KR20160010251A - Composed unit cost Information for Operational Architectural Rough Estimation using BIM and Classification - Google Patents

Abstract

The present invention relates to a composed unit cost information operating and classifying method for an architectural rough estimate using BIM. The method comprises: a step (S300a) of selecting a construction type such as reinforced concrete (RC), steel framed reinforced concrete (SRC), and steel framed concrete (SC) in a step (S300) of selecting a building structure construction type (large classification), a structure portion (middle classification), and a structure object (small classification); a step (S300b) of selecting a building structure portion of the selected construction type; and a step (S300c) of selecting a structure objet of the selected building structure portion. Therefore, the method can check an approximate estimate of a finishing material by only checking code information.

Description

{Composite unit cost Information for Operational Architectural Rough Estimation using BIM and Classification}

The present invention relates to an information model for estimating an estimate using a BIM, the method comprising the steps of: constructing an architectural structure RC (reinforced concrete), SRC (steel reinforced concrete), SC (steel concrete), and structural parts (foundation, pillar, beam, retaining wall, (M3), which is the sum of the code information including concrete, reinforcing bar, and form information of the structural object (m3), and the combined unit volume (m3) And more particularly, to an information calculation and classification method for generating a model.

The cost information including the code information including the material information per site applied to the building finishing site (floor, wall, and ceiling) and the unit price of the unit area (m2) m 2) to an information calculation and classification method for generating an estimate estimation operation information model.

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, since there are many inefficient and repetitive tasks due to design changes, it is difficult to design work unique to architectural design. Therefore, when BIM information model is used in architectural design process, It is possible to design reliable architectural BIM considering cost.

The present invention relates to an information processing apparatus and a method for designing a structural unit (RC, SRC, SC) and a structural unit (base, pillar, beam, retaining wall, slab, stair) (m3) We propose an information calculation and classification method for generating estimate estimation information model by multiplying the cost information including the synthesis cost by the structure object volume (m3) of the building.

The cost information including the code information including the material information per site applied to the building finishing site (floor, wall, and ceiling) and the unit price of the unit area (m2) m2) to provide an information computation and classification method for generating an estimate information model.

In order to solve the above problems,

The present invention divides a building into a structural object and a finishing material project estimate step, and (a) the structural object includes a step (S300a) of selecting a corresponding construction type among RC, SRC, and SC structural building types; (b) a step (S300b) of selecting a structural part of a structural part such as a base, a column, a beam, a retaining wall, a slab, and a stair in the structural work; (c) a corresponding structural object among the structural object concrete, formwork, reinforcing bar, and steel frame is selected at the structural site (S300c); (d) generating (S310) a structural code including the structural object type, the structural part, and the structural object; (e) classifying the corresponding construction type to calculate the greatest one of the structural objects (S320a); (f) a step (s320b) of extracting a greatest value for each type of the structured object classified from the DB; (g) calculating (S320c) a synthesis unit price of the unit volume (m3) by summing the greatest values for each type of the operation; A step S330 of multiplying the unit volume m3 of the structural object by the synthetic unit price to estimate an estimate estimate of the structural object; (h) generating a structural object information model by including the selected structural object code and an estimate estimate of the estimated structural object (S340); (i) a step of outputting the code of the structural object information model and the estimated estimation result (S350); and (iii) providing a compound price information calculation and classification method for estimating the building structure estimate.

Further, (j) the finishing material may include a step S400a of selecting the corresponding site among the floor of the finishing area, the wall, and the ceiling; (k) selecting a corresponding finishing material at the finishing site (S400b); (l) creating a finishing cord including the finishing material and the finishing material (S410); (m) sorting the corresponding type of work to calculate the maximum work piece of the finishing part (S420a); (n) extracting a greatest value for each type of the finishing material classified from the DB (S420b); (o) calculating a unit area (m3) combining unit price by summing the greatest price for each type of the service (S420c); (p) a step (S430) in which an area (m2) of the finishing material information is multiplied by the composite unit price to estimate an estimate estimate of the finishing material; (q) generating a finishing material information model by including the selected finishing cord and the estimated finishing material estimate (S440); And a step S450 of outputting a finishing material code and a result of an estimate. The method of calculating and calculating a composite price information for a building finishing estimate is provided.

In addition, it is preferable that the structure code including the architectural construction type work S300a, the construction site S300b, and the structure object S300c is a construction form of FIG.

In addition, it is preferable that the building finishing part S400a and the finishing material S400b use the configuration form of FIG.

In addition, the unit volume (m3) combining unit price S320c and the unit area m2 combining unit price S420c obtained by summing the greatest values of the architectural structure object and the finishing material work type are preferably in the form of FIG.

In addition, it is preferable that the construction of the one-dimensional DB (S100d) for creating the composite unit price of the structural object and the finishing material of the building is based on the one-size-fits-

According to the present invention, the code information including the concrete construction type (RC, SRC, SC) and the structural part (foundation, pillar, beam, retaining wall, slab, stairs) (M3) is a multiplication operation with a structural object volume (m3) of a building, and the information calculation and classification method for generating an estimate estimation information model. It is possible to manage concrete, reinforced concrete, and formwork information of such architectural structures (RC, SRC, SC) and structural parts (foundation, columns, beams, retaining walls, slabs and stairs) with collective code information. And can be utilized in connection with the composite unit cost information.

In addition, it is possible to utilize the structure object type, the code information, and the synthesis unit price in connection with each other.

In addition, it is possible to extend the code even if the construction type, structure part, and structure object are added.

In addition, even when the structural information model is changed, it is possible to confirm the estimate estimate in which the composite price information is reflected in the output quantity in real time.

In addition, it is possible to confirm the estimate estimate of the structural object and the corresponding structural information model only by checking the code information when calculating the statement by applying the corresponding code to the structural structural information model.

The cost of the building includes the cost information including the code information including the material information for each part applied to the building site (floor, wall, ceiling) and the unit price of the unit area (m2) And an information classification method for generating an estimate information model. It is possible to manage with the code information that is collectively classified according to the building finishing classification standard, and it can be utilized as the same standard as the combined unit price cost information which is the sum of one type of work type.

In addition, the shape of the finishing material, the code information, and the composite unit price can be used in conjunction with each other.

In addition, code can be extended even if construction material information is added.

In addition, even when the finishing material information model is changed, it is possible to confirm the estimate estimate in which the composite price information is reflected in the output quantity in real time.

In addition, it is possible to confirm estimate information of finishing materials and corresponding finishing materials only by checking code information when calculating the statement by applying the code to the information of building finishing material information model.

1 is a block diagram of a building information model, which is a representative object of the present invention, in which a code selection, a work type classification, and a DB information are applied to a composite unit price generation module for a structural object and a finishing material of a building, FIG. 8 is a conceptual diagram for explaining a method of applying a generation module. FIG.
FIG. 2 is a flowchart specifically illustrating a method for calculating and estimating a structure object estimate estimate information of a building according to FIG. 1.
FIG. 3 is a flowchart specifically describing a method of calculating and estimating finishing material estimate information of a building in the reference of FIG. 1;
Figure 4 is a composite unit case image showing the sum of the constituent items of the fiber reinforced concrete in each work category for the slab construction.
FIG. 5 is a conceptual table showing codes constituting types of construction construction, structural parts, and structural objects.
FIG. 6 is a conceptual table showing the material codes and application examples of each building finishing material part.

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

A composite price information calculation and classification method for estimating an architectural structure object,

The construction cost information calculation and classification method for estimating an architectural structure object will be described more specifically with reference to FIG. Four objects (S300c) of concrete, formwork, steel, and steel, which are the structural structural objects used in the present specification and claims, correspond to the selected part (S300b) of the base structure, the column, the beam, the retaining wall, the slab, (Steel reinforced concrete), SRC (steel reinforced concrete), and SC (steel concrete) structures, which are the top architectural structure construction types. It is a structural site classification corresponding to a construction type (S300a). Therefore, concrete object, concrete object, formwork, reinforcing steel, and steel frame object, which is an object of construction, is the same as the object of Fig. 5 based on object including upper classification, and each structural object means individual element constituting an independent system.

For example, RC-WAL-C structure code means concrete applied to the retaining wall of reinforced concrete construction, SRC-COL-C structure code means concrete applied to columns of steel reinforced concrete construction, , It is possible to generate more structure codes by adding structural objects.

When the code of the structural object is selected (S310), the type of the construction standard applied to each concrete, the formwork, the reinforcing steel, and the steel frame object is classified (S320a) in order to calculate the maximum value of the structural object.

For example, the types of concrete applied to the reinforced concrete column objects include cement, sand, gravel, labor (concrete, labor, and labor), and equipment finishing. In addition, the types of work that are applied to the reinforcing steel objects include small wire, labor (rebar, ordinary laborer), mechanical equipment and finishing. Also, the types of work that are applied to form objects include plywood, wood, wires, nails, exfoliants, molds, ordinary workers, and instrument finishing.

In addition, it extracts the greatest value of the classified structural object type from the DB (S320b), and assigns it to each order of the structural objects to synthesize the unit volume (M3) of the corresponding structural object, The unit price is calculated (S320c).

For example, each work type of concrete applied to a reinforced concrete column object is the cost per unit volume (m3) of each type of work such as cement, sand, gravel, labor costs (concrete labor cost, ordinary labor labor cost) (M3) of the structural object concrete unit (m3), which is the cost of each concrete type per unit volume (m3).

In addition, the unit price m3 of the structural object S300c and the combined unit price of the product types are multiplied by S320c to calculate an estimate estimate of the structural object S330.

In addition, the generated structure object code (S310) and the estimate estimate (S330) of the calculated structure object are included to generate a structure object information model (S340).

In addition, the code of the structural object information model and the estimate estimation result are outputted and completed (S350).

The synthetic unit price information calculation and classification method for estimating the structural object estimate is completed by outputting the structural object synthesis unit cost, the structural object unit volume (m3) operation result value and the corresponding code information according to the selection of the object according to the building structure part.

Composite unit price information calculation and classification method for estimating the construction finishing materials,

Detailed description will be made of the synthetic price information calculation and classification method for estimating an estimate for a building finishing material with reference to FIG. The construction finishing material is selected in S400a for the application of the finishing material among the finishing floor IF, wall IW and IC, S400b is selected for the finishing material to be applied to the designated site, And a finishing code including the finishing material information is selected (S410) as shown in FIG.

For example, the IF-PRO finishing cord refers to mineral elastic waterproofing located on the inner bottom, and the IW-GYP finishing cord refers to a gypsum board located on the inner wall. You can also create more finishing codes by adding finishing materials.

In order to calculate the maximum value of the finishing material of the selected finishing area, the corresponding type of work is sorted (S420a).

For example, waterborne paint work on the wall surface includes putty, abrasive paper, painter, and instrument finishing.

In addition, the maximum magnitude of each type of the finishing material classified by the type of the finishing material is extracted from the DB (S420b), and is substituted into each order of the finishing materials so as to calculate the unit area of the finishing material (m2 ) Is calculated (S420c).

For example, water-based paints applied to the wall surface are manufactured by converting each type of work such as putty, abrasive paper, painter, and instrument tool into the cost per unit area (m2) Calculate the unit price, which is the unit cost of the water-based paint (m2) of the finishing material on the wall surface, by summing up the work cost, which is the cost of the work.

In addition, the unit price of the finishing material S400b is multiplied by the synthesizing unit price obtained by combining the price of one type of the material and the estimated price of the finishing material S430c.

In addition, a finishing material information model is generated by including the generated finishing code (S410) and the generated estimate of the finishing material (S430) (S440).

In addition, the finishing material code and the estimate estimation result are outputted and completed (S450).

In the synthetic price information calculation and classification method for estimating the material cost estimate for each finishing site, the finishing material synthesis cost, the finishing material unit area (m2) calculation result value and the corresponding code information are output according to the selection of the material for each building finishing site, do.

As described above, the present invention provides a system configuration capable of confirming a real time projected estimate in a process of generating an architectural structure object and a building material information model using a compound price information calculation and classification method for estimating an architectural project using BIM. In addition, by extracting and comparing the code included in the building information model and the estimate cost, it is possible to consider the code information and the estimate cost extracted at the same time as the review of the information model shape, so that the visual shape, attribute information classification, It will be possible to make a statement that makes effective use of it.

S100: Code selection of building structure object and finishing material, classification of work type, production cost module
S100a: building structure object and finishing material code selection module
S100b: building structure object and finishing material work type classification module
S100c: building structure object and finishing material composite unit price generation module
S100d: One large DB for building structural object and finishing material composite unit price
S200: Finishing material unit area and structural object unit volume calculation module of building information module
S200a: Finishing material unit area calculation module
S200b: building information model generation module
S200c: structural object unit volume calculation module
S300: Step of selecting the structural objects of structural part by construction type
S300a: Selection of construction type RC, SRC, SC
S300b: Step of selecting structural foundation, columns, beams, retaining walls, slabs, stairs
S300c: Structural objects Concrete, formwork, steel, steel
S310: Construction code generation step including structure type, structure part, and structural object
S320: Classification of work type, calculation of unit price, calculation of DB
S320a: Classification of construction objects for work size
S320b: DB Extraction Step by Work Type of Structural Objects
s320c: Creation of structural object synthesis unit price by sum of work and work
S330: a step of estimating the estimate by multiplying the unit volume (m3) of the structural object by the composite unit price
S340: The step of constructing the structural object information model by including the structural object code and the estimate estimate of the structural object
S350: the step of outputting the code of the structural object information model and the result of the estimation estimate
S400: Step of selecting the finishing area and the finishing material
S400a: Finishing area floor, wall, ceiling selection step
S400b: Selection of the finishing material corresponding to the finishing area
S410: Finish code creation step including finishing area, finishing material
S420: Creation of composite unit price by summing the greatest value of the finishing material of the finishing area
S420a: Closing material finishing area finishing material classification step
S420b: Extraction of the greatest amount of the finishing material by work type from DB
S420c: Estimating the cost of synthesizing the finishing materials by summing the greatest values of each type of work
S430: a step of estimating the estimate by multiplying the unit area of the finishing material (m2) by the composite unit price
S440: Step where the finish material information model is created, including the finish code and finish material estimate estimate
S450: Step of outputting the finishing material code and the result of the estimation estimate

Claims (6)

(a) Architectural structure In the step of selecting construction type (major classification), structure part (middle classification), and structural object (small classification) (S300)
(b) Architectural Construction Construction The construction type is selected (S300a) in RC (Reinforced Concrete), SRC (Steel Reinforced Concrete) and SC (Steel Concrete)
(c) a step of selecting (S300b) a structural part among the foundations, pillars, beams, retaining walls, slabs, and stairs,
(d) selecting (S300c) a structural object among concrete, formwork, reinforcing steel, and steel frame of the selected structural part,
(e) a method (S310) of sorting and selecting a structure code including the selected structural work type, structural site, and structural object (FIG. 5)
(f) classifying the type of the construction object corresponding to the selected code (S320a) and extracting the greatest value from the database (S320b) to calculate the combining unit cost (S320c) In addition,
(g) multiplying the unit volume (m3) of the structural object by the unit volume (m3) synthesis unit price to calculate an estimate estimate of the structural object (S330)
(h) generating (S340) a structural object information model including the selected structural object code and an estimated result of the estimated structural object,
(i) a method of composing unit price information calculation and classification for estimating an architectural structure estimate, in which the code of the structural object information model and the estimated estimation result are output (S350). The method according to claim 1,
In step (e)
Construction for building construction estimate estimation, including a code generation method (figure 5) including building classification (major classification), structural section (middle classification), structural object (sub classification) classification method, major classification, middle classification, Unit price information calculation and classification method. The method according to claim 1,
In steps (f) and (g)
Estimation of the construction structure, including the estimation method of the corresponding structural object, by multiplying the unit cost (m3), the unit cost (m3) of the structural object, Composite Unit Price Information Operation and Classification Method for Estimation. (j) selecting (S400a) a building finishing area (floor, wall, ceiling) and selecting a finishing material (S400b)
(k) a method (S410) in which the finishing cord including the selected finishing area material is sorted and calculated (S410)
(1) a method of sorting the corresponding type of work material to select a work material corresponding to the selected code (S420a) and extracting the work material value from the database (S420b) to calculate a composite unit price (S420c) In addition,
(m) a method in which the unit area (m2) of the finishing material is multiplied by the composite unit price of the unit area (m2) to calculate an estimate estimate of the finishing material (S430)
(n) generating (S440) a finishing material information model including the selected finishing material code and an estimated estimate result of the estimated finishing material,
(o) a code of a finishing material information model and a corresponding estimate estimate result are output (S450). 5. The method of claim 4,
In step (k)
A method of composing unit price information calculation and classification for a building finishing estimate including a code generation method (FIG. 6) including each finishing information in a floor finishing, wall and ceiling finishing method. 5. The method of claim 4,
In steps (l) and (m) above,
The total cost of each type of construction applied to the building finishing material is summed up to calculate the combined unit cost of the unit area (m2), multiplied by the unit area (m2) of the finishing material, Composite Unit Price Information Operation Method and Classification Method for Estimation.

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