KR101408856B1 - Dual-frame dome structure and its construction method - Google Patents

Abstract

The purpose of the present invention is to provide a dual frame dome structure which has improved rigidity in comparison with a single frame dome, which facilitates assembly, and which enables workers to safely construct a high structure, and a construction method for the same. To achieve this, the dual frame dome structure according to the present invention comprises a hemispherical outer dome frame; a hemispherical inner dome frame; and a connector made of a steel pipe or a stick member. Also, to achieve this, the construction method for the dual frame dome structure comprises a step of arranging the ground (S1); a step of connecting an angular point of a triangular point of the outer dome frame to one end of the connector made of a steel pipe or a stick member using bolts and nuts and assembling the other end of the connector to make the other end of the connector face the bottom of the triangular frame of the outer dome frame (S2); a step of connecting the partially formed hemispherical inner dome frame using bolts and nuts to form a partial assembly (S3); and a step of forming a complete assembly by repeating the previous steps (S2, S3) for the circumference of the partial assembly while lifting the partial assembly with a crane (S4).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a double frame dome structure,

The present invention relates to a double frame dome structure and a method of constructing the double frame dome structure. More particularly, the present invention relates to a double frame dome structure, The present invention relates to a double frame dome structure assembled in a shape of a rectangular frame, and a construction method thereof.

The conventional dome roof structure requires a high technique by assembling a triangular roof plate to form a pentagonal roof plate and a hexagonal roof plate, and fixing a hexagonal roof plate to each side of the pentagonal roof plate to form a dome roof , And a skilled technician with expert knowledge was required.

Thus, a prefabricated domed roof structure of a building has been proposed.

The dome-shaped roof structure of the conventional building has a structure in which a pentagonal fixing plate, a hexagonal fixing plate, and a connection fixing plate are connected to a main frame and a connection frame to form a roof frame, The main frame connecting the main frame and the main frame has a hollow portion formed inside and has a vertical portion and an inclined horizontal portion formed in a "Y" shape, The connecting and fixing plate is formed with an electric wiring hole at its central portion, a main frame inserting portion is formed to insert the main frame with a short side, and a connecting frame inserting portion is formed at a long side facing the short side, And the connection frame is inserted and fixed so as to be assembled and assembled.

The dome-shaped roof structure of the conventional building having the above-described structure requires the use of a pentagonal fixing plate or a hexagonal fixing plate for joining the respective members. The joining member is complicated in structure and difficult to use. It takes a considerable time to assemble the structure, and there is a problem that separate equipment is required.

In order to solve the above-mentioned problem, a prefabricated dome house has been proposed in Japanese Patent Laid-Open No. 10-0932795.

In the conventional dome-type house, the dome-shaped house is formed by assembling the wall of the building and then connecting the dome-shaped roof to the upper part of the wall. In the dome-shaped roof, the five-pointed triangular- And the wall is formed by assembling a plurality of plate-shaped unit wall members corresponding to the shape of an end of the dome-shaped roof, wherein the wall member is formed by assembling three side surfaces of the triangular member and the wall member Shaped groove is formed on the upper surface and left and right side surfaces of the triangular member, the wall member, and the cross-sectional shape between the triangular member and the wall member, And the joining bar is inserted into the joining groove of the mutually adjoining members at the same time, thereby joining them together.

In the conventional prefabricated dome house constructed as described above, since the dome roof is manufactured using the triangular member, the point where the triangular members are assembled with each other is sharp, so that the appearance is not smooth, This is a difficult problem.

Further, since a dome-shaped roof is provided only when a plurality of separate unit-type wall members are installed on the wall, a separate process for the wall members is required. Therefore, the construction time is long and the cost for manufacturing the wall member is further increased There is a problem.

In order to solve the above-mentioned problems, a construction method of a dome structure and a dome structure using the dome structure have been proposed.

The conventional dome construction method is formed in the form of an H beam so that two protrusions are formed in the longitudinal direction, grooves are formed between the protrusions, a first hole is formed in the upper one side, An upper main gusset bolted through a first hole of a first strut formed with a second hole on one side, a third hole formed on a lower one side, and a fourth hole formed on the other side of the lower hole, A main gusset having a pair of lower main gussets bolted to each other by a third hole of the strut; A second step of assembling the first strut radially between the upper main and lower main gussets; A third step of assembling a first auxiliary gusset having a pair of an upper auxiliary gusset and a lower auxiliary gusset on opposite sides of a plurality of first struts radially assembled with the main gusset to be assembled with the main gusset; A plurality of second struts each having the same structure as that of the first strut are assembled to each other between the first auxiliary gusset and another first auxiliary gusset adjacent to the first auxiliary gusset, and each of the first auxiliary gussets having the first strut and the second strut assembled, A plurality of third struts having the same structure as the first and second struts are assembled such that the first and second struts are structured so that a second subsidiary gusset having the same structure as that of the first subsidiary gusset is assembled to each of the third struts, A fourth step of repeating the process of assembling the fourth strut having the same structure as the first, second and third struts in each of the other second auxiliary gussets to the shoe assembled at the end of the dome structure; A fifth step of assembling a skeleton of the dome structure by the steps 1 to 4 and a shoe base fixed to the shoe and the structure of the skeleton of the dome structure; A dome cover having a bent end portion is mounted on each of the two protrusions to cover the first space formed by the dome structure skeleton and a gasket for waterproofing is disposed on each of the bent dome covers Wherein the gasket and the baton are assembled and a fifth hole is formed in the upper portion of the baton so that the bolt is inserted into the groove formed in the fifth hole and the first strut to fix the dome cover to the dome cover A sixth step of covering; And a method of assembling the dome cover of the sixth step by lifting up the dome structure in which the dome cover is covered and by inserting the side cover in the second space formed on the side surface by fixing the upper part of the building and the shoe base of the dome structure And a seventh step of assembling.

In addition, the conventional dome structure includes a main gusset having a pair of an upper main gusset and a lower main gusset; And a second hole formed in the upper side of the upper main gusset, wherein the second main gusset is formed in an H-beam shape so that two protrusions are formed in the longitudinal direction, grooves are formed between the two protrusions, A second hole is formed on the other side of the upper part, a third hole is formed on the lower one side, a fourth hole is formed on the other side of the lower part, and the bolt- A plurality of first struts bolted to the lower main gusset through three holes; The first auxiliary gusset and the second auxiliary gusset are assembled into a pair, respectively, on opposite sides of the plurality of first struts to be assembled with the main gusset, the second hole and the upper auxiliary gusset are assembled, A first auxiliary gusset to which the gusset is assembled; A plurality of second struts each assembled between the first auxiliary gusset and another adjacent first auxiliary gusset, the second struts having the same structure as the first strut; A plurality of third struts assembled to the first auxiliary gusset and assembled downwardly opposite to the main gusset and having the same structure as the first and second struts; A second subsidiary gusset having the same structure as that of the first subsidiary gusset, the third subsidiary gusset being assembled on each of the opposite sides of the third strut assembled with the first subsidiary gusset; A fourth strut assembled between the second auxiliary gusset and another second auxiliary gusset adjacent thereto, the fourth strut having the same structure as the first, second and third struts; A plurality of shoe assembled to the n-th subsidiary gusset at the end of the dome structure in a radial manner by a configuration such as the first strut, the first auxiliary gusset, the third strut, the second auxiliary gusset, and the fourth strut; A plurality of shoe bases assembled with an upper part of the building where the dome structure is covered while being assembled with the plurality of shoes; A dome cover having an end bent to cover a first space formed by the skeleton of the dome structure; A side cover bent at an end to cover a second space formed by the building and the strut between the shoe base and each shoe assembled; A baton having a fifth hole arranged to be stacked on the dome lid or above the side lid and to be bolted together; And a gasket to seal between the dome cover and the baton or to the side cover and the baton; And a bolt coupled to a groove formed in the first strut through a fifth hole formed in the baton, wherein the plurality of dome covers, a plurality of batts, a plurality of gaskets, and a plurality of bolts Covering all of the first space and covering all of the plurality of the second spaces with a plurality of side covers, a plurality of batts, a plurality of gaskets, and a plurality of bolts.

The conventional dome construction method and the dome structure using the dome structure as described above are not only unnecessarily large in the amount of steel but also complicated in the assembling process, resulting in poor workability and low rigidity as a single dome structure.

Patent No. 10-0407713 Patent No. 10-0932795 Patent Document No. 10-1049004

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a method of connecting a vertex of a triangular frame of an external dome frame and one end of a coupling member, A double frame dome structure assembled into a hemispherical shape, and a double frame dome structure and a method of constructing the double frame dome structure, which can increase the rigidity, facilitate assembly, and secure a high height structure, compared to a single frame dome, There is a purpose.

According to an aspect of the present invention, there is provided a double frame dome structure comprising: an outer dome frame having a hemispherical shape by assembling a plurality of triangular frames formed by interconnecting three steel pipes or rod members; An inner dome frame disposed at a predetermined interval from the outer dome frame and having a hemispherical shape by vertically and horizontally assembling polygonal frames formed by interconnecting a plurality of steel pipes or rod members; And a connecting member composed of a steel pipe or a rod member for connecting the vertex of the triangular frame and the vertex of the polygonal frame by bolts and nuts so that the vertex of the triangular frame of the outer dome frame is located at the center point of the polygonal frame of the inner dome frame. do.

According to another aspect of the present invention, there is provided a method of constructing a double frame dome structure, comprising: (S1) arranging a ground; The three steel pipes or the rod members are interconnected in the field to mutually assemble the triangular frames longitudinally and laterally to partially form the hemispherical outer dome frame and the steel pipe or the rod- (S2) connecting one end of the connection member with a bolt and a nut, and assembling the other end of the connection member so as to face the lower portion of the triangular frame of the external dome frame; Connecting the plurality of steel pipes or the rod-shaped members to each other at the other end of the connection member so as to vertically and horizontally assemble the polygonal frames, and connecting the partially hemispherical inner dome frame with the bolts and nuts to construct the subassembly S3); And repeating steps (S2) and (S3) around the subassembly while filling the subassembly with a crane (S4) to construct a complete assembly.

As described above, the double frame dome structure according to the present invention and its construction method connect the vertex of the triangular frame of the outer dome frame and one end of the coupling material, and connect the other end of the coupling material to the vertex of the polygonal frame of the inner dome frame A double frame dome structure assembled in a hemispherical shape, and a single frame dome. The structure of the present invention is advantageous in that rigidity is increased, assembly is easy, and a high-height structure can be safely constructed.

1 is a schematic view showing a double frame dome structure according to the present invention,
FIG. 2 is a front view showing a double frame dome structure according to the present invention, FIG.
3 is a front view showing an inner dome frame of a double frame dome structure according to the present invention,
4 is a diagram illustrating a method of connecting a triangular frame of an outer dome frame and a polygonal frame of an inner dome frame of a double frame dome structure according to an embodiment of the present invention,
FIG. 5 is a detailed view showing a state in which a triangular frame of an outer dome frame and a polygonal frame of an inner dome frame are connected to each other in a double frame dome structure according to the present invention,
6 is an exemplary view showing a construction state of a double frame dome structure according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a schematic view showing a double frame dome structure according to the present invention, FIG. 2 is a front view showing a double frame dome structure according to the present invention, FIG. 3 is a perspective view showing a double frame dome structure according to the present invention, 4 is a view illustrating a method of connecting a triangular frame of an outer dome frame and a polygonal frame of an inner dome frame of a double frame dome structure according to an embodiment of the present invention with a connecting material. FIG. 3 is a detailed view showing a state in which a triangular frame of an outer dome frame and a polygonal frame of an inner dome frame are interconnected in a double frame dome structure.

As shown in these drawings, the double frame dome structure (S) according to the present invention comprises a plurality of triangular frames (110) formed by interconnecting three steel pipes or rod members to form a hemispherical outer dome frame (100); A polygonal frame 210 which is arranged inside the outer dome frame 100 at a predetermined interval and is formed by interconnecting a plurality of steel pipes or rod members is vertically and horizontally assembled to form a hemispherical inner dome frame 200); The vertex 112 of the triangular frame 110 is positioned such that the vertex 112 of the triangular frame 110 of the outer dome frame 100 is positioned at the center point P of the polygonal frame 210 of the inner dome frame 200, And a connecting member 300 composed of a steel pipe or a rod member for connecting the vertexes 216 of the polygonal frame 210 with bolts and nuts.

That is, the double frame dome structure S according to the present invention is a structure in which the external dome frame 100, the internal dome frame 200, and the connection member 300 are organically coupled.

Here, the outer dome frame 100 includes a triangular frame 110 assembled by connecting three steel pipes or rod-shaped members to each other, and a plurality of triangular frames 110 are vertically and horizontally And the overall sectional shape is a hemispherical shape.

Particularly, the outer dome frame 100 has a hemispherical shape of the plane truss technique of the triangular frame 110.

The inner dome frame 200 is formed by assembling a polygonal frame 210 including a pentagonal frame 212 and a hexagonal frame 214 by interconnecting a plurality of steel pipes or rod members.

That is, the internal dome frame 200 is configured such that the pentagonal frame 212 is arranged at regular intervals, and the hexagonal frame 214 is vertically and horizontally connected to the periphery of the pentagonal frame 212, to be.

The pentagonal frame 212 and the hexagonal frame 214 are used together as the polygonal frame 210 in order to form a complete sphere.

That is, the most optimal regular polyhedron for forming the sphere is a regular trilinear body. When twelve vertices of the regular trilinear body are trimmed, a regular pentagon is formed. When 20 sides of the regular trilinear body are cut, 20 regular hexagons are formed. A perfect square is formed when 12 regular pentagons and 20 regular hexagons are in harmony.

Although the outer dome frame 100 has a main structure and the inner dome frame 200 has a polygonal frame 210 as a main structure as described above, The frame 100 may be a polygonal frame 210 and the inner dome frame 200 may be a triangular frame 110. The outer dome frame 100 may be a triangular frame 110, 200 may also be formed of a triangular frame 110. The outer dome frame 100 may be a polygonal frame 210 and the inner dome frame 200 may be a polygonal frame 210 .

The connecting member 300 is composed of a steel pipe or a rod member so that the triangular frame 110 of the outer dome frame 100 and the polygonal frame 210 of the inner dome frame 200 are connected by bolts and nuts will be.

The connecting member 300 is connected to the vertexes 112 of the triangular frame 110 of the outer dome frame 100 and the vertexes 216 of the polygonal frame 210 of the inner dome frame 200 by bolts and nuts do.

Particularly, the connection member 300 is formed such that the vertex 112 of the triangular frame 110 of the outer dome frame 100 is positioned at the center point P of the polygonal frame 210 of the inner dome frame 200, And the vertexes 216 of the polygonal frame 210 are connected by bolts and nuts.

The double frame dome structure S according to the present invention having the above-described structure can be manufactured by mounting the triangular frame 110 of the outer dome frame 100 and the polygonal frame 210 of the inner dome frame 200 on the connecting material 300 And can be constructed of a flat truss-like hemisphere connected to the outer dome frame 100 and the inner dome frame 200 to distribute the load to the outer dome frame 100 and the inner dome frame 200 to construct a rigid double frame dome structure S It has an action effect.

Hereinafter, construction of the double frame dome structure according to the present invention constructed as described above will be described.

6 is an exemplary view showing a construction state of a double frame dome structure according to the present invention.

As shown in this drawing, a method of constructing a double frame dome structure according to the present invention comprises: (S1) arranging a ground; The triangular frame 110 is interconnected vertically and horizontally by interconnecting three steel pipes or rod members in the field to partially form the hemispherical outer dome frame 100 and the triangular frame 110 of the outer dome frame 100 And the other end of the coupling member 300 is connected to the lower portion of the triangular frame 110 of the outer dome frame 100 by a bolt and a nut, (S2); A plurality of steel tubes or rod-shaped members are connected to each other at the other end of the link member 300 to vertically and horizontally assemble the polygonal frames 210 to form a hemispherical inner dome frame 200. The bolts and nuts (S3) connecting the subassembly; (S4) of repeating steps (S2) and (S3) around the subassembly while filling the subassembly with a crane.

The outer dome frame 100 is formed of a polygonal frame 210 and the inner dome frame 200 is formed of a triangular frame 110.

The polygonal frame 210 includes a pentagonal frame 212 disposed at a predetermined interval and a hexagonal frame 212 which is assembled and connected to the pentagonal frame 212 longitudinally and laterally, (214).

The polygonal frame 210 includes a hexagonal frame 214 vertically and horizontally assembled and connected and a pentagonal frame 212 connected to the hexagonal frame 214.

The connecting member 300 is connected to the triangular frame 110 so that the vertex 112 of the triangular frame 110 of the outer dome frame 100 is positioned at the center point P of the polygonal frame 210 of the inner dome frame 200 And the vertexes 216 of the polygon frame 210 are connected by bolts and nuts.

In other words, in the method of constructing a double frame dome structure according to the present invention, the target ground on which the double frame dome structure S is to be installed is arranged first, and the three steel pipes or the rod- A plurality of hemispherical outer dome frames 100 are partially formed and the vertexes 112 of the triangular frame 110 of the outer dome frame 100 are connected to ends of a connecting member 300 made of a steel pipe or a rod- And the other end of the connecting member 300 is assembled so as to face the lower portion of the triangular frame 110 of the outer dome frame 100. The connecting member 300 is connected to the other end of the connecting member 300 by a plurality of steel pipes, After the polygonal frames 210 are vertically and horizontally interconnected by interconnecting the large members, the partially assembled hemispherical inner dome frame 200 is connected by bolts and nuts to construct the subassembly, The triangular frame 110 of the outer dome frame 100 is assembled and extended around the subassembly while being pinched by the crane assembly and the vertex 112 of the triangular frame 110 of the outer dome frame 100, And the other end of the coupling member 300 is assembled so as to face the lower portion of the triangular frame 110 of the outer dome frame 100. The other end of the coupling member 300 is connected to the other end of the coupling member 300, , The polygonal frame 210 of the internal dome frame 200 is connected by bolts and nuts repeatedly to construct a double-frame dome structure that is a complete assembly.

Particularly, in the method of constructing a double frame dome structure according to the present invention, the triangular frame 110 of the outer dome frame 100 and the polygonal frame 210 of the inner dome frame 200 are connected by the connecting material 300, The triangular frame 110 is connected to the outer dome frame 100 and connected to one end of the connecting member 300 and the other end is connected to the inner dome frame 200 A polygonal frame 210 is connected to the inner dome frame 200 and a polygonal frame 210 of the inner dome frame 200 is connected and expanded to construct a double frame dome structure.

The method of constructing a double frame dome structure according to the present invention having the steps as described above has the effect of ensuring work safety as well as perfect construction since the construction of the double frame dome structure S is performed on the ground.

100: outer dome frame 110: triangular frame
112: vertex 200: inner dome frame
210: polygon frame 212: pentagonal frame
214: hexagonal frame 216: vertex
300: connecting material P: center point
S: Double frame dome construction

Claims (7)

An outer dome frame 100 having a hemispherical shape by assembling a plurality of triangular frames 110 formed by interconnecting three steel pipes or rod members;
A polygonal frame 210 which is arranged inside the outer dome frame 100 at a predetermined interval and is formed by interconnecting a plurality of steel pipes or rod members is vertically and horizontally assembled to form a hemispherical inner dome frame 200);
The vertex 112 of the triangular frame 110 is positioned such that the vertex 112 of the triangular frame 110 of the outer dome frame 100 is positioned at the center point P of the polygonal frame 210 of the inner dome frame 200, And a connecting member (300) composed of a steel pipe or a rod member connecting the vertex (216) of the polygonal frame (210) with bolts and nuts. The method according to claim 1,
Wherein the outer dome frame (100) comprises a polygonal frame (210) and the inner dome frame (200) comprises a triangular frame (110). 3. The method according to claim 1 or 2,
Wherein the polygonal frame (210) comprises a pentagonal frame (212) disposed at regular intervals and a hexagonal frame (214) interconnected vertically and horizontally with the pentagonal frame (212). (S1) arranging the ground;
The triangular frame 110 is interconnected vertically and horizontally by interconnecting three steel pipes or rod members in the field to partially form the hemispherical outer dome frame 100 and the triangular frame 110 of the outer dome frame 100 And the other end of the coupling member 300 is connected to the lower portion of the triangular frame 110 of the outer dome frame 100. The connecting member 300 is connected to the vertex 112 of the outer dome frame 100 by bolts and nuts, (S2);
A plurality of steel pipes or rod-shaped members are connected to each other at the other end of the connecting member 300 to vertically and horizontally assemble the polygonal frames 210 to form a hemispherical inner dome frame 200, (S3) connecting the subassembly;
(S4) repeating steps (S2) and (S3) around the subassembly while cementing the subassembly with a crane. 5. The method of claim 4,
Wherein the outer dome frame (100) comprises a polygonal frame (210) and the inner dome frame (200) comprises a triangular frame (110). The method according to claim 4 or 5,
Wherein the polygonal frame (210) comprises a pentagonal frame (212) arranged at regular intervals and a hexagonal frame (214) assembled and connected to the pentagonal frame (212) longitudinally and laterally. 5. The method of claim 4,
The connecting member 300 is inserted into the triangular frame 110 so that the vertex 112 of the triangular frame 110 of the outer dome frame 100 is positioned at the center point P of the polygonal frame 210 of the inner dome frame 200, Wherein the vertex (112) of the polygonal frame (210) and the vertex (216) of the polygonal frame (210) are connected by bolts and nuts.

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