brick joint' node;
(3) after the parameters are input, clicking a running button below the running button, and creating a masonry infilled wall model with the same size and formed by building block groups at the original wall position by an automatic brick arrangement program.
Further, the method for calculating the engineering quantity of the masonry filler wall model in the Revit software project specification in the step (5) comprises the following steps:
(1) click "list/quantity" in the "View" tab down "list" drop down option;
(2) selecting a 'conventional model' in the category, and clicking a 'confirm button';
(3) the "fields" page in the "list attributes" dialog box selects the parameter fields to be counted: type, brick length, brick width, brick height, angle of inclination of capping brick, material quality and total brick number;
(4) the sorting/grouping page in the detail sheet attribute dialog box selects the sorting mode as follows: the function of 'type', checking 'total', canceling checking 'listing each instance item by item';
(5) the "Format" box in the "List Property" dialog selects the field: "total brick number", check and calculate the total function, click "confirm button";
(6) after the setting is completed, the generated detail table can automatically calculate the masonry engineering quantity of the masonry infilled wall.
Further, if the position of the masonry infilled wall model needs to be modified or supplemented, a single common block family is placed or deleted for adjustment, or parameters of the common block family are adjusted for detailed processing.
Further, the dynamo linear modeling method program is used for automatically creating a masonry infilled wall model in Revit software; the dynamo linear modeling method program is created by a dynamo integrated tool in Revit software, a series of three-dimensional coordinate points are created by acquiring length and height data of a wall body, the coordinate points are used as positioning, a building block family is used as a basic primitive, and a masonry infilled wall model is generated.
The invention has the beneficial effects that: the invention utilizes Revit modeling technology and dynamo visual programming tool to create a common block family model, a capping block family model and a dynamo automatic brick arrangement program, provides a convenient creation mode for a masonry infilled wall model in Revit software, and solves the problems that workload is large, working efficiency is low and the built wall model cannot calculate engineering quantity in the process of creating the masonry infilled wall model with serrated racking, masonry mortar joints and capping bricks by using Revit software.
Drawings
FIG. 1 is a schematic flow chart of the present invention.
Fig. 2 is a system interface diagram for creating a common block family model in Revit software.
Fig. 3 is a system interface diagram for creating a capping block family model in Revit software.
FIG. 4 is a system family in Revit software: and (4) creating a system interface diagram of the wall model.
Fig. 5 is a system interface diagram of the normal block family and the capping block family required for modeling loaded in the Revit software.
FIG. 6 is a system interface diagram of Revit software loading a created file into a current project.
Fig. 7 is a system interface diagram of the Revit software with the masonry specifications to be used set in the type attributes.
FIG. 8 is a system interface diagram of clicking on the dynamo icon under the management tab in Revit software.
FIG. 9 is a system interface diagram of an automatic brick arrangement method program in Revit software.
FIG. 10 is a system interface diagram of the final completion of the masonry infill wall model in Revit software.
Fig. 11 is a system interface diagram of "list under view tab" in Revit software.
FIG. 12 is a system interface diagram of the newly created schedule in Revit software.
FIG. 13 is a system interface diagram of the detail sheet attributes in Revit software.
FIG. 14 is a system interface diagram of the "sort/group" page box in the detail sheet attribute in Revit software.
FIG. 15 is a system interface diagram of a "Format" page box in the List Attribute in Revit software.
FIG. 16 is a system interface diagram of a masonry work quantity specification in Revit software.
Detailed Description
The invention is further explained by combining the attached drawings of the specification.
As shown in FIG. 1, the Revit-based masonry infilled wall model modeling method capable of calculating engineering quantities comprises the following steps:
1. and (3) establishing models of a common block family and a capping block family, wherein the two families have adjustable sharing parameters required by wall establishment. As shown in fig. 2, a common block is used to create the main elements of a wall; based on a 'metric conventional model' rft family sample plate file provided by Revit software, a building block model containing adjustable shared parameters such as brick length, brick width, brick height, material, total brick number and the like is created; the family can adapt to any masonry specification encountered in actual construction. As shown in fig. 3, the capping block family is used for creating a masonry with an inclined upper portion of a wall; based on a 'metric system conventional model' rft family sample plate file provided by Revit software, a capping building block model containing adjustable shared parameters such as brick length, brick width, brick height, material quality, inclination angle, total brick number and the like is created; the family meets the modeling requirements for quickly and accurately creating capping blocks.
2. Using the Revit family of systems: the wall body model is used for acquiring the length and height parameters of the wall body (see figure 4);
3. loading a common building block family and a capping building block family, setting type parameters of the common building block family and the capping building block family (see fig. 5, 6 and 7), clicking a loading family icon under the condition of inserting and selecting a lower card as shown in fig. 5 and 6, then popping up a loading family dialog box, and loading created common building block rfa and capping building block rfa files into a current item in the dialog box; as shown in fig. 7, the masonry specification to be used is set in the type attribute, and the setting is completed by clicking "ok";
4. automatically creating a masonry infilled wall model by using an automatic brick arrangement method program created by visual programming in dynamo and reading the type of a building block family, the length and the height of a wall body; the method comprises the following specific steps:
(1) Clicking on the dynamo icon under the management tab opens the dynamo tool (see fig. 8);
(2) Automatic brick layout method procedure (see fig. 9):
clicking a change button in a node for picking up the bottom edge length of the wall body, and then turning to a Revit project for picking up the bottom edge of the wall body drawn in the step 2, so that the program obtains the length of the wall body;
clicking a change button in a node for picking up the left side length of the wall, and then turning to a Revit project for picking up the left side edge of the wall drawn in the step 2, so that the program obtains the height of the wall;
after clicking a pull-down menu in a node of selecting the type of the building block, selecting the type of the building block family which is loaded into the Revit project and is set with parameters in the step 3;
inputting the sizes of the types of the building blocks in the nodes of the brick length and the brick height;
inputting the width of mortar joints of the masonry to be controlled in the 'brickwork joint' nodes;
(3) After the parameters are input, clicking a running button below the running button, and creating a masonry infilled wall model with the same size and formed by building block groups at the original wall position by an automatic brick arrangement program; the final completed model is shown in fig. 10.
5. After the masonry infill wall is created, if the position of the masonry infill wall needs to be modified or supplemented, the masonry infill wall can be adjusted by placing and deleting a single common block family or performing detailed processing by adjusting parameters of the common block family.
6. The building method of the invention can be used for building the finished masonry infilled wall model, and can directly count the engineering quantity of the masonry infilled wall model in a Revit project detail list, and the concrete steps are as follows:
(1) Clicking on "List/quantity" in the "View" tab-Down "List" drop-down option (see FIG. 11);
(2) Select "conventional model" in the category, click "ok button" (see fig. 12);
(3) The "fields" page in the "detail attributes" dialog selects the parameter fields to be counted: type, brick length, brick width, brick height, inclination angle of capping brick, material quality and total brick number (see figure 13);
(4) The sorting/grouping page in the detail sheet attribute dialog box selects the sorting mode as follows: "type", check "total" function, cancel check "list each instance item by item" function (see fig. 14);
(5) The "Format" page selection field in the "Listing Properties" dialog: "total brick number", check the function of counting the total number, click "confirm button" (see fig. 15);
(6) After the setting is completed, the masonry engineering amount of the masonry filler wall can be automatically counted by the generated list (see fig. 16).
The above description is only an embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or simple substitutions which are not thought of through the inventive work should be included in the scope of the present invention.
Claims (7)
1. The building method of the masonry infilled wall model capable of calculating the engineering quantity based on Revit is characterized by comprising the following steps of: (1) Establishing models of a common building block family and a capping building block family, wherein the two families have adjustable sharing parameters required by wall establishment; (2) use of Revit systems family: the wall comprises a wall body, a wall body and a wall body model, wherein the wall body model is used for acquiring length and height parameters of the wall body; (3) Loading a common building block family and a capping building block family, and setting type parameters of the common building block family and the capping building block family; (4) Automatically creating a masonry infilled wall model by using an automatic brick arranging method program created by visual programming in dynamo, reading type parameters of a common block family and a capping block family, and the length and height of a wall body of a system family; (5) And (5) the engineering quantity of the masonry filler wall model is counted in a Revit software project list.
2. The Revit-based method for modeling a masonry infill wall model capable of calculating engineering quantities according to claim 1, wherein: the common block family in the step (1) is used for creating main primitives of the masonry filler wall; building block family models with adjustable sharing parameters are created on the basis of metric conventional model family template files provided by Revit software, wherein the adjustable sharing parameters comprise brick length, brick width, brick height, material and total brick number.
3. The method for modeling a Revit-based construction-quantity-calculable masonry infill wall model according to claim 1, wherein: the top sealing building block group in the step (1) is used for creating a masonry primitive obliquely placed on the upper part of the wall body; and establishing a capping building block family model with adjustable sharing parameters based on a metric conventional model family sample plate file provided by Revit software, wherein the adjustable sharing parameters comprise brick length, brick width, brick height, material quality, inclination angle and total brick number.
4. The Revit-based method for modeling a masonry infill wall model capable of calculating engineering quantities according to claim 1, wherein: the automatic brick arrangement method in the step (4) comprises the following steps: (1) clicking a dynamo icon under the management tab and opening a dynamo tool; (2) the automatic brick arrangement method comprises the following procedures: clicking a change button in a node for picking up the length of the bottom edge of the wall body, and then transferring to a Revit project for picking up the bottom edge of the wall body drawn in the step (2) to enable a program to obtain the length of the wall body; clicking a change button in a node for picking up the side length of the left side of the wall body, and then transferring to the Revit project for picking up the left side of the wall body drawn in the step (2) to enable a program to obtain the height of the wall body; after clicking a pull-down menu in a node of selecting the type of the building block, selecting the type of the building block family which is loaded into the Revit project and is provided with parameters in the step (3); inputting the sizes of the types of the building blocks in the nodes of the brick length and the brick height; inputting the width of a masonry mortar joint to be controlled in a 'brick joint' node; (3) after the parameters are input, clicking a running button below the running button, and creating a masonry infilled wall model with the same size and formed by building block groups at the original wall position by an automatic brick arrangement program.
5. The Revit-based method for modeling a masonry infill wall model capable of calculating engineering quantities according to claim 1, wherein: the method for calculating the engineering quantity of the masonry infilled wall model in the Revit software project list in the step (5) comprises the following steps: (1) click "list/quantity" in the "View" tab down "list" drop down option; (2) selecting a 'conventional model' in the category, and clicking a 'confirm button'; (3) the "fields" page in the "list attributes" dialog box selects the parameter fields to be counted: type, brick length, brick width, brick height, angle of inclination of capping brick, material quality and total brick number; (4) the sorting/grouping page in the detail sheet attribute dialog box selects the sorting mode as follows: the function of 'type', checking 'total', canceling checking 'listing each instance item by item'; (5) the "Format" page selection field in the "Listing Properties" dialog: "total brick number", check and calculate the total function, click "confirm button"; (6) after the setting is completed, the generated detail table can automatically calculate the masonry engineering quantity of the masonry infilled wall.
6. The method for modeling a Revit-based construction-quantity-calculable masonry infill wall model according to claim 1, wherein: if the position of the masonry infilled wall model needs to be modified or supplemented, the masonry infilled wall model is adjusted by placing and deleting a single common block family, or parameters of the common block family are adjusted for detailed processing.
7. The Revit-based method for modeling a masonry infill wall model capable of calculating engineering quantities according to claim 1, wherein: the dynamo creates an automatic brick arrangement method program through visual programming, and the automatic brick arrangement method program is used for automatically creating a masonry filler wall model in Revit software; the automatic brick arrangement method program created through visual programming in dynamo is created through a dynamo integration tool in Revit software, a series of three-dimensional coordinate points are created through acquiring length and height data of a wall body, the coordinate points are used as positioning, a building block family is used as a basic primitive, and a masonry infilled wall model is generated.
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