KR20140090039A - 4-way tenon joint frame of free-form grid shell structures - Google Patents

Abstract

The present invention provides a four-way tenon joint frame of free-form grid shell structures to build a free-form grid shell structures which is simple and easy to be manufactured, and is stable due to the reinforcement of a joint. According to the preferred embodiment of the present invention, the invention includes: a four-way tenon center member having a center core having a predetermined length in a rectangular cross section, delta wings jointed on the outside surface edges of the center core respectively, to make four division angles with the same size around the center core, obstacle panels located between delta wings adjacent to each other to be arranged on the center of the outside surfaces of the center core, an upper bridge joint having a bridge insertion hole on the center thereof and jointed to the end portion of the one side of the center core, and bridge fastening nuts jointed to the inner surface of the bridge connecting panel; and a pipe-shaped connecting member having grooves for obstacle whereby the obstacle panels are inserted on both ends thereof.

Description

A four-way tenon joint frame of free-form grid shell structures of unstructured grid-

[0001] The present invention relates to a four-way tenant joint frame of an atypical grid shell structure, and more particularly to a four-way tenant joint frame of an atypical grid shell structure, which is easy to manufacture and which can reinforce a joint to construct a stable atypical grid- .

The appeal of irregular shape in architecture has been gradually expanding in recent years. To meet this appeal, atypical grid shell structures are constructed including 4-way tensile joints and 6-way tensile joints. These tennon joints should be considered for ease of fabrication, bond strength at joints, and so on. Especially, when the joint strength at the joint part is problematic, the construction error of the grid shell is generated, and the construction quality is lowered due to destabilization.

As a background technique of the present invention, there is a hexagonal curved curtain wall structure using a triangular cell structure of Korean Patent Registration No. 10-1047934, in which a connecting pipe is fixed to a center bracket, six triangles The hexagonal unit cell structure is formed by fixing the outer wall plate, and the insertion end cut by the laser is connected to the connecting pipe formed at both ends and the center bracket to form a fitting structure, And the curved surface is formed while the outer wall plate is fixed.

The background of the electron can be easily fabricated into a geometric curved surface and a curtain wall can be formed by minimizing the welding work, while the end portion of the connecting pipe has a weak structure. That is, since the groove on the insertion end side of the connecting pipe is partially joined to the V-shaped protrusion of the center bracket, the groove is deformed or damaged due to the concentrated stress. This is because the insertion end side groove portion of the connecting pipe is not completely fitted in the slanting portion of the V-shaped protruding portion, but the slant is forced to be slightly inserted.

Another technology to be a background of the present invention is Korean Registration No. 10-1047934, in which a connecting pipe is fixed to a center bracket, six triangular outer wall plates are fixed around a center bracket to form a hexagonal unit cell structure, And a curved surface is formed while the outer wall plate is fixed to the connection pipe by a plate-shaped fixing bracket. [7] According to an embodiment of the present invention, A hexagonal curved curtain wall structure using a triangular cell structure capable of precisely assembling and fixing the connecting pipe and the center bracket in a designed state by assembling the connecting pipe and the center bracket in a more rigid cell structure than a general structure is provided .

However, in the latter background technology, there is a problem in that it is difficult to reduce the number of manufacturing members by using six wing members.

Another background art of the present invention is Korean Registration No. 10-0996902, which discloses a hollow structure in which a mullion is fastened along a mullion or a transom so as to cover a mating part of an assembly of mullions and a transom, A finishing body; And a fastening mechanism for coupling the finishing body to the assembly, wherein the fastening mechanism comprises: a first fastening extension piece having a female or male end toward both ends of the opening of the finishing body, And a male or female second fastening portion formed on the mullion or tram island so that the extension piece is coupled to the mullion frame.

However, the latter background technology hinders the mullion structure of the mullion and the transom, which are exposed inside the building, to provide a beautiful interior, but has a disadvantage in that it can not pursue production convenience and irregular surface.

Korean Patent Registration No. 10-1067754

It is an object of the present invention to provide a four-way tenant joint frame of an unstructured grid shell structure which is easy to manufacture and which is capable of reinforcing a joint to construct a stable atypical grid shell structure.

According to a preferred embodiment of the present invention,

A triangular wing which is joined to each corner portion of the outer surface of the center core so as to make four split angles of the same size around the center core, An upper bridge connection plate having a bridge insertion hole at the center and connected to one end of the center core, and a bridge coupling nut bonded to the inner surface of the bridge connection plate, A four-way tenon center member;

 And a pipe type connecting member having both end portions of the hooking grooves which are fitted into the hooking plate.

In addition, the pipe-

A pair of upper cut-out portions and a pair of lower cut-out portions, each of which is formed in a triangular shape on the upper wall and the lower wall of the end portion, are symmetrically formed in left and right and up and down directions,

The side walls having the hooking grooves are bent inward so that the upper and lower surfaces of the side walls are positioned to be in contact with each other between the upper wall and the inner surface of the lower wall,

And the joining surfaces of the upper and lower walls and both side walls are welded together.

Further, the four-way tenon center member has a four-

A lower bridge connecting plate having a bridge insertion hole at the center and joined to the other end of the center core, and a bridge coupling nut bonded to the inner surface of the lower bridge connection plate.

Since the four-way tenant joint frame of the atypical grid shell structure according to the present invention is structured such that the left and right side walls formed with the hooking grooves formed in the pipe-shaped connecting member are firmly joined to and supported by the upper and lower walls, Thereby obtaining a reinforcing effect.

Also, the center core made of a square pipe, and the triangular wing made by bending a steel sheet make it easy to manufacture the four-way tenon center member.

Therefore, the 4 - way tensile joint frame of the unstructured grid shell structure is easy to manufacture, and it is possible to construct stable unstructured grid shell structure by reinforcing the joint.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate exemplary embodiments of the invention and, together with the description, serve to explain the principles of the invention, Shall not be construed as limiting.
1 is a perspective view of a four-way tenon joint frame of an atypical grid shell structure in accordance with the present invention.
Fig. 2 is an exploded perspective view of Fig. 1; Fig.
3 is an end perspective view of the pipe connecting member of Fig.
Fig. 4 is a plan sectional view of Fig. 1; Fig.
Fig. 5 is a longitudinal sectional view of the 4-way tenon center member of Fig. 1; Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto.

The four-way tenant joint frame of the atypical grid shell structure according to the present invention includes a four-way tenon central member 10 and a pipe-shaped connecting member 20 connected to the four-way tenon central member 10 as shown in FIG. .

The four-way tenon center member 10 is constructed to be easily manufactured using pipes and plate materials as shown in Figs. 2, 4 and 5. The four-way tenon centering member 10 is constituted by a center core 11, four triangular wings 12, a hooking plate 13, an upper bridge connecting plate 14 and a bridge locking nut 15.

The center core 11 is manufactured by cutting a square pipe made of steel into a predetermined length. Therefore, the center core 11 has a rectangular cross section.

The four triangular wings 12 have the same size and shape. The four triangular wings 12 are joined to the corners of the outer surface of the center core 11, respectively. The triangular wing 12 is manufactured by bending both ends of the steel sheet at the same angle with the same angle. Both ends of the triangular wing 12 are welded by selecting a surface close to the edge of the center core 11. Thus, the triangular wing 12 has a length equal to the length of the center core 11 and is positioned at the peripheral edge of the center core 11. [ The four triangular wings 12 thus constructed are welded to the corners of the outer surface of the center core 11 by welding so as to form four divided angles α of the same size around the center core 11. And the end of the pipe-shaped connecting member 20 is fixedly joined to the groove in which the split angle alpha is formed.

The hook plate 13 is located between the neighboring triangular wings 12 and 12 and is installed at the center of the outer surface of the center core 11. At this time, the hooking plate 13 has a thickness that can be drawn into the hooking groove 204a of the pipe-shaped connecting member 20. [ The needle plate 13 is plate-shaped and is welded to the outer surface of the center core 11 by being in contact with the triangular wing 12.

The upper bridge connection plate 14 has a bridge insertion hole 14a at the center and is joined to one end of the center core 11 and the coupling nut 15 is connected to the bridge insertion hole 14a of the upper bridge connection plate 14 And is joined to the inner surface of the bridge connecting plate 14 by welding.

The pipe-shaped connecting member 20 has a hooking groove 204a at both ends thereof to be caught in the hooking plate 13. The pipe-type connecting member 20 has a structure reinforced by cutting, bending, joining, or the like at both ends of the square pipe 21 having a rectangular cross-section in order to have a connection reinforcing structure.

The pipe connecting member 20 is formed by forming a hooking groove 204a at the end of each pipe 21 as shown in Fig. 3 and then connecting the upper wall 201 and the lower wall 202 of the end portion of each pipe 21 A pair of upper cutout portions 201a and 201a and a pair of lower cutout portions 202a and 202a are formed symmetrically in left and right and up and down directions. At this time, it is preferable that the hooking grooves 204a are formed to be inclined so as to accommodate the angle change when the pipe-shaped connecting member 20 is connected.

Next, the side walls 203 and 204 having the hooking grooves 204a are bent inward to place the upper and lower surfaces of the side walls 203 and 204 in an in-between contact relationship between the upper and lower walls 201 and 202.

Next, the joining surfaces of the upper and lower walls 201, 202 and the side walls 203, 204 are joined by welding so that the ends of the pipe-like connecting member 20 are formed as shown in Fig.

Four pipe members 20 are assembled to the four-way tenon center member 10 to form an atypical grid frame.

At this time, the end portion of the pipe-shaped connecting member 20 is inserted into the hooking plate 13 and is stuck to the center core 11 and joined to the joint surface of the triangular wing 12.

After the pipe connecting member 20 is connected to the four-way tenon center member 10, the bridge 5 is assembled to the upper bridge connecting plate 14. The bridge (5) is screwed to the bridge clamping nut (15).

The pipe-type connecting member 20 assembled in this way is structured such that the left and right side walls 203 and 204 formed with the hooking grooves 204a are joined to and supported by the upper and lower walls 201 and 202, Thereby obtaining a reinforcing effect.

The center core 11 made of a square pipe and the triangular wing 12 made by bending a steel plate make it easy to manufacture the four-way tenon center member 10, thereby reducing the construction cost of the atypical grid structure have.

The four-way tenon center member 10 includes a lower bridge connecting plate 14 'having a bridge insertion hole 14a' at the center thereof and having an end connected to the other end of the center core 11 as shown in FIG. 2, And a bridge locking nut 15 'which is joined to the inner surface of the connecting plate 14'.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the above teachings. will be. The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

10: 4 Ween tenan center member
11: Center core
12: triangular wings
13: The needle plate
14: upper bridge connecting plate
14 ': Lower bridge connecting plate
15, 15 ': Bridge fastening nut
20: pipe type connecting member
201a: upper incision section
202a:
204a:

Claims (3)

A center core 11 having a predetermined length in a rectangular cross section and four corner angles? Of the same size around the center core 11 joined to the corners of the outer surface of the center core 11 And a bridge insertion hole 14a is provided at the center of the triangular wing 12 and the adjacent triangular wings 12 and 12 so as to be located at the center of the outer surface of the center core 11 A four-way tenon center member 10 composed of an upper bridge connecting plate 14 joined to one end of the center core 11 and a bridge connecting nut 15 joined to the inner surface of the bridge connecting plate 14, ;
And a pipe-shaped connecting member (20) having hooking grooves (204a) at both ends of the hooking plate (13) to be fitted in the hooking plate (13). The method according to claim 1,
The pipe-shaped connecting member (20)
A pair of upper cutout portions 201a and 201a and a pair of lower cutout portions 202a and 202a which are respectively cut into a triangular shape at the upper wall 201 and the lower wall 202 of the end portion are symmetrically Forming,
The side walls 203 and 204 having the hooking grooves 204a are bent inward so that the upper and lower surfaces of the side walls 203 and 204 are placed between the upper and lower walls 201 and 202,
Wherein the joining surfaces of the upper and lower walls (201, 202) and the side walls (203, 204) are welded to each other to weld the four-way tenant joint frame of the atypical grid shell structure. The method according to claim 1,
The four-way tenon center member (10)
A lower bridge connecting plate 14 'having a bridge insertion hole 14a' at the center and joined to the other end of the center core 11 and a bridge coupling nut 14 'bonded to the inner surface of the lower bridge connecting plate 14' (15 '). ≪ RTI ID = 0.0 > 15. < / RTI >

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