KR102198571B1 - A prefabrication wall manufacturing method of HANOK and a wall construction method of HANOK using the same - Google Patents

Abstract

The present invention relates to a method for manufacturing a prefabricated hanok and a method for constructing a wall of a hanok using the prefabricated prefabricated material, and more particularly, by prefabricating and supplying the hanok with improved structural performance to the hanok construction site, Hanok The present invention relates to a method of fabricating a plafabin-proof material for a hanok in order to increase the structural rigidity of the wall and the efficiency of a hanok construction, and a method for constructing a wall in a hanok using the prefabricated material.
To this end, (a) providing a rigid member having a size corresponding to the space in which the inbang materials constituting the wall of the hanok are installed; (b) arranging and fixing a plurality of seals on one surface of the rigid member; (c) the step of constructing an insulation material in the space between the inbangs: including, the rigid member is provided with plywood, the insulation material includes phenolic foam, and the thickness of the inbang material is a pillar forming the inbang material space of a hanok It is formed thinner than the thickness, and as the seals are fixed to one side of the plywood, one side of the space formed by the seals is shielded by the plywood and the other side of the space is opened, and the insulation material is opened to the other side of the space between the seals. Provides a method for manufacturing a prefabricated hanok, characterized in that it is installed in the area, the inbang material can increase the structural stability of the wall of the hanok.

Description

A prefabrication wall manufacturing method of HANOK and a wall construction method of HANOK using the same}

The present invention relates to a method of manufacturing a prefabricated hanok and a method of constructing a wall of a hanok using the prefabricated prefabricated material, and more specifically, a method of manufacturing a prefabricated hanok with improved structural performance and supplying it to the hanok construction site. The present invention relates to a method for fabricating a prefabricated wall in a hanok that enhances the structural rigidity of the wall and the convenience of hanok construction, and a method for constructing a wall of a hanok using the prefabricated material.

Hanok refers to a building built in the traditional Korean style of architecture, which is eco-friendly, healthy, has a unique traditional beauty that is comparable to the traditional architecture of any nation in the world, and above all, its harmony with nature is outstanding. This has the advantage of giving the residents a sense of psychological stability.

On the other hand, Hanok has been turned away for the reason that each room is narrow for modern people, it is cold in winter, it is difficult to manage, and the construction cost is higher than other construction methods, but recently, the advantages of the above hanok have been re-examined. 'Shin Hanok', which combines the advantages of hanok and the functions of modern houses, is emerging.

The'Shinhanok-type public building' is a composite structure in which the main structural parts such as pillars and beams are wooden structures, and modern structures such as reinforced concrete structures and steel structures are combined to create a variety of spaces through variable spatial planning. It refers to a building that reflects succession, development, and creatively reinterpreted planning elements and future-oriented design elements, as well as its subsidiary buildings and Korean-style outdoor spaces, especially as a public space closely related to the daily life of residents. It has the role and value of public facilities that promote cultural benefits, exchanges, etc., and promotes public awareness of hanok by supplying the subsidiary and welfare facilities of such public housing as new hanok-type buildings, and a foothold for the dissemination of new hanok-type buildings. Will be able to provide.

Such a new hanok-type building consists of a base end belonging to the lower part in appearance, a shaft part made of a column and a wall, a promulgation part, and a column part.

1 is a view showing a conventional hanok shaft structure. The shaft portion is a cornerstone (10) and eardrums (11), pillars (12) and windows (13), inbang materials (sujangjae 14), windows (15, Figure 1 shows a window, but a wall may be formed instead of a window) Yes) and Merum (16).

The eardrum (11) is a portion of the height of the cornerstone (10) under the lower inn (14c) between the adjacent pillars (12), and is blocked by stacking it with soil, bricks, or stones.

The windowpan 13 crossing horizontally on the upper part of the post 12 prevents the upper part of the post 12 from moving by binding between the post 12 and the post 12 in the direction of the torii.

Inbang material 14 refers to a frame for striking a wall between the column 12 and the column 12 or installing a window (or wall) 15, and is also referred to as a holding material.

The sealant 14 is a generic term for forming members 14a, 14b, 14c, wall line 14d, door line 14e, and the like.

The lintel (14a, 14b, 14c) is divided into a lintel (14a), a middle room (14b), and a lower intel (14c) depending on the location.

The wall line (14d) is vertically erected to block the side of the soil wall, and the door line (14e) is a vertically erected humane to install the window (15).

When a window is installed, the murmum 16 is installed at a certain height below the window, and corresponds to a window sill.

The spaces between the linings 14a, 14b, and 14c are plastered with soil or loess.

On the other hand, the shaft structure of the hanok made of the above configuration has the following problems.

First, there is a problem in that work productivity is deteriorated as the construction of the inbang material 14 constituting the wall of the hanok is performed on site.

In other words, the wall of the hanok is composed of the inbang materials 14 as a plurality of inbangs (14a, 14b, 14c) are directly constructed one by one at the construction site, and such a series of work involves a plurality of inbangs (14a, 14b, 14c) The assembling process is complicated, and there is a problem in that the productivity of work is deteriorated, such as the number of man-hours may increase and the air may be delayed as additional processes of blocking the spaces formed with each other are required.

Second, there is a problem that the structural performance of the human disaster prevention 14 is deteriorated.

That is, since the plurality of seals 14a, 14b, and 14c are divided and configured, it is difficult to provide a sense of unity with each other, so structural rigidity due to lateral force is poor, and it is difficult to increase seismic performance.

Of course, there is an intermediary means such as loess or soil that connects the human chambers 14a, 14b, 14c to each other, but the structural properties that can integrate the divided human chambers into one body are very weak.

Accordingly, there is a problem that the walls of the hanok are vulnerable to impacts such as earthquakes.

Third, the inbang material 14 composed of phosphorus and loess soil has a problem of poor insulation and airtightness.

Of course, in order to solve the above-described problems, some of the new hanoks were constructed by replacing the walls of modern buildings with the insulation material 14, thereby supplementing the problems of insulation and structural performance.

However, since inbangjae is not only a component that enhances the unique aesthetic sense of hanok, but also has a high symbolicity that symbolizes hanok, the construction that omits the inbangjae has a problem of fading the value meaning of hanok.

Republic of Korea registration number 10-1160203

The present invention was conceived to solve the above problems, and an object of the present invention is to provide a method of manufacturing prefabricated hanok that can be manufactured in advance so as to maximize structural rigidity by integrating a plurality of persons into one body. I did it.

Another object of the present invention is to simplify the wall construction process of a hanok by pre-producing an inbang material including an insulating material, and transporting the pre-fabricated inbang material to a construction site to enable the construction of a hanok building in the construction site. It is intended to provide a method of constructing a wall for a hanok that maximizes work productivity by reducing man-hours.

In order to achieve the above object, the present invention comprises the steps of: (a) providing a rigid member having a size corresponding to a space for installing an inbang material constituting a wall of a hanok; (b) arranging and fixing a plurality of seals on one surface of the rigid member; (c) the step of constructing an insulation material in the space between the inbangs: including, the rigid member is provided with plywood, the insulation material includes phenolic foam, and the thickness of the inbang material is a pillar forming the inbang material space of a hanok It is formed thinner than the thickness, and as the seals are fixed on one side of the plywood, one side of the space formed by the seals is shielded by the plywood and the other side of the space is opened, and the insulation material is opened to the other side of the space between the seals. Provided is a method of manufacturing a prefabricated hanok, characterized in that it is installed in the area, the inbang material can increase the structural stability of the wall of the hanok.

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On the other hand, as another example for achieving the above object, the step of providing a rigid member having a size corresponding to the space in which the inbang materials constituting the wall of the hanok are installed; Arranging and fixing a plurality of seals on one surface of the rigid member; Prefabricated inbang materials for hanok are prepared in advance through a method for manufacturing inbang materials for hanok including the step of constructing an insulation material in the space between the inbangs,
Pillars are constructed to compose the walls of the hanok, and spaces are formed between the pillars for prefabrication.
In the space, the prefabricated prefabricated material is inserted and disposed from the front or rear of the space to be installed,
The prefab sealant is fixed to the pillar through a fixing means, and a sealing means is constructed between the prefabricated sealant and the pillar,
The prefabricated inbang material is made thinner than the thickness of the pillar,
Both sides of the prefabricated inbang material disposed between the pillars correspond to the pillars, and the bottom surface of the prefabricated inbang material corresponds to the floor structure,
The fixing means is provided with a'L'-type angle, one side of the angle is fixed to the prefabricated inbang material, and the other side of the angle is fixed to the column to allow the prefabricated inbang material to be fixed. Provides a method of wall construction for hanok using ash.

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A method of manufacturing a prefabricated hanok according to the present invention and a method of constructing a wall of a hanok using the prefabricated prefabricated wall have the following effects.

First, there is an effect that can increase the structural rigidity of the human disaster prevention material.

The inbang material is composed of a plurality of intangs, and by fixing the plurality of intangs to a rigid member of one body, the intangs can be integrated with the rigid member, thereby increasing the structural rigidity of the inbang material.

Furthermore, even when a lateral force is generated, a phenomenon such as warping of the humans through the rigid member does not occur, so that the seismic efficiency can be improved.

Second, since it is possible to pre-fabricate the artificial disaster prevention material, and transport the manufactured artificial disaster prevention material to the construction site and install it between the pillars of the hanok building, it is possible to increase the convenience for the wall construction of the hanok.

That is, since the insulation material assembly and the assembly between the sealants are provided in a state that has been made in advance, a separate process for manufacturing the sealant is not required at the construction site, so that the convenience of construction can be improved by reducing man-hours.

Accordingly, there is an effect of increasing the work productivity for the hanok wall construction.

Third, since the inbang material is manufactured in advance and provided as an assembly, when it is constructed as a wall of a hanok, it can be moved horizontally between the pillars and disposed.

Accordingly, since it is possible to easily install and attach the fire protection material between the pillars as well as the installation of the fire protection material, there is an effect of improving the convenience for maintenance and management.

Fourth, the insulation efficiency can be increased by providing phenolic foam as a thermal insulation material of the insulator, and the thickness of the insulator can be made thinner than the thickness of the column through the thermal insulation performance of the phenolic foam.

Accordingly, since the pillars can be directly exposed to the interior of the hanok, there is an effect of improving the aesthetics of the interior of the hanok.

1 is a front view showing the main parts of a hanok
Figure 2 is a flow chart showing a method of manufacturing a prefabricated hanok according to a preferred embodiment of the present invention
3 is a view schematically showing the manufacturing procedure of prefabricated hanok according to a preferred embodiment of the present invention
Figure 4 is a flow chart showing the wall construction procedure of a hanok according to a preferred embodiment of the present invention
5 is an exploded perspective view showing the wall of the hanok and the structure of the hanok using the prefabricated materials of the hanok according to a preferred embodiment of the present invention
Figure 6 is a view showing the main part of the state in which the wall is constructed through the prefabricated inbangjae of a hanok according to a preferred embodiment of the present invention.

Terms and words used in the present specification and claims are not limited to the usual or dictionary meanings, and the inventor is based on the principle that the concept of terms can be appropriately defined in order to explain his or her invention in the best way. It should be interpreted as a meaning and concept consistent with the technical idea of the present invention.

Hereinafter, a method of manufacturing a prefabricated hanok according to a preferred embodiment of the present invention and a method of constructing a wall of a hanok using the prefabricated wall according to a preferred embodiment of the present invention will be described with reference to FIGS. 2 to 6.

First, with reference to FIGS. 2 and 3 will be described a method of manufacturing a prefabricated hanok according to a preferred embodiment of the present invention.

The prefabricated materials for hanok were pre-fabricated at the manufacturing plant, not the hanok construction site, so that the convenience of hanok wall construction was improved through simple assembly at the construction site.

In addition, the structural performance and thermal insulation performance of the prefabricated artificial disaster prevention material were improved to increase the seismic efficiency and thermal insulation of the hanok.

A rigid member 110 is provided in order to manufacture the prefabricated insulator 100 of hanok. (S100)

The rigid member 110 is a component that integrates a plurality of the linings 120 constituting the prefabricated phosphorus material 100 and increases structural rigidity of the prefabricated phosphorus material 100.

The rigid member 110 has a size corresponding to the area where the prefabricated material 100 is installed.

The material of the rigid member 110 is not specifically limited, but it is preferable to be provided with plywood as shown in FIG. 3A.

The prefabricated material 100 is generally formed in a rectangular shape, and the rigid member 100 is also provided with a corresponding square-shaped plywood.

In other words, since a plurality of lintels 120 can be integrated through a square plywood as a medium, the prefabrication material 100 is integrated with a body based on the rigid member 110, so that structural rigidity can be increased. will be.

Accordingly, it is possible to increase the structural stability of the wall of the hanok.

At this time, the center of the rigid member 110 forms a through hole (110a) so that a window or door can be constructed.

Next, a plurality of seals 120 are arranged on one surface of the rigid member 110 provided as described above. (S200)

That is, in consideration of the location and usage of the inbangjae 100 in the hanok, as shown in (b) of FIG. 3, a lintel, a hainbang, a windowpan, etc. are arranged.

Next, the rigid member 110, that is, the linings 120 arranged on one side of the plywood are fixed to the plywood. (S300)

At this time, the seal fixing means is not specifically limited, but is preferably provided as a piece such as screws.

When the inbang 120 is fixed to the plywood 110 through the fixing means, the inbang 120 is integrated into one body with the plywood 110, and the inbang 120 is twisted due to the structural rigidity of the plywood 110. No problem occurs.

As the linings 120 are fixed to one side of the plywood 110, one side of the space formed by the linings 120 is shielded by the plywood 110 and the other side of the space is opened.

Next, the insulating material 130 is constructed in an area open to the other side of the space between the linings 120. (S400)

In the conventional hanok wall structure, insulation construction was added separately in addition to the inbang material, or because the insulation performance of inbang material was poor, instead of improving the insulation performance by constructing the wall of a modern building instead of inbang material, the aesthetics of the hanok was lowered. In the present invention, by allowing the insulation 130 to be installed on the prefabricated insulator 100 itself, the thermal insulation performance of the prefabricated insulator 100 itself can be improved, so that the aesthetics of the hanok can be saved.

In this way, the reason why the construction of the insulating material 130 on the prefabricated insulator 100 itself can be made smoothly is because one side of the prefabricated insulator 100 is composed of an integral plywood 110.

That is, the insulation 130 is constructed by cutting the insulation 130 so as to correspond to the space formed by the inbang 120 and fixing the cut insulation 130 to the plywood 110 through the space between the inbang 120 This can be done smoothly.

At this time, it is preferable that the heat insulating material 130 includes a phenolic foam (PF board).

The phenolic foam is intended to minimize the thickness of the prefabricated insulator 100 by maximizing the insulation performance of the prefabricated insulator 100.

That is, since the thickness of the prefabricated material 100 can be minimized through the phenolic foam, the prefabricated material 100 may be manufactured to be thinner than the thickness of the wall column P.

Since the thickness of the prefabricated inbang material 100 is formed to be thinner than the thickness of the pillar P, the aesthetic feeling of the interior of the hanok can be further increased.

In a hanok, when the prefabricated material 100 constituting the wall becomes thick, not only the internal structural beauty of the hanok is weakened, but the interior space becomes narrow.

In particular, when the prefabricated insulator 100 protrudes into the room beyond the indoor pillar line, it is difficult to increase the construction cost as well as make use of the unique aesthetics of the hanok, since the internal wall surface must be completely finished using a separate lightweight wall. It is preferable that the thickness of the prefabricated material 100 does not exceed the indoor pillar line.

Accordingly, by using a phenolic foam excellent in thermal insulation performance as a thermal insulation material, the prefabrication thickness 100 can be minimized.

At this time, it is preferable that the phenolic foam is adhered to the multi-board to be provided as an insulating material.

This completes the production of prefabricated hanok materials.

Next, a process of constructing a wall of a hanok using the prefabricated insulator produced by the above method will be described with reference to FIGS. 4 to 6.

As shown in Figure 5, the foundation and floor construction of the hanok is made, and the foundation stone and pillar (P) are constructed along the circumference of the floor. (S110)

At this time, the space formed between the pillars P is a wall, that is, a region in which the prefabricated material 100 is installed.

Next, the roof structure is constructed on the pillars (P), and the prefabricated barrier material 100 is installed in the space between the pillars (P). (S210)

At this time, a known technique is applied to the roof construction method on the pillar (P).

On the other hand, the prefabricated indigenous material 100 manufactured in advance and transported to the construction site is moved to the space from the front or rear of the space between the pillars (P).

That is, when the prefabricated material 100 is disposed in the space between the pillars P, since the upper portion of the space interferes with the roof, the prefabricated material 100 is disposed in the front or rear of the space.

This is because the prefabricator 100 is not constructed in the field, but is provided as a prefabricated assembly, so the prefabricator 100 can be moved and disposed in the horizontal direction of the ground as shown in FIG. have.

Of course, it is not necessary to perform the construction of the prefabricator 100 after the roof construction.

Even if the prefabricator 100 is constructed before the roof construction, since the prefabricator 100 can be horizontally moved, the need for heavy equipment for moving the prefabricated unit 100 can be reduced.

Both side surfaces of the prefabricated material 100 disposed between the pillars P correspond to the column P, and the bottom surface of the prefabricated material 100 corresponds to the floor structure.

The floor structure may be a cornerstone.

Next, the prefabricated inbang material 100 is fixed to the pillar (P) and the cornerstone using a fixing means. (S310)

In this case, the fixing means is not specifically limited, and a'L'-shaped angle may be provided.

That is, one side of the angle is fixed to the prefabricated material 100, and the other side of the angle is fixed to the column P, so that the prefabricated material can be fixed.

At this time, a gap may occur between the pillar P and the prefabricated material 100, which maintains airtightness through a sealing operation.

Next, by performing the indoor and outdoor finishing work of the prefabricated injuries 100, the wall construction of the hanok is completed. (S410)

As described so far, the method of manufacturing a prefabricated hanok according to the present invention and the method of constructing a wall of a hanok using the prefabricated prefabricated Hanok improves the convenience of construction when constructing a hanok wall by prefabricating the prefabricated wall. By integrating the linings, the structural performance of the prefabricated linguine was improved, and the insulation performance of the prefabricated linguine was improved so that the insulation of the wall of the hanok and the aesthetics of the interior and exterior of the hanok were not degraded.

In the above, the present invention has been described in detail with respect to the described embodiments, but it is obvious to those skilled in the art that various modifications and modifications are possible within the scope of the technical idea of the present invention, and it is natural that such modifications and modifications fall within the scope of the appended claims.

100: prefab fireproof 110: rigid member (plywood)
110a: through hole 120: inbang
130: insulation P: column

Claims (6)

(a) providing a rigid member having a size corresponding to the space in which the inbang materials constituting the wall of the hanok are installed;
(b) arranging and fixing a plurality of seals on one surface of the rigid member;
(c) the step of constructing a heat insulating material in the space between the linings, including,
The rigid member is provided with plywood,
The insulating material includes phenolic foam, and the thickness of the inbang material is formed to be thinner than the thickness of the pillar forming the inbang material space of the hanok,
As the seals are fixed on one side of the plywood, one side of the space formed by the seals is shielded by the plywood and the other side of the space is opened, and the insulating material is installed in an open area to the other side of the space between the seals,
The inbangjae is a method of manufacturing a prefabricated inbangjae for hanok, characterized in that it can increase the structural stability of the wall of the hanok. delete delete Providing a rigid member having a size corresponding to the space in which the inbang materials constituting the wall of the hanok are installed; Arranging and fixing a plurality of seals on one surface of the rigid member; Prefabricated inbang materials for hanok are prepared in advance through a method for manufacturing inbang materials for hanok including the step of constructing an insulation material in the space between the inbangs,
Pillars are constructed to compose the walls of the hanok, and spaces are formed between the pillars for prefabrication.
In the space, the prefabricated prefabricated material is inserted and disposed from the front or rear of the space to be installed,
The prefab sealant is fixed to the pillar through a fixing means, and a sealing means is constructed between the prefabricated sealant and the pillar,
The prefabricated inbang material is made thinner than the thickness of the pillar,
Both sides of the prefabricated inbang material disposed between the pillars correspond to the pillars, and the bottom surface of the prefabricated inbang material corresponds to the floor structure,
The fixing means is provided with a'L'-type angle, one side of the angle is fixed to the prefabricated inbang material, and the other side of the angle is fixed to the column to allow the prefabricated inbang material to be fixed. Hanok wall construction method using ash. delete delete

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