KR20060025713A - Reinforcement structure of pole element for steel frame - Google Patents

Abstract

The present invention relates to a reinforcing structure of a pillar member for a steel structure, and in particular, by combining the H-shaped steel, which is a pillar member for a steel structure, and a base plate, using a C-shaped steel, which is a reinforcing material, a local buckling of the H-shaped steel even without a welding process. An object of the present invention is to provide a reinforcing structure of a pillar member for steel structure that can be reinforced for prevention.

The reinforcing structure of the pillar member for a steel frame structure of the present invention having the above object is installed on an upper portion of a base plate fixed to a fixed body by an anchor bolt and formed in a conventional pillar member for a steel frame structure composed of H-shaped steel forming a pillar member. In the lower and outer sides of the left and right flanges of the H-shaped steel, the c-shaped steel is installed in close contact with each other, the c-shaped steel is made by being fixedly coupled to the base plate through an anchor bolt connected to the fixture, the web of the H-shaped steel Since the above c-shaped steel is installed on both sides, reinforcement for preventing local buckling of the pillar member can be performed without conventional welding, thereby improving productivity according to the shortening of the process and at the same time reducing the production cost and vibration. It is possible to increase the safety of steel structure by preventing crack of welding part due to impact or impact. .

Steel structure, H-beam, C-beam, rib, pillar member, anchor bolt, reinforcement plate, fixture

Description

Reinforcement Structure of Pole Element for Steel Frame             

1A and 1B are a front view and a plan view showing a state where a conventional H-beam is installed on a base plate, respectively

2A and 2B are a front view and a plan view respectively showing a state in which the H-shaped steel is reinforced by a conventional reinforcing material on the base plate;

Figure 3 is a perspective view showing a reinforcing structure of the pillar member for a steel structure of the present invention

4a and 4b is a front view and a plan view respectively showing a reinforcing structure of the pillar member for a steel structure of the present invention

<Explanation of symbols for the main parts of the drawings>

10: base plate 15: anchor bolt

20: H section steel 20a: H section steel left flange

20b: H-shaped steel right flange 20c: H-shaped steel web

30: rib 50: steel beam

50a: c steel upper flange 50b: c steel lower flange

50c: gusset

The present invention relates to a reinforcing structure of a pillar member for a steel structure, and more particularly, by combining an H-shaped steel, which is a pillar member for a steel structure, and a base plate, using a C-shaped steel, which is a reinforcing material, even without the welding process, the H-shaped steel. It can be reinforced to prevent local buckling, which can improve productivity by shortening the process and reduce production cost, and prevent steel cracks from being welded due to vibration or impact, thereby increasing safety. It relates to a reinforcing structure of the pillar member for the structure.

In general, H-shaped steel is widely used as a pillar member for steel structures or structures of large structures such as buildings or ships, and when the H-shaped steel is used as a pillar member for steel structures, it is usually installed on a base plate to form a structure. do.

1A and 1B are front and plan views respectively illustrating a state in which a conventional H-beam is installed on a base plate, and the base plate 10 is fixed to an anchor bolt 15 coupled to a fixture (not shown). It is to achieve a firm fixed state, in the above state is installed H-shaped steel 20 on top of the base plate 10 to form a structure.

In the structure as described above, a moment is generated at the upper and lower ends of the H-shaped steel 20, which is a pillar member, when a horizontal external force such as wind load or earthquake load is applied, and the H-shaped steel ( At the lower end of 20), deformation such as buckling occurs as indicated by the dotted line in Fig. 1A.

Therefore, in order to prevent the occurrence of deformation as described above, at the lower end of the H-shaped steel 20 is to perform a reinforcement operation using a rib that is a reinforcing material between the base plate 10. This is shown in a front view and a plan view showing a state in which the H-shaped steel of Figures 2a and 2b is reinforced by a conventional reinforcement on the base plate.

When described with reference to the above drawings as follows.

First, the base plate 10 is fixed to the anchor bolt 15 coupled to the fixture (not shown) to achieve a rigid fixed state, the H-shaped steel 20 on the upper portion of the base plate 10 in the above state Is installed, the base plate 10 and the H-shaped steel 20 is coupled to each other by a rib 30, which is a reinforcing material. At this time, the rib 30 is coupled between the base plate 10 and the H-shaped steel 20 by a welding operation.

As described above, the deformation of the pillar member for the steel structure is prevented by using the rib 30, which is a reinforcing material, but the rib has to be manufactured separately by cutting the steel plate during the reinforcing work as described above. There was a problem that the welding work between the pillar member and the base plate should be performed separately during installation, and in addition to this, the anchor bolt is fastened on the upper surface of the base plate to support the pillar member during the site construction of the pillar member. In this case, there is also a problem that the workability is significantly reduced due to the relationship that the reinforcing material is an obstacle when setting the fastening tool and the fastening operation.

In addition, the pillar member is installed in a site that receives repeated loads such as vibration due to the structural characteristics of the steel structure, in this case, the probability of occurrence of cracks in the welded portion of the rib is high, and when the crack occurs in the rib welded portion affects the pillar member There is a problem that adversely affects the entire structure of the steel structure.

The present invention has been made in order to improve the conventional problems as described above, by combining the H-shaped steel, which is a pillar member for a steel structure and the base plate using the c-shaped steel as a reinforcing material, the localization of the H-shaped steel without the welding process It is possible to reinforce buckling prevention, improve productivity by shortening the process, and reduce production cost, and prevent the crack of welding part due to vibration or impact, and increase the safety. The purpose is to provide a reinforcing structure for the pillar member.

As a means for achieving the above object, the reinforcing structure of the pillar member for a steel structure of the present invention,

In the conventional steel member for the steel frame structure consisting of H-shaped steel is formed on the base plate fixed to the fixed body by the anchor bolt to form a pillar member,

The c-shaped steel, which is a reinforcing material, is installed in close contact with the lower outer surface of the left and right flanges of the H-shaped steel, and the c-shaped steel is fixedly coupled to the base plate through an anchor bolt connected to the fixed body. Reinforcement for buckling prevention is characterized in that possible.

In addition, the reinforcing structure of the pillar member for a steel frame structure of the present invention, the same c-shaped steel is installed on both sides of the web of the H-shaped steel, it is characterized in that to further increase the bearing capacity of the H-shaped steel on the base plate.

In addition, in the reinforcing structure of the pillar member for a steel structure of the present invention, at least one or more reinforcing plate is integrally coupled between the upper flange and the lower flange of the c-shaped steel, which is a reinforcing material, characterized in that to further increase the strength of the reinforcing material.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same components have the same number as much as possible even if displayed on different drawings.

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

Figure 3 is a combined perspective view showing the reinforcing structure of the column member for steel structure of the present invention, Figure 4a and 4b is a front view and a plan view, respectively, showing the reinforcing structure of the column member for steel structure of the present invention, as shown in the drawings , The reinforcing structure of the pillar member for a steel structure of the present invention, is installed on the upper portion of the base plate 10 fixed to the fixed body (not shown) by the anchor bolt 15 to the H-shaped steel 20 to form a pillar member In the conventional column member for a steel structure structure, the lower side of the left and right flanges (20a, 20b) of the H-shaped steel 20 is installed in close contact with each other, the c-shaped steel 50 is installed as described above, c Shape steel 50 is made by coupling to the base plate 10 through an anchor bolt 15 connected to the fixture.

In the above configuration, the c-shaped steel 50 is formed to be equal to or larger than the width of the flange (20a, 20b) of the H-shaped steel 20, but smaller than the width of the base plate 10, the base plate 10 In order to increase the reinforcement of the H-shaped steel 20 on the support.

In addition, in order to increase the reinforcement strength of the c-shaped steel 50, at least one or more reinforcing plate 50c (not shown in Figure 3) between the upper flange (50a) and the lower flange (50b) of the c-shaped steel (50) Can be appropriately increased or decreased depending on the overall length of the c-beams). At this time, the reinforcing plate (50c) is the same as the material of the flanges (50a, 50b), the thickness is formed to be the same as the thickness of the flanges (50a, 50b) for easy design and easy fabrication in one piece. .

And, in the structure of the c-shaped steel (50), the upper flange (50a) and the lower flange (50b) are formed through holes (not shown in the figure) through which the anchor bolt 15 passes, respectively, the anchor bolt (15) The through hole is formed in the center between the reinforcing plates 50c.

Therefore, through the base plate 10 in the through-hole of the anchor bolt 15 of the C-shaped steel 50 installed in close contact with the bottom outer surfaces of the left and right flanges 20a and 20b of the H-shaped steel 20, respectively. After passing through the anchor bolt 15 of the fixed body extending vertically, by tightening a nut (not shown) to the anchor bolt 15, the c-shaped steel 50 on the base plate 10 It is firmly coupled and fixed.

On the other hand, in addition to the above configuration, the c-shaped steel 50 is also fixed to both sides of the web 20c of the H-shaped steel 20 in the same manner as described above, further increasing the bearing force of the H-shaped steel 20 on the base plate 10. It may be.

By the reinforcing structure of the pillar member for steel frame structure of the present invention having the above-described configuration and coupling relationship, reinforcement for preventing local buckling of the H-shaped steel is possible without the conventional welding work.

In addition, in the field work side, no separate pre-work is required, and when the anchor bolt is fastened at the work site by setting the c-beam to be fastened, the work process is shortened and workability becomes easy.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and it is common in the art that various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

As described above, the reinforcing structure of the pillar member for steel structure according to the present invention is made of a structure in which the H-shaped steel and the base plate, which are the pillar members for the steel structure, are reinforced by using the C-shaped steel and anchor bolts as reinforcement materials, and thus, conventional welding By reinforcing to prevent local buckling of pillar members without work, it is possible to improve productivity by shortening the process and to reduce production costs, and to prevent cracks in welded parts due to vibrations or impacts. The safety can be further increased.

Claims (3)

In the conventional pillar member for steel structure structure consisting of the H-shaped steel 20 is formed on the base plate 10 fixed to the fixture by the anchor bolt 15 to form a pillar member, The c-shaped steel 50, which is a reinforcement, is installed in close contact with the bottom outer surfaces of the left and right flanges 20a and 20b of the H-shaped steel 20, and the c-shaped steel 50 is anchor bolt 15 connected to the fixing body. Reinforcement structure of the pillar member for a steel structure, characterized in that the coupling is made to the base plate 10 through) The reinforcing structure of a pillar member for a steel structure according to claim 1, wherein the c-shaped steel (50) is installed on both sides of the web (20c) of the H-shaped steel (20). The steel structure according to claim 1 or 2, wherein at least one reinforcing plate (50c) is integrally installed between the upper flange (50a) and the lower flange (50b) of the c-shaped steel (50). Reinforcement structure of pillar member.

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