KR20160010245A - Automatic quantity calculation method for calculating rough estimate using BIM in construction design stage and information classification system - Google Patents

Abstract

The present invention relates to an automatic quantity calculation method for calculating rough estimate that applies parameters to building construction objects and finishing parts materials and designates code information on calculated quantities in the construction design stage (planning design, basic design and execution design), and a classification system of extracted information. The automatic quantity calculation method for rough estimate calculation and an information classification system comprises: (a) a step (S100) of selecting a level of construction design for BIM rough estimate calculation, and quantity calculation scope and code of building construction objects and finishing parts materials; (b) a step (S110) of determining whether building construction objects and finishing parts material quantities are calculated or not; (c) a step (S120) of calculating quantities and applying the selected code information, through construction objects selection and parameter application, when quantities of building construction objects only are calculated; (d) a step (S130) of calculating quantities and applying the selected code information, through construction objects and finishing parts material selection and parameter application, when quantities of building construction objects and finishing parts materials are calculated at the same time; (e) a step (S140) of determining whether BIM model is corrected or not; (f) a step (S150) of classifying the calculated quantities into common objects and individual objects, and printing out an estimate statement with a unit cost applied to individual objects.

Description

[0001] The present invention relates to an automatic quantity calculation method and an information classification system for estimating an estimate using a BIM in a building design stage,

The present invention relates to an automatic quantity calculation method and a classification system for an estimate estimate in which a parameter is applied to an architectural structure object and a finishing site material dimension in a process of generating a BIM model considering a building design stage and code information is designated to the calculated quantity .

The BIM (Building Information Modeling) technology is a 3D virtual space design model that enables construction of a model that includes construction information, Means a design technique for generating an information model by operation.

Many researches and developments have been made for the standardization of the construction, and the government is also making mandatory design. In recent years, technology has been accelerated in the industry as it has been expanded to civil engineering, plant and machinery facilities. In addition, BIM design has become an indispensable technology field through the utilization of three - dimensional shape attribute information at the limit of existing two - dimensional shape information drawing, because it is obligatory to apply estimate estimate to the application of BIM technology of public ordering construction.

In the existing architectural design, time and manpower according to the designing process were wasted and it was difficult to review the comprehensive drawing of the building while making the 3D structure using 2D information. In addition, there are many inefficient and repetitive tasks due to design changes, which makes design work unique to architectural design difficult.

In this sense, the application of the parameters of the model generation process using the BIM information enables the reliable design of the BIM design through the creative design considering the cost of the estimate and the regular parameter linkage.

The present invention is to provide an automatic quantity calculation method and an output quantity classification system for estimating an estimate of an architectural structure object and a finishing material by using a parameter calculation formula in a building design stage.

In order to solve the above problems,

(A) The architectural designing step (S200) is divided into a plan design (S200a), a basic design (S200b), and an implementation design (S200c) A quantity calculation range (S210) and a code selection (S220) for classifying the quantity to be calculated; (b) determining whether the building structure object, the building structure object, and the final site material quantity are calculated (S110); (c) When calculating the quantity of only the building structure object, calculate quantity of material through selection of structural objects and application of parameters and application of selected code information (s120); (d) calculating the quantity of the building structure object and the quantity of the material at the finishing site together, a quantity calculation operation and a selected code information application step (s130) by sorting the structural object and the finishing material and applying the parameter; (e) determining whether the BIM model is modified (s140); (f) if there is no modification of the BIM model, sorting the calculated quantity into common objects and individual object types and outputting them to a statement (S150); and providing an automatic quantity calculation method for the estimate estimate.

In addition, it is preferable that the building structure object S210b includes a column, a beam, a retaining wall, and a slab.

It is also preferable to use an automatic quantity calculation calculation formula (FIG. 5) in which parameters are applied to the dimensions of the building structure object (FIG. 5).

Further, it preferably includes the floor, the wall, and the ceiling which are the building finishing part S210c.

It is also preferable to use an automatic quantity calculation calculation formula (FIG. 8) in which parameters are applied to the dimensions of the building finishing area (FIG. 7).

Further, the extracted quantity information is preferably geometric information of the length, height, width, and depth of the building structure object and the finishing material.

In addition, it is preferable to include codes in the calculated building structure objects, classify them into common objects and individual object types, and estimate an estimate.

In addition, it is preferable to include codes in the calculated building site finishing materials and classify them into a common object and an individual object type to estimate an estimate.

It is also preferable that the individual object types of the structural object and the finishing material include a price index upper limit including code information on the basis of volume unit (m3) and area unit (m2).

When the architectural design stage is selected according to the present invention, the structural objects such as pillars, beams, retaining walls, and slabs selected based on the selected design stage are automatically selected by the applied parameters (FIG. 5) , It is possible to automatically calculate the finished amount of work by the finishing parameters applied to the walls and ceilings (figure 7), so that it is possible to calculate the automatic amount of work quickly and reliably by the arithmetic expression without generating all the building information models necessary for the design Can be estimated.

The same determination can be made when the design model is changed.

In addition, if the calculated quantity of water index is reflected in the calculated quantity of water, the estimate estimate reflected in real time can be confirmed.

In addition, it is possible to estimate an estimate of the building design object, and the criterion for creating the finishing materials by the stage of planning design, basic design, execution design stage of the architectural design stage.

It is also possible to create an estimate statement by classifying columns, beams, retaining walls, and slabs, which are quantity calculation structural objects, on the basis of individual object types in the common object type.

It is also possible to create an estimate estimate statement by sorting the quantity-counting deadline material on a common object type basis and on an individual object type basis.

FIG. 1 is a flowchart illustrating a calculation process of a building structure object and a finishing material quantity for estimating the BIM approximation of a representative road according to the present invention.
Fig. 2 is a sequence chart of an estimate estimation range and a code selection of the structural object and the structural material in the design stage in Fig. 1.
Fig. 3 is a conceptual table for distinguishing whether or not the calculation criteria of the building structure object and the finishing area quantity in the architectural design stage.
Fig. 4 is a conceptual table that classifies the small and middle codes of the building structure object and the finishing area.
FIG. 5 is a diagram showing a location and a method of application of parameters for each building structural part.
FIG. 6 is a conceptual diagram of the calculation using the parameters of the building structural parts in FIG. 5.
FIG. 7 is a diagram of locations and methods of application of parameters for each building finishing site.
FIG. 8 is a conceptual diagram of the calculation using the parameters for each building finishing position in FIG. 7.
9 is a conceptual diagram that classifies common objects and individual object types of an architectural structure object.
FIG. 10 is a conceptual diagram that classifies common objects and individual object types of building finishing site materials.

Hereinafter, the present invention will be described in more detail with reference to the drawings.

Explanation of Automatic Calculation Calculation System for Estimation in Architectural Design

Detailed description will be made with reference to FIG. 1 by describing an automatic quantity calculation system for estimating an estimate. Prior to this, the four elements of pillars, beams, retaining walls, and slabs used in the present specification and claims are individual elements constituting independent systems of objects, and the building finishing material is a wall, Floor, ceiling area of the material.

When the design stage for estimating the estimate is selected in the architectural designing step S200, the range of the building structure object S210b and the material S210c for each finishing site is selected, and the selected structural object S220a and Code information is selected in the material for each finishing site (S220b), and the amount of material for each building structure object and finishing site is calculated.

The range of calculation of the quantity of the building structural object and the finishing part is made clear with reference to FIG. In the design phase, the structural object calculates the volume (㎥) of the retaining wall and the slab object, and the deadline is not calculated. The structural object in the basic design stage is the volume of the column, beam, retaining wall, M 3) value of the wall, the floor (slab), and the structural object in the design stage calculate the volume (m 3) of the column, beam, retaining wall, and slab object , And the finishing site material is to select the area (m2) of wall, floor (slab) and ceiling to be calculated. This range is defined and calculated in the system, but can be flexible depending on the structural objects and the finishing materials in the architectural design stage.

In addition, according to the selection of the range of the architectural design stage, the process is classified according to the quantity calculation determination S110 of the building structure object, the building structure object, and the building finishing site material. If the quantity of the building structure object is calculated, The information of the building is extracted (S120b), and the code (FIG. 4) information S120c corresponding to the extracted quantity of water is applied (S120b) . If the building structure object and the material quantity of the finishing site are calculated, parameters are applied (S130a) as in the structure object image (FIG. 5) and the finishing material image (FIG. 7) (FIG. 8), information on a building is extracted (S130b), and code (FIG. 4) information S130c corresponding to the extracted quantity of water is applied.

If the modification of the BIM information model by the architectural design change is determined (S140), the structural parameter S120a is again performed in the case of the structural object. If the structural object and the finishing material modification are present, If there is no modification of the BIM information model, the code is classified into the common object and the individual object type (S150a), and the price of the individual object type An exponential maximum magnitude is applied to perform an estimate estimation operation (S150b), and output to a statement (S150c).

The automatic quantity calculation system for estimating such an estimate is selected according to the selection of the architectural design stage, and the automatic building structure and the finishing material are selected, and the code information is applied to the structural object and the structural material calculation quantity, The application of the automatic forecasting calculation system is completed.

Automatic Calculation Method for Estimation in Architectural Design

In order to describe a concrete quantity calculation operation method in the automatic quantity calculation system, a description of a building structure object image (FIG. 5) and a calculation formula (FIG. 6) corresponding thereto, a building finishing site material image (FIG. 7) 8) will be clearly described.

The following description is a description of a calculation method of calculating the quantity of building structural objects and the finishing material which are performed after the building structural object, the building structural object and the step of determining whether to calculate the finishing site material quantities (S110).

The construction of the building will be described with reference to the image (FIG. 5) and the calculation formula (FIG. 6)

The column object calculates the column framing volume by the height value except for the upper slab height (T) at the height of the floor height (H) in the column length (A) and width (B)

Also, the beam object computes the beam volume by the length (L4) between the columns at the width (C) and height (D) area.

In addition, the retaining wall is calculated by multiplying the length (L3) between the columns and the height of the floor height (H) by the value excluding the height of the upper slab, multiplying the wall thickness T1 by the value of the frame size, H1) is calculated as the retaining wall frame volume.

The slab is calculated by multiplying the outer length L1 of the column by the length L2 to calculate the area and multiplying the slab height T by the slab height.

The construction finishing material will be described with reference to the image (FIG. 7) and the calculation formula (FIG. 8)

The mortar material at the floor of the building has the wall length (L3) and the thickness (T) area excluding the area multiplied by the wall length (A) and the length (B) To calculate the area of the mortar.

The waterproofing material of the finished floor part is obtained by multiplying the floor mortar area by the internal dimension (AT) + (BT) and the height H1 and by multiplying the total length L1 by the height product excluding the dimension A and the dimension B And calculates the other waterproof material part by the same method.

Also, the tile at the finish floor area is the same operation as the area of the mordail.

The gypsum board material at the inner wall portion is obtained by summing the area multiplied by the wall length L3 and the height H by the area (AT + (BT)) multiplied by the height H, Calculate the area excluding the area multiplied by the dimension (H4) under the slab.

In addition, the wallpaper material at the inner wall portion is calculated by excluding the area multiplied by the half-turn length (INCEI-MOU) and the ceiling height (H3) in the gypsum board area.

In addition, the base material of the inner wall portion calculates the area obtained by multiplying the INCEI-MOU length by the height H5.

The gypsum board material of the inner ceiling portion calculates an area excluding the area (A x B), the wall length (L3) and the thickness (T) on the area multiplied by the length (L1) and the length (L2).

Also, the ceiling of the inner ceiling is the same operation as the gypsum board area.

Further, the half-turn of the inner ceiling portion calculates the length excluding the inner corner dimensions at the entire lengths L1 and L2.

The quantity extracted by the above calculation method is classified into a common object code of each structural object and finishing material, and classified into each individual object type code for detailed classification. In the individual object type, And outputs a structure statement (S330) and a closing statement (S430) by an operation with the DB.

As described above, the present invention has been described with reference to the embodiments shown in the drawings for extracting the BIM information in consideration of the characteristics of the architectural design stage. However, this is merely an example, It can be applied to pillars, beams, retaining walls and slabs, which are elements, and finishing materials can also be applied as examples of materials applied to walls, floors and ceilings, which are basic elements of architectural space. It will be an effective computation method, and a classification system that links extracted building quantity and code information will be effective in making the statement of WBS standard.

S100: Architectural design stage and code selection
S100a: Selection of architectural design stage
S100b: Estimation of structure and finishing estimate
S100c: Selection of rescue and finish estimate code
S110: Judgment on structure or structure and estimate of final estimate
S120: Performing structural quantity calculation
S120a: Application of structure parameters
S120b: Calculation of quantity of structural object
S120c: Apply code to structural yield
S130: Performing calculation of structure and finishing quantity
S130a: Apply structure and finishing parameters
S130b: Calculating the amount of structural objects and finishing materials
S130c: Apply code to structure and finishing yield
S140: Determining whether to modify the BIM model
S150: Classification of common objects and individual objects
S150a: Common object and individual object type code classification
S150b: One-to-one applies to individual objects
S150c: Estimation result summary statement output
S200: Determining the level of architectural design
S200a: Planning design phase
S200b: Basic design steps
S200c: Execution design phase
S210: Scope of calculation of quantity of building design stage
S210a: Quantity calculation range determining module
S210b: Structural column, beam, retaining wall, slab output sorting module
S210c: Material selection module for finished wall, floor, ceiling area
S220: Code selection module
S220a: Building Structure Object Code Selection Module
S220b: Material selection module for building finishing site
S300: Building structure object code information module
S310: Building structure common object code type module
S320: Building structure individual object code type module
S330: Output of building structure statement
S400: Building finishing object code information module
S410: Building Close Common Object Code Type Module
S420: Building closed individual object code type module
S430: Output of architectural closing statement

Claims (6)

Claim 1
(a) Selection of the design stage for calculating the quantity in the architectural design stage (S200)
(b) determining a range of a quantity calculating structure object and a finishing area material of the selected designing stage (S210a)
(c) an architectural structure object selection module (S210b) corresponding to the selected design stage, and
(d) a method including a building finishing site selection module step (s210c) at a selected design stage (FIG. 3)
(e) Selecting a code according to the selected building structure objects (columns, beams, retaining walls, slabs), classification (object codes), and subcategories (structure integration codes) (S220a) ≪ / RTI &
The above-mentioned building structure main category (work type code) includes a reinforced concrete structure, a steel structure, a reinforced steel-concrete structure,
The building structure middle class (object code) includes concrete, reinforcing bars, formwork, steel frame,
The building structure subclass (finish integration code) includes a structure type code and object code combination method,
(f) selecting a code (S220b) according to a selected building finishing site floor, wall and ceiling (location code), middle class (site code), and small classification (finish integration code) ,
The building finishing major category (location code) includes inside and outside the building finish,
The building finishing part classifications (site codes) include architectural building floors, walls, ceilings, windows, doors, curtain wall openings,
(Finishing integration code) finishing position code and a site code combination method,
(g) applying a parameter (S120a) to the image (FIG. 5) to calculate the automatic quantity of the selected building structure object,
(S120b) of calculating an arithmetic expression using parameters of the building structure object,
And a code assignment (S120c) method to the selected building structure object,
(h) applying a parameter (S130a) to the image (FIG. 7) to calculate the automatic quantity of the selected building finishing site material,
(S130b) of calculating an arithmetic expression using parameters of the building finishing site material,
And a code assignment (S130c) to the selected building finishing site material,
(i) a common object type module (S310) classification and an individual object type module (S320) classification method in which a code (S220a) selected for classifying the architectural structure estimate estimate quantity is applied to an architectural structure object code information module (S300) ≪ / RTI &
(j) a classification of common object type module S410, which is applied to the construction site finishing code information module S400, and a classification of individual object type module S420, which is a code S220b selected for classifying the building finishing estimate calculation amount ≪ / RTI >
An Automatic Volume Calculation Method for Parameter Estimation of Building Structure Objects and Finishing Materials for Building Information Modeling (BIM) Estimation at the Architectural Design Stage. The method according to claim 1,
In the step (b)
The architectural design stage is classified into planning design, basic design, and execution design stage, and it is characterized by the level and range of quantity calculation for estimating an architectural structure object as pillars, beams, retaining walls, slabs and building finishes as walls, floors and ceilings. As a result,
Estimation of Quantity for BIM Application in Architectural Design. The method according to claim 1,
In step (c)
The structural part of the reinforced concrete structure calculated from the structural object,
(Fig. 6) method of automatically calculating the columns, beams, retaining walls, and slabs of an architectural structure object (Fig. 5) for calculating the quantity of water.
An Automatic Quantity Calculation Method for Estimating Estimation Using BIM. The method according to claim 1,
In the step (d)
The floor material used for the calculation of the calculation is mortar, waterproof and tile. The wall material is gypsum board, wallpaper, and the base, and the ceiling material Characterized in that the method comprises automatic calculation of the gypsum board, ceiling gates,
An Automatic Quantity Calculation Method for Estimating Estimation Using BIM. The method according to claim 1,
In steps (i) and (j)
The method of classifying the quantity of building structure objects is classified into the common object type (S310) and the individual object type (S320)
The calculation method of the quantity of building finishing materials is classified into a common object type (S410) and an individual object type (S420)
Characterized in that code information in a common object type is classified into individual object types in detail,
A Method for Classifying Code Information of Output Quantities for Estimate Estimation Using BIM. 6. The method of claim 5,
Which is characterized by the code information including the price index of the volume unit (m3) and the area unit (m2) of the individual object type of the building structure object and the finishing material,
Estimation method of individual object types using BIM.

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