CN116894290A - Method for optimizing infilled wall masonry and rapidly plotting based on BIMMAKE software - Google Patents

Abstract

The invention discloses a method for optimizing a filling wall masonry and rapidly drawing based on BIMMAKE software, which relates to the technical field of filling wall masonry drawing, and comprises the following steps of S1: firstly, starting BIMMAKE software, and creating a building model in the BIMMAKE software; s2: filling the wall row bricks after the building model is completed by the BIMMAKE software; s3: labeling data of the building model; s4: checking, namely checking the filling of wall arrangement if the checking is carried out by the next step and if the checking is not carried out by returning to the upper level to edit the building model data again; s5: after the verification is passed, the BIMMAKE brick is discharged and mapped; the construction scheme is optimized, the aim of cost reduction and synergy is achieved, the BIMMAKE is utilized to optimize the construction scheme of the filled wall, one of the schemes which is practically consistent with the site and is most economical is rapidly optimized, the management level of management staff is improved through application of BIMMAKE software, and the purpose of material optimization is achieved through modeling of engineering entities and optimization of arrangement modes of parts of the filled wall masonry by using the BIMMAKE software.

Description

Method for optimizing infilled wall masonry and rapidly plotting based on BIMMAKE software

Technical Field

The invention relates to the technical field of filling wall masonry drawing, in particular to a method for optimizing filling wall masonry and rapidly drawing based on BIMMAKE software.

Background

The BIM technology is another revolution of the construction industry after CAD, has important value and pushing effect on informatization of the whole construction industry, can rapidly arrange secondary structures, arrange brickworks, make drawing amount, finely edit node reinforcing steel bars, three-dimensionally make bottoms of light reinforcing steel bars, set wood pattern configuration parameters, make a mold, make drawing amount according to investigation, each enterprise is constructed according to a construction drawing at present, namely common construction, the arrangement mode of the filling wall brickworks is not compared, the cost is saved, the present industry is basically a frame structure, a shear wall structure, and the filling wall is an indispensable important component.

In order to promote quick drawing of the infill wall masonry, the invention provides a method for optimizing the infill wall masonry and quickly drawing based on BIMMAKE software.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a method for optimizing the filled wall masonry and rapidly drawing based on BIMMAKE software, which solves the problems that the cost is not saved and the economic cost is increased because the prior common construction is not performed with multi-scheme comparison of the arrangement mode of the filled wall masonry.

In order to achieve the above purpose, the invention is realized by the following technical scheme: a method for optimizing infill wall masonry and rapidly mapping based on bimake software, the method comprising the steps of,

s1: firstly, starting BIMMAKE software, and creating a building model in the BIMMAKE software;

s2: filling the wall row bricks after the building model is completed by the BIMMAKE software;

s3: labeling data of the building model;

s4: checking, namely checking the filling of wall arrangement if the checking is carried out by the next step and if the checking is not carried out by returning to the upper level to edit the building model data again;

s5: after the verification is passed, the BIMMAKE brick is discharged and mapped;

s6: calculating brickwork preparation materials;

s7: and constructing according to the drawing.

Preferably, the step S1: and installing BIMMAKE software on a computer, then opening the BIMMAKE software, modeling a building model by using the BIMMAKE software, newly establishing a building template link structure model, importing a building drawing into a Revit, and drawing doors and windows, constructional columns, horizontal tie beams and installation professional reserved holes according to a filling wall construction scheme and related specifications and standards.

Preferably, the step S2: filling pattern groups by using curtain walls based on metric, drawing building blocks and mortar joints by using 1/2 staggered joint filling pattern grids according to the sizes of the building blocks, giving materials, numbering and setting related parameters to the building blocks, and carrying out parameter association; using the built-in volume in Revit, drawing the outer contour of the masonry wall according to a drawing, and carrying out grid splitting according to the size of the building blocks; the grid is selected to fill and replace patterns, automatic bricking of the arc-shaped wall is achieved, redundant building blocks at the positions of doors and windows and reserved holes are deleted, and conflicting and unsuitable bricking is replaced.

Preferably, the step S3: and marking the size of the inspection model on the completed building model, adjusting the data of the model according to the drawing, and further inspecting the data after marking the data so as to ensure the accuracy of the data.

Preferably, the step S4: BIM personnel give the brick arrangement diagram to technical personnel for checking, and technical responsible personnel check constructional columns, horizontal tie beams, door and window positions, installation professional reserved air gap positions, mortar joint sizes, normalization of block arrangement and block cutting and rationality, and if the brick arrangement diagram does not meet the specification, the BIM personnel adjust the brick arrangement diagram until the brick arrangement diagram meets the specification

Preferably, the step S5: if the engineering quantity meets the regulations, carrying out engineering quantity statistics and drawing by BIM personnel.

Preferably, the step S6: and the construction budgeting staff calculates the number of bricks and funds required to be used according to the brick arrangement diagram and the material list, then the budgeting list is handed to the purchasing staff for purchasing, the purchasing staff prepares the purchased materials in a storage yard, numbers the materials according to the brick arrangement diagram, and the materials of one wall are arranged together to be ready to be transported to a designated place.

Preferably, the step S7: before the construction is started, the brick arrangement diagram is pasted on the wall, a construction worker carries out construction according to the brick arrangement diagram and the numbers of the bricks, and a use manager of a construction site carries out supervision and inspection on the wall built by the construction worker and the numbers of the brick arrangement diagram and the bricks.

The invention provides a method for optimizing a infill wall masonry and rapidly plotting based on BIMMAKE software. The beneficial effects are as follows:

the method for optimizing the infill wall masonry based on the BIMMAKE software and rapidly drawing the masonry utilizes the BIMMAKE software to optimize the masonry scheme, so that the masonry scheme is optimal, the aim of reducing cost and improving efficiency is achieved, the BIMMAKE is utilized to optimize the infill wall masonry scheme, one of the schemes which is practically consistent with the scene and is most economical is rapidly optimized, the management level of management staff is improved through application of the BIMMAKE software, and the purpose of optimizing the material is achieved through modeling of engineering entities and optimizing the arrangement mode of the infill wall masonry in the engineering entities by adopting the BIMMAKE software.

Drawings

FIG. 1 is a schematic flow chart of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1:

a method for optimizing infill wall masonry and rapidly mapping based on bimake software, the method comprising the steps of:

s1: firstly, starting BIMMAKE software, and creating a building model in the BIMMAKE software;

s2: filling the wall row bricks after the building model is completed by the BIMMAKE software;

s3: labeling data of the building model;

s4: checking, namely checking the filling of wall arrangement if the checking is carried out by the next step and if the checking is not carried out by returning to the upper level to edit the building model data again;

s5: after the verification is passed, the BIMMAKE brick is discharged and mapped;

s6: calculating brickwork preparation materials;

s7: and constructing according to the drawing.

Example 2

The step S1: and installing BIMMAKE software on a computer, then opening the BIMMAKE software, modeling a building model by using the BIMMAKE software, newly establishing a building template link structure model, importing a building drawing into a Revit, and drawing doors and windows, constructional columns, horizontal tie beams and installation professional reserved holes according to a filling wall construction scheme and related specifications and standards.

The step S2: filling pattern groups by using curtain walls based on metric, drawing building blocks and mortar joints by using 1/2 staggered joint filling pattern grids according to the sizes of the building blocks, giving materials, numbering and setting related parameters to the building blocks, and carrying out parameter association; using the built-in volume in Revit, drawing the outer contour of the masonry wall according to a drawing, and carrying out grid splitting according to the size of the building blocks; the grid is selected to fill and replace patterns, automatic bricking of the arc-shaped wall is achieved, redundant building blocks at the positions of doors and windows and reserved holes are deleted, and conflicting and unsuitable bricking is replaced.

The step S3: and marking the size of the inspection model on the completed building model, adjusting the data of the model according to the drawing, and further inspecting the data after marking the data so as to ensure the accuracy of the data.

The step S4: and the BIM personnel give the brick arrangement diagram to the technical personnel for auditing, and the technical responsible personnel carry out auditing on the constructional column, the horizontal tie beam, the door and window position, the installation professional reserved air gap position, the mortar joint size, the normalization of the arrangement of the building blocks and the cutting and rationality of the building blocks, and if the brick arrangement diagram does not meet the specification, the BIM personnel adjusts the brick arrangement diagram until the brick arrangement diagram meets the specification.

Example 3:

a method for optimizing infill wall masonry and rapidly mapping based on bimake software, the method comprising the steps of: s1: firstly, starting BIMMAKE software, and creating a building model in the BIMMAKE software;

s2: filling the wall row bricks after the building model is completed by the BIMMAKE software;

s3: labeling data of the building model;

s4: checking, namely checking the filling of wall arrangement if the checking is carried out by the next step and if the checking is not carried out by returning to the upper level to edit the building model data again;

s5: after the verification is passed, the BIMMAKE brick is discharged and mapped;

s6: calculating brickwork preparation materials;

s7: and constructing according to the drawing.

The step S1: and installing BIMMAKE software on a computer, then opening the BIMMAKE software, modeling a building model by using the BIMMAKE software, newly establishing a building template link structure model, importing a building drawing into a Revit, and drawing doors and windows, constructional columns, horizontal tie beams and installation professional reserved holes according to a filling wall construction scheme and related specifications and standards.

The step S2: filling pattern groups by using curtain walls based on metric, drawing building blocks and mortar joints by using 1/2 staggered joint filling pattern grids according to the sizes of the building blocks, giving materials, numbering and setting related parameters to the building blocks, and carrying out parameter association; using the built-in volume in Revit, drawing the outer contour of the masonry wall according to a drawing, and carrying out grid splitting according to the size of the building blocks; the grid is selected to fill and replace patterns, automatic bricking of the arc-shaped wall is achieved, redundant building blocks at the positions of doors and windows and reserved holes are deleted, and conflicting and unsuitable bricking is replaced.

The step S3: and marking the size of the inspection model on the completed building model, adjusting the data of the model according to the drawing, and further inspecting the data after marking the data so as to ensure the accuracy of the data.

The step S4: BIM personnel give the brick arrangement diagram to technical staff for auditing, and technical responsible personnel audit constructional columns, horizontal tie beams, door and window positions, installation professional reserved air gap positions, mortar joint sizes, normalization of block arrangement, and cutting and rationality of blocks.

The step S5: if the engineering quantity meets the regulations, carrying out engineering quantity statistics and drawing by BIM personnel.

The step S6: and the construction budgeting staff calculates the number of bricks and funds required to be used according to the brick arrangement diagram and the material list, then the budgeting list is handed to the purchasing staff for purchasing, the purchasing staff prepares the purchased materials in a storage yard, numbers the materials according to the brick arrangement diagram, and the materials of one wall are arranged together to be ready to be transported to a designated place.

The step S8: before the construction is started, the brick arrangement diagram is pasted on the wall, a construction worker carries out construction according to the brick arrangement diagram and the numbers of the bricks, and a use manager of a construction site carries out supervision and inspection on the wall built by the construction worker and the numbers of the brick arrangement diagram and the bricks.

The method for optimizing the infill wall masonry based on the BIMMAKE software and rapidly drawing the masonry utilizes the BIMMAKE software to optimize the masonry scheme, so that the masonry scheme is optimal, the aim of reducing cost and improving efficiency is achieved, the BIMMAKE is utilized to optimize the infill wall masonry scheme, one of the schemes which is practically consistent with the scene and is most economical is rapidly optimized, the management level of management staff is improved through application of the BIMMAKE software, and the purpose of optimizing the material is achieved through modeling of engineering entities and optimizing the arrangement mode of the infill wall masonry in the engineering entities by adopting the BIMMAKE software.

While the fundamental and principal features of the invention and advantages of the invention have been shown and described, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (8)

1. The method for optimizing the infill wall masonry and rapidly making the drawings based on the BIMMAKE software comprises the following steps:

s1: firstly, starting BIMMAKE software, and creating a building model in the BIMMAKE software;

s2: filling the wall row bricks after the building model is completed by the BIMMAKE software;

s3: labeling data of the building model;

s4: checking, namely checking the filling of wall arrangement if the checking is carried out by the next step and if the checking is not carried out by returning to the upper level to edit the building model data again;

s5: after the verification is passed, the BIMMAKE brick is discharged and mapped;

s6: calculating brickwork preparation materials;

s7: and constructing according to the drawing.

2. The method for optimizing infill wall masonry and quick-mapping based on bimake software according to claim 1, wherein: the step S1: and installing BIMMAKE software on a computer, then opening the BIMMAKE software, modeling a building model by using the BIMMAKE software, newly establishing a building template link structure model, importing a building drawing into a Revit, and drawing doors and windows, constructional columns, horizontal tie beams and installation professional reserved holes according to a filling wall construction scheme and related specifications and standards.

3. The method for optimizing infill wall masonry and quick-mapping based on bimake software according to claim 1, wherein: the step S2: filling pattern groups by using curtain walls based on metric, drawing building blocks and mortar joints by using 1/2 staggered joint filling pattern grids according to the sizes of the building blocks, giving materials, numbering and setting related parameters to the building blocks, and carrying out parameter association; using the built-in volume in Revit, drawing the outer contour of the masonry wall according to a drawing, and carrying out grid splitting according to the size of the building blocks; the grid is selected to fill and replace patterns, automatic bricking of the arc-shaped wall is achieved, redundant building blocks at the positions of doors and windows and reserved holes are deleted, and conflicting and unsuitable bricking is replaced.

4. The method for optimizing infill wall masonry and quick-mapping based on bimake software according to claim 1, wherein: the step S3: and marking the size of the inspection model on the completed building model, adjusting the data of the model according to the drawing, and further inspecting the data after marking the data so as to ensure the accuracy of the data.

5. The method for optimizing infill wall masonry and quick-mapping based on bimake software according to claim 1, wherein: s4: and the BIM personnel give the brick arrangement diagram to the technical personnel for auditing, and the technical responsible personnel carry out auditing on the constructional column, the horizontal tie beam, the door and window position, the installation professional reserved air gap position, the mortar joint size, the normalization of the arrangement of the building blocks and the cutting and rationality of the building blocks, and if the brick arrangement diagram does not meet the specification, the BIM personnel adjusts the brick arrangement diagram until the brick arrangement diagram meets the specification.

6. The method for optimizing infill wall masonry and quick-mapping based on bimake software according to claim 1, wherein: the step S5: if the engineering quantity meets the regulations, carrying out engineering quantity statistics and drawing by BIM personnel.

7. The method for optimizing infill wall masonry and quick-mapping based on bimake software according to claim 1, wherein: the step S6: and the construction budgeting staff calculates the number of bricks and funds required to be used according to the brick arrangement diagram and the material list, then the budgeting list is handed to the purchasing staff for purchasing, the purchasing staff prepares the purchased materials in a storage yard, numbers the materials according to the brick arrangement diagram, and the materials of one wall are arranged together to be ready to be transported to a designated place.

8. The method for optimizing infill wall masonry and quick-mapping based on bimake software according to claim 1, wherein: the step S7: before the construction is started, the brick arrangement diagram is pasted on the wall, a construction worker carries out construction according to the brick arrangement diagram and the numbers of the bricks, and a use manager of a construction site carries out supervision and inspection on the wall built by the construction worker and the numbers of the brick arrangement diagram and the bricks.