JP2021038564A - Roof structure - Google Patents

Abstract

To perform simultaneously rainwater waterproofing measures for heat insulating members (heat insulating materials) and construction of heat insulating members.SOLUTION: A roof structure has: frame part 4 in which a first long member 2 and a second long member 3 are framed in a grid pattern; and a heat insulating member 5 provided in the frame inner space 41 (space) surrounded by the first long member 2 and the second long member 3 in the frame part 4. The heat insulating member 5 has a glass wool layer 51 formed of glass wool in a plate shape, and an aluminum foil 52 provided along one surface of the glass wool layer 51, and the aluminum foil 52 is arranged on the upper surface when the heat insulating member 5 is provided in the frame inner space 41.SELECTED DRAWING: Figure 2

Description

The present invention relates to a roof structure.

As the roof structure of the building, a roof structure in which a heat insulating material is provided in a space surrounded by horizontal materials such as purlins installed in parallel at intervals and rafters hung between adjacent horizontal materials. Is known (see, for example, Patent Document 1). In such a roof structure, a heat insulating material is provided in the space surrounded by the horizontal member and the rafters.

Japanese Unexamined Patent Publication No. 2019-60165

When installing a heat insulating material in the space surrounded by the horizontal material and the rafters, it is necessary to take rainwater waterproof measures so that the heat insulating material is not exposed to rainwater. For example, after a roof base material or the like is constructed above the space surrounded by the horizontal member and the rafters, a heat insulating material is provided from below the horizontal member and the rafters. As described above, the procedure of the heat insulating material construction process and the process of taking rainwater waterproofing measures for the heat insulating material is restricted, which complicates the process management and may affect the construction period.

Therefore, an object of the present invention is to provide a roof structure capable of simultaneously performing rainwater waterproofing measures for a heat insulating member (heat insulating material) and construction of the heat insulating member.

In order to achieve the above object, the roof structure according to the present invention includes a frame portion in which a first long member and a second long member are framed in a grid pattern, and the first long member in the frame portion. And a heat insulating member provided in a space surrounded by the second long member, and the heat insulating member is formed along one surface of a glass wool layer formed of glass wool in a plate shape and the glass wool layer. It has an provided aluminum foil, and the aluminum foil is characterized in that it is arranged on the upper surface when the heat insulating member is provided in the space.

In the present invention, since the heat insulating member is not exposed to rainwater on the glass wool layer (heat insulating material) due to the aluminum foil, before the heat insulating member is installed in the space surrounded by the first long member and the second long member. Insulation members can be installed without taking rainwater waterproof measures. That is, the rainwater waterproofing measures for the heat insulating member and the construction of the heat insulating member can be performed at the same time.

Further, in the roof structure according to the present invention, the heat insulating member has a finishing layer provided along the other surface of the glass wool layer, and the finishing layer is when the heat insulating member is provided in the space. It may be arranged on the lower surface.
With such a configuration, the lower surface of the heat insulating member can be used as a finished surface.

Further, in the roof structure according to the present invention, one heat insulating member may be spread in each of the space surrounded by the first long member and the second long member.
When a plurality of heat insulating members are laid side by side in a space surrounded by the first long member and the second long member, joints (connecting portions) of the heat insulating members adjacent to each other are formed inside the space. It can be done. On the other hand, in the present invention, since one heat insulating member is spread in each of the spaces, a joint of the heat insulating member cannot be formed, and a joint member for connecting the adjacent heat insulating members, a hanging member for suspending the joint member, and the like are provided. There is no need. As a result, the number of members can be reduced, the labor for constructing the roof structure can be reduced, and the construction can be easily performed.

According to the present invention, rainwater waterproofing measures for the heat insulating member and construction of the heat insulating member can be performed at the same time.

It is a perspective view which shows an example of the roof structure by embodiment of this invention. It is sectional drawing of the line AA of FIG. It is the figure which looked at the roof structure from the lower side.

Hereinafter, the roof structure according to the embodiment of the present invention will be described with reference to FIGS. 1 to 3.
As shown in FIG. 1, the roof structure 1 according to the present embodiment is the structure of the roof 12 of the building 11. The roof structure 1 according to the present embodiment includes a frame portion 4 in which the first long member 2 and the second long member 3 are framed in a grid pattern, and the first long member 2 and the second in the frame portion 4. It has a heat insulating member 5 provided in a space surrounded by a long member 3.
The roof 12 is inclined with respect to the horizontal plane. The direction along the slope of the roof 12 is defined as the roof slope direction. The two orthogonal directions in the plan view shape of the building 11 are the girder direction and the beam-to-beam direction. The roof inclination direction is an inclination direction that gradually increases from one side in the beam-to-beam direction toward the other side.

The first long member 2 is a long member and is arranged in a direction extending in the girder direction. In the present embodiment, the first long member 2 is a horizontal member, and includes an eaves girder (beam), a purlin, a purlin, and the like. The first long member 2 is provided at intervals in the roof inclination direction.

The second long member 3 is a long member and is arranged in a direction extending in the roof inclination direction. The second long member 3 includes rafters, climbing beams, and the like. The second long member 3 is provided at intervals in the girder direction.

The first long member 2 and the second long member 3 are framed, and the second long member 3 is provided between the first long members 2 adjacent to each other in the roof inclination direction, or The first long member 2 is provided between the second long members 3 adjacent to each other in the girder direction. The space surrounded by the first long member 2 adjacent to each other in the roof inclination direction and the second long member 3 adjacent to each other in the girder direction is defined as the in-frame space 41. When the space 41 in the frame is open, the space 41 above and below the frame portion 4 communicates with each other. In the present embodiment, the plan view shape of the frame inner space 41 is, for example, a rectangle of 1 m × 2.5 m. The plan view shape of the frame space 41 is not limited to the above size.
The upper surface 2a of the first long member 2 and the upper surface 3a of the second long member 3 form a plane along the roof inclination direction and are arranged flush with each other.

As shown in FIG. 2, the heat insulating member 5 is formed in a plate shape. The heat insulating member 5 is provided along one surface of the glass wool layer 51 (insulation material) formed of glass wool in a plate shape, the aluminum foil 52 provided along one surface of the glass wool layer 51, and the glass wool layer 51. It has a finished layer 53 and the like. In the present embodiment, the heat insulating member 5 usually uses a glass wool board for equipment provided around piping and equipment. Generally, the glass wool board for equipment is formed larger than the glass wool board for construction provided on the wall, floor, roof 12, or the like of the building 11.
The aluminum foil 52 is attached to the entire one surface of the glass wool layer 51.
The finishing layer 53 is composed of a decorative board attached along the other surface of the glass wool layer 51.

In the heat insulating member 5, one surface 5a provided with the aluminum foil 52 is on the upper side, and the other surface 5b provided with the finishing layer 53 is on the lower side, and the space 41 in the frame is oriented along the roof inclination direction. Will be installed in. When the heat insulating member 5 is installed in the space 41 inside the frame, the upper surface (one surface 5a on which the aluminum foil 52 is provided) is the upper surface 2a (see FIG. 1) and the second long member 2 of the first long member 2. It is flush with the upper surface 3a of the member 3. In the present embodiment, the thickness dimension of the heat insulating member 5 is set to be smaller than the vertical dimension of the first long member 2 and the second long member 3. The lower surface of the heat insulating member 5 (the other surface 5b provided with the finishing layer 53) is arranged above the lower surface 2b of the first elongated member 2 and the lower surface 3b of the second elongated member 3.

One heat insulating member 5 is laid in each of the frames 41. When this one heat insulating member 5 is laid in the frame inner space 41, the upper side and the lower side of the frame inner space 41 are blocked.
A locking member 42 that locks the heat insulating member 5 along a corner formed by the upper surface and the side surface of each of the first long member 2 and the second long member 3 is attached. The outer edge portion of the heat insulating member 5 is locked to the locking member 42 and is in contact with the first long member 2 or the second long member 3.

A room of the building 11 is arranged below the frame portion 4 and the heat insulating member 5, and the frame portion 4 and the heat insulating member 5 form the ceiling of the room.
As shown in FIGS. 2 and 3, the lower side of the first long member 2 and the second long member 3 of the frame portion 4, and the finishing layer 53 of the heat insulating member 5 are exposed in the room.
A structural plywood serving as a base material for the roof 12 is provided on the frame portion 4 and the heat insulating member 5.

Next, the operation / effect of the roof structure 1 according to the above embodiment will be described with reference to the drawings.
In the roof structure 1 according to the above embodiment, since the heat insulating member 5 does not receive rainwater on the glass wool layer 51 due to the aluminum foil 52, no rainwater waterproofing measures are taken before installing the heat insulating member 5 in the frame inner space 41. However, the heat insulating member 5 can be installed. That is, the rainwater waterproofing measure of the heat insulating member 5 and the construction of the heat insulating member 5 can be performed at the same time.

In the roof structure 1 according to the above embodiment, the heat insulating member 5 has a finishing layer 53 provided along the other surface of the glass wool layer 51, and the finishing layer 53 is provided with the heat insulating member 5 in the frame inner space 41. It is placed on the underside when it is sewn. With such a configuration, the lower surface of the heat insulating member 5 can be used as a finished surface.

In the roof structure 1 according to the above embodiment, one heat insulating member 5 is spread in each of the frame inner space 41 surrounded by the first long member 2 and the second long member 3.
When a plurality of heat insulating members are laid out side by side in one frame inner space 41, joints (connecting portions) of adjacent heat insulating members are formed inside the frame inner space 41. On the other hand, in the present embodiment, since one heat insulating member is spread in each of the space 41 in the frame, the heat insulating members cannot be jointed with each other, and the joint member connecting the adjacent heat insulating members and the hanging joint member are suspended. There is no need to provide members. As a result, the number of members can be reduced, and the labor of constructing the roof structure 1 can be reduced, so that the roof structure 1 can be easily constructed. Further, in the present embodiment, since the lower surface of the heat insulating member 5 (the other surface 5b) is the finished surface, the joint member connecting the heat insulating member 5 and the hanging member for suspending the joint member are not exposed on the finished surface. Can improve the appearance of.

In the roof structure 1 according to the above embodiment, the heat insulating member 5 is a glass wool board for equipment.
Generally, the glass wool board for equipment provided around the pipes and equipment is formed larger than the glass wool board for construction provided on the wall, floor, roof 12, and the like of the building 11. Since the heat insulating member 5 is a glass wool board for equipment, even when the frame inner space 41 is wide, the heat insulating member 5 having a size corresponding to the frame inner space 41 can be supplied.

Although the embodiment of the roof structure according to the present invention has been described above, the present invention is not limited to the above embodiment and can be appropriately modified without departing from the spirit of the present invention.
For example, the direction in which the first long member 2 and the second long member 3 extend, the inclination direction of the roof 12, and the inclination angle of the roof 12 may be appropriately set.

In the roof structure 1 according to the above embodiment, the heat insulating member 5 is provided with the finishing layer 53 along the other surface of the glass wool layer 51, but the finishing layer 53 may not be provided.
In the roof structure 1 according to the above embodiment, one heat insulating member 5 is spread in each of the frame inner space 41 surrounded by the first long member 2 and the second long member 3, but the frame inner space 41 A plurality of heat insulating members 5 may be laid out side by side.

In the roof structure 1 according to the above embodiment, the frame portion 4 and the heat insulating member 5 are exposed inside the building 11, but a ceiling material is provided under the frame portion 4 and the heat insulating member 5, and the interior of the building 11 is provided. It does not have to be exposed to.
In the roof structure 1 according to the above embodiment, the heat insulating member 5 is a glass wool board for equipment. On the other hand, if the heat insulating member 5 has a glass wool layer 51 formed of glass wool in a plate shape and an aluminum foil 52 provided along one surface of the glass wool layer 51, the heat insulating member 5 is glass wool for equipment. It does not have to be a board.

1 Roof structure 2 1st long member 3 2nd long member 4 Frame part 5 Insulation member 41 Space inside frame 51 Glass wool layer 52 Aluminum foil 53 Finishing layer

Claims (3)

A frame portion in which the first long member and the second long member are framed in a grid pattern,
It has a first long member in the frame portion and a heat insulating member provided in a space surrounded by the second long member.
The heat insulating member includes a glass wool layer formed of glass wool in a plate shape and a glass wool layer.
It has an aluminum foil provided along one surface of the glass wool layer.
The aluminum foil is a roof structure characterized in that the heat insulating member is arranged on the upper surface when the heat insulating member is provided in the space. The heat insulating member has a finishing layer provided along the other surface of the glass wool layer.
The roof structure according to claim 1, wherein the finishing layer is arranged on a lower surface when the heat insulating member is provided in the space. The roof structure according to claim 1 or 2, wherein one heat insulating member is spread in each of the space surrounded by the first long member and the second long member.

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