KR20100104542A - Storage medium storing defect data and management system - Google Patents

Abstract

PURPOSE: A storage medium which defect information is stored and a system for managing defect are provided to supply defect information and repair cost according to defect occurrence to design step and construction step, thereby reducing the maintenance cost which will be generated in the future. CONSTITUTION: A defect management server(100) has a defect information DB(110) storing defect information about defect which occurred during constructing a apartment house. A defect management server classifies the defect information according to the classification standard requested from a connection user terminal. The defect management server provides the classified defect information to the user terminal. The classification standard comprises a work type and a space classification. The stored defect information is searched according to the construction information and cavity information.

Description

Storage medium storing defect data and management system

The present invention relates to a defect management system and a storage medium storing defect information in the design and construction of a multi-family house, by providing the designer and the builder with defect information that may occur after the construction of the multi-family house is completed. will be.

1 is a flowchart illustrating a defect management process of a conventional multi-family house, which is a defect repair process of a construction company which is generally performed.

As shown in the figure, if a customer who is a resident finds a defect, he / she may apply for a report of the defect by telephone, fax, internet, or visit the management office, and after receiving the fault by the construction department in charge of the construction company, classify and analyze the defect. According to the head office, or instruct the supplier's representative to deal with the defect. Each person in charge submits a confirmation letter to our head office after the repair work and checks the customer's satisfaction. If the customer is satisfied, complete the defect processing.

However, if the customer is not satisfied, the head office should analyze the fault again and consult with the supplier representative to take care of the fault. Therefore, there is a cost of defect repair in the process of repair.

However, the prior art as described above has the following problems.

In other words, the lack of precautions is increasing the economic burden on construction companies. Defect repair guarantee system is responsible for all the defects of the finished house to the construction company, which will be covered by defect guarantee amount of 3% of construction cost. Therefore, due to the provision of a 3% defective repair guarantee, the endowment of defects has been fulfilled, creating an officially accepted climate. As a result, endless disputes with consumers over defect guarantee deposits often occur.

In addition, in the prior art, since all the responsibilities of the defect are transferred to the construction company after the completion of the house, the contractor is not given responsibility in the design stage and the construction stage in the design stage, and thus there is a problem that the defect prevention is not faithfully performed.

The present invention has been made to solve the above-mentioned conventional problems, the object of the present invention is to provide the designers and builders of the projected defects expected to provide the contents of the expected defects to design and construct the apartments in consideration of the expected defects To provide a defect management system and a database of defect information therefor.

Another object of the present invention is to provide a defect management system and a defect information system for providing defect information and repair costs according to defects at the design and construction stages so that designers and builders can reduce repair costs in the future. To provide.

According to a feature of the present invention for achieving the object as described above, the storage medium storing the defect information according to the present invention is stored in the defect information generated during the construction of the apartment house is provided to the defect management system: Work type classification information classified according to the construction contents that caused the defect; Spatial classification information classified according to the location of the defect; And defect information on the specific content of the defect: the space represents a subspace (room) constituting the unit plane: the region represents a surface non-surface entity constituting the space.

In this case, the defect information may further include cost information required to repair the defect.

The defect information may further include image information of the generated defect.

The defect information may further include project information regarding a construction project in which the defect occurs.

On the other hand, the present invention comprises a defect information database for storing the defect information, including the type, type, type of construction, defect generation space, and site information of the defect occurrence construction for the defects occurring during the construction of the multi-unit housing, access to the defect information A defect management server for classifying according to the classification criteria requested from the user terminal and providing the same to the user terminal; And a user terminal connected to the defect management server. The classification criteria include a defect management system including a classification according to construction and a location of a defect. Include.

Here, when the classification criterion is the type classification, the defect management server may search for and output defect information stored in the defect information database according to the type and type information.

When the classification criterion is the spatial classification, the defect management server may search and output defect information stored in the defect information database according to the space and part information.

In addition, the defect information database may further store any one or more of repair cost information required to repair the defect, image information of the generated defect, or project information on a construction project in which the defect occurred.

Meanwhile, the defect management server may classify the defect information according to the type of work classification, calculate and provide a defect repair cost for each classified defect information.

The defect management server may classify the defect information according to the spatial classification, calculate and provide a defect repair cost for each of the classified defect information.

In addition, the defect management server, classifies and provides defect information according to the classification criteria requested from the user terminal; The user may input whether or not to review the provided defect information, classify the defect information reviewed by the user and the unreviewed defect information and provide the same to the user terminal.

In the defect management system according to the present invention as described above, the following effects can be expected.

In other words, it reduces the occurrence of defects in the construction of a multi-family house, it has the advantage that can be pursued to improve the economic aspects and credibility by reducing the cost of defect repair repairs and minimizing the defect guarantee deposit.

In addition, it is necessary to make efforts to prevent the occurrence of defects voluntarily, since defects can be given responsibility for defects at the design and construction stages, deviating from the current practices that are considered as the responsibility of the construction company. There is an advantage to this.

In addition, there is an advantage to protect consumers because it can minimize the quality of housing and consumer disputes.

On the other hand, there is an advantage that can provide a turning point that replaces the concept of defect of the existing after-care to the modern concept of proactive preventive management.

Hereinafter, a structure of a defect management system and a database storing defect information according to the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a block diagram showing the configuration of the finishing material information management system according to a specific embodiment of the present invention, Figure 3 is a schematic diagram showing a hierarchical structure of the defect information database constituting the defect management system according to the present invention. 4 is an exemplary diagram showing the configuration of defect information stored in a defect information database constituting a defect information management system according to the present invention.

As shown in FIG. 2, the defect management system according to the present invention includes a defect management server 100 configured to include a defect information database 110 and a designer terminal 200 connected to the defect management server 100. It is configured to include a constructor terminal (300).

At this time, a designer accessing the defect management server 100 receives defect information generated in the facility from the defect management server 100 and designs a building in consideration of preventable defects in the design stage.

In addition, the contractor accessing the defect management server 100 receives the defect information generated in the facility from the defect management server 100, and performs the construction in consideration of preventable defects at each stage (construction) of the construction. .

On the other hand, the defect management server 100, as described above, is configured to include a defect information database 110.

The defect information database 110 is composed of five hierarchies, as shown in FIG. The hierarchy is divided into projects, divisions, construction, engineering, space, and parts.

That is, as shown, the defect information stored in the defect information database 110 is commonly divided into 'project', 'facilities', 'division'. According to the work classification, they are classified into 'construction' and 'work', respectively.

The defect information database 110 is classified differently according to the type classification and the space classification, so that the designer and the builder can search for the defect information using different classification systems.

In this case, the project refers to a project of the building complex, and may be, for example, the name of a complex, a tool name, or a redevelopment complex in a new town.

In addition, the facility refers to each component constituting the project, and may be an apartment building, a landscaping in a complex, a shared use facility, or the like.

On the other hand, the division is divided into parts constituting the facility, for example, it may be a common part and unit households.

Next, the work for classifying the respective divisions by construction indicates the type of work in which the defects are generated. For example, the work may be divided into a building work and an electric work.

In addition, the type of work is to divide each of the construction according to the type of work, for example, in the case of the building construction may be divided into plastering, storage, waterproofing, insulation, tiles and the like.

Meanwhile, a space for dividing the divisions according to the space classification refers to a room entity associated with a unit plane, and may be, for example, a bedroom, a living room, a bathroom, a kitchen, a balcony, or the like.

In addition, the part refers to the surface (eg floor, wall, ceiling) and non-surface objects (eg furniture, window and door lighting, lighting fixture, bathroom material, etc.) constituting the space.

Meanwhile, the defect information database 110 is configured and stored in a form corresponding to the above hierarchy.

As shown in FIG. 4, the defect information includes a project, a facility, a division, a construction, a work type, a space, a part, a defect content, a repair cost, and image information.

The contents of the project, facility, division, construction, construction, space, and parts are as described above.

That is, the project information refers to the information indicating the project of the building complex in which the defect occurred, the facility information refers to the information about each component constituting the project, the division information refers to the The information is broken down into parts.

On the other hand, the construction information refers to the information indicating the type of construction that the defect occurred, the work type information refers to the detailed information divided by each type of construction according to the type of work.

In addition, the spatial information refers to information representing the real object associated with the unit plane, and the site information refers to the surface (eg floor, wall, ceiling) and non-surface objects (eg furniture) constituting the space. , Window, lighting, bathroom, etc.).

On the other hand, the flaw content refers to the information briefly described to describe the actual flaw content so that the designer or the builder knows what is occurring, for example, as shown, 'each generation balcony Structural cracks and leaks', and 'leakage due to poor construction of each wall'.

In addition, the repair cost refers to the cost of performing the repair on the defect.

The image is information representing an image of the defect portion.

In this case, the image file is stored as separate image files, and as shown in FIG. 4, the image information may be performed by storing a file name of the image file.

Looking at this from the point of view of the inputter to build the defect information database 110, if any defect occurs, the project and facility that input the project, facility, division, space, site where the defect occurred, and caused the defect to occur Is stored. In this case, if the cause of the defect is not a single type of work but a combination of a plurality of types of work, one or more of the construction and type information may be stored. In addition, the defect is repaired and repair cost information generated for the defect is stored, and a file name of photographing the defect image is stored.

Hereinafter, a method of operating a defect management system according to the present invention will be described in detail.

5 is an exemplary image for performing defect prevention work for each space using a defect management system according to the present invention, Figure 6 is an exemplary image for performing defect prevention work for each type of work using the defect management system according to the present invention, Figure 7 An example image of calculating a defect cost by space using a defect management system according to the present invention is illustrated. FIG. 8 is an example image of calculating a defect cost by a type using a defect management system according to the present invention.

The defect management system according to the present invention provides the defect information to the connected designer terminal 200 and the builder terminal 300.

To this end, the defect management system classifies the defect information stored in the defect information database 110 according to the criteria requested by the user such as the designer or the builder and provides the defect information to the user.

As shown in FIG. 5, when a user (mainly a designer) requests defect information that can be generated for each space, the defect management system classifies and provides defect information for each space.

In detail, the defect management server 100 receives a hierarchy of a project, a facility, a classification (common hierarchy) and a space and a location through a user application, and a space corresponding to the hierarchy entered by the user. Search for each piece of defect information and provide it to the user.

In this case, the user may review the defect item and select and input the defect item whose review is completed. In this case, the user may distinguish the defect information reviewed from the unreviewed item and output the classified information.

On the other hand, as shown in Figure 6, when the user (mainly the contractor) requested the defect information that can be generated by the type of work, the defect management system classifies the defect information for each type and provides.

That is, as shown, the defect management server 100 receives the hierarchical (common hierarchy) and spatial and industrial hierarchical information on the project, facilities, classification, and search for defect information corresponding to the hierarchical input by the user To the user.

At this time, of course, the user may be able to distinguish the defect information reviewed from the unreviewed item and output it.

5 and 6 illustrate that the construction hierarchy is located in the common hierarchy, but this may vary according to the configuration of the hierarchy and the screen configuration of the application.

On the other hand, the defect management system may calculate the repair cost according to the occurrence of defects by space or by type using the defect information.

Therefore, the designer can recognize the design part that should be weighted for the consideration of defects in the design by reviewing the cost of defects by space, and the builder can determine the type of work to be constructed in consideration of defects by type of work. .

The rights of the present invention are not limited to the embodiments described above, but are defined by the claims, and those skilled in the art can make various modifications and adaptations within the scope of the claims. It is self-evident.

The present invention relates to a defect management system and a storage medium storing defect information in the design and construction of a multi-family house, by providing the designer and the builder with defect information that may occur after the construction of the multi-family house is completed. According to the present invention, it is possible to reduce the occurrence of defects in the construction of a multi-family house, and to improve the economic aspect and the reliability of the construction company by reducing the defect repair cost and the defect repair deposit.

1 is a flowchart illustrating a defect management process of a conventional multi-family house.

Figure 2 is a block diagram showing the configuration of the finishing material information management system according to a specific embodiment of the present invention.

Figure 3 is a schematic diagram showing a hierarchical structure of the defect information database constituting the defect management system according to the present invention.

4 is an exemplary diagram showing a configuration of defect information stored in a defect information database constituting a defect information management system according to the present invention.

5 is an exemplary image for performing a defect prevention work for each space using a defect management system according to the present invention.

Figure 6 is an exemplary image of the defect prevention work for each type of work using the defect management system according to the present invention.

Figure 7 is an example image for calculating the defect costs by space using the defect management system according to the present invention.

8 is an exemplary image for calculating the defect cost by type of work using the defect management system according to the present invention.

* Description of the symbols for the main parts of the drawings *

100: defect management server 110: defect information database

200: designer terminal 300: builder terminal

Claims (11)

The defect information generated in the construction of the MDU is stored and provided to the defect management system: The above defect information, A work classification information classified according to the construction contents that caused the defect; Spatial classification information classified according to the location of the defect; And Consists of defect information about the specifics of the defect, including: The space represents the subspace (real) constituting the unit plane: The site is a storage medium storing defect information, characterized in that representing the surface, non-surface objects that make up the space. The method of claim 1, The above defect information, The storage medium storing the defect information, characterized in that it further comprises cost information required to repair the defect. The method of claim 2, The above defect information, The storage medium storing the defect information, characterized in that it further comprises image information of the generated defect. The method of claim 3, wherein The above defect information, The storage medium storing the defect information, characterized in that it further comprises project information about the construction project in which the defect occurred. It includes a defect information database that stores defect information including the type, type, type of work, defect generation space, and site information on defects generated in the construction of a multi-family house, and requests the defect information from the connected user terminal. A defect management server for classifying according to the classified criteria and providing the same to the user terminal; It is configured to include a user terminal connected to the defect management server: The classification criteria, A defect management system comprising a work classification classified according to a construction causing a defect and a space classification classified according to a location of a defect. The method of claim 5, The defect management server, When the classification criteria is the work classification, The defect management system, characterized in that for searching for the defect information stored in the defect information database according to the construction and type information and outputs. The method of claim 5, The defect management server, If the classification criteria is the spatial classification, The defect management system, characterized in that for searching for the defect information stored in the defect information database according to the space and part information. The method according to any one of claims 5 to 7, In the defect information database, At least one of maintenance cost information required to repair the defect, image information of the generated defect, or project information about a construction project in which the defect occurred, wherein the defect management system is further stored. The method of claim 8, The defect management server, And classifying the defect information according to the work classification, and calculating and providing a defect repair cost for each of the classified defect information. The method of claim 8, The defect management server, And classifying the defect information according to the spatial classification and calculating and providing a defect repair cost for each of the classified defect information. The method of claim 8, The defect management server, Classify and provide defect information according to a classification criterion requested from a user terminal; The defect management system, characterized in that the user inputs whether the review of the provided defect information, the defect information reviewed by the user and unreviewed defect information is classified and provided to the user terminal.

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