KR101280611B1 - Wooden House And Manufacturing Method Thereof - Google Patents

Abstract

According to the present invention, a wooden house includes a purlin installed on an upper part of a pillar, a plurality of rafters supported on the upper part of the purlin and arranged at regular intervals, and a board installed on an upper part of the plurality of rafters, between the purlin and the open plate. In order to prevent the regular formed in the provided with a heat insulating material provided between the purlin and the open plate, it is possible to improve the heat insulating performance in the single film.

Description

Wooden House and Manufacturing Method Thereof}

The present invention relates to a wooden house and a method of manufacturing a wooden house.

A wooden house is a wooden structure mainly made of wooden frameworks such as walls, floors, roofs, etc., and is characterized by oriental classical construction methods, Korean-style structures and Japanese-style structures that have been improved in Japan. There is a Western-style structure. The building is light in weight and easy to operate, but its fire resistance and durability are weak. However, wooden houses have received a lot of attention recently because they are environmentally friendly compared to buildings made of concrete structures.

Unlike traditional Korean houses, Hanok, a traditional Korean house, is a wooden house built using wood as the main material. Briefly describing the process of making a hanok, one of the wooden houses, a basic skeleton is made of wood on the headstone, and a roof is placed on the basic skeleton and walls and windows are installed.

The members that form the basic skeleton of Hanok are pillars, beams, torii, and rafters. As such, the size of the members forming the basic skeleton of the hanok usually depends on the size of the house. On the other hand, there are various ways of joining the roof, depending on the plane and the size of the house. This method of weaving wood is called furniture.

In more detail, the process of making a hanok is made up of a plurality of pillars that divide the interior space on top of the headstones arranged at regular intervals, and girders are installed on the pillars. On the girder, the middle way, the middle way, and the anti-airway are built one after another, and on the girder and the middle way, a number of rafters are installed.

The rafters are seated inclined at regular intervals on top of the purlin located on the top of the column, and the boards are laid on the top of the rafters. Therefore, it has a structure in which a gap is inevitably formed between the rafters laid on the top of the torii and the rafters. More specifically, a gap is created between the rafters and the rafters which are arranged at regular intervals on the upper part of the purlin and laid on the upper part of the purlin. This gap is called regular (or dangal) in the field of traditional house construction, and blocking the regular is called "mongol".

In Hanok, soil was used to prevent these regulars. However, since the soil shrinks and splits over time, a gap is generated and the insulation performance of the monolayer is degraded.

The present invention is to solve the above problems, it is an object of the present invention to provide a wooden house and a method of manufacturing a wooden house that can increase the thermal insulation performance of the monolithic.

Another object of the present invention is to provide a method for manufacturing a wooden house and a wooden house that can simplify the construction of the monolayer.

Still another object of the present invention is to provide a method of manufacturing a wooden house and a wooden house which can prevent a gap occurring in the monolayer due to the contraction of the rafter.

Wooden house according to an embodiment of the present invention for achieving the above object is a purlin installed on the top of the pillar, a plurality of rafters supported on the top of the purlin and arranged at a predetermined interval, and the plurality of rafters It is provided with an open plate provided at an upper portion, and a heat insulating material provided between said purlin and said open plate in order to prevent the staple formed between the said purlin and the open plate.

At this time, the heat insulating material is provided with a first heat insulating material which is supported by the purlin and supports the lower part of the rafters, and a second heat insulating material which is supported by the rafters and supporting the lower part of the open plate.

Meanwhile, the first insulation and the second insulation may each include a plurality of accommodation grooves for accommodating a portion of the rafter.

The rafters are further provided with a band of material having a high elasticity to be seated in the receiving groove.

The insulation may be formed of one of expanded polystyrene (EPS), extruded polystyrene (XPS), and cellulose foam insulation.

Method of manufacturing a wooden house according to an embodiment of the present invention for achieving the above object is the step of installing a purlin on the top of the pillar, the step of installing a first insulating material formed with a groove on the upper side of the purlin And inserting the rafters in the grooves formed in the first insulation, installing a second insulation in which the grooves are formed in the upper portion of the rafters, and installing a gutter on the upper portion of the second insulation. .

And before the step of inserting the rafter in the groove formed in the first insulation, the step of inserting the rafter in the band of a material having high elasticity may be further included.

According to the method for manufacturing a wooden house and a wooden house according to the present invention, since the heat insulating material is used as a monolith, it is possible to improve heat insulation performance in the monolith.

In addition, it is possible to simplify the construction of wooden houses, because the insulation to form a single film can be manufactured in the factory and used in the field.

In addition, the rafters are inserted and provided with a band of material having a high elasticity seated in the receiving groove formed in the heat insulator, so that even if the rafters contract, the bands can expand to prevent gaps in the monolayer, so that the insulation performance in the monolayer can be maintained. have.

1 is a cross-sectional view of a wooden house according to an embodiment of the present invention.
Figure 2 is an exploded perspective view showing the appearance of a monolith in a wooden house according to an embodiment of the present invention.
3 is a cross-sectional view of the monococcal membrane shown in FIG. 2.
Figure 4 is a flow chart showing a wooden house manufacturing method according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a method of manufacturing a wooden house and wooden house according to an embodiment of the present invention. There are many wooden houses, but hereinafter, Hanok, one of the wooden houses, will be described as an example.

1 is a cross-sectional view of a wooden house according to an embodiment of the present invention, Figure 2 is an exploded perspective view showing a form of a monolith in a wooden house according to an embodiment of the present invention, Figure 3 is one of the present invention It is a cross-sectional view showing the appearance of a single curtain in the wooden house according to the embodiment.

Referring to Figure 1, the wooden house according to an embodiment of the present invention is built in the following way.

A plurality of pillars 20 for partitioning the internal space are erected on the top of the arranged pedestal 10, and the purlin 30 and the girder 40 are erected on the pillar 20. On the girder 40, the middle purlin 50 and the medial 70 are erected, and the large hole 75 is erected on the girder 70. And finally, the claw hammer 80 is erected on the upper portion of the large hole (75), the ridge 90 is installed on the upper portion of the claw hammer (80).

On the other hand, a plurality of rafters 51 are spread over the purlin 30 and the purlin 50. The upper part of the rafters 51 is laid open plate 52, the upper portion of the open plate 52 is laid soil.

Therefore, it has a structure in which a gap | gap is bound to arise between the rafter 51 and the rafter 51 installed on the purlin 30. Such a gap is called a staple, and more specifically, a staple is a gap surrounded by a purlin 30 at the bottom, a rafter 51 at both sides, and an open plate 52 at the top.

In the wooden house according to an embodiment of the present invention uses a heat insulating material to prevent such a regular.

Next, with reference to FIGS. 2 and 3 will be described a structure for forming a monolith using a heat insulating material.

The heat insulating material 100 is provided with a receiving groove 101 for accommodating the rafter 51 to form a classic film to block the classic using the heat insulating material 100. Thus, the heat insulating material 100 is provided with the receiving groove 101 so that the rafter 51 is in close contact with the receiving groove 101, thereby preventing the staples.

On the other hand, in order to facilitate the installation of the heat insulator 100 in the staple, the heat insulator 100 is supported by the purlin 30 and is supported by the first heat insulator 110 and the rafters 51 supporting the lower part of the rafters 51. The second heat insulating material 120 which supports the lower part of 52 is provided.

The first heat insulating material 110 has a plurality of first receiving grooves 111 for accommodating a portion of the lower side of the rafters 51, and the second heat insulating material 120 is a plurality of accommodating upper portions of the rafters 51. Two second receiving grooves 121.

The first accommodating groove 111 provided in the first insulation material 110 and the second accommodating groove 121 provided in the second insulation material 120 to accommodate the rafter 51 have a semicircular shape. When the first accommodating groove 111 and the second accommodating groove 121 are joined together to form one accommodating groove 101 in which the rafter 51 is accommodated.

Meanwhile, the first heat insulating material 110 and the second heat insulating material 120 may have the same shape. In addition, the first heat insulating material 110 and the second heat insulating material 120 are manufactured in advance in the factory to have the receiving grooves 111 and 121 so as to be used as a monolayer. When the first heat insulating material 110 and the second heat insulating material 120 are manufactured in a factory, the first heat insulating material 110 and the second heat insulating material 120 are made long in the longitudinal direction so that the user can cut and use the required length.

The insulation 100 may be formed of one of foam polystyrene (EPS), extruded polystyrene (XPS), cellulose foam insulation that is easy to produce in the factory. By using the insulator 100, which is inexpensive as described above, the insulation performance of the wooden house can be improved at low cost.

Meanwhile, prior to accommodating the rafter 51 into the accommodating groove 101 of the heat insulator 100, the rafter 51 may be inserted into the band 130 having a high elasticity, and then the band 130 may be accommodated in the accommodating groove 101. Can be. At this time, the band 130 is formed of a material having high elasticity. Therefore, when accommodated in the receiving groove 101, the degree of close contact with the receiving groove 101 can be increased.

As time elapses, the water in the wood evaporates, so that the wood shrinks, and the rafter 51 also shrinks over time. Therefore, when the rafter 51 contracts, a gap is generated between the rafter 51 and the receiving groove 101, so that the thermal insulation performance may be reduced. The gap generated between the grooves 101 can be filled. As such, even if the rafter 51 contracts, the band 130 may expand to prevent a gap occurring in the monolayer, thereby continuously maintaining the thermal insulation performance in the monolayer.

Next, a method of manufacturing a wooden house according to an embodiment of the present invention described above will be described.

4 is a flowchart illustrating a method of manufacturing a wooden house according to an embodiment of the present invention.

Referring to FIG. 4, the method of manufacturing a wooden house according to an embodiment of the present invention includes installing a purlin 30 on an upper portion of the pillar 20 (S110) and a groove upwards on the upper part of the purlin 30. Installing the first heat insulating material (110) (111) is formed, the step (S130) of fitting the rafters 31 into the grooves 111 formed in the first heat insulating material (110) (S130), and the rafters (31) And installing a second heat insulating material 120 having a groove 121 formed at a lower side thereof (S140), and installing an open plate 52 on an upper portion of the second heat insulating material 120 (S150). do.

When installing the first heat insulating material 110 in which the groove 111 is formed on the upper side of the purlin 30, the first heat insulating material 110 produced at the factory is cut and installed as necessary in the longitudinal direction on the upper part of the purlin 30. . In this way, when the first heat insulating material 110 is installed on the upper portion of the purlin 30, the first heat insulating material 110 is installed in a direction perpendicular to the inclination direction of the rafter 51.

Meanwhile, before the step of inserting the rafter 31 into the groove 111 formed in the first heat insulating material 110, the rafter 31 is inserted into the band 130 of a material having high elasticity. After inserting the rafters 31 into the band 130 of a material having high elasticity as described above, the rafters 31 closely adhere to the grooves 111 by seating the bands 130 on the grooves 111 formed in the first heat insulating material 110. You can.

Thus, after the rafters 31 are seated in the grooves 111 formed in the first heat insulating material 110, the second heat insulating material 120 covers the upper portion of the first heat insulating material 110 so that the rafter 31 is the first heat insulating material. It is to be fitted between the groove 111 formed in the 110 and the groove 121 formed in the second heat insulating material (120).

On the other hand, when installing the second heat insulating material 120 is cut and installed as necessary in the longitudinal direction as in the case of installing the first heat insulating material (110).

Since the open plate 52 is installed on the upper portion of the second heat insulating material 120 after the second heat insulating material 120 is installed, the open plate 52 is supported by the second heat insulating material 120. In addition, since the roof forming members are installed in the upper part of the open plate 52, the grooves 111 and 121 formed in the first insulation material 110 and the second insulation material 120 may be in close contact with the rafters 31.

As described above, according to the method of manufacturing a wooden house and a wooden house according to an embodiment of the present invention, it is possible to increase the thermal insulation performance of the monolith and to simplify the construction of the monolith.

In the above described a wooden house and a method of manufacturing a wooden house according to an embodiment of the present invention, the spirit of the present invention is not limited to the embodiment presented herein. And those skilled in the art to understand the spirit of the present invention can easily suggest other embodiments by the addition, modification, deletion, addition, etc. within the scope of the same idea, but this also falls within the scope of the invention something to do.

20: pillar 30: chief judge
51: Rafters 52: Opening
110: first heat insulating material 120: second heat insulating material
130: band

Claims (7)

Purlins installed on top of pillars,
A plurality of rafters supported on top of the purlin and arranged at regular intervals,
The board is installed in the upper part of the plurality of rafters,
It is provided with a heat insulating material provided between the purlin and the open plate to prevent the staple formed between the purlin and the open plate,
The heat insulating material includes a first heat insulating material supported by the purlin and supporting the lower part of the rafters, and a second heat insulating material supported by the rafters and supporting the lower part of the open plate,
The first insulation and the second insulation is provided with a plurality of receiving grooves for receiving a portion of the rafters, respectively
The wooden house, characterized in that the rafter is inserted and further provided with a band of a material having a high elasticity seated in the receiving groove. delete delete delete The method of claim 1,
The insulation is a wooden house, characterized in that formed of one of foam polystyrene (EPS), extruded polystyrene (XPS), cellulose foam insulation. Installing a purlin on the top of the column,
Installing a first heat insulating material having a groove formed on the upper side of the purlin;
Inserting the rafter into the band of material with high elasticity,
Inserting the rafters into grooves formed in the first insulation;
Installing a second insulating material having a groove formed on the upper side of the rafters;
The method of manufacturing a wooden house comprising the step of installing a gutter on top of the second insulation. delete

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