KR20060101426A - Manufacture method of flexible form for theme building using miniature model-surface divide type - Google Patents

Abstract

The present invention is to prepare a building having a complex appearance in advance to a reduced model, and to make a data based on this data, and to create a membrane body based on this data and inject the method of manufacturing the form to form a building and then install the interior / exterior materials inside and outside the membrane body A method of manufacturing a flexible formwork for a theme building using a reduced model-surface division to be completed, the method comprising: producing a reduced model 100 in which the actual building is reduced as an artistic expression (S100); Drawing a plurality of dividing lines (132) and (142) on the surface of the reduced model (100) to digitalize analog data of the surface of the reduced model (100) (S200); Applying a peelable surface material (150) after drying on the surface of the scaled model (100) and naturally drying (S300); Peeling from the surface of the scaled model (100) along the shape of the dividing line (132) (142), wherein the surface material (150) solidified after drying (S400); Smoothing and planarizing the surface material 150 separately divided to obtain planar shape 2D analog material based on the surface material 150 of the solid shape 3D (S500); Computing (scanning) to digitize the planar material of the surface material 150 obtained in analog form (S600); Outputting a result obtained by modifying and wrapping the digital data of the surface material 150 obtained by the computing (scanning) operation using an image work program so as to match the data in analog form (S700); Cutting the enlarged cut pieces in the shape of the dividing lines 132 and 142 into their respective shapes to seal and seal the respective cut pieces to obtain a final product (S700); The final product is installed in a completed building, it is characterized in that to complete the flexible formwork by continuously injecting air and maintained at a constant pressure. Therefore, by making a miniature model of the building to be expressed in three dimensions, it is easy to grasp parts that are difficult to grasp in drawings or bird's eye view of the building, and the harmony between the main body of the building and the surrounding objects, the color, texture, feel and balance of the surface. It can be identified and modified freely at any time and used as the basic data of actual design, so that the design intention and the completed form of the actual building are known in advance, and it is reflected in the design through the process of modification-revision in such a harmonious relationship. It is possible to construct and to maximize the realism by reproducing the sculptor's work Esquis as it is.

Formative Architecture, Theme Park, Model, Esquis, Fabric, Scanning, Plotter, Formwork, Liquid Silicone Resin

Description

Manufacture Method of Flexible Form for Theme Building using Miniature Model-Surface divide Type}

1 is a photograph showing a model produced by shrinking the building to be expressed of the present invention,

FIG. 2A is a partial photograph of a reduced model employed as an example to illustrate surface division-curved development of the present invention; FIG.

FIG. 2B is a partial photograph of another reduced model and surface material adopted as an example to illustrate the surface division-curved development of the present invention; FIG.

Figure 3 is a photograph showing the surface material of the reduction model adopted as an example in order to explain the surface division-curved development part of the present invention,

Figure 4a is a photograph showing a state of scanning in order to planar digitization of the surface-divided surface material of the present invention,

Figure 4b is a photograph showing the results of scanning the surface-divided surface material of the present invention,

4C is a computer screen photograph showing an example of stably rearranging the planar digitization result of the surface-divided surface material of the present invention;

4D is a computer screen photo showing an example of aesthetic addition to the planar digitization result of the surface-divided surface material of the present invention;

4E is a real article photograph showing the completed flexible formwork by reduction model-surface division of the present invention;

Figure 5 is a photograph showing a state actually applied to the building to be built a flexible formwork, which is a finished product manufactured by the method of the present invention,

6 is a photograph showing a state in which air is charged in the state of FIG.

FIG. 7 is a photograph showing a state of foam molding for maintaining strength in and out of a membrane body in the state of FIG. 6;

8 is a photograph showing a state in which an insect shape is incorporated in a main body building as an example of a flexible formwork produced by the method of the present invention;

9 is a flowchart illustrating a manufacturing process of a flexible formwork for a theme building using a reduced model-surface division of the present invention.

<Explanation of symbols for the main parts of the drawings>

100: reduced model 110: building body

120: surrounding accessory [130: stem, 140: fruit]

132,142 dividing line 150 surface material

152: digital data surface material

200: air curtain 300: the outer surface of the building

The present invention relates to a construction method of a theme building using a scaled down model. More specifically, a building having a complex appearance is pre-fabricated as a scaled down model, converted into data based on this data, and a film is made based on this data to inject air into a building. The present invention provides a method of manufacturing flexible formwork for a theme building using a reduced model-surface division, which is completed by installing internal / exterior materials inside and outside the membrane.

There are various problems in the construction method of general concrete buildings. For example, in order to achieve the purpose of functional aspects such as the prolongation of air, the necessity of facilities such as heavy equipment, waterproofing and heat dissipation, and the purpose of design vision which should be good to see, There is a burden of economic costs due to the use of interior and exterior building materials, and additional problems such as inconvenience of pedestrians and passing vehicles due to the occupation of surrounding roads during construction.

Therefore, in the industry, a modular building method of a concept for manufacturing at a factory using a building module or a panel and a simple construction in the field has been proposed and used for a long time. However, this has a disadvantage of being used only in a temporary building or a small building.

Although not all can be enumerated, the basic considerations in the selection of architectural structure are as follows. First, in terms of the courage of human life, the first must be the safety of human beings, and the second: waterproofing as a shelter. Habitability to secure physical performance such as insulation, mining, ventilation, etc. Third, long-term use requires durability, physical and mechanical performance must be well maintained, and fourth constant performance must be taken into consideration while reducing air and construction costs. Economics, the fifth structural method itself is an expression of architecture, and the structural beauty of selecting a reasonable structural method.

The classification of the structure can be classified by the method of construction, type, material of construction, and construction. Depending on the material, wood construction, timber structure, brick construction, and most large buildings It is a structure that constructs a bearing wall with cement block and mortar.If necessary, reinforces it into cement block construction and formwork with reinforcing steel and mortar in the block inner space, and pours concrete between them. There is an integrally reinforced concrete structure, and recently, it is a structure made by combining steel members (beams, steel plates). There is steel reinforced concrete structure using concrete structure together.

In addition, depending on the construction method, water is required to manufacture the structure, such as masonry structure and reinforced concrete structure, and there are limits to unit work, and standardized members such as wet construction, wood structure, and steel structure, which require a certain period of time for hardening. It is a structure that manufactures, processes, assembles and installs the dry construction which can shorten the air and the member for constructing the structure described above in the field because it does not need time for drying the water and the member by assembling the structure. Field construction, which requires the site area of the area, as well as the fabrication and processing of the members at the factory, and assembly and installation at the site, assembling structure that can reduce construction costs and ensure uniform quality and shorten air due to mass production. (prefabricated structure).

The type of structure is composed of columns, beams, and floors, and is used for in-surface stress by using a thin plate member that is thinner than the ramen structure, plate structure, and curvature radius used for reinforced concrete and steel structures. The shell structure of the span processing method, the three-dimensional truss space frame structure in which a single member is combined three-dimensionally, and the like, and the technical field to which the present invention is concerned, can provide structural stability and openings freely. It is very economical and has a wide and diverse use regardless of large or small scale. It is designed to save uniqueness of curved surface in a form of richness (high and low), and a building with high visual effect with strong impact. Truss Membrane Structure; Suspension Membrane structure; Air dome.

Since the construction field of the present invention mainly relates to a theme building having a complex external structure and simultaneously performing internal functions of a general building and further having various advantages, the description of the general building will be omitted below.

However, the formative buildings in human history include giant sphinxes and various forms of Buddha statues, the Statue of Liberty and the Opera House, which are famous in New York and Sydney in recent years. On the other hand, it was not made very difficult as a century documentary without the consideration of human dignity and only by the compulsion of the building orderer. Afterwards, as humanity progressed to respect for human rights with the development of civilization, it led to the decline of the large formative buildings and the thinning based on the thinking of the times, which increasingly respects individual values.

The source of the present invention has been owed to Art Nouveau as a paradigm that savors an era. Art Nouveau writers have largely departed from naturalism, spontaneity, simplicity, and technical perfection in the pursuit of departure from tradition and creation of new forms. Where conventional architectures and crafts have saved their archetypes from Greece, Rome or Gothic, they have denied all historical styles and tried to obtain new expressions with motifs in natural forms. In particular, it boasts of flexible and flexible lines reminiscent of the shape of plants such as vines and ivy, and unusual decorative properties such as wave shapes, curves, arabesque or flame patterns. I enjoyed moving motifs and deliberately avoided symmetrical and linear configurations. The design thus produced a fluid beauty by the integration of curves or surfaces.

As evidenced by Hegel's dialectic in the modern century, the functionalist architectural movement, a representative movement of modern architecture, said that 'all parts of architecture should be designed according to its purpose and function' and are still valid. Functionalism, which has been influential in various fields of natural science and social science since the late 19th century, 〈forms follow function ＞, that is, design that is thorough in use and functionally wasteless is best and excludes simple formative play. Start with the method. This direction, strengthened by the development of industry and the spread of rational thinking in the 20th century, led the modern architectural movement of the 1920s and 30s.

Later, based on Homo ludens, a human view that attempts to grasp the nature of human beings from the perspective of cultural history, it is modeled by the development of architectural technology, the improvement of the quality of life of mankind, and cultural orders. The building reappears.

In the present invention, the building is not only a general building but also a modern building, which is an exhibition hall for a year-round event such as a firefly festival or a butterfly festival, a specific theme museum, an art hall, a hall, a cafe, a restaurant, It is a theme building with complex appearance applied to theme parks, amusement parks, and other amusement facilities such as Everland and Disneyland.

This is a surrealism, a mixture of elements such as themed buildings with complex shapes, for example, decorative motifs reminiscent of plant shapes, fantastic curves, curved surfaces, neo-Gothic, art nouveau, etc. It is very difficult to build a building such as the Gaudi style of Spanish architect Antonio Gaudi.

Because the cost of building formwork or interior / exterior construction is much higher than that of general buildings compared to the artistic properties of the finished building, it is very expensive for the general owner to build such a building, and the construction air is prolonged. This is because it is not easy due to limitations.

On the other hand, Silla is based on the original and splendid Silla style by accepting and subjecting the northern Scythian culture, Gaya, Baekje and Korean culture of Goguryeo, China's 6 trillion and sudan culture, and southern marine culture such as India. When you want to build earthenware-type tea houses, you should construct them with complex buildings.

The outline of this building process is as follows. Clay, wood, synthetic resins (styrofoam, urethane, etc.) and metals are carved to form a prototype. The prototype is released (released), that is, surfactant is applied and formwork is made of gypsum, FRP, FRC or steel.

Demold the formwork. After demolding, remove all round material and reassemble the formwork. Cast using all possible materials, including resin, gypsum, metals and wood. In other words, it is made by attaching various building materials inside or outside and finally remove the formwork.

However, when building the complex outline-type building described above according to the conventional building method, there are the following problems.

It is necessary to make a prototype with enormous manpower and capital. This is expensive because the individual components of a complex building must be carved, and the process of making formwork is very complicated, so that the desired complex sculptures cannot be made as desired. As a result, architectural features that are quite different from the original designer's intentions are built.

In addition, the process of dismantling the formwork is very cumbersome, which requires a lot of manpower and the problem of environmental pollution due to the disposal of formwork material, and the complex, detailed and sophisticated appearance structure required by modern people with high eye level, that is, the curve However, they could not meet the demands of modern people who prefer curved and bizarre shapes.

Eventually, due to these problems, the cost of building increased so much that the owner gave up the construction of the complex building from the beginning of the building, and it was difficult to see the beautiful building.

In recent years, the demand for construction of various themed buildings with strange appearances in Korea and other parts of the world has been increasing day by day, and the construction method that meets the standards required by the Building Code and is easy to build and does not cause construction costs is urgently required.

As learned from the above example, the formative buildings of the Silla era, when compared roughly with the total cost of construction and the finished artistic value (of course not simple comparison), the cost-effectiveness aspect is the artistic value aspect It is much more than that, and unfortunately, despite the socio-cultural demands such as ripe ripe deterioration, the realization of formative buildings is unfortunate.

Therefore, the present inventors have been engaged in the construction industry for a long time, and after decades of research and trial and error, with the enormous cost and effort, the present inventors have learned the principle and application of the flexible formwork and completed the realization of the complex structure by using the membrane. Of course, in the midst of orders from advanced countries such as Germany, Spain, Japan, and the United States, the domestic application of the present invention is attempted prior to the disclosing of such technology.

The present invention has been invented to solve the problems in view of the above-described conventional building method, the object of which is to pre-fabricate a building having a complex appearance in a reduced model in advance to form a data based on this data and to create a film body based on this data. After injecting air to form a building, the membrane is continuously injected with air to be used as a formwork. Then, as a post-process, reduction model-surface division is completed by applying and curing internal / exterior materials inside and outside the membrane. It is to provide a method of manufacturing a flexible formwork for themed buildings using.

The present invention for achieving the above object comprises the steps of producing a reduced model 100, a scaled down actual building as an artistic representation (S100);

 Drawing a plurality of dividing lines (132) and (142) on the surface of the reduced model (100) to digitalize analog data of the surface of the reduced model (100) (S200);

Applying a peelable surface material (150) after drying on the surface of the scaled model (100) and naturally drying (S300);

Peeling from the surface of the scaled model (100) along the shape of the dividing line (132) (142), wherein the surface material (150) solidified after drying (S400);

Smoothing and planarizing the surface material 150 separately divided to obtain planar shape 2D analog material based on the surface material 150 of the solid shape 3D (S500);

Computing (scanning) to digitize the planar material of the surface material 150 obtained in analog form (S600);

Outputting a result obtained by modifying and wrapping the digital data of the surface material 150 obtained by the computing (scanning) operation using an image work program so as to match the data in analog form (S700);

Cutting the enlarged cut pieces in the shape of the dividing lines 132 and 142 into their respective shapes to seal and seal the respective cut pieces to obtain a final product (S700);

The final product is installed in a completed building, it is characterized in that to complete the flexible formwork by continuously injecting air and maintaining at a constant pressure.

In this manufacturing method, the surface material 150 that can be peeled off after drying on the surface of the scaled model 100 is preferably a liquid silicone material,

In the computing step (S600), by placing the surface material 150 output in an analog form on a scanner and overlaid transparent paper on the scanner, the error between the analog data and the digital data is reduced, so that the accuracy of the membrane body can be more precise and precise. Done.

In the step (S700) of obtaining the final product, a printer, a transfer device, a plotter, or the like may be used, and the object (printed material; output) is preferably a coated fabric, but the present invention further provides the flexible fabric fabric as it is. It is not limited to use, for example, the output can be applied to a steel plate, plywood, and other building materials can be applied to the construction of a very beautiful three-dimensional signboard or complex appearance building with excellent strength.

In addition, in order to facilitate the work of the sewing process, which is an essential process in the fabrication of the membrane body of the present invention, each surface of the digital data-formed surface material 152 obtained by the scanning operation is written with a number of symbols or numbers having a predetermined meaning in advance. 152 is easily abutted to allow sewing.

As such, the present invention enables the construction of a model building with a high degree of completeness and complex appearance by using it as a basic material of actual design or by easily modifying a reduced model of a building as it is to be expressed in three dimensions. It is an excellent invention that maximizes the realism by recreating the work Esquis as it is, and also shortens the air, achieves a significant reduction in construction costs, and provides an eco-friendly construction method without building waste.

Hereinafter, with reference to the accompanying drawings will be described in detail a method of manufacturing a flexible formwork for themed buildings using the reduced model-surface division of the present invention.

Figure 1 is a photograph showing a model produced by shrinking the building to be expressed of the present invention as it is, Figure 2a is a partial photograph of a reduced model adopted as an example to illustrate the surface division-curved development of the present invention, Figure 2b is Partial photograph of another reduction model and surface material adopted as an example to explain the surface division-curved development of the present invention, Figure 3 is a reduction model adopted as an example to explain the surface division-curved development of the present invention Figure 4a is a picture of the surface material of the unfolded, Figure 4a is a photograph showing a state of scanning to planar digitized the surface-divided surface material of the present invention, Figure 4b is a photograph showing a result of scanning the surface-divided surface material of the present invention, Figure 4c Is a computer screen photograph showing an example of stably rearranging the planar digitization result of the surface-divided surface material of the present invention, and FIG. 4D is a surface portion of the present invention. A computer screen photograph showing an example of aesthetic addition to the planar digitized product of the surface material being processed, FIG. 4E is a real article photograph showing a completed flexible formwork by reduction model-surface division of the present invention, and FIG. 5 is a method of the present invention. A photograph showing a state in which a flexible formwork, which is a finished product manufactured by the present invention, is actually applied to a building to be constructed, FIG. 6 is a photograph showing a state in which air is filled in the state of FIG. 5, and FIG. Figure 8 shows a state in the foam molding to maintain the, Figure 8 is an example of a flexible formwork produced by the method of the present invention is a photograph showing a state incorporating an insect shape into the building, peeling is a reduced model of the present invention -Flow chart showing the manufacturing process of flexible formwork for themed buildings using surface division.

First, referring to FIG. 1, this article is a work of an artist who reduced and modeled a building to be actually manufactured. The model 100 is composed of the building body 110 and its surrounding accessories 120 shaped like insects or leaves or flowers to fit the theme.

The present invention finds its inventive concept by using the Eskith technique in formative construction. Esquis is, for example, the preparation of a large screen as a preparatory step. It is simply to write a separate sheet, write a color name, or draw the necessary details. It also means clay sculptures and small pieces of lead.

In FIG. 1, the stems in the circle of solid lines are described as examples, and the flexibility for the theme building using the reduced model-surface division of the present invention will be described with reference to the respective drawings of FIGS. 2 to 4, and FIG. 10. The manufacturing method of formwork is demonstrated in detail.

2A and 2B, this article shows the stem 130 or fruit 140 of a plant with many curved portions as part of the scale model 100 of the present invention. The stem 130 or the fruit 140 as a scale model is an elaborate work of a shape that is not different from the actual product because it is made with an artistic sense, and when the size is later enlarged to a large building size, the output is enlarged and transferred in proportion. Therefore, it is possible to construct a building with a very beautiful appearance.

In addition, by making a miniature model of a building to be expressed in three dimensions, it is easy to grasp parts that are difficult to grasp in drawings or bird's-eye view.It is used as a basic data for actual design, harmonizing with surrounding objects, color, texture, It is possible to grasp the senses and the balance of beauty from time to time, freely modify the original design by reflecting the designer's improved design intention, and maximize the realism by recreating the artist's work (sculptor, painter) as it is in architecture.

When the reduced model 100 is produced as an artistic expression as a first step (S100), a plurality of dividing lines 132 and 142 are drawn on the surface of the reduced model 100 (S200). The dividing lines 132 and 142 are for flattening (2D) the data on the surface of the scaled model 100 in order to make data. In this case, if the surface area of each of the division lines 132 and 142 is set too large, the curved portion becomes wider and the accuracy becomes lower when flattening. On the contrary, if the area is made too small, it is too cumbersome and the efficiency of work is reduced. Appropriate curvature reference points should be determined and applied in accordance with the characteristics of the article, such as the annex 120, ie, stem 130 or fruit 140, respectively.

Subsequently, when the dividing lines 132 and 142 are provided, the process is applied to the surface of the scaled model 100 with a liquid silicone material and cured (S300). At this time, the curing of the surface material 150 is performed after curing for 10 minutes, curing after 30 minutes, or the like according to the crosslinking properties of the liquid silicone resin, for example, by applying the desired curing conditions, for example, the surface material 150 The curing time, the degree of curing of the material, and the like are determined by mixing an appropriate additive with the liquid silicone materials at an appropriate ratio.

After hardening, the surface material 150 is peeled off the scaled model 100 to have a constant physical shape as shown in FIG. 2B. That is, the surface member 150 naturally scales down according to the shape divided into the dividing lines 132 and 142 in the previous step (S200) [100]; Stem 130 or fruit 140] is peeled off (S400).

3 shows the peeled surface material 150. The peeled surface material 150 is put together and flattened. At this time, in order to transfer the data of the curved portion to the flattened data is precisely followed by the fine work of the surface material 150. That is, the table is divided and planarized so that analog data of planar form 2D is obtained from the shape of the stem 130 of the solid form 3D of FIG. 2A (S500).

Subsequently, as shown in FIG. 4A, a scanning operation is performed to digitize data of the surface material 150 obtained in an analog form. Through this scanning operation, the surface material 150 is converted into digitized data and stored in the computer (S600). At this time, the surface material 150 output in the analog form on the scanner may be placed on the scanning, but the transparent paper may be used for a more accurate operation.

4C and 4D, the digital data of the surface material 150 obtained by the scanning operation is modified using various image work programs or illust programs (eg, Photoshop, Corel, Illustration, etc.) to match the analog data. When it is determined that the level is finally satisfied with the wrapping, it is output to a predetermined output, for example, a transfer device or a plotter (S700). In other words, the divided development surface is applied to the surface of the woven paper fabric or the printable material or the sheet paper. Since the fabric is for an air membrane, it is nylon or woven paper coated with one surface of polyurethane for the purpose of air escape or waterproofing.

In FIG. 4B and FIG. 4C, reference numeral 152 denotes the digital data surface material on the monitor obtained by the scanning operation, and in particular, the small number shown at the corner of the surface material 152 digitized with data in FIG. 4B is a kind of promised symbol. These symbols are used to facilitate the joining by contrasting numbers at a glance without being entangled with each other during the sewing process.

If these symbols or numbers are used in a predesigned form, that is, when they are sewn, the desired flexible formwork can be obtained as shown in FIG. 4E.

On the other hand, it is possible to attach the printed output to the iron plate, plywood, and other building materials, so in this case it is possible to construct a unique texture.

On the other hand, in the enlarged output process through the output device, the reduced analog data is digitized to enlarge the shape as it is accumulated. Therefore, if the capability of the output device is supported, the range of the output size is such that infinite output is possible depending on the performance of the output device. wide.

The output obtained through the process of S700, for example, is enlarged several tens of times larger than the size of the shape as shown in Figure 4c is transferred to the roll fabric and stored again in the form of the roll is transferred to the cutting process to go through the cutting step and again sewing step Attached through and seal the seam through the sealing operation (S800).

By doing so, the air membrane 200 having a shape as shown in FIG. 5 is completed and applied to the building of the building body 110 in which the construction proceeds according to the actual design. At this time, the air is separated to form a concave by partitioning by using a diaphragm so as to have a concave and convex shape according to the design of the building, or by passing a frame for each block or by creating a separate air chamber to maintain a lower air pressure than normal pressure. By maintaining a low vacuum, the air membrane 200 having a desired shape is obtained, and as shown in FIG. 6, a flexible form die is completed (S900). At this time, since the air membrane 200 is a flexible material, the inside of the air membrane 200 should be kept at a constant pressure so that there is no air dropping phenomenon, and a pressure check in an appropriate air membrane 200 must be accompanied at all times. By injecting and curing the applied coating material, air must be continuously injected by blowing means to maintain a constant pressure until the form achieves a certain strength as the designer intended.

In this way, the flexible formwork 200 of the present invention is completed and applied to the theme building and enters the post-process, the post-process is described outside of the scope of the present invention, but will be described with reference to FIGS. When the inside of the air membrane body 200 applied to the building is expanded to a predetermined air pressure and maintained in a predetermined shape as the designer intends, by applying a material (reinforcement) having an appropriate strength inside / outside the air membrane body 200. Forming works to complete walls or roofs with strength that meets building code standards.

In this way, in addition to a complex structure, for example, a building wall or a roof, as shown in FIG. 4E, the peripheral accessory 130 which reproduces the stem shape of the plant as it is.

In these figures, reference numeral 220 denotes the actual shape of the actual shape completed using the flexible formwork 200 of the present invention, 300 is the building exterior surface of the reinforced state by reinforcing the foam several times.

As described above, the present invention has a great effect on the fact that the large formative buildings, which are built in the past and destroy the human existence, can be reproduced in modern times by using the flexible formwork. The point of development is the application of digital data that can be infinitely expanded to the field, and it prides itself on providing innovative construction methods in modern buildings.

It is very effective when applied to buildings with very complex appearances such as cafes, restaurants, theme parks, amusement parks, art halls, cultural centers, and municipal buildings that want to be themed according to local characteristics. Significant amount of building construction cost can be reduced, and it is an innovative invention of building technique, and it can be applied to civil engineering works such as bridges, bridges, and overpasses expressing artistry as well as buildings.

As described above, according to the manufacturing method of the flexible formwork for a theme building using the reduced model-surface division of the present invention, the following effects are obtained.

1. By making a miniature model of a building to be expressed in three dimensions, it is easy to grasp parts that are difficult to grasp in drawings or bird's eye view of the building, and the harmony between the main body of the building and the surrounding objects, the color, texture, feel and balance of the surface. Can be freely identified and modified freely and used as basic data of actual design, and the design intention and the completed form of the actual building are known in advance and reflected in the design through the process of modification-re-modification in such a harmonious relationship. The construction of the building is possible, and the realism is maximized by recreating the sculptor's work Esquis into architecture.

2. Even if the building has a complicated shape, it is very simple and shortens the air, especially the construction cost by using the air membrane as the formwork and applying the form reinforcement material inside / outside the air membrane using the air membrane. In addition to achieving the savings, building waste does not occur, it is useful for environmental protection and has the effect of realizing an art-level building.

3. It is easy to manufacture a building that is difficult to complete by the traditional building method without compromising the basic functions of the building. That is, since most of the existing materials are straight, flat or cubic, if the external shape is designed as a curved body, it is very difficult to construct it according to the design when constructing it in the field. If you construct the reinforcement by applying the wet construction method can be built regardless of the existing frame or existing building materials.

4. During construction of the flexible formwork of the present invention, together with the general building body construction, for example, basic construction such as digging, floor slab construction, column construction, electricity / fire fighting / communication construction, water and sewage In parallel, the construction period can be shortened.

5. It is difficult to express it in drawings and it is difficult to understand due to the lack of drawing interpretation ability of the builders. It is very useful because there is no difficulty, so the building to be completed can be grasped with the naked eye in advance.

Claims (6)

Producing a scaled down model 100 in which the actual building is reduced as an artistic expression (S100);  Drawing a plurality of dividing lines (132) and (142) on the surface of the reduced model (100) to digitalize analog data of the surface of the reduced model (100) (S200); Applying a peelable surface material (150) after drying on the surface of the scaled model (100) and naturally drying (S300); Peeling from the surface of the scaled model (100) along the shape of the dividing line (132) (142), wherein the surface material (150) solidified after drying (S400); Smoothing and planarizing the surface material 150 separately divided to obtain planar shape 2D analog material based on the surface material 150 of the solid shape 3D (S500); Computing (scanning) to digitize the planar material of the surface material 150 obtained in analog form (S600); Outputting a result obtained by modifying and wrapping the digital data of the surface material 150 obtained by the computing (scanning) operation using an image work program so as to match the data in analog form (S700); Cutting the enlarged cut pieces in the shape of the dividing lines 132 and 142 into their respective shapes to seal and seal the respective cut pieces to obtain a final product (S700); The final product is installed in a completed building, continuously injecting air and maintained at a constant pressure to produce a flexible formwork for a theme building using a reduced model-surface division, characterized in that to complete the flexible formwork. The method of claim 1, wherein the surface material 150 that can be peeled off after drying on the surface of the scaled model 100 is made of a flexible formwork for a theme building using a scale model-surface division, characterized in that using a liquid silicone material. Way. The method of claim 1, wherein the computing step (S600) comprises placing a surface material 150 output in an analog form on a scanner and overlaying transparent paper on the scanner. Method for manufacturing flexible formwork for themed buildings. The method of claim 1, wherein the obtaining of the final product (S700) uses any one selected from a printer, a transfer device, a plotter, etc., and the object is a theme building using a reduced model-surface division, wherein the object is a coated fabric. Method for producing flexible dies for use. The method of claim 1, wherein the output is attached to an iron plate, plywood, or other building material. 2. The reduced model-surface division according to claim 1, wherein each corner of the digital data-formed surface material 152 obtained by the scanning operation is written with a symbol or number having a predetermined meaning in order to facilitate the sewing process. Method of manufacturing a flexible formwork for themed buildings using.

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