JP5698204B2 - Domed structure - Google Patents

Description

  The present invention relates to a dome-like structure formed in a dome shape.

  Conventionally, as a dome-like structure having a substantially hemispherical appearance, there is a dome called a geodesic dome (or fuller dome). Specifically, for example, a plurality of triangular structures formed of three frame members are three-dimensionally connected without gaps so as to have a substantially hemispherical shape (dome shape). 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-like structure can ensure the excellent earthquake resistance and wind resistance which do not easily collapse even in disasters such as earthquakes and typhoons.

Conventionally, dome-shaped structures have been used for relatively large buildings for the purpose of use such as exhibition halls, but in recent years, the demand for small general houses with a compact structure has increased (for example, Patent Document 1).
By the way, the location which does not provide a triangular structure may be formed in the lower part of a dome-shaped structure. For example, a location that becomes an entrance / exit of a dome-shaped structure, a location that goes in and out between a plurality of triangular structures below the dome-shaped structure and an extended structure portion that extends outward. .

Japanese Patent Laid-Open No. 7-18744

  If there is a portion where the triangular structure as described above is not provided in the lower part of the dome-like structure, there is a problem that the strength and rigidity of the portion may be insufficient.

  The invention described in claim 1 has been made in view of the above-described problems of the prior art, and its object is to reinforce a portion where the triangular structure is not provided in the lower part of the dome-like structure. An object of the present invention is to provide a dome-like structure capable of increasing the strength and rigidity of the part.

(Claim 1)
The invention according to claim 1 is for connecting three frame members 50 respectively provided at positions corresponding to the respective sides of the triangle, and the ends of these frame members 50, and each triangle. A dome-like structure formed into a dome shape by three-dimensionally connecting a plurality of triangular structures 40 each having a connector 71 provided at a position corresponding to each vertex of the structure 40 It is an object 4, and is formed by a layered structure in which a plurality of layer structure portions S formed in an annular shape by connecting the triangular structures 40 are stacked, the layer structure being the layer structure portion S, The triangular structure 40 that contacts the upper layer only at the apex of the triangle (hereinafter referred to as “forward triangular structure 42”) and the triangular structure 40 that contacts the upper layer with the sides of the triangle (hereinafter referred to as “inverted triangular structure”). 41 ”) At least one forward triangle structure 42 and at least one inverted triangle structure 41 adjacent thereto are provided in the lowermost layer structure portion S, which is formed alternately on the circumference and is located at the lowermost layer of the hierarchical structure. A missing portion 120 is provided, and a column member 160 is provided vertically downward from at least one of the connectors 71 at the top of the forward triangular structure 42 of the missing portion 120.

Here, the “dome-shaped structure 4” means a dome-shaped structure called a so-called geodesic dome or a fuller dome.
Further, the “frame member 50” is a skeleton of the dome-shaped structure 4, and is provided at a position corresponding to each side of each triangular structure 40 constituting the dome-shaped structure 4. It is.

  The “connector 71” connects the ends of the frame member 50 and is provided at a position where the apexes of the respective triangular structures 40 constituting the dome-shaped structure 4 gather. is there.

  In the present invention, a column member 160 is provided vertically downward from at least one of the connectors 71 at the top of the forward triangular structure 42 of the missing portion 120 of the lowermost layer of the dome-shaped structure 4. For this reason, the load applied to the connector 71 on the upper side of the defective portion 120 from above the defective portion 120 can be supported via the support member 160. As a result, the strength of the defect portion 120 where the forward triangular structure 42 and the inverted triangular structure 41 are not provided can be increased, and the rigidity thereof can also be increased.

Since this invention is comprised as mentioned above, there exists an effect as described below.
According to invention of Claim 1, the location which does not provide the triangular structure in the lower part of a dome-shaped structure can be reinforced, and the dome-shaped structure which can increase the intensity | strength and rigidity of the said location can be provided. .

1 is an external perspective view showing a triangular structure of a dome-like structure according to an embodiment of the present invention. It is embodiment of this invention, Comprising: It is an external appearance side view which shows the triangular structure of a dome-shaped structure. It is an embodiment of the present invention, and is an external plan view showing a triangular structure of a dome-shaped structure. It is an embodiment of the present invention, and is an external view showing a frame member and a connector of a triangular structure viewed from the indoor side. BRIEF DESCRIPTION OF THE DRAWINGS It is embodiment of this invention, (A) is an external appearance perspective view of the state of the defect | deletion part before providing an expansion structure part in a dome-shaped structure part, (B) is before providing an expansion structure part in a dome-shaped structure part. The external appearance perspective view of the other modification of the state of the defect | deletion part, (C) is an external appearance perspective view of the dome-shaped structure which provided the expansion structure part. It is an embodiment of the present invention, and is a schematic diagram showing a column member of a defective part.

The dome-like structure 4 according to the present embodiment has a dome-like dome-like structure portion 6 and an extended structure portion 8 extending outward from the dome-like structure portion 6.
As shown in FIGS. 1, 2, and 3, the dome-shaped structure portion 6 according to the embodiment is provided with a dome wall 100 that covers the periphery in a dome shape (hemisphere).

  The dome wall 100 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 dome-like structure portion 6 is formed by a hierarchical structure in which five layers of layer structure portions S formed in an annular shape by connecting triangular structures 40 without gaps are stacked.
The layer structure portion S is a structure portion located at the uppermost portion, and 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 shape without gaps. have.

The layer structure portion S is connected to the first structure portion 11 below the first structure portion 11 without gaps, and a plurality of triangular structures 40 inscribed in the same sphere are annularly combined without gaps. The second structure portion 12 having a different shape is provided. The layer structure portion S is connected to the second structure portion 12 below the second structure portion 12 without gaps, and a plurality of triangular structures 40 inscribed in the same sphere are annularly combined without gaps. The third structure portion 13 having a different shape is provided. The layer structure portion S is connected to the lower side of the third structure portion 13 without any gap with the third structure portion 13, and a plurality of triangular structures 40 inscribed in the same sphere are annularly combined without gaps. The fourth structure portion 14 having a different shape is provided. The layer structure portion S is connected to the lower side of the fourth structure portion 14 with no gap between the fourth structure portion 14 and a fifth shape having a shape in which a plurality of triangular structures 40 are combined in a substantially annular shape. It has a structure part 15. 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.
In the fifth structure portion 15, when the expansion structure portion 8 for expanding the interior of the triangular structure body 40 is provided, a defect portion 120 that does not include a plurality of adjacent triangular structure bodies 40 is formed. A column member 160 is formed vertically downward from the connector 71 at the upper edge of the missing portion 120. The details of the missing part 120 and the column member 160 will be described later.

  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 S 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 body 42 and the inverted triangle structure body 41 were alternately arrange | positioned on the circumference 20 is formed (see FIG. 2). The first structure portion 11 is formed by five forward triangular structures 42.

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 where the vertices of the triangles of the triangular structure 40 gather. The connector 71 is provided with a plurality of plate-like joining pieces 77 to which end portions of the frame member 50 are joined in a radial manner.

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 has two joining pieces 77 and functions as a member for connecting the ends of the two frame members 50, and also as a member for joining the truss skeleton to the foundation 30. Function.

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 has six joining pieces 77 and connects the ends of the six frame members 50 gathered at the apex on the boundary line between the fourth structure portion 14 and the fifth structure portion 15. It is.
Further, a beam (not shown) is provided between the fourth structure portion 14 and the fifth structure portion 15 for providing a ceiling on the first floor and a floor on the second floor. That is, in the dome-shaped structure portion 6 according to the present embodiment, the first structure layer is provided by the fifth structure portion 15 and the second structure layer structure is provided by the fourth structure portion 14 to the first structure portion 11. A hierarchy is provided.

The floor on the second floor may not be provided on the entire surface but may be provided on only a part of the floor and the other floors may be provided with no floor. Further, the hierarchical structure is not limited to the first floor and the second floor, and may be only the first floor.
A connector 71 other than the base connector 72 and the beam connector 73, which has five joining pieces 77 and where the ends of the five frame members 50 gather (positions where the apexes of the five triangular structures 40 gather) The connector 71 provided in FIG. The five connectors 74 are for connecting the ends of the five frame members 50 gathered at the positions.

  A connector 71 other than the base connector 72 and the beam connector 73, which has six joining pieces 77 and where the ends of the six frame members 50 gather (positions where the apexes of the six triangular structures 40 gather) The connector 71 provided in FIG. The six connectors 75 are for connecting the ends of the six frame members 50 gathered at that position. Further, the five connectors 74 are arranged at the central part of the pentagon at the top, 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 A connector 75 is formed.
The six connector 75 has a hub 76, a reinforcing flat plate portion 78, and six joining pieces 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 joining pieces 77 are for joining the frame member 50, and are composed of six flat plates protruding outward from the outer peripheral surface of the hub 76.

The joining pieces 77 are provided in the same number (6) as the frame members 50 gathering at the apex of the triangle where the 6 connectors 75 are arranged. Six frame members 50 gather at the apex of the triangle where the six connectors 75 are arranged.
Each joining piece 77 has an end joined to both the outer peripheral surface of the hub 76 and the reinforcing flat plate 78. Thereby, sufficient strength to support the frame member 50 with the joining piece 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 joining piece 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 a single joining piece 77 of the connector 71, but is not limited to a single frame member 50. Absent. For example, two long frame members 50 may be fixed to one joining piece 77. In such a case, the end portions of the two frame members 50 are sandwiched between the end portions of the two long frame members 50 so that the end portions of the two frame members 50 are on both sides of the one joint piece 77. Secure to. Note that the fixing method is not limited to this.

As shown in FIG. 5 (A), before the expansion structure 8 is provided, the fifth structure 15 at the lowermost layer of the dome-shaped structure 6 includes two forward triangular structures 42 and the two structures. A missing portion 120 (see FIG. 5A and FIG. 6) in which a total of three triangular structures 40 including one inverted triangular structure 41 between the forward triangular structures 42 is not provided. . A column member 160 is provided vertically downward from the two connectors 71 at the upper edge of the defective portion 120. The connector 71 to which the upper end of the column member 160 is fixed is at the top position of the forward triangular structure 42 of the missing portion 120.
The size of the defective portion 120, that is, the region where the triangular structure 40 is not provided is not limited to the above. For example, a region where a total of two triangular structures 40, that is, one forward triangular structure 42 and an inverted triangular structure 41 adjacent to either one of the left and right sides of the forward triangular structure 42 is not provided, is the missing portion 120. It is good. In addition, a region where a total of four triangular structures 40 are not provided without an inverted triangular structure 41 adjacent to either the left or right of the region where the three triangular structures 40 according to the present embodiment are not provided. May be the defect portion 120. Further, in addition to this region, a region that is not provided with one or a plurality of continuously adjacent triangular structures 40 in the same hierarchy may be used as the defective portion 120.

Although not particularly shown, the lower end of the support member 160 is supported by a connector fixed to the upper surface of the foundation 30 with anchor bolts.
A total of two support members 160 are provided, one from each of the two connectors 71 on the upper edge of the defective portion 120. The number of support members 160 is not limited to that described above. Specifically, for example, as shown in FIG. 5B, only one support member 160 may be provided vertically downward from only the left connector 71 of the two connectors 71 on the upper edge of the missing portion 120. Further, although not particularly illustrated, only one support member 160 may be provided vertically downward from only the right connector 71 of the two connectors 71 on the upper edge of the defective portion 120 in FIG.

Even when the area of the defect portion 120 is wider, it is necessary that the column member 160 is provided vertically downward from at least one of the connectors 71 at the top position of the forward triangular structure 42 not provided in the defect portion 120. Good. Of course, two or more may be sufficient, and the support | pillar member 160 may be provided in the connector 71 of the upper edge of all the defect | deletion parts 120. FIG.
As shown in FIG. 5C, an extended structure portion 8 extending outward from the edge of the defective portion 120 is provided. It is formed so as to be able to enter and exit from the interior of the dome-shaped structure section 6 into the interior of the expansion structure section 8 via the defect portion 120.

  As shown in FIG. 6, a column member 160 is provided vertically below the two connectors 71 on the upper edge of the missing part 120. The support member 160 is made of a wood material similar to that of the frame member 50 of the triangular structure 40. Further, the joining mode between the upper end of the wood portion and the connector 71 is the same bolt and nut as the joining mode between the frame member 50 and the joining piece 77 in the triangular structure 40 described in FIG. Further, the lower end of the support member 160 is not particularly shown, but is fixed in a joining manner similar to the upper end by a connector fixed on the foundation 30 with an anchor bolt. Note that the joining mode of the support member 160 is not limited to that described above, and other joining modes may be used as long as they are fixed to the connector 71. Further, the material of the support member 160 is not limited to the above-described wood, and may be made of other materials such as metal as long as it can support the load.

  The extended structure portion 8 is provided with a triangular structure 40 having substantially the same configuration as that of the triangular structure body 40 of the dome-shaped structure portion 6 inside a wall erected from the concrete foundation 30. The number of triangular structures 40 in the wall is not particularly limited. Although not particularly illustrated, a structural face material provided continuously from the triangular structure 40 of the dome-shaped structure portion 6 is provided on the roof (ceiling) portion of the extended structure portion 8.

In this embodiment, a column member 160 is provided vertically downward from the two connectors 71 on the upper edge of the missing portion 120 of the fifth structure portion 15 of the dome-shaped structure portion 6. For this reason, it is possible to support the load applied from above the dome-shaped structure portion 6 to the two connectors 71 on the upper edge of the defect portion 120 via the support member 160. As a result, the strength of the defect portion 120 where the forward triangular structure 42 and the inverted triangular structure 41 are not provided can be increased, and the rigidity thereof can also be increased.
In the embodiment described above, the missing portion 120 is for providing the expansion structure portion 8, but the missing portion 120 is not particularly limited thereto. Specifically, for example, the missing portion 120 may be an opening such as an entrance / exit or a window in the fifth structure portion 15 where the triangular structure 40 is not provided. Further, the column member 160 as described above may be provided in the defect portion 120.

4 Dome structure 6 Dome structure
8 Extended structure S 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 70 Fixing means
71 connector 72 base connector
73 Beam connector 74 5 connector
75 6 connector 76 hub
77 Joint piece 78 Reinforcing plate
100 Dome wall 120 Defect
160 Prop member

Claims (1)

Three frame members provided at positions corresponding to each side of the triangle, and ends of these frame members are connected to each other at positions corresponding to the vertices of each triangular structure. Each of the triangular structures composed of connectors provided respectively is a dome-like structure formed in a dome shape by connecting a plurality of three-dimensionally,
A plurality of layered structure portions formed in an annular shape by continuously arranging the triangular structures are formed in a layered structure,
The hierarchical structure includes the triangular structure that is in contact with the upper layer only at the apex of the triangle (hereinafter, referred to as “forward triangular structure”) and the triangular structure that is in contact with the upper layer with the sides of the triangle as the layer structure portion. Bodies (hereinafter referred to as “inverted triangular structures”) are alternately formed on the circumference,
The lowermost layer structure portion located in the lowermost layer of the hierarchical structure is provided with a missing portion that does not include at least one forward triangle structure and at least one inverted triangle structure adjacent thereto,
A dome-like structure, wherein a column member is provided vertically downward from at least one of the connectors at the top of the forward triangular structure of the defect portion.

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