KR101124523B1 - Wall structure of wooden building and wooden building having the same - Google Patents

Abstract

PURPOSE: A wall structure of a wooden building and a wooden building having the same are provided to ensure the structural safety of a wall by natural air circulation since the inside of the wall of a wooden building is communicated with external air. CONSTITUTION: A wall structure of a wooden building comprises a sole plate(12), a plurality of studs(14), a top plate(34), an upper hardware(24), a rim joist(36), and a wall cover. The studs are vertically coupled to one side of the sole plate and are arranged at intervals in the length direction of the sole plate. The top plate is arranged at an interval from the outside to the inside of the building. The top plate is horizontally coupled to the upper ends of the studs so that a space unit is formed on the upper end of the stud. The upper hardware comprises a first body and a first joint. The first body is arranged on the space unit of the upper end of the stud.

Description

Wall structure of wooden building and wooden building having same

The present invention relates to a wall structure of a wooden building and a wooden building comprising the same. More specifically, the interior of the wall of the wooden building is ventilated with the outside air, and the structure of the wall of the wooden building that can ensure the structural safety of the wall by natural air circulation and a wooden building comprising the same.

Wooden buildings are constructed using wooden products as the main structural members, and these structural wooden products are used as frames and covers to join together to form the entire structural element.

The walls of wooden buildings support the vertical loads and transfer the roof and floor loads to the foundation of the building. It also resists lateral loads caused by earthquakes and wind. Such a wall of a wooden building is composed of studs, upper collars, underlays, wall coverings, and the like.

1 shows a cross-sectional view of a wooden building according to the prior art. Looking at the method of configuring the wall of the wooden building according to the prior art, first, the foundation 104 is fixed to the foundation 102 using a fixing bolt or the like, and the walls are constructed on the foundation 104.

Walls, a plurality of studs 108, a plurality of studs are vertically coupled to the upper surface of the base collar 106, spaced apart from each other at regular intervals along the longitudinal direction of the base collar 106 ( It consists of a wall frame including a wall frame (110) coupled to the upper end of the 108 and a wall cover (120) bonded to the outdoor side of the stud (108).

When the wall frame of the first floor is completed, the joist 118 and the side curtain joist 112 are installed on the upper part thereof, and the bottom plate 114 is formed on the joist 118 and the side curtain joist 112 to cover the bottom plate 114. And the above-mentioned wall frame is again formed in the upper part of the bottom part of two layers. When the wall frame is formed, the wall cover 120 is bonded to the outdoor side, and then the rafters 122 are installed on the upper two-story wall, and the roof cover 124 is covered to form the skeleton of the two-story wooden building.

In the interior side of the wall, a heat insulating material is installed between the studs 108 adjacent to each other, and the interior finishing material 126 such as gypsum board is bonded to the interior side surface of the stud 108 to form a wall.

Wall of the wooden building according to the prior art, the upper and lower end of the upper 110 and lower collar 106, the studs 108 of both ends, the wall cover 120 of both sides and the interior finish 126 is sealed inside the wall. Therefore, the ventilation with the outside air is cut off, and condensation occurs inside the wall when the temperature difference between the inside and the outside of the building occurs. Cause problems.

Republic of Korea Patent Publication No. 2002-0035072 (2002.05.09)

The present invention is to provide a wooden building and a wooden building including the wall structure of the wooden building which can ensure the structural safety of the wall by the natural air circulation is ventilated with the outside air of the wooden building.

According to an aspect of the present invention, as a wall structure of a wooden building, underlay; A plurality of studs vertically coupled to one surface of the underlay and spaced apart from each other along the longitudinal direction of the underlay; An upper collar that is laterally coupled to the top of the plurality of studs so that a spaced portion is formed on the top of the stud by being spaced a predetermined distance from the outdoor side to the indoor side of the building; An upper hardware having a first body disposed in a spaced portion of an upper end of the stud, and a first coupling part extending in the stud direction from the first body and coupled to the stud; A sidewall joist positioned at an upper end of the first body so as to be spaced a predetermined distance from an outdoor side to an indoor side of the building; And a wall cover coupled to the side end of the stud in the outdoor side direction of the building.

The upper hardware may further include a vertical plate spaced apart at a distance from the outdoor side of the building to the indoor side and vertically extending from the upper end of the first body. In this case, the sidewall joist is the It is inserted between the side and the vertical plate and can be coupled to the upper collar.

The underlay may be coupled laterally to the bottom of the plurality of studs to be spaced apart a predetermined distance from the outdoor side of the building to the indoor side to form a spaced portion at the bottom of the stud, in this case, the spaced portion of the bottom of the stud It may further include a lower body having a second body disposed in the second body and a second coupling portion extending in the direction of the stud in the second body and coupled to the stud.

The first body and the second body may be formed with a vent for moving the air in the transverse direction.

A lower end is located on the upper surface of the upper collar and may further comprise a joist is coupled vertically to one side of the side wall, in this case, the top of the joist and the top of the side joule may be located on the same plane. .

The bone portion may be disposed in the vertical direction, the surface may further include a bone member inserted between the studs adjacent to each other so as to face the wall cover.

One side may further include a heat insulating material inserted between the studs adjacent to each other so as to face the other surface of the bone shape member.

In addition, according to another aspect of the present invention, the first rafters comprising the wall structure of the wooden building according to the above, the end is coupled to the corner formed by the upper surface of the upper claw hammer and the inner surface of the side curtain joists, An inner roof having a first roof covering covering the rafters; A wooden building is provided, comprising a second rafter coupled to an upper surface of the first roof covering such that one end extends outwardly of the wall structure, and an outer roof having a second roof cover covering the second rafter. .

According to the embodiment of the present invention, the interior of the wall of the wooden building is ventilated with the outside air to ensure the structural safety of the wall by natural air circulation.

In addition, the air passage is formed in the interior of the wall can be improved long life, insulation and sound insulation of the wooden building.

1 is a cross-sectional view of a wooden building according to the prior art.
Figure 2 is a perspective view of the frame of the wall structure of a wooden building according to an embodiment of the present invention.
3 is a partially enlarged view of a frame of a wall structure of a wooden building according to an embodiment of the present invention.
Figure 4 is a perspective view of the upper hardware of the wall structure of the wooden building according to an embodiment of the present invention.
5 is a perspective view of the lower hardware of the wall structure of the wooden building according to an embodiment of the present invention.
6 is a cross-sectional view of a wall structure of a wooden building according to an embodiment of the present invention.
7 is a cross-sectional view of a wooden building according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention is capable of various modifications and various embodiments, and specific embodiments are illustrated in the drawings and described in detail in the detailed description. However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all transformations, equivalents, and substitutes included in the spirit and scope of the present invention. In the following description of the present invention, if it is determined that the detailed description of the related known technology may obscure the gist of the present invention, the detailed description thereof will be omitted.

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

Hereinafter, an embodiment of a wall structure and a wooden building of a wooden building according to the present invention will be described in detail with reference to the accompanying drawings, and in the following description with reference to the accompanying drawings, the same or corresponding components are given the same reference numerals. And duplicate description thereof will be omitted.

Figure 2 is a perspective view of the frame of the wall structure of the wooden building according to an embodiment of the present invention, Figure 3 is a partial enlarged view of the frame of the wall structure of the wooden building according to an embodiment of the present invention. 4 is a perspective view of the upper hardware of the wall structure of the wooden building according to an embodiment of the present invention, Figure 5 is a perspective view of the lower hardware of the wall structure of the wooden building according to an embodiment of the present invention. 6 is a cross-sectional view of a wall structure of a wooden building according to an embodiment of the present invention. 2 to 6, the base collar 12, the spaced portions 13 and 25, the studs 14, the first body 16, the vertical plate 18, the vent holes 20 and 30, and the first Coupling portion 22, the upper hardware 24, the second body 26, fasteners 27, the second coupling portion 28, the lower hardware 32, upper collar (34), sidewall joists 36 , Wall cover 38, bone form 52, bone form 53, insulation 54, interior finish 56 is shown.

The wall structure of the wooden building according to the present embodiment, the underlay 12 and; A plurality of studs 14 vertically coupled to one surface of the underlay 12 and spaced apart from each other along the longitudinal direction of the underlay 12; A space between the outer side of the building and the indoor side spaced apart at a predetermined distance to the upper end of the plurality of studs 14 so that the spaced portion 13 is formed on the top of the studs 14 and 34 ; First body 16 disposed in the spaced portion 13 of the upper end of the stud 14, the first body 16 extending in the direction of the stud 14 and coupled to the stud 14 An upper hardware 24 having a coupling portion 22; A sidewall joist 36 positioned on the first body 16 so as to be spaced apart from the outdoor side of the building by a predetermined distance from the outdoor side; And a wall cover 38 coupled to the side end of the stud 14 in the direction of the outdoor side of the building, the interior of the wall of the wooden building is ventilated with outside air to ensure structural safety of the wall by natural air circulation. can do.

The underlay 12 is a horizontal structural member coupled to the bottom surface of the stud 14, and may be joined to a foundation, a bottom cover, a joist installed under the bottom cover, and the like.

Stud 14 (stud) is vertically coupled to one surface of the under collar 12, a plurality of studs 14 are spaced apart from each other along the longitudinal direction of the under collar 12. The stud 14 is a vertical structural member used for framing a wall, and transmits vertical loads such as roofs and floors directly to beams and other walls or foundations.

The spacing and dimensions between the studs 14 can be determined according to the load acting on the top.

The upper collar 34 is coupled to the upper end of the plurality of studs 14 so as to be spaced apart a predetermined distance from the outdoor side of the building to the indoor side to form a spaced portion 13 on the top of the stud 14. The upper collar 34 is a horizontal structural member that is coupled to the top surface of the stud 14, in the bearing wall two upper collar 34 is double with each other to distribute the load from the floor joist or roof truss to the stud 14 Can be installed overlapping.

In the related art, the width of the top surface of the stud 14 and the width of the bottom surface of the upper collar 34 are combined to match each other using wood having the same width, but in the present embodiment, the upper collar 34 is coupled to the top of the stud 14. Place a certain distance from the outdoor side to the indoor side of the building on the surface and combines the upper collar 34 in the transverse direction to the top of the stud (14). Accordingly, the spaced portion 13 is formed on the top surface of the stud 14 as much as the upper collar 34.

The upper hardware 24 is coupled to the stud 14 and extends in the direction of the stud 14 from the first body 16 and the first body 16 disposed in the spaced portion 13 on the top of the stud 14. It is provided with a first coupling portion 22.

The first body 16 of the upper hardware 24 is disposed in the spacing part 13 generated by placing the upper collar 34 on the stud 14 upper surface at a distance from the outdoor side to the indoor side of the building. To fill the spacer 13. The first coupling portion 22 extending from the first body 16 in the direction of the stud 14 is coupled to the top of the stud 14. The first coupling part 22 may form a fastener 27 through which the nail penetrates, and may nail the upper hardware 24 to the top of the stud 14 by nailing the nail through the fastener 27. The first body 16 of the upper hardware 24 supports the lower end of the sidewall joists 36, which will be described later, and transmits the load acting on the side joists 36 to the studs 14.

By placing the upper collar 34 at a distance from the top side of the stud 14 toward the indoor side of the building, the space formed by the studs 14 adjacent to each other at the lower side is a space on the upper collar 34. Can communicate with each other.

The sidewall 36 is located at the top of the first body 16 so as to be spaced a predetermined distance from the outdoor side to the indoor side of the building, and may be coupled to the upper collar 34. The sidewall 36 is a horizontal structural member that is vertically coupled to the end face of the joist constituting the floor or roof of a wooden building and transmits loads such as a roof and a floor to the studs 14.

The sidewall joists 36 are laid in a predetermined distance from the outdoor side of the building to the interior side at the upper end surface of the first body 16 of the upper hardware 24, and the sidewalls of the sidewall joists 36 have the upper collar 34. While contacting the side can be coupled to the upper collar (34). In order for the sidewall 36 to be indented from the top surface of the first body 16, the thickness of the sidewall 36 is smaller than the width of the top surface of the first body 16.

When the wall cover 38 is joined at the outdoor side of the stud 14 with the side joist 36 indented to the top surface of the first body 16 of the upper hardware 24, the side joule 36 with the side joist 36 The space S is provided between the wall covers 38 by the distance where the sidewall 36 is placed (see FIG. 7).

When the outer wall of the wooden building is constituted by the wall according to the present embodiment, the space S communicates with each other along the outer circumference of the wall to form an air passage through which air can be moved. On the other hand, such a space (S) is in communication with the space formed by the studs 14 adjacent to each other located on the upper and lower portions of the joist 36. Therefore, an air passage through which air can be circulated is formed in the wall of the wooden building.

In order to facilitate the positioning of the sidewall 36, the first body 16 of the upper hardware 24 is spaced a certain distance from the outdoor side to the indoor side of the building, and the first body 16 is spaced apart. There may be a vertical plate 18 extending vertically from the top. Accordingly, the sidewall joists 36 may be sandwiched between the side surface of the upper collar 34 and the vertical plate 18 to facilitate positioning of the sidewall joists 36. On the other hand, the vertical plate 18 is formed with a fastener 27 through which the nail penetrates, and nails through the fastener 27 to combine the upper hardware 24 and the sidewall joists 36.

The wall cover 38 is coupled to the side end of the stud 14 in the direction of the outdoor side of the building. When the framework of the wall is completed, a wall cover 38 is coupled to the side end of the stud 14 in the direction of the outdoor side of the building to cover the framework. When building a multi-storey wooden building, both the upper and lower wall frames are covered with a wall cover 38.

On the other hand, the underlay 12 may be coupled in the transverse direction to the bottom of the plurality of studs 14 to be spaced apart a predetermined distance from the outdoor side of the building to the interior side spaced apart portion 25 is formed at the bottom of the stud 14. have. In this case, a second body 26 disposed in the spaced portion 25 at the bottom of the stud 14 and a second coupling extending from the second body 26 in the direction of the stud 14 and coupled to the stud 14. It may further include a lower hardware 32 having a portion 28.

In the prior art, the width of the bottom end surface of the stud 14 and the width of the bottom surface of the underlay collar 12 are combined with each other by using wood having the same width, but in the present embodiment, the underlay collar 12 is lower than the bottom of the stud 14. At a distance from the end of the building in the direction of the building from the outdoor side to the indoor side and the bottom collar 12 is coupled to the bottom stud 14 in the transverse direction. Accordingly, the spaced portion 25 is formed on the bottom surface of the stud 14 as much as the bottom collar 12 is indented.

The second body 26 of the lower hardware 32 is disposed in the separation part 25 generated by placing the underlay 12 at a distance from the bottom side of the stud 14 to the interior side of the building at a predetermined distance. The gap 25 is filled. The second coupling part 28 extending in the direction of the stud 14 from the second body 26 is coupled to the bottom of the stud 14. The second coupling portion 28 is formed with a fastener 27 through which the nail penetrates, and the lower hardware 32 may be coupled to the bottom of the stud 14 by nailing the nail through the fastener 27.

By placing the underlay 12 at a distance from the outdoor side to the indoor side of the building on the bottom surface of the stud 14, when constructing a multi-layered wooden building using the wall according to the present embodiment, the sidewall joist 36 ) And the space formed by the upper stud 14 and the space (S) between the wall cover 38 and the lower layer and the upper wall of the wall to communicate with each other in the air can be a natural air circulation (Fig. See arrow 7).

Vent holes 20 and 30 penetrating in the lateral direction may be formed in the first body 16 of the upper hardware 24 and the second body 26 of the lower hardware 32. These vents 20 and 30 communicate with each other the spaces formed by several studs 14, as indicated by the arrows in FIG.

The wall structure according to the present embodiment may further include a joist (reference numeral 37 in FIG. 7) having a lower end disposed on an upper surface of the upper collar 34 and vertically coupled to one side of the side joist 36. In this case, the top of the joist (reference numeral 37 of FIG. 7) and the top of the sidewall 36 may be positioned on the same plane.

Conventionally, the joists and sidewall joists are used as wood of the same standard, and the joists and sidewall joists are placed on the upper part of the upper calculus, but the top of the joists and the top of the sidewall joists are located on the same plane. Steps are generated by arranging the upper hardware 24 at the spacing part 13 by placing the 34 at a distance from the outdoor side to the indoor side of the building on the top surface of the stud 14. Therefore, the sidewalls 36 were each made to have upper ends on the same plane by using a small standard length (reference numeral 37 in FIG. 7).

In this embodiment, as the frame of the wall, the bottom collar 12 and the upper collar 34 have a cross-sectional specification (thickness x width) of 1.5 inches (3.5) x 3.5 inches, and the stud 14 is 1.5 inches x 5.5. Being inches, the first body 16 of the upper hardware 24 presents a form using something about 1 inch by 2 inches in thickness and width. Then, the sidewall 36 shows a form using 1.5 inches by 11.25 inches, and the joists (reference numeral 37 in FIG. 7) of 1.5 inches by 9.25 inches. Accordingly, two upper collars 34 are disposed on the top of the studs 14, and the first body 16 of the upper hardware 24 is placed on the spaced portion 13 of the top of the studs 14. As shown in FIG. 7, when the sidewalls 36 and the joists (reference numeral 37 of FIG. 7) of the standard are arranged, the top of the joists (reference numeral 37 of FIG. 7) and within the error range on the wall fabrication are disposed. The upper end of the sidewall 36 is located on the same plane. On the other hand, since the first body 16 of the lower hardware 32 must support the bottom of the stud 14 together with the underlay 12, the second body 26 of the lower hardware 32 is approximately thick and A width of about 1.5 inches x 2 inches was used.

The space formed by the studs 14 may be in communication with the outside by placing the upper collar 34 and the lower collar 12 at an end surface of the studs 14 at the upper and lower ends of the stud 14 from the outdoor side to the indoor side. In order to allow the air of the wall to move smoothly in the vertical direction, the bone member 52 may be disposed in the space formed by the studs 14 adjacent to each other so that the bone member 53 is disposed in the vertical direction.

The bone portion 53 of the bone member 52 is disposed in the height direction of the building, that is, the vertical direction, and studs adjacent to the bone member 52 so that one surface of the bone member 52 faces the wall cover 38. Insert between (14).

After the bone member 52 is inserted, the heat insulating material 54 may be inserted into the remaining space. The heat insulating material 54 fills the space formed between the studs 14 adjacent to each other so that one surface thereof faces the other surface of the bone member 52 and the studs 14 adjacent to each other are formed. When the heat insulating material 54 is inserted, the interior finishing material 56, such as gypsum board, is bonded to the interior side surface of the stud 14, and a wall is comprised.

7 is a cross-sectional view of a wooden building according to an embodiment of the present invention. Referring to FIG. 7, the base 11, the bottom collar 12, the bottom base 13, the studs 14, the top hardware 24, the bottom hardware 32, the top collar 34, and the bottom cover 35 ), Sidewall joists 36, wall covering 38, top foundation 39, first rafters 40, first roof covering 42, inner roof 44, second rafters 46, second Roof cover 48, outer roof 50, and interior finish 56 are shown.

FIG. 7 illustrates a two-story wooden building. When two walls are completed using the wall structure described above, a roof is installed on the second floor.

Looking in more detail, the lower base 13 is installed in order to support the wall structure on the base 11, and the above-mentioned wall frame is installed on the lower base 13 to form a one-story wall frame. Then, a bottom cover 35 is provided on the joist 37 and the sidewall 36 of the one-story wall to form a two-story bottom. When the second floor is formed, the above-mentioned wall frame is re-installed on the second floor to form a two-story wall frame. In this case, the bottom of the two-story wall is reinforced to reinforce the bottom of the two-story wall. An upper base 39 having a wider width than 12 can be provided. The lower end of the two-story wall is protruded from the side end of the lower base 39 so that the stud 14 of the one-story wall and the outdoor side surface of the stud 14 of the two-story wall are located on the same line. When the two-story wall frame is formed, the wall cover 38 is bonded to the outdoor side of the building, and the roof is placed on the top of the two-story wall.

And, in the interior side of the wall, the above-described bone-shaped material and the heat insulating material is installed between the studs 14 adjacent to each other, and the interior finishing material 56 such as gypsum board is bonded to the interior side of the stud 14 to form a wall. .

The roof structure according to the present embodiment has a plurality of roof structures with an inner roof 44 and an outer roof 50.

The frame of the inner roof 44 is installed so that the end of the first rafters 40 is coupled to the corner formed by the upper surface of the upper claw 34 of the second floor and the inner surface of the sidewall 36, and the first roof cover The inner roof 44 is formed by covering the first rafters 40 with 42. Accordingly, the inner roof 44 covers the interior of the second floor.

Then, the second rafters 46 are coupled to the upper surface of the first roof cover 42 so that one end thereof extends to the outside of the wall structure, and the second rafters 46 are covered with the second roof cover 48 to cover the outer roof. Configure 50. The second rafters 46 of the outer roof 50 extend outward of the wall structure to cover the second roof covering 48 to form an eave.

When the outer roof 50 is formed as described above, the space S formed by the sidewall 36 of the two-story wall and the wall cover 38 is formed by the second rafter 46 of the outer roof 50. In general, the first floor and the second floor walls are ventilated with the air of the outside air so that a natural air circulation can be achieved.

When building a multi-layered wooden building using the wall according to the present embodiment, as shown by the arrow of FIG. 7, the space S between the sidewall 36 and the wall cover 38 and the upper and lower studs The spaces formed by (14) communicate with each other such that the walls of the lower and upper floors communicate with each other in an air flow, and the air flows with the space between the inner roof 44 and the outer roof 50 so that a natural air circulation can be achieved. have.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It will be understood that the invention may be varied and varied without departing from the scope of the invention.

Many embodiments other than the above-described embodiments are within the scope of the claims of the present invention.

12: under collar 13, 25: separation part
14 stud 16 first body
18: vertical plate 20, 30: vent
22: first coupling portion 24: upper hardware
26: second body 27: fastener
28: second coupling portion 32: the lower hardware
34: upper collar 35: bottom cover
36 side wall joists 38 wall covering
39: auxiliary underlay 40: first rafter
42: first roof cover 44: the inner roof
42: second rafter 48: second roof cover
50: outer roof 56: interior finish

Claims (8)

As a wall structure of a wooden building,
With a collar;
A plurality of studs vertically coupled to one surface of the underlay and spaced apart from each other along the longitudinal direction of the underlay;
An upper collar that is laterally coupled to the top of the plurality of studs so that a spaced portion is formed on the top of the stud by being spaced a predetermined distance from the outdoor side to the indoor side of the building;
An upper hardware having a first body disposed in a spaced portion of an upper end of the stud, and a first coupling part extending in the stud direction from the first body and coupled to the stud;
A sidewall joist positioned at an upper end of the first body so as to be spaced a predetermined distance from the outdoor side to the indoor side of the building; And
And a wall cover coupled to the side end of the stud in the outdoor side direction of the building.
The method of claim 1,
The upper hardware,
Further comprising a vertical plate spaced apart from the outdoor side of the building in a direction toward the indoor side and vertically extending from the top of the first body,
The sidewall joists,
The wall structure of the wooden building, characterized in that inserted between the side of the upper collar and the vertical plate and coupled to the upper collar.
The method of claim 1,
The underlaying,
Is spaced apart a predetermined distance from the outdoor side to the indoor side of the building is coupled to the lower side of the plurality of studs in the transverse direction so that a space is formed in the bottom of the stud,
And a lower hardware having a second body disposed in the spaced portion of the bottom of the stud, and a second coupling portion extending from the second body in the direction of the stud and coupled to the stud.
The method of claim 3,
The first body and the second body is characterized in that the air vent in which the air moves in the transverse direction is formed, the wall structure of the wooden building.
The method of claim 1,
A lower end is located on the upper surface of the upper collar and further comprises a joist is coupled vertically to one side of the side joule,
An upper end of the joist and an upper end of the side joist are located on the same plane, the wall structure of a wooden building.
The method of claim 1,
The bone structure is disposed in the vertical direction, the surface structure further comprises a bone member inserted between the studs adjacent to each other so as to face the wall cover, the wall structure of a wooden building.
The method of claim 6,
The wall structure of a wooden building further comprises a heat insulating material inserted between the studs adjacent to each other so that one side is opposed to the other surface of the bone.
It includes a wall structure of the wooden building according to any one of claims 1 to 7,
An inner roof having a first rafter having an end coupled to a corner formed by an upper surface of the upper collar and the inner side of the sidewall, and a first roof cover covering the first rafter;
A wooden building, comprising: an outer roof having a second rafter coupled to an upper surface of the first roof covering such that one end extends outward of the wall structure, and a second roof cover covering the second rafter.

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