JP2007291732A - Domy structure - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a domy structure which simplifies a connecting structure for connecting an outer shell frame to a foundation. <P>SOLUTION: A position of an arm 12, which is provided on a base connector 6B, is offset from an axial position of a frame member 4; the frame member 4 is positioned along a side surface of the arm 12; and the frame member 4 is joined to the arm 12 in a one-to-one correspondence. A flat plate-like reinforcing flat plate part 13 is welded to an end of a hub 11; a protruding part 13 of the flat plate part 13, which protrudes from a peripheral surface of the hub 11, serves as a flange part 13A; and the end of the arm 12 is welded to both the peripheral surface of the hub 11 and a surface of the flange part 13A. Thus, even if a welded part is reinforced and the frame member 4 is joined to the arm 12 in a one-to-one correspondence, a decrease in the strength of joining the arm 12 and the base connector 6C together can be prevented. This makes the number of the arms 12 reduced without the decrease of the strength of the base connector 6C, so that the connecting structure can be simplified. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a dome-shaped structure including an outer shell frame formed in a dome shape by three-dimensionally connecting a plurality of triangles made of three frame members without gaps.

Conventionally, as a dome-like structure having a substantially hemispherical appearance, a building having a shaft frame formed in a substantially hemispherical shape by combining a plurality of triangular trusses having three frame members assembled into a triangle. Is being used.
For example, a pentagonal structural element in which five triangular trusses are arranged in a substantially pentagonal shape and a hexagonal structural element in which six triangular trusses are arranged in a hexagonal shape, and five trusses around the pentagonal structural element A two-story building having an outer shell frame formed in a soccer ball shape by arranging the hexagonal structural elements is known (for example, see Patent Document 1).
The hemispherical outer shell frame composed of such triangular trusses exhibits sufficient strength even when the frame member is made of wood, and its own weight can be significantly reduced, so it collapses due to disasters such as earthquakes and typhoons. It is possible to ensure excellent durability that is not required.

In the outer shell frame as described above, a connector having a plurality of arms extending radially toward the outer peripheral portion is used to connect the ends of a plurality of frame members gathered at the apex portion of the triangular truss. .
Specifically, the connector includes a hub arranged at the apex portion of the triangular truss of the outer shell frame, and a plurality of sets of arms extending radially from the center of the hub and joined to the ends of the frame members. And are provided.
Of these, two arms are provided for one frame member. These arm and frame members are respectively provided with bolt insertion holes that communicate with each other when the end of the frame member is housed between the pair of arms.

Each of the frame members gathered at the apex portion of the triangular truss is housed between a pair of corresponding arms of the connector, and in this state, a bolt is inserted into the bolt insertion hole described above, and the tip of the bolt The nut is screwed to the connector to be joined to the connector.
Here, since one frame member is received by two arms, even if the arm is formed of a flat plate material, sufficient bonding strength is ensured.
In addition, in the outer shell frame as described above, when connecting the outer shell frame to the foundation, an anchor plate fixed to the upper surface of the foundation is provided with a base connector which is a connector arranged at a boundary portion with the foundation of the outer shell frame. To be joined with bolts.

More specifically, the base connector is provided with a hub disposed at the apex portion of the triangular truss and a plurality of sets of arms extending radially from the center of the hub in the same manner as the connector described above. . A bolt insertion hole is provided at the center of the hub.
On the other hand, the anchor plate has a lower plate provided with an anchor insertion hole through which an anchor bolt protruding from the upper surface of the foundation is inserted, and a pair of connecting plates provided on the lower plate and provided with a bolt insertion hole. It has become.
The base connector arranged at the boundary with the base of the outer frame is housed between a pair of connecting plates, and the bolt insertion holes of the connecting plate and the bolt insertion holes of the hub are communicated with each other. A nut is screwed onto the tip of the bolt inserted through these bolts so that the bolt is connected to the foundation (for example, see Patent Document 2).

Here, the height of the connecting plate provided in the anchor plate is sufficiently secured, and the height of the bolt insertion provided in the connecting plate is set to a sufficiently high level position. The frame member closest to the upper surface of the foundation and the anchor bolt projecting from the upper surface of the foundation will not interfere with each other, and the base connector is attached to the anchor plate connected to the anchor bolt of the foundation. The joining work can be performed smoothly, and any troubles in performing the work are prevented.
Japanese Patent No. 2601725 (FIGS. 1 and 11 to 15) Japanese Patent Publication No. 7-91864 (Figs. 1-4)

In the dome-shaped structure as described above, the number of connectors (including the base connector and anchor plate) required to construct one structure is large, so the structure of the connector is simplified and the unit price of the connector is reduced. By doing so, construction costs can be reduced.
In particular, in order to connect the outer shell frame to the foundation, two members of the base connector and the anchor plate are required at one vertex portion of the triangular truss, so that a connection structure for connecting the outer shell frame to the foundation is formed. If one of the base connector and the anchor plate is omitted and the connection structure can be simplified, the construction cost can be greatly reduced.
In addition, the connecting plate with a high joint position with the base connector needs to secure sufficient strength by increasing its thickness, etc., in order to obtain strength against horizontal external force applied to the dome-shaped structure. As a result, the cost of the anchor plate increases, and if the anchor plate is omitted from the connection structure that connects the outer shell frame to the foundation and the connection structure can be simplified, the construction cost is greatly reduced. be able to.

As described above, in order to reduce the construction cost of the dome-shaped structure, there is a demand for simplification of the connection structure that connects the outer frame to the foundation.
Accordingly, each invention described in each claim has been made in view of the above-described problems of the prior art, and the purpose of the invention is to provide a connection structure that connects the outer shell frame as a basis. It is to provide a dome-like structure that is simplified.

Each invention described in each claim is made to achieve the above-mentioned object. The features of each invention will be described below with reference to the embodiments of the invention shown in the drawings.
In addition, a code | symbol shows the code | symbol used in embodiment of this invention, and does not limit the technical scope of this invention.
(Claim 1)
(Feature point)
The invention described in claim 1 is characterized by the following points.
That is, the invention described in claim 1 is an outer shell frame (2) formed in a dome shape by connecting a plurality of triangles (5) made of three frame members (4) in a three-dimensional manner without gaps. The outer shell frame (2) is a first dome-shaped structure (1) formed in a substantially pentagonal shape by connecting five triangles (5) at the uppermost part without gaps. A layer structure part (S1), a second layer structure part (S2) formed in an annular shape by connecting 15 triangles (5) without gaps below the first layer structure part (S1), A third layer structure (S3) formed in an annular shape by connecting 25 triangles (5) without gaps below the second layer structure (S2), and the third layer structure (S3) A fourth layer structure (S4) formed in an annular shape by connecting 30 triangles (5) below without gaps, and 30 triangles (5) below the fourth layer structure (S4) And a fifth layer structure portion (S5) connected to the foundation (3) of the dome-shaped structure (1). In order to form an opening larger than the triangle (5) formed by the three frame members (4), at least the frame member (4) crossing the opening is omitted from the basic structure, Each of the apex portions of the triangle (5) of the shell frame (2) is provided with a connector (6) for connecting ends of a plurality of frame members (4) gathered to the apex portion, The connector (6) disposed at the boundary portion with the base (3) in the layer structure (S5) is a base connector (6B) coupled to the base (3). The base connector (6B) includes , Flattening a part of the peripheral surface so that it can be stably placed on the upper surface (3A) of the foundation (3) A cylindrical hub (11) having a bottom portion (11A) formed by the above-described structure and the same number of frame members (4) gathered at the apex of the triangle (5) where the base connector (6B) is disposed. The frame members (4) correspond to the frame members (4) in a one-to-one manner, and each of them extends radially from the peripheral surface of the hub (11), and the end portions of one frame member (4) are joined to each. A plurality of arms (12) and a flat reinforcing plate portion (13) welded to one end of the hub (11) formed in a cylindrical shape and having both ends opened. The hub (11) has an anchor insertion hole (11B) through which an anchor bolt (7) protruding from the upper surface (3A) of the foundation (3) is inserted in the bottom (11A) and the other end. An operation of screwing a nut (8) into the anchor bolt (7) through the opening of the portion can be performed, and the plurality of arms (12) Is arranged at a position offset from the axial position of the frame member (4) in the base connector (6B) so that it can be joined to the frame member (4) along the side surface of the frame member (4). The reinforcing flat plate portion (13) has a peripheral portion excluding a portion corresponding to the bottom portion (11A) of the hub (11) extended outside the peripheral surface of the hub (11), and this portion is The flange (13A) protrudes from the peripheral surface of the hub (11), and the ends of the plurality of arms (12) include the peripheral surface of the hub (11) and the flange (13A). It is characterized by being welded to both surfaces.

(Effect of Claim 1)
The present invention configured as described above has the following effects.
That is, according to the first aspect of the invention, since the arm is provided so as to be disposed at a position offset from the axial position of the frame member in the base connector, the arm is provided along the side surface of the arm. The frame member can be attached to the base connector in a state where the axis of the frame member is aligned with the axial position of the frame member set in the base connector, and a plurality of frame members joined to the base connector can be attached. Each can be accurately arranged at a predetermined position in a preset posture, and the positional relationship between the plurality of frame members can be set to a predetermined three-dimensional positional relationship forming a dome shape.

Further, a flat reinforcing plate portion is welded to one end portion of the hub, and a peripheral portion of the reinforcing flat plate portion is extended outward from the peripheral surface of the hub to form a flange portion. Since the end of the arm is welded to both of the surface of each part, the strength of the joint portion of each arm with the hub is reinforced, and even if one frame member is made to correspond to one arm, Sufficient bonding strength to the base connector can be ensured.
Furthermore, a part of the peripheral surface of the hub formed in a cylindrical shape is flattened, and the flat part is placed on the foundation as a bottom part, and an anchor insertion hole for inserting an anchor bolt is provided in the bottom part, Since the anchor bolt is housed inside the hub, the anchor plate that has been conventionally required for joining to the foundation can be omitted.

Also, among the frame members that are joined to the peripheral surface of the hub via the arm, the frame member that is closest to the upper surface of the foundation is disposed outside the hub, so that the joining position with the base connector is further increased to the foundation side. Even if they are close to each other, they do not interfere with the anchor bolts protruding from the upper surface of the foundation, and the workability of joining the base connector to the anchor bolts of the foundation can be smoothly performed, and there is no trouble in performing the work. .
Moreover, by arranging the joining position of the frame member closest to the upper surface of the foundation and the base connector at a position closer to the foundation side, the thickness of the cylindrical hub and the thickness of the reinforcing plate can be increased. Since it becomes possible to secure the proof strength against the horizontal external force applied to the dome-shaped structure, the manufacturing cost of the base connector can also be reduced.

  As described above, in the connection structure for connecting the outer shell frame to the foundation, one of the pair of arms that has been provided for joining the frame members in the past is omitted, the structure of the base connector itself is simplified, and Since the anchor plate required in the conventional connection structure is omitted, the connection structure for connecting the outer shell frame to the foundation can be simplified, and the increase in the wall thickness of the base connector is suppressed. The manufacturing cost of the connector can be reduced, and also from this point, the construction cost of the dome-shaped structure can be reduced.

Hereinafter, an embodiment which is the best mode for carrying out the present invention will be described with reference to the drawings.
(Explanation of drawings)
FIGS. 1-19 shows this embodiment, FIG. 1 is a perspective view which shows the basic structure of the outer shell frame provided in the dome-shaped structure based on this embodiment, FIG. 2 shows this embodiment. FIG. 3 is a plan view showing the base connector according to this embodiment, FIG. 4 is a front view showing the beam connector according to this embodiment, and FIG. 5 is according to this embodiment. FIG. 6 is a front view showing a standard connector for six frame members according to this embodiment, and FIG. 7 is a bottom view showing a standard connector for six frame members according to this embodiment. 8 is a front view showing a standard connector for five frame members according to this embodiment, FIG. 9 is a bottom view showing a standard connector for five frame members according to this embodiment, and FIG. Front view showing outline of floor structure according to embodiment 11 is a plan view schematically showing the floor structure according to the present embodiment, FIG. 12 is a front view and a cross-sectional view showing the vicinity of the lower end of the central column member according to the present embodiment, and FIG. 13 is the present embodiment. FIG. 14 is a side view showing a support structure for supporting a joist member according to the present embodiment on a beam connector, and FIG. 15 is related to the present embodiment. FIG. 16 is a side view showing a support structure for supporting a joist member according to the present embodiment on a beam frame member, and FIG. 17 shows a beam frame according to the present embodiment. FIG. 18 is a front view showing a state in which the entrance opening of the outer shell frame according to the present embodiment is provided, and FIG. 19 is a view of the outer shell frame according to the present embodiment. Is a perspective view showing the relationship condition with an opening at.

(Basic structure of outer frame)
FIG. 1 shows a basic structure of an outer shell frame 2 provided in a dome-like structure 1 according to this embodiment. In FIG. 1, the outer shell frame 2 is formed in a dome shape by three-dimensionally connecting a triangular truss 5 made of three frame members 4 on the foundation 3 in a three-dimensional manner without any gaps. It is.
Here, the foundation 3 is a so-called solid foundation in which almost the entire upper surface is flat. Further, the frame member 4 is a wooden square member having a flat cross section so as to be regarded as an elongated plate member.
As shown in FIG. 1, the basic structure of the outer shell frame 2 includes five layer structures S1 to S5 that are sequentially formed from the top to the base 3 from the first to the fifth.

The first layer structure portion S1 arranged at the top is formed in a substantially pentagonal shape by connecting five triangular trusses 5 without gaps.
The second layer structure portion S2 is formed in an annular shape by connecting 15 triangular trusses 5 without any gap along the periphery of the first layer structure portion S1 below the first layer structure portion S1. is there.
The third layer structure portion S3 is formed in an annular shape by connecting 25 triangular trusses 5 without any gap along the periphery of the second layer structure portion S2 below the second layer structure portion S2. is there.
The fourth layer structure portion S4 is formed in an annular shape by connecting thirty triangular trusses 5 without any gap along the periphery of the third layer structure portion S3 below the third layer structure portion S3. is there.

The fifth layer structure S5 is formed in an annular shape by connecting thirty triangular trusses 5 without any gap along the periphery of the third layer structure S3 below the fourth layer structure S4. Yes, and connected to the foundation 3.
Here, the triangular truss 5A constituting the first layer structure portion S1, the second layer structure portion S2, the third layer structure portion S3, and the fourth layer structure portion S4 is arranged so that its vertex is inscribed in one spherical surface. Has been.
Further, the triangular truss 5B constituting the fifth layer structure portion S5 is arranged so that its apex is inscribed in the side surface of one cylinder.
Further, the boundary portion between the fourth layer structure portion S4 and the fifth layer structure portion S5 is located substantially at the height level of the floor on the second floor. And the frame member 4 arrange | positioned along the boundary part of this 4th layer structure part S4 and 5th layer structure part S5 is transmitted from the floor material of a 2nd floor while a longitudinal direction is arrange | positioned horizontally. In order to receive a load, the beam frame member 4A has an extended height in the cross section.

Further, among the frame members 4 of the triangular truss 5B constituting the fifth layer structure portion S5, the frame member 4 extending obliquely from the height level of the foundation 3 to the height level of the floor of the second floor is the first floor. In order to secure the floor height, a long frame member 4B extended longer than the other frame members 4 is provided.
Each of the apex portions of the triangular truss 5 constituting the outer shell frame 2 as described above is provided with a connector 6 for connecting ends of a plurality of frame members gathered at the apex portion.
That is, the connector 6 arranged at the boundary portion with the foundation 3 in the fifth layer structure portion S5 serves as a base connector 6B that is coupled to the foundation and connects the fifth layer structure portion S5 to the foundation 3.

Further, the connector 6 arranged at the boundary portion between the fourth layer structure portion S4 and the fifth layer structure portion S5 has a plurality of frame members 4 and beams for gathering at the apex portion of the triangle arranged at the boundary portion. It is a beam connector 6A that connects the ends of the frame member 4A.
Furthermore, the remaining portions, specifically, the boundary portion between the fourth layer structure portion S4 and the fifth layer structure portion S5 and the portion other than the boundary portion with the foundation 3 in the fifth layer structure portion S5 are arranged. The connectors 6 are standard connectors 6C and 6D. That is, in the remaining portion, a standard connector for 6C arranged at the apex portion where the six frame members 4 are gathered, and a standard for five arranged at the apex portion where the five frame members 4 are gathered. Connector 6D is provided.

As shown in FIG. 2, the base connector 6B has a base end portion planted on the base 3 and a tip end portion fixed to the base 3 by anchor bolts 7 protruding from the upper surface 3A of the base 3. The shell frame 2 is connected to the foundation 3.
That is, as shown in FIGS. 2 and 3, the base connector 6B includes a hub 11 which is a cylindrical member having a substantially rectangular cross section, and a plurality of arms 12 to which end portions of the frame member 4 are respectively joined. A reinforcing flat plate portion 13 formed in a rectangular flat plate shape welded to one end portion of the hub 11 is provided.
The hub 11 includes a peripheral surface on which four flat side surfaces are formed, and one side surface of the hub 11 comes into contact with the upper surface 3A when the base 3 is placed on the upper surface 3A. In other words, the hub 11 is provided with a bottom portion 11A formed by flattening a part of the peripheral surface so that the hub 11 can be stably placed on the upper surface 3A of the foundation 3.

In addition, an anchor insertion hole 11B is formed in the bottom portion 11A of the hub 11 so that the anchor bolt 7 protruding from the upper surface 3A of the foundation 3 is inserted. Thereby, the nut 8 for fixing the base connector 6B can be inserted into the hub 11 through the opening of the other end portion where the reinforcing plate portion 13 of the hub 11 is not welded, and the anchor insertion hole 11B. It is possible to screw into the tip of the anchor bolt 7 protruding from the inside of the hub 11.
The arm 12 is provided on the base connector 6B in the same number as the frame members 4 gathered at the apex portion of the triangular truss 5 on which the base connector 6B is disposed. These arms 12 extend radially from the peripheral surface of the hub 11 and each correspond to the frame member 4 in a one-to-one relationship. Each of the arms 12 has a bolt insertion hole 12A formed at each end thereof. The parts are joined with bolts.

Here, these arms 12 are arranged at positions offset from the axial position of the frame member 4 in the base connector 6B so that the arms 12 can be joined to the frame member 4 along the side surfaces of the frame member 4. .
Of the arms 12, the arm 12 corresponding to the long frame member 4B is attached to the hub 11 so as to be inclined when coupled to the foundation 3 in response to the long frame member 4B being installed in an oblique posture. It is attached.
The remaining arm 12 corresponds to the frame member 4 installed horizontally, and is attached to the hub 11 so as to be horizontal when coupled to the foundation 3 so that the frame member 4 can be placed thereon. .

The reinforcing flat plate portion 13 has a peripheral portion excluding a portion corresponding to the bottom portion 11A of the hub 11 extended outside the peripheral surface of the hub 11, and this portion is a flange portion 13A protruding from the peripheral surface of the hub 11. .
Each of the plurality of arms 12 provided in the base connector 6B is welded to both the peripheral surface of the hub 11 and the surface of the flange portion 13A.
As shown in FIGS. 4 and 5, the beam connector 6A includes a frame member 4 extending obliquely downward on the fourth layer structure portion S4 side, a frame member 4 extending obliquely upward on the fifth layer structure portion S5 side, and a horizontal member. The ends of the beam frame member 4A extending in the direction are connected to each other.
That is, the beam connector 6A includes a hub 21 that is a cylindrical member having a circular cross section, a plurality of arms 22 to which end portions of the frame member 4 are respectively joined, and one end portion of the hub 21. And a reinforcing flat plate portion 23 formed in a circular flat plate shape that is welded to each other.

Of these, as many arms 22 are provided on the beam connector 6A as the frame members 4 gathered at the apex of the triangular truss 5 on which the beam connector 6A is arranged. Each of the arms 22 corresponds to the frame member 4 on a one-to-one basis, and a bolt insertion hole 22B is formed in each of them, and the end of the corresponding frame member 4 is joined with a bolt. Yes.
More specifically, the arm 22 corresponding to the frame member 4 extending obliquely extends radially from the peripheral surface of the hub 21. These radially extending arms 22 are provided in the same number as the plurality of frame members 4 arranged so that the axes intersect with each other, and are arranged along the side surfaces of the corresponding frame members 4. The beam connector 6A is disposed at a position offset from the axial position of the frame member 4 so that it can be joined to the beam connector 6A.

Of the arms 22, the beam arms 22A corresponding to the horizontally extending beam frame members are provided in the same number as the beam frame members 4A gathered at the apex of the triangular truss 5 on which the beam connector 6A is disposed. Thus, the beam frame member 4A has a one-to-one correspondence. The end portions of the corresponding beam frame members 4A are joined to these beam arms 22A.
Such a beam arm 22A has an attachment angle to the hub 21 so that the side surface 22C is vertical when the outer shell frame 2 is completed. Further, the beam frame member 4A is arranged at a position where its axis coincides with the axis of the frame member 4 coupled to the base connector 6B in plan view.

Here, in the center of the end surface of the beam frame member 4A, a fitting groove 4C (shown only in FIG. 5) that extends vertically from the upper surface side of the beam frame member 4A and reaches the lower surface side is formed. . The beam frame member 4A is joined to the beam arm 22A in a state where the beam arm 22A is fitted in the fitting groove 4C.
As a result, the beam frame member 4A receiving the floor load on the second floor can be aligned with the beam arm 22A of the beam connector 6A and the axes in plan view, so that the height dimension is ensured larger than the width dimension. Even if it has a vertically long section, the floor section of the second floor will not be inclined by the floor load of the second floor, and the floor load of the second floor can be reliably transmitted to the outer shell frame 2 via the beam connector 6A. It becomes possible.

The peripheral portion of the reinforcing flat plate portion 23 is expanded outward from the peripheral surface of the hub 21, and the peripheral portion is a flange portion 23 A that protrudes from the peripheral surface of the hub 21. The end of the arm 22 is welded to both the peripheral surface of the hub 21 and the surface of the flange 23A. The end of the beam arm 22A is welded to both the peripheral surface of the hub 21 and the surface of the arm 22.
Here, an opening 23B having an inner diameter substantially the same as the inner diameter of the hub 21 is provided in the central portion of the reinforcing flat plate portion 23. Thus, an insertion hole 21A that penetrates from one end of the hub 21 to the other end is formed in the beam connector 6A. A fitting post 61 provided on a joist hanger 60 described later is fitted into the insertion hole 21A.

As shown in FIGS. 6 and 7, the six standard connectors 6C include the boundary portion between the fourth layer structure portion S4 and the fifth layer structure portion S5 and the fifth layer structure portion S5 in the outer shell frame 2. Among the apex portions of the triangular truss 5 arranged in a portion excluding the boundary portion with the foundation 3 in FIG. 6, the six frame members 4 are arranged at the apex portion gathered together.
The six standard connectors 6C include a hub 31 that is a cylindrical member having a circular cross section, a plurality of arms 32 to which end portions of the frame member 4 are respectively joined, and one of the hubs 31. A reinforcing flat plate portion 33 formed in a circular flat plate shape welded to the end portion is provided.
Of these, the arms 32 are provided in the same number as the six frame members 4 gathered at the apex portion of the triangular truss 5 on which the six standard connectors 6C are arranged, that is, only six are provided on the six standard connectors 6C. It is what. Each of the arms 32 corresponds to the frame member 4 on a one-to-one basis, and a bolt insertion hole 32B is formed in each arm 32, and the end of the corresponding frame member 4 is joined with a bolt. Yes.

More specifically, the arms 32 extend radially from the peripheral surface of the hub 31 and are provided in the same number as the plurality of frame members 4 arranged so that the axes intersect with each other. Each of the six standard connectors 6C is disposed at a position offset from the axial position of the frame member 4 so that it can be joined to the frame member 4 in a state along each of the side surfaces.
The peripheral portion of the reinforcing flat plate portion 33 is expanded outward from the peripheral surface of the hub 31, and the peripheral portion is a flange portion 33 A that protrudes from the peripheral surface of the hub 31. The end portion of the arm 32 is welded to both the peripheral surface of the hub 31 and the surface of the flange portion 33A.

As shown in FIGS. 8 and 9, the five standard connectors 6D include the boundary portion between the fourth layer structure portion S4 and the fifth layer structure portion S5 and the fifth layer structure portion S5 in the outer shell frame 2. Among the apex portions of the triangular truss 5 arranged in a portion excluding the boundary portion with the foundation 3 in FIG. 5, the five frame members 4 are arranged at the apex portion where they are gathered together.
The five standard connectors 6D include a hub 41 which is a cylindrical member having a circular cross section, a plurality of arms 42 to which end portions of the frame member 4 are respectively joined, and one of the hubs 41. A reinforcing flat plate portion 43 formed in a circular flat plate shape welded to the end portion is provided.
Of these, the arms 42 are provided in the same number as the five frame members 4 gathered at the apex of the triangular truss 5 on which the five standard connectors 6D are arranged, that is, only five are provided on the five standard connectors 6D. It is what. These arms 42 correspond to the frame members 4 on a one-to-one basis, respectively, are formed with bolt insertion holes 42B, and the ends of the corresponding frame members 4 are joined with bolts. Yes.

More specifically, the arms 42 extend radially from the peripheral surface of the hub 41, and are provided in the same number as the plurality of frame members 4 arranged so that the axes intersect with each other. Each of the five standard connectors 6D is disposed at a position offset from the axial position of the frame member 4 so that it can be joined to the frame member 4 in a state along the side surfaces.
The peripheral portion of the reinforcing flat plate portion 43 is extended outward from the peripheral surface of the hub 41, and the peripheral portion is a flange portion 43A that protrudes from the peripheral surface of the hub 41. The end portion of the arm 42 is welded to both the peripheral surface of the hub 41 and the surface of the flange portion 43A.

When the second floor is provided in the dome-shaped structure 1 having the outer shell frame 2, the following floor structure 9 is formed in the outer shell frame 2.
That is, as shown in FIGS. 10 and 11, a center column 51 is erected at the center of the base 3 of the dome-shaped structure 1 in plan view so as to receive a floor load on the second floor.
At the height level of the floor on the second floor provided in the outer shell frame 2, the beam frame member 4A arranged in a state where the longitudinal direction is horizontal and the beam connecting the beam frame members 4A to each other are provided. Connector 6A is provided.
Between the upper end of the central column 51 and the beam connector 6A, and between the upper end of the central column 51 and the center of the beam frame member 4A, the center of the dome-like structure 1 in the plan view is the periphery. A plurality of joist members 52 extending in a radial manner are stretched over each other.

On these joist members 52, a plurality of crosspieces 53 intersecting with the joist members 52 are arranged in parallel to each other. A floor board material (not shown) that constitutes the floor surface of the second floor is placed on these crosspieces 53, thereby forming the floor of the second floor.
Here, the center column 51 is a long member having a length corresponding to the height of the first floor. As shown in FIGS. 12 and 13, the central column 51 is provided with a cylindrical main body 51A having a circular cross section, and a base portion of the main body 51A. A base fixing portion 51B to be fixed and a joist support portion 51C that is provided at the upper end portion of the main body 51A and supports the end portions of the plurality of joist members 52 that gather at the center of the dome-shaped structure 1 are provided.

Of these, the base fixing portion 51B is a bowl-shaped portion having a substantially square shape as shown in FIG. 12B and extending outward from the peripheral surface of the main body 51A. An anchor insertion hole 51D for inserting an anchor bolt (not shown) protruding from the foundation 3 is formed in the foundation fixing portion 51B.
Further, the joist support portion 51C is a disc-shaped portion that is opened like a shade in the vicinity of the upper end of the central column 51, as shown in FIGS. The joist support 51C includes a plurality of protrusions 51E formed so as to coincide with the respective axes of the joists 52 arranged radially so as to gather at the center of the dome-shaped structure 1, and the joists A connecting tool insertion hole 51F is provided through which a connecting tool such as a screw for connecting each joist member 52 is inserted into the support 51C.

Of these, the protruding portion 51E serves as a reinforcing portion that reinforces the joist support portion 51C so that the flat joist support portion 51C is not greatly bent by the floor load transmitted from the joist member 52.
The end face of the joist member 52 is provided with a fitting groove 52A that extends vertically in the center of the joist member 52 and fits the protrusion 51E of the joist support 51C inside. The joist member 52 is placed on the joist support portion 51C in a state in which the protrusion 51E of the joist support portion 51C is fitted into the fitting groove 52A, and the fitting insertion hole 51F of the joist support portion 51C is provided. It is configured to be joined to the joist support part 51C with a connector inserted through the.
As shown in FIG. 14, the end of the joist member 52 on the beam connector 6A side is coupled to the beam connector 6A via a joist hanger 60 for the beam connector 6A.

As shown in FIGS. 14 and 15, the joist hanger 60 is housed in an L-shape formed by the support plate 64 in which the side plate portion 62 and the bottom plate portion 63 are connected in an L shape, and the side plate portion 62 and the bottom plate portion 63. In this state, a ridge portion 65 welded to both the side plate portion 62 and the bottom plate portion 63 and a mounting post 61 protruding from the back surface of the side plate portion 62 are provided.
The support 64 has an end portion of the joist member 52 placed on the bottom plate portion 63, and transmits the floor load received by the joist member 52 to the beam connector 6A. The bottom plate portion 63 of the support 64 is provided with a connector insertion hole 66 through which a connector such as a screw for connecting the joist member 52 is inserted, as shown in FIG.

As shown in FIGS. 14 and 15, the protrusion 65 serves as a reinforcing portion that reinforces the flat bottom plate 63 so that it is not greatly bent by the floor load transmitted from the joist member 52. Similarly to the opposite end face, the end face on the near side of the joist member 52 is provided with a fitting groove 52A that extends vertically in the center and fits the protrusion 65 of the joist hanger 60 inside. Yes.
The joist member 52 is placed on the bottom plate portion 63 of the joist hanger 60 in a state in which the protrusion 65 of the joist hanger 60 is fitted in the fitting groove 52A. It is designed to be joined to the joist hanger 60 with a joint inserted through 66.
The mounting post 61 is a cylindrical portion, and is inserted into the insertion hole 21A of the hub 21 provided in the beam connector 6A and joined to the hub 21 by a pin or the like that penetrates both side walls of the mounting post 61 and the hub 21. It has come to be.

The end portion of the joist member 52 supported at the center of the beam frame member 4A is coupled to the beam connector 6A via a joist hanger 70 for the beam frame member 4A as shown in FIG. ing.
As shown in FIGS. 16 and 17, the joist hanger 70 is housed in an L-shape formed by the side plate portion 72 and the bottom plate portion 73, and a support body 74 in which the side plate portion 72 and the bottom plate portion 73 are connected in an L shape. In this state, a ridge portion 75 welded to both the side plate portion 72 and the bottom plate portion 73 and a locking portion 71 to be hooked on the beam frame member 4A are provided.
The support 74 is configured such that the end of the joist member 52 is placed on the bottom plate 73, and the floor load received by the joist member 52 is transmitted to the beam frame member 4A. As in the case of the bottom plate portion 63 of the joist hanger 60, a joint tool insertion hole 76 for inserting a joint tool such as a screw for joining the joist member 52 is inserted into the bottom plate portion 73 of the support body 74 as shown in FIG. Is provided.

As shown in FIGS. 17 and 18, the protruding portion 75 is a reinforcing portion that reinforces the flat bottom plate portion 73 so as not to be greatly bent by the floor load transmitted from the joist member 52. Similarly to the end face facing the joist hanger 60, the end face of the joist member 52 facing the joist hanger 70 extends vertically up and down at the center and fits the protrusion 75 of the joist hanger 70 inside. A groove 52A is provided.
The joist member 52 is placed on the bottom plate portion 73 of the joist hanger 70 in a state in which the protrusion 75 of the joist hanger 70 is fitted in the fitting groove 52A. A jog tool inserted through 76 is joined to the joist hanger 70.

The locking portion 71 is a hook-shaped portion that can be hooked to the beam frame member 4A, and a joining member such as a screw for joining the joist member 52 is inserted through the upper surface thereof as shown in FIG. A tool insertion hole 77 is provided.
The structure as described above is the basic structure of the outer shell frame 2. When the outer shell frame 2 having such a basic structure forms an opening larger than the triangular truss 5 formed by the three frame members 4, at least the frame member 4 crossing the opening is omitted from the basic structure. It is supposed to be.
For example, a dome-like structure is generally provided with an entrance / exit 80 as shown in FIG. Here, the entrance / exit 80 is an opening larger than the triangular truss 5.

When such an entrance / exit 80 is provided, the outer shell frame 2 becomes two long frame members 4B crossing the entrance / exit 80 and the bottom of the entrance / exit 80 as shown in FIG. The two adjacent frame members 4 and one base connector 6B for mutually connecting the end portions of these frame members 4 are omitted from the basic structure.
According to this embodiment as described above, the following effects can be obtained.
That is, since the position of the arm 12 is set so that the arm 12 is disposed at a position offset from the axial position of the frame member 4 in the base connector 6B, the frame member 4 is moved along the side surface of the arm 12 and the arm 12 If the frame member 4 is joined to the base connector 6B, the frame member 4 can be attached to the base connector 6B in a state where the axis of the frame member 4 is aligned with the axial position of the frame member 4 set to the base connector 6B. Further, each of the plurality of frame members 4 can be accurately arranged at a predetermined position in a preset posture, and the positional relationship between the plurality of frame members 4 can be set to a predetermined three-dimensional positional relationship forming a dome shape. .

Further, a flat reinforcing plate portion 13 is welded to one end portion of the hub 11, and a peripheral portion of the reinforcing flat plate portion 13 is extended outward from the peripheral surface of the hub 11 to form a flange portion 13A. Since the end of the arm 12 is welded to both the peripheral surface of the arm 11 and the surface of the flange portion 13A, the strength of the joint portion of each arm 12 with the hub 11 is reinforced, and one arm 12 has one frame. Even if the member 4 is made to correspond, the joining strength of the arm 12 to the base connector 6C can be sufficiently secured.
Further, a part of the peripheral surface of the hub 11 formed in a cylindrical shape is flattened, and this flat part is placed on the foundation 3 as a bottom part 11A, and an anchor bolt 7 is inserted through the bottom part 11A. Since the insertion hole 11B is provided and the anchor bolt 7 is accommodated inside the hub 11, the anchor plate that has been conventionally required for joining to the foundation 3 can be omitted.

Of the frame members 4 joined to the peripheral surface of the hub 11 via the arms 12, the frame member 4 closest to the upper surface 3A of the foundation 3 is disposed outside the hub 11, so that the base connector 6B Even if the joint position is closer to the foundation 3 side, it does not interfere with the anchor bolt 7 protruding from the upper surface 3A of the foundation 3, and the workability of joining the base connector 6B to the anchor bolt 7 of the foundation 3 is smooth. And there is no trouble in performing the work.
In addition, the thickness of the cylindrical hub 11 and the thickness of the reinforcing flat plate can be increased by arranging the joining position of the frame member 4 closest to the upper surface 3A of the foundation 3 and the base connector 6B closer to the foundation 3 side. Even if the thickness is not increased, the proof strength against the horizontal external force applied to the dome-shaped structure 1 can be secured, so that the manufacturing cost of the base connector 6B can also be reduced.

As described above, in the connecting structure for connecting the outer shell frame 2 to the foundation 3, one of the pair of arms that have been provided for joining the frame member 4 in the past is omitted, and the structure of the base connector 6B itself is simplified. Since the anchor plate required in the conventional connecting structure is omitted, the connecting structure for connecting the outer shell frame 2 to the foundation 3 can be simplified, and the thickness of the base connector 6B is increased. Therefore, the manufacturing cost of the base connector 6B can be reduced, and also from this point, the construction cost of the dome-shaped structure 1 can be reduced.
In addition, since the number of anchor bolts for fixing the base connector 6B to the foundation 3 is one, the screwing work of the nut 8 in the mounting work for attaching the base connector 6B to the foundation 3 is reduced, and the number of the base connectors 6B is large. Therefore, the workability of the mounting work of the base connector 6B can be remarkably improved.

It is a perspective view which shows the basic structure of the outer shell frame provided in the dome-shaped structure which concerns on one Embodiment of this invention. It is a front view which shows the base connector which concerns on the said embodiment. It is a top view which shows the base connector based on the said embodiment. It is a front view which shows the beam connector which concerns on the said embodiment. It is a top view which shows the beam connector concerning the said embodiment. It is a front view which shows the standard connector for six frame members which concern on the said embodiment. It is a bottom view showing a standard connector for six frame members according to the embodiment. It is a front view which shows the standard connector for five frame members which concern on the said embodiment. It is a bottom view showing a standard connector for five frame members according to the embodiment. It is a front view which shows the outline of the floor structure which concerns on the said embodiment. It is a top view which shows the outline of the floor structure which concerns on the said embodiment. It is the front view and sectional drawing which show the lower end vicinity part of the center pillar member which concerns on the said embodiment. It is the top view and sectional drawing which show the upper end vicinity part of the center pillar member which concerns on the said embodiment. It is a side view which shows the support structure which supports the joist member which concerns on the said embodiment to a beam connector. It is a three-view figure which shows the joist hanger attached to the beam connector which concerns on the said embodiment. It is a side view which shows the support structure which supports the joist member which concerns on the said embodiment to the frame member for beams. It is a three-plane figure which shows the joist hanger attached to the frame member for beams which concerns on the said embodiment. It is a front view which shows the state in which the entrance opening of the outer shell frame which concerns on the said embodiment was provided. It is a perspective view which shows the state in which the entrance opening of the outer shell frame which concerns on the said embodiment was provided.

Explanation of symbols

1 Dome-shaped structure 2 Outer shell frame 3 Foundation
3A Upper surface 4 Frame member 5 Triangular truss that is a triangle composed of three frame members 6 Connector
6B Base connector 7 Anchor bolt 8 Nut
11 Hub
11A bottom
11B Anchor insertion hole
12 arms
13 Reinforcing plate
13A buttock
S1 1st layer structure
S2 Second layer structure
S3 Third layer structure
S4 4th layer structure
S5 5th layer structure

Claims (1)

A dome-like structure having an outer shell frame formed in a dome shape by connecting a plurality of triangles made of three frame members in a three-dimensional manner without gaps,
The outer shell frame has a first layer structure portion formed in a substantially pentagonal shape by connecting five triangles at the top without gaps;
A second layer structure formed annularly by connecting 15 triangles below the first layer structure without gaps;
A third layer structure formed in an annular shape by connecting 25 triangles below the second layer structure without gaps;
A fourth layer structure formed annularly by connecting 30 triangles below the third layer structure without gaps;
Below this fourth layer structure part, it was formed in a ring shape by connecting 30 triangles without any gaps, and comprised including a fifth layer structure part connected to the foundation of the dome-like structure. In order to form a larger opening than the triangle formed by the three frame members with a basic structure, at least the frame member that crosses the opening is omitted from the basic structure;
Each of the triangular vertexes of the outer shell frame is provided with a connector for connecting the ends of a plurality of frame members gathered to the vertex,
The connector disposed at the boundary portion with the foundation in the fifth layer structure portion is a base connector coupled to the foundation,
In this base connector, a cylindrical hub having a bottom formed by flattening a part of the peripheral surface so that it can be stably placed on the upper surface of the foundation,
The same number of frame members gathered at the apex of the triangle on which the base connector is arranged correspond to the frame members in a one-to-one correspondence, and each extends radially from the peripheral surface of the hub. A plurality of arms each having an end of one frame member joined thereto;
A plate-shaped reinforcing flat plate portion welded to one end portion of the hub formed in a cylindrical shape and having both ends opened;
The hub has an anchor insertion hole through which the anchor bolt protruding from the upper surface of the foundation is inserted, and the nut can be screwed into the anchor bolt through the opening at the other end. ,
The plurality of arms are arranged at a position offset from the axial position of the frame member in the base connector so that the arms can be joined to the frame member in a state along the side surface of the frame member.
In the reinforcing flat plate portion, a peripheral portion excluding a portion corresponding to the bottom portion of the hub is extended outward from the peripheral surface of the hub, and this portion is a flange portion protruding from the peripheral surface of the hub. It is assumed
Ends of the plurality of arms are welded to both the peripheral surface of the hub and the surface of the flange portion.

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