JP2953700B2 - Building roof structure - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a roof structure of a building.

(Prior Art) As a conventional roof structure of a building, for example, Japanese Unexamined Patent Publication No.
A roof structure as described in the official gazette of 70519 is known.

In this roof structure, a plurality of triangular truss beams are juxtaposed in the direction of the girder of the building, a purlin material is erected between the truss beams, and a roof material is stretched over these purlin materials.

Incidentally, the truss beam has a length corresponding to the width of the building, and has been integrated in advance entirely by welding or the like.

(Problems to be Solved by the Invention) However, such a truss beam having a length corresponding to the width of the building is difficult to transport from the factory to the construction site, and also forms a room at the construction site. It was difficult to move with a wrecker or the like for installing on the structure.

Also, when unitizing the roof, if the truss beams are integrated in advance, the roof can be divided only in the girder direction. In other words, since it is difficult to reduce the size of the unit, it is extremely disadvantageous in trying to make the unit common to roofs having different shapes and sizes.

An object of the present invention is to solve the above-mentioned problem by dividing a truss beam, and to improve the transportation efficiency from a factory to a construction site and the movement efficiency by a wrecker or the like at the construction site.

(Means for Solving the Problems) In order to achieve the above object, a roof structure of a building according to the present invention includes a plurality of ridge-side roof units arranged in a girder direction of a building, and an eaves tip on both sides of the ridge-side roof unit. A roof structure of a building including a plurality of side roof units, wherein the ridge side roof unit and the eaves side roof unit are laid between truss members provided at both ends of the building in the direction of the end of the building. A supporting frame is composed of a purlin and a connecting beam, and the truss member is
A frame member comprising a lower frame member, a vertical frame member, and an upper frame member, and a reinforcing member provided between the frame members, wherein the ridge-side roof unit and the eaves-side roof unit are connected to each other by the vertical frame. The members are connected to each other.

(Operation) The roof structure according to the present invention transports the building-side roof unit and the eaves-side roof unit separately from the factory to the construction site while separating the building-side roof unit and the eaves-side roof unit. It is lifted by, for example, and installed at a predetermined position on a structure constituting a room. afterwards,
The truss members of the ridge-side roof unit and the eaves-side roof unit are connected by vertical frame members to form a roof truss beam.

The roof unit on the ridge side and the roof unit on the eaves side are the size of the roof truss beam divided into three or more in the wife direction,
Good transport efficiency from the factory to the construction site and transfer efficiency by wreckers at the construction site.

In addition, in unitizing the roof, not only can the roof be divided in the girder direction, but also the truss members are divided in the wife direction, so each roof unit can be downsized and Even when the roof unit is transported or lifted by a tow truck, there is no problem in the strength of each unit. Further, a space behind the cabin is secured below the roof in the girder direction formed by the ridge side roof unit and the eaves side roof unit, and can be used for storage and the like.

(Example) Hereinafter, an example of the present invention will be described in detail with reference to FIG. 1 to FIG.

In the description of the embodiment, a gable roof constituted by a roof unit will be described as an example.

First, the configuration of the first embodiment will be described with reference to FIGS.

FIG. 1 shows a two-story unit house, in which A is a room unit constituting a room part such as a living room, a dining room, a bedroom, etc. of a building, and B is a roof unit constituting a roof part of the building.

Incidentally, the roof unit B, a gable roof, as well as halving the girder direction, which was divided into three parts to wife direction, there is a ridge-side roof unit B ₁ and eaves side roof unit B _2.

Figure 2 includes a support frame 1 of the ridge-side roof unit B _1, shows a supporting frame 2 eaves side roof unit B _2.

First, the support frame 1 of the ridge-side roof unit B ₁ represents a two truss members 11, and a purlin 12 and two of Tsugihari 13.

The truss member 11 includes a lower frame member 111 and the lower frame member 111.
An intermediate member 112 erected at the center of the lower frame member 111, two vertical frame members 113, 113 erected at both left and right ends of the lower frame member 111, and between an upper end of the vertical frame members 113, 113 and an upper end of the intermediate member 112 A frame member is formed by framing the two left and right upper frame members 114, 114 erected in the frame. Inside the frame, diagonal members 115, 115 and a vertical member 1
16,116 are provided as reinforcing materials. These members are connected to each other by welding.

The purlin 12 and the connecting beams 13, 13 are erected between the truss members 11, 11 arranged side by side. The purlin 12 is fastened to the upper end of the intermediate member 112 with bolts and nuts, and the connecting beams 13, 13 are fastened to the upper ends of the vertical frame members 113, 113 with bolts 132 and nuts via joint plates 131. (See FIG. 3). That is, the support frame 1 of the ridge-side roof unit B ₁ represents, mainly an intermediate member 112 of the truss members 11 are formed symmetrically.

A reinforcing member 14 has one end fixed to the center of the lower frame member 111 and the other end fixed to the center of the purlin 12.

Then, the support frame 2 eaves side roof unit B ₂ includes a two truss members 21 and 21, and a eaves beams 22 and Tsugihari 23.

The truss member 21 includes a lower frame member 211 and a vertical frame member 212.
And the upper frame member 213 are formed into a substantially triangular frame to form a frame member, and a vertical member 214 is provided inside the frame as a reinforcing member. These members are connected to each other by welding.

The eaves beam 22 and the connecting beam 23 are the truss members
It is installed between 21,21. And the eaves beam 22 is a vertical frame member 2
It is fastened to the upper end of 12 by a bolt and a nut via a joy coupling member 215.

Supporting frame 2 of the ridge side roof unit B ₁ of the support frame 1 and the eaves-side roof unit B ₂ are assembled at the factory, respectively, so that the roof plate and the outer wall panel (not shown) is stretched.

In construction site, the room unit A connected to each other first foundation installation room unit A, then, on the roof unit A the ridge-side roof unit B ₁ and eaves side roof unit B ₂ to lift the wrecker or the like mounted on, connected to each other then building side roof unit B ₁ and eaves side roof unit B _2.

Here, with reference to FIGS. 3 and 4, will be described connection structure of ridge-side roof unit B ₁ and eaves side roof unit B _2.

Eaves side roof unit B ₂ are disposed on both the left and right sides of the ridge-side roof unit B _1, between the two units B _1, B _2, spacers 4 are provided.

That is, between the ridge-side truss member 11B ₁ of the roof unit B _1, B _2, spacers 4 are provided.

That is, the ridge side roof unit B ₁ truss member 11 and the eaves edge side roof unit B ₂ of the truss members 21 are disposed adjacent the vertical frame member 113,211 each other, these longitudinal frame member 113,21
Interconnected at 1.

To connect the vertical frame members 113, 211, first, at the upper and lower portions of the vertical frame members 113, 211, joint plates 5, 5 are provided so as to extend between the vertical frame members 113, 211 on both sides, and the joint plates 5, 5 and each vertical The frame members 113 and 211 have a connection structure in which the bolts 51 and the nuts 52 are fixed by tightening.
Further, between these connecting portions, the vertical frame members 113, 21
1 has a connection structure in which the bolts 61 and the nuts 62 are directly fixed to each other by tightening.

The vertical frame members 113 and 211 are formed of a U-shaped cross section steel, and covers 15 and 23 are provided at positions where the joint plate 5 is fixed so as to partially cover the openings. I have. The covers 15 and 23 are fixed to the vertical frame members 113 and 211 by welding, and the joint plate 5 is fixed to the covers 15 and 23.

Thus, truss member 21 of the eaves-side roof unit B ₂ are disposed on both the left and right sides of the ridge-side roof unit B ₁ of truss members 11,
The three truss members 21, 11, 21 are interconnected,
One roof truss beam T ₁ is constituted (see Figure 2).
The ridge side roof unit B ₁ and the eaves side roof unit B ₂
Since two roof truss beams T ₁ are arranged in the girder direction,
Four will be arranged side by side in the girder direction.

As described above, in this embodiment, the roof truss beams T ₁ divided into three parts to wife direction, since it is configured with three truss members 21,11,21, divide the roof spar direction as shown in FIG. 1 At the same time, it can be divided and unitized in the wife direction. That is, since the units B ₁ and B ₂ are miniaturized, the transportation efficiency from the factory to the construction site and the movement efficiency by a wrecker or the like at the construction site are good. In addition, it is advantageous in that units common to roofs having different shapes and sizes are achieved. The second embodiment shown below shows a large gable roof structure slightly than gable roof of the first embodiment, the eaves-side roof unit and eaves side roof unit B ₂ of the first embodiment common This is one example.

 A second embodiment will be described with reference to FIGS.

FIG. 5 shows a two-story unit house according to the present embodiment. In this unit house, the gable roof is divided into two parts in the girder direction and four parts in the wife direction, and the ridge side roof unit B ₃ It is composed of a eaves side roof unit B ₂ and.

Figure 6 shows a supporting frame 3 of the ridge-side roof unit B _3, the supporting frame 2 eaves side roof unit B _2.

The support frame 3 of the ridge-side roof unit B ₃ are truss member 31
Ridges 32, connecting beams 33, and middle beams 34. The truss member 31 includes a lower frame member 311 and vertical frame members 312 and 313,
The upper frame member 314 is formed into a substantially trapezoidal frame to form a frame member. Inside the frame, diagonal members 315 and 316, vertical members 317 and 318, and an intermediate member 319 are provided as reinforcing members. In addition, 35 is a reinforcing material.

Therefore, when installing on the these roof unit B _2, B ₃ rooms unit A, as shown in FIG. 5, with arranging the ridge side roof unit B ₃ in two inner, ridge side roof disposed the eaves side roof unit B ₂ on each side of the unit B _3, B _3, connects these units B _3, B ₂ to each other.

The ridge side roof units B ₃ , B ₃ are connected to each other by the vertical frame members 312, 312 on the ridge 32 side of the adjacent truss members 31, 31, and the ridge side roof unit B ₃ and the eaves side roof unit B ₂ are connected. Is formed by the vertical frame members 313, 212 of the adjacent truss members 31, 21.

That is, simultaneously with the connection between the units B ₃ and B _{2, the} four truss members 21, 31, 31 and 21 are connected to form one roof truss beam T _2.
Is configured.

Other configurations and operations are the same as those of the first embodiment, and thus the description is omitted.

The embodiments of the present invention have been described in detail with reference to the drawings.
The specific configuration is not limited to this embodiment, and any change in the design without departing from the spirit of the present invention is included in the present invention.

For example, in the embodiment, a unit house is taken as an example and the present invention is applied to the roof structure. However, the present invention may be applied to a roof structure other than the unit type building.

In the embodiment, the gable roof is taken as an example, but the invention may be applied to a ridge roof structure.

(Effects of the Invention) As described above, in the roof unit of the present invention, the roof truss beam is divided in the wife direction and the ridge side roof unit is constituted by three or more truss members. Since it is composed of the roof unit on the eaves side, the transportation efficiency from the factory to the construction site and the movement efficiency by wreckers at the construction site are good.

Also, in making the roof unit, the roof can be divided in the girder direction and the truss member is also divided in the wife direction, so each roof unit can be downsized and each roof unit can be reduced. Even when transporting or lifting by a tow truck, there is no problem in the strength of each unit, and this is advantageous in making units common to roofs having different shapes and sizes.

Further, a space behind the cabin is secured below the roof in the girder direction formed by the ridge side roof unit and the eaves side roof unit, and can be used for storage and the like.

[Brief description of the drawings]

FIG. 1 is a perspective view showing a unit house having a roof structure according to a first embodiment of the present invention, FIG. 2 is a perspective view showing a support frame of a roof unit constituting the unit house, and FIG. 3 is the roof unit. FIG. 4 is a sectional view showing the coupling structure of FIG.
IV-IV sectional view, FIG. 5 is a perspective view showing a unit house provided with a roof structure of the second embodiment, and FIG. 6 is a perspective view showing a support frame of a roof unit constituting the unit house. A… Room unit B… Roof unit B ₁ … Bridge side roof unit B ₂ … Eaves side roof unit T ₁ … Roof truss beam 1 …… Support frame 11 …… Truss member 2 …… Support frame 21… … Truss members

 ──────────────────────────────────────────────────続 き Continuing from the front page Judge of the Joint Panel Judge Yasushi Higuchi Judge J. Abe Kaoru Abe Judge J. Shiragashi Yasuko Shirakashi (56) Patent 4559748 (US, A) US Patent 4083154 (US, A)

Claims (1)

(57) [Claims] 1. A roof structure for a building, comprising a plurality of ridge-side roof units arranged in a girder direction of a building, and a plurality of eaves-side roof units disposed on both sides of the ridge-side roof unit. The roof unit and the eaves-side roof unit each include a support frame including a truss member provided at both ends of the building in the wife direction, a purlin and a connecting beam installed between the truss members, and the truss member includes a lower frame member. A frame member including a vertical frame member and an upper frame member, and a reinforcing member provided between the frame members,
The roof structure of a building, wherein the ridge-side roof unit and the eaves-side roof unit are connected to each other by the vertical frame members.