KR101639918B1 - Joint structure between column and beam - Google Patents

Abstract

The present invention relates to a column member; A beam member installed horizontally in the column member and having a web, an upper flange and a lower flange; A shear plate connected to an outer circumferential surface of the column member and connected to the beam member; And a diaphragm provided in a form surrounding the outer circumferential surface of the column member and connected to the beam member, wherein the diaphragm includes: a frame member provided in a form to surround the outer circumferential surface of the column member; And an extension member extending from the outer circumferential surface of the upper flange toward the base member and thinner than the frame member and providing a connection portion with the beam member, A first upper diaphragm and a second upper diaphragm disposed on a lower surface of the upper flange, wherein the upper flange is inserted and fixed in a spaced-apart space between the first upper diaphragm and the extended member of the second upper diaphragm An upper diaphragm; A first lower diaphragm connected to an upper surface of a lower flange and a second lower diaphragm disposed on a lower surface of the lower flange, wherein a distance between the first lower diaphragm and the extending member of the second lower diaphragm And a lower diaphragm into which the lower flange is inserted and fixed.

Description

[0001] JOINT STRUCTURE BETWEEN COLUMN AND BEAM [0002]

The present invention relates to a connection structure between a column member and a beam member, and more particularly, to a connection structure of a column member and a beam member capable of minimizing a welding amount to reduce a construction cost and shortening a construction period.

CFT (Concrete Filled Steel Tube) is a concrete filled steel pipe filled with concrete in a round or rectangular shaped steel pipe. The CFT structure is a structure in which CFT is applied to a steel pipe column as a main component of a frame to resist high axial force.

The CFT structure has excellent performance in various aspects such as fire resistance and construction as well as structural aspects such as rigidity, proof strength and deformation by restraining concrete by steel pipe.

In the CFT structure, square or round steel pipes are mainly used for steel pipe columns. However, when such a steel pipe receives an external force, it is likely to cause out-of-plane deformation. Therefore, in the case of designing with a steel joint, it is essential to appropriately reinforce the joint portion between the steel pipe column and the beam so as to have sufficient stiffness and proof stress .

In particular, the bending moment at the end of the beam at the connection between the steel pipe column and the beam acts intensively on the steel pipe column at the flange position of the beam, so that when the bending moment acts on the end of the beam, There is a problem that can be destroyed.

Conventionally, a diaphragm method is used to reinforce the connection between the CFT column and the beam. Such diaphragm systems include a through-diaphragm system, an inner-diaphragm system, and an outer-diaphragm system.

In the case of the outer diaphragm method, the diaphragm is welded to the outside of the steel column without cutting the steel column, and the diaphragm and the steel frame are welded together.

In the case of the conventional external diaphragm method, welding is performed at a portion abutting against a steel pipe column, welding is also performed at a portion where the steel pipe is contacted, and the welding cost is increased, There is a high possibility that a defect in the welded portion occurs.

The present invention is realized by recognizing at least any one of the requirements or problems occurring in the connection structure of the conventional column member and the beam member.

In one aspect, the present invention provides a pillar member and a beam member capable of reducing the manufacturing cost of the connection structure of the pillar member and the beam member by minimizing the welding amount in the construction of the connection structure of the pillar member and the beam member, To provide a connection structure of members.

As one aspect, the present invention minimizes the joining by the welding method in the construction of the connection structure between the column member and the beam member, and by applying the bolt fastening method, the joining structure of the column member and the beam member, And to provide a connection structure between the column member and the beam member capable of absorbing the error.

As one aspect, the present invention provides a connection structure of a pillar member and a pillar member that can be divided into a diaphragm and can be easily transported and installed to improve workability.

According to an aspect of the present invention, A beam member installed horizontally in the column member and having a web, an upper flange and a lower flange; A shear plate connected to an outer circumferential surface of the column member and connected to the beam member; And a diaphragm provided in a form surrounding the outer circumferential surface of the column member and connected to the beam member, wherein the diaphragm includes: a frame member provided in a form to surround the outer circumferential surface of the column member; And an extension member extending from the outer circumferential surface of the upper flange toward the base member and thinner than the frame member and providing a connection portion with the beam member, A first upper diaphragm and a second upper diaphragm disposed on a lower surface of the upper flange, wherein the upper flange is inserted and fixed in a spaced-apart space between the first upper diaphragm and the extended member of the second upper diaphragm An upper diaphragm; A first lower diaphragm connected to an upper surface of a lower flange and a second lower diaphragm disposed on a lower surface of the lower flange, wherein a distance between the first lower diaphragm and the extending member of the second lower diaphragm And a lower diaphragm into which the lower flange is inserted and fixed.

Preferably, the connecting structure between the pillar member and the beam member is formed by a first connecting portion between the front plate and the column member, a second connecting portion between the beam member and the front plate, and a third connecting portion between the beam member and the diaphragm, Wherein the first connecting portion is joined by a welding method, and at least one of the second connecting portion and the third connecting portion can be mechanically connected by a joining member.

Preferably, the reinforcing plate is installed on at least one of the second connecting portion and the third connecting portion.

Preferably, the coupling member is formed of a threaded bolt member, and at least two of the beam member, the shear plate, the diaphragm, and the reinforcing plate may be formed with a joint hole to which the bolt member is fastened.

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Preferably, the end of the diaphragm and the upper flange and the lower flange are connected in an engaged state, and the ends of the sheath plate and the web can be coupled with each other in an engaged state.

Preferably, the shear plate may be connected in a superposed arrangement with the web of the beam member.

Preferably, the beam member is provided with an open space in which the web is removed between the upper flange and the lower flange, and the shear plate is inserted in the open space.

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Preferably, the second upper diaphragm and the first lower diaphragm may be formed by connecting a plurality of divided diaphragm members enclosing the outer circumferential surface of the column member.

According to an embodiment of the present invention as described above, it is possible to reduce the manufacturing cost of the connection structure between the column member and the beam member by minimizing the welding amount in the construction of the connection structure between the column member and the beam member, There is an effect that can be.

According to the embodiment of the present invention, the joining by the welding method is minimized and the bolt fastening method is applied to the connection structure of the column member and the beam member, It is possible to absorb the construction error.

According to an embodiment of the present invention, the diaphragm is divided into a plurality of diaphragms, and the diaphragm can be easily transported and installed, thereby improving the workability.

1 is a perspective view illustrating a connection structure between a column member and a beam member according to an embodiment of the present invention.
Fig. 2 is a modification of the connection structure of the column member and the beam member of Fig. 1. Fig.
3 to 8 are views showing a connection structure between a column member and a beam member according to various embodiments of the present invention.
9 and 10 are perspective views showing the diaphragm of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, the embodiments of the present invention can be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. Further, the embodiments of the present invention are provided to more fully explain the present invention to those skilled in the art. The shape and size of elements in the drawings may be exaggerated for clarity.

Hereinafter, a connection structure of the pillar member and the beam member according to an embodiment of the present invention will be described in detail with reference to the drawings.

The present invention relates to a connection structure of a pillar member composed of a pillar member (100) and a pillar member (200) and a pillar member.

1 to 10 illustrate the case where the column member 100 is a concrete filled steel tube (CFT) and the case where the beam member 200 is an H-shaped steel beam, And various modifications may be made without departing from the scope of the present invention.

1 to 10, the connection structure between the column member and the beam member according to an embodiment of the present invention includes a column member 100, a beam member 200, a shear plate 300, and a diaphragm 400 And may additionally include a stiffening plate 500.

1, the connection structure between the column member and the beam member includes a column member 100, a columnar member 100 which is provided horizontally to the column member 100 and includes a web 250, an upper flange 210, A shear plate 300 connected to the outer circumferential surface of the column member 100 and connected to the beam member 200 and an outer peripheral surface of the column member 100, And may include a diaphragm 400 connected to the beam member 200.

The column member 100 may be a filled steel pipe column filled with concrete, and the column member 100 may be formed as a column having a rectangular or circular cross section according to the shape of the cross section.

The shear plate 300 is connected to the outer surface of the pillar member 100 and is configured to be connected to the pillar member 100 to support the connection portion between the pillar member 100 and the pillar member 200.

The beam member (200) is a member connected to the side surface of the pillar member (100) in the horizontal direction. A plurality of the beam members 200 may be spaced apart from each other in the circumferential direction of the column member 100.

The shear plate 300 can be connected to the web 250 of the beam member 200 and the diaphragm 400 can be connected to the upper flange 210 and the lower flange 230 of the beam member 200.

Here, the shear plate 300 may be welded to the column member 100. [

The shear plate 300 may be formed of a rectangular plate, and a plurality of joint holes may be formed through the shear plate 300.

The joint holes may be arranged in at least one row in the height direction, and the bolt members may be fastened to the joint holes.

The diaphragm 400 may be provided so as to surround the outer circumferential surface of the column member 100. The diaphragm 400 is formed with a through-hole through which the column member 100 can pass.

The diaphragm 400 includes a frame member 410 coupled to the outer circumferential surface of the column member 100 in the circumferential direction and a frame member 410 extending from the outer end of the frame member 410 in the direction of the beam member 200, 200 may be formed on the outer circumferential surface thereof.

The diaphragm 400 may include a rectangular or circular ring-shaped plate-shaped member according to the shape of the column member 100.

The diaphragm 400 is coupled horizontally around the outer peripheral surface of the pillar member 100 and can be connected to the flange of the pillar member 200.

The shear plate 300 and the column member 100, the beam member 200 and the shear plate 300, and the beam member 200 and the diaphragm 400 are interconnected to form a connection structure between the column member and the beam member. can do.

In the conventional case, the connection between these members is often welded. As the amount of welding increases, the manufacturing cost increases, the construction period is delayed, and the quality of the welded portion W is determined according to the skill of the operator There is a high possibility that defects of the welded portion W are generated.

Therefore, in the construction of the connection structure between the column member and the beam member, it is necessary to minimize the amount of welding at the factory and the site. Particularly, It is highly necessary to reduce the welding amount in the field.

1, in the present invention, only the connecting portion of the shear plate 300 and the column member 100 can be welded to minimize the welding amount in the construction of the connection structure between the column member and the beam member .

2, the shear plate 300 and the first connection part of the column member 100 are welded together, and the beam member 200 and the shear plate 300 are joined together by welding, At least one of the second connecting portion of the diaphragm 400 and the second connecting portion of the diaphragm 400 may be mechanically fastened by the engaging member B. [

That is, either the second connecting portion or the second connecting portion can be fastened by a mechanical fastening method, and both the second connecting portion and the second connecting portion can be fastened in a mechanical fastening manner.

Here, the mechanical fastening refers to a method in which members requiring joining by a bolt connection, a rivet connection, a pin connection or the like are joined in the field instead of the welding joining method. Such mechanical fastening method is not limited to the bolt connection method described above, and various coupling methods used in the related art can be applied.

1, the connection between the beam member 200 and the front plate 300 and the connection between the beam member 200 and the diaphragm 400 are performed by a bolt fastening method, which is a type of mechanical fastening Can be connected. Thus, by connecting the members by the bolt fastening method, there is an effect that the construction error that can occur in the connection process can be absorbed.

2, the bolt member is fixed to both the reinforcing plate 500 and the front end plate 200 in a state where the reinforcing plate 500 is in contact with both the front and rear ends of the front plate 300 and the beam member 200, And can be fastened through the reinforcing plate 500 and the web 250 of the beam member 200.

The reinforcing plate 500 is disposed in contact with the diaphragm 400 and the bolt member 500 on both sides or one side of the beam member 200 and the bolt member is inserted through the reinforcing plate 500 and the extending member 430 of the diaphragm 400 The reinforcing plate 500, and the upper flange 210 of the beam member 200, respectively.

The reinforcing plate 500 may be coupled to the beam member 200, the shear plate 300, and the diaphragm 400 by any one of bolt coupling, rivet coupling, and pin coupling.

The connection between the diaphragm 400 and the upper flange 210 and the lower flange 230 of the beam member 200 and the connection between the sheath plate 300 and the web 250 of the beam member 200 are reinforced And may be connected to the plate 500 by bolting.

And a reinforcing plate 500 installed on at least one of the first connecting portion, the second connecting portion, and the third connecting portion.

The reinforcing plate 500 is installed on at least one of the second connecting portion of the beam member 200 and the front plate 300 and the third connecting portion of the beam member 200 and the diaphragm 400 And a reinforcing plate 500 may be installed on both the second connecting portion and the third connecting portion.

As shown in Fig. 1, the reinforcing plate 500 can be mechanically fastened by the engaging member (B) at the second connecting portion and the third connecting portion.

As shown in FIG. 1, the reinforcing plate 500 may be provided with reinforcing plates 500 on both sides of the connecting portion, and may be bolted to the reinforcing plate 500. As shown in FIG. 2, 500 may be installed and bolted together.

The reinforcing plate 500 may be installed on both sides of the second and third connecting portions and may be bolted together. The reinforcing plate 500 may be installed on one side of the second connecting portion and the third connecting portion and may be bolted .

The joining member B is formed of a threaded bolt member and at least two selected from the beam member 200, the front plate 300, the diaphragm 400, and the reinforcing plate 500 A joint hole in which the bolt member is fastened can be formed.

The engaging member (B) may be provided with a threaded bolt member.

The reinforcing plate 500 and the beam member 200 are formed with a first joint hole to which the bolt member is coupled and the bolt member is coupled to at least one of the front plate 300 and the diaphragm 400 A second junction hole may be formed.

The bolt member may be installed through the first joint hole and the second joint hole.

A joint hole may be formed in the diaphragm 400 and a joint hole may be formed in the upper flange 210 and the lower flange 230 of the beam member 200 connected to the diaphragm 400.

A joint hole may be formed in the shear plate 300 and a joint hole may be formed in the web 250 of the beam member 200 connected to the shear plate 300.

2, the connection of the shear plate 300 and the beam member 200 is performed by connecting the shear plate 300 and the reinforcement plate 200 on both sides or one side of the first connection portion of the beam member 200 And the bolt member is fastened through the reinforcing plate 500 and the shear plate 300 and can be fastened through the web 250 of the reinforcing plate 500 and the beam member 200 .

The diaphragm 400 and the beam member 200 are connected to each other at one or both sides of the third connection portion of the diaphragm 400 and the beam member 200. The reinforcing plate 500 The diaphragm 400 and the diaphragm 400. The diaphragm 400 and the diaphragm 400 may be coupled to each other through the upper flange 210 of the reinforcement plate 500 and the bezel 200. [

The reinforcing plate 500 includes a first reinforcing plate 500 connected to the front plate 300 and the web 250 of the beam member 200 and a second reinforcing plate 500 connected to the diaphragm 400 and the flange of the beam member 200 2 reinforcing plate 500 as shown in FIG.

As shown in FIGS. 1, 9 and 10, the diaphragm 400 may include a frame member 410 and an extending member 430.

The diaphragm 400 includes a frame member 410 that surrounds the outer circumferential surface of the column member 100 and a second member that extends from the outer circumferential surface of the frame member 410 in the direction of the beam member 200, And an extending member 430 for providing a connection portion with the base 200.

A through hole may be formed at the center of the frame member 410 to allow the pillar member 100 to pass therethrough.

The width of the frame member 410 may be 100 mm or less. This is to minimize the interference with the coated concrete column or the finishing material.

10, the diaphragm 400 may be formed such that the frame member 410 and the elongated joint member 430 are joined together by welding, or the elongated joint member 430, (430) may be pressed to be thinner than the frame member (410).

The elongated joint member 430 may be configured to be thinner than the thickness of the frame member 410.

The dimension in the height direction of the frame member 410 and the extending member 430 is referred to as thickness and the dimension of the frame member 410 and the frame member 410 in the direction of the beam member 200 is referred to as width.

 The value obtained by subtracting the thickness of the elongated joint member 430 from the thickness of the frame member 410 can be set to be not more than 1 times the width of the frame member 410. [ As a result, the load transmitted from the bolt fastening extended member 430 can be stably transferred to the frame member 410.

If the above conditions are exceeded, the load can not be stably transmitted on the diaphragm 400, and breakage may occur in the connection portion of the frame member 410 and the extending member 430.

The shape of the frame member 410 may be changed according to the shape of the column member 100.

When the column member 100 has a circular cross section, the frame member 410 may be provided with a ring-shaped ring plate, as shown in Figs. 1 and 10, and the column member 100 Has a rectangular cross-section, the frame member 410 may be provided with a rectangular plate on the ring.

3, the connection structure between the column member and the beam member according to the first embodiment of the present invention includes a diaphragm 400, the upper flange 210, and the end of the lower flange 230 And the ends of the web 250 and the shear plate 300 can be connected with each other.

The diaphragm 400 is coupled horizontally around the outer peripheral surface of the pillar member 100 and can be connected to the flange of the pillar member 200.

It is possible to effectively resist the bending moment acting intensively on the end portion of the flange among the connecting portions of the pillar member 100 and the beam member 200 by the diaphragm 400 connected to the flange of the beam member 200 It is possible to effectively prevent the column member 100 from being deformed locally and being destroyed.

The connection between the diaphragm 400 and the flange and the connection between the sheath plate 300 and the web 250 may be achieved by bolt-tightening the reinforcing plate 500.

In this case, the thickness of the frame member 410 and the extending member 430 of the diaphragm 400 is preferably equal to the thickness of the upper flange 210 and the lower flange 230 of the beam member 200 Do.

2, a joint hole is formed in the shear plate 300, and a joint hole is also formed in the web 250 of the beam member 200 connected to the shear plate 300 while the end is in contact with the end .

The reinforcing plate 500 is disposed in such a manner that the shearing plate 300 and the end of the web 250 of the beam member 200 are engaged with each other while covering the connection portion between the shearing plate 300 and the web 250 And the shear plate 300 and the reinforcing plate 500 can be fastened by the fastening member B.

The shear plate 300 and the web 250 of the beam member 200 are connected to each other while the end portions of the web 250 are in contact with each other and a bolt member or the like is fastened to the joint hole formed in the shear plate 300 and the reinforcing plate 500, The web 250 and the reinforcing plate 500 are fastened to each other and a bolt member or the like is fastened to the joint hole formed in the web 250 of the beam member 200 and the reinforcing plate 500, Can be fixed.

The reinforcing plate 500 may be disposed in such a manner that the diaphragm 400 and the end of the flange of the beam member 200 are engaged with each other while covering the joint between the dip lamp and the flange, Can be fastened by the engagement member (B).

2, the diaphragm 400 is connected to the end of the flange of the beam member 200 in a state of being engaged with each other, and a bolt member or the like is fastened to the joint hole formed in the diaphragm 400 and the reinforcing plate 500 The diaphragm 400 and the reinforcing plate 500 are fixed and a bolt member or the like is fastened to the flange of the beam member 200 and the joint hole formed in the reinforcing plate 500 to fix the flange and the reinforcing plate 500 have.

As shown in FIG. 3, the shear plate 300 may be connected to the web 250 of the beam member 200 in a superimposed manner. At this time, the connection between the shear plate 300 and the web 250 can be fixed by fastening a bolt member to the joint hole formed in the shear plate 300 and the web 250.

3, the front plate 300 may be disposed so as to overlap with one surface of the web 250 of the beam member 200, and the front plate 300 may be disposed to overlap the one surface of the web 250 of the beam member 200, Can be disposed on both sides of the web 250 of the web 200.

4, the beam member 200 includes an open space in which the web 250 is removed between the upper flange 210 and the lower flange 230, and the front plate 300 May be inserted into and connected to the open space.

At this time, the connection of the shear plate 300 and the web 250 is performed by installing the reinforcing plate 500 in a state where the ends of the web 250 at the end portion of the shear plate 300 and the end portion of the web 250 are in contact with each other, 300 and the reinforcing plate 500 are fastened to each other and the bolt member is fastened to the joint hole of the web 250 and the reinforcing plate 500.

4, the front plate 300 is disposed so as to be in contact with the lower surface of the upper flange 210, the upper surface of the lower flange 230 and the surface of the web 250, which are the boundaries of the open space. .

The diaphragm 400 may include an upper diaphragm 401 installed in the upper flange 210 and a lower diaphragm 405 installed in the lower flange 230.

The upper diaphragm 401 connected to the upper surface of the upper flange 210 and the lower diaphragm 405 connected to the lower surface of the lower flange 230 may be connected to each other as shown in FIGS.

The upper diaphragm 401 may be connected to the upper flange 210 while the lower diaphragm 405 is disposed on the lower flange 230 of the lower flange 230.

5 to 10, the upper diaphragm 401 includes a first upper diaphragm 402 connected to the upper surface of the upper flange 210 and a second upper diaphragm 402 connected to the upper surface of the upper flange 210, 2 upper diaphragm 403 and the beam member 200 can be inserted and fixed between the first upper diaphragm 402 and the second upper diaphragm 403.

The upper flange 210 of the beam member 200 may be inserted between the first upper diaphragm 402 and the second upper diaphragm 403 and bolted together to be fixed.

The lower diaphragm 405 includes a first lower diaphragm 406 connected to an upper surface of the lower flange 230 and a second lower diaphragm 407 disposed on a lower surface of the lower flange 230, The beam member 200 may be inserted and fixed between the first lower diaphragm 406 and the second lower diaphragm 407.

A lower flange 230 may be inserted between the first lower diaphragm 406 and the second lower diaphragm 407 to be bolted and fixed.

5, the upper flange 210 of the beam member 200 extends to a portion contacting the outer peripheral surface of the column member 100, and the beam member 200 and the shear plate 300 are connected to each other, May be connected in a state in which they are disposed so as to overlap with the web 250 of the base 200.

At this time, the connection between the shear plate 300 and the web 250 can be fixed by fastening the coupling member B to the joint hole formed in the shearing plate 300 and the web 250.

5, the first upper diaphragm 402 and the second upper diaphragm 403 are connected to each other by an engaging member such that the upper flange 210 ).

The first upper diaphragm 402 and the second upper diaphragm 403 can be firmly fixed by fastening the coupling member B in a state in which the first upper diaphragm 402 and the second upper diaphragm 403 are in close contact with the upper flange 210. [

The first upper diaphragm 402 and the second upper diaphragm 403 are provided on both sides of the upper flange 210 and the surface to be joined to the outer peripheral surface of the column member 100 is sufficiently secured, There is an effect that the pressure of the front end of the joining portion of the joining member 200 can be sufficiently secured.

In the case of the first lower diaphragm 406 and the second lower diaphragm 407, the frame members 410 of both the first lower diaphragm 406 and the second lower diaphragm 407 can be fixed to the upper flange 210 by the engaging members in a state in which the frame members 410 are disposed in opposite directions.

7, the front end plate 300 and the end of the web 250 of the beam member 200 are connected to each other in a state in which they are engaged with each other, and a shape of covering the connection portion between the front end plate 300 and the web 250 And the reinforcing plate 500 can be fastened by the engaging member B. The front end plate 300 and the reinforcing plate 500 can be fastened to each other.

7, the first upper diaphragm 402 and the second upper diaphragm 403 are fixed to the upper flange 210 (i.e., the first upper diaphragm 402 and the second upper diaphragm 403) by the engaging members in a state where the frame members 410 of the first upper diaphragm 402 and the second upper diaphragm 403 are arranged in the same direction ).

As a result, a space can be secured by the height of the frame member 410 of the second upper diaphragm 403, and the upper flange 210 is inserted into the spacing space, and the first upper diaphragm 402, 210), and the second upper diaphragm 403 can be fastened by the coupling member (B).

In the case of the first lower diaphragm 406 and the second lower diaphragm 407, the frame members 410 of both the first lower diaphragm 406 and the second lower diaphragm 407 can be fixed to the upper flange 210 by the engaging members in a state in which the frame members 410 are arranged in the same direction.

6, 8 and 9, the first upper diaphragm 402 and the second lower diaphragm 407 may be constructed of a single member that surrounds the column member 100 .

The first upper diaphragm 402 connected to the upper surface of the upper flange 210 and the second lower diaphragm 407 disposed on the lower surface of the lower flange 230 may be interfered with the web 250 of the beam member 200 It is advantageous from the viewpoint of the workability to constitute a single member.

Of course, the first upper diaphragm 402 and the second lower diaphragm 407 can be formed of a plurality of divided diaphragm members. In this case, however, the diaphragm 400 prevents the diaphragm 400 from separating from the circumferential direction of the column member 100 The separate diaphragm members need to be separately fastened to each other.

6, 8 and 10, the second upper diaphragm 403 and the first lower diaphragm 406 have a plurality of diaphragms (not shown) disposed to surround the outer circumferential surface of the column member 100, A divided diaphragm member may be connected and formed.

The second upper diaphragm 403 connected to the lower surface of the upper flange 210 and the first lower diaphragm 406 disposed on the upper surface of the lower flange 230 interfere with the web 250 of the beam member 200 Thus, it is difficult to form the diaphragm 400 as a single member, so that the diaphragm member of the split type can be connected.

The number of the divided diaphragm members of the diaphragm 400 surrounding the pillar member 100 can be determined according to the number of the pillar members 200 connected to the pillar member 100. [

6 and 8 are views showing a state in which the beam member 200 is installed at the front two positions in the connection structure of the column member and the beam member to which the four beam members 200 are connected to the column member 100 .

The second upper diaphragm 403 and the first lower diaphragm 406 are connected to each other by at least four diaphragms 406 in the connection structure of the pillar member and the beam member to which the four beam members 200 are connected to the pillar member 100, It should be divided into members.

The diaphragm member shown on the upper side of FIG. 10 is a view showing a second upper diaphragm 403 and an individual diaphragm member in which the first lower diaphragm 406 is divided into four diaphragm members, 100 in which the two beam members 200 are connected at an angle of 180 degrees in the circumferential direction.

The diaphragm member shown in the lower part of FIG. 10 is a view showing a second upper diaphragm 403 and an individual diaphragm member in which the first lower diaphragm 406 is divided into four diaphragm members, 100 in which the four beam members 200 are connected at an angle of 90 degrees in the circumferential direction.

In addition, the number of the divided diaphragm members of the diaphragm 400 surrounding the column member 100 can be determined from the viewpoint of the workability depending on the weight of the diaphragm member. If the weight of the diaphragm member is excessively large, the workability of the diaphragm member is deteriorated. Therefore, if the weight of the diaphragm 400 is increased from the viewpoint of workability, the number of division can be increased.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. And will be apparent to those skilled in the art.

100: column member 200:
210: upper flange 230: lower flange
250: web 300: shear plate
400: diaphragm 401: upper diaphragm
402: first upper diaphragm 403: second upper diaphragm
405: lower diaphragm 406: first lower diaphragm
407: second lower diaphragm 410: frame member
430: extended joining member 500: reinforcing plate
B: joint member W: weld

Claims (11)

Column member;
A beam member installed horizontally in the column member and having a web, an upper flange and a lower flange;
A shear plate connected to an outer circumferential surface of the column member and connected to the beam member; And
And a diaphragm provided to surround the outer peripheral surface of the pillar member and connected to the pillar member,
In the diaphragm,
A frame member provided to surround the outer peripheral surface of the column member,
And an elongate joining member extending from the outer circumferential surface of the frame member toward the beam member and configured to be thinner than the frame member and providing a connection portion with the beam member,
In the diaphragm,
A first upper diaphragm connected to an upper surface of the upper flange, and a second upper diaphragm disposed on a lower surface of the upper flange, wherein the second upper diaphragm is spaced apart from the first upper diaphragm by a distance An upper diaphragm in which the upper flange is inserted and fixed; And
A first lower diaphragm connected to an upper surface of a lower flange and a second lower diaphragm disposed on a lower surface of the lower flange, and a second lower diaphragm disposed in a spacing space between the first lower diaphragm and the second lower diaphragm, And a lower diaphragm in which the lower flange is inserted and fixed.
[2] The apparatus of claim 1, wherein the connection structure of the column member and the beam member comprises:
A first connecting portion of the shear plate and the column member, a second connecting portion of the beam member and the shear plate, and a third connecting portion of the beam member and the diaphragm,
Wherein the first connecting portion is joined by a welding method,
Wherein at least one of the first connecting portion, the second connecting portion, and the third connecting portion is connected by a joining member by a mechanical method.
3. The method of claim 2,
And a reinforcement plate provided on at least one of the first connection portion, the second connection portion, and the third connection portion.
The method of claim 3,
Wherein the engaging member is provided with a threaded bolt member,
Wherein at least two of the beam member, the shear plate, the diaphragm, and the reinforcing plate are formed with a joint hole to which the bolt member is fastened.
delete 5. The method according to any one of claims 1 to 4,
The diaphragm, the upper flange, and the lower flange are connected in an engaged state,
Wherein the shear plate and the end of the web are connected to each other in a state in which they are engaged with each other.
5. The method according to any one of claims 1 to 4,
And the shear plate is connected to the web of the beam member in a superposed state.
5. The method according to any one of claims 1 to 4,
Wherein the beam member is provided with an open space in which the web is removed between the upper flange and the lower flange,
Wherein the shear plate is connected to the open space while being inserted into the open space.
delete delete The method according to claim 1,
The second upper diaphragm, and the first lower diaphragm,
And a plurality of divided diaphragm members provided so as to surround the outer circumferential surface of the pillar member are connected and formed.

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