JP2014066115A - Dome-like building - Google Patents

Abstract

An object of the present invention is to provide a dome-shaped building that increases the rigidity of an expansion structure and has sufficient strength.
SOLUTION: A plurality of triangular structures 40 constituted by connecting ends of three frame members 50 provided at positions corresponding to respective sides of a triangle are three-dimensionally formed from a foundation 30. A dome-like structure portion 6 formed in a dome shape by being continuously provided, and an expansion structure portion 8 extending outward from a plurality of continuous triangular structure bodies 40 below the dome-like structure portion 6; The extended structure portion 8 is provided with a ceiling 320 that covers the upper portion thereof, and the ceiling 320 is provided with a structural surface material that extends from the dome-shaped structure portion 6. It is characterized by being.
[Selection] Figure 8

Description

  The present invention relates to a dome-shaped building including a dome-shaped structure portion formed in a dome shape and an extended structure portion extending outward from the dome-shaped structure portion.

  Conventionally, there is a dome called a geodesic dome (or fuller dome) as a dome-shaped building having a substantially hemispherical appearance. Specifically, for example, a plurality of triangular structures composed of three frame members are connected in a three-dimensional manner without gaps, forming a truss skeleton and a substantially hemispherical shape (dome shape) Is being used. The inside of the triangular structure is filled with a heat insulating material, whereby a good heat insulating performance can be obtained. By being formed in this manner, even if the frame member is made of wood, the frame member exhibits sufficient strength and can be made extremely light. Thereby, the dome-shaped building can ensure excellent earthquake resistance and wind resistance that do not easily collapse even in disasters such as earthquakes and typhoons.

Conventionally, dome-shaped buildings have been used for relatively large buildings for the purpose of use such as exhibition halls, but in recent years, there has been an increasing demand for small-sized ordinary houses with a compact structure (for example, Patent Document 1).
By the way, the dome-shaped building includes a dome-shaped structure portion that is a dome-shaped structure and an extended structure portion that extends outward from a plurality of continuous triangular structures at the bottom of the dome-shaped structure portion. There is something with. This extended structure part is formed by a wall erected from the foundation and a ceiling covering the upper part of the wall, and the inside can be used as a room.

JP 2007-291731 A

The dome-shaped structure in a conventional dome-shaped building is mainly formed by a truss structure with a triangular structure, and the extended structure extending from this dome-shaped structure is compared with the dome-shaped structure of the triangular structure. Then, there was a first problem that the rigidity was insufficient and the strength was not sufficient.
Further, due to the structural difference from the dome-shaped structure portion, the flow of force at the connection portion between the two is not clear, and the length protruding outward of the expansion structure portion cannot be extended freely. There was a problem.

  The invention described in claim 1 has been made in view of the first problem of the prior art described above, and its object is to increase the rigidity of the expansion structure and to provide sufficient strength. The purpose is to provide a shaped building.

  The invention described in claim 2 has been made in view of the second problem of the prior art described above in addition to the object of the invention described in claim 1, and the object of the invention is the structure. An object of the present invention is to provide a dome-like building in which a general force flow is clarified and the length of the extended structure portion can be extended.

(Claim 1)
According to the first aspect of the present invention, a plurality of triangular structures 40 each having a plurality of triangular structures 40 constituted by connecting ends of three frame members 50 provided at positions corresponding to respective sides of a triangle are provided. The dome-shaped structure portion 6 formed into a dome shape by being three-dimensionally connected from the dome-shaped structure portion 6 and extended outward from the plurality of continuous triangular structure bodies 40 below the dome-shaped structure portion 6. A dome-like building 4 provided with an expansion structure portion 8 provided with a ceiling 320 that covers an upper portion of the expansion structure portion 8. The ceiling 320 extends from the dome-shaped structure portion 6. The structural face material to be provided is provided.

  On the ceiling 320 of the extended structure portion 8, a structural face material extending from the dome-shaped structure portion 6 is provided. Thereby, a part of the extended structure portion 8 can be supported by the dome-shaped structure portion 6 via the structural face material of the ceiling 320. Further, by using a structural face material for the ceiling 320, the rigidity of the expanded structure portion 8 can be further increased. Thereby, the expansion structure 8 also has sufficient rigidity and sufficient strength.

(Claim 2)
The invention described in claim 2 is characterized by the following points in addition to the features of the invention described in claim 1 described above. That is, the extended structure portion 8 is provided with a wall 310 standing from the foundation 30, and the triangular structure 40 is incorporated in at least a part of the wall 310.

  A triangular structure 40 is incorporated in at least a part of the wall 310 of the extended structure portion 8. Thereby, both the dome-shaped structure 6 and the extended structure 8 can be a truss structure incorporating the triangular structure 40, and the flow of structural force in the structure calculation can be clarified. . Since the extended structure portion 8 can be a truss structure composed of the triangular structure 40, the extended structure portion 8 itself can have earthquake resistance against an earthquake or the like. As a result, the extended length of the extended structure portion 8 can also be made longer than when a load bearing wall (structural face material) is used for the wall 310.

Since this invention is comprised as mentioned above, there exists an effect as described below.
According to the first aspect of the present invention, it is possible to provide a dome-shaped building that increases the rigidity of the expansion structure and has sufficient strength.
According to invention of Claim 2, in addition to the effect of invention of Claim 1 mentioned above, the flow of structural force becomes clear, and the length which the extension structure part protrudes can be lengthened. Can be provided.

It is a 1st embodiment of the present invention, and is an appearance perspective view showing a triangular structure of a dome-shaped structure part. It is a 1st embodiment of the present invention, and is an appearance side view showing a triangular structure of a dome-shaped structure part. It is a 1st embodiment of the present invention, and is an appearance top view showing a triangular structure object of a dome-shaped structure part. BRIEF DESCRIPTION OF THE DRAWINGS It is a 1st Embodiment of this invention, Comprising: It is an external view which shows the frame member and connector of a triangular structure seen from the room inner side. It is a 1st embodiment of the present invention, and is an appearance perspective view showing arrangement of a frame member of some triangular structures, and a blocking material. FIG. 2 is an enlarged external perspective view showing the arrangement of the frame members and blocking materials of some triangular structures according to the first embodiment of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS It is 1st Embodiment of this invention, (A) is an external appearance perspective view of the dome-shaped building before providing an extended structure part in a dome-shaped structure part, (B) is an extended structure part in a dome-shaped structure part. (C) is an external perspective view of a dome-shaped building provided with an extended structure portion having a different arrangement of the triangular structure, and (D) is an expansion having a different arrangement of the triangular structure. It is an external appearance perspective view of the dome-shaped building which provided the structure part. BRIEF DESCRIPTION OF THE DRAWINGS It is the 1st Embodiment of this invention, Comprising: (A) The external appearance side view of an expansion structure part, (B) The external appearance front view of an expansion structure part. It is the 2nd Embodiment of this invention, Comprising: (A) is an external appearance perspective view of the dome-shaped building which provided the extended structure part in the dome-like structure part, (B) is the dome which provided the other extended structure part. (C) is an external perspective view of a dome-like building in which the arrangement of the triangular structure of the extended structure portion of (A) is different, and (D) is a triangular structure of the extended structure portion of (B). It is an external appearance perspective view of the dome-shaped building from which a body arrangement | positioning differs. It is the 2nd Embodiment of this invention, Comprising: (A) The external appearance side view of an expansion structure part, (B) The external appearance front view of an expansion structure part.

(First embodiment)
The dome-shaped building 4 according to the present embodiment has a dome-shaped dome-shaped structure portion 6 and an extended structure portion 8 extending outward from the dome-shaped structure portion 6.
As shown in FIGS. 1, 2, and 3, the dome-shaped structure 6 of the dome-shaped building 4 according to the first embodiment is provided with a dome wall 520 that covers the periphery in a dome shape (hemisphere). It has been. A cupola 400 is provided at the top of the dome-shaped structure 6 by a pentagonal cylindrical standing wall 420 that rises from the top of the dome wall 520 and a roof 440 that covers the top of the standing wall 420. Note that the dome-shaped structure 6 according to the present embodiment is not limited to the one having the cupola 400, and can also be applied to the dome-shaped structure 6 that does not have the cupola 400.
The dome wall 520 includes a plurality of triangular structures 40 formed by connecting the ends of three frame members 50 provided at positions corresponding to the sides of the triangle, without any gaps. Are formed in a dome shape.

The standing wall 420 of the cupola 400 is formed in a pentagonal tube shape as a whole by standing five rectangular shapes upward from the pentagonal edge. The position where the standing wall 420 rises is not limited to the position described above, and may be changed from the position to the lower side.
The roof 440 of the cupola 400 is obtained by combining five triangular structures 40 in a pentagonal pyramid shape without gaps.

The dome-like structure portion 6 is formed in a hierarchical structure in which five layers of layer structure portions L formed in an annular shape by connecting triangular structures 40 without gaps are stacked.
The layer structure portion L is a first structure portion 11 as a top portion having a shape in which five triangular structures 40 inscribed in the same sphere are combined in a pentagonal pyramid shape without a gap, which is a topmost structure portion. have. A pentagonal cupola 400 is fixed on the top surface of the top portion of the first structure portion 11 in a state where it is placed.

Note that the top portion of the dome wall 520 is not limited to the above, and nothing is provided under the roof 440 of the cupola 400, and the top portion of the dome wall 520 is directed upward only by the cupola 400 portion. It is good also as a state dented in the step shape. Further, for example, only the frame of only the frame member 50 that is a structural member of the five triangular structures 40 may be provided.
The layer structure portion L is connected to the first structure portion 11 below the first structure portion 11 without a gap, and the 15 triangular structures 40 inscribed in the same sphere are formed without a gap. It has the 2nd structure part 12 of the shape combined circularly. The layer structure portion L is connected to the second structure portion 12 below the second structure portion 12 without gaps, and the 25 triangular structures 40 inscribed in the same sphere are formed without gaps. It has the 3rd structure part 13 of the shape combined cyclically | annularly. The layer structure portion L is connected to the lower side of the third structure portion 13 without any gap with the third structure portion 13, and 30 triangular structures 40 inscribed in the same sphere are annularly formed with no gap. The fourth structure portion 14 is combined with the fourth structure portion 14. The layer structure portion L is connected to the lower side of the fourth structure portion 14 without any gap with the fourth structure portion 14 and has a shape in which a plurality of triangular structures 40 are combined in a substantially annular shape. 5 structural parts 15 are provided. The fifth structural portion 15 is fixed on a foundation 30 made of concrete (see FIG. 2). The number of triangular structures 40 is not limited. When the fifth structure portion 15 is provided with an entrance / exit, a large opening window, and the expansion structure portion 8 for expanding the interior of the triangular structure body 40, such a function is provided without providing a plurality of adjacent triangular structure bodies 40. Forming a thing. In the present embodiment, an opening 330 is provided in the region corresponding to the three triangular structures 40 (see FIG. 7A).

  In the present embodiment, in the second structure portion 12 to the fifth structure portion 15, the triangular structure 40 in the same hierarchy has a forward triangle structure in which two vertices are arranged on the lower side and one vertex is arranged on the upper side. There are two types of triangular structures 40: a body 42 and an inverted triangular structure 41 having one vertex on the lower side and two vertices on the upper side. The forward triangular structure 42 is in contact with the upper layer only at the apex of the triangle, and the inverted triangular structure 41 is in contact with the upper layer with the sides of the triangle. That is, the inverted triangular structure 41 is a so-called “inverted triangle”. And as the layer structure part L of the same hierarchy from the 2nd structure part 12 to the 5th structure part 15, the alternating layer structure part by which the forward triangle structure 42 and the inverted triangle structure 41 were alternately arrange | positioned on the circumference 20 is formed (see FIG. 2). And in the 1st structure part 11, it forms with the five forward triangular structures 42, and the cupola 400 which consists of the standing wall 420 and the roof 440 is mounted on it.

In the present embodiment, the first structure portion 11 to the fourth structure portion 14 are composed of a large number of triangular structures 40 that are inscribed in the same sphere having a radius R. The fifth structure portion 15 is composed of a large number of triangular structures 40 that are inscribed in the same cylinder. As shown in FIGS. 1 and 2, the forward triangular structure 42 of the fifth structure portion 15 is not provided with the frame member 50 corresponding to the position of the bottom side. There, the upper surface of the foundation 30 indicated by the one-dot chain line in FIGS. 1 and 2 is arranged.
The dome-shaped structure 6 includes connectors 71 as fixing means 70 that connect the ends of the frame member 50 and are provided at positions corresponding to the vertices of the triangles of the triangular structure 40, respectively.

Then, from the frame member 50 provided at a position corresponding to each side of each triangular structure 40 and the connector 71 as a fixing means 70 provided at a position corresponding to each vertex of each triangular structure 40, FIG. The skeleton of the dome-shaped truss structure shown in is constructed. The dome-shaped truss skeleton serves as a structural housing of the dome-shaped structure portion 6.
The connector 71 is made of metal, and the frame member 50 is made of wood. Of course, the materials of the connector 71 and the frame member 50 are not limited to this, and other materials such as wood, metal, synthetic resin, and combinations thereof may be employed.
A connector 71 provided at the lower end of the fifth structure portion 15 is a base connector 72. The base connector 72 is for connecting the end portions of the frame member 50 gathering at the apex of the lower end of the fifth structure portion 15. The base connector 72 functions as a member for connecting the ends of the two frame members 50 and also functions as a member for joining the truss skeleton to the foundation 30.

A connector 71 provided on the boundary line between the fourth structure portion 14 and the fifth structure portion 15 is referred to as a beam connector 73. The beam connector 73 is for connecting the end portions of the six frame members 50 gathering at the apex on the boundary line between the fourth structure portion 14 and the fifth structure portion 15.
A connector 71 other than the base connector 72 and the beam connector 73, and five arms of the connector 71 provided at a position where the ends of the five frame members 50 gather (position where the vertices of the five triangular structures 40 gather) Connector 74 is assumed. The 5-arm connector 74 is for connecting the ends of the five frame members 50 gathered at that position.
6 connectors 71 other than the base connector 72 and the beam connector 73, each of which is provided at a position where the ends of the six frame members 50 are gathered (position where the apexes of the six triangular structures 40 are gathered). The connector 75 is used. The 6-arm connector 75 is for connecting the ends of the six frame members 50 gathered at that position. Further, the five-arm connector 74 is arranged at the center of the pentagon of the roof 440, and the ends of the five frame members 50 forming the five triangular structures 40 are gathered.

As shown in FIG. 4, in one triangular structure 40, frame members 50 are arranged at positions corresponding to the sides of the triangle. The ends of the frame member 50 are fixed to each other by a connector 71 (in FIG. 4, only the upper connector 71 of the central triangular structure 40 is shown, and the detailed view of the other connectors 71 is omitted. ing). A triangular structure 40 shown in FIG. 4 represents one of the triangular structures 40 of the third structure portion 13, and the connector 71 arranged at the position corresponding to the apex of the triangle has 6 An arm connector 75 is formed.
The 6-arm connector 75 has a hub 76, a reinforcing flat plate portion 78, and an arm 77.
The hub 76 is cylindrical. The reinforcing flat plate portion 78 has a disk shape provided so as to close one opening of the hub 76. The arm 77 is for joining the frame member 50, and is composed of six flat plates protruding outward from the outer peripheral surface of the hub 76.

The number of the arms 77 is the same as the number of frame members 50 that gather at the apex of the triangle where the 6-arm connector 75 is disposed. Six frame members 50 gather at the apex of the triangle where the 6-arm connector 75 is disposed. For this reason, six arms 77 are provided. Each arm 77 corresponds to each frame member 50 on a one-to-one basis. That is, one frame member 50 is joined to one arm 77. In this embodiment, one frame member 50 is joined to one arm 77. However, when two frame members 50 are used in combination as will be described later, one frame member 50 is used. A pair of two frame members 50 is joined to the arm 77.
Each arm 77 has an end joined to both the outer peripheral surface of the hub 76 and the reinforcing flat plate portion 78. As a result, a sufficient strength to support the frame member 50 with one arm 77 is exhibited.

  The frame member 50 is disposed at a position corresponding to each side of the triangular structure 40. The frame member 50 has a rectangular cross section perpendicular to the longitudinal direction, and the entire shape is formed from a rectangular parallelepiped wood. The end of the frame member 50 is fixed to the arm 77 of the connector 71 with bolts and nuts (not shown). The three frame members 50 provided at positions corresponding to the sides of the triangle are connected by the connector 71, whereby the triangular structure 40 serving as a triangular truss skeleton is formed.

In the present embodiment, the frame member 50 is fixed to one arm 77 of the connector 71, but is not limited to one frame member 50. . For example, two long frame members 50 may be fixed to one arm 77. In such a case, the ends of the two frame members 50 are fixed to both sides of the one arm 77 so that one arm 77 is sandwiched between the ends of the two long frame members 50. To do. Note that the fixing method is not limited to this.
A sheet-like outdoor sheet material 95 covering the surface is attached to the surface of the triangular structure 40 located on the outdoor side. The outdoor sheet material 95 is made of a moisture-permeable waterproof sheet that allows moisture to pass through but does not allow moisture to pass through. The outdoor sheet material 95 is stuck so as to straddle the outdoor sides of the plurality of triangular structures 40.

In the indoor space 226 of the triangular structure 40, the frame member 50 and the outdoor sheet material 95 are passed between the frame member 50 and between the outdoor sheet material 95 and an interior finishing material 220 described later. A blocking material 140 that supports the interior finishing material 220 is formed.
The blocking material 140 is located between two frame members 50 of the three frame members 50 of the triangular structure 40 and connects them together. Specifically, the blocking material 140 is shown in FIG. Inside the central triangular structure 40, there are a corner blocking material 162 passed to the left and right, and two stud blocking materials 170 passed up and down.

The corner blocking member 162 is positioned in the vicinity of the upper corner of the central triangular structure 40 in FIG. 4 and is passed between the left and right frame members 50 in the horizontal direction.
The stud blocking material 170 is positioned on the left and right of the central triangular structure 40 in FIG. 4 and is passed between the upper and lower frame members 50 in the vertical direction.
The connection between the end of the blocking material 140 (the corner blocking material 162 and the stud blocking material 170) and the frame member 50 is firmly fixed by a plurality of wood screws arranged at predetermined intervals.
In the center of the triangular structure 40 shown in FIG. 4, a sub-blocking material 164 that connects the frame member 50 at the base position and the corner blocking material 162 is provided in the vertical direction. The sub-blocking material 164 includes the center of the remaining one frame member 50 (the frame member 50 at the bottom side) to which the corner blocking material 162 is not connected among the three frame members 50 of the triangular structure 40, and the corner blocking material. The center of the material 162 is connected.

Each triangular structure 40 has a trunk edge (not shown) made of wood fixed as a base material on the surface of the outdoor sheet material 95 located on the outdoor side. The trunk edge is disposed outside the outdoor sheet material 95 and is fixed to the indoor frame member 50, the blocking material 140, and the sub-blocking material 164 so as to sandwich the outdoor sheet material 95.
Each triangular structure 40 has an outdoor side surface that is fixed to a surface located on the outdoor side of the trunk edge and covers the outdoor sheet material 95 with the trunk edge sandwiched between the outdoor sheet material 95 90 is formed. The outdoor side surface 90 is a triangular flat plate made of wood. Inside the triangular structure 40, an internal space 100 is formed between the outdoor side surface 90 and the outdoor sheet material 95 with the trunk edge sandwiched therebetween.

Here, in the triangular structure 40, an outer layer that covers the outdoor side of the frame member 50 as a surface and an inner layer that covers the indoor side of the outer layer are formed, and air is interposed between the outer layer and the inner layer. A freely flowing ventilation layer 460 is formed. In the present embodiment, a ventilation layer 460 is formed in the internal space 100 between the outdoor side surface 90 as an outer layer and the outdoor sheet material 95 as an inner layer.
On the indoor side of the triangular structure 40 having the frame member 50, a moisture-proof sheet (not shown) is attached to form a moisture-proof layer. On the indoor side of the moisture-proof sheet, an interior finishing material (not shown) that covers the triangular surface located on the indoor side of one triangular structure 40 is formed. Inside the triangular structure 40, an indoor space 226 is formed between the outdoor sheet material 95 and the moisture-proof sheet. The indoor space 226 is divided into small spaces by the blocking material 140 and the sub-blocking material 164. Note that a plurality of through holes penetrating the front and back surfaces of the blocking material 140 and the sub-blocking material 164 may be provided in order to allow the small spaces to communicate with each other and promote ventilation between the small spaces.

As shown in FIG. 5, the blocking material 140 and the sub-blocking material 164 are arranged in the vertical direction, the horizontal direction, or the oblique direction. The blocking material 140 connects the frame members 50. The blocking material 140 includes a corner blocking material 162, a stud blocking material 170, and a lateral blocking material 150. The sub-blocking material 164 connects the blocking material 140 and the frame member 50. The indoor space 226 of the triangular structure 40 is divided into a plurality of spaces by the blocking material 140 and the sub-blocking material 164.
As shown in FIG. 5, the arrangement of the blocking material 140 of the triangular structure 40 from the first structure portion 11 to the fourth structure portion 14 is different from the arrangement of the blocking material 140 of the triangular structure body 40 of the fifth structure portion 15. It is formed as follows.

The blocking member 140 of the triangular structure 40 above the fourth structure portion 14 is arranged such that the triangular structure 40 is rotated around a predetermined vertex position of the predetermined triangular structure 40.
The blocking material 140 of the triangular structure 40 of the fifth structure portion 15 is composed of three horizontal blocking materials 150 arranged in the horizontal direction. Further, in one triangular structure 40 of the fifth structure portion 15, blocking auxiliary materials 152 are provided as base materials arranged at three positions in the vertical direction at approximately the center between the horizontal blocking materials 150. In addition, in the triangular structure 40 of FIG.5 and FIG.6, although there are some which do not describe the blocking material 140, these have omitted description of the blocking material 140, and are the same blocking as the description mentioned above. A material 140 or the like is provided.

The number and arrangement of the blocking material 140, the sub-blocking material 164, and the blocking auxiliary material 152 are not limited to those described above.
As shown in FIG. 6, the triangular structure 40 of the fifth structure portion 15 has a horizontal blocking member 150 as a blocking member 140 that connects two left and right frame members 50 of the three frame members 50 of the triangular structure 40. Are provided.
Here, the connection between the end of the horizontal blocking member 150 as the blocking member 140 and the left and right frame members 50 is firmly fixed by a plurality of wood screws arranged at a predetermined interval. Although not particularly illustrated, these wood screws extend in a direction perpendicular to the surface of the frame member 50 from an obliquely upward direction of the transverse blocking material 150 (laterally downward direction in the case of the forward triangular structure 42) passed in the lateral direction. It is screwed to become. In addition, the surface of the screwing position of the wood screw of the horizontal blocking member 150 is countersunk so as to be parallel to the fixed surface of the frame member 50 in order to stabilize the wood screw head by processing it into a stepped shape. (Not shown). In the present embodiment, one frame member 50 is used for each side of the triangular structure 40. When two frame members 50 are used on one side with a slight gap, a thin wood plate that fills the gap in the gap at the position where the wood screw is screwed is interposed between the two frame members 50. It is preferable to sandwich them.
Similarly to the blocking material 140 of the first structure portion 11 to the fourth structure portion 14, the lateral blocking material 150 is also arranged at a position effective for preventing buckling in the structural calculation of the frame member 50. This eliminates the need for a structural face material conventionally used to cover the triangular structure 40.

Here, the fact that the blocking member 140 is disposed at a position effective for buckling prevention in the structural calculation of the frame member 50 means that the frame member 50 is suppressed by suppressing the buckling length when the frame member 50 buckles. This means that the blocking material 140 is disposed at a position where the occurrence of buckling caused by the load applied to the surface can be suppressed. Specifically, for example, the blocking member 140 is disposed at a position where the buckling can be prevented by suppressing the frame member 50 from deforming around the weak axis. The blocking member 140 restrains the frame member 50 from deforming and moving in such a direction, thereby suppressing deformation and preventing buckling.
Since the blocking material 140 is passed between the left and right of the left and right frame members 50, the distance between the left and right frame members 50 is kept constant. Further, the triangular structure 40 adjacent to the left and right and upper and lower sides of the triangular structure 40 is similarly provided with a blocking material 140 (in FIG. 6, the description of the blocking material 140 of the adjacent triangular structure 40 is omitted). A similar blocking material 140 is provided). As a result, in the vicinity of the center of the left and right frame members 50 in the longitudinal direction, the frame member 50 having a flat cross-sectional shape (rectangular shape) is prevented from being deformed around its weak axis, and the seats of these frame members 50 are Bending is prevented.

As shown in FIG. 7A, before the extension structure 8 is provided, there is no continuous plural (specifically three) triangular structures 40 in the lowermost layer of the dome-shaped structure 6, and the opening is open. An opening 330 is provided.
As shown in FIG. 7 (B), an extended structure portion 8 extending outward from the edge of the opening 330 is provided. The opening 330 is formed so as to be able to enter and exit from the interior of the dome-shaped structure section 6 to the interior of the expansion structure section 8. The dome-shaped structure 6 may be configured such that the triangular structures 40 are continuously provided without gaps as usual, and the opening 330 is provided inside one triangular structure 40. Further, the dome-shaped structure portion 6 is provided with the triangular structure body 40 continuously without any gap as usual, and without providing the opening portion 330 leading to the expansion structure portion 8, the expansion structure portion 8 is formed on the wall of the expansion structure portion 8. You may provide the entrance which goes in and out of the room from the outside. Thereby, the extended structure part 8 can also be used as a room (such as a hut) independent of the dome-shaped structure part 6.

As shown in FIG. 7 (B), the expansion structure portion 8 is provided with a wall 310 erected from the concrete foundation 30. The wall 310 includes two inclined girder side walls 312 provided on the girder side and one trapezoidal side wall 314 provided on the wives side.
The girder side wall 312 is provided with a plurality of triangular structures 40 having substantially the same configuration as the triangular structure 40 of the dome-shaped structure portion 6. The number of triangular structures 40 on the girder side wall 312 is not particularly limited.

The wife side wall 314 is provided with a plurality of triangular structures 40 having substantially the same configuration as the triangular structure 40 of the dome-shaped structure portion 6. The number of triangular structures 40 on the wife side wall 314 is not particularly limited. In the present embodiment, the triangular structure 40 is provided on both the end side wall 314 and the girder side wall 312. However, the present invention is not limited to this, and the end side wall 314 and the girder side wall 312 are not provided in both. And the triangular structure 40 may be provided on either of them. Further, the triangular structure 40 may be provided only on one of the two girder side walls 312.
A ceiling 320 is provided at an upper portion of the extension structure portion 8 so as to cover between the upper portions of the two girder side walls 312. The ceiling 320 is a structural surface material extending from the dome-shaped structure portion 6. The ceiling 320 as the structural surface material is formed of a plywood made of wood, but the material is not limited to this as long as it has a function as a structural surface material, other materials, For example, it may be made of metal.
As shown in FIG. 7C, the number of triangular structures 40 provided inside the girder side wall 312 and the wife side wall 314 of the expansion structure 8 may be smaller than that in FIG. 7B. is there. When sufficient strength can be maintained by structural calculation, the number of triangular structures 40 can be reduced. Although not particularly illustrated, in the case where the rigidity and strength of the expansion structure portion 8 can be sufficiently secured by the structural face material as the ceiling 320 extending from the dome-shaped structure portion 6, It is possible not to provide any triangular structure 40 on the girder side wall 312 and the end side wall 314.
As shown in FIG. 7 (D), a reinforcing column member 52 formed in a vertical direction from the corner portion of the ceiling 660 toward the lower base 30 may be provided on the end side wall 314 of the expansion structure portion 8. . The reinforcing column member 52 supports the front end corner portion side of the ceiling 320.
Here, the arrangement pattern of the triangular structures 40 inside the wife side wall 314 and the girder side wall 312 is not limited to the one illustrated in FIG. 7, and various patterns are possible. Further, both the reinforcing column member 52 and the triangular structure 40 described above may be provided in combination.

As shown in FIG. 8 (A), two forward triangular structures 42 and one inverted triangular structure 41 are provided on the girder side wall 312 of the expansion structure 8 according to the present embodiment. Yes. Between the left and right frame members 50 of the forward triangular structure 42, the horizontal blocking member 150 and the blocking auxiliary member 152 provided in the triangular structure 40 of the fifth structure portion 15 of the dome-shaped structure portion 6 are different in number. Is provided.
The horizontal blocking member 150 has the same function as that provided in the fifth structure portion 15 of the dome-shaped structure portion 6 as the blocking member 140 for connecting the left and right frame members 50, and a total of five blocking members 150 are provided. Is provided. Further, a blocking auxiliary material 152 connected in the vertical direction is provided at the center of the horizontal blocking material 150 and has the same function as that provided in the fifth structure portion 15 of the dome-shaped structure portion 6.
Note that the right side of the extension structure 8 in FIG. 8A is connected to the dome-shaped structure 6 and the left side extends outward. A ceiling 320 is provided at a position connecting the apexes of the forward triangular structure 42 so as to cover the upper part of the girder side wall 312.

  As shown in FIG. 8 (B), two forward triangular structures 42 and one inverted triangular structure 41 are provided on the wife side wall 314 of the expansion structure portion 8 according to the present embodiment. Yes. Between the left and right frame members 50 of the forward triangular structure 42, a horizontal blocking material 150 as a blocking material 140 for connecting the two is provided in the same manner as the girder side wall 312. Further, the blocking auxiliary material 152 is also provided in the same manner as the girder side wall 312. A window 340 that opens outward is provided substantially at the center of the inverted triangular structure 41. A ceiling 320 is provided at a position connecting the apexes of the forward triangular structure 42.

In the present embodiment, the triangular structure 40 is provided on both the girder side wall 312 and the end side wall 314. However, the present invention is not particularly limited thereto, and either the girder side wall 312 or the end side wall 314 is provided. It may be provided on the wall. Further, it may be provided on either one of the two girder side walls 312.
(Function and effect)
In the present embodiment, as shown in FIGS. 5 and 8, the blocking material is placed on the wall 310 of the dome-shaped structure portion 6 and the extended structure portion 8 at a position effective for preventing buckling in the structural calculation of the frame member 50. By arranging 140, the structural face material passed between the frame members 50 becomes unnecessary. This blocking material 140 can also be used as a base material. Thereby, the blocking material 140 can have both functions of the structural surface material and the base material, and the number of members can be reduced and the members can be shared. Further, since the structural face material is not required, the labor for attaching the structural face material is not required, and the assembling work can be simplified. As a result, the manufacturing cost can be reduced.

  As shown in FIG. 4, the sub-blocking material 164 is between the corner blocking material 162 and the remaining one frame member 50 to which the corner blocking material 162 is not connected among the three frame members 50 of the triangular structure 40. By connecting the two, the fluctuation of the distance between the two is suppressed and both are restrained. Accordingly, not only the frame member 50 but also the corner blocking material 162 can be improved in rigidity, and the triangular structure 40 can be improved as a whole in a state where the frame member 50 and the blocking material 140 are combined.

As shown in FIG. 7B, a structural surface material extending from the dome-shaped structure 6 is provided on the ceiling 320 of the extended structure 8. This structural facing is passed between the tops of the walls 310. Thereby, a part of the extended structure portion 8 can be supported by the dome-shaped structure portion 6 via the structural face material of the ceiling 320. Further, by using a structural face material for the ceiling 320, the rigidity of the expanded structure portion 8 can be further increased. Thereby, the expansion structure 8 also has sufficient rigidity and sufficient strength.
As shown in FIG. 8, a triangular structure 40 is incorporated in a part of the girder side wall 312 and the end side wall 314 of the wall 310 of the expansion structure portion 8. As a result, both the dome-like structure portion 6 and the extended structure portion 8 can be formed into a truss structure including the triangular structure 40, and the flow of structural force in the structure calculation can be clarified. Since the extended structure portion 8 can be a truss structure including the triangular structure 40, the extended structure portion 8 itself can have earthquake resistance against earthquakes and the like without depending on the dome-shaped structure portion 6. Thereby, the length which protrudes outward of the expansion structure part 8 can also be made longer than the case where the conventional load-bearing wall (structural face material) is used.
Further, by incorporating the truss structure in the wall 310 of the extension structure portion 8, the analysis in the structure calculation is facilitated, and the extension structure portion 8 having a different length can be easily designed. Thereby, the variation of the expansion structure part 8 becomes abundant, and the freedom degree of the floor plan of the dome-shaped building 4 can be improved.

(Second Embodiment)
As shown in FIG. 9A, in the present embodiment, the girder side wall 312 of the expansion structure 8 is erected in the vertical direction without being inclined. Thereby, the horizontal width of the upper part of the extended structure part 8 can be made wider than in the first embodiment.
As shown in FIG. 9B, one of the girder side walls 312 may be inclined and the other girder side wall 312 may be erected in the vertical direction.
As shown in FIG. 9C, as compared with FIG. 9A, the number of triangular structures inside the girder side wall 312 and the wife side wall 314 may be reduced. When sufficient strength can be maintained by structural calculation, the number of triangular structures 40 can be reduced. Although not particularly illustrated, in the case where the rigidity and strength of the expansion structure portion 8 can be sufficiently secured by the structural face material as the ceiling 320 extending from the dome-shaped structure portion 6, Even in this embodiment, it is possible not to provide any triangular structure 40 on the girder side wall 312 and the end side wall 314.
As shown in FIG. 9 (D), the end side wall 314 of the extension structure portion 8 is not provided with a triangular structure 40 as shown in FIG. A reinforcing column member 52 formed in the direction may be provided. The reinforcing column member 52 supports the front end corner portion side of the ceiling 320.
Here, the arrangement pattern of the triangular structures 40 inside the wife side wall 314 and the girder side wall 312 is not limited to that illustrated in FIG. 9, and various arrangement patterns are possible. Furthermore, both the reinforcing column member 52 and the triangular structure 40 described above may be provided.

  As shown in FIGS. 10A and 10B, the girder side wall 312 of the expansion structure portion 8 is erected in the vertical direction, so that the interior of the expansion structure portion 8 can be made into a rectangular parallelepiped space and the room. The spatial volume can be increased as compared with the first embodiment. Thereby, it is possible to provide a living space without a feeling of pressure in the expansion structure portion 8. Other configurations, operations, and effects are substantially the same as those in the first embodiment.

4 Dome-shaped building 6 Dome-shaped structure
8 Extended structure L layer structure
11 1st structure part 12 2nd structure part
13 Third structure 14 Fourth structure
15 Fifth structure part 20 Alternating layer structure part
30 foundation 40 triangular structure
41 inverted triangle structure 42 forward triangle structure
50 Frame member 52 Reinforcement column member
70 Fixing means 71 Connector
72 Base connector 73 Beam connector
74 5 arm connector 75 6 arm connector
76 Hub 77 Arm
78 Reinforcing flat plate 90 Outdoor side surface
95 Outdoor sheet material 100 Interior space
140 Blocking material 150 Horizontal blocking material
152 Blocking aid 162 Corner blocking material
164 Sub-blocking material 170 Stud blocking material
220 Interior finishing materials 226 Indoor space
310 Wall 312 Girder Side Wall
314 Tsubaki Side Wall 320 Ceiling (Structural Face Material)
330 opening 340 window
400 Cupola 420 Standing wall
440 Roof 460 Ventilation layer
520 dome wall

Claims (2)

A dome is formed by connecting a plurality of triangular structures formed by connecting the ends of three frame members provided at positions corresponding to the sides of a triangle in a three-dimensional manner from the foundation. A dome-shaped structure formed in a shape;
A dome-shaped building including an extended structure portion extending outward from a plurality of continuous triangular structures at a lower portion of the dome-shaped structure portion;
The extension structure part is provided with a ceiling covering the upper part,
A dome-shaped building, wherein a structural face material extending from the dome-shaped structure portion is provided on the ceiling. The extension structure part is provided with a wall standing from the foundation,
The dome-shaped building according to claim 1, wherein the triangular structure is incorporated in at least a part of the wall.

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