JP3871780B2 - roof - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a roof such as a unit building constructed by combining a plurality of building units.
[0002]
[Background]
Conventionally, a unit type building constructed by combining a plurality of box-shaped building units manufactured in a factory at a construction site has been used.
As a building unit forming a unit type building, one having a rectangular parallelepiped frame in which upper and lower ends of pillars at four corners are connected by a ceiling beam and a floor beam is generally used.
The frame of the building unit includes a ceiling surface material supported by the ceiling beam, a floor surface material supported by the floor beam, an interior material of the partition wall building that partitions the room, an outer wall material formed of lightweight cellular concrete, etc. It is assembled at the factory.
[0003]
According to such a unit-type building, in the factory, the assembly work of the interior material and the outer wall material to the building unit is performed in the factory, and then the building is completed simply by performing the joining operation of the building unit. As a result, the work on the construction site is greatly reduced, and the merit of completing the construction work in a short period of time can be obtained.
On the other hand, in such a unit type building, the gable roof is often used because the framework in the small attic is relatively simple.
[0004]
[Problems to be solved by the invention]
However, in such a conventional roof, when the restriction due to the construction place as described above, that is, the corner area and the oblique line restriction in two directions, the wife face is vertically cut, so that part is the oblique line restriction part. Therefore, there is a problem that the design on the dormitory roof or the like is forced to change, and if the change is dealt with, the work on the construction site becomes complicated.
[0005]
An object of the present invention is to provide a roof that can easily cope with the restriction of oblique lines on a building and can easily perform an assembly operation on a building site.
[0006]
[Means for Solving the Problems]
DETAILED DESCRIPTION OF THE INVENTION The present invention will be described with reference to the drawings. In a small attic where a living room is provided by a building unit having a rectangular parallelepiped frame and a triangular unit formed in a wedge shape respectively disposed on both sides of the building unit. It is formed and has inclined roof surfaces 50 that are inclined on both sides of the ridge, and both sides of the ridge are notched and become substantially horizontal at a height level corresponding to the ceiling height of the room provided in the small attic . A horizontal roof surface 33B is provided, and a plurality of inclined roof surfaces are arranged in a state where a first roof panel in which a face material is attached to one side of a frame formed in a frame shape is inclined along the triangular unit. The horizontal roof surface is formed by connecting a second roof panel in which a face material is attached to one side of a frame formed in a frame shape to an end of the building unit, The edge of the side, characterized in that the wife panel affixed a face material on one side of the framework which is formed in a frame shape is erected.
In the present invention as described above, for example, even when a building is built in a corner and is subject to oblique line limitation in two directions, the restriction can be avoided because the wife surface is vertically cut in the oblique line, and the horizontal Since the roof can be completed simply by performing the assembly work of the roof surface at the factory and then performing the joining operation to the building unit 30, the work on the construction site is greatly reduced.
[0007]
In the above, the roof, the room is provided in the small attic, the horizontal roof surface, characterized in that provided above the height level corresponding ceiling height in the room provided in the small attic.
In this way, it is not necessary to change the shape of the roof and thus reduce the size of the living room space because of slanting restrictions, so that the living room space can normally be reliably secured.
Further, the and the building unit in Roof having a skeleton of rectangular parallelepiped shape, and characterized in that the triangular unit formed in wedge shape is provided, the trigonometric unit on both sides of the building units are arranged To do .
In this way, each building unit and triangle unit can be manufactured at the factory, and depending on the size and shape of the building, they can be combined arbitrarily to join them at the site. The work efficiency at the construction site can be improved and the construction period can be reduced.
[0008]
Furthermore, the inclined roof surface is formed by arranging a plurality of first roof panels in which a face material is attached to one side of a frame formed in a frame shape in a state of being inclined along the triangular unit, and The roof surface is formed by connecting a second roof panel, in which a face material is attached to one side of a frame formed in a frame shape, to an end of the building unit, and an edge on the ridge side of the horizontal roof surface Is characterized in that a wife panel having a face material attached to one side of a frame formed in a frame shape is erected .
In this way, if the first roof panel is arranged and then the second roof panel is arranged in the building unit, the entire roof can be completed and work efficiency can be improved.
Moreover, it is preferable that a 1st roof panel, the said 2nd roof panel, the said wife panel, and a triangular unit are units which are manufactured in a factory and are mutually combined in a construction site.
In this way, each part is manufactured at the factory and each part only needs to be assembled at the construction site , so the production process at the construction site can be reduced, and the overall work efficiency can be improved. .
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
1 and 2 show a unit building 1 according to an embodiment of the present invention. This unit type building 1 is provided with a plurality of building units 10, 20, and 30 formed in a box shape.
The first floor portion of the unit type building 1 is a combination of a plurality of building units 10 placed on a foundation 2 provided on the site. The entrance 4 and the carport 5 are provided on the first floor portion.
The second floor portion is a combination of a plurality of building units 20 placed on each building unit 10. The balconi unit 6 is joined to the outer wall surface of the second floor portion, and the balconi is formed by the balconi unit 6.
[0010]
The roof portion 3 is disposed on each building unit 20 and includes a box-shaped building unit 30 disposed along the ridge of the roof portion and wedge-shaped frames disposed on both sides of these building units. The triangular roof unit 31 provided and the flat panel 32 arranged along the inclination of the triangular roof unit 31 are combined, and a third-floor room is formed in the back of the hut. .
A plurality of solar cell panels 32 </ b> C are attached to the surface of the roof panel 32 of the roof portion 3.
As the roof panel of the roof portion 3, a roof panel 32A in which a part is omitted is also adopted. A portion where the floor of the triangular roof unit 31 is exposed to the outdoors is provided below the roof panel 32A. The portion where the floor is exposed to the outside is a roof balcony 7 which is a balcony provided on the roof.
A roof member 33 as described in detail below is provided at the end of the roof portion 3 ridge.
[0011]
Of the building units 10 on the first floor, the three building units 10 in the right column in the figure are carport units 10 </ b> A and 10 </ b> B that form the carport 5. Of the building units 10 in the left column in the figure, the building unit 10 having the entrance 4 is an entrance building unit 10C in which the floor beam of the entrance portion is omitted.
Further, the building unit 10 behind the entrance building unit 10C is a normal box-shaped building unit 10D that is not shown in FIG.
Similarly to the first floor building unit 10D, the second floor building unit 20 and the third floor building unit 30 are ordinary box-shaped building units that have no omission in the frame members such as beams and columns.
[0012]
FIG. 3 shows the frames 40 of the building units 10D, 20, and 30. As shown in the drawing, the frame 40 is a rectangular parallelepiped frame in which upper and lower ends of pillars 41 at four corners are connected by a ceiling beam 42 and a floor beam 43.
As the ceiling beam 42 of the frame 40, two types of ceiling long side beam 42A and ceiling short side beam 42B having different lengths are provided, and the floor beam 43 of the frame 40 has a length similar to that of the ceiling beam 42. Different types of floor long side beams 43A and floor short side beams 43B are provided. Between the opposing ceiling long side beams 42A, a plurality of ceiling beams 44 are bridged to support a ceiling surface material (not shown) that forms the ceiling.
Between the opposing floor long side beams 43A, a plurality of joists 45 are bridged to support a floor surface material (not shown) that forms the floor.
The unit type building is provided between the first floor and the second floor, as well as the first floor as the first floor, the second floor as the second floor, the third floor as the third floor, and the normal floor. Has an intermediate layer.
[0013]
For example, the first level will be described as the inside of a building. In the first level, as shown in FIG. 7, an entrance hall 81 is provided at the back of the entrance 4 provided in the approximate center of the front of the building 1. The carport 5 is provided on the right side of the entrance hall 81 in the drawing. The carport 5 described above is provided on the right side of the entrance hall 81 in the drawing, and a western room 82 extending from almost the front to the back of the building 1 is provided on the left side of the entrance hall in the drawing.
[0014]
Next, the roof portion 3 will be described in detail with reference to FIGS. 3, 4 and 5 again. As described above, the roof portion 3 includes the triangular roof units 31 disposed on both sides of the building unit 30 constituting the third-floor room, and the first roof disposed along the inclined roof surface 50 formed by the triangular roof unit 31. The roof panel 32 as a roof panel is combined.
At both ends of the ridge of the roof portion 3, a horizontal roof surface 33B is formed as a second roof panel which is cut out and becomes substantially horizontal. The horizontal roof surface 33B is provided at a height level corresponding to the height of the ceiling of the third-floor living room provided in the back of the hut.
Further, the horizontal roof surface 33B is affixed with a face material on one side of a frame 33C formed in a frame shape, and is further attached with a frame material on a frame 33D formed on the edge of the horizontal roof surface 33B on the ridge side. A tab panel 33A is erected in a substantially vertical direction on the horizontal roof surface 33B. The first roof panel 32, the second roof panel 33B, the wife panel 33A, the building unit 30 and the triangular roof unit 31 are manufactured in advance in a factory and combined at a building site.
[0015]
The assembly of the roof part 3 at the construction site is performed as follows. The first roof panel 32 is formed by arranging a plurality of rows in a state of being inclined along the triangular unit 31, and the second roof panel 33 </ b> B in which the wife panel is erected on the edge of the ridge is used as the end of the building unit Join the part.
FIG. 6 shows the relationship between the roof and the oblique line limitation when such a roof is formed. If it is the shape of the original roof, the part exceeding the oblique line L is not subject to the oblique line restriction by forming the roof having the configuration according to the present invention, and the space of the living room on the third floor part can be sufficiently secured.
[0016]
According to the present embodiment as described above, the following effects are obtained.
That is, since the inclined roof surface 50 inclined on both sides of the ridge and the horizontal roof surface 33B which is cut off on both sides of the ridge and is substantially horizontal, the end of the ridge, that is, the original vertical The standing wife face can be arranged inside the oblique line L to be restricted, and the oblique line restriction condition according to the construction site can be easily dealt with.
In addition, since the room is provided in the small attic, and the horizontal roof surface is provided at a height level corresponding to the ceiling height of the room provided in the small attic, the building unit 30 is set to the height of the horizontal roof surface. Therefore, there is no need to process at the factory or at the site, and the work efficiency at the site is improved. Moreover, even if there is a slanted line restriction, the room space can be secured reliably.
[0017]
Further, on the roof, a building unit 30 having a rectangular parallelepiped frame and a triangular unit 31 formed in a wedge shape are provided in the back of the hut, and the triangular units 31 are respectively arranged on both sides of the building unit 30. Yes. As a result, the living room portion can be formed without requiring a complicated process on site, and the inclined roof surfaces can be easily formed on both sides of the living room portion.
[0018]
In addition, the inclined roof surface 50 is formed by arranging a plurality of first roof panels in which a face material is attached to one side of a frame formed in a frame shape in an inclined state along the triangular unit 31. Since the roof surface 33B is formed by connecting the second roof panel 33 in which a face material is attached to one side of the frame 33C formed in a frame shape to the end of the building unit 30, the horizontal roof surface 33B can be easily formed. The entire roof can be easily assembled on site by placing it on the building unit 30. At the edge on the ridge side of the horizontal roof surface 33B, a wife panel 33A is provided in which a face material is attached to one side of a frame-shaped frame 33D. Therefore, by arranging the horizontal roof surface 33B at the end of the building unit 30, the wife panel 33A is simultaneously arranged at the end of the building, so that assembly efficiency at the site is improved.
The first roof panel 32, the second roof panel 33B, the wife panel 33A, and the triangular unit 31 are units that are manufactured at a factory and combined with each other at a building site. Therefore, since each unit manufactured in advance in the factory is transported to the construction site according to the construction schedule and assembled, the construction period can be shortened.
[0019]
Although the present invention has been described with reference to a preferred embodiment, the present invention is not limited to this example, and various improvements and design changes can be made without departing from the scope of the present invention. is there.
For example, it can be applied to various other roof shapes.
Further, the unit type building is not limited to a three-story building but may be a two-story or four-story building, and the number of building levels may be set as appropriate in implementation.
[0020]
【The invention's effect】
As described above, according to the roof of the present invention, it is possible to easily cope with the oblique line restriction on the construction site and to easily perform the assembly work on the construction site.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an entire unit type building according to an embodiment of the present invention.
FIG. 2 is a schematic diagram showing a unit configuration of a unit building according to the embodiment.
FIG. 3 is a perspective view showing a frame of the building unit according to the embodiment.
FIG. 4 is a perspective view showing a method of assembling a unit building according to an embodiment of the present invention.
FIG. 5 is a perspective view showing a method of assembling a unit building according to an embodiment of the present invention.
FIG. 6 is a schematic front view showing the configuration of the horizontal roof surface of the present invention.
FIG. 7 is a plan view of the first level of the unit building according to the embodiment of the present invention.
[Explanation of symbols]
1 Unit type building 2 Foundation 4 Entrance 5 Carport 6 Balconi unit 30 Building unit 31 Triangular roof unit 33 Roof panel 33B Horizontal roof surface 40 Frame

Claims (2)

An inclined roof surface formed on a small attic where a living room is provided by a building unit having a rectangular parallelepiped frame and a triangular unit formed on each side of the building unit, and inclined on both sides of the building. And having a horizontal roof surface that is substantially horizontal to a height level corresponding to the ceiling height of the room provided on the small attic by notching both sides of the ridge,
The inclined roof surface is formed by arranging a plurality of first roof panels in which a face material is attached to one side of a frame formed in a frame shape in an inclined state along the triangular unit,
The horizontal roof surface is formed by connecting a second roof panel in which a face material is attached to one side of a frame formed in a frame shape to an end of the building unit. The roof is characterized in that the end panel is erected with a wife panel with a face material attached to one side of a frame-shaped frame. The roof according to claim 1 , wherein the first roof panel, the second roof panel, the end panel and the triangular unit are units manufactured at a factory and combined with each other at a building site. Roof.

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