JP2014227687A - Roof structure of unit type building - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a roof structure excellent in design, capable of also securing a storage place of a connection box, and capable of further improving installation efficiency of a solar battery panel and construction efficiency of a roof.SOLUTION: A roof 3 provided in an upper part of a building body 2 is formed by providing a gradient roof part 5 in a part of a flat roof part 4, and the gradient roof part 5 is provided above a building unit 2a by one unit among a plurality of building units 2a for constituting the uppermost floor of the building body 2. A solar battery panel P1 for a flat roof is installed on an upper surface of the flat roof part 4. An attic space S is formed under a roof surface for constituting the gradient roof part 5, and the attic space S is provided with a storage part 6 for storing the connection box for connecting the solar battery panel P1 and a solar battery panel P2 and a power conditioner installed in the building body 2.

Description

  The present invention relates to a roof structure of a unit type building.

  Conventionally, a roof structure in which a sloped roof is provided on a part of a land roof is known (for example, see Patent Document 1). According to such a roof structure, the interior space of the building can be expanded by using the interior of the sloped roof as a hut room or by making it a colonnade.

Japanese Patent Laid-Open No. 08-193378

By the way, there is a demand to install a solar cell panel on a roof where a part of the flat roof is provided with a sloped roof, but the sloped roof is relatively wide with respect to the land roof, or the sloped roof on the land roof. In some cases, the installation efficiency of the solar panel on the flat roof is not good.
Further, if the sloped roof is relatively wide with respect to the flat roof in this way, it becomes difficult to transport the sloped roof as a unit that is less than the transportation limit of the transportation vehicle. In some cases, the construction efficiency of the roof itself is not good.

  Moreover, it is desirable to install the connection box for connecting the solar cell panel and the power conditioner installed indoors indoors from the viewpoint of waterproofing. In the case of a building with a flat roof, since there is no space behind the hut and the space for the ceiling on the top floor is small, for example, a connection box has been installed in the storage room of the top floor room. However, if the installation space for the connection box is secured in the space on the top floor, the other spaces on the top floor are narrowed accordingly, so it is desirable to secure a more preferable storage space for the connection box. It was.

  Also, in the case of a building with a flat roof, the upper part of the building is horizontal and uniform, and it tends to be monotonous in terms of design, so it is more excellent in design than a roof with only a flat roof. There was also a request for the roof.

  An object of the present invention is to provide a roof structure that is excellent in design properties, can secure a storage place for a connection box, and can further improve the installation efficiency of a solar battery panel and the construction efficiency of a roof. To do.

The invention according to claim 1 is provided in a building main body 2 formed by combining a plurality of building units 2a formed in a substantially rectangular parallelepiped frame shape, for example, as shown in FIGS. In the roof structure of the unitary building 1 provided with the roof 3,
The roof 3 is provided with a sloped roof portion 5 (5A) in a part of the land roof portion 4,
The sloped roof portion 5 (5A) is provided above one building unit 2a among a plurality of building units 2a constituting the uppermost floor of the building body 2.
On the upper surface of the flat roof portion 4, a solar cell panel P1 for the flat roof is installed,
A shed space S is formed below the roof surface constituting the sloped roof portion 5 (5A),
The shed space S is provided with a storage portion 6 for storing a connection box for connecting the solar cell panels P1, P2 and a power conditioner installed in the building body 2. And

According to invention of Claim 1, the said slope roof part 5 (5A) is provided above the building unit 2a for one of the several building units 2a which comprises the uppermost floor of the said building main body 2. As shown in FIG. Therefore, compared with the conventional case, the width of the sloped roof portion 5 (5A) with respect to the land roof portion 4 is relatively narrow. Thereby, more solar cell panels P1 for the flat roof can be installed on the flat roof part 4, and the solar cell panel P1 for the installed flat roof is less likely to be shaded by the sloped roof part 5 (5A). Therefore, the installation efficiency of the solar cell panel P1 can be improved.
In addition, since the sloped roof portion 5 (5A) has a plane size substantially equal to the one building unit 2a, it is unitized at a factory or the like to a size less than the transportation limit of transportation vehicles. Can be transported. As a result, it is possible to reduce the labor and time required for assembling and waterproofing at the site, and the construction efficiency of the roof 3 can be improved.
Further, when the roof 3 is composed only of the land roof portion 4, the unit type building 1 tends to be monotonous because the upper part of the unit type building 1 is horizontal and uniform. On the other hand, since the width of the sloped roof part 5 (5A) with respect to the land roof part 4 can be made relatively narrow, for example, compared with the case where the roof 3 is composed only of the land roof part 4. Thus, the appearance design can be improved.
Moreover, since the said accommodating part 6 is provided in the said shed space S, the accommodation place of the said connection box can be ensured. Accordingly, unlike the conventional case, it is not necessary to secure the installation space for the connection box in the space on the top floor, so that the space on the top floor can be prevented from being narrowed.

Invention of Claim 2 is the roof structure of the unit type building 1 of Claim 1,
The storage unit 6 includes a floor 6a for installing the connection box.

  According to invention of Claim 2, since the said accommodating part 6 is equipped with the floor 6a for installing the said connection box, it becomes easy to install the said connection box compared with the case where it installs in a wall, for example. Furthermore, since maintenance can be performed with tools and parts placed on the floor 6a, maintenance is easy.

The invention according to claim 3 is the roof structure of the unit type building 1 according to claim 1 or 2,
A solar cell panel P2 for a gradient roof is installed on the upper surface of the gradient roof portion 5 (5A).

  According to invention of Claim 3, since the solar cell panel P2 for gradient roofs is installed in the upper surface of the said gradient roof part 5 (5A), it considers together with the solar cell panel P1 for said land roofs. If it does so, the installation efficiency of solar cell panel P1, P2 in the said roof 3 whole can be improved.

Invention of Claim 4 is the roof structure of the unit type building 1 as described in any one of Claims 1-3,
Skylights 8 are formed on the roof surface constituting the sloped roof portion 5 (5A),
The roof space S is provided with a blow-off portion 7 that blows into the roof space S from the top floor of the building body 2, and the skylight 8 is disposed above the blow-off portion 7. .

  According to the invention described in claim 4, the roof space S is provided with a blow-off portion 7 that blows into the roof space S from the top floor of the building body 2, and the skylight is located above the blow-off portion 7. 8 is arranged, it is possible to perform daylighting and ventilation in the building main body 2 using the skylight 8 and exhaust heat in the building main body 2. Further, if the blow-through portion 7 and the storage portion 6 are communicated with each other, the maintenance of the connection box can be performed from the blow-through portion 7, which is highly convenient.

The invention according to claim 5 is the roof structure of the unit type building 1 according to any one of claims 1 to 4,
The sloped roof portion 5 (5A)
A hut panel 20 that constitutes the lower end of the sloped roof 5 (5A) and is placed on the upper surface of the one building unit 2a;
A roof panel 21 constituting the roof surface;
It is provided with the joining metal object 22 which joins the said hut panel 20 and the roof panel 21 so that it may be provided in the four corners of the said hut panel 20, and may support the said roof panel 21, It is characterized by the above-mentioned.

According to invention of Claim 5, since the said hut panel 20 which comprises the lower end part of the said gradient roof part 5 (5A) is mounted in the upper surface of the said one building unit 2a, the said gradient roof part 5 is provided. The load (5A) can be distributed to the one building unit 2a through the hut panel 20.
Moreover, since the said slope roof part 5 (5A) becomes the magnitude | size for said one building unit 2a, it is not necessary to enlarge the said roof panel 21 more than necessary, and the said hut panel 20 and the said by the said joint metal fitting 22 The sloped roof portion 5 (5A) can be generally configured by joining the roof panel 21. Therefore, a member such as a roof bundle used for a normal roof is not necessary, and the construction cost can be reduced.

Invention of Claim 6 is the roof structure of the unit type building 1 as described in any one of Claims 1-5,
The land roof portion 4 adjacent to the sloped roof portion 5 (5A) has a waterproof rising 16 that rises upward from an end portion on the sloped roof portion 5 (5A) side.

  According to invention of Claim 6, the said land roof part 4 adjacent to the said slope roof part 5 (5A) has the waterproof standing | starting 16 which rises upwards from the edge part by the side of the said slope roof part 5 (5A). Since it has, the waterproofing process in the side surface of the said gradient roof part 5 (5A) can be performed simultaneously with installing the said gradient roof part 5 (5A) in the top floor of the said building main body 2. FIG.

  ADVANTAGE OF THE INVENTION According to this invention, it is excellent in design property, the storage place of a connection box can be ensured, and also it becomes possible to improve the installation efficiency of a solar cell panel, and the construction efficiency of a roof.

(A) is a top view of the roof of a unit type building, (b) is sectional drawing. It is sectional drawing which shows the installation aspect of a gradient roof part. It is a top view which shows the lower end part of a gradient roof part. It is sectional drawing which shows the boundary by the side of a girder of a slope roof part and a land roof part. It is sectional drawing which shows the boundary of the wife side of a slope roof part and a land roof part. It is a side view of the wife side edge part of a slope roof part. It is a figure which shows the inside view of the wife side edge part of a gradient roof part. It is a figure which shows the inside view of the wife side edge part of a gradient roof part. It is a figure which shows the external appearance of the wife side edge part of a gradient roof part. (A) is a top view of the roof of another unit type building, (b) is sectional drawing.

Embodiments of the present invention will be described below with reference to the drawings.
In FIG. 1, the code | symbol 1 shows a unit type building. This unit type building 1 includes a building body 2 formed by combining a plurality of building units 2a formed in a substantially rectangular parallelepiped frame shape, and a roof 3 provided on the upper part of the building body 2. The roof 3 includes a land roof portion 4 and a gradient roof portion 5 provided in a part of the land roof portion 4. That is, the roof 3 is formed by providing a sloped roof portion 5 on a part of the land roof portion 4.
Note that a solar cell panel P1 for a flat roof is installed on the upper surface of the flat roof portion 4, and a solar cell panel P2 for a gradient roof is installed on the upper surface of the gradient roof portion 5.

The building body 2 is constructed in a plurality of floors by combining a plurality of building units 2a vertically and horizontally. Among them, the plurality of building units 2a constituting the top floor are arranged in the form of six in the present embodiment (three vertical and two horizontal in FIG. 1).
In addition, although the building body 2 of the present embodiment has a plurality of floors, it may be constructed in a single-story building.
Further, the number of building units 2a constituting the building main body 2 is not particularly limited, and the combination method is not particularly limited.

The building unit 2a includes a plurality of columns, a plurality of ceiling beams 2b that connect the upper ends of these columns, and a plurality of floor beams that connect the lower ends of the columns. The ceiling beam 2b and the floor beam are composed of a long side beam and a short side beam, whereby the building unit 2a is formed in a substantially rectangular parallelepiped frame shape.
Although not shown, the upper end of the column and the ceiling beams 2b, and the long-side ceiling beam 2b and the short-side ceiling beams 2b are connected to each other via a joint member. Further, the lower end portion of the column and the floor beam, and the long side floor beam and the short side floor beam are connected to each other via a joint member.
Moreover, since each building unit 2a is set to a size that is less than or equal to the transport limit of the transport vehicle, transport by the transport vehicle is possible. Furthermore, such a building unit 2a may be appropriately equipped with exterior materials, interior materials, and the like, and can be transported by a transportation vehicle even in this state.

The land roof part 4 which comprises the roof 3 points out the location which has the substantially flat roof surface in which the said gradient roof part 5 is not provided among the some building units 2a which comprise the said top floor.
And this land roof part 4, as shown in FIG.4 and FIG.5, the slab 10 which comprises a roof surface, and the support frames 11, 12, 13 of cross-sectional substantially C shape for supporting this slab 10, A parapet 14 standing on the outer peripheral edge of the building body 2, a drainage groove 15, and a waterproof rise 16 are provided.

As the slab 10, an ALC (autoclaved light concrete) plate is used.
As shown in FIG. 4, the support frame 11 is installed on the upper surface of the long side ceiling beam 2 b of the building unit 2 a on the uppermost floor, and the support frame 12 is provided orthogonal to the support frame 11. Further, as shown in FIG. 5, the support frame 13 is provided on the end side of the sloped roof portion 5.
An angle-shaped slab receiver 10 a that receives the slab 10 is provided on a side surface of the support frame 12. The slab receiver 10 a provided on the support frame 12 is attached to be inclined with respect to the support frame 12 so that the slab 10 can form a water gradient toward the outer peripheral edge of the building body 2.
The support frame 13 is provided with a slab receiver 10a via a fixing member 13a fixed to the support frame 13. The slab receiver 10 a is provided at a slightly higher position with respect to the support frame 13 so that the slab 10 can form a water gradient toward the outer peripheral edge side of the building body 2.
As shown in FIG. 5, the fixing member 13a is provided so as to protrude from the support frame 13 toward the outer peripheral edge of the building body 2, and the slab receiver 10a is fixed to the upper end of the fixing member 13a at the front end in the protruding direction. Has been.
The slab 10 is provided so as to be supported by the slab receivers 10a and 10a.

The parapet 14 is a wall-like body that rises upward from the outer peripheral edge of the building body 2. Further, the parapet 14 is disposed away from the outer peripheral side end of the slab 10.
The drainage groove 15 is formed between the parapet 14 and the outer peripheral side end of the slab 10, and is disposed on the lower side of the water gradient of the slab 10. In addition, in order to form the drainage groove 15 in this way, the slab 10 is formed so short that the end portion on the lower side of the water gradient does not reach the parapet 14.

The waterproof rising 16 rises upward from an end of the land roof portion 4 adjacent to the gradient roof portion 5 on the gradient roof portion 5 side. The waterproof rising 16 includes a plurality of support columns 16a that are spaced apart from each other so as to surround the sloped roof portion 5, and an outer wall member 16b that is provided between the plurality of support columns 16a to form a waterproof surface. Have.
As shown in FIG. 4, the support column 16 a is provided via a support member 12 a attached to the support frame 12. The support member 12 a is formed in a substantially C-shaped cross section, and is joined to the support frame 12 so as to be parallel to the support frame 11.
Note that an auxiliary floor support member 12b for supporting the auxiliary floor 10b provided in the gap between the slab 10 and the waterproof rising 16 is fixed to the support member 12a.
Moreover, the support | pillar 16a is provided in the upper surface of the support frame 13, as shown in FIG.

A waterproof sheet 17 is affixed from the inner surface of the parapet 14 to the surface of the outer wall member 16b of the waterproof rising 16 via the drainage groove 15, the upper surface of the slab 10, and the upper surface of the auxiliary floor 10b.
The upper end portion of the waterproof sheet 17 affixed to the inner surface of the parapet 14 is covered with a headboard provided on the upper end portion of the parapet 14. Moreover, the edge part of the waterproof sheet 17 affixed on the surface of the outer wall material 16b of the waterproof standing | starting 16 is affixed on the said support | pillar 16a and the outer wall material 16b upper end surface.

The sloped roof portion 5 constituting the roof 3 is provided above one building unit 2a among the plurality of building units 2a constituting the uppermost floor of the building body 2. In other words, the size of the sloped roof portion 5 is set substantially equal to the size of one building unit 2a in plan view. Furthermore, the said gradient roof part 5 is provided above the one building unit 2a. That is, such a gradient roof portion 5 and the arrangement of the gradient roof portion 5 are adapted to the arrangement of a plurality of building units 2 a constituting the uppermost floor of the building body 2.
The sloped roof portion 5 is a gable roof, and has a ridge and two roof surfaces that flow from the ridge to both sides.

A hut space S is formed below the roof surface constituting the sloped roof portion 5, and the solar cell panels P 1, P 2 and a power conditioner (in FIG. A storage portion 6 is provided for storing a connection box (not shown) for connecting to a connection box (not shown).
Moreover, the said accommodating part 6 is equipped with the floor 6a for installing the said connection box. The floor 6a is made of a face material such as a particle board.

Moreover, skylights 8 and 8 are formed on the roof surface constituting the sloped roof portion 5.
Further, the roof space S is provided with a blow-off portion 7 that blows into the roof space S from the top floor of the building body 2, and the skylights 8 and 8 are arranged above the blow-off portion 7.
As shown in FIGS. 1 (b) and 3, the storage unit 6 and the blow-off unit 7 are configured such that about half of the sloped roof portion 5 in the plan view is the storage unit 6 and the other half is the blow-off unit 7. ing.

In addition, the said power conditioner is for converting sunlight into direct-current power by the said solar cell panel P1, P2, and converting the direct-current power into alternating current power. The power conditioner is installed in the building body 2, and the AC power output from the power conditioner is supplied to various electric devices through a distribution board and an outlet.
Moreover, the said connection box connects solar cell panel P1, P2 and a power conditioner via a connection line.
In addition, the connection line is, for example, a joint (gap) formed between a base material 21e and an outer wall material 21f, and a column 16a and an outer wall material 16b, which will be described later, or a ridge (one roof) of the sloped roof portion 5. Between the surface and the other roof surface). That is, the connection line can be drawn indoors using the gaps between the members constituting the roof 3. However, it is assumed that the gap between the places where the connection line passes is sufficiently waterproofed.

  And as shown in FIGS. 1-9, the slope roof part 5 comprises the hut panel 20 which comprises the lower end part of the said slope roof part 5, and is mounted in the upper surface of the said one building unit 2a, A roof panel 21 that constitutes a roof surface, and a metal fitting 22 that is provided at the four corners of the hut panel 20 and joins the hut panel 20 and the roof panel 21 so as to support the roof panel 21 are provided. .

The hut panel 20 is installed on the upper surface of one building unit 2a among the plurality of building units 2a constituting the top floor of the building body 2. The cabin panel 20 includes a rectangular frame-shaped portion 20a, an intermediate beam 20d, and a plurality of beams 20e.
The rectangular frame portion 20a is composed of a long side beam 20b and a short side beam 20c. The long side beam 20b is installed on the long side ceiling beam 2b of the one building unit 2a, and the short side beam 20c. Is installed on the short-side ceiling beam 2b of the one building unit 2a.
The intermediate beam 20d is arranged in parallel with the long side beam 20b and is installed between the short side beams 20c and 20c.
The plurality of small beams 20e are installed between the intermediate beam 20d and one long side beam 20b, and the plurality of small beams 20e are spaced in the length direction of the intermediate beam 20d and one long side beam 20b. It is arranged with a gap.
And the floor 6a of the said accommodating part 6 is laid on the upper surface of one long side beam 20b, the intermediate beam 20d, and the some small beam 20e.

At least two roof panels 21 are used to form two roof surfaces because the sloped roof portion 5 adopts a gable roof form.
The roof panel 21 has a rectangular frame formed of vertical and horizontal anchors 21a, a plurality of crosspieces corresponding to purlins and rafters, and a face member 21b corresponding to a field plate on the upper surface. is there. A plurality of roof materials 21c are provided on the face material 21b.

Further, an adjustment material 21d for forming a vertical surface is attached to the collar material 21a located at the lower end portion in the gradient direction. Further, an outer wall member 21f is attached to the vertical surface of the adjusting member 21d via a base material 21e.
The base material 21e and the outer wall material 21f are located immediately above the support column 16a and the outer wall material 16b of the waterproof rising 16, and are formed between the base material 21e and the outer wall material 21f and the support column 16a and the outer wall material 16b. The joint (gap) is waterproofed by caulking or the like.
Further, since the positions of the base material 21e and the outer wall material 21f and the positions of the support columns 16a and the outer wall material 16b are aligned in the vertical direction, the lower end portion in the gradient direction of the roof panel 21 is the flat roof portion 4. It is in a state where it does not overhang as much as possible above.

The gable 21 g is attached to both ends of the roof panels 21 and 21 in accordance with both flow shapes of the roof 3 (gable roof).
Further, as shown in FIG. 2, an exterior material 9 similar to the exterior material of the building body 2 is attached to the side surface of the sloped roof portion 5 via a mountain-shaped receiving frame 9 a and a plurality of metal objects 9 b. ing. As shown in FIGS. 2 and 7, the upper end portion of the exterior material 9 is formed in a mountain shape according to the shape of the gable roof. Moreover, as shown in FIG. 9, the lower end part of the exterior material 9 is in a state where a joint (gap) is formed between the waterproof rising 16 and the joint is waterproofed by caulking or the like.
As shown in FIGS. 7 to 9, the gust 21 g is formed in a shape that can include the upper end of the exterior material 9, and the roof panel 21 includes the upper end of the exterior material 9. , 21 are attached to both ends of the wife side.

  Moreover, the draining member which guides the rainwater etc. which run down a roof surface downward is suitably provided in the gradient direction lower end part of the roof panel 21. As shown in FIG. Moreover, the gap between the roof panel 21 and surrounding members (for example, the outer wall material 21f) can be closed by this draining member.

The metal joint 22 is provided at a base plate 22a fixed to a corner portion of the hut panel 20, a columnar portion 22b erected on the base plate 22a, an upper end portion of the columnar portion 22b, and a lower surface of the roof panel 21 ( It has a contact part 22c that is contacted and fixed to a crosspiece corresponding to the main building) and a reinforcing rib 22d. The reinforcing rib 22d is provided between the base plate 22a and the contact portion 22c and along the columnar portion 22b.
In addition, each part which comprises the joining metal fitting 22 is formed integrally.
Moreover, when fixing the joining hardware 22 with respect to the cabin panel 20, fixing materials, such as a volt | bolt and a nut, or means, such as welding, are used.

The roof space S of the sloped roof portion 5 includes a rectangular frame-like hut panel 20 as described above, roof panels 21 and 21, four corner joint hardware 22, an outer wall material 16 b of the waterproof rising 16, and a slope. The space enclosed by the outer wall material 21f of the roof part 5 is pointed out.
In addition, a ceiling plate that is flush with the uppermost room of the building body 2 is attached below the storage unit 6.
In addition, a partition wall 6 b is provided between the storage unit 6 and the blowout part 7 to partition the storage part 6 and the blowout part 7. Although not shown in the drawings, the partition wall 6b is formed with an opening (inspection port) for maintenance of the connection box.

Further, most of the gradient roof portion 5 configured as described above is assembled in advance in a factory or the like, and can be transported by a transport vehicle in the assembled state. That is, as described above, since the sloped roof portion 5 is set to be approximately equal to the size of one building unit 2a, for example, even if the exterior material 9 or the like is equipped, transportation by a transportation vehicle is possible. It has become. In the present embodiment, the cabin panel 20, the roof panel 21, the joint hardware 22, the skylights 8 and 8, and the solar cell panel P2 are assembled at least in advance in a factory or the like.
The roof panel 21 is provided with an eye bolt (not shown) so that the slope roof portion 5 can be hung by hooking a hook such as a crane on the eye bolt.

Next, the construction method of the above roof 3 is demonstrated.
First, the building body 2 is constructed, and the frame of the flat roof portion 4 is formed on the upper surfaces of the plurality of building units 2a constituting the top floor by using various frame materials such as the support frames 11, 12, 13 and the like. Thereafter, the slab 10, the parapet 14, and the waterproof rise 16 are applied, and finally the waterproof sheet 17 is attached.
Of the plurality of building units 2a, the sloped roof portion 5 is provided, and the land roof portion 4 is not formed above one building unit 2a.
The support frames 11, 12, 13 and the slab 10 may be assembled in advance at a factory or the like.

  Subsequently, the sloped roof portion 5 in a pre-assembled state is lifted by a crane or the like, and is installed so as to match the place where the land roof portion 4 is not formed as shown in FIG. More specifically, the hut panel 20 of the sloped roof portion 5 is installed on the upper surface of the ceiling beam 2b of the one building unit 2a.

  Subsequently, on-site construction of the sloped roof portion 5 is performed. That is, the base material 21e and the outer wall material 21f, the wind blast 21g, the draining member, and the like are attached. Further, waterproofing of joints formed between the base material 21e and the outer wall material 21f and the support column 16a and the outer wall material 16b is performed by caulking or the like.

The interior of the cabin space S may also be assembled in advance in a factory or the like by attaching the floor 6a, the partition wall 6b, or the like to the inner surface of the cabin space S, for example.
Subsequently, a connection box is installed on the floor 6 a of the storage unit 6, and the connection box is stored in the storage unit 6. Moreover, the solar cell panel P1 is installed also in the said flat roof part 4, and the said solar cell panel P1, the said solar cell panel P2, and a connection box are connected by a connection line.
As described above, the roof 3 can be constructed.

In addition, although the slope roof part 5 of this Embodiment was arrange | positioned in the center side of the right side edge part of the upper surface of the building main body 2 as shown in FIG. 1, it is not restricted to this, For example, it shows in FIG. Thus, it may be arranged at the corner of the upper surface of the building body 2.
Also in such a case, the sloped roof portion 5A shown in FIG. 10 is installed on the upper surface of one building unit 2a among the plurality of building units 2a constituting the top floor of the building body 2, and the one building The size is set to be approximately equal to the size of the unit 2a. In the case of such an arrangement, the shape of the sloped roof portion 5 </ b> A is invited to form a roof shape, and the lower end portion of the roof panel 21 may be set to reach the upper end portion of the outer wall of the building body 2. desirable.

According to the present embodiment, the sloped roof portion 5 (5A) is provided above one building unit 2a among the plurality of building units 2a constituting the top floor of the building body 2. Therefore, as compared with the prior art, the width of the sloped roof portion 5 (5A) relative to the land roof portion 4 is relatively narrow. Thereby, more solar cell panels P1 for the flat roof can be installed on the flat roof part 4, and the solar cell panel P1 for the installed flat roof is less likely to be shaded by the sloped roof part 5 (5A). Therefore, the installation efficiency of the solar cell panel P1 can be improved.
In addition, since the sloped roof portion 5 (5A) has a plane size substantially equal to the one building unit 2a, it is unitized at a factory or the like to a size less than the transportation limit of transportation vehicles. Can be transported. As a result, it is possible to reduce the labor and time required for assembling and waterproofing at the site, and the construction efficiency of the roof 3 can be improved.
Further, since the width of the sloped roof portion 5 (5A) with respect to the land roof portion 4 can be made relatively narrow, for example, the appearance of the roof 3 is made as compared with the case where the roof 3 is composed only of the land roof portion 4. Designability can be improved.
Moreover, since the said accommodating part 6 is provided in the said shed space S, the accommodation place of the said connection box can be ensured. Accordingly, unlike the conventional case, it is not necessary to secure the installation space for the connection box in the space on the top floor, so that the space on the top floor can be prevented from being narrowed.

  Moreover, since the said accommodating part 6 is provided with the floor 6a for installing the said connection box, it becomes easy to install the said connection box compared with the case where it installs on a wall, for example. Furthermore, since maintenance can be performed with tools and parts placed on the floor 6a, maintenance is easy.

  In addition, since the solar cell panel P2 for the sloped roof is installed on the roof surface of the sloped roof portion 5 (5A), the roof 3 is considered in combination with the solar cell panel P1 for the land roof. The installation efficiency of solar cell panels P1 and P2 in the whole can be improved.

  In addition, the roof space S is provided with a blow-off portion 7 that blows into the roof space S from the top floor of the building main body 2, and the skylight 8 is disposed above the blow-off portion 7. The skylight 8 can be used to perform daylighting and ventilation in the building main body 2 and exhaust heat in the building main body 2. Further, if the blow-through portion 7 and the storage portion 6 are communicated with each other, the maintenance of the connection box can be performed from the blow-through portion 7, which is highly convenient.

Moreover, since the said hut panel 20 which comprises the lower end part of the said gradient roof part 5 (5A) is mounted in the upper surface of the said one building unit 2a, the load of the said gradient roof part 5 (5A) is applied to the said shed. It can be distributed to the one building unit 2a through the panel 20.
Moreover, since the said slope roof part 5 (5A) becomes the magnitude | size for said one building unit 2a, it is not necessary to enlarge the said roof panel 21 more than necessary, and the said hut panel 20 and the said by the said joint metal fitting 22 The sloped roof portion 5 (5A) can be generally configured by joining the roof panel 21. Therefore, a member such as a roof bundle used for a normal roof is not necessary, and the construction cost can be reduced.

  Further, the land roof part 4 adjacent to the sloped roof part 5 (5A) has a waterproof rising 16 that rises upward from an end part on the sloped roof part 5 (5A) side, so that the sloped roof part 5 ( 5A) can be installed on the uppermost floor of the building body 2 and at the same time waterproofing can be performed on the side surfaces of the land roof portion 4 and the sloped roof portion 5 (5A).

DESCRIPTION OF SYMBOLS 1 Unit type building 2 Building body 3 Roof 4 Flat roof part 5,5A Gradient roof part 6 Storage part S Shack rear space P1 Solar panel P2 Solar panel

Claims (6)

In the roof structure of a unit type building comprising a building body formed by combining a plurality of building units formed in a substantially rectangular parallelepiped frame shape, and a roof provided on the top of the building body,
The roof is provided with a sloped roof part in a part of the land roof part,
The sloped roof portion is provided above one building unit among a plurality of building units constituting the top floor of the building body,
On the upper surface of the flat roof portion, a solar cell panel for flat roof is installed,
A shed space is formed below the roof surface constituting the sloped roof portion,
The unit building is characterized in that a storage unit for storing a connection box for connecting the solar cell panel and a power conditioner installed in the building main body is disposed in the attic space. Roof structure. In the roof structure of the unit type building of Claim 1,
A roof structure of a unit type building, wherein the storage unit includes a floor for installing the connection box. In the roof structure of the unit type building of Claim 1 or 2,
A roof structure of a unit type building, wherein a solar cell panel for a gradient roof is installed on the upper surface of the gradient roof portion. In the roof structure of the unit type building as described in any one of Claims 1-3,
Skylights are formed on the roof surface constituting the sloped roof portion,
The roof structure of the unit type building, wherein the attic space is provided with an atrium part that blows into the attic space from the top floor of the building main body, and the skylight is disposed above the atrium part. . In the roof structure of the unit type building as described in any one of Claims 1-4,
The sloped roof is
A hut panel that constitutes the lower end of the sloped roof and is placed on the upper surface of the one building unit;
A roof panel constituting the roof surface;
A roof structure of a unit type building, comprising: a metal fitting that joins the shed panel and the roof panel so as to support the roof panel while being provided at four corners of the shed panel. In the roof structure of the unit type building as described in any one of Claims 1-5,
The roof structure of a unit type building, wherein the land roof part adjacent to the sloped roof part has a waterproof rising that rises upward from an end on the sloped roof part side.

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