KR101167849B1 - Method on Ranking Information Processing of Construction Cost Including Small Space or Element Information - Google Patents

Abstract

The present invention relates to an information processing method of a construction construction cost information processing system including construction construction cost ranking information generation including detailed space or part information by at least one work type or cost item basis.
The present invention provides an information processing method of a construction cost information processing system, comprising: (A) obtaining space selection information for at least one space; (B) receiving at least one piece of cost item reference information related to the space or using preset fee item reference information for the space from which the selection information has been obtained; (C) generating construction cost information for each sub-space of the space for which the selection information has been obtained for each of the received cost item criteria; And (D) generating construction cost ranking information for each sub-space based on the cost item basis using the generated construction cost information for each sub-space.
When the present invention is implemented, it is possible to know the numerical ranking of various calculation information such as the cost of construction cost, material input amount, labor input amount, etc. for each detailed space or part, so that the priority or importance of construction, material, labor input can be grasped. For example, it is possible to determine the priority of various actions to reduce construction costs such as VE.

Description

Information processing method of construction cost information processing system including generating construction cost ranking information including detailed space or part information {Method on Ranking Information Processing of Construction Cost Including Small Space or Element Information}

The present invention relates to an information processing method of a construction construction cost information processing system including generating construction construction cost ranking information including detailed space or site information. It relates to an information processing method of a construction cost information processing system that includes construction cost construction ranking information generation.

The construction work is carried out by the contractor (contractor) signing the construction contract with the contractor (contractor) to implement the building. The contract can take many forms and the main process of the contract is terminated by paying for the work after the work is completed. In general, in the profit-oriented construction industry, the contractor carries out the construction work based on the economic principle of completing the contract contents (design books, etc.) with a minimum cost.

However, as with these builders, the owner also proceeded with the construction to achieve the best quality at the lowest cost. Therefore, the adequacy of the construction cost, the validity of the construction price change, the payment method of the construction cost, and the failure of the building, which is the finished product Substantial disputes often arise over construction defects. Disputes in construction work are complicated and diverse in many cases due to the involvement of multiple parties. As contracts are implemented through various stages from design to construction and supervision, and repair of defects after completion, various stakeholders such as designers, builders, supervisors, orderers, beneficiaries, subcontractors, and guarantors are involved.

However, it is difficult to clarify all the rights and obligations of all these parties in the contract, which makes it difficult to identify disputes and cause and responsibilities because of the complex interests involved. In addition, the construction work is a contract industry that has the characteristics of a contract for the purpose of completing the work, so it is difficult to verify the goods at the time of the contract and it is possible to judge whether the original purpose of the contract is achieved at the time of completion. It is not easy to accurately determine the default. Most construction works are not small in size and often require a certain period of time to complete the construction, and even during the implementation of the construction contract, design changes, additional construction, and delays in implementation are caused by the appearance of unexpected external factors. Easy to be There is a high probability of claims or disputes over costs or liability.

Referring to Figure 1 will be described a problem that occurs when the existing claims of the existing bills for each industry. It is difficult to grasp the progress of the construction by the existing breakdown report. The existing construction cost estimation method of the domestic construction work based on the existing work report has a number of problems, such as the calculation of the ready-made height irrelevant to the calculation of the work progress, a large amount of paperwork and complicated procedures. The statute of the domestic established calculation and payment method is the "National Contract Law", and each ordering agency has made and applied the guidelines to the relevant agency based on this law. According to these laws, a large amount of paperwork, including one-time paperwork, and complicated on-the-spot application and on-the-fly payment procedures, all contractors (contractors), contractors, supervisors, etc. In order to calculate the progress rate of construction work, the calculation of the progress rate based on the ready-made treatment and the rough progress calculation method based on the process schedule are usually used. There is a limit. In the construction work that manages the construction project or the construction supervision, the number of work for each completed part must be counted by the professional personnel even when the monthly request is completed for each month or completed construction. However, the calculation of the cost of the construction is not possible, but the division of the details of each sector is not limited to the actual cost of construction.

The existing breakdown report is that there is a high possibility of error in the calculation of the number of ready-made works by the type of the ready-made works. When carefully examining the case of determining whether the current construction cost is appropriate or not, the calculation of the ready-made request cost is mainly based on the type-specific statement in the form of the current statement from the construction company. It is difficult to accurately calculate the construction quantity of the ready-made construction part of the month because it is based on the aggregate quantity of each model.

Existing breakdowns by type of construction have difficulties in preparing breakdowns of the total construction costs of the existing construction costs. The current "construction statement for each work type" is a concept of work type, so the number of construction items can be calculated only for the total work or the count for each building.

In addition, it is possible to grasp the total cost of construction work by preparing a "cost statement" that summarizes expenses including general expenses, general management expenses, construction loss insurance premiums, profits, and VAT, which are calculated at the cost of various expenses as well as the details of construction expenses for each space. There is no space information under the current work breakdown system, and the direct cost is calculated based on the aggregated information of the quantity per work. It is difficult to figure out the total cost of construction (direct construction cost + construction cost + general management cost + construction loss premium + profit + VAT, etc.).

Accordingly, the method and system for processing the construction cost information for each part of the detailed space presented in the present invention derives the problems of the construction cost statement for each sector expressing the existing construction cost and the limitations of the cost calculation method, and simultaneously increases the claims and disputes. It is intended to prevent and improve the following effects. The establishment of a ready-made management system for each part of the detail space of the details will be the touchstone for improving the overall construction management work.

On the other hand, the utility and necessity of an integrated database that penetrates all stages of construction, from design to construction and maintenance, has been raised. In recent years, the rapid development of IT and the universal use of CAD data as the basis of construction information Technologies that make this possible are becoming a reality. Fundamental protocols for the integration of construction information, such as the Industry Foundation Classes (IFC) of the International Alliance for Interoperability (IAI), grew by international efforts, and IFC began to be used as a protocol in various construction software. As a result, this phenomenon has begun to popularize under the concept of BIM, and is spreading in the United States and Europe with institutional support in recognition of the value of using integrated data through design and construction processes.

"BIM" is a digital model (information system) and its creation that provides a reliable basis for making decisions throughout the life cycle of a facility by the physical or functional characteristics of the facility object in all areas of construction, including architecture, civil engineering and plants. This includes the work procedures for the project. "BIM Deliverables" means the set of BIM deliverables that are finally completed in the BIM-applied business. It is usually specified in a contract, specification, or task statement.

The object classification system used in BIM is a list that systematically classifies the physical object units constituting the model data. In this case, the object classification system is classified into spatial objects and local objects. The term "spatial object" is one of the BIM objects. A spatial object refers to an object used to define a range of space such as floors, zones, and rooms of a facility. Spatial objects are objects that are used to define the scope of various spaces such as floors, zones, and rooms of buildings, and are used to construct spaces conceptually. Spatial objects are classified by space programs, and their use is determined by necessity. "Part" means a component of a facility that surrounds the space as a part of the facility from a physical point of view and supports the function of the space. The term "part object" refers to an object used to define a part as one of the BIM objects. Site objects are used to physically construct a facility, such as columns, walls, doors, and windows. This may be based on the technical classification system used by the institution, but may use lists provided by the software. The input target sets the minimum input request target for each specialty field based on the site object classification list.

The BIM attribute classification system is a set of internal characteristics that each object classification unit has in common. The property of each object is used to give characteristics such as identification, shape, property, and reference, and the list provided by the software can be used if it cannot be secured according to the technical classification system used by the institution. The input target sets a list of minimum input request targets for each specialized field, targeting the BIM attribute classification system. Object-specific attributes of model data can be planned to be entered in stages.

2 is a diagram for explaining the construction of the Ministry of Land, Transport and Maritime Affairs Publication No. 2009-781 construction information classification system. It can be seen that one facility consists of at least one space, and each space includes at least one area. In addition, each part or each space may correspond to at least one type of work (the work type may have a work classification system composed of at least one or more hierarchies), and each work type may include resources such as manpower, materials, and equipment. This can be assigned.

Each of them will be described in detail as follows. "Facility classification" means the classification according to the purpose, use and function of the facility and its surrounding environmental factors as the final result of the construction activity. "Spatial classification" refers to a classification that divides the area or volume and conceptual compartments that are constituted by spatial use and physical site elements. "Site classification" refers to the classification of the components of a facility that surrounds the space as part of the facility from a physical point of view and supports the function of the space. "Work classification" refers to the classification of work and work results that are technically a unit of work that constitutes a part of a facility and have a function designed using all resources. "Resource classification" refers to material classification, equipment classification, and personnel classification, which consists of the resources put into construction works, which are the physical resources, the equipment supporting the work, and the personnel who perform the work directly. A classification surface (topic) is a grouping of common characteristics of various aspects of an object. A "combination classification" refers to two or more identical or different classification surfaces (topics) for the definition of the information to be classified. It is a method of classifying by combining the classification of page).

In the current construction work, the government carries out various administrative acts such as budgeting, ordering, and contract management in accordance with the rules for the preparation of the planned price by the "cost calculation" in accordance with the "Act on Contracts with States". Although there may be differences in the cost calculation rates, private construction works are also doing the same work by drawing up a construction cost statement within the framework of the above construction costs. For the preparation of such construction details, the quantity is calculated by technology, large construction items, small construction items, and items, and the unit costs (material costs, labor costs, expenses) are applied and the construction cost statements are collected and aggregated. The general cost of the project, construction loss premium, profit, and VAT are applied at cost rates to prepare the project's cost statement and present the total cost of construction. At this time, Eulji may come out very many chapters depending on the amount of construction, but because the sum is used for the final tally table is usually arranged into one sheet.

Various amounts such as manufacturing expenses, general management expenses, construction loss insurance premiums, profits, and VAT calculated by such a ratio analysis method are referred to as 'direct construction expenses' or 'ceiling expenses' and 'indirect expenses'. The amount of money to be dealt with will be unified as 'indirect construction cost'.

Cost accounting information processing systems have also been developed and operated to reflect this practice. Figure 4 shows a flow chart for the construction cost history preparation processor that the existing construction cost calculation information processing system as an example of apartment construction. As can be seen in FIG. 4, unit price information data (consisting of material costs, labor costs, expenses, etc.) and quantity billing data (consisting of quantity aggregate data for each lake and ridge according to construction items) are input. Process the input data to generate a breakdown by construction items for each building, aggregate again by building, and then aggregate by construction items to generate total aggregate data. All aggregated data includes construction cost information directly, and this information plays a role. Cost rate information is applied to the aggregate data to calculate the total cost of construction (including the sum of direct and indirect costs). In this case, since only direct costs are counted in the generation table for each construction item, as shown in FIG. 4, cost analysis of the total construction cost for each construction item and each detailed space unit is impossible.

As can be seen in Figure 4, the conventional construction cost statement is prepared by aggregating the quantity of construction by unit price information and quantity information by type of work, and then perform the details work, such as the details of the 1 building type and the 2 building type, and the 1 count sheet And after performing the same group aggregation, such as the second tally table, and then perform the aggregate for each type, and generate the total direct cost accounting table. Percentage analysis (enter cost rates) on the total cost of direct expenses for the total direct cost summary table, generates indirect construction costs for each indirect construction cost structure item for the total aggregate table, and totals the direct construction cost and indirect construction cost for the total aggregate table To complete the entire cost breakdown.

The problem in the conventional cost statement preparation process of aggregating the total direct costs for the entire construction and generating indirect construction cost information for the entire construction by a ratio analysis method on the total direct costs construction items is detailed by the construction costs by the detailed construction space or by site. We cannot grasp construction cost. This is because, in the related art, rather than constructing the construction cost information for each indirect construction cost composition item for each detailed space, the construction cost is directly collected for the entire construction, and then the indirect construction cost information for each indirect construction cost construction item is generated based on the total construction costs. It was because.

In the existing cost history system, since the cost rate information is applied after the generation of the aggregate data, the following problems may occur in grasping the total cost of each detailed spatial construction item in various fields.

First, it is a problem that arises in the preparation of the planned price for the government works. In the current construction system, construction volume is calculated according to the detailed space construction items.However, when the construction cost statement is prepared, the construction cost of the relevant part can be immediately identified as the total cost of construction, unless the cost of each construction item is separately recorded. For this purpose, it is impossible to grasp the total input cost unless a separate statement of detailed space construction items is created and the cost is not calculated and reflected separately.

Second, the current breakdown system for each type of construction cannot calculate construction cost information for each construction cost item by detailed space or part. Accordingly, it is impossible to analyze the cost of construction by detailed space or by portion.

Third, even though the construction progress can be precisely checked by detailed space or by part, it is impossible to calculate construction cost information by total construction cost by item or by detailed space. It is also almost impossible to calculate the exact cost of the existing construction cost according to the checked construction process and the calculation of the existing construction cost for the request for the existing construction cost.

Fourth, the problems of the above-mentioned "detailed breakdown system by industry" are developing into a problem of ready-made payment in the construction project management. In the case of monthly construction or construction completion for construction construction that manages construction projects or construction supervision, the number of constructions for each completed part must be counted by a professional worker, and based on this, the preliminary claim is prepared. It is necessary to calculate and calculate the cost separately to determine the amount, but since it is a huge work, it is rarely done in practical terms, and it is a fact that a claim is made based on the fair rate based on the representative work type. Also, since it does not have a separate breakdown system to verify the quantity of such off-the-shelf details, the construction cost is usually paid by the ratio distribution method according to the fair rate based on the off-the-shelf billing amount. Since this is not based on the specific volume of each space, it is a major cause of disputes caused by the lack of remaining existing amount when the contractor and partner companies fail.

Fifth, it is a problem that occurs in the process control of construction sites. Currently, most sites do not have a standard for calculating the amount of work to be performed and the unit of the process. Therefore, the cost is usually entered as a construction cost, and it is difficult to accurately calculate the actual input cost since the input is based on the direct cost or the amount of direct construction items (direct cost). The process management construction cost integrated management system (EVMS), which requires separate actual input cost construction work, is used. However, in the process management of such construction work, the cost of each activity is directly repaid and applied to the ratio and the total cost of construction (cost of construction). It often happens.

Sixth, disputes arising from the settlement of construction costs are increasing rapidly when the construction of large MDUs is completed. In addition, the construction cost system of apartment houses also reflects direct and indirect costs separately, and it is impossible to reschedule by detailed space, so even if the sale cost is disclosed, it is difficult to calculate and verify it in detail space units, so it is often caused by construction contracts and disputes. to be.

FIG. 5 shows an example of a conventional construction cost statement (arp), which is capable of grasping the total construction cost after the direct construction cost calculation and the cost calculation. FIG. 6 shows an example of a conventional construction cost statement which is impossible to analyze the cost compared to the total construction cost because there is no indirect construction cost information for each type of detailed space. FIG. 7 shows an example of a conventional construction cost statement which is impossible to analyze the cost compared to the total construction cost because there is no indirect construction cost information for each type of space. 8 shows only an example of a statement of cost that can not be analyzed precisely compared to the total cost of construction because only the construction cost is directly expressed by the type of work in the cost statement for each type of work.

In the existing cost history system, since cost rate information is applied after generation of aggregated data, it is difficult to accurately grasp the total cost of each detailed spatial construction item in various fields. Difficulties in calculating the amount of ready-made ejaculation. On the other hand, since the existing cost history system is applied to the cost rate information after the generation of the aggregate data, it is difficult to accurately grasp the total cost of each part-detail space-by-model in various fields. There was a lot of difficulty in estimating the amount of money or calculating the amount of an established assessment.

Value Engineering (VE) is a general concept, as Lawrence D.Miles advocates, so that the customer who buys a product buys the product's functionality, so that the ability to obtain that functionality with available materials, equipment, and personnel It's based on what you can offer. In other words, in the creation and development of alternatives, product-oriented tangible thinking is transformed into functional-oriented intangible thinking, and the concept of function is gradually expanded and redefined as a concept of value. VE is defined as "organizational effort to analyze the function of a product or service to ensure that it achieves the required function at the lowest life cycle cost."

Construction workers have often mistaken VE for simple design reviews or cost savings. Of course, it is true that VE will result in cost savings, but since the function-based verification seeks a proper balance between time, performance, and cost, the VE proposed alternative is the Optimal Solution, the Best Solution. Can). Therefore, it is no exaggeration to say that cost reduction through VE is a technique by which experts in various fields find and remove unnecessary functions through team approach, and the success or failure of VE depends on how to define and analyze functions. The conventional cost reduction method tried to reduce the cost of each component according to the subject of the project. However, in the VE applied method, the function is classified to maintain the basic function and the required secondary function, but the unnecessary function is removed and the function of the design concept is eliminated. It is a way to enhance the value of a product or project by constructing another alternative.

By defining, arranging and analyzing the functions of the product or facility in detail, VE eliminates unnecessary functions and maintains designers' ideas while maintaining the main functions, the secondary functions, legal and institutional functions, and the functions required by customers. It aims to suggest alternatives by developing creative ideas for the function by Thus, VE is the most compelling alternative to other creative approaches to finding improvements, focusing on the need for functionality rather than ignoring or finding fault with existing designs, products, orders and systems.

In the era of global standard, where the distribution structure is being simplified with the development of science and technology, the world cannot survive unless it continuously increases sales in infinite competition as a single market. Thus, the need for VE is even more urgent as it faces a situation where cost savings must be made not only in hardware, including production facilities, but also in software components, including distribution means. VE is applicable to all fields, and the user-centered and functional-oriented approach is the basis of thinking through the change of ideas.

Domestic Design Ve System 1.1. Enforcement Decree of the Construction Technology Management Act In 2003, the Ministry of Land, Transport and Maritime Affairs newly established 15 articles (Articles 30 to 28, 2006) from Article 38-4 to Article 39-19 of the Enforcement Decree of the Construction Technology Management Act. It aims to reduce the side effects of budget waste and subcontracting, improve the consciousness of the people who participate in the construction process, and enhance the efficiency of public construction projects by strengthening follow-up management. In Article 38-13, the basic design and final design of the construction work with construction cost over 10 billion won, the economic feasibility and the feasibility of applying the site by the main functions of the design target facilities (hereinafter referred to as "economic design") Or design experts such as design supervisors under Article 22 of the Act.

Definition of VE Projects The legislation revised in 2005 requires the review of the economics of the design of basic and final designs of construction projects with a total cost of over 10 billion won in public works. In addition, although the VE Proposal Regulations Ordering Office is required to reflect the contents of the proposal through the "review of the economics of the design" in the design contents, the application of the proposal contents is technically difficult or excessive cost increase is required. It states that it can be excluded. 1.1.3. VE analysis policy The requirements for the timing, frequency, consideration criteria, and specific review methods and procedures of the "review of economics, etc." of the design shall be in accordance with the guidelines for reviewing the economics, etc. of the design. It must be submitted to. 1.2. Review of economic feasibility, etc. Enforcement Guidelines The Ministry of Land, Transport and Maritime Affairs, through the provisions of Article 3813 of the Enforcement Decree of the Construction Technology Management Act, will carry out design VE execution procedures and work contents for the purpose of budget reduction, functional improvement, structural safety, and quality assurance of public construction projects. A detailed implementation guideline on the review of the economic feasibility of the design (hereinafter referred to as the guideline) was established and published.

On the other hand, technology development compensation system similar to the US construction VE system (VECP) has been implemented in Korea for a long time. The technology development compensation system uses new technologies and construction methods (including functions and functions equivalent to those of government design, equipment, equipment, etc.) applied by the contract partner to reduce construction costs and shorten the construction period. It is being implemented to inspire development and increase international competitiveness. According to the "Presentation on the Case of Budget Reductions in the Construction Industry" held in December 1999, the Ministry of Construction and Transportation's budget was an example of savings in the budget of KRW 62.7 billion through changes in construction methods and improvement of construction methods. The average savings were about 29.8 billion won (10%) per case. Meanwhile, Korea Highway Corporation announced that it saved 575 billion won through a total of 757 design VE from 1997 to 2002. In terms of return on investment (ROI), in 2003, it invested 480 million won. As a result, the company saved KRW 15.1 billion, resulting in a big ROI 31. This means that the institutional achievements such as comprehensive measures for efficiency of public construction projects, technology development compensation system, and budget performance payment system, which the Ministry of Construction and Transportation has been continuously pursuing, are gradually becoming visible. It is expected to be motivated to achieve.

In the current construction work, various administrative activities such as budgeting, ordering, contract management, etc. shall be carried out in accordance with the rules for the preparation of the planned price under the "cost calculation" in accordance with the "Contract on State Contracting Party". Although there may be differences in the rate of cost calculation, private construction works are doing the same work by drawing up a construction statement in the framework of the above cost. In order to prepare such a construction statement, it is necessary to calculate the quantity by technology, large construction type, small construction type, and item, and then apply the unit price (material cost, labor cost, expense) to make a direct cost statement (cost consolidation). It is a method of presenting the total construction cost by preparing the cost calculation statement of the project by applying the overhead cost rate. Such a historical system may have the following problems in identifying the total cost of detailed space in various fields.

In the "Review of the economic feasibility of the design" for cost reduction and quality improvement through the VE technique, the cost statement and the statement of the original design are not classified by detailed space and by item, and the classification itself Cost analysis is impossible because it is impossible, and the cost analysis of the original design plan for "review of the economics of the design" and the cost comparison of the alternative (improvement) design plan are based on the existing details, but the cost details for each detailed space item Cost calculations must be manually recalculated. In addition, the construction VE based on the construction technology development compensation system, like the design VE, is required to perform a cost analysis based on the current construction cost statement and the cost statement, and thus, it is impossible to analyze the cost by detailed space and item. In order to perform the VE, as illustrated in the above design economics and the like, the cost details and cost calculations have to be recalculated for each detailed space item, and thus, the VE is very difficult and requires a lot of time.

As shown in FIG. 133, indirect costs are appropriately estimated and resent to the direct cost amount of the statement when calculating the construction cost of each model of the cost model during the execution of the conventional VE, so that an error may occur in precise total cost calculation for each model. In addition, as shown in FIG. 134, the amount of function evaluation when preparing a function evaluation when performing a conventional VE also brings the amount from the cost model shown in FIG. 133, thus making it difficult to accurately calculate the total cost of each item. It is not possible to do this by a separate manual manual, which is not accurate. Furthermore, as shown in FIG. 135, when the life cycle cost analysis during the conventional VE is performed, the existing construction costs are not classified by sub-space-item, so it is difficult to reconstruct the construction cost by sub-space-item of the original design, and the indirect cost after the direct cost journaling is appropriate. By estimating the journal entry, it is difficult to determine the precise total cost of each item. In this case, the calculation of construction cost by subspace-item of the alternative (improvement plan) is similar to the original design, and the indirect cost after the direct cost journalization is properly estimated by the journal entry, which leads to the difficulty in calculating the precise total cost of each item. high portential. Meanwhile, as shown in FIG. 136, in the life cycle analysis of the construction cost of the VE execution item when preparing the conventional VE proposal, the existing construction cost is not divided by the detail space item, making it difficult to reconstruct the construction cost by the detail space item of the original design and after the direct cost journal entry. Overhead costs are appropriately estimated by the journal entry, making it difficult to determine the precise total cost of each item. In addition, as shown in FIG. 137, in the life cycle analysis of the construction cost of the VE execution item, the existing construction cost is not divided by the sub-space-item when creating the construction cost statement of the conventional VE execution process. It is difficult to reconcile the construction costs by each and the indirect costs after the direct costs are properly estimated, so it is difficult to determine the precise total cost of each item. Therefore, in order to smoothly perform VE, original design analysis and alternative (improvement) design proposal based on the construction cost information processing system by sector-space by using unit price and detailed space information of the existing statement. We propose a cost analysis system for construction VE that can be analyzed immediately, but it will contribute to the construction industry.

KR1020010007818A KR1020010092638A KR10-0900315-0000B

SUMMARY OF THE INVENTION The first technical problem to be achieved by the present invention is to disclose a method and a system for generating current ready construction cost details information based on detailed space and / or part space information.

A second technical problem to be achieved by the present invention is to disclose a method and a system for generating the current ready-made construction cost history information based on the spatial information for each detailed space and / or part.

The third technical problem to be achieved by the present invention is to disclose a method and system for generating the current subtle construction cost breakdown information based on the spatial information for each detailed space and / or part.

The fourth technical problem to be achieved by the present invention is to disclose a method and a system for generating the ready-made differential cost information for this time based on the spatial information for each detailed space and / or part.

The fifth technical problem to be achieved by the present invention is to disclose a method for processing other information of the system for generating the current ready-made application cost history information based on the spatial information for each detailed space and / or part.

The sixth technical problem to be achieved by the present invention is to disclose a method and system for processing VE information based on spatial information for each detailed space and / or part.

The seventh technical problem to be achieved by the present invention is to disclose a method for processing material management information based on spatial information per detailed space and / or part.

An eighth technical problem to be achieved by the present invention is to disclose a labor management information processing method based on spatial information for each detailed space and / or part.

The ninth technical problem to be achieved by the present invention is to disclose a ranking information processing method based on spatial information for each detailed space and / or part.

The tenth technical problem to be achieved by the present invention is an extended unit cost information processing method which is separately processed for each direct cost item, material type and / or labor type constituting a construction cost based on detailed space and / or part space information. Disclosed is a construction cost information processing method using extended unit price information generated by the information processing method.

In order to achieve the technical problem to be achieved by the present invention, in the information processing method of a construction cost information processing system for processing off-the-shelf construction cost information, the construction cost information processing system is (A) at least one detailed space-specific work-specific Obtaining the applied construction quantity information; (B) obtain unit price information and cost rates for each type of work included in the current ready-to-use construction quantity information, and generate indirect construction cost information for each type of work by referring to the unit price information and the cost rate information for each type of work, and Constructing extended unit price information for each type of work using generated indirect construction cost information and direct cost information for each type of work; (C) generating preset cost breakdown basic data using the extended unit price information for each type of work; (D) generating the current ready-to-install application cost information including the current ready-to-install cost information for each of the at least one detailed space by reference to the cost history basic data; We present information processing method.

The extended construction cost information is a quantity reflecting expansion construction cost information, and in generating the quantity reflecting expansion construction cost information, the indirect construction cost information reflects the current ready-to-install application construction quantity information by the detailed space-by-sector, by detailed-space-by-sector It is to be generated, the direct construction cost information is to be generated by the specific space-specific sector by reflecting the ready-made application construction quantity information by the detailed space-specific sector-by-sector, the extended construction cost information is generated by the detailed space-specific sector Reflecting the ready-made application construction quantity information of this time, it is preferable that it is generated by detailed space-type.

The extended construction cost information includes generating unit expansion construction cost information for each type of work, and in the generation of the unit expansion construction cost information for each type of work, the indirect construction cost information is generated using the unit price information and cost rate information for each type of work for each type of work. The direct construction cost information is unit price information for each type of work, and the unit expansion construction cost information for each type of work is composed of the sum of indirect construction cost information and the direct construction cost information generated using the unit price information and cost rate information for each type of work for each type of work. It is preferable that it is.

The extended construction cost information is generated by processing the unit expansion construction cost by the type of work and the current ready-to-use construction work quantity information by the detailed space-specific work for the type of work included in the detailed space-by-model current ready-made application construction quantity information desirable.

The extended construction cost information is preferably generated by the detailed space-specific sector by reflecting the current ready-to-use application quantity information by the detailed space-specific sector.

Generating the cost breakdown basic data is generated by processing the unit expansion construction cost by the type of work and the current ready-to-use construction work amount information by the detailed space-by-work type for the work included in the detailed space-by-model current ready-made application construction quantity information. It is preferred that the step further comprises a step in advance.

The ready-to-use construction quantity information for each detailed space-by-work type is preferably processed by receiving ready-made application confirmation information for each-specific space-by-work type from a ready-made data input terminal of the contractor connected to the construction cost information processing system. Do.

The method for receiving ready-made application confirmation information by sub-space-specific type from a builder-side ready-to-use data input terminal connected to the construction cost information processing system includes: authenticating the builder-side ready-to-use data input terminal connected to the construction cost information processing system. ; Receiving selection information on at least one detailed space from the builder's ready-made data input terminal; Providing at least one type of work information on the detailed space obtained with the selection information; And receiving ready-made application confirmation information for the transmitted type of work.

The ready-made application confirmation information is preferably one or more of at least one or more images, photos, video information for the quantity, completion, completion rate and ready-made confirmation of the completed work by type.

Providing at least one or more types of work information on the detailed space from which the selection information has been obtained is a method of transmitting all work information on the detailed space and transmitting undecided work information reflecting previous off-the-shelf situation information by the detail space and work type. It is preferable to use any one or more of methods.

The undecided work type information reflecting the previous ready-made assessment information by the detailed space-by-work type includes the contract construction quantity information by the detailed space-by-work type when the previous ready-made assessment information is the completed construction quantity by the detailed space- by type. It includes one or more of construction quantity information or unscheduled construction quantity information assessed at the previous off-time assessment, or when the previous off-the-shelf assessment information is completed by detailed space or type, or assessed as incomplete at the previous off-site assessment When the previous ready-made ejaculation information is the completion rate for each detailed space-work type, it is preferable that the completion rate or the undecided completion rate assessed during the previous ready-made ejaculation for each detailed space-type work.

And confirming the current ready-to-install construction quantity information, wherein the determining of the current ready-to-install construction quantity information includes adopting a method of transmitting all the model information for the detailed space, and inputting the ready-made data of the contractor side. Receiving ready-made application confirmation information for each type of the detailed space from the terminal; And extracting the ready-made application information for the current time from the obtained ready-to-use application confirmation information for each type of work, wherein extracting the ready-to-use application information for the current time of the obtained ready-to-use application confirmation information is based on the previously-appointed detailed space-specific type In the case of adopting a method of performing information processing excluding construction quantity information and a method of transmitting undetermined type information reflecting the previous off-the-shelf situation information for each detailed space and type of work, the US information obtained from the builder's ready-made data input terminal It is preferable to process with the said detailed space-specific model-specific application confirmation information for the assessment type | work.

In the step (A), the detailed space-by-model current ready-to-use construction quantity information may further include site information, and the site information may be related to any one or more of the industry-specific and detailed spaces. .

Preferably, the cost detail basic data includes cost detail information for each part.

The details of the current ready-to-use construction quantity information by the detailed space-by-model in step (A) further include site information, and the site information is related to any one or more of the site-specific and detailed spaces. Providing at least one work type information on the detail space may further include providing work information for each part related to the detail space.

Providing the work information for each part related to the detail space is that the construction cost information processing system provides a part related to the detail space to the builder-side ready-made data input terminal, and selects information on the site from the builder-side ready-to-use data input terminal. The first method and the construction cost information processing system extracting the site related to the detailed space by extracting at least one or more types of work information about the received information, and providing the extracted work information. It is preferable to use at least one of the second method of extracting at least one type of work information for each extracted part and providing work information for each part.

The method for receiving the ready-made application confirmation information for each detailed space-by-work type from the contractor-side ready-to-use data input terminal connected to the construction cost information processing system is preferably to receive the ready-to-use application confirmation information for each type related to the site for each site. .

Transmitting to the client-side system one or more of the current ready-to-use construction cost information including the current-based ready-to-use construction project quantity information, the cost-based basic data, and the current-based application-specific construction cost information by space; Alternatively, the client-side system or the client-side system may be used for any one or more of the current-based application construction cost information including the current-based application construction quantity information by space and type, the cost detail basic data, and the current-based application construction cost information by space. It is preferable to further include a; processing to allow access of the user.

It is preferable that the current ready-made application construction cost information including the current-based ready-made application construction quantity information by space-by-sector, the cost breakdown basic data and the current-based application construction cost information by space is further included in the site information.

The generation of the cost detail basic data may include generating the ready-made application cost information for each construction cost-specific construction item for each construction-specific work-by-sector for the work related to the detail space for each detail space by using the expanded unit price information for each work type. It is preferable to include.

Receiving the space configuration information including the relationship information with respect to the upper space including the detailed space; and the space configuration information is obtained in a separate independent data form, or the construction cost information processing system It is preferable that the information is generated as corresponding information between the detailed space and the higher space included in the current ready-to-install application construction quantity information for each detailed space.

The generation of the cost detail basic data includes the generation of at least one dimension-specific aggregate information, wherein the dimension is at least one of a construction cost item list dimension, a model dimension, and at least one spatial dimension. It is preferable to include the generation of aggregate information for each detailed space.

The spatial dimension further includes a region dimension, and the generation of the aggregation information preferably includes generation of aggregate information for each region.

The spatial dimension has two or more levels of spatial classification hierarchical structure. If there is no location information, the detailed space is the last layer in the spatial classification hierarchy. If there is location information, the location information is located below the detailed space. It is preferable that can be corresponded.

It is preferable that the work dimension has a hierarchical structure of two or more levels, and the work type follows a hierarchical structure on at least one predetermined work classification system.

Generating current ready-made application cost information including the current ready-to-install cost information for each of the at least one detailed space may be obtained based on the selection information by obtaining preset selection information from a user computer using the construction cost information processing system. It is preferable to use any one or more of a method for generating ready-made application cost information and a method for generating at least one or more preset outputs for the current ready-application fee information.

The preset output includes construction cost by construction item by construction type for each detailed space including aggregate information, and construction cost by construction item for construction by generation, which is generated by higher space with respect to ready-made application construction cost information and at least one higher space including the detail space. At least one of the current ready-to-use construction cost information is included, and optionally, the construction cost-specific construction item by the type of work The current ready-to-use application construction cost information by at least one sub-model construction cost by item classification according to the type of work in the pre-set work classification system It is preferable that the current ready-to-use application cost information and the current ready-to-use application cost information for each item of the construction cost of each higher construction category including the sub-models are included.

Receiving selection information on at least one detailed space from the user computer; And generating preset ready-made application cost information by limiting the selection information to the obtained detailed space.

The details of the current ready-to-use construction quantity information by the detailed space-by-model in step (A) further include site information, and the site information is related to any one or more of the site-specific and detailed spaces. The preset output includes parts generated by the detailed spaces including the aggregated information, by construction cost by construction type, item-specific construction cost information, and by parts generated by higher spaces for at least one higher space including the detailed spaces. Construction cost application by construction cost-by-item item Current ready-to-use application of construction cost information, site-specific construction cost-by-item application-by-application application cost-by-cost information is included any one or more of the construction cost-specific construction-by-item application-based construction cost information Write down according to the classification of work in the established classification system That the one or more sub-application ready-made this time by type-specific cost configuration item cost information and to contain higher cost by type-specific configuration items ready-made current time information to the application construction includes a sub-0 kinds are preferable.

Receiving selection information on at least one site from the user computer; And generating preset ready-made application construction cost information related to the site from which the selection information has been obtained. The preset ready-made application construction cost information related to the site is included in the current ready-to-order space for each space related to the site. It is preferable that the application construction cost information or the current ready-made application construction cost information according to the type of work to which the said site is concerned is included.

The user computer is at least one system, the system is a 3D CAD system, VE system, EVMS system, construction appraisal information processing system, scheduled price creation system, cost analysis system, construction project management system, construction cost settlement system, construction supervision system It is preferable that at least one of the BIM support system, the construction client side system, and the construction performer side system.

In order to achieve the technical problem to be achieved by the present invention, in the construction cost information processing system, the construction cost information processing system is based on at least one detailed space-by-sector current ready-to-use construction quantity information, the current ready-to-installed construction quantity information Data acquisition unit to obtain unit price information and cost rates for each type of work included; An extended construction cost information generation engine configured to generate the indirect construction cost information for each type of work by referring to the unit price information and the cost rate information for each type of work and to construct extended unit price information for each type of work using the generated indirect construction cost information and direct construction cost information for each type of work; A cost detail basic data generation engine for generating preset cost detail basic data using the extended unit price information for each type of work; A ready-made information generating engine generating the ready-made ready-to-use cost information including the ready-made ready-to-run cost information for each of the at least one detailed space preset by referring to the cost detail basic data; And a DB unit for storing data obtained by the data acquisition unit, data generated by the extended construction cost information generation engine, data generated by the cost detail based data generation engine, and data generated by the ready-made information generation engine. A construction construction cost information processing system is provided.

The data acquisition unit further includes a builder-side ready-to-use data acquisition unit that receives the ready-made application confirmation information from a builder-side terminal connected to the construction cost information processing system, wherein the builder-side ready-to-use data acquisition unit is now available from the builder-side terminal. The method of obtaining the ready-to-use application confirmation information authenticates the builder-side ready-to-use data input terminal connected to the construction cost information processing system, and receives selection information on at least one detailed space from the builder-side ready-to-use data input terminal, Provide at least one type of work information on the detailed space from which the selection information has been obtained to the builder-side ready-made data input terminal, and receive ready-application request confirmation information for the transmitted work from the builder-side ready-to-use data input terminal. And the ready-made application confirmation information is one or more of at least one or more images, photos, and video information for confirming the quantity, completion, completion rate, and ready-made work completed for each type of work; Is stored in the builder-side ready-made information input data portion.

The details of the current ready-to-use construction quantity information for each detailed space-type will include the site information, and the site information will be related to any one or more of the type and the detailed space. The data acquisition unit will provide the construction cost. The builder-side ready-to-use data acquiring unit that receives the ready-made application confirmation information from the builder-side terminal connected to the information processing system; The builder-side ready-to-use data acquisition unit receives the ready-made application confirmation information from the builder-side terminal. The method authenticates the builder-side ready-to-use data input terminal connected to the construction cost information processing system, obtains selection information on at least one detailed space from the builder-side ready-to-use data input terminal, and receives the selection information. About space At least one site-specific work information is provided to the builder-side ready-to-use data input terminal, and the ready-to-use application confirmation information for the transmitted site-specific work from the builder-side ready-to-use data input terminal, the ready-made application confirmation The information is at least one of at least one or more images, photographs, and video information for confirming the quantity, completion, completion rate, and ready-made work for each type of construction, and the obtained ready-to-use application confirmation information is builder's ready-made information input data. It is preferable to be stored in the wealth.

The cost detail basic data generated by the cost detail basic data generation engine includes aggregate information for each dimension of any one or more of a construction cost configuration item dimension, an industry dimension, and at least one spatial dimension, and the cost detail basic data includes: It is preferably stored in the generated data storage of the DB portion.

The data generated by the cost detail basic data has a cube data structure for each dimension, the cube data structure includes aggregate information for each dimension, and the aggregate information includes a rollup calculation result. desirable.

An output selection information acquisition unit which receives preset output selection information from a user computer using the construction cost information processing system; And an output information storage unit for storing the ready-made application construction cost information including the ready-made application construction cost information of at least one or more detailed spaces in advance, by reflecting the output selection information obtained by the output selection information obtaining unit. And an output providing unit configured to reflect the output selection information obtained by the output selection information obtaining unit and provide the ready-made application construction cost information including the current ready-application construction cost information for each of the one or more detailed spaces to the user computer. It is desirable to.

The preset output includes construction cost by construction item by construction type for each detailed space including aggregate information, and construction cost by construction item for construction by generation, which is generated by higher space with respect to ready-made application construction cost information and at least one higher space including the detail space. One or more of the current ready-to-install application cost information, or the preset output includes the ready-to-install application cost information and the details of the current ready-to-use application cost by section-work type construction item generated by the detailed space including the aggregate information At least one higher space that includes space includes any one or more of the current-based application cost information for each part-construction cost construction item generated by the upper space, the current-based application cost information for each item-construction cost composition item Or above Application for Construction of Current Costs by Type of Construction Costs The construction cost information includes current construction cost information for each construction item by at least one sub-type according to the classification of the work in the pre-set work classification system. The current ready-to-use application construction cost information, which includes the application construction cost information, or optionally, the construction cost-specific construction item by construction type, includes the current construction application-based construction cost information by at least one sub-model construction item according to the construction classification in the preset construction classification system. And it is preferable that the current ready-to-use construction cost information for each of the construction cost-specific construction items by the higher sub-industry is included.

A spatial data unit storing relationship information between the subspace and at least one higher space including the subspace; And a work type data unit storing relationship information between the work type and at least one higher work type including the work type. It is preferable to further include any one or more of the above, and optionally the spatial data portion further includes part information corresponding to the detailed space.

The expansion cost information generated by the extension cost information generating engine is preferably a quantity reflecting construction cost information or unit expansion construction cost information.

When the construction cost information generated by the expansion construction cost information generating engine is unit expansion construction cost information, the expansion construction cost information generating engine reflects the detailed space-by-model current ready-to-install construction work quantity information in the unit expansion construction cost information, It is preferable that it is produced by space-by work type.

In order to achieve the technical problem to be achieved by the present invention, in the information processing method of the construction cost information processing system for processing the existing construction cost information, the construction construction cost information processing system is (K) at least one or more detailed space-specific work-specific Obtaining ejaculation construction quantity information; (L) obtain unit price information and cost rates for each type of work included in the current ready-made construction work quantity information, and generate the indirect construction cost information for each type of work with reference to the unit price information and the cost rate information for each type of work; Constructing extended unit price information for each type of work using generated indirect construction cost information and direct cost information for each type of work; (M) generating preset cost detail basic data using the extended unit price information for each type of work; And (N) generating current ready-made application cost information including current ready-made construction cost information for each of the at least one detailed space by reference to the cost detail basic data. The information processing method of the processing system is presented.

The extended construction cost information is a quantity reflecting extended construction cost information, and in generating the quantity reflecting extended construction cost information, the indirect construction cost information reflects the existing ready-made assessment construction quantity information by the detailed space-by-sector, by detailed-space-by-sector It is to be generated, the direct construction cost information is to be generated by the detailed space-by-type by reflecting the ready-made assessment work quantity information by the detailed space-by-specific time, the expanded construction cost information is by the detailed space-by-type Reflecting the ready-made assessment construction quantity information of this time, it is preferable that it is generated by detailed space-type.

The extended construction cost information includes generating unit expansion construction cost information for each type of work, and in the generation of the unit expansion construction cost information for each type of work, the indirect construction cost information is generated using the unit price information and cost rate information for each type of work for each type of work. The direct construction cost information is unit price information for each type of work, and the unit expansion construction cost information for each type of work is composed of the sum of indirect construction cost information and the direct construction cost information generated using the unit price information and cost rate information for each type of work for each type of work. It is preferable that it is.

The extended construction cost information is generated by processing the unit expansion construction cost by the type of work and the current ready-made assessment work quantity information by the detailed space-by-sector for the type of work included in the detailed space-specific work-by-work current assessment construction quantity information desirable.

The extended construction cost information is preferably generated by the detailed space-specific type by reflecting the current ready-made assessment quantity information by the detailed space-specific type.

Generating the cost breakdown basic data is generated by processing the unit expansion construction cost by the type of work and the current ready-made construction work quantity information by the detailed space-by-model for the work included in the detailed space-by-work-by-current ready-made construction work quantity information. It is preferred that the step further comprises a step in advance.

It is preferable that the obtained ready-to-install ejaculation quantity information by the detailed space-by-work type is received and processed by the ready-made ejaculation confirmation information by detailed-space by type from the client's ready-made data input terminal connected to the construction cost information processing system. Do.

The method for receiving ready-made situation confirmation information for each detailed space-work type from a client-side ready-to-use data input terminal connected to the construction cost information processing system includes: authenticating the orderer-side ready-to-use data input terminal connected to the construction cost information processing system. ; Receiving selection information on at least one detailed space from the orderer side ready data input terminal; Providing at least one type of work information on the detailed space obtained with the selection information; And receiving ready-made ejaculation confirmation information for the transmitted work type.

The ready-made assessment information is preferably at least one of at least one or more images, photos, video information for the quantity, completion, completion rate and ready-made confirmation of the completed work for each type.

Providing at least one work type information on the detailed space from which the selection information has been obtained reflects a method of transmitting all work information or all undecided work information on the detail space and the current application information for each detailed space-by-work type. It is preferable to use any one or more of the method of transmitting the type information.

The method for transmitting the work information reflecting the ready-to-be-installed application information by the detailed space-by-work type is obtained from the builder's side system by receiving the ready-to-use application quantity information by the detailed-space-by-work-specific system, and obtained the current ready-to-use application quantity information by the detailed space-by-work type. It is preferable that the information processing, extracts the work information on the detailed space received the selection information from the information-processed detailed space-specific work-by-work current application quantity information, and provides the extracted work information.

When the current ready-to-use application information of the detailed space-by-work type is the construction quantity of the current ready-to-use application information by the detailed space-by-type, selectively include contract construction quantity information by the detailed space-by-work type, when applying for the current ready-made application. When it is the requested construction quantity information, when the current ready-to-use application information is completed by detailed space-work type, or when the current ready-to-use application information is completed by this time application, or when the current ready-to-use application information is completion rate by detailed space-type work , By the detailed space-by-work, it is preferable that it is the completion rate applied at the time of ready-made application.

In the case of transmitting the work information reflecting the detailed space-by-model current application information to the orderer-side ready-to-use data input terminal, the method of processing information by the orderer-side ready-to-use data input terminal is the current ready-to-use application information by detailed space-type. Using any one of the method for generating the current ready-made ejaculation confirmation information within the scope of and the method for generating the current ready-made ejaculation confirmation information independently of the current ready-to-use application information by the detailed space-by-model and by the detailed space-by-model It is preferable that it is.

When the client-side ready-to-use data input terminal uses the method for generating current ready-to-be-checked information independently of the current-specific ready-to-use application information for each detailed space-type, Receiving a request for transmission of information regarding the work type; And extracting the undecided work for the selected detailed space and transmitting it to the client-side ready-to-use data input terminal, wherein the client-side ready-to-use data input terminal generates current ready-to-be-checked information for the unworked work. And it is preferable to transmit the generated current ready-made circumstances confirmation information to the said construction construction cost information processing system.

Determining the current ready-made construction work quantity information; wherein the determining of the current ready-made construction work quantity information includes adopting a method of transmitting all the work information or all the undecided work information for the detailed space; Obtaining ready-made situation confirmation information for each detailed space of the detailed space from the orderer-side ready-made data input terminal; And extracting the current ejaculation construction quantity information from the obtained ready-made ejaculation confirmation information according to the type of work received, wherein extracting the current ejaculation ejaculation information is based on the previously ejaculated ejaculation confirmation information of the obtained ejaculation ejaculation details-specific space- It is preferable that it is a method of performing information processing excluding construction quantity information for each type of work.

Determining the current ready-made ejaculation construction quantity information; wherein the determining of the current ready-made application construction quantity information includes adopting a method of transmitting the industrial information reflecting the current ready-made application information for each detailed space-type, Among the methods for determining the current ready-made assessment construction quantity information within the scope of the current-specific ready-made application information for each detailed space-type and the method and for determining the current ready-made assessment construction quantity information independently of the current ready-made construction application information for each detailed space-type. It is preferable to use either method.

In the step (K), the detailed space-by-work current ready-made construction work quantity information of step (K) further includes site information, and the site information may be related to any one or more of the site and the detailed space. .

Preferably, the cost detail basic data includes cost detail information for each part.

In the step (K), the detailed space-by-work current ready-made construction work quantity information of step (K) further includes site information, and the site information is to be associated with any one or more of each site and sub-space. Providing at least one work type information on the detail space may further include providing work information for each part related to the detail space.

Providing the work information for each part related to the detail space means that the construction cost information processing system provides a part related to the detail space to the orderer side ready data input terminal, and selects information on the part from the orderer side ready data input terminal. The first method and the construction cost information processing system extracting the site related to the detailed space by extracting at least one or more types of work information about the received information, and providing the extracted work information. It is preferable to use at least one of the second method of extracting at least one type of work information for each extracted part and providing work information for each part.

The method for receiving ready-made situation confirmation information for each detailed space-work type from the orderer-side ready-to-use data input terminal connected to the construction cost information processing system is preferably to receive ready-made check information for each type related to the site for each site.

Transmitting at least one of the current ready-made assessment construction cost information including the current-based ready-made assessment construction quantity information by space-by-sector, the cost breakdown basic data, and the current-use existing construction construction construction cost information by space; or

The builder-side system or the builder-side system is used for any one or more of the current-based current construction cost information including the current-based current construction construction quantity information by space and type, the cost breakdown basic data, and the current current construction construction construction construction cost information by space. It is preferable to further include a; processing to allow the access of the person.

It is preferable that the current ready-made ejaculation construction cost information including the current-based ready-made ejaculation construction quantity information by space-by-work type, the cost breakdown basic data and the current e-assessing ejaculation construction cost information by space is further included in the site information.

The generation of the cost breakdown basic data may include generating the current ready-made construction cost information by construction cost-specific item by construction space-specific work-by-work space for the work related to the detail space by the detail space by using the extended unit price information for each work type. It is preferable to include.

The generation of the cost detail basic data includes the generation of at least one dimension-specific aggregate information, wherein the dimension is at least one of a construction cost item list dimension, a model dimension, and at least one spatial dimension. It is preferable to include the generation of aggregate information for each detailed space.

Receiving selection information about any one or more of at least one detailed space and area from the user computer; And generating preset current ready-made assessment cost information related to the detailed space from which the selection information has been obtained, or generating preset current ready-made assessment cost information related to the part. The current ready-made ejaculation construction cost information includes the current ready-made ejaculation construction cost information by detailed space or the current ready-made ejaculation construction cost information for each sector related to the site, or the preset current ready-made ejaculation construction cost information related to the site is associated with the site. It is preferable that the current ready-made ejaculation construction cost information by detailed space or the current ready-made ejaculation construction cost information according to the type of work to which the said part is concerned is included.

The user computer is at least one system, the system is a 3D CAD system, VE system, EVMS system, construction appraisal information processing system, scheduled price creation system, cost analysis system, construction project management system, construction cost settlement system, construction supervision system It is preferable that at least one of the BIM support system, the construction client side system, and the construction performer side system.

In order to achieve the technical problem to be achieved by the present invention, in the construction construction cost information processing system, the construction construction cost information processing system is based on at least one detailed space-by-sector current ready-made assessment quantity information, the current ready-made assessment construction quantity information Data acquisition unit to obtain unit price information and cost rates for each type of work included; An extended construction cost information generation engine configured to generate the indirect construction cost information for each type of work by referring to the unit price information and the cost rate information for each type of work and to construct extended unit price information for each type of work using the generated indirect construction cost information and direct construction cost information for each type of work; A cost detail basic data generation engine for generating preset cost detail basic data using the extended unit price information for each type of work; An off-the-shelf information generation engine configured to generate the off-the-shelf off-the-shelf construction cost information including the off-the-shelf off-the-shelf construction cost information for each of the at least one detailed space preset by referring to the cost detail basic data; And a DB unit for storing data obtained by the data acquisition unit, data generated by the extended construction cost information generation engine, data generated by the cost detail based data generation engine, and data generated by the ready-made information generation engine. A construction construction cost information processing system is provided.

The data acquisition unit further includes a builder-side ready-made data acquisition unit that receives the ready-made situation confirmation information from the builder-side terminal connected to the construction cost information processing system, wherein the builder-side ready-to-install data acquisition unit is now available from the builder-side terminal. How to get ready-made assessment information

Authenticating the orderer-side ready-to-use data input terminal connected to the construction cost information processing system, receiving selection information on at least one detailed space from the orderer-side ready-to-use data input terminal, and receiving the selection information in the detailed space from which the selection information is obtained. Providing at least one or more types of work information for the ordered party's ready-made data input terminal and receiving ready-assessment information for the transmitted work from the orderer's ready-made data input terminal; At least one of at least one or more images, photos, and video information for confirming the quantity, completion, completion rate and ready-made construction of the completed work, and the obtained ready-made assessment information is stored in the builder's ready-made information input data section Being It is preferred.

The detailed information of the detailed space-by-model current ready-made ejaculation construction information further includes site information, and the site information is related to any one or more of the site-specific and detailed spaces, and the data acquisition unit includes the construction cost. A builder-side ready-made data acquiring unit which receives the ready-made ejaculation confirmation information from the builder-side terminal connected to the information processing system; wherein the builder-side ready-made data acquisition unit receives the ready-made ejaculation confirmation information from the builder-side terminal. The method authenticates the client-side ready-to-use data input terminal connected to the construction cost information processing system, obtains selection information on at least one detailed space from the owner-side ready-to-use data input terminal, and receives the selection information. About space At least one part-specific work information is provided to the client-side ready-made data input terminal, and the ready-made ejaculation confirmation information regarding the transmitted work-specific work is transmitted from the client-side ready-to-use data input terminal, and the ready-made assessment is performed. The information is one or more of at least one or more images, photos, and video information for confirming the quantity, completion, completion rate, and ready-made work completed for each type of work. The obtained ready-made assessment information is builder's ready-made information input data. It is preferable to be stored in the wealth.

The cost detail basic data generated by the cost detail basic data generation engine includes aggregate information for each dimension of any one or more of a construction cost configuration item dimension, an industry dimension, and at least one spatial dimension, and the cost detail basic data includes: It is preferably stored in the generated data storage of the DB portion.

The data generated by the cost detail basic data has a cube data structure for each dimension, the cube data structure includes aggregate information for each dimension, and the aggregate information includes a rollup calculation result. desirable.

An output selection information acquisition unit which receives preset output selection information from a user computer using the construction cost information processing system; And an output information storage unit for storing the ready-made ejaculation construction cost information including the ready-made ejaculation construction cost information for each of at least one detailed space, which is preset by reflecting the output selection information obtained by the output selection information obtaining unit. And an output providing unit for providing the current ready-assessment construction cost information including the current ready-assessment construction cost information for each of the at least one detailed space, which is preset by reflecting the output selection information obtained by the output selection information obtaining unit, to the user computer. The preset output includes construction cost by construction type for each construction type that is generated for each detailed space including aggregate information, and construction cost for each construction type that is generated for each of the higher spaces with respect to the current ready-made construction cost information for each item and at least one higher space including the detail space. One or more of the current ready-to-assessment construction cost information for each configuration item, or the predetermined output includes the construction cost by site-specific construction cost generated by the detailed space including the aggregated information, the current ready-made assessment construction cost information And the above details At least one higher space including the liver includes any one or more of the current ready-made construction cost information by part-construction cost composition item, and the current ready-made assessment construction cost information by part-construction cost item Alternatively, the current ready-made assessment construction cost information by the construction cost-specific construction item by construction type information on the current construction construction cost information by each of the construction cost construction items by at least one or more sub-models according to the classification of the work in the pre-set work classification system and the construction cost of each higher construction category including the sub-model The current ready-made assessment cost information by each item or optionally the construction cost-specific item by the above-mentioned construction type The current ready-assessment construction cost information includes the construction cost-specific item by at least one sub-type according to the type classification in the preset work classification system It is preferable that the current ready-made assessed construction cost information and the current ready-made assessed construction cost information by the construction cost-specific construction item item | item which contains the said lower sub-model are included.

In order to achieve the technical problem to be achieved by the present invention, in the information processing method of the construction cost information processing system for processing the existing construction cost information, the construction cost information processing system is (O) at least one or more detailed space-specific work-specific standards Obtaining unacceptable construction quantity information; (P) obtain unit price information and cost rates for each type of work included in the current substandard construction quantity information, and generate indirect construction cost information for each type of work by referring to the unit price information and the cost rate information for each type of work, and Constructing extended unit price information for each type of work using generated indirect construction cost information and direct cost information for each type of work; (R) generating preset cost breakdown basic data using the extended unit price information for each type of work; And (S) generating the current unsatisfied construction cost information including the current unsatisfied construction cost information based on at least one preset detailed space by referring to the cost detail basic data. The information processing method of the processing system is presented.

The extended construction cost information is the quantity reflecting expansion construction cost information, and in generating the quantity reflecting expansion construction cost information, the indirect construction cost information reflects the substandard construction quantity information by the detailed space-by-sector-by-sector, by detailed-space-by-sector It is to be generated, the direct construction cost information is to be generated by the sub-space-specific sector by reflecting the substandard construction quantity information by the detailed space-specific sector-specific time, the expansion construction cost information is by the detailed space-specific sector It is preferable to be generated for each detailed space-type by reflecting the current substandard construction quantity information.

The extended construction cost information includes generating unit expansion construction cost information for each type of work, and in the generation of the unit expansion construction cost information for each type of work, the indirect construction cost information is generated using the unit price information and cost rate information for each type of work for each type of work. The direct construction cost information is unit price information for each type of work, and the unit expansion construction cost information for each type of work is composed of the sum of indirect construction cost information and the direct construction cost information generated using the unit price information and cost rate information for each type of work for each type of work. It is preferable that it is.

The extended construction cost information is to be generated by processing the unit expansion construction cost by the sector and the substandard construction quantity information by the detailed space-specific time-specific work for the type of work included in the detailed space-by-work current standards-based underage construction quantity information Preferably, the extended construction cost information is generated for each detailed space-type by reflecting the substandard construction quantity information for each detailed space-specific type.

Generating the cost breakdown basic data is generated by processing the unit expansion cost per unit and the substandard construction quantity information for each detailed space-specific type of construction for the type of work included in the detailed space-by-model current-based substandard construction quantity information. It is preferred that the step further comprises a step in advance.

The amount of substandard construction quantity information obtained by the detailed space-by-type by the above-mentioned spaces is generated by processing the information by a method in which the contractor excludes the amount of the ready-made assessment work from the contract construction quantity to the previous time by the sub-space-type and the amount of the current ready-to-use construction work. How to create and process information by subtracting the amount of ready-made assessment work from the contract construction quantity to the previous time and the amount of the ready-made assessment work for the current time by the client's side and the detailed space by the client's side It is preferable that any one or more methods of information processing and generation are employed and generated by the method of excluding the amount of ready-made assessment construction up to the previous time and the amount of ready-made assessment construction up to this time.

It is preferable that the information on the amount of substandard construction work for each sub-space-by-sector in the step (O) further includes site information, and the site information is related to any one or more of the site-specific and sub-space. .

Transmitting to the third system one or more of the current unsatisfied construction cost information including the current-based unacceptable construction quantity information by space-by-sector, the cost breakdown basic data, and the current unsatisfied construction cost information by space; Or the third system or the third system for any one or more of the current unsatisfied construction cost information including the current-based unaccepted construction quantity information by space-by-sector, the cost breakdown basic data, and the current unsatisfied construction cost information by space. Processing to allow access by the user of the system; and the third system is preferably at least one of a contractor side system and a client side system.

It is preferable that site information is further included in the current aesthetic application construction cost information including the current-based aesthetic construction quantity information by space-by-sector, the cost breakdown basic data and the current aesthetic application construction cost information by space.

In order to achieve the technical problem to be achieved by the present invention, in the information processing method of the construction cost information processing system for processing the existing construction cost information, the construction construction cost information processing system (W) at least one or more detailed space-specific work-by-work Obtaining differential construction quantity information information; (X) obtain the unit price information and cost rates for each type of work included in the current difference construction quantity information, and generate the indirect construction cost information for each type of work by referring to the unit price information and the cost rate information for each type of work; Constructing extended unit price information for each type of work using the generated indirect construction cost information and direct cost information for each type of work; (Y) generating preset cost breakdown basic data using the extended unit price information for each type of work; And (Z) generating current ready-to-use difference construction cost information including current ready-to-install difference construction cost information for each of at least one detailed space by reference to the cost detail basic data. The information processing method of the processing system is presented.

The extended construction cost information is a quantity reflecting expansion construction cost information, and in generating the quantity reflecting expansion construction cost information, the indirect construction cost information reflects the current ready-to-use difference construction quantity information information by the detailed space-by-sector, by detailed-space-by-type The direct construction cost information is to be generated by the detailed space-specific sector by reflecting the ready-to-use difference construction quantity information information by the detailed space-by-sector, and the expansion cost information by the detailed space -It is preferable to be generated for each detailed space-type by reflecting the ready-to-use difference construction quantity information information by type of work.

The extended construction cost information includes generating unit expansion construction cost information for each type of work, and in the generation of the unit expansion construction cost information for each type of work, the indirect construction cost information is generated using the unit price information and cost rate information for each type of work for each type of work. The direct construction cost information is unit price information for each type of work, and the unit expansion construction cost information for each type of work is composed of the sum of indirect construction cost information and the direct construction cost information generated using the unit price information and cost rate information for each type of work for each type of work. It is preferable that it is.

As for the information on the current ready-to-use difference construction quantity by the detailed space-by-work type, it is possible to obtain the ready-made application information by the builder-side work type-by-detail space and the current ready-made situation information by the client-side work type-by-detail space, and by the builder-side work type-by-detail space It is preferable that the generated information is generated by using a method generated by extracting the current difference information of each industry-specific space for which the difference between the current-order application information and the current client-specific space-specific current situation information on the client side occurs. Do.

Obtained the current ready-to-order difference construction quantity information by the detailed space-work type, and obtain the ready-made application information by the builder-side work type-detail space and the current ready-made situation information by the orderer-side work type-detail space, and the builder-side work type-detail It is generated by using the method generated by extracting the existing difference information for each sector-detail space that exists in the current application information per space, and does not exist in the current-specific information for each industry-detail space by the client side. Is preferably.

Obtained the current ready-to-order difference construction quantity information by the detailed space-work type, and obtain the ready-made application information by the builder-side work type-detail space and the current ready-made situation information by the orderer-side work type-detail space, and the builder-side work type-detail Use any one or more of the methods generated by extracting the existing off-the-shelf difference information by the type of the work-detailed space in the current-specific information of each work type-detail and not present in the current-order application information by space. It is preferable that it is produced by.

The construction quantity information is preferably one or more of the quantity, completion or completion rate of construction completed for each type of work.

It is preferable that the current ready-to-use difference construction cost information including the current-based ready-made differential construction quantity information by space-by-work type, the cost breakdown basic data and the current-based ready-made differential construction cost information by space, further include site information.

In order to solve the technical problem to be achieved by the present invention, in the information processing method of the construction cost information processing system, the construction cost information processing system is (A) at least one or more types of work for each of the at least one type-space-specific Receiving quantity information, unit price information per unit, and cost rate information as first input information; (B) receiving, as at least one or more times, variation information on at least one of the work type, work type-space quantity information, work type unit price information, and cost rate information as second input information; (C) generating first cost breakdown information preset as the first input information; (D) generating second cost detail information preset as the second input information; And (E) generating preset analysis information by referring to any one or more of the cost history information generated in the step (C) and the cost history information generated in the step (D). Includes any one or more of material cost information, labor cost information, and expense information for each type constituting direct construction cost information, and the cost rate information is a rule for calculating an indirect construction cost configuration item and a value of the indirect construction cost configuration item. An information processing method of a construction cost information processing system, characterized in that the information is included.

In the work-space-specific quantity information, the work is to include any one or more of at least one or more higher work classification and at least one lower work classification in the work classification system, wherein the space in the space-specific quantity information It is preferred to include at least one of at least one higher spatial classification and at least one lower spatial classification in the spatial classification system.

Preferably, the subspace classification comprises an element.

The information input in the step (A) is information related to the original design, the information input in the step (B) is information related to the alternative design has a change in the original design, at least one or more in the analysis information It is preferable that the aggregate information related to the original design based on the viewpoint and the aggregate information related to the alternative design are further included.

The aspect may be defined by at least one or more parent-child spatial classifications on at least one given or selected spatial classification scheme, by at least one or more parent-child engineering classifications on at least one or more given or selected engineering classification schemes and at least one given or selected It is preferable that the construction cost or any one or more selected from the list of construction cost items in the construction cost classification system.

The cost rate information is determined based on at least one of construction scale and construction type, the unit price information includes direct construction cost information, and the indirect construction cost configuration item includes at least the direct labor cost information as an input variable value. One or more indirect construction cost configuration items are included, and in the generating of the cost details information in the steps (C) and (D), the indirect construction cost for each type of work is referred to by referring to the unit price information and the cost rate information. Generating information first, and constructing extended unit price information for each type of industry by using the generated indirect construction cost information and the direct construction cost information, and generating the cost detail information using the extended unit price information. Generating indirect construction cost information is based on the input unit price information. For reference, it is preferable to generate the indirect construction cost information for each indirect construction cost construction item by processing the rule information for each indirect construction cost construction item.

In the generating of the cost detail information in the steps (C) and (D), the indirect construction cost generation rule information for each indirect construction cost constituting item referring to the unit price information and the cost rate information is first generated, and then the The construction appraisal cost details information is generated using the direct construction cost information and the indirect construction cost generation rule information for each indirect construction cost construction item, and the indirect construction cost information is preliminarily used as the indirect construction cost generation rule information when the construction evaluation cost detail information is generated. It is preferable to produce.

Before step (B), step (C) is to be carried out first, step (E) is to be carried out before step (B) and step (D), and In this case, the predetermined analysis information of the step (E) is preferably to generate any one or more of the information related to the cost model and function evaluation related to the construction cost for each type of work.

The information received in the step (A) is information related to the original design plan, the information received in the step (B) is information related to the alternative design plan in which the variation has occurred in the original design plan, and the preset analysis information includes at least Analysis information related to the original design and the alternative design based on one or more viewpoints, wherein the viewpoints are at least one given or selected, by at least one or more upper-child spatial classifications in the at least one given or selected spatial classification scheme. It is preferable that the at least one selected from among the at least one parent-child type classification and the at least one given or selected construction cost on the type classification system, or by the cost item on the construction cost classification system.

The analysis information is preferably a life cycle analysis of the construction cost.

(F) generating at least one preset output received or selected; the output may be a cost model analysis, a functional evaluation analysis, a life cycle cost analysis, a VE proposal, a construction cost calculation, or the like. The output information may further include at least one analysis information, and the analysis information may further include comparison information, and the comparison information may be based on one of the first history information and the second history information. It is preferable that it is generated by arithmetic processing.

The construction cost information processing system is interlocked with the BIM system, operates in a sub-system of the BIM system, interlocks with at least one preset construction related information processing system or construction related design system, or the construction related information processing system or the construction. It is desirable to operate in a subsystem of the associated design system.

The cost history information may include any one or more of aggregate information and re-aggregation information for any one or more selected from space, construction cost item, and type, and the space is at least one given or selected space classification. At least one parent-child space classification in the scheme, at least one or more given or selected work classification schemes, or at least one given or selected construction expense scheme in the scheme, or at least one of the cost items in the construction scheme. It is one or more selected, and the upper-lower space classification may include the lowest sub-space or site, the upper-lower work classification is to include the lowest work type classification, the re-aggregation information The lowest three In the case of re-aggregation information for each sub-space, the lowest sub-space is re-aggregated in at least one step for each higher unit space having lower components, and in the case of re-aggregation information for each of the lowest work type classifications, the lowest work type In the case of re-aggregation by at least one level for each of the higher types of works having classification as a lower component, and in the case of re-aggregation information for each of the construction cost items, the aggregated information or the indirect construction cost aggregation information, which is the sum of the direct construction cost aggregation information and the indirect construction cost aggregation information; It is preferable that the aggregated information is at least one of the total aggregated information, including the cost of constructing VAT and other total costs.

In order to solve the technical problem to be achieved by the present invention, in the construction construction cost information processing system, the construction construction cost information processing system for at least one or more types of work for each of the at least one or more types of work, space-specific quantity information, Receiving cost rate information as first input information, and changing information on at least one of the work type, work type-space quantity information, work type unit price information, and cost rate information at least one or more times as second input information. Receiving data receiving unit; A cost detail basic data generation engine generating first cost detail information preset with the first input information and generating second cost detail information preset with the second input information; A VE assistance information generation engine configured to generate at least one of preset analysis information and preset output by referring to at least one of the first cost history information and the second cost history information; And a DB unit for storing any one or more of data received by the data acquisition unit, data generated by the cost detail basic data generation engine, data generated by the VE support information generation engine, and at least one output form data. The unit price information includes any one or more of material cost information, labor cost information, and expense information for each type constituting direct construction cost information, and the cost rate information calculates values of an indirect construction cost construction item and an indirect construction cost construction item. It proposes a construction construction cost information processing system, characterized in that any one or more of the rule information to be included.

Preferably, the cost breakdown information further includes aggregate information related to the cost design based on at least one viewpoint and aggregate information related to the alternative design.

The aspect may be defined by at least one or more parent-child spatial classifications on at least one given or selected spatial classification scheme, by at least one or more parent-child engineering classifications on at least one or more given or selected engineering classification schemes and at least one given or selected It is preferable that the construction cost or any one or more selected from the list of construction cost items in the construction cost classification system.

The method for generating the cost detail information by the cost detail basic data generation engine may first generate indirect construction cost information for each model by referring to the unit price information and the cost rate information, and generate the indirect construction cost information for each model and the direct construction cost information. Indirect construction cost generation rules for each indirect construction cost configuration item for configuring the extended unit price information for each type of work, and generating the cost detail information using the extended unit price information, and referring to the unit price information and the cost rate information. Information is generated first, and the construction appraisal cost detail information is generated using the direct construction cost information by the type of work and the indirect construction cost generation rule information by the indirect construction cost configuration item, and the indirect construction cost creation rule information when the construction evaluation cost history information is generated. Indirect construction cost information Any one of the second methods, including generating by a track, is used. The generating of the indirect construction cost information in the first method is based on the input unit price information. It is preferable that the indirect construction cost information for each indirect construction cost constituting item is generated by processing the information.

The cost history information may include any one or more of aggregate information and re-aggregation information for any one or more selected from space, construction cost item, and type, and the space is at least one given or selected space classification. At least one parent-child space classification in the scheme, at least one or more given or selected work classification schemes, or at least one given or selected construction expense scheme in the scheme, or at least one of the cost items in the construction scheme. It is one or more selected, and the upper-lower space classification may include the lowest sub-space or site, the upper-lower work classification is to include the lowest work type classification, the re-aggregation information The lowest three In the case of re-aggregation information for each sub-space, the lowest sub-space is re-aggregated in at least one step for each higher unit space having lower components, and in the case of re-aggregation information for each of the lowest work type classifications, the lowest work type In the case of re-aggregation by at least one level for each of the higher construction items having the classification as a lower component, and the re-aggregation information for each of the construction cost items, the aggregated information obtained by adding the direct construction cost aggregation information and the indirect construction cost aggregation information or It is preferable that the aggregated information is any one or more of the total aggregated information including the costs constituting VAT and other total costs.

The construction cost information processing system is interlocked with the BIM system, operates in a sub-system of the BIM system, interlocks with at least one preset construction related information processing system or construction related design system, or the construction related information processing system or the construction. It is desirable to operate in a subsystem of the associated design system.

In order to achieve the technical problem to be achieved by the present invention, an information processing method of a construction cost information processing system, the construction cost information processing system, (A) obtaining space selection information for at least one space; (B) receiving at least one work type information related to the space, with respect to the space from which the selection information has been obtained; (C) acquiring material information on the received work type; And (D) generating necessary material quantity information for each material type for at least one or more materials in the space on a basis of a period previously set or obtained as the type information and the material information. An information processing method of an information processing system is presented.

In the step (A), the space is preferably any one or more of the detailed space or area.

In the step (A), the space is an upper space including at least one or more sub-spaces or at least one or more parts, when the upper space is selected, the step (B), (C) for the upper space A first method for performing steps and (D), presenting at least one or more of the sub-spaces or at least one or more of the parts included in the upper space to a user using the construction cost information processing system, and from the user Step (B) for each of the detailed spaces or parts for each of the at least one or more regions that have received the selection information about the detailed space or the portion and have received the selection information or the at least one or more portions that have received the selection information And a second method of performing steps (C) and (D) and at least one of those contained in the upper space. At least one of the one or more detailed spaces or at least one or more of the parts to be presented to a user using the construction cost information processing system, the selection information of the detailed space or the parts being obtained from the user, and the at least one receiving the selection information The step of performing the steps (B), (C) and (D) with respect to the at least one or more areas obtained from the above detailed spaces or selection information as a unit It is preferable to perform any one or more of 3 methods.

In the step (B), it is preferable that the type information is the type of construction information for the type and the type of work.

In the step (C), it is preferable that the material information for each type of work is generated with reference to any one or more of standard product information, unit price information, and BIM attribute information.

In the step (C), it is preferable that the material information is material type and material quantity information for each material type.

In step (D), the space in step (A) is an upper space including at least one or more of the sub-spaces, and the necessary material quantity information generated in step (D) is based on the upper space. In the first method and the step (A), which is generated or generated for each of the at least one detailed space, the space is an upper space including at least one or more of the subspaces, and the space generated in the step (D). It is preferable that any one or more of the second methods of generating the necessary material quantity information based on the upper space or generated for each of the at least one or more portions are performed.

Before the step (C), the obtained work type information is presented to a user who uses the construction cost information processing system, and the user receives selection information on the work type included in the work type information, and selects the selected information. It is preferable that the step (D) is performed on at least one or more types of products obtained.

Before the step (D), the obtained material information is presented to a user who uses the construction cost information processing system, and the user receives selection information on the type of material included in the material information, and selects the selected information. It is preferable that the step (D) is performed on at least one material obtained.

In the step (C), the material information is to be material type and material quantity information for each material type, and (E) receiving the handling unit information for each material type; (F) It is preferable to generate the required material quantity information for each material handling unit by processing the necessary quantity information for each material type generated in the step (D) with the handling unit information for each material type obtained in the step (E). Do.

The space selection information obtained in step (A) is preferably obtained through selection of a spatial object in a 3D CAD system or a BIM system.

In order to achieve the technical problem to be achieved by the present invention, an information processing method of a construction cost information processing system, the construction cost information processing system, (A) obtaining space selection information for at least one space; (B) receiving at least one work type information related to the space, with respect to the space from which the selection information has been obtained; (C) acquiring labor information for the received type of work; And (D) generating required labor quantity information for each type of labor for at least one labor for the space on a basis of a predetermined or acquired period of the work information and the labor information. An information processing method of an information processing system is presented.

In the step (A), the space is preferably any one or more of the detailed space or area.

In the step (A), the space is an upper space including at least one or more sub-spaces or at least one or more parts, when the upper space is selected, the step (B), (C) for the upper space A first method for performing steps and (D), presenting at least one or more of the sub-spaces or at least one or more of the parts included in the upper space to a user using the construction cost information processing system, and from the user Step (B) for each of the detailed spaces or parts for each of the at least one or more regions that have received the selection information about the detailed space or the portion and have received the selection information or the at least one or more portions that have received the selection information And a second method of performing steps (C) and (D) and at least one of those contained in the upper space. At least one of the one or more detailed spaces or at least one or more of the parts to be presented to a user using the construction cost information processing system, the selection information of the detailed space or the parts being obtained from the user, and the at least one receiving the selection information The step of performing the steps (B), (C) and (D) with respect to the at least one or more areas obtained from the above detailed spaces or selection information as a unit It is preferable to perform any one or more of 3 methods.

In the step (B), it is preferable that the type information is the type of construction information for the type and the type of work.

In the step (C), it is preferable that the type-specific labor information is generated with reference to any one or more of standard product information, unit price information, BIM attribute information.

In the step (C), the labor information is preferably the type of labor and the amount of labor for each type of labor.

In step (D), the space in step (A) is an upper space including at least one or more of the sub-spaces, and the required labor quantity information generated in step (D) is generated based on the upper space. Or the first method generated in each of the at least one subspace and the space in (A) is an upper space including at least one or more of the subspaces, and the necessity generated in (D). The labor quantity information may be generated based on the upper space or at least one of the second methods of generating at least one or more portions.

Before the step (C), the obtained work type information is presented to a user who uses the construction cost information processing system, and the user receives selection information on the work type included in the work type information, and selects the selected information. It is preferable that the step (D) is performed on at least one or more types of products obtained.

Before the step (D), the obtained labor information is presented to a user using the construction cost information processing system, and the user receives selection information on the type of labor included in the labor information, and the selection information. It is preferable that the step (D) is performed on at least one of the obtained labor.

The space selection information obtained in step (A) is preferably obtained through selection of a spatial object in a 3D CAD system or a BIM system.

In order to achieve the technical problem to be achieved by the present invention, an information processing method of a construction cost information processing system, the construction cost information processing system, (A) obtaining space selection information for at least one space; (B) receiving at least one piece of cost item reference information related to the space or using preset fee item reference information for the space from which the selection information has been obtained; (C) generating construction cost information for each sub-space of the space for which the selection information has been obtained for each of the received cost item criteria; (D) generating the construction cost ranking information for each sub-space by the cost item basis with the generated construction cost information for each sub-space; generating the construction cost information for each sub-space, at least (a) Obtaining at least one sub-space-specific construction quantity information; (b) obtain unit price information and cost rates for each type of work included in the construction quantity information, and generate the indirect construction cost information for each type of work by referring to the unit price information and the cost rate information for each type of work, and generate Constructing extended unit price information for each type of work using indirect construction cost information and direct construction cost information; (c) generating preset cost breakdown basic data using the extended unit price information for each type of work; and (d) generating construction cost information for each of at least one sub-space set in advance by referring to the cost detail basic data.

In the step (A), the space is any one or more of at least one or more sub-spaces including at least one or more areas, or an upper space including at least two or more sub-spaces or a second higher space including the at least one or more upper spaces. desirable.

The cost item criterion of the cost item criterion information includes, for at least one or more sub-spaces constituting the space, a total construction cost for each sub-space, direct construction cost for the sub-space, indirect construction cost or sub-expense for the sub-space, and the sub space. It is preferable that at least one of the construction cost of each direct construction cost configuration item, the construction cost of the indirect construction cost configuration items by the sub-space.

The lower space may be at least one or more parts included in the sub-space when the space is a sub-space, or the sub-space in the upper space when the space includes at least one sub-space. In the case of a next higher space including at least one higher space, the upper space is preferable.

(E) visualizing the generated construction cost ranking information for each sub space on a drawing image displaying the sub space;

The space selection information obtained in step (A) is obtained through selection of a spatial object in a 3D CAD system or a BIM system, and the drawing image is a 3D CAD image or a drawing image provided by a BIM system.

Preferably, the cost item reference information is cost item reference information for each type of industry.

It is preferable that the type is a type related to a space from which the selection information has been obtained.

At least one or more species

The work type is preferably all types related to the space that receives the selection information about the work type from the user who uses the construction cost information processing system for the at least one work type or receives the selection information.

The cost item criterion is extended to the construction cost information including the material cost corresponding to the type of work, the labor cost corresponding to the type of work, the cost corresponding to the type of work, the indirect construction cost of each indirect construction cost configuration item corresponding to the material cost, and the labor cost. Extended construction cost information including indirect construction costs for each of the corresponding indirect construction cost configuration items, expanded construction cost information including indirect construction costs for each of the indirect construction cost configuration items corresponding to the expenses is preferably any one or more of the above.

According to the cost item criteria, the cost of materials per individual material corresponding to the type of work for each type of work, the labor cost of each labor corresponding to the type of work, the cost of individual expenses corresponding to the type of work, and the indirect construction cost corresponding to the material cost of each individual material Extended construction cost information including indirect construction costs, Extended construction cost information including indirect construction costs by indirect construction costs corresponding to the labor costs by individual labor, Expansion including indirect construction costs by indirect construction costs Construction cost information It is preferable about any one or more of the above.

In order to achieve the technical problem to be achieved by the present invention, an information processing method of a construction cost information processing system, the construction cost information processing system, (A) obtaining a work selection information for at least one work type; (B) receiving at least one piece of cost item reference information related to the type of work or using preset cost item reference information for the type of work that has received the selection information; (C) generating at least one preset construction cost information including generation of extended unit price information for each cost item basis for each type of cost item received or used for the type of work received the selection information; The information processing method of the construction cost information processing system characterized by the above is proposed.

It is preferable that the said cost item criterion is any one or more of the direct construction cost constituent items concerning the said model.

The extended unit price information is obtained by the unit cost information and cost rate for each direct construction cost configuration item included in the unit price information for each type of work, and by the direct construction cost configuration item by referring to the unit cost information and the cost rate information for each direct construction cost configuration item Preferably, the indirect construction cost information related to the unit price information is generated first, and the generated indirect construction cost information and the unit price information for each direct construction cost configuration item are preferably configured.

The unit price information for each direct construction cost configuration item is obtained from unit price information for each type of work, and the unit price information for each type of work is

It is preferable that the first method is configured of one or more of the first method that the unit price information is configured for the unit quantity for each type of work and the second method for the unit price information for the quantity of construction for each type of work.

The cost item criterion is preferably at least one of at least one kind of material and at least one kind of labor related to the type of work.

When the cost item criterion is a material, the expanded unit price information is a material cost for the material as a construction cost directly, obtains a cost rate, and indirect construction cost information related to the direct construction cost by referring to the direct construction cost and the cost rate information. Is preferentially generated, and is configured to include the material cost and the generated indirect construction cost information, thereby generating extended unit price information for each material.

When the cost item criterion is labor, the expanded unit price information is a labor cost for the labor as a construction cost directly, and obtains a cost rate, indirect construction cost information related to the direct construction cost by referring to the direct construction cost and the cost rate information Is preferentially generated, and is configured to include the labor cost and the generated indirect construction cost information to generate extended unit price information for each labor.

It is preferable that at least one item of cost item reference information related to the type is included in the standard product information.

(D) acquiring space selection information on at least one or more spaces in which the work is included before or after the step (A) or after the step (A); and (C) Cost information generated at the stage

(D) the construction cost information for each space obtained in the step (D), and generating the construction cost information for each space, (a) obtaining at least one sub-space-specific construction quantity information related to the construction sector step; (b) generating preset cost breakdown basic data using extended unit price information for each cost item criterion generated in step (C); and (d) generating at least one predetermined cost-specific construction cost information with reference to the cost detail basic data.

Generating the construction cost information for each space preferably further includes generating construction cost information for each sub-space of the space.

The lower space may be at least one of a detailed space or a portion, an upper space including at least one or more detailed spaces, or a next higher space including at least one or more upper spaces.

The space selection information obtained in step (D) is preferably obtained through selection of a spatial object in a 3D CAD system or a BIM system.

Implementing the present invention has the following effects.

First, cost management for construction project management becomes easy. The breakdown of construction work by item, each detailed space item and / or part breakdown can be grasped immediately, and the construction cost per item such as the ratio of the total construction cost to the construction cost of the item, direct construction cost, indirect construction cost, cost rate, VAT, etc. All contents constituting the system are analyzed at the same time, from the smallest unit or dimension to the largest unit or dimension in all construction scopes.

Second, in case of requesting completion or incomplete work of each detailed space, even when requesting completion of construction work monthly or completed, the actual input cost and construction quantity are immediately determined. Work efficiency such as work and design change is maximized.

Third, it is possible to precisely inspect the completion and unfinished construction items for each part of the detailed space in both directions between the contractor and the client (supervision, CM, etc.) rather than the existing contractor, so the actual input cost and construction quantity are determined immediately after the inspection. It is expected to improve the construction cost management work by calculating the ready quantity of the process and making it possible to refine the amount of the ready construction cost.

Fourth, excessive and under-payment can be prevented. The accuracy of the calculation of the ready-made funds for the construction of large-scale construction or large-scale construction projects has been dramatically improved, and significantly excessive or under-payment of the ready-made funds is prevented at the source of construction costs due to the failure of the ready-made inspection at the request of the existing contractor. Operation is innovatively improved.

Fifth, it is possible to grasp specific and clear information about the construction costs of various participants in the construction process, and thus the statement management and the management of construction costs will be dramatically accurate. In addition, it is possible to calculate the construction costs for each part of the detailed space of all works, so the dispute over the construction costs will be minimized, and even in the event of a dispute in the construction work, it is possible to effectively cope with the calculation and analysis of the construction costs.

Sixth, it is possible to analyze the total cost of the cost model when examining the economic feasibility of construction such as construction technology development compensation system on site. As the cost distribution by item to be applied to the VE technique is immediately available, the time required for the VE is shortened and the comparison can be made with the overall construction cost, enabling efficient and precise VE to be a long-term growth factor for the entire construction industry. will be.

Seventh, by utilizing the present invention, the actual cost settlement method can be activated. It is possible to set up the construction cost by detailed space and part and to calculate the overhead cost accurately, thus enabling the activation of the actual cost settlement contract method.

Eighth, precise, accurate and fast VE is possible. Construction VE support system according to the invention-by-industry-by-work type includes direct construction cost parts such as "standard", "quantity", "unit price", "amount", etc. of each "construction item", "indirect labor cost", "industry, "Expenses" such as "employment insurance premiums", "health and retirement pension insurance premiums", "safety management expenses", "other expenses", "environmental conservation expenses", and indirect construction expenses such as "general management expenses" and "profit", VAT, subsidiary materials The total cost is divided by the total cost, and if you enter the quantity and unit cost of the construction item, the cost is generated directly, and the formula is automatically generated in the corresponding cost cell based on the cost rate information of the indirect construction cost. By analyzing the details of the original design plan and the details of the improvement design (alternative design) by detailed space, by type, and by item, it is applied to all fields that need accurate and accurate comparison of the original design plan and alternative (improved) design plan of construction work. this It becomes possible.

Ninth, through the accurate and accurate comparison of the cost of the original and alternative design, in particular, the cost analysis and other design changes for the construction VE based on the "Review of the economics of the design" and the "Construction technology development compensation system"; It can be applied to a wide variety of fields, such as the improvement of the overall or partial performance and comparison of various proposals such as remodeling.

Tenth, it is possible to precise material management, minimizing the material inventory by the optimal placement of materials and efficient management of materials, it is possible to reduce the waste of materials.

Eleventh, precise labor management becomes possible, and labor input can be optimized by the optimal arrangement of labor, efficient management and prediction of labor.

Twelfth, it is possible to know the numerical ranking of various calculation information such as construction cost, material input, labor input, etc. for each detailed space or part, and it is possible to grasp the priority or importance of construction, materials, labor input, VE, etc. It is possible to determine the priority of various actions to reduce construction costs.

Thirteenth, it is possible to know the expanded unit cost information by construction cost, item, material, and labor, enabling accurate and multi-dimensional grasp of construction costs. This will contribute to reducing construction costs.

1 is a diagram of an example of a conventional ready-made business process.
2 is a diagram for explaining the construction of a construction information classification system.
3 is a diagram showing an exemplary configuration of the production software and design drawings of the BIM design drawings.
4 is a view showing a cost calculation time point division in the conventional construction cost statement creation process.
5 is a view showing an example of a conventional construction cost statement (arget) that can be determined the total construction cost after direct construction cost calculation and cost calculation.
FIG. 6 is a view showing an example of a conventional construction cost statement that is impossible to analyze the cost compared to the total construction cost because there is no indirect construction cost information for each type of detailed space.
7 is a diagram showing an example of a conventional construction cost statement that is impossible to analyze the cost of the total construction costs because there is no indirect construction cost information for each type of space for each space.
8 is a view showing an example of a statement that can not be analyzed for the precise cost compared to the total construction cost because only the construction cost is directly expressed by the type of work in the cost breakdown by type.
9 is a diagram of an exemplary configuration of a construction cost information processing system of the present invention. 9 is based on the premise that the same construction cost information processing system is used by both the contractor and the client.
10 is a diagram of another exemplary embodiment of the construction cost information processing system of the present invention. 10 assumes that the same construction cost information processing system is mainly used by the contractor.
11 is a diagram of another exemplary embodiment of the construction cost information processing system of the present invention. 11 is based on the premise that the client side mainly uses the same construction cost information processing system.
12 is a flowchart illustrating a method for generating extended unit price information by the construction cost information processing system according to the present invention.
FIG. 13 is a flowchart illustrating a method in which the construction cost information processing system of the present invention obtains information for each part-workpiece-detail space and generates cost breakdown information reflecting part information.
FIG. 14 is a diagram of an example of construction quantity information for each (part) -specific type-specific space of the present invention.
Fig. 15 shows an example of unit price information (direct construction cost information for each direct construction cost constitutional item) according to the type of work of the present invention.
16 shows an example of cost rate information for calculating an indirect construction cost for each indirect construction cost construction item of the present invention.
FIG. 17 is an example that includes expansion cost information for each construction cost item for which construction cost data are generated based on the quantity 1 for the CONC manpower bibimbushing, plywood formwork, reinforcing site processing, and assembly work for three types of construction. It shows the cost breakdown basic data.
18 illustrates an example in which cost detail basic data is generated by using actual construction quantity instead of unit quantity.
FIG. 19 illustrates an exemplary set of data fields for cost detail based data generated by the cost detail based data generation engine 1200 of the present invention. Data fields can be grouped, such as retrieval classification field group, detailed spatial location information field group (facility-space-site, etc., to record information on the spatial classification hierarchy of the building object), and industrial information field group (large-air-space) Records information about the work classification hierarchy, such as species-item (item name)), unit cost information field by direct cost configuration item, overhead configuration item field group, additional expense and actual cost repair expense field group, direct purchase material, waste disposal cost For example, there may be a separate amount field group, other field group such as a subsidiary material cost, and a total cost field group.
20 is an exemplary configuration of cost detail basic data generated by the cost detail basic data generation engine.
FIG. 21 shows an example of aggregate data of each type of aggregates for all spaces and aggregate data of the present invention including subtotals according to the type classification system.
22 shows an example of aggregate data for each type of frame for a detailed space.
FIG. 23 shows an example of aggregated data for each detailed space called a children's reading room on the 1st floor and aggregated data including subtotal information for each higher grade according to the type of classification system.
24 shows an example of a construction cost statement in which indirect construction cost information is calculated correctly.
FIG. 25 shows construction cost information for each construction cost item in which indirect construction cost information for each indirect construction cost configuration item for each part (frame, wall, floor, and ceiling) is accurately calculated.
Figure 26 is a sub-total information is generated for each part of the entire library, the indirect construction cost total information is accurately generated for each type of construction, the construction cost information processing system that can grasp the total construction cost for each category corresponding to each part and each part at a glance An example of this output is shown.
FIG. 27 shows subtotal information for each sub-space corresponding to sub-spaces, and total indirect construction cost information for each sub-model is accurately generated. An example of the output generated by the construction cost information processing system that can grasp the total cost of construction at a glance for each applicable model is shown.
FIG. 28 shows subtotal information for each part of each detail space for the first floor children's reading room, which is a detailed space, and indirect construction cost total information is correctly generated for each type of work. It shows an example of the output generated by the construction cost information processing system that can grasp the overall construction cost at a glance by the corresponding parts by each site and by the corresponding site.
29 shows an example of the output generated by the construction cost information processing system that can grasp the overall construction cost at a glance for each model corresponding to the ceiling part.
30 is a flowchart illustrating an embodiment of a construction fee application and assessment process using the construction construction cost information processing system of the present invention.
31 is a flowchart illustrating an example of a process of calculating and managing a ready construction cost by each contractor, a contractor, and a client by using the construction cost information processing system of the present invention.
32 is a flowchart illustrating an exemplary method of generating ready-made application cost information including current ready-application request cost information for each detailed space of the construction cost-of-process information processing system of the present invention.
33 relates to an exemplary method for generating ready-made application cost history information of the present invention, and receives ready-made application fee confirmation information for the unsettled work from the contractor's terminal, and generates ready-use application cost history information based on this. It is characterized by.
34 relates to another exemplary method for generating ready-made application cost history information of the present invention, receives ready-made confirmation information on a work type from a builder's terminal, extracts ready-to-use application information, and based on the ready-use application cost. Characteristic information is generated.
FIG. 35 is a view illustrating an exemplary method for generating ready-made application cost history information of the present invention including site information, and receives ready-made application confirmation information for an undetermined type of work from a builder's terminal, based on the ready-made application cost Characteristic information is generated.
36 is a view showing another exemplary method for generating ready-made cost details information of the present invention including site information, and receives ready-made application information about undecided work from a contractor's terminal and extracts ready-to-use application information this time. And, based on this, it is characterized by generating the ready application cost history information.
37 is a conceptual diagram of an embodiment of a method of using a builder-side ready-made data input terminal.
FIG. 38 is a diagram illustrating an exemplary method for generating ready-made application cost history information of the present invention, wherein the ready-to-use application information is generated using the approval information of the client.
FIG. 39 is a diagram illustrating another exemplary method for generating ready-made application cost history information of the present invention, wherein the ready-to-use application information is generated using the order approval information including the site information.
40 is another exemplary method for generating ready-made application cost history information according to the present invention for receiving current ready-made situation information for each specific space from a client-side system or a client-side terminal, and configuring next-order ready-to-use quantity information in consideration of this; It is a drawing about.
41 is received from the client-side system or the client-side terminal from the current site-specific information for each sector including the site information, and taking into consideration for the ready-made application cost history information generation of the present invention constituting the next-order ready application quantity information A diagram of another exemplary method.
FIG. 42 is a diagram for one embodiment of detailed space construction details included in a one-off request that provides a work for each detailed space associated with the site information.
FIG. 43 is an exemplary view of construction details per detail space included in a one-off request that provides only a model for each detail space without site information.
FIG. 44 shows expanded unit price information for each detailed space-specific model generated in consideration of actual construction quantity for a construction called CONC manpower bibimbulation for a detailed spatial frame (common).
FIG. 45 is a view illustrating extended unit price information for each detailed space-specific model generated as a unit construction quantity for a construction called CONC manpower bibimbulation for a detailed spatial frame (common).
The cost detail basic data illustrated in FIG. 46 is divided into three types of constructions, such as the conc manpower bibimbulation work, the plywood formwork, the reinforcing steel field processing and the assembly work, for the frame (common) that is the detailed space. An example of a cost breakdown basic data is shown.
47 is an exemplary diagram of a method for generating cost detail basic data according to the present invention. The present ready-made application cost history basic data associated with the current ready-to-use application using extended unit price information and quantity of current ready-to-use application information for each type-detail space. It is characterized by generating.
48 is a view showing another embodiment of a method for generating cost detail basic data according to the present invention. This is a ready-made application related to a ready-made application using the existing ready-to-use application information using extended unit price information, site-specific, detailed, and detailed space. The cost breakdown basic data is generated.
FIG. 49 is a view illustrating an example of a method for generating an indoor park according to an embodiment of the present invention, using extended unit price information and current ready-to-use application quantity information by sector-specific space by utilizing acquired or set spatial information corresponding to output selection information. It is characterized by generating and outputting the park by inquiring the basic data of the current application cost history generated in connection with the current application for the current application or by processing the inquired information.
50 is an exemplary view of a method for generating an indoor park according to the present invention. Using the site selection information and the output selection information, the current ready-to-use application is made by using extended unit price information, current ready-to-use application quantity information by type, and type-specific space. It is characterized in that it generates and outputs the garden by inquiring the existing ready-made application cost history basic data generated in this way or processing the inquired information.
Fig. 51 shows an example of generated current ready-made application information that also includes information such as standard, unit and quantity.
Fig. 52 shows an example of generated current ready-made application information that does not include information such as standard, unit or quantity.
53 is a flowchart illustrating an exemplary method of generating current ready-made construction cost information including current ready-made construction cost information for each detailed space of the construction construction cost information processing system of the present invention.
54 relates to an exemplary method for generating ready-made assessment cost history information according to the present invention, and receives ready-made assessment cost information for an undecided work type from a client's terminal, and generates ready-cost assessment cost information based on this. It is characterized by.
55 relates to another exemplary method for generating ready-made assessment cost history information according to the present invention, receives ready-made confirmation information for an undecided work type from a client's terminal, extracts ready-made assessment information this time, and is based on this. It is characterized by generating the assessment cost history information.
56 relates to an exemplary method for generating ready-made assessment cost history information of the present invention including site information, and receives current ready-assessment confirmation information for the undecided work from the client's terminal, and based on this, the ready-use assessment cost. Characteristic information is generated.
FIG. 57 is a view illustrating another exemplary method for generating ready-made assessment cost history information including part information, receiving ready-made identification information for undecided work from a client's terminal, and extracting ready-made assessment information this time; FIG. And, based on this, it is characterized by generating the ready-made cost history information.
58 is a conceptual diagram of an embodiment of a method of using an orderer side ready data input terminal.
FIG. 59 is another exemplary embodiment of a method for generating cost detail basic data according to the present invention. This is a current ready cost history related to the current ready price using extended unit price information and quantity of current ready stock information according to the type-detail space. It is characterized by generating the basic data.
60 is a view showing another embodiment of a method for generating cost detail basic data according to the present invention. It is characterized by generating the assessment cost details basic data.
FIG. 61 shows an example of construction quantity information for each type of detailed space for each part associated with the second ready-made application.
FIG. 62 shows an example of current ready-made application cost information by detailed space-by-site-by-work for the wall part of the children's reading room on the first floor.
FIG. 63 shows an example of current ready-made application cost information by detailed space-by-site-by-work for the floor of the children's reading room on the first floor.
FIG. 64 shows an example of current ready-made application cost information by detailed space-by-site-by-work for the ceiling part of the children's reading room on the first floor.
FIG. 65 shows all construction cost information for each type of detailed space called a children's reading room on the first floor in relation to the second current ready-to-use application.
FIG. 66 shows the construction cost information for each part of each work area for the detailed space of the children's reading room on the first floor with the subtotal and the total sum information in relation to the second current ready-to-use application.
FIG. 67 shows the construction cost information for each part of the detailed space of the first floor reading room 1 together with the subtotal and the total information in relation to the second current ready-to-use application.
FIG. 68 shows the construction cost information for each part of the detailed space of the second floor reading room 2 together with the subtotal and the total sum information in connection with the second current application.
FIG. 69 shows the construction cost information for each part of each library with subtotal and total total information for the entire library in relation to the second current application.
FIG. 70 shows construction cost information for each type of work called the first floor children's reading room in relation to the second current ready-made application construction cost information.
FIG. 71 shows an example of outputting only direct construction cost sum and indirect construction cost sum information for the detailed space of the reading room 1. As shown in FIG.
72 shows an example in which only indirect construction cost total information is output for indirect construction costs with many configuration items.
73 shows an example of total construction cost application information for each type of work in relation to the second current ready-made application cost information.
Fig. 74 shows that the client has applied for the 2nd floor reading room 2, the construction quantity 100 requested by the contractor for the lightweight steel ceiling frame work, deluxe tile paste work, water-based paint, roller paint work, interior film work and rock wool absorption tex work. This is a construction quantity drawing showing that it is assessed as 50 instead.
FIG. 75 shows the current ready-made construction cost information for each site-work type for the 2nd floor reading room 2, and shows the second current ready-made construction cost information for the client side corresponding to the second current ready-made application construction cost information shown in FIG. Is showing.
FIG. 76 shows the second current ready-made construction cost information corresponding to FIG. 69, which is the current ready-made application construction cost information for the entire library, for the second current ready-made application construction cost information on the builder's side.
FIG. 77 shows an example of the second current ready-assessment construction cost information for each reading type 2 as an example of the second current ready-assessing construction cost information for each reading type (higher and lower sub-models).
Fig. 78 shows an example of the second current ready-made construction cost information by type of work (higher type-lower model by type) as an example of the second current ready-made construction cost information on the entire library.
79 is a view illustrating an example of a method for generating an indoor park according to an embodiment of the present invention. By using obtained or set spatial information corresponding to output selection information, using extended unit price information and current ready-to-use quantity information according to type-specific space. It is characterized in that it generates and outputs the park by inquiring the current ready-made matter cost history basic data generated in connection with the current ready-made matter or processing the inquired information.
80 is a view illustrating an example of a method for generating an indoor park according to the present invention. It is characterized in that it generates and outputs the park by inquiring the existing ready-made assessment cost history basic data generated in this way or processing the inquired information.
81 is a flowchart of an exemplary method of generating current unsatisfied construction cost information including current unsatisfactory construction cost information for each detailed space of the construction construction cost information processing system of the present invention.
82 is an exemplary diagram for the under construction quantity information.
Figure 83 shows the subsidiary construction cost information for each site-work type for the second floor reading room 2.
FIG. 84 shows sub-cost-specific construction cost information for each second-floor library.
FIG. 85 shows sub-construction cost information for each part-work type for the second floor toilet.
FIG. 86 shows sub-cost-specific construction cost information for each sub-project based on the entire library construction.
87 shows the substandard construction cost information for each floor.
88 shows the overall subsidiary construction cost breakdown (construction cost statement).
FIG. 89 shows the subtle construction cost information for each type of work for the reading room 2 on the second floor.
FIG. 90 shows the subsidiary construction cost information for each type of warehouse for the second floor.
FIG. 91 shows the substandard construction cost information for each type of bathroom for the second floor toilet.
92 shows the subtle construction cost information for each type of subsidiary construction.
FIG. 93 is an exemplary view illustrating a method for generating an in-house garden of the present invention. Based on current circumstances, based on the current unsatisfactory construction quantity information for all construction quantities, based on the current unsatisfactory cost breakdown by space-by-sector. After generating the data preferentially, the selection information for the detailed space is obtained, and then the subtle construction cost information for each detailed space-specific work for the selected detailed space is generated and output.
FIG. 94 is an exemplary view illustrating a method for generating a garden in accordance with the present invention. Based on current circumstances, the current criteria for each part-detail space-specific type-based based on current unsatisfactory construction quantity information for all construction quantities. The cost history basic data is generated first, the selection information on the part is obtained, and the subsidiary construction cost information by the part-detail space-by-work type for the selected part is generated and output.
FIG. 95 is an exemplary view illustrating a method for creating an in-house garden according to the present invention. Based on the current situation, based on the unsatisfactory construction quantity information related to only the selected detailed space, the basic cost-specific basic cost data by sub-space may be used. After generating first, the selection information for the detailed space is obtained, and then the subtle construction cost information for each detailed space-work type for the selected detailed space is characterized in that the output.
FIG. 96 is an exemplary diagram illustrating a method for generating an in-house garden according to the present invention. Based on the current situation, based on the substandard construction quantity information on the selected site, the basic cost information based on each site-by-detail space-by-model. After generating the first, and obtain the selection information for the site, and generates and outputs the subsidiary construction cost information for each part-specific space-specific sector-specific construction cost for the selected site.
97 is a flowchart illustrating an exemplary method of generating current ready-to-use difference construction cost information including current ready-made difference construction cost information for each detailed space of the construction construction cost information processing system of the present invention.
Figure 98 shows the ready-made application construction quantity information for each round.
FIG. 99 shows a conceptual example of the number of ready-to-use application construction quantity information and the ready-made assessment construction quantity information in relation to FIG. 98.
FIG. 100 is an exemplary view of a method for generating an indoor park of the present invention. The presenter's side-by-builder's side-by-side application including construction quantity-specific type-specific space and construction quantity-specific information includes construction quantity information. Obtaining information, extracting a difference, and generating a predetermined garden.
FIG. 101 is an exemplary view of a method for generating an indoor park of the present invention, including construction quantity information by builder-side part-construction type-detail space by presenter-based application information and construction quantity information by construction-side part-construction type- It is characterized by generating the preset garden by acquiring ready-made ejaculation information for each detailed space and extracting a difference.
FIG. 102 is an exemplary view illustrating a method for generating an in-house garden of the present invention. The present ready-made application cost history basic data is generated by using the current ready-to-use application quantity information for each work type-detail space, and the current ready-to-use amount for each work type-detail space. It is characterized in that the current prepared cost assessment basic data is generated using the information, and the preset garden is generated using the generated both.
103 is an exemplary diagram of a method for generating an in-house production of the present invention. The present ready-made application cost history basic data is generated using current ready-made application quantity information for each part-type-specific-detail space, and for each part-type-detail. It is characterized in that the present-day ready-made cost history basic data is generated using the current ready-to-eat quantity information for each space, and the preset inside is generated using the generated both.
104 is an example of aggregation information for the first round of claim details.
105 is construction cost information for a ready-made billing history according to the first round.
106 is an example of aggregate information about the first ready-made assessment details.
107 shows construction cost information for a ready-made assessment breakdown for each turn.
108 is an example of aggregation information for the second round of ready billing history.
109 is construction cost information for the ready-made billing history for each second round.
110 is an example of the aggregation information for the second round of ready billing history.
111 is construction cost information for a ready-made billing history for each second round.
112 is a diagram for one embodiment of an information processing method when there is selection information on a spatial object, such as a selected part, of a construction cost information processing system of the present invention;
FIG. 113 is a diagram of a BIM operation screen, in which a specific region object may be selected, and the selected region object is shown in an exemplary embodiment in a BIM system showing that a boundary thereof is displayed to be distinguished by a different color or the like.
FIG. 114 is a diagram for one embodiment of providing at least one piece of construction cost detail information for a selected part when selecting a part in a BIM system.
FIG. 115 is an exemplary view showing that the construction cost information processing system of the present invention generates extended unit price information related to only a part of cost items constituting a cost breakdown such as generating extended unit price information based only on material cost.
FIG. 116 is an exemplary view showing that the construction cost information processing system of the present invention generates extended unit price information related to only a part of a cost item constituting a cost breakdown such as generating extended unit price information only by labor cost.
FIG. 117 is an exemplary view showing that the construction cost information processing system of the present invention generates extended unit price information related to only a plurality of parts of a cost item constituting a cost breakdown such as material cost, labor cost, and minor.
118 is a figure which shows an example of the extended unit price aggregation table for each model which the construction cost information processing system of this invention produces | generates. The extended unit cost chart shows the direct cost item and the indirect construction cost corresponding to this material cost, or the indirect construction cost corresponding to this labor cost together with the direct cost item. It is possible to see at a glance the amount excluding direct costs among the expanded unit price information such as indirect construction costs related to the item.
119 shows unit price information for individual materials, individual labor, and the like required for each type of work generated by the construction cost information processing system of the present invention using standard product information, and total information of extended unit price information generated using these unit price information. A diagram showing an example.
FIG. 120 shows unit price information for individual materials, individual labor, and the like required for each type of work generated by the construction cost information processing system of the present invention using standard product information, and for each item of extended unit price information generated by using the unit price information. It is a figure which shows an example of extended unit price information and the sum total information.
121 is an exemplary diagram of a material management information processing process of the material management information generation engine of the construction cost information processing system of the present invention.
122 is an exemplary diagram of a labor management information processing process of the labor management information generation engine of the construction cost information processing system of the present invention.
FIG. 123 shows an example of the cross-sectional simplified diagram for each floor of a construction object (building, etc.) that is the object of ranking information generation generated by the ranking information generation engine of the construction construction cost information processing system of the present invention.
124 is a view showing example data in which construction cost ranking information for each detailed space constituting a specific space generated by the ranking information generation engine of the construction construction cost information processing system of the present invention is generated.
125 is a diagram for visually displaying construction cost ranking information for each detailed space constituting a specific space generated by the ranking information generation engine of the construction construction cost information processing system of the present invention.
FIG. 126 is an exemplary view illustrating a process for visually expressing construction cost ranking information for each detailed space generated by the ranking information generation engine of the construction construction cost information processing system according to the present invention.
FIG. 127 is an exemplary view showing exemplary data in which ranking information for each model is generated for a part constituting a specific detailed space generated by the ranking information generation engine of the construction cost information processing system of the present invention.
FIG. 128 is an exemplary diagram for a method of visually expressing construction cost ranking information for each model for a part constituting a specific detailed space generated by the ranking information generation engine of the construction cost information processing system of the present invention.
129 is a view showing an example of ready-made application history information generated by the ready-made information generating engine 1300a.
FIG. 130 shows an example of one-time ready assessment information for each space generated by the ready-made information generating engine 1300a.
FIG. 131 is a view showing an example of two pieces of ready-made application history information generated by the ready-made information generating engine 1300a.
132 is a view showing an example of the two pieces of ready-made assessment details information generated by the ready-made information generating engine 1300a.
FIG. 133 is an exemplary view showing that errors may occur in calculating the total cost for each type of work because the indirect costs are properly estimated and resent the amount of indirect costs in the direct cost amount of the statement when calculating the work cost for each type of work model during the execution of the conventional VE.
FIG. 134 shows that the amount of the functional evaluation when the functional evaluation is performed in the conventional VE is also brought from the cost model of FIG. Exemplary drawing of the current cost allocation table showing that the money journal entry is possible only through separate manual work and is not an accurate money journal entry by function.
135 is difficult to reconstruct the construction cost by sub-item-item of the original design in the life cycle cost analysis when performing the conventional VE, it is difficult to reconstruct the construction cost by sub-space-item of the original design, and the indirect costs after the direct expiration is properly estimated, This figure shows that it is difficult to figure out the total cost of each item precisely.In this case, the calculation of the construction cost by subspace-item of the alternative (improved plan) is similar to the original design. Is an exemplary diagram of a life cycle cost analysis table showing that there is a difficulty in calculating and that the resulting savings estimates are likely to produce errors.
136 shows that in the life cycle analysis of the construction cost of the VE execution item, the existing construction cost is not divided by the subspace items in the conventional VE proposal. It is an example of VE proposal that shows the difficulty of grasping precise total cost of each item.
FIG. 137 shows that the existing construction cost is not classified by sub-space-item in the life cycle analysis of the construction cost of the VE execution item when preparing the construction cost statement of the conventional VE execution process. It is an exemplary diagram of the construction cost statement showing difficult and accurate indirect costs after direct journal entry, showing that the total cost of each item is difficult to grasp.
138 is a flowchart of an embodiment of an information processing method of a system of the present invention. In the above flowchart, cost history information is generated as input information before the change information is generated, a cost model output is generated from the generated cost history information, and when the change information is generated, the change information is reflected and preset as VE support information. Generating analysis information is illustrated by way of example.
139 is a flowchart of an embodiment of an information processing method of a system of the present invention. In the flowchart, cost information is generated as input information before and after the change information is generated, and preset analysis information is generated as VE support information by reflecting the change information as the generated cost detail information. .
140 is an exemplary flowchart of an information processing method of a system of the present invention. In the above flowchart, cost history information is generated as input information before the change information is generated, a cost model output is generated from the generated cost history information, and when the change information is generated, the change information is reflected and preset as VE support information. Another example of generating the analysis information is shown by way of example.
FIG. 141 is an exemplary diagram of a cost calculation statement according to the present invention for a construction cost breakdown by construction type-construction cost construction item for a specific detailed space generated for a circle design plan, in which direct and indirect construction costs are expressed in one line. Show that it is.
FIG. 142 is an exemplary view of a cost calculation statement of the present invention for a construction cost breakdown by work type-construction cost configuration item for a specific upper space generated for a circle design plan.
143 is an exemplary diagram of the cost accounting statement of the present invention for the total construction created for the original design.
FIG. 144 is an exemplary view of a cost calculation statement of the present invention for a construction cost breakdown by work type-construction cost configuration item for a specific detailed space created for an alternative design.
FIG. 145 is an exemplary view of a cost calculation statement of the present invention for a construction cost breakdown by a construction cost-construction cost item for a specific upper space generated for an alternative design.
146 is an exemplary diagram of a cost accounting statement of the present invention for a total project created for an alternative design.
FIG. 147 is a VE support information of the present invention, which provides information on the total construction cost and the difference between the original design by the upper space and the alternative design, and the difference thereof, and thus, the analysis result of which the construction cost can be compared between the original design and the alternative design. Example drawing.
148 is a VE support information of the present invention provides information on the total construction cost and the total cost of the alternative design alternative and the difference according to the original design for each detailed space for the analysis result that can be compared between the original design and alternative design Example drawing.
149 is VE support information of the present invention, and provides information on the construction cost and the difference between the original design plan and the alternative design plan for the construction cost and the alternative design plan according to the construction type and the approximate construction cost configuration item, which are different from the original design plan. One exemplary diagram of analytical results for comparison of cost of alternative designs.
150 is the VE support information of the present invention provides the construction cost and the difference of the construction cost and the difference between the original design proposal and the alternative design proposal by construction type and detailed construction cost configuration items that differ between the original design proposal and the alternative design proposal. One exemplary diagram of analytical results for comparison of cost of alternative designs.
151 is a unit price information analysis table for each model of the original and alternative design changes. 151 shows unit price information according to the type of materials and labor for each type of work changed for the original design and the alternative design.

Hereinafter, it demonstrates in detail, referring drawings. 9 to 11 show an exemplary configuration of the construction cost information processing system 1000 of the present invention. FIG. 9 relates to an exemplary configuration of a construction cost information processing system 1000 using the construction cost information processing system 1000 at a contractor side and a client's side, and FIG. 10 illustrates a construction in which a builder is a main user. One embodiment configuration of the construction cost information processing system 1000, Figure 11 relates to one embodiment configuration of the construction cost information processing system 1000, the main user of the ordering party. Construction work can be roughly divided into those who order the work and those who perform it. Examples of the project owner may be an owner, a client of the construction, a supervisor, a construction management company for the owner, and an example of the construction performer (constructor) may be an example.

First, a description will be given with reference to FIG. 9, and details of FIG. 10 or 11 that differ from the method of FIG. 9 will be described separately.

As can be seen in Figure 9, the construction cost information processing system 1000 includes an interface module 1100 including a function for supporting a smooth interface with the data acquisition unit 1110 and the user; Cost history basic data generation engine 1200 and construction cost information generation engine 1300 is included. The construction cost information processing system 1000 may further include a DB 1400 that stores and manages various data, and may further include a management module 1500 that performs various management functions. The management module 1500 may include a cost rate information manager 1510 for managing cost rate information and a user manager 1520 for managing a user. The cost rate information manager 1510 manages the changed cost rate information when the cost rate is changed. On the other hand, the construction cost information processing system 1000 is connected to at least one or more user computers (2000) using the construction cost information processing system 1000, or to exchange information with a wired / wireless network (6000). The user computer 2000 may be any terminal or system using the construction cost information processing system 1000. Examples of the user computer 2000 include a builder side ready data input terminal 2100, a client side ready data input terminal 2200, a builder side system 3000, a client side system 4000, or at least one third system. (5000) and the like can be an example.

The construction construction cost information generation engine 1300 includes a ready-made information generation engine 1300a for processing the existing construction cost information, the VE support information generation engine 1300c for processing the VE construction cost information, and other cost detail information for processing the construction cost details information. The generation engine 1300b is included.

The interface module 1100 includes a data acquisition unit 1110 that obtains data from the user computer 2000. The data acquisition unit 1110 obtains the cost detail basic data acquisition unit 1111 for obtaining basic data for calculating the cost details according to the source or the nature of the acquired data, and obtains the builder-side data related to the existing information processing. There is a builder-side ready-made data acquisition unit 1112 and a client-side ready-to-use data acquisition unit 1113 which obtains the orderer-side data in connection with the ready-made information processing. When the data acquisition unit 1110 selectively obtains data in a special form or a preset form, the data acquisition unit 1110 obtains a separate item for receiving a special separate item from an acquisition data form providing unit (not shown) that provides an acquisition data form. It may further include a portion (not shown). On the other hand, the interface module 1100 has an output selection information acquisition unit 1120 for receiving input information or output information that the user wants to receive or selection information on elements to be included in the output and the user preset An output providing unit 1130 that provides an output of a form may be further included. The interface module 1100 may further include an external system interface unit 1150 that exchanges computer information with the user computer 2000.

On the other hand, with respect to a plurality of spatial objects constituting a specific facility, there is a spatial object selection information acquisition unit 1140 that receives selection information for at least one or more spatial objects, the spatial object selection information acquisition unit 1140 is optional The apparatus may further include a region object selection information acquisition unit (not shown) that obtains selection information on the region object that is the lowest spatial object. In the specification of the present invention, the term spatial object is used to mean a spatial object among physical objects and a local object among physical objects. In the 3D CAD system, it is possible to select local objects among physical objects such as ceilings and walls, but spatial objects among physical objects surrounded by parts such as floors, zones, and rooms of buildings can be selected. For convenience of description, The spatial object of the invention is also used to include a site object.

The ready-made information generating engine 1300a performs a function of generating cost detail basic data for the ready-made information processing. A detailed description of the process of generating the cost detail basic data will be given later. The off-the-shelf information generation engine 1300a includes a cost detail basic data generation engine 1200 for generating indirect construction cost information by referring to unit price information and cost rate information for each type of work. On the other hand, the ready-made information generating engine 1300a is extended construction cost information generated by indirect construction cost information and direct construction cost information for each type of construction, and generates cost detail basic data that can be processed by the ready-made information generating engine 1300a of the present invention. The generation of the cost breakdown basic data may include generating at least one aggregate data based on at least one dimension or axis, and the generation of the aggregate data is processed by the aggregate data generator 1220 of the present invention. .

In the present invention, the ready-made information generating engine 1300a performs a function of generating at least one preset information. The ready-made information generating engine 1300a may further include a part-unit information processing unit 1310 for processing the ready-made information on a part-by-part basis which is the lowest unit of the space classification. The ready-made information generating engine 1300a generates at least one output information or output information, and the output information generation unit 1320 of the present invention generates the output information or output information.

Obtained or generated information of the present invention is stored in the DB unit 1400. The DB unit 1400 includes an acquisition data storage unit 1410 for storing acquisition data and a generation data storage unit 1420 for storing the generated data. The acquisition data storage unit 1410 includes a unit price information data unit 1411 for storing unit price information for each type of work in accordance with the nature or source of the obtained data, and a quantity calculation information data unit 1412 for storing quantity calculation information for each type-space. A cost rate information data unit 1413 for storing the cost rate information, a work type data unit 1414 for storing the hierarchical structure information of the work type, and a spatial data unit 1415 for storing the hierarchical structure of the space constituting the facility. Can be. Meanwhile, the acquisition data storage unit 1410 stores a builder-side ready-made input data unit for storing information obtained from a builder-side ready-made data input terminal 2100 and information obtained from the orderer-side ready-to-use data input terminal 2200. And an orderer side input data unit. Meanwhile, the generated data storage unit 1420 includes an aggregate data storage unit 1421 for storing aggregated data, an output information storage unit 1422 for storing output information, a specialized information storage unit for storing specialized information, and builder-side functionality. A builder-side ready-made information generating data unit 1424 storing the generation information and a client-side ready-made information generating data unit 1425 storing the orderer-side ready-made generation information may be included.

The DB unit may further include a standard product data unit 1430. The standard product data unit 1430 may further include material, labor, and handling unit data constituting the standard product, which may be included in a single DB or data unit, but each data unit for each standard product is included. 1431, the standard product-specific labor data unit 1432, and the material handling unit data unit 1431.

The work classification is a work classification system for the work from the top hierarchy to the bottom hierarchy, such as large work-heavy work-small work-item (item name). Belong to The space classification refers to a structure system for the space constituting the facility from the lowest part unit to the highest facility unit. For example, with respect to a facility called a library, the first floor and the second floor are spaces in units of floors, and the reading room 1 constituting the first floor, the child reading room, etc. are detailed spaces, and the ceiling, floor, wall, etc. constituting the reading room 1 May be a spatial object corresponding to a part.

First, the method of the information processing by the construction cost information processing system 1000 of this invention is demonstrated first.

12 to 13 are flowcharts of an information processing method of the construction cost information processing system 1000 of the present invention. As shown in the example of FIG. 12, the construction cost information processing system 1000 generates cost detail basic data from quantity information, construction unit price information, and cost rate information, which are initially input (by part), type of work, and detail space. The cost breakdown basic data first generates indirect construction cost information for each model by referring to the unit price information and the cost rate information (S11), and generates extended unit price information for each model using the generated indirect construction cost information and the direct construction cost information for each model. In operation S12, the cost detail basic data is generated by referring to the expansion unit price information and the quantity calculation information using the extension unit price information (S13).

Meanwhile, as illustrated in FIG. 13, the construction cost information processing system 1000 obtains quantity information for each part-workpiece-space-space, unit price information for each industry type, and cost rate information (S21), and provides unit price information and cost rate information. By referring to the indirect construction cost information for each construction item by construction type (S22), by constructing the extended unit price information for each sector by the generated indirect construction cost information and direct construction cost information for each sector (S23), the expansion unit price information and the quantity calculation information by the type Using the to generate a predetermined cost history basic data (S24), the construction cost information processing system 1000 is set or generates cost history information reflecting the detailed space or site information requested by the user (S25).

Quantity information for each (part-) type-space-specific type may be input in one information unit as shown in FIG. 14, but may be input in two or more separate information units. In the specification of the present invention, the information processing for each part may not necessarily be necessary, and the information processing for each detailed space is often sufficient. Accordingly, in the description of the present invention, the description includes the information processing for each site, but as shown in the expression "(by site-by-space)", the parentheses may be treated by "by site-by-part", and the site may be optional information processing. Make it clear Hereinafter, powdering is performed.

First, data input will be described. 14 shows construction quantity (calculation) information for each detailed space for each construction type (product name) for library construction. In FIG. 14, the site information is additionally corresponding to the item name (work type), and the work quantity information of FIG. 14 becomes the work quantity information for each part-work type-specific space-detail space. The part is not essential in the construction quantity information, but may be a useful element in the precise information processing for each part or under a system such as BIM. 15 shows an example of unit price information for each type of work. FIG. 16 shows an example of cost rate information for calculating an indirect construction cost for each indirect construction cost construction item.

The construction cost information processing system 1000 obtains quantity information for each (site-) type-space-specific type, unit price information, and cost rate information as illustrated in FIG. 14 (S21). Meanwhile, the information obtained by the construction cost information processing system 1000 may further include information on spatial classification, and the information on the spatial classification may be included in the quantity information for each (part-) type-space. It may be included, but may be input as separate data as shown in Table 1 below.

library First floor Children's reading room Reading Room 1 Second floor Reading room 2 Standing restroom

In order to generate construction cost breakdown information for each space classification system, information about the space classification should be input. As input data of the present invention, there is an example of the location information (space configuration information) for each facility-specific space in Table 1, and the quantity-specific quantity calculation information for each model-space in FIG. As illustrated in Table 1 above, a facility called a library consists of two floors, each of which includes the detailed spaces illustrated in Table 1. That is, it can be seen that the first floor includes a children's reading room and a reading room 1, and the second floor includes a reading room 2, a library and a bathroom. Through the detailed location information data for each detailed space, each detailed space is further inputted with belonging / classification information for each floor and each building to form a spatial data unit 1415.

On the other hand, since the quantity information of FIG. 14 includes site information at the front of the type, the corresponding relationship between "part: type: detail space" is established for the quantity calculation information. At this time, if the "work type" is ignored in the correspondence relationship of "part: work space: detail space", a corresponding relationship of "part: work space" is generated, and as such correspondence information, 1) corresponding to each sub-space. n parts and 2) m detailed spaces corresponding to each part are shown. If the quantity calculation information for each detailed space corresponds to FIG. 14, if the quantity calculation information further includes an aggregate for each layer corresponding to an upper portion of the detailed space, or for another space corresponding to an upper portion of the “layer” If there is a partial aggregation, the location information (space configuration information) for each facility-specific space corresponding to Table 1 may be generated as the aggregation information. When the data of Table 1 and FIG. 14 or the data of FIG. 14 further include aggregate information for generating spatial configuration information, corresponding information about “part: industry: space of arbitrary unit” is generated. Will be. Through the detailed location information data for each detailed space, each detailed space is further inputted with belonging / classification information for each floor and each building to form a spatial data unit 1415. The spatial data unit 1415 can configure a detailed spatial DB.

On the other hand, the site information may be further included in the spatial configuration information shown in Table 1. However, even if it is included in Table 1, it is more preferable not to be omitted in the quantity-specific quantity calculation information of the work-space of FIG. The reason is that if there is no site next to the type of data in Fig. 14, even though there is information that the reading room 1 is composed of n parts, if there are m types related to the reading room 1, the nith part is mj. It is not known whether it is related to the first job. In this case, the construction quantity cannot be determined for each part, and even if there is unit price information for each work type, it becomes impossible to know which part ni corresponds to the work type mj, and as a result, construction cost breakdown information for the part ni cannot be generated. On the other hand, since the unit price information is determined according to the type of work, the site corresponding to the type of work in the quantity calculation information for each type-space will have to be entered.

15 is a diagram of an example of unit price information data as input data. It can be seen that the unit price information includes direct costs for each item of construction costs, such as material costs, labor costs, and expenses, by type of work (item name).

16 shows that cost rate information is input as input data. For example, the indirect construction cost information generation engine 1210 of the cost breakdown basic data generation engine 1200 of the construction construction cost information processing system 1000 may refer to the construction cost information and cost rate information for each indirect construction cost configuration item. Indirect construction cost information is generated (S22). As illustrated in FIG. 12, the indirect construction cost information generation engine 1210 first generates indirect construction cost information for each indirect construction cost configuration item by model by referring to the unit price information and the cost rate information for each model (S11). Subsequently, the cost breakdown basic data generation engine 1200 configures the expanded unit cost information for each construction cost construction item by construction cost by using the generated indirect construction cost information for each construction type and indirect construction cost information for each construction item and direct construction cost information for each construction item. The cost breakdown basic data is generated using the extended unit price information (S13).

As shown in FIG. 16, the indirect labor cost is 10.50% of the direct construction cost information, and the industrial accident-employment insurance cost is (direct labor cost + the indirect labor cost) * 3.61%. Refers to rule information for generating indirect construction cost information for each construction cost construction item. Of course, when the indirect construction cost information generation engine 1210 generates the industrial accident-employment insurance cost information, the indirect labor cost information is required for generation of the industrial accident-employment insurance cost information, so the indirect labor cost is the industrial accident-employment insurance cost. It is preferable to calculate more preferentially. That is, when indirect construction cost information of at least one or more other indirect construction cost construction items is required for the calculation of a specific indirect construction cost construction item, it is preferable to first calculate the necessary indirect construction cost information.

A method of generating extended construction cost information will be described using FIG. 17 as an example. FIG. 17 exemplarily shows CONC manpower bibimbushing, plywood formwork, reinforcing steel field processing and assembly for three types of work. The direct construction cost information for each type of construction is shown in Table 2 below when the construction quantity unit is based on 1.

Item  standard  unit  Quantity  Private Service  (1) material costs  (2) labor costs  (3) security  (4) direct arsenic system  unit price  Price  unit price  Price unit price Price  unit price Price CONC Manpower
Bibimbushing 1: 3: 6 (300M3 ↓) M3 One 147,069 147,069 147,069 147,069 Plywood formwork 3rd time M2  One 4,865 4,865 15,402 15,402 20,267 20,267 Rebar site processing and assembly Medium (extra premium) ton  One 11,087 11,087 358,447 358,447 369,534 369,534

Indirect construction cost information for each indirect construction cost configuration item as shown in [Table 3] to [Table 5] is generated using the direct construction cost information and the cost rate information for each type of work shown in [Table 2].

Item labor cost security (5) Indirect labor (6) Workers' and Employment Insurance
premium (7) Pension and retirement insurance premiums (8) Health premium (9) Long-term care insurance premium for the aged (2) * 10.5% Workers' Compensation Insurance 3.61%
Employment insurance premium 0.67%
= ((2) + (5)) * 4.27% Pension premium 2.43%
Retirement allowance 2.3%
= (2) * 4.73% (2) * 1.49% (8) * 0% CONC Manpower Bibimbulation 15,442 6,939 6,956 2,191 Plywood formwork 1,617 727 729 229 Rebar site processing and assembly 37,637 16,913 16,955 5,341

Item security (10) Safety management fee (11) Other expenses (12) Environmental conservation costs
Construction loss premium (13) Security subtotal ((1) + (2) + (19))
* 1.81% ((1) + (2) + (5)) * 5.9% Environmental Conservation Cost 0.30%
Guarantee commission 0.018%
= ((1) + (2) + (3)) * 0.318% SUM ((6) :( 12)) CONC Manpower Bibimbulation 2,662 9,588 468 28,805 Plywood formwork 367 1,291 64 3,407 Rebar site processing and assembly 6,689 24,023 1,175  71,095

Item (14) General management fee (15) Profit ((4) + (5) + (12)) * 4.7% ((2) + (3) + (5) + (13) + (14)) * 15% CONC Manpower Bibimbulation 8,992 30,046 Plywood formwork 1,189 3,242 Rebar site processing and assembly 22,478 73,449

In this case, when all the indirect construction cost information for each indirect construction cost configuration item set by the construction type is generated, the construction cost integrated item by combining the direct construction cost by the direct construction cost construction item and indirect construction cost by the indirect construction cost construction item by the construction type The information on the extended unit price is generated. The cost breakdown basic data is generated using the extended unit price information for each type and the quantity calculation information for each type. As illustrated in FIG. 17, the cost detail basic data generation engine 1200 is illustrated in FIG. 17 using the extended construction cost information shown in Table 3 and Table 4 generated by the cost detail basic data generation engine 1200. It is possible to generate the basis cost data for each type of work as is. 17 includes extended unit price information, direct construction cost total information, indirect construction cost total information, and total cost information for each type of industry including value added tax and (19).

FIG. 17 illustrates cost data for basic construction including extended construction cost information for each construction cost item, which is generated for CONC manpower bibimbulation, plywood formwork, reinforcing steel field processing, and assembly work for three types of construction. Of course, this data can be generated for all types of course. Since the cost detail basic data shown in FIG. 17 may be generated only for a model related to a specific detailed space, the cost detail based data may be generated for each detailed space-specific model. On the other hand, the sub-space is able to correspond to the related work from the lowest sub-space to at least one or more upper space that includes the lowest sub-space. In other words, if the cost detail basis data for each sub-space and the work type are generated for the lowest detail space, the generated cost history basic data is aggregated by spatial hierarchy (roll-up operation may be an example). You can also create cost breakdown basic data for stars and sectors. On the other hand, since it can be generated only for the work associated with a specific site, it can also be generated for each site-specific space-specific work, of course, at least for the sub-space associated with the site, the upper space including the sub-space Per-partition-detail / upper-space-specific cost breakdown basic data may be generated that includes one or more aggregate information. As shown in FIG. 17, when the cost breakdown basic data for each type of work is generated based on the unit quantity 1, the detailed space by multiplying the actual construction quantity for each detailed space for each type by the cost breakdown basic data for each type of work based on the unit quantity 1 You can compose basic data of cost breakdown by industry. Of course, the cost history basic data for each type of construction includes construction cost information for each construction cost by item.

In FIG. 17, the cost breakdown basic data was generated based on quantity 1. However, as shown in FIG. 18, the cost breakdown basic data is generated by using the actual construction quantity 100 (if 5 is 5 if the construction quantity of a specific work type). Of course, it can be generated. Based on the quantity 1, it will be 1/100 of all amounts except for the unit price shown in FIG. 18. (The construction quantity is 100 because all are 100.) That is, in the output, the construction cost for each construction item by direct construction cost. In addition, it can be seen that construction cost, total, VAT, other and total cost information for each item of indirect construction cost is generated. The expanded unit cost information for each type of construction may be direct construction cost information and indirect construction cost information.

Subsequently, the cost detail basic data for each model is generated (S24). The cost detail basic data is in charge of the aggregate data generation unit 1220 of the cost detail basic data generation engine 1200 of the present invention. The aggregate data generation unit 1220 generates cost breakdown basic data with reference to the extended construction cost information for each work type and the quantity information for each work type and space. The aggregate data generation unit 1220 generates two types of cost breakdown basic data. One is a method of generating preset multidimensional aggregate data, and the other is a method of generating only a few preset aggregate data. First, a method of generating multidimensional aggregate data will be described. The multidimensional aggregate data is generated by the multidimensional aggregate data generator 1220 of the aggregate data generator 1220 of the cost detail basic data generation engine 1200 of the present invention.

The aggregate data generation unit 1220 may generate aggregate data for each industry type and space. Representative aggregation examples generated by the aggregate data can be found in FIGS. 21 to 23. FIG. 21 shows an example of the cost history basic data in which the entire library, FIG. 22 is a skeleton (common), and FIG. 23 is generated aggregate data for the children's reading room on the first floor.

 The various subtotals in FIG. 21 to FIG. 23 are representative examples of aggregate data, and various aggregates may be aggregated according to a work composition scheme, may also be aggregated by a space construction scheme, and any one of a work space is fixed. It can be aggregated for any one that is not fixed and can be fixed, any two or more of the co-space-sites can be fixed, it can be aggregated for any one that is not fixed, and at least one of the co-space-sites can be fixed. You can also count in two directions for two things that are not fixed. For example, fix the work type 4 (product name 004-1.0B masonry) and count it for each space (1st floor children's reading room, 1st floor reading room, 2nd floor reading room, 2nd floor library, 2nd floor restroom). Aggregate information for this type 4 will be aggregated information for type 4 for the entire library. Of course, if only counting for the children's reading room and reading room 1 constituting the first floor, it will be the aggregate information for the first floor for the type 4 work. Various aggregate data of the present invention may be a cost breakdown output generated by the construction cost information generation engine 1300. That is, the construction cost information generation engine 1300 may immediately utilize the output of the aggregated data generated by the aggregate data generation unit 1220 as the cost detail information output.

The cost breakdown basic data has three to five or more dimensions (axis). The first dimension is the construction cost item dimension, the second dimension is the engineering dimension, the third dimension is the spatial dimension, and the lowermost part of the spatial dimension may exist. On the other hand, while parts are conceptually the lowest element of the spatial dimension, they can also be treated as independent dimensions in data processing. In this case, since the portion is the lowest spatial structural unit, it may be common that there is no hierarchical structure between the portions, but may not necessarily be the case.

The value constituting the cost breakdown basic data may be expressed as f (x, y, z, w). If there is no site information, a value constituting the cost breakdown basic data may be expressed as f (x, y, z). Of course, the f (x, y, z, w) further includes subtotal value information for at least one dimension.

In this case, x may be an engineering dimension, y may be a spatial dimension, z may be a construction cost dimension item, w may be a part dimension, f is a cell value determined when (x, y, z, w) is determined to be. The cost breakdown basic data generation engine 1200 obtains the first (part-) type-space-specific quantity information, the type-specific unit price information, and the cost rate information, and generates f (x, y, z, w). . The quantity information is determined when (xi, yj, wk) is determined. Generating multidimensional data or cube data such as f (x, y, z, w) may be computationally various.

As an example, a method of generating f (x, y, z, w) will be described. The cost detail basic data generation engine 1200 calls the indirect construction cost information generation engine 1210 and preferentially generates extended construction cost information for every combination of given xi, yj, and wk. Extended construction cost information means that all information about zl is generated. (The extended construction cost information may be a unit quantity (quantity 1, for example, see FIG. 17) or a reference quantity (for example, quantity 100 and FIG. 18 for each model.) As shown in FIG. 17, construction cost information for each of three exemplary construction types and direct construction cost indirect construction cost items is zl. Multiplying results in FIG. 18.

The ready-made information generating engine 1300a of the present invention uses z = z (xi, yj, wk) as all the xi, all yj, and all wk as the extended construction cost information and the quantity calculation information for every combination of given xi, yj and wk. Can be generated for every combination of. The cost history information generation engine 1300b and the VE assist information generation engine 1300c also have the extended construction cost information and the quantity calculation information for every combination of xi, yj, wk given as the ready-made information generation engine 1300a of the present invention. It is natural that z = z (xi, yj, wk) can be generated for every combination of xi, all yj, and all wk. In the specification of the present invention, the manner in which the ready-made information generating engine 1300a operates may be applicable to the operating method of the cost detail information generating engine 1300b and the VE assistance information generating engine 1300c.

In the present invention, when generating the extended construction cost information, the expanded construction cost unit price information (direct construction unit cost + indirect construction cost unit price by indirect construction cost configuration item) including the indirect construction cost information for each indirect construction cost construction item first, and then as the quantity calculation information Although it is described as a first method of generating extended construction cost information, the generation of the extended construction cost information may be directly generated by directly reflecting the quantity calculation information on the unit cost of construction cost, and then by direct construction cost information (direct construction cost unit price * construction quantity) reflecting the quantity calculation information. A second method of generating extended construction cost information (extended construction cost unit price * construction quantity) with reference to the cost rate information may also be adopted. In the above, xi refers to the lowest space i of the space classification excluding the site (since wk is used here) (for example, the child's reading room and reading room 1, which are detailed spaces on the first floor, can be xi), and yj is the lowest work type. Classification (for example, the model shown in the unit price information in FIG. 15 may be jy), and wk may be the (lowest) site classification (for example, ceiling, wall, floor, frame, etc.). There is). On the other hand, zl is a construction cost construction item.

Subsequently, the (multidimensional) aggregate data generation unit 1220 or the formal aggregate data generation unit (not shown) of the cost detail basic data generation engine 1200 or the cost detail basic data generation engine 1200 calculates a partial sum. It is a process. Subtotals can be generated for each dimension for x, y, z, and w. The z-dimensional subtotals may include direct construction cost subtotals, indirect construction cost subtotals (the subtotals by indirect construction cost constituent groups may be generated), and total subtotals, which may be generated when the extended construction cost information is generated. The spatial dimension will be described first by way of example. For each of the yj and wk combinations (assuming subtotals for z have been generated), generate subtotals for xi. In other words, the construction cost related to reading room 1, reading room 2, library 1, children's reading room, and restroom 1 is calculated based on the construction cost on the 1st floor, and the construction cost on the 1st and 2nd floor is the cost Total as Subsequently, a subtotal sum of yj is generated for all combinations of xi and wk. If the work classification is composed of n hierarchies as in the above space classification, subtotal information for each hierarchical layer and sub-total hierarchies are generated. If there is only one layer, subtotal information can be generated for the entire work type. Subsequently, a partial sum of wk is generated for all combinations of xi and yj. The generation of subtotals may be generated for any one dimension selected from (xi, yj, zl, wk) or a combination of any two or more dimensions. Of course, it may not be generated for a particular combination. For example, for a particular zl, it may not be necessary to create subtotals for every combination of (xi, yj, wk). (Indirect labor costs do not need to be created for specific spaces, specific sectors, or specific sites. Typically, indirect labor costs are appropriate to appear alongside the overall overhead costs, so unless this is the case, It may be unnecessary.)

FIG. 19 illustrates an exemplary set of data fields for cost detail based data generated by the cost detail based data generation engine 1200 of the present invention. Data fields can be grouped, such as retrieval division field group, detailed spatial location information field group (facility-space-site, etc., to record information on the spatial classification hierarchy of the building object), and public information field group (large-large-small) Often-records information about the work classification hierarchy, such as item (item name)), unit cost information field group by direct cost configuration item, overhead configuration item field group, additional expense and actual cost expense field group, client direct purchase materials, waste There may be a separate amount field group such as processing cost, other field group such as governmental material cost, and total cost field group.

A type of cost detail basic data generated by the cost detail basic data generation engine 1200 is illustrated in FIG. 20. Since three-dimensional information cannot be visually shown on the two-dimensional plane, for convenience of visualization, in FIG. 20, the parts such as the ceiling, the wall, the floor, and the frame are shown as being displayed on one screen. If the parts are to be independent dimensions, the cost breakdown basic data information for each construction type-cost item for one specific site should be presented. That is, if a specific part is a ceiling, in Fig. 20, 1) there should be no word “ceiling” in the code display (since it is natural that the ceiling is not displayed in the cost detail basic data because it is the cost detail basic data for the ceiling). , 2) walls, floors, frames and items below each other shall also be removed. However, in FIG. 20, since the data of four dimensions are shown in one drawing, there is no method of displaying the area dimension as an independent axis, and the items are displayed in the ceiling, wall, floor, and frame. Therefore, the structure of the cost detail basic data may be more appropriately displayed in the form of f (x1, y, z, w1) (x1 is the library reading room for children on the first floor of the library and w1 is the ceiling), which is different from that shown in FIG. will be. Of course, the cost detail basic data may be arranged in the form as shown in FIG. 20.

Meanwhile, if the cube data as shown in FIG. 20 is generated, the various outputs of the present invention may be generated by slice or dice. Meanwhile, a roll up operation may be included in generation of the aggregate information. Roll-up operation means that when the first floor (upper component) is composed of a children's reading room and reading room 1 (direct sub-components), the values constituting the first floor sum up the values of the children's reading room and reading room 1 (direct sub-composition) It is an operation that adds the values of the elements to make the value (the value of the parent component) for the first floor. The subtotal / intermediate aggregate information is preferably generated by the cost detail basic data generation engine 1200 of the present invention.

In this case, it is natural that a plurality of null data exist among various cells constituting f (x, y, z, w). (Because there may not be a specific work in a specific detail space.) The order and method of calculating the f may be extremely diverse, and those skilled in the art can select the optimal method among these various methods (a small amount of calculation or a fast calculation speed). Method, etc.), and the method may be within the scope of the present invention.

On the other hand, in order to avoid a large number of null data, assuming that the output of the present invention shown in Figure 21 to 28 by way of example, there is a method for calculating only the data required for each output form in a batch (batch) method. This is performed by the structured aggregate data generation unit 1220 of the present invention. The formal aggregate data generation unit 1220 generates only formal aggregate data necessary for output. The structured aggregate data generation unit 1220 does not generate f (xi, yj, zl, wk) for all combinations of xi, yj, zl, and wk, but any 2 required from xi, yj, zl, and wk. Aggregate data can be created for the above. For example, since the construction cost construction item is actually essential, the construction cost construction item zl is fixedly included in the horizontal axis, and the vertical axis shows the construction work for each work type or part in each detail space, the detailed construction cost detail for each higher space of the detail space, or A brief cost breakdown may be generated.

Next, the construction cost information generation engine 1300 of the present invention will be described in detail. The construction construction cost information generation engine 1300 of the present invention may include a function of generating a result including the detail information of each unit when the site information corresponds to the construction quantity information for each type-detail space.

21 to 28 illustrate various examples of outputs generated by the cost detail based data generation engine 1200. FIG. 21 shows an example of aggregate data of each type of aggregates for all spaces and aggregate data of the present invention including subtotals according to the type classification system. 22 shows an example of aggregate data for each type of frame for a detailed space. FIG. 23 shows an example of aggregated data for each detailed space called a children's reading room on the 1st floor and aggregated data including subtotal information for each higher grade according to the type of classification system. 24 shows an example of a construction cost statement in which indirect construction cost information is calculated correctly. FIG. 25 shows construction cost information for each construction cost item in which indirect construction cost information for each indirect construction cost configuration item for each part (frame, wall, floor, and ceiling) is accurately calculated. The result as shown in FIG. 25 can be generated as aggregate information for each construction cost constituent item (the aggregated axis becomes a space and a work type) for each site using the site as an axis. The aggregate information may be generated by the aggregate data generation unit 1220, but when the aggregate data generation unit 1220 does not generate aggregate data for all axes, the construction cost information generation engine 1300. With reference to this rule (command or rule to aggregate space and type by construction cost item for each part), it can be generated in real time. Figure 26 is a sub-total information is generated for each part of the entire library, the indirect construction cost total information is accurately generated for each type of construction, the construction cost information processing system that can grasp the total construction cost for each category corresponding to each part and each part at a glance An example of this output is shown. FIG. 27 is a detailed space frame, and FIG. 28 is a sub-space information for each part of each sub-space for the first-floor children's reading room, which is a detailed space, and indirect construction cost total information is correctly generated for each work type. An example of the output generated by the construction cost information processing system that can grasp the overall construction cost at a glance by the type of the corresponding part by space, the corresponding part and the type of the corresponding part by site.

Of course, the information shown in Figures 17 to 28 is intended to visually show the idea of the present invention, the data stored in the actual construction cost information processing system is a different format (this is a problem of data storage method, The data in FIG. 17 to FIG. 28 may be configured as data, of course.).

The construction cost information generation engine 1300 generates details and generates output through the interface module 1100 about the kind of result which is the user's selection information and information to be included in the result. For example, through the interface module 1100, the construction cost information for each construction cost item for each construction item is selected for each part for each part that constitutes the children's reading room from the user or the user computer 2000 on the first floor child reading room. In this case, the construction cost information generation engine 1300 may generate the information as shown in FIG. 28 and provide it to the user or the user computer 2000. The interface module 1100 requests the user or the user computer 2000 to select a detailed space, selects a children's reading room from the first floor, and selects construction cost information for each part and the corresponding work category as contents information of the output. In the scope of the contents to be output, it may be selected to output the construction cost information by the direct cost configuration items for direct costs and the total sum of overhead costs for the overhead costs. In this case, the construction cost information generation engine 1300 of the f (x, y, z, w), the ceiling 1, the children's reading room on the first floor of the library, and the ceiling, the wall which is part information included in the quantity calculation information as w The f (children's reading room, yj, zl, wk) corresponding to them is extracted only on the floor, the frame, and the corresponding work information for each part (refer to the corresponding information of "part: work: detail space"). wk is the ceiling, wall, and floor, and yj is only extracted for wk. Reflect the extracted f (children's reading room, yj, zl, wk) information according to the format of the output selected by the user (for example, the direct cost information includes construction cost information for each direct cost configuration item and the overhead cost total information. Processing the zl, and generating subtotal information for each model corresponding to each ceiling, wall, and floor portion) to generate the historical information output as shown in FIG.

Next, the method for processing the ready-made information by the construction cost information processing system 1000 of the present invention will be described in detail. There are two main types of ready-made information generated by the construction cost information processing system 1000 of the present invention. One is the ready-to-use application information generated by the contractor for the request of construction cost, and the other is the ready-to-eat situation information generated for the payment of the construction cost by the client. It is common for the application and the ejaculation to be made at least once, and each application needs to be made of the application and the ejaculation information. On the basis of a specific number of times, the transfer of the specific number of times is called a previous time, and the specific number of times is called a time.

30 is an exemplary flowchart of a construction fee application and assessment process using the construction construction cost information processing system 1000 of the present invention. As can be seen in FIG. 30, the contractor checks the completion of the process status by referring to the contract statement data, makes an off-the-shelf request for the completed process, and the client performs the off-the-shelf inspection and assessment. Billing and payment or contract changes may occur depending on existing claims and circumstances.

FIG. 31 is a flowchart illustrating a process of calculating and managing an established construction cost by each contractor / order, the builder side and the client side using the construction construction cost information processing system 1000 according to the present invention. When the contract for the construction work is established, information about the contract amount and the contents of the contract construction (construction quantity, construction unit price, space) will be confirmed. When the construction is started, the ready-made application for the ready-made construction and the ready-made situation will occur at least one or more times, and the cumulative ready-made and the minor details / amount can be managed for each round. If there is a change in the contents of the construction, the minor details / amount may change. Meanwhile, overhead costs may change due to additional expenses due to air extension, unit prices may change due to adjustment of the ESC index or price inflation, and quantity may change through design changes or input material settlement. When a change occurs, the changed overhead cost, unit price, construction quantity, and the like may be reflected in the information processing of the construction cost information processing system 1000.

A method of generating ready-made application information this time by using the construction cost information processing system 1000 of the present invention will be described in more detail with reference to FIG. 32. The construction construction cost information processing system 1000 obtains at least one detailed space-by-model current ready construction application quantity information (S51), and calculates unit price information and cost rates for each type of work included in the current ready construction application quantity information. Obtains, preferentially generates indirect construction cost information for each sector by referring to unit price information and cost rate information for each sector, and constructs extended unit price information for each sector using the generated indirect construction cost information and direct construction cost information (S52) Generate the pre-set cost details basic data using the information (S53), and generate the ready-to-use application cost information including current ready-to-install cost information for at least one detailed space by reference to the set-up cost-based basic data (S54). ).

Next, a method of generating ready-made application information this time using the construction cost information processing system 1000 of the present invention will be described in more detail with reference to FIGS. 33 to 36. In order to generate the ready-made application information for the current time, the construction cost information processing system 1000 includes: 1) a step of determining the construction quantity for each construction type-detail space that is the object of the ready-made application for the current application; It is necessary to perform the step of generating the cost history basic data for, and 3) generating the ready application cost history information for the current ready application through the cost history basic data.

The method of confirming the construction quantity by construction type-detail space for the current application may include whether the contractor is performing specific construction work by construction type-detail space (construction, partial construction, unconstruction, etc.) and And / or the amount of performance (which may be an integer as the quantity of construction, but may be less than 100% or more than 100%). The information may be transferred to the construction cost information processing system through the ready-made data input terminal 2100. This may be achieved through a transmission method.

On the other hand, when determining the construction quantity in order to generate the ready-to-use application information including the site information, it is also possible to determine the construction quantity information for each site-specific sector-detail space by using the site information that is the lowest unit of the space classification.

A method illustrated by way of example in FIG. 33 is described. The construction cost information processing system may be connected from the constructor side terminal (S110), and perform authentication. The construction cost information processing system receives the selection information on the detailed space from the builder side terminal (S111). The person in charge of the contractor using the ready-to-install data input terminal 2100 may check the progress of the construction for each detailed space, and the construction cost information processing system may provide specific details from the constructor-side terminal for convenience of such inspection. Upon receiving the selection information about the space, the DB unit 1400 of the construction cost information processing system is searched, and the type information about the selected detailed space is transmitted to the builder-side ready-made data input terminal 2100. The type information on the detailed space may be included in the data processed by the space-specific construction detail information for each space. Preferably, the transmitted work information is undecided work information. Undetermined work type information refers to a work that has not been claimed at the time of the last assessment, and includes a work performed at this time or at least not being reflected at the previous assessment. When the construction cost information processing system transmits the unspecified work type related to the detailed space to the contractor side terminal (S113), it receives the ready-made application confirmation information including the quantity information about the unspecified work type from the contractor side terminal (S114). ). Of course, the user of the builder-side ready-made data input terminal 2100 transmits pictures, videos, and the like, to the construction cost information processing system through the builder-side ready-to-install data input terminal 2100 for the work related to the detailed space. The construction cost information processing system may store the photos, videos, etc. by the detailed space-type, and the stored photos, videos, etc. may be transmitted to a computer (terminal) of a person who needs such information. The picture or the video may also serve as evidence, fact check or evidence for the current application. Such photographs and videos can be used as data for checking the progress of construction by specific sub-space and construction (completion rate, progress rate / progress rate / completion rate, construction quantity, etc.). In the case of utilizing a photograph or a video, the client who performs the ready-made assessment does not have to visit the construction site directly, or the number of visits is significantly reduced. If the detailed space-specific photograph information is accumulated in a predetermined time unit such as a number of ready-made applications or a month / quarter, there is an additional advantage of checking the progress of the construction by the detailed space-type by sector as a panorama.

The user of the ready-to-install data entry terminal 2100, whether or not to include at least one or more undetermined work in the object of the ready-made application for this time, by inputting a fair rate (corresponding to the amount of construction) this time ready-to-use application confirmation information Create The construction cost information processing system 1000 stores the current ready-to-use application quantity information confirmed by the current ready-to-use application for each work type-detail space (S115), and uses at least one preset ready-to-use amount of ready-made application quantity information for each work-specific space. The application cost history information is generated (S116). A detailed method of generating the ready-made application cost history information will be described later. The method of FIG. 33 is characterized by receiving the ready-made application confirmation information for the unsettled work from the builder's terminal and generating the ready-to-use cost details information based on this.

34 is another exemplary method for generating ready-made application cost history information of the present invention, receiving ready-made confirmation information for a work type from a contractor's terminal, extracting ready-made application information this time, and based on the ready-application cost history information It is characterized by generating. The construction cost information processing system 1000 is connected from the terminal of the builder side (S121), receives the selection information for the detailed space from the terminal of the builder (S122), and transmits the type related to the detailed space to the terminal of the builder ( S123), receiving the ready-made confirmation information including the quantity information about the work from the contractor side terminal (S124), extract the current ready application information (S125), and stores the current ready-to-use application quantity information for each model-detail space (S126) ), And generates ready-made application cost history information using the current ready-to-use application quantity information for each industry-specific space (S127).

While the method of FIG. 33 differs from the method of FIG. 34, FIG. 33 shows that ready-made application information is actually determined by the builder-side ready-made data input terminal 2100, while in FIG. 33, ready-made application is performed by the construction cost information processing system 1000 in FIG. 33. Information is determined. Of course, in the implementation of the actual system, it is possible to double check for reasons of error of the user of the builder-side data input terminal 2100 and integrity / checking on data processing, and the method of FIG. Will be able to combine in parallel. That is, in principle, the uncommitted work corresponding to the detailed space is transmitted to the always-installed builder's ready-made data input terminal 2100. The construction cost information processing system 1000 may check whether the inputted information is valid as ready-made application information for the information inputted by the user of the builder-side ready-made data input terminal 2100. have.

The method disclosed in FIGS. 35 to 36 relates to a method of implementing the present invention including site information. 35 relates to an exemplary method for generating ready application cost history information of the present invention including site information, and receives current ready application confirmation information for an undetermined type of work from a contractor's terminal, based on the ready application cost details. Information is generated, which corresponds to FIG. The construction cost information processing system 1000 is connected from the terminal of the builder (S131), and receives the selection information for the detailed space from the terminal of the builder (S132), the parts related to the detailed space to the terminal of the contractor and the US Send the assessment work (S133), and obtain the current ready-made application confirmation information including the quantity information about the undetermined work for each part from the constructor side terminal (S134), the current ready-made application quantity information confirmed by the site-specific work And store corresponding to the detailed space (S135), and generates ready-made application cost history information using the current ready-to-use application quantity information for each part-workpiece-detail space (S136).

The construction cost information processing system is connected from the terminal of the builder, receiving the selection information on the detailed space from the terminal of the builder, and transmits the unrelated work for each part and parts related to the detailed space to the terminal of the builder.

The user of the contractor-side ready-to-use data input terminal 2100 inputs whether construction is performed or quantity or completion rate for a construction corresponding to each site at a construction site for unspecified construction work for each site, and inputs the inputted information into the construction cost information. Transfer to the processing system 1000. The construction cost information processing system 1000 receives information such as construction performance, quantity, completion rate, etc. for the undecided work for each part from the terminal of the builder side as current ready application confirmation information. The construction cost information processing system 1000 stores the current ready-to-use application quantity information confirmed by the current-specific application for each site-specific type corresponding to the detailed space, and the ready-made using the current ready-to-use application quantity information for each of the stored site-specific item-specific type-specific space. Generate application cost history information.

36 is related to another exemplary method for generating ready-made cost details information of the present invention including site information, and receives ready-made application information about an undetermined type of work from a contractor's terminal, and extracts ready-to-do application information. Based on this, ready-made application cost history information is generated and corresponds to the method of FIG. The construction cost information processing system 1000 is connected from the terminal of the builder (S141), and receives the selection information for the detailed space from the terminal of the builder (S142), the site related to the detailed space to the construction terminal by the construction site-specific type Transmit (S143), receive ready-made confirmation information including quantity information for each part-work type from the constructor side terminal (S144), extract the ready-made application information for each part-work type-specific-detail space (S145), The current application quantity information for each part-workpiece-detail space is stored (S146), and the current application cost detail information using the current application quantity information for each part-workpiece-detail space (S147) is generated.

When the construction cost information processing system 1000 is connected from the builder side terminal and receives the selection information on the detailed space from the builder side terminal, the construction unit search for the DB unit 1400, and the portion corresponding to the detailed space and It extracts the work for each site, and transmits the information about the site and the work for each site extracted in relation to the sub-space to the builder side terminal. The user of the builder-side ready-to-use data input terminal 2100 inputs the construction performance, the quantity or the completion rate for the construction corresponding to the construction site at the construction site for the construction by site, and inputs the inputted information into the construction construction cost information processing system. Transmit to 1000. The construction cost information processing system 1000 receives information such as whether construction is performed for each part-specific type, completion rate, and the like as ready confirmation information from the constructor side terminal. The construction cost information processing system 1000 generates the ready-made application information for each part-workpiece-detail space by using the obtained ready-made confirmation information and the previous ready-made assessment information, and makes a ready-made work for each part-workpiece-detail space Save the application quantity information. Subsequently, at least one preset ready application cost detail information is generated using the stored ready application quantity information by the stored part-specific work-specific space.

FIG. 37 is a diagram for one embodiment of a screen using the constructor-side ready-made data input terminal 2100 of the present invention. The builder-side ready-to-use data input terminal 2100 is a PDA, a smartphone, or any portable and communication-enabled terminal, and selects a model to be included in the builder's current ready-to-use application for a work (by part) for a specific detailed space. Done. As can be seen from the two circled portions (in orange) of FIG. 37, the user using the builder-side ready-made data input terminal 2100 is completed for the 1.0B racking of the wall portion of the reading room 2 on the second floor. In this case, the 1.0B racking work of the subspace-area will be included in the ready-made application as the construction quantity 100. As can be seen in Figure 37, the screen of the builder-side ready-to-use data input terminal 2100, space, site, inspection content, turn (once, this time, etc.) is transmitted from the construction cost information processing system 1000, the contractor When the user's side data input terminal 2100 marks the inspection contents, and takes a picture or the like with the related information (a smartphone with a camera is an example of the contractor's side data input terminal 2100), The builder-side ready-made data input terminal 2100 may be transmitted to the construction cost information processing system 1000 together with the inspection contents.

Application for payment for construction work on the contractor's side shall be based on the circumstances of the client's work. The client may pay the construction price as requested, but can confirm whether the application for the construction price is correctly and correctly. The confirmation is performed by checking whether the client performs the construction, the quantity, the completion rate, or the like corresponding to the type of work applied for by the detailed space at the construction site. The construction cost information processing system delivers the ready-made application information generated by the contractor for each detailed space to the client-side terminal, and whether the construction corresponding to the applied work for each detailed space included in the ready-made application information is performed or not. Check the completion rate and the like, and transmit the confirmed information to the ready-made construction cost information processing system 1000 as ready-made assessment information. The ready-made application information generated by the contractor may include information such as whether the construction corresponding to the requested application for each detailed space is performed, the quantity, the completion rate, and the like.

More detailed description will be given with reference to FIG. The construction cost information processing system 1000 receives the selection information on the detailed space from the client's terminal (S211), and transmits the ready-to-use application information for the builder's side for each detailed model to the client's terminal (S212). Receive the current ready-made assessment information for the current ready-to-use application information by the sector-detail space by sector (S213), generate (configure) the current ready-made assessment quantity information by the sector-detail space (S214), and by the sector-detailed space The ready-made application cost history information using the ready-made ejaculation quantity information this time is generated (S215).

Unlike FIG. 38, FIG. 39 discloses an example of the inventive concept of processing information including site information.

The construction cost information processing system 1000 receives the selection information on the detailed space from the client side terminal (S221), and transmits the ready-to-use application information of the contractor side for each part-work type for the detailed space to the client side terminal (S222). ), Receiving current ready-made ejaculation information on the current application information for each site-work type from the client's terminal (S223), generating (composing) the current ready-made ejaculation quantity information for each site-work type-specific space (S224), The ready-made application cost history information using the ready-made ejaculation quantity information for each site-specific work-detail space is generated (S225).

38 and 39 include a method of utilizing current ready-made application information generated by the contractor when performing ready-made assessment. This method is convenient because the contractor can carry out the assessment only within the scope of the application, even if the contractor makes an under-regulated application. Of course, the user of the client-side ready-to-use data input terminal 2200 may generate ready-made assessment information for the excess portion when the actual construction performance exceeds the previously requested construction information at the actual construction site. The current off-the-shelf assessment information of the excess part may be judged whether or not to perform excess work for each detailed space, determination of exceeded quantity, determination of excess completion rate. There may be a judgment of quantity, a judgment of excess completion rate. The excess current ready-made assessment information may be transmitted from the orderer side ready-made data input terminal 2200 to the construction cost information processing system as current ready-made assessment information. The operator of the construction cost information processing system 1000 determines whether to generate the final ready-made ejaculation information using the exceeded ready-made ejaculation information or generate the final ready-made ejaculation information within the scope of the ready-made application information. Or may be optional in accordance with the current off-the-shelf policy of the client.

The method disclosed in FIGS. 38 and 39 may be more effective when one construction cost information processing system 1000 is jointly used by a contractor and a client. Of course, as shown in FIGS. 10 to 11, even if the contractor side and the client side use different construction cost information processing system 1000, the client side is not included in the construction cost information processing system 1000 used by the contractor side. If the current construction application information is transmitted to the construction cost information processing system 1000 to be used, of course, the method disclosed in FIGS. 38 and 39 may be used. Of course, when the builder side and the client side use different construction cost information processing system 1000, the compatibility of the data should be ensured, in order to ensure this, the space classification system (including parts), by sector-by-space Various data structures or systems, such as a quantity information storage system, must conform to pre-established promises or standards, or be consistent or compatible.

The amount of differential construction work will usually be less than the current construction work quantity, but in special cases, the construction work quantity may be higher than the applied construction quantity depending on the type of work. In the latter special case, the contractor applied conservatively and applied for the completed quantity, but according to the client's subjective judgment, it was judged that the construction was performed more than the requested quantity. (A number of such cases can occur. In the representative case, when the post-assessment is later than the pre-application, the construction may be more advanced at the time of the pre-assessment.) When the construction cost information processing system 1000 is connected to the construction cost information processing system 1000 through the ready-made data input terminal 2200, and the specific detailed space is selected, the construction cost information processing system 1000 is the current time for the client-side ready data input terminal 2200. We can provide information on the quantity of the existing application for construction of the current application or the type of information on the detailed space. At this time, the orderer side using the orderer side ready data input terminal 2200 transmits the ready-made assessment work quantity information to the construction cost information processing system 1000 through the orderer side ready data input terminal 2200. Could be.

On the other hand, when the current ready-made construction work quantity as shown in FIG. 82 is different from the current ready-made application construction quantity, the current ready-made construction work quantity is set from the orderer side system 4000 or the client-side ready-made data input terminal 2200. Will need to be delivered to 3000. 40 and 41 disclose the information processing method of the present invention. When the current construction work quantity information is configured as shown in FIG. 82, when the construction party makes the ready-made application three times, the ready-made application can be made by reflecting the results of the above-mentioned ready-made assessment twice. In other words, it may be advantageous for the contractor to include in the quantity of construction that he / she wants to be recognized for when constructing the 3rd project out of the quantity of construction that was not recognized in the 2nd ready-made situation. Since there is a need for a more accurate off-the-shelf application from the contractor, it would be desirable for the client to provide the contractor with information on the quantity of the ready-made assessment work this time. FIG. 40 illustrates a case in which there is no site information in the current ready-made assessment information, and FIG. 41 illustrates a case in which site information is included.

As illustrated in FIG. 40, the construction cost information processing system 1000 receives current ready-made assessment information for each specific space from a client-side system 4000 or a client-side terminal (S231), and receives ready-made assessment information. In consideration of the construction of the next-order application quantity information for each industry-specific space by detail (S232), and the ready-to-use application cost details information using the next-generation application quantity information for each industry-specific space (S233).

Meanwhile, as illustrated in FIG. 41, the construction cost information processing system 1000 receives the ready-made current situation information for each part-type-specific-detail space from the client-side system 4000 or the client-side terminal (S241). In consideration of the current ready-made information, the next-order application quantity information for each part-type-specific-detail space is configured (S242), and the ready-to-use cost history information using the next-generation application quantity information for each part-type-specific-detail space is generated. (S243).

Hereinafter, an information processing method including cost detail basic data generation of the construction cost information processing system 1000 will be described in more detail with reference to the drawings. FIG. 42 is a diagram for one embodiment of construction details for each detailed space included in a ready-made request. FIG. In FIG. 42, three types of constructions, such as conc manpower bibimbulation work, plywood formwork, reinforcing steel field processing and assembly work, are related to the first ready-made request for a frame (common), which is a kind of detailed space, and the quantity is 100 each. It can be seen that. The first cost (unit price information) and rate information for the conc manpower bibimbushing work, plywood formwork work, reinforcing bar processing and assembling work are as shown in FIGS. 15 and 16. The construction cost information processing system 1000 receives a connection from the builder-side ready-to-use data input terminal 2100, and then, in the builder-side ready-to-use data input terminal 2100, a detailed space for the library (frame (common), 1). Floor children's reading room, etc.), and when receiving the selection information on the skeleton (common) from the builder's ready-made data input terminal (2100), the contractor is processed to facilitate checking the type of work for the skeleton (common). It may be provided to the side data input terminal 2100. The processing method is a method for providing a related work together with the site information as shown in Figure 42 (conc human bibimbulation work, plywood formwork, reinforcing steel field processing and assembly work through the site information "frame" as shown in Figure 42) It can be seen that it is related to the frame (common).) As shown in FIG. 43, there may be a method of providing only a model related to the detailed space. In FIG. 43, only a model related to a frame (common), which is a selected detail space, is extracted and provided, and the builder-side ready-made data input terminal 2100 may input construction quantity information for the extracted related model as shown in FIG. 43. do. In FIG. 43, unlike in FIG. 42, there is no part information, but part information may be further included as in FIG. 42. (If the part information is included and processed, the latter may be more preferable.) The builder-side ready-to-use data input terminal 2100 may transmit the construction quantity information per detailed space-type as shown in FIG. 42 or 43 to the construction cost information processing system 1000 or the third system 5000 (not shown). have. The third system 5000 (not shown) may transmit the construction quantity information for each sub-space to the construction cost information processing system 1000 obtained from the contractor side ready data input terminal 2100. Since the third system 5000 provides construction quantity information to itself from the standpoint of the construction construction cost information processing system 1000 which receives construction quantity information for each detailed space-specific type, the construction party side inputs the data extensively. It may be an example of the terminal 2100.

The construction cost information processing system 1000 obtains the construction quantity information per detailed space-type by sector as shown in FIG. 42 or 43, and generates indirect construction cost information for each indirect construction cost configuration item by reference to the unit price information and the cost rate information. By using the generated indirect construction cost information and direct construction cost information for each type of construction by unit of the extended unit price information (S23), and using the expanded unit price information and the quantity calculation information by the type of the construction of the preset cost history basic data. FIG. 44 shows expanded unit cost information by subspace-type by model for a model called CONC manpower bibimbulation for subframe space (common). The extended unit price information is extended unit price information considering a construction quantity (here 100). The extended unit price information may be processed by unit quantity 1 for each type of construction, as shown in FIG. 45, to construct extended unit price information based on the unit quantity first, and then multiply the extended unit price information by quantity information. Multiplying the numerical value shown in FIG. 45 by 100, the construction quantity, is equivalent to the result shown in FIG. (Of course, the last numerical value may appear different on the display, which is only a phenomenon caused by rounding on the display, etc.) The construction cost information processing system 1000 uses the information of FIGS. 44 to 45 as shown in FIG. Create the same cost breakdown basic data. The cost detail basic data illustrated in FIG. 46 is divided into three types of constructions, such as the conc manpower bibimbulation work, the plywood formwork, the reinforcing steel field processing and the assembly work, for the frame (common) that is the detailed space. An example of a cost breakdown basic data is shown. It can be seen that the intermediate cost data such as direct subtotal, subdirective subtotal and total cost are also generated in the cost detail basic data.

The generation of the cost detail basic data of the present invention can be made at the time of applying for this time for each case of including or not including the site information.

FIG. 47 is a diagram for one example of a method for generating cost breakdown basic data at the time of applying for an existing application that does not include site information. The cost history basic data generation engine 1200 first generates indirect construction cost information for each ready-made application by referring to the unit price information and cost rate information for each type of work (S411), and then applies the ready-made application for the current indirect construction cost information and direct construction cost information for each generated model. Construct the extended unit price information for each type of work (S412), using the extended unit price information, the current number of ready-to-use application quantity information for each type-detail space, and generates the current ready-to-use application cost history basic data related to the current ready-to-use application (S413).

FIG. 48 is a diagram for one example of a method for generating cost detail basic data at the time of applying for a ready-made application including site information.

The cost breakdown basic data generation engine 1200 first generates indirect construction cost information for each ready-made application by referring to the unit price information and cost rate information for each type of work (S421), and applies the off-the-shelf application with the generated indirect construction cost information and direct construction cost information for each construction model. Construction of extended unit price information for each type of construction (S422), using the extended unit price information, part-model-specific-detail space current application quantity information for the current application for the current existing application cost history related to the current application is generated (S423).

Next, the method of generating the ready-made application information of this invention is demonstrated. The current application information may include a method including part information and a method not including part information.

49 is a diagram for one example of a method of generating ready-made cost details information of the ready-made information generating engine 1300a of the construction cost information processing system 1000 of the present invention, which does not include the site information. The ready-made information generating engine 1300a obtains ready-made cost details output selection information for generation of ready-made application cost details information (S511), and utilizes acquired or set spatial information corresponding to the output selection information, and expands unit price information. By using the current ready-to-use application quantity information by industry-detail space, the current ready-to-use application cost history basic data generated in connection with the current ready-to-use application is inquired (S512), and the output selection information is displayed on the output selection information in the current ready-to-use application cost history basic data. Output generation required information for generating corresponding output is extracted or extracted and processed (S513), and output is generated or selected form is selected or set as the extracted or extracted output processed required information (S514).

50 is a diagram for one embodiment of a method of generating ready-made cost details information of the ready-made information generating engine 1300a of the construction cost information processing system 1000 of the present invention including the site information. The ready-made information generating engine 1300a obtains ready-made cost detail output selection information including at least one or more site selection information for generation of ready-made application cost history information (S521), and utilizes the site selection information and output selection information. By using the expanded unit price information and the number of the existing ready-to-use application quantity information by sector-detail space, the current ready-to-use application cost history basic data generated in connection with the current ready-to-use application is inquired (S522), and the portion of the inquired current application cost history basic data is displayed. Output generation necessary information for generating output corresponding to the selection information and output selection information Extraction or extraction and processing (S523), the output of the selected or set form including the site information as the extraction or extraction and processing output generation necessary information It generates (S524).

Selection of the site can be made easily in the BIM, etc., the information processing method of the construction cost information processing system 1000 when there is information on the selected site is illustrated in FIG. It is illustrated in FIG. 112 and described later.

Using the cost detail basic data, the construction cost information processing system may generate ready-made application information as shown in FIGS. 51 to 52. As shown in FIG. 51, it is preferable that the ready-made application information of this time also contains information, such as a specification, a unit, and a quantity, and it is more preferable that all total information is also included. On the other hand, as shown in Figure 52 can be generated this time ready application information in a simplified form.

In the above, the case where the first current request has occurred is described. If there is a first ready-made request for the first time, the first ready-made situation occurs for the request. With reference to FIG. 53, the information processing method related to the ready-made situation of this construction cost information processing system 1000 is demonstrated. The construction cost information processing system 1000 obtains at least one detailed space-by-work current ready-made construction quantity information (S61), and calculates unit price information and cost rates for each type of work included in the current ready-made construction work quantity information. Obtain, indirectly generate indirect construction cost information for each industry by referring to unit price information and cost rate information for each type of work, and construct extended unit price information for each type of work using the generated indirect construction cost information and direct construction cost information for each work type (S62). Generate the set cost history basic data using the information (S63);

With reference to the cost breakdown basic data, the current ready-made application cost information including the current ready-to-install cost information for each of at least one detailed space is generated (S64).

Next, with reference to FIGS. 54-57 and FIG. 11, the method of the client's side performing stand-alone ejaculation independently, and generating this time ready-status breakdown information is explained in full detail.

Subsequently, a method of generating ready-made situation information using the construction cost information processing system 1000 of the present invention will be described in more detail with reference to FIGS. 54 to 57. In order to generate the ready-made assessment information, the construction cost information processing system 1000 may include 1) a step of determining the construction quantity for each construction type-detail space, which is the object of the ready-made assessment for the current establishment, and 2) the construction quantity for each determined construction-specific-detail space. It is necessary to perform the step of generating the cost details basic data for, and 3) generating the ready assessment cost details information for the current ready assessment through the cost history basic data.

The method of determining the number of construction works per work type-detail space that is the subject of the current established situation may include whether the owner of the contractor is performing a specific work type by work type-detail space (construction, partial construction, not construction, etc.) and / Or the amount of performance (may be an integer number of construction, but may be less than 100% or 100% or more.) Information is sent to the construction cost information processing system through the orderer side data input terminal 2200 This may be achieved through a transmission method.

On the other hand, when determining the construction quantity in order to generate the ready-made assessment information including the site information, the construction quantity information for each part-workpiece-detail space may be determined by using the part information which is the lowest unit of the space classification.

A method illustrated by way of example in FIG. 54 will now be described. The construction cost information processing system 1000 is connected from the client's terminal (S311), receives the selection information on the detailed space from the client's terminal (S312), and transmits the unspecified work related to the detailed space to the client's terminal. (S313), and obtain the ready-made ejaculation information including the quantity information about the undecided work from the client side terminal (S314), and store the ready-made ejaculation quantity information for each of the stock-detailed space for the current ready ejaculation (S315), The ready-made assessment cost history information using the ready-made assessment quantity information for each model-specific space is generated (S316).

The construction cost information processing system may be connected to the client's terminal and perform authentication. The construction cost information processing system receives the selection information on the detailed space from the client side terminal. The person in charge of the orderer side using the orderer-side ready-to-use data input terminal 2200 may check the progress of the construction for each detailed space, and the construction cost information processing system may provide specific details from the client-side terminal for convenience of such inspection. Upon receiving the selection information on the space, the DB unit 1400 of the construction cost information processing system is searched, and the type information on the selected detailed space is transmitted to the orderer side ready data input terminal 2200. The type information on the detailed space may be included in the data processed by the space-specific construction detail information for each space. Preferably, the transmitted work information is undecided work information. Undetermined work type information refers to a work that has not been processed at the time of the last assessment, and includes a work performed at this time or at least a work that was not reflected at the time of the previous assessment. When the construction cost information processing system transmits the undecided work type related to the detailed space to the client side terminal, the current construction assessment information including the quantity information of the undecided work type is obtained from the client side terminal. The user of the client-side ready-to-use data input terminal 2200 includes information on whether or not to include at least one undecided work in the object of the current ready-made matter and a fair rate (corresponding to the amount of construction). Create Of course, whether or not to be included in the current situation, fair rate, quantity, etc. may be judged differently by the contractor and the client. Since it is the client side, the judgment of the client side may be prioritized. The construction cost information processing system 1000 stores at least one ready-made ejaculation quantity information of the current ready-made ejaculation confirmed by current type-specific space-specific information, and using at least one ready-made ejaculation cost details using the current ready-made ejaculation quantity information of each work-specific detail-space. Generate information. The detailed method of generating the ready-made assessment cost history information is mentioned later. The method of FIG. 54 is characterized by receiving ready-made ejaculation confirmation information for the undecided work type from the client's terminal and generating ready-made ejaculation cost details information based on this.

55 is another exemplary method for generating ready-made assessment cost history information of the present invention. It is characterized by generating.

The construction cost information processing system 1000 is connected from the client's terminal (S321), receives the selection information on the detailed space from the client's terminal (S322), and transmits the work related to the detailed space to the client's terminal ( S323), the ready-made ejaculation information including the quantity information about the type of work is received from the client's terminal (S324), and the ready-made ejaculation information is retrieved (extracted) by inquiring the ready-made confirmation information and the previous ready-made ejaculation information (S325). In this case, the current ready-quantity quantity information by work type-detail space is stored (S326), and the ready-made assessment cost detail information using the current ready-made amount quantity information by work type-detail space (S327).

The difference between the method of FIG. 54 and the method of FIG. 55 is that in FIG. 54, the ready-made assessment information is actually determined by the client-side ready-made data input terminal 2200, while in FIG. 54, the ready-made assessment is performed by the construction cost information processing system 1000 in FIG. 54. Information is determined. Of course, in the implementation of the actual system, the user may perform a double check for the possibility of error of the user of the client-side data input terminal 2200 and the integrity / check in the data processing, and the method of FIG. Can be combined in parallel. That is, in principle, the non-temporary work corresponding to the detailed space is transmitted to the regular orderer-side ready-to-use data input terminal 2200, and the user of the orderer-side ready-to-use data input terminal 2200 is used to perform construction work on undecided work. The construction cost information processing system 1000 may check whether the inputted information is valid as ready-made ejaculation information with respect to information inputted by quantity or completion rate, and inputted by the user of the client-side ready-made data input terminal 2200. have.

56-57 relates to a method of practicing the present invention including site information. 56 relates to an exemplary method for generating ready-made assessment cost history information of the present invention including site information, and receives current ready-assessment confirmation information for the undecided work type from the client's terminal, and based on this, the established assessment cost history. Information is generated, which corresponds to FIG. 54.

The construction cost information processing system is connected from the client's terminal (S331), and receives the selection information for the detailed space from the client's terminal (S332), the site and the undetermined work for each part related to the detailed space to the client's terminal Transmit (S333), obtain current ready-made ejaculation information including quantity information on the undecided work piece by site from the client's terminal (S334), and obtain the ready-made ejaculation quantity information by part-type-specific-detail space of the ready-made ejaculation this time. Save (S335), and generates ready-made assessment cost history information using the current off-the-shelf assessment quantity information by site-work-specific-detail space (S336).

The user of the orderer-side ready-to-use data input terminal 2200 inputs the construction performance, the quantity or the completion rate for the work corresponding to each part at the construction site for the undecided work for each part, and inputs the inputted information into the construction cost information. Transfer to the processing system 1000. The construction cost information processing system 1000 receives information such as whether construction is performed, quantity, completion rate, etc. for the undecided work for each part from the ordering side terminal as current ready status confirmation information. The construction construction cost information processing system 1000 stores the current ready-made ejaculation quantity information identified for each site-specific work-by-work situation corresponding to the detailed space, and is ready-made using the stored ready-made ejaculation-quantity information for each stored site-specific work-specific space. Generate assessment cost history information.

57 relates to another exemplary method for generating ready-made assessment cost history information of the present invention including site information. And based on this, the ready-made cost history information is generated and corresponds to the method of FIG.

The construction cost information processing system 1000 is connected from the client's terminal (S341), and receives the selection information for the detailed space from the client's terminal (S342), the site related to the detailed space to the client's terminal terminal and the type-specific work Transmit (S343), and receive ready-made ejaculation information including quantity information for each part-work type from the client's terminal (S344), and generate (extract) current ready-made ejaculation information for each part-work-specific part-detail space ( S345), storing the current ready-made ejaculation quantity information for each part-workpiece-detail space (S346), and generating ready-made ejaculation cost detail information using the current ready-made ejaculation quantity information for each part-workpiece-detail space (S347).

When the construction cost information processing system 1000 is connected from the client-side terminal and receives selection information about the detailed space from the client-side terminal, the construction cost information processing system 1000 searches for the DB unit 1400, and the portion corresponding to the detailed space and A part-specific work type is extracted, and information about the part and the work type-specific work extracted in relation to the detailed space is transmitted to the client side terminal. The user of the client-side ready-to-use data input terminal 2200 inputs the construction performance, the quantity or the completion rate for the construction corresponding to the construction site at the construction site for the construction by site, and inputs the inputted information into the construction construction cost information processing system. Transmit to 1000. The construction cost information processing system 1000 receives information, such as construction performance, quantity, completion rate, etc. for each part-work type from the orderer side terminal as ready confirmation information. The construction cost information processing system 1000 generates the ready-made ejaculation information for each part-workpiece-detail space by using the obtained ready-made confirmation information and the previous ready-made ejaculation information. Store the quantity information. Subsequently, at least one set of ready-made ejaculation cost details information is generated using the ready-made ejaculation quantity information by the stored site-specific work-specific space.

58 is a diagram for one embodiment of a screen using the orderer-side data input terminal 2200 of the present invention. The client-side ready-to-use data input terminal 2200 is a PDA, a smartphone, or any portable and communication-enabled terminal, and selects a type of work to be included in the current ready-made situation of the contractor for the work (by part) for a specific detailed space. Done. As can be seen from the two circled portions (in orange) of FIG. 58, the self-completion rate using the orderer-side ready-to-use data input terminal 2200 for the light steel frame ceiling of the ceiling portion of the two-story reading room 2 that is currently assessed. If it is expressed as 50%, the lightweight steel ceiling frame work of the detailed space-area will be included in the ready-made situation with the construction quantity 50 (100 * 50%). As can be seen in FIG. 58, a space, a part, inspection contents, a turn (once, this time, etc.) are transmitted from the construction cost information processing system 1000 on a screen of the client-side ready-made data input terminal 2200. When the user's side data input terminal 2100 marks the inspection contents, and takes a picture or the like with the related information (a smartphone with a camera is an example of the contractor's side data input terminal 2100), The orderer side ready data input terminal 2200 may be transmitted to the construction cost information processing system 1000 together with the inspection contents. Of course, the photograph may be used as evidence.

The generation of the cost detail basic data of the present invention may be performed at the time of ready-made assessment for each case of including or not including the site information. The method of generating the cost breakdown basic data at the time of ready-made assessment may be the same as the method of generating the cost breakdown basic data at the time of current creation.

FIG. 59 is a diagram for one example of a method for generating cost detail basic data at the time of ready-made assessment without including site information. FIG. The cost breakdown basic data generation engine 1200 first generates indirect construction cost information for each current ready-made assessment by referring to the unit price information and cost rate information for each construction model (S431), and generates the indirect ready construction assessment information using the generated indirect construction cost information and direct construction cost information for each construction model. The extended unit price information for each type of construction is configured (S432), the extended unit price information, and the current amount of ready-made ejaculation cost details based on the current ready-made ejaculation cost information based on the present-day ejaculation cost information are generated (S433).

60 is a diagram for one example of a method for generating cost detail basic data at the time of ready-made assessment including site information. The cost breakdown basic data generation engine 1200 first generates indirect construction cost information for each ready-made assessment by referring to the unit price information and cost rate information for each construction type (S441), and generates ready-made assessments using the indirect construction cost information and direct construction cost information for each construction model. Construction of extended unit price information by type of work (S442), using the extended unit price information, part-model-specific-detail space amount of current ready-made ejaculation quantity information based on the current ready-made ejaculation cost history based on the current ready-made ejaculation (S443).

If there is information on the current application for construction by the contractor, the client may make a current application for the current application as requested and may make a current application with a change without approval as requested. For example, it is assumed that the first ready-made matter is the same as the first ready-made application. Next, to the information processing method of the construction construction cost information processing system 1000 of the present invention regarding the case where the second current ready-made request occurs on the contractor's side, and the current ready-made matter which changed the current ready-application by the client's side is made. This will be described in detail with reference to the drawings.

FIG. 61 is a construction quantity information for each type of detailed space for each part associated with the second application for the current application. As can be seen in FIG. 61, it can be seen that construction quantity information is corresponding to a plurality of types of constructions in the first floor children's reading room, the first floor reading room, and the second floor reading room. On the other hand, as shown in Figure 61, because the site information is associated with each type of construction, the construction quantity information for each construction type can also be calculated, the construction quantity information for each part-detailed space can also be calculated, by detailed space Of course, the information on the quantity of construction by sector and site can also be calculated. As can be seen in FIG. 61, it can be seen that the site related to the current application for the second time is related to three sites such as a wall, a ceiling, and a floor.

The data acquisition unit 1110 of the interface module 1100 obtains construction quantity information related to the second current ready-made application of the contractor, as shown in FIG. 61. The cost breakdown basic data generation engine 1200 uses construction quantity information and unit price information as shown in FIG. 61 (if there is no change from that of the first current ready-to-order application, and the unit cost information when the first current ready-to-use application is stored and there is no change. If so, use the unit price information that has been changed for the second current application.) And the cost rate information (for the first current application and if there is no change, use the stored cost rate information for the first application. If there is a change, use the changed cost rate information in accordance with the 2nd current application. Subsequently, the ready-made information generating engine 1300a generates at least one ready-made application cost information currently set as the generated cost detail basic data. 62 to 77 show examples of generated ready-to-use application construction cost information for each detailed space. FIG. 62 shows an example of current ready-made application cost information by detailed space-by-site-by-work for the wall part of the children's reading room on the first floor. From the point of view of the 2nd current application, 4 types of walls of the 1st floor children's reading room are related: 1.0B brickwork, wall, MDF glue, water paint, roller paint, and interior film. It can be seen. As can be seen in FIG. 62, there is subtotal information on all construction costs for the wall part, so that the second current ready-made application cost information for only the wall part of the detailed space called the children's reading room on the first floor can be known. FIG. 63 shows an example of current ready-made application cost information by detailed space-by-site-by-work for the floor of the children's reading room on the first floor. FIG. 64 shows an example of current ready-made application cost information by detailed space-by-site-by-work for the ceiling part of the children's reading room on the first floor. FIG. 65 shows all construction cost information for each type of detailed space called a children's reading room on the first floor in relation to the second current ready-to-use application. In FIG. 65, there is subtotal information. The subtotal information corresponds to the second current ready-made application cost information for the detailed space of the child reading room on the first floor. FIG. 66 shows the construction cost information for each part of each work area for the detailed space of the children's reading room on the first floor with the subtotal and the total sum information in relation to the second current ready-to-use application.

FIG. 67 shows the construction cost information for each part of the detailed space of the first floor reading room 1 together with the subtotal and the total information in relation to the second current ready-to-use application. FIG. 68 shows the construction cost information for each part of the detailed space of the second floor reading room 2 together with the subtotal and the total sum information in connection with the second current application. FIG. 69 shows the construction cost information for each part of each library with subtotal and total total information for the entire library in relation to the second current application.

70 to 73 show an example of the cost details for each type of the second current ready-made application construction cost information generated by the construction construction cost information processing system 1000 of the present invention. FIG. 70 shows construction cost information for each type of work called the first floor children's reading room in relation to the second current ready-made application construction cost information. For example, it can be seen that the construction work is related to the deluxe tile attachment work, the interior film work, and the rock wool absorption tex work as detailed work, and as shown in FIG. 70, the first floor children's reading room for the top work called storage work. It can be seen that subtotal information of construction cost for each detailed space is generated together. On the other hand, as shown in FIG. 70, the cost information for each direct construction cost item and the cost information for each indirect construction cost item may be output in detail, but as shown in FIG. 71 or FIG. You may be able to provide it. FIG. 71 shows an example in which only direct construction cost sum and indirect construction cost sum information are output for the detailed space of the reading room 1, and FIG. 72 shows an example in which only indirect construction cost sum information is output for indirect construction costs with many configuration items. . 73 shows an example of total construction cost application information for each type of work in relation to the second current ready-made application cost information. As can be seen in Figure 73, sub-total information for each of the higher types of work, such as store construction, etc. are generated together, and the construction cost application information for the lower types of work (Deluxe-style pasting, interior film, and rock-absorbing tex) An example is shown.

On the other hand, for the second current ready-to-use application, the client may make a different evaluation from the contractor for the performance of the construction which is the basis of the current ready-to-install application. As shown in FIG. 74, the orderer side has a construction quantity 100 applied by the contractor for the light steel steel ceiling frame work, deluxe tile paste work, water-based paint work, roller paint work, interior film work and rock wool absorption tex work for the second floor reading room 2. It can be seen that the ejaculation is 50. It can be seen that the five types of balls have two types of balls related to the ceiling, two types of balls related to the wall, and one type of balls related to the floor. In this way, the client can configure the ready-made assessment cost information based on the contents of the assessment. The client may assess the quantity of construction, the completion / completeness of construction, and the progress of construction by construction type for each detailed space or each part of each detailed space. The assessment may be made through the orderer side ready data input terminal 2200.

The construction construction cost information processing system 1000 is based on the current ready-made construction quantity information as shown in FIG. 74, and the construction construction cost information processing system 1000 processes the current ready-made application construction quantity information as shown in FIG. 61 to FIGS. In the same manner as in 73, the ready-made construction cost information can be generated. 75 to 78 show exemplary current ready-made construction cost information generated by the construction cost information processing system 1000. FIG. 75 shows the current ready-made construction cost information for each site-work type for the reading room 2 on the second floor. Is showing. As can be seen from the comparison with FIG. 75 and FIG. 68, it can be seen that the construction cost shown in FIG. 75 is smaller than the construction cost shown in FIG. 68. On the other hand, FIG. 76 shows the second current ready-made construction cost information corresponding to FIG. 69, which is the current ready-made application construction cost information for the entire library, for the second current ready-made application construction cost information on the builder's side. Unlike in FIG. 69, since the contractor side and the client side differ in the construction quantity information of the detailed space of the reading room 2 on the second floor of the library, the information of FIG. 69 and the information of FIG. 76 are different. FIG. 77 shows an example of the second current ready-assessment construction cost information for each reading type 2 as an example of the second current ready-assessing construction cost information for each reading type (higher and lower sub-models). Fig. 78 shows an example of the second current ready-made construction cost information by type of work (higher type-lower model by type) as an example of the second current ready-made construction cost information on the entire library. FIG. 77 corresponds to FIG. 72 for the second current ready-made application cost information on the builder's side, and FIG. 78 corresponds to FIG. 73, respectively.

79 is a diagram for one example of a method of generating ready-made cost details information of the ready-made information generating engine 1300a of the construction cost information processing system 1000 of the present invention, which does not include site information. The ready-made information generating engine 1300a obtains ready-made cost details output selection information for generating the ready-made cost history information at this time (S531), and uses the obtained or set spatial information corresponding to the output selection information, and expands the unit price information. By using the current ready-made ejaculation quantity information by work type-detail space, the current ready-made ejaculation cost history basic data generated in relation to the current ready ejaculation is inquired (S532), and the output selected information is displayed in the output selected information in the current ready-made ejaculation cost history basic data. Output generation required information for generating corresponding output is extracted or extracted and processed (S533), and output is generated or selected form is selected or set as the extracted or extracted output processing required information (S534).

80 is a diagram for one embodiment of a method of generating ready-made cost details information of the ready-made information generating engine 1300a of the construction cost information processing system 1000 of the present invention including the site information. The ready-made information generating engine 1300a obtains ready-made cost detail output selection information including at least one or more site selection information for generation of ready-made assessment cost history information (S541), and utilizes the site selection information and the output selection information. By using the expanded unit price information and the current amount of the current amount of stock-specific detail by sector, the current current amount of the existing stock cost history generated in relation to the current stock is displayed (S542), and the portion of the current amount of the current data on the estimated cost history is found. Output generation required information for generation of output corresponding to the selection information and output selection information Extraction or extraction and processing (S543), the output of the selected or set form including the site information as the output generation necessary information extracted or extracted and processed after extraction It generates (S544).

On the other hand, if there is an extension unit price information for each type related to each part or sub-space is previously generated, or if it can be shared, the step of generating (constructing) the extension unit price information is omitted, or already generated expansion unit price information It may be replaced by reading or receiving. In particular, when the contractor side and the client side use the construction cost information processing system 1000 with respect to one construction project, the other party may use the extended unit price information generated by one side. At this time, since the quantity of the ready-made application work on the contractor side and the quantity of the ready-made construction work on the client's side may be different, the expanded unit price information is generated based on the unit quantity for each type of construction, and the applied unit quantity or situation is applied to the extended unit price information. It would be desirable to multiply the construction quantity. This will be the same in the current off-the-shelf construction cost information to be described later and the current off-the-shelf difference construction cost information processing.

Next, the method of generating the subtle construction cost information will be described with reference to the drawings. Unsuccessful construction means construction that is not completed. Criteria for completion may be 1) Construction that has not been approved by the client. As can be seen from FIG. 82, the construction (the ones marked with 50 of the construction quantity) which was not approved by the client in the quantity of the ready-made application construction for the second time, and the construction (the ones indicated with 100 of the construction quantity) which did not have the ready-made application at the contractor side May be a measure of underage construction.

81 is a flowchart illustrating an exemplary method of generating current unsatisfied construction cost information including current unsatisfactory construction cost information for each detailed space of the construction construction cost information processing system 1000 according to the present invention. The construction construction cost information processing system 1000 obtains at least one substandard construction quantity information for each sub-space-specific type (S71), and calculates unit price information and cost rates for each type of construction included in the current substandard construction quantity information. Obtains, preferentially generates indirect construction cost information for each industry by referring to unit price information and cost rate information for each type of work, and constructs extended unit price information for each type of work using the generated indirect construction cost information and direct construction cost information for each work type (S72) Generate the basic cost details basic data using the information (S73), and generate the current unsatisfied application cost information including the current unsatisfactory application cost information for each of the one or more detailed spaces preset with reference to the cost detail basic data (S74). ).

When there is a substandard construction quantity as shown in FIG. 82, the construction cost information processing system 1000 may specify / receive the substandard construction quantity as shown in FIG. 82. The identification or input of the underage construction quantity is specified or entered as the construction quantity excluding the total amount of the construction quantity that has been already assessed up to this time out of the total construction quantity (differential method = total contracted construction quantity-the sum of the construction quantity which has been assessed), The manner in which the underage construction quantity is input in the same manner as in FIG. 82 may be employed.

Calculation of construction cost by sub-space-by-sector or site-by-detail-space-by-work for substandard construction can be important not only on the contractor's side but also on the client's side. The construction cost calculation for the substandard construction may be performed when the ready-made assessment is completed for each round.

The construction cost information processing system 1000 is based on the substandard construction quantity information as shown in FIG. 82, and the construction construction cost information processing system 1000 as shown in FIG. In the same way, sub-cost information can be generated. 83 through 88 show exemplary sub-cost information generated by the construction cost information processing system 1000. FIG. 83 shows sub-construction cost information for each part-work type for the second floor reading room 2, FIG. 84 shows sub-construction cost information for each part-work type for the second floor library, and FIG. 85 shows sub-construction cost information for each part-work type for the second floor restroom. FIG. 86 shows sub-cost-specific construction cost information for each sub-project based on the entire library construction. 83 to 86, subtotal construction cost sub information for each part is calculated together, and it can be seen that all subtotal construction cost total information is processed together.

Meanwhile, the construction construction cost information processing system 1000 may generate floor-level subsidiary construction cost information as illustrated in FIG. 87, and may generate overall subsidiary construction cost details (construction cost statement) as illustrated in FIG. 88. On the other hand, the construction cost information processing system 1000 may generate the sub-construction cost information for each detailed space-work type as shown in FIGS. FIG. 89 is the substandard construction cost information for each type of work for the second floor reading room 2, FIG. 90 is the substandard construction cost information for each type of work for the second floor library, FIG. 91 is the substandard construction cost information for each type of work for the second floor restroom, and FIG. This is the subtle construction cost information for each sector.

Hereinafter, it demonstrates further in detail, referring drawings.

FIG. 93 is an exemplary view illustrating a method for generating an in-house garden of the present invention. Based on current circumstances, based on the current unsatisfactory construction quantity information for all construction quantities, based on the current unsatisfactory cost breakdown by space-by-sector. After generating the data preferentially, the selection information for the detailed space is obtained, and then the subtle construction cost information for each detailed space-specific work for the selected detailed space is generated and output. The construction cost information processing system 1000 generates the current unsuccessful construction quantity information for each work type-detail space for generating the current unsatisfactory cost history information (S611), and expands the unit price information related to the quantity of the unsuccessful construction work for the current time. Generate (S612), generate the current basic cost details based on the current aesthetics using the extended unit price information and the current aesthetic quantity information by the sector-detail space (S613), and generate the current aesthetic cost history information. Obtain the sub-cost detail output selection information including at least one detailed space for the information (S614), and use the sub-space selection information and other output selection information to query the current sub-cost basic cost data generated in relation to the current aesthetic. In operation S615, the output corresponding to the output selection information is generated from the inquired current cost detail basic data. Output generation required information for extraction or extraction and processing (S616), the output of the selected or set as the output information required for extraction or processing after extraction or extraction is generated (S617).

FIG. 94 is an exemplary view illustrating a method for generating a garden in accordance with the present invention. Based on current circumstances, the current criteria for each part-detail space-specific type-based based on current unsatisfactory construction quantity information for all construction quantities. The cost history basic data is generated first, the selection information on the part is obtained, and the subsidiary construction cost information by the part-detail space-by-work type for the selected part is generated and output. The construction construction cost information processing system 1000 generates the current substandard construction quantity information for each part-type-specific-detail space for generating current substandard cost detail information based on the current assessment basis (S621), and expands the type related to the current substandard construction quantity. Generate unit price information (S622), and use the extended unit price information, part-industry-specific-detail space current aesthetic quantity information to generate the current aesthetic cost history basic data generated in relation to the current aesthetics (S623) Obtain the subtle cost detail output selection information including at least one part for the generation of the cost detail information (S624), and generate the output corresponding to the part selection information and the output selection information from the inquired application cost history basic data. Information needed to generate output for extraction or processing after extraction (S625), need to generate output after extraction or extraction It is selected that contains the borough area information or generated output of the set form (S626).

FIG. 95 is an exemplary view illustrating a method for creating an in-house garden according to the present invention. Based on the current situation, based on the unsatisfactory construction quantity information related to only the selected detailed space, the basic cost-specific basic cost data by sub-space may be used. After generating first, the selection information for the detailed space is obtained, and then the subtle construction cost information for each detailed space-work type for the selected detailed space is characterized in that the output. The construction cost information processing system 1000 obtains selection information on at least one detailed space for generating current unsatisfactory cost breakdown information for each specific detailed space based on the current assessment basis (S631), and the current assessment criteria on the selected detailed space. Generates the current unsatisfactory construction quantity information by the detail-specific space (S632), generates the extended unit price information by the sector related to the current unsatisfactory construction quantity associated with the selected detailed space (S633), expands the unit price information, and the related works-related by the selected detailed space. Using the current unsatisfied quantity information for each detailed space, the basic cost data generated based on the current unsatisfactory cost is generated (S634), and the subtracted cost details including at least one detailed space for generating the current unsatisfactory cost detail information. Obtain output selection information (S635), and then select detailed space selection information and other output selection information. Inquiry, based on the current shortage cost history basic data generated in relation to the current shortage (S636), and extracts or extracts output generation necessary information for generating output corresponding to the output selection information from the inquired current low cost detail basic data. After processing (S637), the output of the selected or set form is selected or set as the extracted or generated output information after processing extracted (S638).

FIG. 96 is an exemplary diagram illustrating a method for generating an in-house garden according to the present invention. Based on the current situation, based on the substandard construction quantity information on the selected site, the basic cost information based on each site-by-detail space-by-model. After generating the first, and get the selection information for the site, and generates and outputs the subsidiary construction cost information for each part-specific space-specific-work for the selected site. The construction cost information processing system 1000 obtains selection information on at least one or more parts for generating the current unsatisfactory cost breakdown information for each specific detailed space according to the current assessment standard (S641), and for each current assessment reference portion for the selected site. -Generate the current unsatisfactory construction quantity information by the type-detail space (S642), generate the extended unit price information by the sector related to the current unsatisfactory construction quantity associated with the selected portion (S643), and expand the unit price information, by the portion related to the selected portion- Using the current underage quantity information by industry-detailed space, the base unit generates the current baseline cost details generated in relation to the current baseline (S644), and includes the at least one site for generating the current baseline cost details. Obtain history output selection information (S645), utilizing the site selection information and other output selection information, this time Inquiry current basic cost details generated in relation to the inferiority (S646), extract the output generation necessary information for generating the output corresponding to the output selection information from the current inquiries of the current low cost details extracted or extracted and processed; S647), an output of the selected or set form is generated as the output information required for extraction or processing after extraction (S648).

On the other hand, the construction construction cost information processing system 1000, if there is a difference between the current ready-made application and the current ready-made circumstances, only the differential construction cost information as shown in Figs. Can be generated. The difference construction cost information is construction cost information that differs from the current ready-to-use application cost information and the current ready-made assessment construction cost information. A description will be given of a method in which the construction cost information processing system 1000 generates ready-made difference cost details information as differential construction cost information.

97 is a flowchart illustrating an exemplary method of generating current ready-to-use difference construction cost information including detailed ready-to-use difference construction cost information for each detailed space of the construction construction cost information processing system 1000 according to the present invention. The construction construction cost information processing system 1000 obtains at least one detailed space-specific work-by-work current difference construction quantity information information (S81), and the unit price information and cost for each work type included in the current ready-made difference construction quantity information information. Obtain rates and generate indirect construction cost information by type by referring to unit price information and cost rate information for each type of work, and construct extended unit price information for each type of work using the generated indirect construction cost information and direct construction cost information for each type (S82). Generate preset cost breakdown basic data using the extended unit price information (S83), and generate current breakdown difference construction cost information including current breakdown difference construction cost information for at least one or more detailed spaces with reference to the cost breakdown basic data. (S84).

In FIG. 82, the construction quantity information is indicated as 50, and the ready-made application for this time is applied for construction quantity 100, but the ready-made situation for this time is only 50, which means that it is processed as a subtle. As such, the difference in the construction quantity, construction progress rate, and judgment on completion / unfinished construction of the contractor and the client is information on the differential construction quantity for each time.

98 to 99 show conceptual examples of the number of ready-to-use application construction quantity information and ready-made assessment construction quantity information. As can be seen from FIG. 99, in the first round, the ready-made construction work quantity information and the ready-made construction work quantity information coincided with each other, but in the second round, the ready-made construction work quantity information is more specific than the ready-made construction work quantity information for a specific specific space (by site). Information is different). The construction quantity information which varies with each turn is called ready-made difference information this time. In the construction quantity information shown in FIG. 82 as 50 is ready-made difference information.

The construction cost information processing system 1000 may receive and process the current ready-made difference information. The construction cost information processing system 1000 generates preset difference construction cost information as shown in FIGS. 62 to 73 only by the type of construction in which the construction quantity information of FIG. 82 is denoted by 50. The current difference construction cost information can be used to find out which problems occurred in which sub-spaces (consistency between the contractor's side and the client's side) occurred in which sub-spaces, and in which sub-sites in which sub-spaces. As a result, problems during construction progress can be discovered or prevented in advance, and the same problem can be prevented from occurring during the next application. Of course, through the current difference construction cost information, the contractor's construction cost that was not received in any detail space, a certain type of work or any part of the construction cost (the construction cost that is not assessed at this time is not paid to this time, and the actual construction cost expected to be received at the time of application and actual If the cost of construction is different, the contractor can find out how much unexpected problems / difficulties may occur in the financial / financial flow. On the other hand, this time difference construction cost information is also a structural problem in the construction of the construction of the contractor through the structural problems (consequences of perception, the discovery of a construction that claims that the builders are completed but cannot recognize the completion, etc. Problems can be found in advance), which helps to smoothly proceed the construction, there is an advantage that contributes to the completion of the construction in the air.

100 is a diagram illustrating a method of generating difference construction cost information using current ready-made construction work quantity information and current ready-made application construction work quantity information without including site information. The construction cost information processing system 1000 obtains the ready-made application information by the contractor-side sector-specific space-detail space including the construction quantity-specific current-time application information and construction quantity-specific information including construction quantity information (S711), Generate (extract) current difference information for each industry-detail space corresponding to the difference between the current application information for each sector-detail space by the contractor and the current situation information for each sector-detail space on the client side (S712), this time By referring to the unit price information and cost rate information for each type of work included in the existing difference information, indirect construction cost information for each type of construction is first generated (S713), and the expanded unit price information for each type of construction is composed of the generated indirect construction cost information and direct construction cost information (S714). ), Extended unit price information, and current number of ready-made differences by type and detail space included in information by type and detail space. Using the current time information generated based on historical data, off-the-shelf cost difference (S715), and generates a current time difference established cost history information with the current time difference cost off-the-shelf basis history data (S716).

FIG. 101 is a diagram for describing a method of generating difference construction cost information using current ready-made construction work quantity information and current ready-made application construction work quantity information including site information. The construction cost information processing system 1000 includes the ready-made application information for each part-type-specific-detail space including the construction quantity information and current order information for each part-type-specific-detail space of the client including the construction quantity information. Obtained (S721), and corresponding to the difference between the current ready-made application information by the site-specific type-detail space of the contractor side and the site-specific by-specific-detail space of the client side by the site-specific type-specific space Generate (extract) current ready difference information (S722),

Indirect construction cost information for each sector is first generated by referring to the unit price information and cost rate information for the type of work included in the current difference information (S723), and the expanded unit price information for each model is composed of the generated indirect construction cost information and direct construction cost information ( S724) using the existing unit cost-specific information included in the extended unit price information, site-specific-specific space-specific space-by-space current difference information, and generates the current-based difference cost history basic data (S725) In step S726, the current ready-made difference cost details are generated using the existing ready-made difference cost details basic data.

FIG. 102 is an exemplary diagram illustrating a method for generating differential construction cost information using current ready-made assessment cost history basic data and current ready-made application cost history basic data that do not include site information. The construction construction cost information processing system 1000 generates the current ready-to-use application cost history basic data using the current ready-to-use application quantity information for each work type-detail space (S731), and the current ready-made for using the current ready-made assessment quantity information for each work type-detail space. Generate the basic cost history data (S732), obtain the ready-made cost history output selection information for generation of the current stock cost difference information (S733), and utilize the obtained or set spatial information corresponding to the output selection information, For generating the output corresponding to the output selection information from the ready-made application cost history basic data and the current ready-made assessment cost history basic data (S734), and the current ready-made application cost history basic data and the current ready-made assessment cost history basic data. Output generation required information extraction or extraction and processing (S735), extraction or extraction Selected to generate the processed output necessary information or to generate the output from the set form (S736).

FIG. 103 is an exemplary diagram illustrating a method for generating differential construction cost information from current ready-made assessment cost history basic data and current ready-to-use application cost history basic data including site information. The construction cost information processing system 1000 generates the ready-made application cost history basic data for this time by using the current ready-to-use application quantity information for each site-specific work-detail space (S741), and the current ready-made assessment for each site-work-specific-detail space. Generate the existing ready-made cost history basic data using the quantity information (S742), obtain the ready-made cost history output selection information for generating the current ready-cost difference cost information (S743), and obtain or set the space corresponding to the output selection information. Using the information, the current ready-to-use application cost history basic data and the current ready-to-use cost history basic data are queried (S744), and the output of the current ready-to-use application cost history basic data and the current ready-to-use cost history basic data corresponding to the output selection information Extracting or extracting necessary information for the output generation for generating the output is processed (S745), add Or choose to create a processed output information required or generated output of the set forms the extracted (S746).

The construction cost information processing system 1000 may generate a ready-made application statement for each type of work and a ready-made assessment statement for each type of work, as shown in FIGS. 104 to 111. FIG. 104 is an example of aggregate information about a first-off ready billing history, and FIG. 105 is construction cost information on a ready-made billing breakdown by model. FIG. 104 is an example of aggregate information about a first-off ready billing history, and FIG. 105 is construction cost information on a ready-made billing breakdown by model. FIG. 106 is an example of aggregate information about the first ready-made assessment details, and FIG. 107 is construction cost information on the ready-made assessment details for each type of work. FIG. 108 is an example of aggregate information of the second ready-made billing history, and FIG. 109 is construction cost information of the ready-made billing details by type of work. FIG. 110 is an example of aggregate information of the second ready-made billing details, and FIG. 111 is construction cost information of the ready-made billing details by model. Starting from the second round, it may further include information on the cumulative ready-made application cost and the information on the cumulative ready-made assessment cost.

The construction construction cost information processing system 1000 of the present invention is a construction cost information generated by the detailed space-specific construction cost, construction site-specific construction cost details, construction site-specific construction cost details, etc. It can be seen that indirect construction cost information is always present. This is because the cost detail basic data generation engine 1200 of the construction cost information processing system 1000 of the present invention preferentially generates indirect construction cost information for each indirect construction cost item, so that the expanded construction cost information is correctly generated for all works. to be. That is, the lowest detailed space is generated by generating accurate total construction cost information (composing not only direct construction cost but also indirect construction cost information to form total construction cost information) for individual lowest (unit) models corresponding to each detailed space and / or part. Exact construction cost information can be generated separately, and accurate construction cost information can be generated for each part. Therefore, construction cost information for at least one or more upper detail spaces or at least one or more upper spaces including at least one or more lowest detail spaces is also accurately generated.

In addition, since the accurate construction cost information for each part-workpiece constituting the detailed space is generated, accurate construction cost information is generated for any specified part of all the aggregate units or the entire construction. Examples of any designated portion may include 1) a plurality of specific subspaces, 2) a plurality of specific subspaces of specific subspaces, 3) a specific type of specific subspace, and 4) at least one or two or more subtypes associated with at least one specific subspace. For example, work type. In addition, when an arbitrary space is designated by a pointing device such as a mouse in a BIM or 3D CAD, etc., at least one or more parts corresponding to the specified space or a set of at least one detailed space corresponding to the designated space All or at least one species associated with a set of may be examples of any of the designated portions above.

On the other hand, the ready-made information generating engine 1300a may generate ready-made billing history information and ready-made assessment history information for each space as shown in FIGS. The ready-made information generating engine 1300a may generate ready-made billing information once for each upper space (the first floor, the second floor, etc., which is higher than the detailed space called the second floor library) as shown in FIG. 129. In order to generate such information, the ready-made information generating engine 1300a may generate ready-made claim details for each part for every part corresponding to the upper space of the first floor, but the upper space of the first floor. Generates one-time billing details information for each sub-space corresponding to each of the sub-spaces, and aggregates the generated one-time billing details information for each sub-space for each of the upper spaces corresponding to the sub-spaces. By doing so, one-time ready billing information as shown in FIG. 129 may be generated.

FIG. 130 shows an example of one-time ready assessment information for each space generated by the ready-made information generating engine 1300a. The ready-made information generating engine 1300a may determine the ready-to-use rate based on the above-mentioned accumulated ready-to-sale amount information, under-the-money amount information, or the ready-made rate (construction amount information up to the ready-made situation compared to the total construction amount. FIG. 131 shows an example of two pieces of ready-made application history information generated by the ready-made information generating engine 1300a, and FIG. 132 shows two pieces of ready-made assessment history information generated by the ready-made information generating engine 1300a. Shows an example.

When at least one specific detail space or specific part is designated through the 3D CAD system, the BIM support system, or the like, the construction construction cost information processing system 1000 will be described with reference to FIG. 112. do. The interface module 1100 of the construction cost information processing system 1000 receives the selection information of the spatial object such as at least one or more parts selected from the user computer 2000 (3D CAD system or the BIM support system, etc.) ( In operation S31, the cost details information to be set or selected from the user for the spatial object is determined (S32), and the cost history information corresponding to the selected spatial object is generated with reference to the cost detail basic data (S33). Then, the generated cost breakdown information is transmitted to the user computer 2000 directly or via S34.

FIG. 113 illustrates that when a specific spatial object or region object is designated or selected as a pointing device such as a mouse or a touch in a BIM support system or a 3D CAD system, the designated or selected spatial object or region object is visually separated. Illustrates what is displayed. When a user clicks on a ceiling or the like in the BIM support system or 3D CAD system as shown in FIG. 3, the BIM support system or 3D CAD system may visually show a spatial object or a region object including the clicked point. FIG. 113 exemplarily shows that an object selected from the image constituting FIG. 3 is distinguished from another object by a thick purple line.

114 illustrates an example in which cost detail information corresponding to a selected spatial object is displayed. The method of generating the cost history information corresponding to the selected spatial object is the same as described with reference to FIG. 112. FIG. 114 shows that when the ceiling part of the reading room 2 of the library is selected, total cost information for each type of the selected ceiling part is provided. As described above, the total cost information includes construction cost information for each item of the extended unit cost information configuration item of the present invention, including overhead information for each item of indirect construction cost. In FIG. 114, two types of work corresponding to the selected part object, information on total cost information, material costs, labor costs, etc. for each work type are included, and the total (subtotal) information of construction costs for each work type is also provided. From the perspective of the construction cost information processing system 1000, if there is meta information for specifying the object for the selected object, the construction cost information for at least one or more selected objects as shown in FIG. Can provide. The meta information may exist in the form of tag information. One example of the tag information is information about the object, the identifier for the object, the object name, the upper space (in the case of the ceiling part, the detail space called the reading room 2 to which the ceiling part belongs, the library 2 floor that the reading room 2 belongs to) The upper space, the entire space of the library to which the second floor of the library belongs, and the like may be meta information.) When the construction cost information processing system 1000 recognizes the ceiling of the reading room 2 of the second floor of the library, And quantity information for each type of work, and at least one or more construction cost information set as the unit price information and rate information for each type of work can be immediately generated. Meanwhile, when the construction cost information processing system 1000 recognizes the ceiling portion of the reading room 2 on the second floor of the library, the construction construction cost information processing system 1000 provides the information as shown in FIG. 114 with reference to previously generated cost detail basic data or previously generated aggregate data. You can do it. Various forms of construction cost information that may be generated may vary as described above.

The construction cost information processing system 1000 of the present invention may be linked to, exchanged, utilized or used with a third system 5000 such as a 3D CAD system or a BIM support system. The construction cost information processing system 1000 may be linked with a 3D CAD system through a wired / wireless network 6000. The 3D CAD system can obtain selection information about the ceiling as a spatial object from a user who uses the system. (In a typical 3D CAD system, each spatial object may be selected separately, and two or more spatial objects may be selected at a time. The spatial object selected by the user is a ceiling, and the ceiling is a ceiling in a children's reading room. In this case, the 3D CAD system obtains the selection information and transmits the selection information to the construction cost information processing system 1000. On the other hand, the construction cost information processing system 1000 is the type of output desired by the user and the type of information to be displayed (the kind of output and the type of information displayed is the construction cost information processing system 1000 is the 3D CAD And through the construction cost information generation engine 1300 of the construction cost information processing system 1000 with reference to the spatial object selection information of the user. The information on the cost details of the ceiling part of the children's reading room on the first floor is generated by the type of work related to the ceiling part of the children's reading room on the first floor and by the item of the construction cost (in this output, only the overhead cost total information is selected). Can be provided to 3D CAD systems. On the other hand, when the user selects all parts of the children's reading room on the first floor, construction cost information by construction cost-specific item for each part shown in Figure 28 may be generated, and provided to the 3D CAD system. Meanwhile, the user can select the entire library building, which is a spatial object higher than the children's reading room on the first floor, as the spatial object in the 3D CAD system. In this case, the user can generate the detail information as shown in FIG. 26 and transmit it to the 3D CAD system. Could be.

On the other hand, when the user does not select a particular output 1) the construction cost information processing system 1000 if the default output type and the default display content in the 3D CAD system outputs the output corresponding to the default information (The transmission may be provided to the user computer 2000 through the 3D CAD system, but may be transmitted directly to the user computer 2000 without passing through the 3D CAD system.) 2) Type and display of at least one cost breakdown output that may be provided for the spatial object to the user computer 2000 or the 3D CAD system (the 3D CAD system may also transmit back to the user computer 2000). Send selection request information about the contents to be made, and directly send the selection information of the user or via the 3D CAD system. The construction cost and cost information can be generated, and the generated cost cost information can be transmitted directly to the user computer 2000 or via the 3D CAD system.

A typical BIM support system can select, manage, and map additional information on spatial objects for each part. Accordingly, when the BIM support system transmits selection information about a spatial object, such as a specific portion, to the construction cost information processing system 1000, such as the 3D CAD system, the construction cost information processing system 1000 is configured to support the BIM support system. Construction cost details information corresponding to the selected portion may be generated and provided. Construction cost cost information generated by the construction cost information processing system 1000 is linked to each part, each detailed space, and an upper space of each detailed space of the BIM support system based on a spatial object corresponding to the space, It may be interlocked or stored. Since the BIM may be related to not only the construction design but also the entire life time of the construction, the construction cost information processing system 1000 may provide information requested by the BIM support system through the entire life time of the building.

On the other hand, when there is a specific process in one detail space or one site, two or more direct cost components such as material costs or labor costs may be involved in the work. Until now, all the direct cost components were not processed separately for each model, but processed for each model to form extended unit price information. Thus, the present invention for constructing extended unit price information for each direct cost configuration item is presented. FIG. 115 shows that the extended unit cost information for the direct weighting material cost is configured for the construction of the lightweight steel ceiling frame. The extended unit price information may be generated based on the actual quantity as shown in FIG. 115, but may also be generated based on the unit quantity 1 as described above. If the quantity 50 is divided by the amount excluding the direct construction cost constituent item from the expansion unit price information shown in FIG. 115, the expansion construction cost information of the material cost for the unit quantity 1 is obtained.

FIG. 116 shows an example in which the construction cost information processing system 1000 constructs extended unit price information using only labor costs. FIG. 117 shows extended unit price information by dividing material costs and labor costs. It can be shown that extended unit price information can be configured. Extended unit price information on the total (subtotal) becomes the above-described extended unit unit price information by model.

When the construction cost information processing system 1000 configures the extended unit cost information for each direct work type by item for each detailed space or part, as shown in FIGS. 115 to 117, the direct cost per item for each work type for each detailed space or part It is also possible to add the extended unit cost information in multiple dimensions. The multi-dimensional example may be summed up while expanding into a spatial dimension (per area-> by sub-space consisting of at least one or more parts-> upper space consisting of at least one or more sub-spaces). The summation may be summed up only for the material cost, and may be summed up for each item of the expanded unit cost information structure based on the material cost (eg, safety management fee, etc.) and spatial dimension. That is, the construction construction cost information processing system 1000 treats the extended unit price information for each item by direct cost constituent item for each sub-space or part as if the extended unit price information for each sub-space or part by type as described above. It will be apparent to those skilled in the art that various summation and reporting information provided may be generated. 118 to 119 show an example of the summation information generated by the construction cost information processing system 1000. FIG. 118 shows expanded unit cost information (material cost 225,500 and indirect construction cost, etc. 59,801) centering on material cost for a construction called lightweight steel frame spring, and the total construction cost information based on this material cost is 284,801 (225,500 + 59,801). On the other hand, in Fig. 118 it can be seen that the same information is generated for the labor costs, the total cost 986,894 can be seen that the sum of the total cost due to material costs and the total cost due to labor costs. In this way, the construction cost information processing system 1000 is based on the lowest space unit, such as a part, for each of the configuration items (material costs, labor costs, expenses) constituting a direct cost for each type corresponding to the lowest space unit The extended unit price information can be configured, and the total unit cost information for each spatial system and work type system can be generated using the extended unit price information.

Subsequently, for at least one or more types of work corresponding to the lowest space unit, based on the lowest space unit, such as a part, a material cost for each material may be determined for each of at least one or more individual materials constituting the material cost among the direct cost configuration items constituting the work type. If there are, there may be labor costs by individual labor for at least one individual labor that constitutes labor costs. FIG. 119 shows material cost information of cement and sand, which are individual materials corresponding to the above-mentioned work, per square meter for a work model of cement lortarbaum 18mm. Bibimb) labor costs information can be seen.

When there is material cost information by individual material and labor cost information by individual labor as shown in FIG. 119, the construction cost information processing system 1000 refers to the rate information and expands unit price information or individual labor corresponding to the material cost by individual material. Extended unit price information corresponding to labor costs may be generated. The extended unit price information may be generated by unit quantity generated by multiplying the next quantity, but the extended unit price information may be generated, but the extended unit price information based on the amount of material costs for each material or the amount of labor costs for each labor including the quantity corresponding to the type You will be able to create FIG. 120 shows an example in which extended unit price information is generated for each material cost information for each material and for each labor cost information. As illustrated in FIG. 120, the unit cost of cement is 18 mm, including the construction cost information for each item of direct construction cost and the indirect construction cost information for each item, and other related costs included in the total construction cost information. It shows that information is generated. The cement used in the work of cement lortarbaum 18mm is 83 won per kg, the quantity of cement required to apply 1 square meter is 10.55kg, the material cost is 870 won, and the total cost considering the extended unit price information related to the cement The construction cost is 1102 won.

As illustrated in FIG. 120, the construction cost information processing system 1000 may configure extended unit price information for each material cost, individual labor cost, and individual expense constituting the standard product for each standard product. When there is quantity information for each type of work required for the lowest space unit, such as a site, the construction cost information processing system 1000 may generate extended unit price information in response to the quantity information. For example, when the quantity of the standard product cement cement tar 18 mm (1 square meter) required for a specific part of the floor of the first floor reading room is 100, the quantity 100 is multiplied by all the numerical values shown in FIG. By doing so, for each part called the floor of the first floor reading room, the extended unit price information may be configured for each material, individual labor, and individual expenses constituting a specific model corresponding to the part.

Meanwhile, the construction cost information processing system 1000 may generate quantity information for each material handling unit for each lowest space unit, such as a part. For example, the construction cost information processing system 1000 is 10.55kg * 100 = the amount of cement required to apply a 100 square meter quantity of the work listed in the standard product of 18mm cement roll tar on the floor of the first floor reading room 1 1055 kg can be calculated, and the handling unit of cement can generate quantity information for each material handling unit of 1055/40 bags = 26.4 bags using the handling unit information of 40 kg / bag. Similarly, for sand, 0.0227 * 100 cubic meters could be calculated, and for labourer labor it would be possible to generate labor quantity information of 0.06 * 100 = 6. As described above, the construction cost information processing system 1000 may generate quantity information for each material handling unit for each material, for the lowest space unit such as a site, and may generate quantity information for each labor handling unit for each labor. will be.

The construction cost information processing system 1000 may generate optimal layout information for optimally arranging a specific material at a specific site by utilizing the quantity information for each material handling unit for each material for each of the above sections. In the above, for example, it would be optimal to place 26.4 bags of cement on the bottom part of the first floor reading room. On the other hand, the construction cost information processing system 1000, if a numerical value of 26.4 bags comes out, by applying the optimal batch information generation rules, such as rounding to arrange 27 bags, or 5% of the processing in units of processing If there is an optimal batch information generation rule, 28 bales rounded to 26.4 * (1 + 0.05) = 27.7 can be arranged. Of course, in the construction cost information processing system 1000, the work shown in the standard product of cement roll tar 18 mm on the floor of the first floor reading room is carried out over two months (construction period information), and the cement is used twice a month (material If there is construction work plan information by the lowest space unit, such as supply cycle information or material supply recovery information or material supply timing information), the initial cement distribution is 26.4 / 2 (months) / It is possible to generate optimal batch information for a specific unit such as two times (monthly) = 6.6 packages at a specific time period, at a specific cycle, or at a specific number of times. In the above description, a method of generating optimal placement information for each part through a material called cement is described, but it will be apparent to those skilled in the art that the present invention may be equally or equally applied to other materials. On the other hand, it will be apparent to those skilled in the art that the method for generating the optimal arrangement information can be generated in an equivalent or equivalent manner even for individual labor such as a plasterer.

On the other hand, the construction cost information processing system 1000 may generate the material shortage information for each specific time point through the generation of the optimal layout information. For example, when cement cement tar 18mm is applied to the floor of the reading room on the first floor, if the construction speed is more than twice as fast as planned, the first 6.6 bags were supplied. Instead of being consumed in a quarter of a month, it would be possible to process information to supply 6.6 bags before the quarter is over, or to supply twice the 6.6 bags. If you supply twice the 6.6 bales, you will be able to generate optimal batch information that requires you to add 6.6 bales of cement just before the end of the 3/4 month. The construction cost information processing system 1000 may generate order information for the material or labor using the optimal layout information generated by the construction cost information processing system 1000. For example, if the construction speed is twice as fast as scheduled, and the first 6.6 bales were supplied, the cement supply would take three days from the order to the site arrival and placement, three days before the first quarter. You will be able to generate cement order information. Of course, the construction construction cost information processing system 1000 may generate the labor shortage information for each specific time point through the generation of the optimal layout information. 121 illustrates an example of a material management process managed by the material management information generation engine 1300d of the construction cost information processing system 1000. The material management information generation engine 1300d may determine an oversufficiency of a material by referring to a material input amount tab and required material quantity information for a specific time point, and generate a material input report (material shortage, material excess).

121 shows an example of a material management process of the material management information generation engine 1300d of the present invention. The material management information generation engine 1300d obtains selection information on at least one or more upper spaces including at least one or more detailed spaces or at least one or more parts (Smmp11), and obtains detailed space or part information constituting the upper spaces. (Smmp12). In the above example, the first floor reading room 1, which is the upper space of the part, becomes the upper space as the detail space, and the first floor, which is the upper space of the detail space, is the upper space, based on the detail space of the first floor reading room 1, based on the part of the floor. Becomes When the upper space is selected, the material management information generation engine 1300d may present the lower spaces of the upper space. When the specific lower space is selected, the material management information generation engine 1300d may present the lower spaces of the lower space. . Subsequently, the material management information generation engine 1300d obtains a corresponding work type and a work quantity by work type for each detailed space or part (Smmp13). In the example, for the site of the floor of the reading room 1 on the first floor, information about the type and quantity 100 shown in the standard product of cement roller tar 18mm is obtained. Subsequently, the material management information generation engine 1300d obtains material type and material quantity information for the corresponding model using standard product information (Smmp14). In the example, the material required is cement, and the standard product requires 10.55 kg of material.

Subsequently, the material management information generation engine 1300d generates required material quantity information based on a specific period of each work type and material type for each detailed space or part (Smmp15). In the above example, the amount of cement required is 10.55 kg * 100 = 1055 kg. If 1000 kg of cement is already supplied corresponding to the floor area, 1055-1000 = 55 kg of required material quantity information will be generated, if 1055 kg is needed over two months, and this month alone will require 1 / If 2, the required material quantity is 1055/2 = 527.5 kg. On the other hand, the material management information generation engine 1300d is a handling unit for each material (for example, cement is treated as a bag unit, and if one bag is 40 kg, 40 kg becomes a handling unit of material called cement). Smmp16) and generates necessary material quantity information based on a specific period of time based on the handling unit by the corresponding work type and material type by detailed space or part by the necessary material quantity information and handling unit information (Smmp17). The material management information generation engine 1300d calculates necessary material information of 1055/40 bags = 26.4 bags as a material handling unit called cement at the site of the first floor reading room 1 floor.

Although the above description is based on the lowest space unit of one floor of the first floor reading room, the material management information generation engine 1300d includes at least one or more parts of the first floor for all of one or more parts of the first floor reading room. With respect to the detailed space, the at least one or more individual material (for example cement) optimal layout information may be generated for all of the at least one or more floors constituting the building, and the at least one or more individual labor (for example) For example, you will be able to generate optimal placement information. The optimal arrangement information of the upper space unit by individual material or individual labor may be generated as a sum (partial sum, roll up operation) of the optimal arrangement information for each lower space of the one or more lower spaces constituting the upper space. As such, the material management information generation engine 1300d may perform the above calculation for each type of work required for a specific detailed space or part and for each required material, and finally, a sub-space of the space based on an arbitrary space. It is possible to generate the required material quantity information on a specific time period based on the handling unit by the respective industry and material type.

Meanwhile, the labor management information generation engine 1300e of the construction cost information processing system 1000 may perform a labor management process in a manner equivalent to the material management process. 122 shows an example of the labor management information processing method of the labor management information generation engine 1300e. The labor management information generation engine 1300e obtains (Slmp11) selection information on at least one or more upper spaces including at least one or more detail spaces or at least one or more parts, and obtains detailed space or part information constituting an upper space. (Slmp12), and obtain a specific work type and quantity by work type (Slmp13) for each detailed space or part, and obtain a material type and labor quantity (Slmp14) for the work type. With the obtained information, the labor management information generation engine 1300e generates required labor quantity information based on a specific period by a corresponding work type and labor type by detailed space or part (Slmp15).

By generating the optimal layout information for each material as described above, it is possible to prevent waste, construction delay, and unnecessary cost increase due to material shortage. It can prevent the waste of manpower, delay of construction and increase of unnecessary manpower costs due to overstress.

Next, the construction cost ranking information generation method for each lower space constituting a specific upper space will be described. The specific upper space is composed of a plurality of lower spaces. Subspaces are subspaces or parts. FIG. 123 shows a cross-sectional view of a building having two basement levels and four ground levels (including one rooftop) as a construction object for which ranking information is generated. As can be seen in FIG. 123, it can be seen that the second floor is composed of a total of 14 detailed spaces. The ranking information generation engine 1300f of the construction cost information processing system 1000 may calculate total construction cost information for each of the detailed spaces, and may assign a ranking (rank) based on the calculation result. 124 shows an example of example data in which construction cost ranking information for each detailed space constituting a second floor, which is a specific space of a building, is generated. In FIG. 124, although the ranking information generation engine 1300f generates total construction cost ranking information based on the total construction cost, the ranking is not the total construction cost, but the direct cost subtotal construction cost information, the overhead cost subtotal construction cost information, and the direct cost construction cost per item Of course, it can be generated by various cost items, such as information, construction cost information for each overhead configuration item. Furthermore, the ranking information generation engine 1300f includes total construction cost information, direct cost subtotal construction cost information, indirect cost subtotal construction cost information, and direct cost construction cost by at least one or more types of construction corresponding to the 14 detailed spaces constituting the second floor. Information, construction cost information for each overhead configuration item may be generated, and ranking information may be generated for each type of work. Accordingly, it is possible to generate the construction cost ranking information for each cost item for each detailed space constituting the second floor, based on the specific type of work, rather than the sum of all the types corresponding to the second floor. Furthermore, although the ranking information is generated based on the detailed space in FIG. 124, the ranking information generation engine 1300f may naturally generate ranking information for each part constituting the detailed space. Ranking information may be generated as a reference.

125 is a diagram of a specific space in which construction cost ranking information for each detailed space constituting a specific space is visually displayed. When construction cost ranking information is generated for each detailed space, the construction cost ranking for each detailed space may be given as a numerical value (in FIG. 125, the ranking ranking is represented by a circle letter), or the ranking may be expressed in color. When detailed spaces are divided, such as BIM or 3D CAD, ranking information for each detailed space may be presented together when the BIM or 3D CAD is visually presented. It will be apparent to those skilled in the art with reference to the description and drawings that the ranking information generation engine 1300f can perform not only the visualization of the ranking information for each detailed space as shown in FIG. 125 but also the visualization of the ranking information for each region. .

126 is a view illustrating an exemplary method in which the ranking information generation engine 1300f of the present invention visualizes ranking information for each detailed space. Like the second floor in the above example, the ranking information generation engine 1300f obtains selection information on at least one or more upper spaces including at least one or more detail spaces (Srss11). Next, the ranking information generation engine 1300f obtains detailed space information constituting the upper space (Srss12), like the 14 detailed spaces in the above example. A cost item criterion to be subjected to ranking processing for each detailed space, such as the total cost of construction for each detailed space in the above example, is obtained (Srss13). The ranking information generating engine 1300f generates construction cost information (Srss14) for each detailed space by cost item basis as shown in FIGS. 124 and 125 and ranking information for each detailed space (Srss15) as construction cost information, and an upper space as shown in FIG. 126. Ranking information visualization process (Srss16) for each detailed space in a drawing such as BIM or 3D CAD.

128 is a view illustrating an exemplary method in which the ranking information generation engine 1300f of the present invention visualizes ranking information for each part. The ranking information generation engine 1300f obtains selection information on at least one or more upper spaces including at least one or more regions (Srps11). Next, the ranking information generation engine 1300f obtains site information constituting the upper space (Srps12). The ranking information generation engine 1300f obtains a cost item criterion that is a ranking processing target for each part from the user or according to a setting (Srps13). The ranking information generation engine 1300f generates construction cost information (Srps14) for each part by cost item criteria and generating ranking information for each part using construction cost information (Srps15), and expresses an upper space as shown in FIG. The ranking information visualization process (Srps16) for each part in the figure.

Each construction cost ranking includes total construction cost by sub space, direct cost by sub space, indirect construction cost or sub expenses by sub space, direct construction cost by sub space, construction cost by construction item, indirect construction cost by sub space, construction cost by construction item, total construction cost by sub space It can be generated from construction cost information by construction cost by construction item, construction cost by construction item, and indirect construction cost by construction area by sub space. Total construction cost by sub-space, direct cost by sub-space, indirect construction cost or sub-expense by sub-space, construction cost by direct construction cost by sub-space, construction cost by construction item by sub-space, construction cost by sub-space The total cost of construction, the direct cost of each sub-space by the construction cost construction cost by construction item, the construction cost information by the indirect construction cost of the sub-space by industry can be generated in detail in the specification of the present invention.

Next, the construction VE assistance information generation method of the VE assistance information generation engine of the construction cost information processing system 1000 will be described.

If an alternative design occurs, variations will occur in the type of work (including sub-names, items, breakdown items, items, and items of the subclasses in the work classification system), in which case, as well as changes in the type of work, According to this, the unit price information may change, and in some cases, the quantity per work-space may vary. Meanwhile, the cost rate may change based on a specific time point such as when designing a change. The change design may occur more than one order or n times, and variation information may be stored for each order, and several orders may be grouped according to a user's selection and processed in one large order unit. At this time, the DB unit 1400, if there is a change in the unit price information, work-by-sector-specific construction quantity, cost rate, etc., the change can be managed not only on the basis of the model, but also by the order of the alternative design.

In the construction VE, it is important to grasp the change in construction cost in terms of design change or alternative design over time. When there is a design change or alternative design (hereinafter referred to as alternative design), the individual alternative design shall be managed in the order of individual alternative designs in units of individual alternative design units or groups of two or more of said individual alternative design units. Can be. For example, in the case of the first case, the work i1 and work i2 can be introduced as an alternative design, the work order i and work i2 can be changed and managed separately, and the work i1 and work i2 can be grouped into one order. Can manage For the sake of convenience, the order management will be described for each work type i, but the order management is not limited thereto. Existing work j (It will be obvious that work j may be a plurality of work.

Here, as an alternative design of the work type replaced by the work type i (it may be possible to have several types of work), as the work type j instead, the unit price information per work type (direct cost information) There will be a change, and the quantity information by type may also change. When the construction cost information changes directly according to the introduction of the work type i, the indirect construction cost information for each indirect construction cost configuration item also changes. Accordingly, the cost detail basic data generation engine 1200 is described above based on the unit price information, the quantity information for each type, and / or the cost rate information (only if there is a change) according to the type I, which is an alternative design obtained. Create the same cost breakdown basic data. Of course, in this case, quantity information for each type of work type j is deleted or not processed to be omitted from the generation of cost detail basic data. In this case, the cost detail basic data may be generated only in a part related to the work type i in which the alternative design has occurred, but the entire cost detail basic data may be regenerated. Partial or totally regenerated cost breakdown basic data can be managed for each order. At this time, the order is managed in association with the work type i that caused the order.

On the other hand, the order is an arbitrary element that can fluctuate initially generated cost breakdown basic data. Variation of type is an example of variation. For example, a new order is also generated when various cost factors occur, such as cost rate fluctuations, additional cost factors (e.g., delayed construction costs due to construction delays), and the like. It would be desirable to generate cost breakdown based data.

Considering the order as one dimension / axis, the value constituting the cost breakdown basic data may be expressed as f (x, y, z, w). In this case, x may be a coaxial axis, y is a space axis, z is a construction cost configuration item axis, w may be a degree axis. The cost history basic data generation engine 1200 obtains first-type quantity information for each type-space, unit price information for each type, and cost rate information as first input information, and generates f (x, y, z, 1). For example, when a variation occurs in the quantity-specific information, the price-specific information, or the cost-rate information for each type due to an alternative design, f (x, y, z, 2) may be generated using the change as the second input information. .

The construction cost information processing system 1000 may store f (x, y, z, w), which is a cost breakdown basic data pack, in a conventional method performed in a computer processing. In the conventional method, the value of (y, z) may be stored as a separate file for each type of x and for each subtotal of x, and as a separate file for each type of y (the work level or the lower item level of the work) , z) value, and store the values for all the sub-items that make up z for z, or sub-total the sum of the sub-items (for example, direct construction cost sub-material cost + labor cost + expense, Indirect construction cost subtotal, etc.), or the above detailed item-specific values, subtotals and totals may be stored.

In this case, the number of each cell is a minimum value of a product of x number, y number, and z number, and there may be a cell associated with the subtotal. On the other hand, it is natural that a plurality of null data exist among the cells. (Because there may not be a specific work in a specific detail space.) The order and method of calculating the f may be extremely diverse, and those skilled in the art can select the optimal method among these various methods (a small amount of calculation or a fast calculation speed). Method, etc.), and the method may be within the scope of the present invention.

141 to 143 show examples of cost calculation statements for a detailed space called a children's reading room on the first floor according to a circle design plan, an entire first floor including several detailed spaces, and an entire construction object including several floors. 144 to 146 show examples of cost calculation statements for a detailed space called a children's reading room on the first floor, an entire first floor including various detailed spaces, and an entire construction object including several floors. In the original design, the MBF-attached work was included, while the alternative design included the SGP panel, the MBF-attached work was eliminated, and the 1.0B racking work had a variable quantity.

Next, a description will be given of how the VE assistance information generation engine 1300c of the construction cost information processing system generates VE assistance information.

The first method relates to FIG. 138. Based on the first cost details based on the first input information (SVe21), which receives the first input information, quantity information for each type-space, unit price information for each type, and cost rate information before the alternative design occurrence (first input information). Generate data f (x, y, z, 1) (SVe22), and various analysis information (outputs (e.g., Figures 141, 142, 143, etc.) based on the generated cost detail basic data are (SVe23). Subsequently, change information on at least one or more of the input information (second input information) that reflects the alternative design, the work type, the space-specific quantity information, the work-specific unit price information, and the cost rate information is obtained as the second input information (SVe24). In operation S25, the second cost detail basic data (f (x, y, z, 2)), which is second cost detail information preset as the second input information, is generated (SVe25). Subsequently, the analysis information preset as VE assistance information is generated with reference to the cost history information generated as the first input information and the cost history information generated as the second input information (SVe26), and the analysis information is generated as an output ( SVe27). The analysis information may be comparative analysis information of a preset type. The first cost breakdown information has the same meaning as the first cost breakdown basic data, and the second cost breakdown information has the same meaning as the second cost breakdown basic data.

The output means output data. The output may be in a form that can be recognized by a person, but may be in a form of data that can be recognized by a third system. The third system includes a 3D CAD system, an EVMS system, a construction appraisal information processing system, a planned price preparation system, a cost analysis system, a construction project management system, a construction cost settlement system, a construction supervision system, a BIM support system, a construction client side system, It may be any one or more of the construction performer side system, the construction cost information processing system 1000 of the present invention is connected / linked to a part of the third system, or the third system and the wired and wireless network 6000 May be used.

The construction cost information processing system first obtains quantity information for each type-space, unit price information for each type, and cost rate information as first input information, and generates preset first cost detail information as first input information. Cost analysis information generated as input information is used to generate preset analysis information as VE support information, and change information on at least one of at least one of work type, work type-space quantity information, work unit price information, and cost rate information. Obtains second input information, generates second cost detail information preset as the second input information, and at least one of cost detail information generated as first input information and cost detail information generated as the second input information; Reference analysis to generate the preset analysis information as the VE support information.

The second method receives the first input information and the second input information at the same time without making a large or large time difference, and for each, f (x, y, z, 1) and f (x, y, z, which are the cost detail basic data, are input. 2) are generated, and preset comparison analysis information is generated in a preset format and then output. A description with reference to FIG. 139 is as follows. First, obtain the quantity information by each type-space, unit price information and cost rate information by the first input information (SVe31), and changes to at least one or more of the quantity-specific information by type, space-specific unit information and cost rate information Obtain the information as the second input information (SVe32), generate first cost detail information preset as the first input information (SVe33), and generate second cost detail information preset as the second input information (SVe34). By referring to any one or more of the cost history information generated as the first input information and the cost history information generated as the second input information, the analysis information preset as the VE support information is generated (SVe35), and the analysis information is outputted. (SVe36).

The third method generates cost breakdown basic data f (x, y, z, 1) as the first input information, and generates cost breakdown basic data f (x, y, z, 2) as the second input information. Generates the comparative analysis information in the preset format and outputs it. A description with reference to FIG. 140 is as follows. First, the quantity information for each type-space, the unit price information for each type, and the cost rate information are obtained as the first input information (SVe41), and the first cost detail information preset as the first input information is generated (SVe42), and the each type-space (SVe43) obtains variation information on at least one of the quantity information for each item, the unit price information for each industry type, and the cost rate information as second input information (SVe43), and generates second cost detail information preset as the second input information (SVe44) And generating analysis information preset as VE assistance information by referring to at least one of the cost history information generated as the first input information and the cost history information generated as the second input information (SVe45), and outputting the analysis information. Create (SVe46).

The first method provides multi-angle analysis information (e.g., Figures 141, 142, 143, etc.) for f (x, y, z, 1), which is the basic cost data, to extract alternative design points. Can be used even better. When performing a multi-faceted analysis of f (x, y, z, 1) centered on a work, it is easy to extract a work that can be accessed from a cost standpoint, and focus on them when planning alternative designs. You could do it.

The VE assistance information generated by the VE assistance information generation engine 1300c includes generation of preset comparison information for the original design and the alternative design. 147 to 151 illustrate an embodiment of output in a predetermined format related to the comparison information generated by the VE assistance information generation engine 1300c. FIG. 147 is an exemplary view of an analysis result capable of comparing construction cost between the original design and the alternative design by providing information on the total construction cost and the difference between the total construction cost and the alternative design as the VE support information of the present invention. to be. 148 is a VE support information of the present invention provides information on the total construction cost and the total cost of the alternative design alternative and the difference according to the original design for each detailed space for the analysis result that can be compared between the original design and alternative design Example drawing. As can be seen in FIG. 147, when the alternative design is adopted, the total savings are 131,462,237 won. As can be seen in Figure 148, it can be seen that the 32,865,559 won is reduced for the detailed space of the second floor library 2.

Likewise, when there are n alternative design elements (n is an integer), there are mij original design elements that are deleted or changed by the ni for each ni. At this time, when the VE assistance information generation engine 1300c generates the analysis information, the construction cost of the original design plan for the mij changed by ni and the construction cost of the alternative design element related to the ni for each alternative design element ni may be determined. Can be presented for comparison.

On the other hand, the VE support information generation engine 1300c may compare and provide the sum of the cost information of the construction cost for all ni, and the sum of the sum of all the cost of the cost of mij for all ni. In the present invention, for convenience of description, two types of work in the alternative design, two types of work in the original design affected by the alternative design, but this is only for the convenience of explanation, it will be understood that the work related to the alternative design may also be n pieces of work. However, it will be obvious that the present invention is applicable in such a situation.

149 is VE support information of the present invention generated by the VE support information generation engine 1300c, and the construction cost for the construction cost and the alternative design plan according to the original design plan for each construction type and the rough construction cost configuration item differing between the original design plan and the alternative design plan. And an analysis drawing that provides information on the difference and compares the construction cost between the original design and the alternative design. 150 is the VE support information of the present invention provides the construction cost and the difference of the construction cost and the difference between the original design proposal and the alternative design proposal by construction type and detailed construction cost configuration items that differ between the original design proposal and the alternative design proposal. One exemplary diagram of analytical results for comparison of cost of alternative designs. As can be seen in Figures 149 to 150, the savings for each construction cost item for the original design and the alternative design is accurately calculated, can be compared and output at a glance.

Meanwhile, in the above, the comparison information is generated for each detailed space, but it will be apparent to those skilled in the art that the VE assistance information generation engine 1300c may also output a comparison for each part. The construction cost information processing system according to the present invention generates the cost basis data for each part including the information for each part, the cost history related to the work in accordance with the original design proposal and the work plan according to the alternative design plan Relevant cost breakdowns can be compared by segment. In order to do this, each part should correspond to each type by 1: n in relation to quantity. That is, when there are n parts in one detail space, one or more types of work are corresponding to each of the n parts, and each work type must include construction quantity information for each part-detailed space. Through comparison of each part as described above, it can be seen how the alternative design can reduce how much construction cost in which part. On the other hand, the construction construction cost information processing system of the present invention, when a plurality of models corresponding to the alternative design, extracts which parts corresponding to the type of work by combining a plurality of models or a plurality of models, and in which site according to the alternative design You can produce output that tells you how much you can save. This will show where the alternative design is related and how much construction costs can be saved (and in some cases raised) in that area.

151 is a unit price information analysis table for each model of the original and alternative design changes. FIG. 151 shows the change in terms of total unit price information, material cost, labor cost, and expense according to the type of material and labor for each type of work changed for the original design and the alternative design.

The construction cost information processing system of the present invention includes an interface module 1100. The interface module 1100 has an acquisition unit that receives various data such as quantity information for each type of work-space, cost information for each type of work, and cost rate information. On the other hand, there is an output selection information acquisition unit 1120 for receiving the output desired by the user, the construction cost information processing system 1000 processes the output selection information obtained by the output selection information acquisition unit 1120, Generate output The generated output is provided to the user computer 2000 through the output providing unit 1130 of the present invention.

When selecting the output as shown in FIG. 150, the output selection information acquisition unit 1120 receives selection information about the form of the output from the user. The selection information may include information to be included in the horizontal axis (in this case, construction cost information and total information for each component of construction cost), and work information having a difference between the original design plan and the alternative (improved) design plan. When there is such a selection, the VE assistance information processing unit 1310 of the VE assistance information generation engine 1300c performs construction cost information for each construction cost item for the selected work type of each original design plan and construction cost for the selected work model of the alternative design plan. Cost information is obtained from the cost breakdown basic data associated with the original design proposal and the cost breakdown basic data associated with the alternative design scheme, and the respective cost cost information is presented by the construction cost construction items, and both are calculated by the construction cost by the construction cost. Provide as supporting analysis information. In this case, when there are n alternative design items, the n items may be presented at once, processed individually, or may be processed by grouping several groups. Such grouping is at the user's option.

The user computer 2000 using the construction cost information processing system 1000 of the present invention may be not only an individual user but also at least one predetermined system user, and the system user may include a 3D CAD system, a VE system, and an EVMS. At least one of a system, a construction appraisal information processing system, a planned price preparation system, a cost analysis system, a construction project management system, a construction cost settlement system, a construction supervision system, a BIM support system, a construction client side system, and a construction performer side system may be used. Meanwhile, the construction cost information processing system 1000 may function as a part of the system user, may be included in the system user, or may function in conjunction with the system user. It will be obvious that the interworking may include calling some or all functions, transmitting and receiving specific information, and the like.

The present invention can be used in a variety of construction-related industries, such as the service industry, construction information industry to support the construction industry and construction industry.

1000: Construction Cost Information Processing System
1100: Interface Module
1110: data acquisition
1111: Cost Breakdown Basic Data Acquisition Department
1112: builders get ready-made data
1113: Acquired order data from the client
1120: obtain output selection information
1130: output providing unit
1140: obtain spatial object selection information
1150: external system interface unit
1200: Cost Breakdown Basic Data Generation Engine
1210: Extended Cost Information Generation Engine
1220: aggregate data generation unit
1300a: Ready-made information engine
1300b: Cost History Information Generation Engine
1300c: VE support information generation engine
1310: part unit ready information processing unit
1320: output generation unit
1321: output generation unit
1322: output form data section
1300a-1: Builder's ready-made information generating engine
1300a-2: Owner's side ready information generation engine
1400: DB unit
1410: acquisition data storage
1411 unit price information data
1412: quantity calculation information data
1413: cost rate information data part
1414: engineering data section
1415: spatial data portion
1416: builder's side information input data section
1417: Owner's side information input data section
1420: generation data storage unit
1421: aggregate data storage
1422: output information storage unit
1423: specialized information storage unit
1424: builder's side information generation data section
1425: Owner's side information generation data portion
1500: management module
1510 Cost Rate Information Management Department
1520: user management
2000: your computer
2100: builder's side data input terminal
2200: orderer-side data input terminal
3000: Contractor side system
4000: Owner side system
5000: Third System
6000: network

Claims (11)

In the information processing method of the construction cost information processing system, the construction cost information processing system,
(A) obtaining space selection information for at least one space;
(B) receiving at least one piece of cost item reference information related to the space or using preset fee item reference information for the space from which the selection information has been obtained;
(C) generating construction cost information for each sub-space of the space for which the selection information has been obtained for each of the received cost item criteria;
(D) generating construction cost ranking information for each sub space based on the cost item basis as construction cost information for each sub space;
Generating construction cost information for each of the sub-spaces,
(a) obtaining at least one sub-space-specific construction quantity information;
(b) obtain unit price information and cost rates for each type of work included in the construction quantity information, and generate the indirect construction cost information for each type of work by referring to the unit price information and the cost rate information for each type of work, and generate Constructing extended unit price information for each type of work using indirect construction cost information and direct construction cost information;
(c) generating preset cost breakdown basic data using the extended unit price information for each type of work;
and (d) generating construction cost information for each of at least one sub space set in advance by referring to the cost detail basic data. The method of claim 1,
In the step (A), wherein the space is at least one of at least one or more subspaces including at least one or more areas, or at least one of at least two subspaces including at least one or more subspaces The information processing method of the construction cost information processing system characterized by the above-mentioned. The method of claim 1,
The cost item criterion of the cost item criterion information is
Regarding at least one sub space constituting the space, the total construction cost for each sub space, the direct construction cost for the sub space, the indirect construction cost for the sub space, or the expenses, the direct construction cost for each sub space, the construction cost for each item, and the sub space An information processing method of a construction construction cost information processing system, characterized in that at least one of the construction costs for each indirect construction cost configuration item for each space. The method of claim 1,
The subspace is
When the space is a subspace, at least one or more portions included in the subspace,
When the space is an upper space including at least one subspace, the subspace is provided.
And when the space is a next higher space that includes at least one higher space, the space becomes the higher space. The method of claim 1,
(E) visualizing the generated construction cost ranking information for each subspace on a drawing image displaying the subspace; and the information processing method of the construction cost information processing system, further comprising. The method of claim 1,
The space selection information obtained in the step (A) is obtained through the selection of the spatial object in the 3D CAD system or BIM system information processing method of the construction cost information processing system.
The method of claim 1,
And the cost item reference information is cost item reference information for each type of construction. 8. The method of claim 7,
And said work type is a work related to a space in which said selection information has been obtained. The method of claim 1,
At least one or more species
The construction type is the construction construction cost information processing for the at least one or more types of work received the selection information on the type of work from the user using the construction cost information processing system, or all related to the space received the selection information How the system processes information. 8. The method of claim 7,
The cost item criterion is extended to the construction cost information including the material cost corresponding to the type of work, the labor cost corresponding to the type of work, the cost corresponding to the type of work, the indirect construction cost of each indirect construction cost configuration item corresponding to the material cost, and the labor cost. According to the construction cost information processing system, characterized in that any one or more of the extended construction cost information including the indirect construction cost of each corresponding indirect construction cost configuration item, and the expansion construction cost information including the indirect construction cost of each indirect construction cost configuration item corresponding to the expenses. Information processing method.
The method of claim 10,
According to the cost item criteria, the cost of materials per individual material corresponding to the type of work for each type of work, the labor cost of each labor corresponding to the type of work, the cost of individual expenses corresponding to the type of work, and the indirect construction cost corresponding to the material cost of each individual material Extended construction cost information including indirect construction costs, Extended construction cost information including indirect construction costs for each indirect construction cost corresponding to the labor costs of each individual labor and Expansion including indirect construction costs for each indirect construction cost corresponding to the expenses for the individual expenses An information processing method of a construction cost information processing system, characterized in that any one or more of construction cost information.

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