KR101939996B1 - the modular 3D modeling system of hanok - Google Patents

Abstract

The present invention relates to a modular three-dimensional modeling system of a Korean-style house to model a Korean-style house using a unit member of a space unit, which is a space surrounded by four columns. The modular three-dimensional modeling system of a Korean-style house comprises: a roof unit (100); a wall body unit (200); and a proximal end unit (300).

Description

The modular 3D modeling system of hanok

In the present invention, the 3D modeling of hanok is not limited to the modeling on the CAD, but actual 3D units are arranged on a layout diagram in which actual models are assembled as units, and palaces, orientations, The present invention relates to a hanok modular 3D modeling system which can be visually confirmed.

Most of the palaces, palaces, pagodas, seowon, and hanok villages of cultural assets are lost, and hanok (map) is often passed down.

Therefore, the present inventor has tried to implement 3D modeling on a hanok layout diagram transmitted in 2D, and to realize proportions and shapes with eyes.

The present inventors constructed a model as a unit and installed the hanok by connecting the unit members as a module, which is a space consisting of four pillars of a hanok modular system as a module.

In the case of a model having a large scale, the unit member is divided into several members, and the unit member is divided into smaller members. In the case of a small-scale model, members are simplified to form a mass.

In addition, the bottom of the model is implemented as a puzzle applying customization and joining technique, which is the core technology of Korean traditional architecture, so as to naturally acquire customization and joining techniques of hanok.

By using QR code, information including history and history of cultural properties such as hanok is transmitted to user's mobile terminal, so that maximum learning effect can be achieved.

[Patent Document 1] Korean Patent No. 10-1145515 'Modeling Method of Hanok Members by Parametric Drive', May 04, 2012 [Patent Document 2] Korean Patent Publication No. 10-2014-0073748 " Feature-based Hanok Architecture Modeling System and Modeling Method ", June 17, 2014

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems of the related art. The purpose is as follows.

Through the present invention, an actual 3D modeling unit is arranged in a hanok layout (high map) which is transmitted in 2D to implement proportional and shape by eyes.

And we try to implement the arrangement of hanok by making a model as a unit and connecting the unit members as a module, which is a space consisting of four pillars of a hanok modular system.

In the case of a model having a large scale, the unit member is divided into several members, and the unit member is divided into smaller members. In the case of a small-scale model, members are simplified to form a mass.

In addition, the bottom of the model is implemented as a puzzle using a fitting and joining technique to naturally acquire customization and joining techniques, which are core technologies of Korean traditional architecture.

By using QR code, we want to transmit information including history and history of cultural properties such as hanok to portable terminal of user.

In order to solve the above-described technical problem, the present invention is for modeling a hanok using a unit unit, which is a space surrounded by four columns,

A roof part 100 which is a unit member in a unit of a unit;

A wall unit 200 which is a unit unit for each unit connected to the lower portion of the roof unit 100; And

A proximal end 300 of the entire hanok that is coupled to the lower part of the wall part 200;

, ≪ / RTI >

The roof part 100, the wall part 200, and the base part 300 are dry-assembled by a fitting method,

An assembly of the roof part 100 and the wall part 200, which is a unit unit in a unit of a unit, is combined into several chambers to form the overall structure of the hanok as an entire assembly,

And the entire assembly is coupled to the proximal end 300.

In addition, for the purpose of modeling the hanok using a unit unit of a unit, which is a space surrounded by four columns,

A floor unit 400, which is a unit unit of a unit consisting of a roof part 100, a wall part 200 formed integrally with the lower part of the roof part 100, and a bottom part 400 formed integrally with the lower part of the wall part 200, );

, ≪ / RTI >

A plurality of the ground portions (400) are dry-assembled by a fitting method,

The land portion 400, which is a unit unit in a unit of a unit, is connected to a plurality of spaces to form an entirety of the hanok as an entire assembly,

And the entire assembly is coupled to an upper portion of the base portion 300.

In order to model a fence of a hanok using a unit member,

The fence unit 500 which is a unit member is composed of 'one shape 510', 'b shape 520', 'dome shape 530', or 'cross shape (not shown)

The hanok modular 3D modeling system is characterized in that a plurality of the fence units (500) are dry-assembled by a fitting method.

In order to model the main gate of a hanok using a unit member,

The main door unit 700, which is a unit member, has slopes open according to the elevation,

A plurality of the main unit 700 can be dry-assembled by a fitting method,

And can be dry-assembled by the fence unit 500 or the corridor unit 600 with a fitting method.

And it is composed on the hanok's layout map of the hanok including palaces, oriental religions,

The unit layout of the hanok is divided into a plurality of unit puzzles 800,

And a plurality of the unit puzzles (800) are combined using fitting and joining techniques.

On top of the plurality of unit puzzle 800 assemblies,

And a Hanok Modular 3D modeling system capable of combining the Hanok Modular 3D modeling system corresponding to the Hanok layout.

According to the present invention, the following effects are expected.

The present invention realizes 3D modeling of a hanok layout that is transmitted in 2D, and realizes proportions and shapes with eyes.

Then, the hanok is arranged by building a model as a unit by connecting one unit, which is a space made up of four pillars of the hanok, as a module and connecting the unit members.

In the case of a model having a large scale, the unit member is divided into several members, and the unit member is divided into smaller members. In the case of a small-scale model, members are simplified to form a mass.

In addition, the floor of the model is realized as a puzzle applying customization and joining technique, which is a convention technique of Korean traditional architecture,

By using QR code, information including history and history of cultural properties such as hanok is transmitted to user's mobile terminal, so that maximum learning effect can be achieved.

Fig. 1 is a layout view of a hanok including a palace, a pagoda, a seowon, and a hanok village.
Fig. 2 is a diagram illustrating the structure of a hanok modular 3D modeling system according to the present invention.
FIG. 3 is a model of members used in the Hanok Modular 3D modeling system of the present invention on CAD.
FIGS. 4 and 6 are views illustrating the Hanok Modular 3D modeling system of the present invention being assembled and simulated on CAD.
FIG. 7 is a view showing the coupling methods of the members of the Hanok Modular 3D modeling system according to the present invention.
FIG. 8 is a view showing the structure of the Hanok Modular 3D modeling system according to the present invention.
FIG. 9 is a view showing prototypes of the members of the Hanok Modular 3D modeling system of the present invention using a 3D printer.
FIG. 10 shows a coupling method of the roof part and the wall part manufactured in FIG.
Fig. 11 is a view of the process completed through the process of Fig.
FIG. 12 shows the types of base ends used in the Hanok Modular 3D modeling system of the present invention.
FIGS. 13 and 14 are photographs showing how prototype products are assembled and combined with 3D printers using the respective components of the Hanok Modular 3D modeling system of the present invention.
15 is a conceptual diagram of another embodiment of the Hanok Modular 3D modeling system of the present invention.
FIG. 16 is a view showing a prototype of a Hanok Modular 3D modeling system of the present invention as a 3D printer and combining them.
Fig. 17 shows a state in which the prototype of Fig. 16 is coupled to the base end.
FIG. 18 shows a coupling relationship between corridor units in the Hanok Modular 3D modeling system of the present invention.
FIG. 19 shows the coupling relationship between the fence units in the Hanok Modular 3D modeling system of the present invention.
Fig. 20 is a view for simulating assembling on Fig. 19 on a CAD.
FIG. 21 shows a prototype of a fence unit using a 3D printer in the Hanok Modular 3D modeling system of the present invention.
Fig. 22 is a view showing the prototypes of Fig. 21 combined.
Fig. 23 is a view showing an assembly simulation on Fig. 18 on a CAD.
FIG. 24 is a view showing how a corridor unit and a main door unit are assembled and simulated on a CAD in the Hanok Modular 3D modeling system of the present invention.
Fig. 25 shows a prototype manufactured by using a 3D printer in Fig.
26 is a photograph of a unit puzzle in the Hanok Modular 3D modeling system of the present invention.
Fig. 27 shows an embodiment of a fitting and joining technique between unit puzzles in Fig. 26. Fig.
FIGS. 28 and 29 are photographs of a coupling method between unit puzzles.
FIG. 30 is a view showing a completed assembly of unit puzzles in the process of FIGS. 26 to 29; FIG.
FIG. 31 is a final view of FIG.
32 and 33 are views showing a state in which a main building assembly corresponding to a hanok is combined.
Figs. 34 and 35 are views showing a state in which a side wall unit and a corridor unit corresponding to a hanok are combined.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Fig. 1 is a layout view of a hanok including a palace, a pagoda, a seowon, and a hanok village.

Fig. 2 is a diagram illustrating the structure of a hanok modular 3D modeling system according to the present invention.

FIG. 3 is a model of members used in the Hanok Modular 3D modeling system of the present invention on CAD.

FIGS. 4 and 6 are views illustrating the Hanok Modular 3D modeling system of the present invention being assembled and simulated on CAD.

FIG. 7 is a view showing the coupling methods of the members of the Hanok Modular 3D modeling system according to the present invention.

FIG. 8 is a view showing the structure of the Hanok Modular 3D modeling system according to the present invention.

FIG. 9 is a view showing prototypes of the members of the Hanok Modular 3D modeling system of the present invention using a 3D printer.

FIG. 10 shows a coupling method of the roof part and the wall part manufactured in FIG.

Fig. 11 is a view of the process completed through the process of Fig.

FIG. 12 shows the types of base ends used in the Hanok Modular 3D modeling system of the present invention.

FIGS. 13 and 14 are photographs showing how prototype products are assembled and combined with 3D printers using the respective components of the Hanok Modular 3D modeling system of the present invention.

The present invention can be manufactured using a 3D printer, or can be manufactured by various methods such as injection and extrusion. The same is applied hereinafter.

As shown in Figs. 3 to 14,

In the Hanok Modular 3D modeling system of the present invention,

A hanok is modeled using a unit unit of a unit which is a space surrounded by four columns.

A roof part 100 which is a unit member in a unit of a unit;

A wall unit 200 which is a unit unit for each unit connected to the lower portion of the roof unit 100; And

A proximal end 300 of the entire hanok that is coupled to the lower part of the wall part 200;

, ≪ / RTI >

The roof part 100, the wall part 200, and the base part 300 are dry-assembled by a fitting method,

An assembly of the roof part 100 and the wall part 200, which is a unit unit in a unit of a unit, is combined into several chambers to form the overall structure of the hanok as an entire assembly,

And the entire assembly is coupled to the proximal portion 300.

The above or following method means customization and joining method which is a core technology of Korean traditional architecture.

15 is a conceptual diagram of another embodiment of the Hanok Modular 3D modeling system of the present invention.

FIG. 16 is a view showing a prototype of a Hanok Modular 3D modeling system of the present invention as a 3D printer and combining them.

Fig. 17 shows a state in which the prototype of Fig. 16 is coupled to the base end.

As shown in Figs. 15 to 17,

Another embodiment of the HANOK modular 3D modeling system of the present invention comprises:

A hanok is modeled using a unit unit of a unit which is a space surrounded by four columns.

A floor unit 400, which is a unit unit of a unit consisting of a roof part 100, a wall part 200 formed integrally with the lower part of the roof part 100, and a bottom part 400 formed integrally with the lower part of the wall part 200, );

, ≪ / RTI >

A plurality of the ground portions (400) are dry-assembled by a fitting method,

The land portion 400, which is a unit unit in a unit of a unit, is connected to a plurality of spaces to form an entirety of the hanok as an entire assembly,

And the entire assembly is coupled to the upper portion of the base portion 300.

FIG. 19 shows the coupling relationship between the fence units in the Hanok Modular 3D modeling system of the present invention.

Fig. 20 is a view for simulating assembling on Fig. 19 on a CAD.

FIG. 21 shows a prototype of a fence unit using a 3D printer in the Hanok Modular 3D modeling system of the present invention.

Fig. 22 is a view showing the prototypes of Fig. 21 combined.

Fig. 23 is a view showing an assembly simulation on Fig. 18 on a CAD.

As shown in Figs. 19 to 23,

Another embodiment of the HANOK modular 3D modeling system of the present invention comprises:

For modeling a fence of a hanok using a unit member,

The fence unit 500 which is a unit member is composed of 'one shape 510', 'b shape 520', 'dome shape 530', or 'cross shape (not shown)

The plurality of the fence units 500 are dry-assembled by a fitting method.

FIG. 18 shows a coupling relationship between corridor units in the Hanok Modular 3D modeling system of the present invention.

FIG. 24 is a view showing how a corridor unit and a main door unit are assembled and simulated on a CAD in the Hanok Modular 3D modeling system of the present invention.

Fig. 25 shows a prototype manufactured by using a 3D printer in Fig.

As shown above,

Another embodiment of the HANOK modular 3D modeling system of the present invention comprises:

For modeling the corridor of a hanok using a unit member,

The corridor unit 600 as a unit member is formed of 'one shape 610', 'b shape 620', 'dome shape (not shown)' or 'cross shape (not shown)

The corrugated unit 600 is dry-assembled by several fitting methods.

And

Another embodiment of the HANOK modular 3D modeling system of the present invention comprises:

For the purpose of modeling the main gate of a hanok using a unit member,

The main door unit 700, which is a unit member, has slopes open according to the elevation,

A plurality of the main unit 700 can be dry-assembled by a fitting method,

And can be dry-assembled by the fence unit (500) or the corrugated unit (600) by a fitting method.

26 is a photograph of a unit puzzle in the Hanok Modular 3D modeling system of the present invention.

Fig. 27 shows an embodiment of a fitting and joining technique between unit puzzles in Fig. 26. Fig.

FIGS. 28 and 29 are photographs of a coupling method between unit puzzles.

FIG. 30 is a view showing a completed assembly of unit puzzles in the process of FIGS. 26 to 29; FIG.

FIG. 31 is a final view of FIG.

32 and 33 are views showing a state in which a main building assembly corresponding to a hanok is combined.

Figs. 34 and 35 are views showing a state in which a side wall unit and a corridor unit corresponding to a hanok are combined.

As shown in Figs. 26 to 35,

Another embodiment of the HANOK modular 3D modeling system of the present invention comprises:

It is composed on a hanok layout of a hanok including palaces, oriental religions,

The unit layout of the hanok is divided into a plurality of unit puzzles 800,

The plurality of unit puzzles (800) are combined using a fitting and a joining technique.

At this time, the name of the corresponding fitting and joining technique can be embossed or engraved in the unit puzzle 800 or printed.

And the Hanok Modular 3D modeling system can be combined with the hanok layout map.

In addition, a QR code is attached to the hanok layout,

The QR code is stored in advance or linked to a site including the Cultural Heritage Administration, so that information including the history of the hanok or contents related to cultural properties can be transmitted to the mobile terminal of the user so as to maximize the learning effect.

In conclusion,

Through the present invention, an actual 3D modeling unit is arranged in a hanok layout (high map) which is transmitted in 2D, and proportional and shape are made by eyes.

Then, the hanok is arranged by building a model as a unit by connecting one unit, which is a space made up of four pillars of the hanok, as a module and connecting the unit members.

In the case of a model having a large scale, the unit member is divided into several members, and the unit member is divided into smaller members. In the case of a small-scale model, members are simplified to form a mass.

In addition, the bottom of the model is implemented as a puzzle using a fitting and joining technique to naturally acquire customization and joining techniques, which are core technologies of Korean traditional architecture.

By using QR code, we want to transmit information including history and history of cultural properties such as hanok to portable terminal of user.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

It is therefore intended that the appended claims cover such modifications and variations as fall within the true scope of the invention.

100: roof part
200: wall part
300:
400: above ground
500: Fence unit
510: one-piece
520: b shape
530: Dinghy shaped
600: Corner unit
610: One-Shaped
620: C shaped
700: main door unit
800: Unit puzzle

Claims (8)

A hanok is modeled using a unit unit of a unit which is a space surrounded by four columns.
A roof part 100 which is a unit member in a unit of a unit;
A wall unit 200 which is a unit unit for each unit connected to the lower portion of the roof unit 100; And
A proximal end 300 of the entire hanok that is coupled to the lower part of the wall part 200;
, ≪ / RTI >
The roof part 100, the wall part 200, and the base part 300 are dry-assembled by a fitting method,
An assembly of the roof part 100 and the wall part 200, which is a unit unit in a unit of a unit, is combined into several chambers to form the overall structure of the hanok as an entire assembly,
Wherein the entire assembly is coupled to the base end (300)
The unit puzzle 800 is divided into a plurality of unit puzzles 800, and the unit puzzles 800 are divided into a plurality of unit puzzles 800 by fitting and joining techniques. And a plurality of unit puzzles (800)
And the Hanok Modular 3D modeling system can be combined with the Hanok Modular 3D modeling system corresponding to the Hanok layout.
A hanok is modeled using a unit unit of a unit which is a space surrounded by four columns.
A floor unit 400, which is a unit unit of a unit consisting of a roof part 100, a wall part 200 formed integrally with the lower part of the roof part 100, and a bottom part 400 formed integrally with the lower part of the wall part 200, );
, ≪ / RTI >
A plurality of the ground portions (400) are dry-assembled by a fitting method,
The land portion 400, which is a unit unit in a unit of a unit, is connected to a plurality of spaces to form an entirety of the hanok as an entire assembly,
Wherein the entire assembly is coupled to an upper portion of the base portion 300,
The unit puzzle 800 is divided into a plurality of unit puzzles 800, and the unit puzzles 800 are divided into a plurality of unit puzzles 800 by fitting and joining techniques. And a plurality of unit puzzles (800)
And the Hanok Modular 3D modeling system can be combined with the Hanok Modular 3D modeling system corresponding to the Hanok layout.
For modeling a fence of a hanok using a unit member,
The fence unit 500 which is a unit member is composed of 'one shape 510', 'b shape 520', 'dome shape 530', or 'cross shape (not shown)
The HANOK modular 3D modeling system is characterized in that a plurality of the fence units (500) are dry-assembled by a fitting method,
The unit puzzle 800 is divided into a plurality of unit puzzles 800, and the unit puzzles 800 are divided into a plurality of unit puzzles 800 by fitting and joining techniques. And a plurality of unit puzzles (800)
And the Hanok Modular 3D modeling system can be combined with the Hanok Modular 3D modeling system corresponding to the Hanok layout.
For modeling the corridor of a hanok using a unit member,
The corridor unit 600 as a unit member is formed of 'one shape 610', 'b shape 620', 'dome shape (not shown)' or 'cross shape (not shown)
The corrugating unit 600 is assembled in a dry manner by a plurality of fitting methods. In the Hanok Modular 3D modeling system,
The unit puzzle 800 is divided into a plurality of unit puzzles 800, and a plurality of the unit puzzles 800 are divided into a plurality of unit puzzles 800 by fitting and joining techniques. And a plurality of unit puzzles (800)
And the Hanok Modular 3D modeling system can be combined with the Hanok Modular 3D modeling system corresponding to the Hanok layout.
For the purpose of modeling the main gate of a hanok using a unit member,
The main door unit 700, which is a unit member, has slopes open according to the elevation,
A plurality of the main unit 700 can be dry-assembled by a fitting method,
The hanok modular 3D modeling system is characterized in that the hanok modular 3D modeling system can be dry-assembled by the fence unit (500) of claim 3 or the corridor unit (600)
The unit puzzle 800 is divided into a plurality of unit puzzles 800, and a plurality of the unit puzzles 800 are divided into a plurality of unit puzzles 800 by fitting and joining techniques. And a plurality of unit puzzles (800)
And the Hanok Modular 3D modeling system can be combined with the Hanok Modular 3D modeling system corresponding to the Hanok layout.
delete delete 5. The method according to any one of claims 1 to 4,
A QR code is attached to the hanok layout,
Wherein the QR code is stored in advance or linked to a site including the Cultural Heritage Administration to transmit cultural property information including the history of the hanok to a mobile terminal of a user.

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