KR102666085B1 - Timber structure design service system based on web platform - Google Patents

Abstract

The present invention includes a user terminal that receives design condition information for the design of a wooden structure from a user and provides result information calculated from the design condition information to the user; The present invention relates to a web platform-based wooden structure design service providing system comprising a service providing server that is connected to the user terminal through a network and calculates result information in response to design condition information provided from the user terminal, the present invention According to this, the general public can easily access wooden structure design technology by entering conditions and input information, and experts can also easily provide technical support.

Description

Web platform-based wooden structure design service provision system {TIMBER STRUCTURE DESIGN SERVICE SYSTEM BASED ON WEB PLATFORM}

The present invention relates to a web platform-based wooden structure design service provision system, and more specifically, a web platform-based system that supports and sells technical services on the web so that general users can easily use wooden structure design programs using the web platform. This relates to a wooden structure design service provision system.

Typically, technical support for solving engineering problems is provided by experts, and these experts use programs for numerical calculation and condition determination for various analyzes and designs in the problem-solving process.

Usually, these programs are developed and sold as a program unit, or as a license to use them. In this process, programs are generally used only in the area of experts, and it is not easy to restrict updates or user rights.

Meanwhile, predicting the amount of materials used during the construction process and the corresponding price is supported by architectural engineering experts.

In particular, looking at the process for wooden building members, the calculation process to design appropriate wooden members is performed by a structural expert, and then the process is calculated by a construction or estimating expert using information on quantity and price. It's rough. At this time, the price of materials is generally predicted and calculated according to the price announced as the standard unit price, but due to the nature of wood, there may be a large difference in the unit price of materials depending on the business that imports or harvests and holds it. The reality is that a standardized design platform has not been established.

Patent Document 1: Republic of Korea Patent Publication No. 10-2020-0100270 (2020.08.26) Patent Document 2: Republic of Korea Patent Publication No. 10-2013-0104510 (2013.09.25)

The present invention is intended to solve the problems of the prior art as described above. The purpose of the present invention is to enable the general public to easily access wooden structure design technology by entering conditions and input information, and to enable experts to easily provide technical support. The goal is to provide a web platform-based wooden structure design service provision system.

Another purpose of the present invention is to provide a “two-way structural calculation” service that reflects and searches real-time information from constructors and material suppliers on the web, uses this search data to explore whether structural design is possible, and calculates actual estimates. The goal is to provide a web platform-based wooden structure design service provision system that can provide.

One aspect of the present invention for achieving the above object includes a user terminal that receives design condition information for the design of a wooden structure from a user and provides result information calculated from the design condition information to the user; A service providing server connected to the user terminal by a network and calculating result information in response to design condition information provided from the user terminal, wherein the service providing server determines the wooden structure structure from the design condition information. A service provision department that calculates design result information about the design and construction-related information about the wooden structure construction process; a database that stores basic data necessary for the service provider to run an algorithm for calculating the design result information and construction-related information; An information collection engine that collects and updates the basic data from the outside through a network, wherein the service provider includes: a design information algorithm for calculating the design result information regarding the structural design of the wooden structure; A process information algorithm for calculating process information among the construction-related information of the wooden structure; An estimate information algorithm for calculating estimate information among the construction-related information of the wooden structure; It relates to a web platform-based wooden structure design service providing system, characterized in that it includes a permit information algorithm for calculating permit information among the construction-related information of the wooden structure.

In the web platform-based wooden structure design service providing system according to an embodiment of the present invention, the design information algorithm calculates design result information by dividing the wooden structure into a light wooden structure or a heavy wooden structure, depending on the purpose and structure of the wooden structure. It could be.

In addition, the design result information includes: (a) designing the foundation of a wooden structure; (b) designing the load-bearing walls of wooden structures; (c) designing columns and beams of wooden structures; (d) designing joints of wooden structures; (e) designing the roof structure of the wooden structure; and (f) verifying whether the design result information generated in steps (a) to (2) is structurally stable.

In addition, the step of designing the load-bearing wall may be calculating the rigidity coefficient (k) of the wall according to the type of wood applied to the wall and calculating the wall size required for earthquake resistance according to the KDS design load.

In addition, the step of designing the load-bearing wall may be to design the load-bearing wall by calculating the maximum shear force value generated in the walls according to the arrangement structure between the plurality of walls and the rigidity of the walls when the torsional moment and accidental eccentric moment occurs. there is.

In addition, in the step of designing the column beam of the wooden structure, the allowable stress of the material is provided according to the wood species, the shape and size of the member with the load capacity required for the structure are provided according to the provisions of KDS, and the review and calculation process is performed. It may be providing a document to show.

In addition, the process of designing the joints of the wooden structures introduces and selects various configurations and types applied to buildings at joints using various joint fasteners such as nails, screws, bolts, and drift pins, including fitting between woods, It may be to provide a joint design plan with appropriate joint capacity, and also to provide documentation of the review process of joint strength.

In addition, the stage of designing the roof structure of a wooden structure includes the design of rafters, introduces various configurations and types in the traditional wooden structure with large hollows, and various truss structures, and allows selection of them, and allows safe selection by type. This may be to provide structural members and joints that resist loads.

In addition, the service provider may store different design information algorithms provided by multiple developers, and the service provider may calculate design result information through a design information algorithm selected by the user.

Additionally, a portion of the service fee paid by the user may be distributed to the provider of the design information algorithm selected by the user.

In addition, the quotation information algorithm may calculate quotation information based on the supply price of the wood supplier among the basic data collected by the information collection engine.

In addition, the process information algorithm may calculate process information generated by distinguishing the required procedures for wooden structure construction according to the design result information according to the required time.

In addition, the licensing information algorithm generates a structural safety confirmation or seismic design confirmation in the form of submission documents submitted to the licensing office for the design result information whose structural stability has been verified by step (f) above and finally confirmed by the user. It could be.

In addition, the basic data may include unit price information of materials required for the construction of wooden structures, material characteristic information, and related legal regulations information.

In addition, when wood is applied as a building material during steps (a) to (e), the service provider sequentially presents a list of applicable wood to the user, selects the applicable wood from the user, and applies it to the design. It could be.

In addition, the design condition information includes the scheduled construction start date, and if the scheduled construction start date entered by the user is after a preset time, the service provider will, according to the supply and demand status for each material predicted by the production production prediction algorithm for each material, The list of applicable woods may be sorted and provided to the user.

In addition, the production production prediction algorithm for each material is based on weather information up to the present, with the time before the receipt of wood for each material from the scheduled construction start date collected from the Korea Meteorological Administration database by the information collection engine as the starting date. This may be predicting the supply and demand of the relevant wood on the scheduled construction start date.

Additionally, the step of the user inputting the design condition information may be performed by the user sequentially selecting and inputting the design condition menu provided on the web platform.

Additionally, the design conditions menu may include a basic design conditions menu provided to the general public and a detailed design conditions menu provided to structural engineers.

In addition, the basic design conditions menu may be configured to include the purpose of the wooden structure, area, number of floors, maximum number of residents on each floor, and type of equipment installed on each floor.

Also, when the basic design conditions menu is selected, detailed design conditions corresponding to the input basic design conditions may be automatically calculated.

The web platform-based wooden structure design service provision system according to the present invention allows the general public to easily access wooden structure design technology by entering conditions and input information, and experts can easily provide technical support, so the general public can also easily provide technical support. It provides easy access to engineering technology and has the effect of improving the profit structure of experts.

In addition, according to the present invention, by providing a program for the numerical analysis and design calculation process necessary in the structural design process of a wooden structure on a web platform, the member size of the wooden structure can be easily determined, and price information can be linked to this to create a wooden structure. It has the effect of being able to easily calculate estimates.

In particular, according to the present invention, the price information and inventory of wood are updated in real time, the production potential of wood is predicted using weather information, and a list of applicable wood is sequentially presented to the user in conjunction with this, and the user can apply the wood. By selecting wood and applying it to the design, there is an effect of providing optimal wood structure design results at minimal cost.

Figure 1 is a block diagram of a web platform-based wooden structure design service providing system according to the present invention.
Figure 2 is a schematic diagram of data provided by the web platform-based wooden structure design service provision system of the present invention.
Figure 3 is a flowchart for calculating design result information in the present invention.
Figure 4 is an embodiment showing the load-bearing wall design process in the present invention.
Figure 5 is another embodiment showing the load-bearing wall design process in the present invention.
Figure 6 is an embodiment illustrating the wood selection process in the user input process in the present invention.
Figure 7 is an example of a user input web page in the present invention.
Figure 8 is an example of a safety certificate generated in the present invention.

Since the present invention can be modified in various ways and have various implementation examples, specific embodiments will be illustrated in the drawings and described in detail. However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all transformations, equivalents, and substitutes included in the spirit and technical scope of the present invention. In describing the present invention, if it is determined that a detailed description of related known technologies may obscure the gist of the present invention, the detailed description will be omitted.

Terms such as first, second, etc. may be used to describe various components, but the components should not be limited by the terms. The above terms are used only for the purpose of distinguishing one component from another.

The terms used in this application are only used to describe specific embodiments and are not intended to limit the invention. Singular expressions include plural expressions unless the context clearly dictates otherwise. In this application, terms such as “comprise” or “have” are intended to designate the presence of features, numbers, steps, operations, components, parts, or combinations thereof described in the specification, but are not intended to indicate the presence of one or more other features. It should be understood that it does not exclude in advance the possibility of the existence or addition of elements, numbers, steps, operations, components, parts, or combinations thereof.

The present invention relates to a web platform-based wooden structure design service provision system that supports and sells technical services on the web so that general users can easily use wooden structure design programs using the web platform.

Hereinafter, the web platform-based wooden structure design service providing system of the present invention will be described in more detail with reference to preferred embodiments and attached drawings. In this regard, Figure 1 is a block diagram of a web platform-based wooden structure design service providing system according to an embodiment of the present invention, and Figure 2 is a system of data provided by the web platform-based wooden structure design service providing system of the present invention. It is also a degree.

First, referring to FIGS. 1 and 2, the web platform-based wooden structure design service providing system of the present invention may be largely configured to include a user terminal 100 and a service providing server 200.

The user terminal 100 receives design condition information for wooden structure design from the user and provides result information calculated from the design condition information to the user, and the service providing server through a wired and wireless communication network including the Internet. It can be connected to (200). Specific examples of the user terminal 100 may include a tablet computer or mobile phone.

The service providing server 200 is for the web platform operator to provide design services to users. It is connected to the user terminal 100 through a network and produces a result in response to design condition information provided from the user terminal 100. It is intended to calculate and provide information. Here, design condition information refers to all data input by the user for the construction of a wooden structure. In addition, result information refers to all design results generated by the service providing server 200 by receiving the design condition information.

Specifically, as shown in FIG. 2, the result information may include design result information, which is the structural design result of the wooden structure, and construction-related information required for the wooden structure construction process. Here, the construction-related information may include process information, estimate information, and permit information.

In the present invention, the service providing server 200 may be configured to include a service providing unit 210, a database 220, and an information search engine 230.

The service providing unit 210 is a part that calculates construction-related information including design result information, which is the structural design result of a wooden structure, and various data necessary for the wooden structure construction process, from the design condition information.

The database 220 is a part that stores basic data necessary for driving an algorithm for calculating design result information and construction-related information in the service providing unit 210. The basic data may include unit price information of materials required for the construction of wooden structures, material characteristic information, and related laws and regulations information.

Additionally, the information collection engine 230 is a part that collects, stores, and updates the basic data from the outside through a network.

In the present invention, the service provider 210 may include a design information algorithm for calculating design result information regarding the structural design of a wooden structure. In addition, the service provider 210 includes a process information algorithm for calculating process information generated by distinguishing the required procedures for wooden structure construction according to the design result information according to the required time, and the information collection engine 230 Among the basic data collected by ), an estimate information algorithm to calculate the cost required to construct a wooden structure based on the unit price of the wood supplier, and a license information algorithm to calculate license information related to the permits required for the construction of a wooden structure. may include.

In the present invention, the design information algorithm is a program for structural design of wooden structures, and may be configured to include a wooden structure design program package running on a web platform.

The wooden structure design program package can calculate design result information by dividing the wooden structure into a light wooden structure or a heavy wooden structure, depending on the purpose and structure of the wooden structure. Here, the light frame wooden structure design program is applied to wall structures of three stories or less, and design result information can be calculated based on the "KDS 41 33 07 light frame wooden structure" standard. Additionally, the heavy timber structure design program can be applied to wall and frame structures regardless of the number of floors.

In relation to this, Figure 3 is a flow chart for calculating the design result information, and Figures 4 and 5 are an embodiment showing the load-bearing wall design process.

Referring to Figures 3 to 5, the design result information includes (a) designing the foundation of the wooden structure, (b) designing the load-bearing wall of the wooden structure, and (c) columns and beams of the wooden structure. It can be calculated including the steps of designing, (d) designing the horizontal members of the wooden structure, (e) designing the joint of the wooden structure, and (f) designing the roof structure of the wooden structure. there is. In addition, the design result information may be calculated in step (g), including the step of verifying structural stability for the design result information generated in steps (a) to (f).

Looking at the steps of designing the load-bearing wall again with reference to FIGS. 4 and 5, first, the rigidity coefficient (k) of the wall is calculated according to the type of wood applied to the wall, and the allowable displacement (△) is added to the rigidity coefficient (k) Multiply to calculate the load. Load calculations must comply with KDS 41 10 15, the Korean design load standard. Next, the wall size required for earthquake resistance is calculated according to the KDS design load. In addition, when a torsional moment or an accidental eccentric moment occurs, the load-bearing wall can be designed by calculating the maximum shear force value generated in the walls according to the arrangement structure between the plurality of walls.

In the present invention, different design information algorithms provided by multiple developers may be stored in the service provider 210. In other words, external developers can register the design program they developed on the web platform of the present invention. As a result, the service provider 210 can calculate design result information through the design information algorithm selected by the user. In addition, a portion of the service fee paid by the user may be distributed to the provider of the design information algorithm selected by the user.

Accordingly, according to the present invention, external developers can register design programs they have developed on the web platform of the present invention, and users can select and use them, allowing external developers to generate profits and users to use various programs. becomes possible to utilize.

Meanwhile, in the case of wooden structures, the manufacturing of structural members is not completely free due to the nature of wood, and the material supplier's holding period is short, so there tends to be a large difference in cost depending on inventory availability. Moreover, there are times when the preference of the building owner, such as ‘Hinoki’ or ‘Red Pine’, is strongly reflected, so there are frequent cases where calculation is performed after determining whether it can be purchased (whether it can be manufactured) before using a structural calculation program. Meanwhile, for other structural materials, such as RC and steel, structural calculations are made first, and once the members are determined, they are constructed according to the price, that is, the “one-way structural calculation” method.

Therefore, according to the present invention, when wood is applied as a building material during the design stages (a) to (f), the service provider 210 sequentially presents a list of applicable wood to the user, and the user One of the features of the invention is to select applied wood from and apply it to the design.

Here, preferably, in order to facilitate the selection of non-expert users, a list of woods can be provided by sorting them in order of suitability for the material, and the suitability can be calculated through the strength, characteristics, and supply (price) of the wood. .

On the other hand, due to the nature of wood, the supply and demand fluctuations are large and thus the price fluctuations are large, so the price fluctuations can occur significantly due to the difference in supply and demand between the design time and the actual construction time (time of material purchase).

Accordingly, in the present invention, the supply and demand of the wood at the time of construction is predicted using a production production prediction algorithm for each material, and the suitability of the wood is calculated accordingly. This will be described in detail below.

For this purpose, the design condition information of the present invention is comprised of the expected construction start date. If the expected construction start date input by the user is after a preset time, the service provider 210 predicts the production volume for each material using a prediction algorithm. According to the supply and demand status of each material, the list of applicable woods is sorted and provided to the user.

At this time, the set time is preferably determined according to the fluctuation cycle of wood production, and may be determined according to the timing of wood cutting.

Specifically, the production production prediction algorithm for each material collects weather information from domestic and overseas Meteorological Administration databases by the information collection engine 230, and determines the time before the receipt of wood for each material from the collected construction start date. As a starting date, we predict the supply and demand (production volume) of the timber on the scheduled construction start date based on the weather information of the timber production area to date, and sort the list of timber according to suitability reflecting the predicted supply and demand to provide the user with the information. will be provided.

For example, if the age of cypress wood, that is, the optimal point of use, is after 15 years of age, and the expected construction start date is 2025, the supply and demand (production volume) as of 2025 is based on weather information from 2010 to the present. ) is predicted.

In this way, according to the present invention, not only does it update the price information and inventory of wood in real time, it also predicts future production of wood using weather information, and sequentially presents a list of applicable wood to the user in conjunction with this. By selecting applicable wood from the user and applying it to the design, it is possible to provide optimal wood structure design results at minimal cost.

Meanwhile, Figure 6 is an embodiment showing a wood selection process in a user input process, and Figure 7 is an embodiment of a user input web page.

Referring to Figures 6 and 7, the step of the user inputting the design condition information can be performed by the user sequentially selecting and inputting the design condition menu provided on the web platform. At this time, the design conditions menu may include a basic design conditions menu provided to the general public and a detailed design conditions menu provided to structural engineers.

In other words, the general public may not know the meaning or content of the detailed conditions required for the design of wooden structures, so the basic design conditions menu above includes the purpose of the wooden structure, area, number of floors, maximum number of residents on each floor, and installed facilities on each floor. It can be configured to include only basic information such as type.

Therefore, according to the present invention, when a user selects and inputs the basic design conditions menu, detailed design conditions corresponding to the input basic design conditions, such as dynamic load and static load, are automatically calculated. Of course, structural engineers can also directly enter the detailed design conditions menu.

As a result, not only structural engineers but also ordinary people unfamiliar with wooden structure design technology can easily use the program of the present invention.

Meanwhile, Figure 8 is an example of a safety certificate generated in the present invention. As shown in FIG. 8, the permit information algorithm has the structural stability verified in step (g) above, and a structural safety confirmation or earthquake-resistant design confirmation is submitted to the licensing authority for the design result information finally confirmed by the user. It can be created as a submission document form.

Accordingly, through the service according to the present invention, users can receive one-stop services from preparation of relevant documents required for design and construction permit application.

Although the preferred embodiments of the present invention have been described above, those skilled in the art can add, change, delete or add components without departing from the spirit of the present invention as set forth in the patent claims. The present invention may be modified and changed in various ways, and this will also be included within the scope of rights of the present invention.

For example, each component described as single may be implemented in a distributed manner, and similarly, components described as distributed may also be implemented in a combined form. The scope of the present invention is indicated by the claims described below rather than the detailed description above, and all changes or modified forms derived from the meaning and scope of the claims and their equivalent concepts should be construed as being included in the scope of the present invention. do.

The present invention relates to a web platform-based wooden structure design service provision system. According to the present invention, general users can easily use a wooden structure design program using a web platform, and external developers can also use the program they developed. By registering on a web platform, consumers looking for technology can easily connect with experts, and engineering engineers can easily share technology with each other, which has the effect of bringing about the development of technology.

100: user terminal
200: Service provision server
210: Service provision department
220: database
230: Information collection engine
300A, 300B, 300C: External algorithm provider
400: external portal

Claims (16)

A user terminal that receives design condition information for wooden structure design from the user and provides result information calculated from the design condition information to the user;
A service providing server connected to the user terminal through a network and calculating result information in response to design condition information provided from the user terminal; is configured to include,
The service providing server is,
a service providing unit that calculates design result information for the structural design of a wooden structure and construction-related information for the wooden structure construction process from the design condition information;
a database that stores basic data necessary for the service provider to run an algorithm for calculating the design result information and construction-related information;
It is configured to include; an information collection engine that collects and updates the basic data from the outside through a network,
The service provider department,
a design information algorithm for calculating the design result information regarding the structural design of the wooden structure;
A process information algorithm for calculating process information among the construction-related information of the wooden structure;
An estimate information algorithm for calculating estimate information among the construction-related information of the wooden structure;
It consists of a permit information algorithm for calculating permit information among the construction-related information of the wooden structure:
The design result information is,
(a) designing the foundation of a wooden structure;
(b) designing the load-bearing walls of wooden structures;
(c) designing columns and beams of wooden structures;
(d) designing horizontal members of wooden structures;
(e) designing joints of wooden structures;
(f) designing the roof structure of the wooden structure; and
(g) verifying whether the design result information generated in steps (a) to (f) is structurally stable; calculated including:
The service provider stores different design information algorithms provided by multiple developers, and the service provider calculates design result information through the design information algorithm selected by the user:
The quote information algorithm is,
Among the basic data collected by the information collection engine, estimate information is calculated based on the wood supplier's supply price:
The license information algorithm is,
For the design result information that has been verified for structural stability in step (g) above and finally confirmed by the user, generate a structural safety confirmation or seismic design confirmation in the form of submission documents submitted to the licensing office:
The above design conditions information includes the expected construction start date:
If wood is applied as a building material during steps (a) to (f) above,
A list of applicable woods is sequentially presented to the user, and the applicable woods are selected by the user and applied to the design.
The service provider department,
According to the wood supply and demand forecast at the scheduled construction start date predicted by the production volume prediction algorithm for each material, the list of applicable wood items is sorted and provided to the user:
The production production prediction algorithm for each material is,
Predicting the supply and demand of the wood on the scheduled construction start date based on the weather information to date, using the time before the receipt of wood for each material from the scheduled construction start date collected from the Korea Meteorological Administration database by the information collection engine as the starting date. A web platform-based wooden structure design service provision system characterized by:
According to paragraph 1,
The design information algorithm is,
A web platform-based wooden structure design service provision system that calculates design result information by dividing wooden structures into light or medium wooden structures, depending on the purpose and structure of the wooden structure.
delete According to paragraph 2,
The step of designing the load-bearing wall is,
A web platform-based wooden structure design service providing system that calculates the stiffness coefficient (k) of the wall according to the type of wood applied to the wall and calculates the wall size required for earthquake resistance according to the KDS design load.
According to clause 4,
The step of designing the load-bearing wall is,
A web platform-based wooden structure design service providing system that designs a load-bearing wall by calculating the maximum shear force value generated in the walls according to the arrangement structure between the plurality of walls when a torsional moment and accidental eccentric moment occurs.
delete According to paragraph 2,
To the provider of the design information algorithm selected by the user,
A web platform-based wooden structure design service provision system, characterized in that a portion of the service fee paid by the user is distributed.
delete According to paragraph 2,
The process information algorithm is,
A web platform-based wooden structure design service providing system that calculates process information generated by distinguishing the required procedures for wooden structure construction according to the design result information according to the required time.
delete According to paragraph 2,
The basic data is,
A web platform-based wooden structure design service provision system that includes unit price information of materials required for wooden structure construction, material characteristic information, and related legal regulations information.
delete According to paragraph 1,
The step where the user inputs the design condition information is,
A web platform-based wooden structure design service provision system that is performed by the user sequentially selecting and entering design condition menus provided on a web platform.
According to clause 13,
The design conditions menu is,
A web platform-based wooden structure design service provision system that includes a basic design conditions menu provided to the general public and a detailed design conditions menu provided to structural engineers.
According to clause 14,
The basic design conditions menu is,
A web platform-based wooden structure design service provision system that includes the purpose of the wooden structure, area, number of floors, maximum number of residents on each floor, and type of equipment installed on each floor.
According to clause 15,
When selecting the basic design conditions menu above,
A web platform-based wooden structure design service provision system characterized by automatically calculating detailed design conditions corresponding to the input basic design conditions.

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