KR101031351B1 - Column-beam connecting structure with vibration controling structure - Google Patents

Abstract

PURPOSE: A column-beam connecting structure with a damping structure is provided to release shock due to external force and reduce vibration from minute amplitude to large amplitude. CONSTITUTION: A column-beam connecting structure with a damping structure comprises a vertical column member(100), a beam member(200), a horizontal plate part(104), and a pair of damping structures(1). The beam member is welded with the column member. The beam member is formed into an integrated H-beam structure in which an upper horizontal portion(201) and a lower horizontal portion(202) are connected to a vertical portion(203). The horizontal plate part has the same thickness of the lower horizontal portion and is separated from the end of the lower horizontal portion. A pair of damping structures is installed between the horizontal plate part and the lower horizontal portion.

Description

COLUMN-BEAM CONNECTING STRUCTURE WITH VIBRATION CONTROLING STRUCTURE}

The present invention relates to a column-beam connection structure applied to a joint portion of a column and a beam, and more particularly, to a column-beam connection structure having a damping structure.

In general, a frame structure constitutes a skeleton that is the whole of a building, and includes pillars and beams that are basic frames, and frames such as braces that reinforce columns or beams diagonally to serve as reinforcement for horizontal loads. Doing.

As is well known, significant loads can be continuously applied between neighboring frames in a framework. In order to prevent the frames from being damaged or destroyed under such load, a vibration damping structure capable of absorbing vibration or shock is required. In particular, the joint between the column and the beam, in particular, the lower flange, that is, the lower horizontal portion of the H-shaped steel mainly used as the beam, was often broken.

In the 1994 Northris earthquake and 1995 Japan Kobe earthquake, as shown in the photograph of Fig. 1, many cases have been reported in which the lower flange of the H-beams is broken at the end side joined to the column. The construction of a typical steel structure, as shown in the photographic diagram of Figure 2, is made in a manner of joining the beam to the pre-fabricated column-beam connection structure by joining the column and the short beam in the steel structure manufacturing company. The coupling is brought into contact with the end of the beam-beam connection structure and the end of the beam and then covered with a cover plate to fasten and secure it with a number of bolt fasteners.

As mentioned earlier, forces acting on buildings or framing structures, in particular horizontal loads, can cause fatal damage to the joints between columns and beams, thus providing damping structures at the joints between columns and beams. It is desirable to. Unlike other frameworks, installation of the damping structure has not been considered in that it is common for the entire end of the beam to be welded to the column, thereby preventing the beam, in particular the lower flange of the beam (hereinafter ' A lot of damage such as breakage of the horizontal portion).

Accordingly, one object of the present invention is to be applied to the joint portion of a column and a beam, and the column-beam is formed by disconnecting the lower part of the beam, which is expected to be broken, from the column, and providing a damping structure including iron plates in the disconnected area. It is to provide a connection structure.

Another object of the present invention is applied to the joint portion of the pillar and beam, and is made by disconnecting the lower part of the beam that is expected to break from the column, and installing a vibration damping structure including the iron plate in the disconnected area, the number of steel plates It is to provide a column-beam connection structure that can be different in the vibration damping properties and easy to replace the damaged steel plate.

According to one aspect of the present invention, there is provided a column-beam connection structure that is prefabricated and used for joining columns and beams in a construction site, the column-beam connection structure comprising a planar joint surface and at the construction site A vertical pillar member that becomes part of the pillar; The upper horizontal portion, the lower horizontal portion and the vertical portion is integrally part of the beam at the construction site, the end of the upper horizontal portion and the upper end of the vertical portion is joined to the joint surface by welding, the lower portion where the stress is concentrated An end portion of the horizontal portion and a lower end portion of the vertical portion, the beam member being disconnected from the joining surface; A horizontal plate portion having the same thickness as the lower horizontal portion and welded to the joint surface at the same height as the lower horizontal portion to face the end portion of the lower horizontal portion in a spaced apart state; It is installed between the horizontal plate portion and the lower horizontal portion for vibration suppression, and comprises a pair of vibration suppression structure arranged symmetrically with respect to the vertical portion, each of the pair of vibration suppression structure each of the plurality of steel plates and a plurality of fastening It includes spheres, wherein the plurality of iron plate is sandwiched in contact with the upper and lower surfaces of the horizontal plate portion and the upper and lower surfaces of the lower horizontal portion, the plurality of fasteners are a portion of the iron plate to the horizontal plate portion One fasteners for fastening in the vertical direction and the other fasteners for fastening the other portion of the iron plate in the vertical direction to the lower horizontal portion, the iron plate is lower than the pillar member, the beam member and the horizontal plate portion Yield strength.

According to an embodiment, the fasteners are configured to be dismantled by unscrewing the nut from the bolt to have a yield point greater than that of the iron plates, and to control the stacking number of the iron plates, and the horizontal plate portion and the The number of stacking of the iron plates is always the same based on a lower horizontal portion, and each of the one fasteners and the other fasteners includes two or more fasteners arranged in a direction parallel to the extending direction of the beam.

According to one embodiment, the end surface of the upper horizontal portion and the upper end surface of the vertical portion are continuously connected to form a vertical straight surface to be welded to the joining surface, from the straight surface to the lower horizontal portion It extends in a photographic straight line to form the disconnection region in the form of a triangle in the lower portion between the pillar member and the beam member, the gap between the horizontal plate portion and the lower horizontal portion is the same throughout the width.

According to the present invention, there is provided a column-beam connection structure having a pair of vibration suppression structures applied to a joint portion of a column and a beam at a construction site, and the vibration suppression structure of the column-beam connection structure is a pillar member that becomes part of a column. It is applied between the beam member to be a part of the beam and to reduce the vibration from the fine amplitude to the large amplitude, to mitigate the impact by external force. Further, the vibration damping structure is constituted by coupling iron plates with fasteners between the horizontal plate portion welded to the pillar member and the lower horizontal portion of the lower portion of the lower beam member disconnected from the pillar member, thereby providing excellent workability and / or economy. . In addition, it is easy to recover the vibration damping structure by replacing the iron plate that is detachably coupled with another iron plate. The steel plate to be used needs to have lower yield strength and ductility than the existing frame regardless of the material, so that the operator or designer can easily select and use the steel plate according to the intention. Moreover, the number of the iron plate laminated | stacked can be selected suitably, and can be used. Above all, by making the lower end side area of the beam, which is most easily destroyed by stress concentration in the column-beam connection structure, an area disconnected from the column, and installing a damping structure composed of flexible steel plates and fasteners in the disconnected area, The simple vibration damping structure can prevent the bottom area of the end welded with the column from being destroyed.

1 is a photograph showing a state in which the lower flange of the H-beams joined to the column is destroyed by an external force.
Figure 2 is a photograph showing the columns and beams of a typical steel structure.
Figure 3 is a perspective view showing a column-beam connection structure applied vibration suppression structure according to an embodiment of the present invention.
4 is a perspective view illustrating a state in which the vibration suppressing structure is separated from the pillar-beam connection structure shown in FIG. 3.
5 is a side view of the column-beam connection structure shown in FIG.
6 is a front view of the column-beam connection structure shown in FIG.
7 (a) and 7 (b) are views showing vibration suppression structures in which the number of steel plates is adjusted.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In addition, the embodiments of the present invention are provided to more fully explain the present invention to those skilled in the art, the following examples can be modified in various other forms, the scope of the present invention Is not limited to the following examples.

Figure 3 is a perspective view showing a column-beam connection structure having a vibration damping structure according to an embodiment of the present invention, Figure 4 is a perspective view showing the vibration damping structure separated from the column-beam linkage structure shown in Figure 3, FIG. 5 is a side view of the column-beam connection structure shown in FIG. 3, and FIG. 6 is a front view of the column-beam connection structure shown in FIG. 3.

3, 4, 5, and 6, a pillar-beam connection structure is shown in which a beam member 200 is joined to a pillar member 100 by welding. This column-beam connection structure is pre-fabricated by the steel structure manufacturing company is provided to the construction site. At the construction site, the beam member 200 of the column-beam connection structure is connected end to end with another elongated beam of the construction site. The connection may be made in a fastening manner using cover plates and bolt fasteners as shown in FIG. 2.

As shown in FIG. 4, the beam member 200 has an integral H-beam structure in which an upper horizontal portion 201 and a lower horizontal portion 202 are connected to a vertical portion 203. As for the pillar member 100, the joining surface to which the edge part of the said beam member 200 is joined is planar. In addition, the beam member 200 has a lower end portion of the vertical portion 203 and the end portion of the lower horizontal portion 202 is disconnected from the pillar member 100 at the end joined to the pillar member 100, The disconnection region 204 is defined. An end of the upper horizontal portion 201 and an upper end of the vertical portion 203 are joined to the joining surface of the beam member 200 by welding.

In the present embodiment, the disconnection region 204 has a shape cut into a substantially isotropic triangle shape at a position where the lower end of the vertical portion 203 is in contact with the pillar, and the lower horizontal portion 202 is the vertical portion. It is cut off from the beam member 200 so as to be connected to the cut region of 203. An end surface of the upper horizontal portion 201 and an upper end surface of the vertical portion 203 are continuously formed to form a vertical straight surface in which easy welding is made to the joining surface of the beam member.

The disconnection region extends from the vertical straight surface to the lower horizontal portion 201 in an inclined straight line so that the disconnection region is formed in the shape of an isosceles triangle at a lower portion between the pillar member 100 and the beam member 200. The disconnection region, that is, the lower region of the beam member 200 welded to the pillar member 100 is where stress concentration occurs when installed in the pillar and the beam, and thus, due to the existence of the disconnection region, Destruction at the lower end of the vertical portion 203, which is lower than the end side of the beam member 200, and at the end of the lower horizontal portion 202 can be prevented.

A horizontal plate portion 104 having the same thickness as the lower horizontal portion 202 is welded to the bonding surface at the same height as the lower horizontal portion 202 on the joining surface of the pillar 100, so that the lower horizontal portion ( 202 facing away from the end.

The pillar-beam connection structure according to the present embodiment includes a pair of vibration suppressing structures 1 and 1 that are symmetrically installed with respect to the vertical portion 203. Each of the pair of vibration suppressing structures 1 and 1 includes iron plates 10 having a lower yield strength than the pillar member 100, the beam member 200, and the horizontal plate portion 104, and the iron plate after fastening. Fasteners 4 having a yield point higher than those of 10; In the disconnection region 204, end portions of the horizontal plate portion 104 extending from the pillar member 100 and the lower horizontal portion 202 of the beam member 200 are connected to the pillar member 100 and the beam member 200. ) And the steel plates 10 having a lower yield strength than the horizontal plate portion 104. The iron plate 10 is an iron plate 10 disposed in contact with the upper surface of the horizontal plate portion 104 and the upper surface of the lower horizontal portion 202, the bottom surface of the horizontal plate portion 104 and the lower horizontal portion 202 Iron plate 10 is disposed in contact with the bottom of the. Accordingly, the iron plates 10 are sandwiched with the horizontal plate part 104 and the lower horizontal part 202 interposed therebetween.

The plurality of fasteners 4 may include one fasteners 4 for fastening one side portion of the iron plates 10 in the vertical direction to the horizontal plate portion 104 and the other side portions of the iron plates 10. It consists of the other fasteners (4) for fastening in the vertical direction to the horizontal portion (202). The fasteners 4 are configured to be disassembled by unscrewing the nut from the bolt, thereby allowing the stacking number of the iron plates 10 to be adjusted, wherein the horizontal plate portion 104 and the lower horizontal portion ( Based on 202, the number of stacked sheets 10 is always the same. In addition, each of the one side fasteners 4 and the other side fasteners 4, as shown in Figure 3, two or more arranged in a direction parallel to the extending direction of the beam member 200 Fasteners 4, 4.

As mentioned above, it is possible to unscrew and disassemble the fasteners 4 by unscrewing the nut from the bolt, which, in turn, allows the iron plate 10 to be separated, which is the number of steel plates 10. It is possible to adjust or to replace the broken iron plate (10).

As mentioned above, in each vibration damping structure, the iron plates 10 and 10 are disposed symmetrically with respect to each other in the vertical direction on the basis of the horizontal plate part 104 and the lower horizontal part 202. Both sides of the iron plates 10 and 10 are detachably fastened to both sides of the horizontal plate part 104 and both sides of the lower horizontal part 202 by the fasteners 4, respectively. As mentioned above, when some of the iron plates 10 and 10 are damaged, the fastening of the fastener 4 may be dismantled to remove the damaged iron plate and replace it with another iron plate. In the process of replacement, the undamaged steel plates remain connected.

The iron plates 10 and 10 have a yield strength lower than that of the column member 100, the beam member 200 and the horizontal plate portion 104, as mentioned above, so that for external forces or vibrations, It is better to be destroyed first. Two or more fasteners 4 and 4 arranged as mentioned above are disposed adjacent to each other so as to offset the rotational moment generated in the H-beam 200 about one bolt fastener 4, As a result, the iron plates 10 and 10 can be prevented from performing undesired behavior in the rotational direction. The vibration damping structure 1 may be arranged such that the iron plates 10 and 10 receive horizontal loads in their longitudinal or width directions. The gap between the horizontal plate part 104 and the lower horizontal part 202 may always be constant in the width direction.

As mentioned above and illustrated in FIG. 6, a pair of vibration suppression structures 1 and 1 are installed on both sides of the vertical portion 203 of the beam member 200, and the pair of vibration suppression structures ( 1) is disposed symmetrically with respect to the vertical portion 203.

7 (a) and 7 (b) are views showing vibration suppression structures in which the number of steel plates is adjusted.

Referring to FIG. 7A, iron plates 10 and 10 are stacked in two layers, respectively, on the upper and lower surfaces of the horizontal plate portion 104 and the upper and lower surfaces of the lower horizontal portion 202. Referring to (b) of FIG. 7, iron plates 10, 10, and 10 are stacked in three layers to face each of the upper and lower surfaces of the horizontal plate portion 104 and the upper and lower surfaces of the lower horizontal portion 202. As desired, it is possible to laminate iron plates in four or more layers. In addition, the number of the stack of the iron plate 10 is the same on both sides with respect to the lower horizontal portion 202 or the horizontal plate portion 104.

According to the magnitude of the horizontal load acting on the joint portion between the pillar member 100 and the beam member 200, the number of the iron plate 10 of the vibration damping structure 1 can be arbitrarily selected and adjusted. And, the adjustment of the number of iron plate can be made in a simple manner by the separation and fastening of the mall | fastener (4).

As described above, the column-beam connection structure according to the present invention has been described with reference to the accompanying drawings, but various modifications and changes can be made without departing from the spirit of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the claims below, but also by those equivalent to the claims.

100: pillar member 200: beam member
201: upper horizontal part 202: lower horizontal part
203: vertical portion 104: horizontal plate portion
4: fastening part 204: disconnection area

Claims (3)

In the column-beam connection structure that is prefabricated and used for joining columns and beams in a construction site,
A vertical pillar member including a planar joining surface, the vertical pillar member being part of a pillar at a construction site;
The upper horizontal portion, the lower horizontal portion and the vertical portion is integrally part of the beam at the construction site, the end portion of the upper horizontal portion and the upper end of the vertical portion is joined to the joint surface by welding, the lower portion where the stress is concentrated An end portion of the horizontal portion and a lower end portion of the vertical portion, the beam member being disconnected from the joining surface;
A horizontal plate portion having the same thickness as the lower horizontal portion and welded to the joint surface at the same height as the lower horizontal portion to face the end portion of the lower horizontal portion spaced apart; And
It is installed between the horizontal plate portion and the lower horizontal portion for vibration suppression, and includes a pair of vibration suppression structure disposed symmetrically with respect to the vertical portion,
Each of the pair of vibration suppression structures includes a plurality of iron plates and a plurality of fasteners,
The plurality of iron plates are arranged in contact with the upper and lower surfaces of the horizontal plate portion and the upper and lower surfaces of the lower horizontal portion in a sandwich manner,
The plurality of fasteners include one fasteners for fastening one side portion of the iron plates to the horizontal plate portion in a vertical direction and the other fasteners for fastening the other portion of the iron plates in the vertical direction to the lower horizontal portion.
The iron plates have a lower yield strength than the pillar member, the beam member and the horizontal plate portion,
An end surface of the upper horizontal portion and an upper end surface of the vertical portion are continuously connected to form a vertical straight surface in which welding is performed with respect to the joining surface.
Extends in a straight line inclined from the straight surface to the lower horizontal portion to form the disconnection region in a triangular shape at a lower portion between the pillar member and the beam member,
The gap between the horizontal plate portion and the lower horizontal portion is a column-beam connection structure having a damping structure, characterized in that the same throughout the width. The method according to claim 1,
The fasteners are configured to be dismantled by unscrewing the nut from the bolt to have a yield point greater than that of the iron plates, and to control the stacking number of the iron plates.
The number of stacking of the iron plates is always the same based on the horizontal plate portion and the lower horizontal portion,
The one fastener and the other fastener each of the column-beam connection structure having a vibration damping structure characterized in that it comprises two or more fasteners arranged in a direction parallel to the extending direction of the beam. delete

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