KR101145549B1 - A reinforcing structure for joint and method for it - Google Patents

Abstract

The present invention relates to a joint reinforcing structure of the column and the cheolgolbo and the construction method of the structure, and more specifically, it can reduce the overall cross-sectional area and the steel amount of the beam by additional reinforcement using a reinforcing member to the joint where the moment occurs the maximum. The present invention relates to a joint reinforcing structure of a column and a steel beam and easy to be constructed by reducing its own weight, and a construction method thereof.

Cheolgolbo, column, joint, reinforcement

Description

Joint reinforcement structure of pillar and cheolgolbo and construction method of it {A REINFORCING STRUCTURE FOR JOINT AND METHOD FOR IT}

The present invention relates to a joint reinforcing structure of the column and the cheolgolbo and the construction method of the structure, and more specifically, it can reduce the overall cross-sectional area and the steel amount of the beam by additional reinforcement using a reinforcing member to the joint where the moment occurs the maximum. The present invention relates to a joint reinforcing structure of a column and a steel beam and easy to be constructed by reducing its own weight, and a construction method thereof.

In general, cheolgolbo (H-shaped steel beam) is installed between the column and the pillar is widely used to support the slab, which is the floor of each layer of the structure. That is, the cheolgolbo is installed between the pillar and the pillar, the slab is formed on the top of the cheolgolbo to form a structure.

In this case, the moment generated at the joints of the cheolgolbo and the pillar, that is, both ends of the cheolgolbo is about twice higher than the moment generated in the center of the cheolgolbo. Therefore, when designing the cheolgolbo is designed based on the moment occurring in the joints, that is, both ends of the cheolgolbo.

As the design is based on both ends of the cheolgolbo, the height of the cheolgolbo is relatively higher than the moment value except at both ends of the cheolgolbo, and as the height of the cheolgolbo increases, its own weight increases, so the construction space is not easy. This reduces the economic problem.

In addition, the steel slab and the slab on the upper portion is composed of a heterogeneous material, thereby reducing the adhesion force, there is a problem of lowering the durability of the structure.

In order to solve the problems described above, by reducing the cross-sectional area and the amount of steel of the steel cheolgolbo by reinforcing the joint of the column and the cheolgolbo, that is, the end of the cheolgolbo, it is possible to increase the geometry space, and to increase the adhesion between the slab and steel cheolbo The purpose of the present invention is to provide a reinforcing structure of the joint and the construction method of the pillar and cheolgolbo can increase the durability of the structure.

In order to achieve the above object, the joint reinforcing structure of the pillar and the cheolgolbo according to the present invention is a reinforcing structure of the column and the cheolgolbo of the structure consisting of the slab of the upper cheolgolbo and the cheolgolbo between the pillars, the tensile reinforcing bar on the top of the slab of the junction and; A first stud inserted into the slab from an upper portion of the cheolgolbo; A concrete part surrounding the cheolgolbo; Reinforcement member configured in the concrete portion; characterized in that consisting of.

In the present invention, the reinforcing member is to reinforce the stiffness of the structure as a whole by reducing the cross-sectional area and the amount of steel of the entire beam by increasing the strength of the joint portion and secures the integral behavior between the different materials, in the present invention bent reinforcing bar as a reinforcing member , Housing and the like have been proposed.

First, the bending reinforcing bar is configured to be mounted inside the slab in the concrete part, and is composed of a pair of units, each of which is configured in the shape of the bent hook is characterized in that it is configured to face each other with the cheolgolbo between.

In addition, the lower tensile reinforcing bar may be embedded in the lower portion of the concrete, the bent reinforcement is configured so that the lower portion of each unit to wrap the reinforcing bar, the bent reinforcing bar to function as a stub.

On the other hand, in the present invention as the reinforcing member is provided a housing surrounding the outer periphery of the concrete portion.

Inside the housing, the plate formed with through holes on both sides with the cheolgolbo therebetween is configured to face each other to promote adhesion between the heterogeneous concrete part and the housing.

In addition, by forming a closing plate at the end of the housing to maintain the shape of the housing and functions as a formwork.

On the other hand, the housing may be provided with a support plate that is attached to the cheolgolbo one end on each side with the cheolgolbo between, and the other end is attached to the inner periphery of the housing.

It is reasonable that the support plate is configured in a bent shape.

In addition, in the present invention, a plurality of second studs are formed on the inner circumference of the housing in order to enhance adhesion between the heterogeneous concrete part and the housing.

On the other hand, the cheolgolbo can be reinforced in the strength of the joint by configuring the lower flange is larger than the upper flange in the joint.

Meanwhile, the construction method of the joint reinforcement structure of the pillar and the cheolgolbo of the present invention includes the steps of connecting the cheolgolbo to the pillar of the structure; Installing a reinforcing member at the joint; And pouring concrete to form a concrete portion.

As described above, the joint reinforcement structure of the pillar and the cheolgolbo according to the present invention and its construction method can reduce the cross-sectional area and the steel amount of the entire beam by separately reinforcing the joint (end) of the column and the cheolgolbo with the largest bending moment, There is an advantage that the mold space is increased.

In addition, the joint reinforcement structure and the construction method of the pillar and cheolgolbo according to the present invention has the advantage that can ensure the integral behavior between the slab, concrete portion and the reinforcing member of the joint.

In addition, the joint portion reinforcement structure and the construction method of the column and the cheolgolbo according to the present invention does not need a separate formwork when using the housing as a reinforcement structure there is an easy construction and economic advantages.

Hereinafter, exemplary embodiments of the present invention will be described with reference to FIGS. 1 to 5.

1 is a plan view showing a joint in the column and cheolgolbo of the present invention, Figures 2a and 2b is a plan view showing a first embodiment of the present invention and a cross-sectional view taken along the line A-A ', Figures 3a to 3c Is a plan view showing a second embodiment of the present invention, a cross-sectional view taken along the line B-B 'and C-C', Figure 4a to 4c is a plan view showing a third embodiment of the present invention, line D-D ' And sectional views taken along line E-E ', and FIGS. 5A to 5C are sectional views taken along line F-F' and G-G ', showing a fourth embodiment of the present invention.

The present invention relates to the joint reinforcing structure constituting the reinforcing member 140 of various embodiments to reinforce the strength of the bending moment in the joint (J) in the column 10 and the cheolgolbo 20 as shown in FIG. will be.

The joint (J) is a portion corresponding to a predetermined distance (R) from the end of each cheolgolbo 20 as a peripheral portion 10 corresponds to the portion that needs to be reinforced for the bending moment. Therefore, the reinforcing member 140 of the present invention to be described below is configured in a portion corresponding to a predetermined distance (R) at the end of the cheolgolbo 20 to reinforce the strength of the joint (J).

In the present invention, cheolgolbo 20 is composed of a web 22 for connecting the upper and lower flanges 21 and 23 and the upper and lower flanges 21 and 23 by the "H" beam.

In addition, in the present invention, the upper tension reinforcing bar 110 is arranged in the upper end of the slab 30 of the junction (J). This is because the parent moment acts at the junction (J) to reinforce the upper tensile reinforcement 110 on the top of the slab (30).

In addition, in the joint portion J, the concrete part 130 is poured while wrapping the cheolgolbo 20 in the cheolgolbo 20. This is to reinforce the strength of the joint (J) as well as to increase the adhesion between the heterogeneous material of the slab 30 and the cheolgolbo 20.

In addition, in the present invention, the first stud 120 mounted to the inside of the slab 30 is formed on the upper side of the cheolgolbo 20, the cheolgolbo 20 and the slab based on the first stud 120 (30) is to enable the integral behavior, the strength of the joint (J) is reinforced by this integral behavior. The first stud 120 is attached to the upper flange 21 of the cheolgolbo 20, the method of attachment is well known, such as welding, the description thereof will be omitted.

In the present invention constituted as described above to reduce the cross-sectional area and the steel amount of the entire beam by reinforcing the strength of the joint (J) by having a unitary behavior with the concrete portion 130, bar reinforcement member 140, bar bending Rebar 141, housing 142 and the like are presented.

First, as the reinforcing member 140 of FIGS. 2A and 2B, a bending reinforcing bar 141 is provided.

 The bent reinforcing bars 141 are mounted inside the concrete unit 130, and are composed of a pair of units 141a and b, respectively, configured to be bent hook shapes to face each other with the cheolgolbo 20 therebetween. The concrete unit 130 is mounted inside. One end of the pair of units 141a and b is mounted inside the slab 30, and the other end of the pair of units 141a and b is embedded in the concrete part 130 in parallel with the web 22 of the cheolgolbo 20 based on the bent shape. will be. As the reinforcing bar 141 bent in a hook shape is embedded in the concrete part 130, the slab 30 and the concrete part 130 and the cheolgolbo 20 will be integrated, and the joints (based on the integral behavior) The strength of J) is to be reinforced.

The bent reinforcing bar 141 is embedded in parallel to the R portion of FIG. 1 along the cheolgolbo 20 as shown in Figure 2a, the number of the bent reinforcing bars 141 can be selectively configured in consideration of the working load, etc. However, if the mounting too much, the concrete constituting the concrete portion 130 is not tightly filled in the formwork (not shown in the drawing.) Since the defects may occur in the concrete portion 130, the number of appropriate It must be fitted.

In addition, a lower tensile reinforcing bar 131 may be embedded in the lower portion of the concrete part 130, the bending reinforcing bar 141 is a lower portion (bent portion) of each unit (141a, b) is the tensile reinforcing bar ( 131 is configured to surround the bent rebar 141 may also function as a stub.

Meanwhile, in the present invention as the reinforcing member 140, a housing 142 surrounding the outer periphery of the concrete portion 130 is shown as shown in FIGS. 3A to 3C. The housing 142 is configured to surround the concrete portion 130 while facing the cheolgolbo 20 in a plate shape bent "b" as shown in Figure 3b. The housing 142 may be attached to the lower flange 22 of the cheolgolbo 20 by welding or not shown in the drawing, but the fastening plate may be attached by a bolted bolt coupling, the method of attachment It is not limited.

In addition, the inside of the housing 142 is formed so that the plate 143 having the through-hole 143-1 on both sides with the cheolgolbo 20 therebetween are configured to face each other, the plate 143 is Attached to the inner circumference of the housing 142 and the side of the cheolgolbo 20 is configured in plurality in parallel along the cheolgolbo 20 in the junction (J) as shown in Figure 3a. The through hole 143-1 formed in the cheolgolbo 20 is intended to firmly adhere to the concrete part 130, and the number thereof is not limited.

In addition, a finish plate 143a is formed at the end formed by the concrete part 130 and the housing 142, and the finish plate 143a is formed in a quadrangular plate shape in the drawing as a flat plate. Thus, the finishing plate 143a is configured by the space formed by the housing 142 and the closing plate 143a by the function of the formwork when the housing 142 and the plate (143,143a) is installed first The concrete part 130 is formed by pouring concrete therein by using it as a formwork.

In FIGS. 3A and 3B, the plates 143 and 143a have a flat plate shape. However, the plates 143 and 143a may have a flat plate shape. However, the plates 143 and 143a may have a corrugated wave shape to enhance adhesion to the concrete part 130 and improve durability against longitudinal loads.

4A to 4C illustrate a third embodiment of the present invention.

In the third embodiment, since the housing 142 and the closing plate 143a in the second embodiment correspond to the same configuration, description thereof will be omitted. In the present embodiment, the support plate 144 is formed instead of the plate 143 in which the through hole 143-1 is formed, and the support plate 144 has a shape of a bent bar having a “a” shape. The inner periphery of and is attached to the web 22 of the cheolgolbo 20. In addition, it is reasonable that the support plate 144 is installed to face in pairs with the cheolgolbo 20 therebetween. By constructing the "b" shaped bent support plate 144 as well as to improve the strength resistance to the transverse direction will be able to strengthen the adhesion with the concrete portion 130.

In addition, in the present embodiment, it is reasonable to attach the plurality of second studs 145 to the inner circumference of the housing 142 to reinforce the adhesion between the concrete part 130 and the housing 142. Attaching method of the second stud 145 may also be variously attached by a known technique such as welding.

Meanwhile, FIGS. 5A to 5C show a fourth embodiment of the present invention. In the present embodiment, since the housing 142, the support plate 144, the stud 145, and the like in the third embodiment are configured in the same manner, the description thereof will be omitted.

In the present embodiment, as shown in FIG. 5A, the cheolgolbo 20 'itself has a width d1 of the lower flange 23' at the junction J, and a width d2 of the lower flange 23 'outside the junction J. Greater than). That is, by increasing the width d1 of the lower flange 23 'at the junction J, only some flanges are enlarged at the junction J where the moment is greatest, thereby enabling economic reinforcement. The cheolgolbo 20 'may be configured integrally with the junction (J) and the external portion, and can be attached separately by welding, bolted, etc. by a known configuration, selective in consideration of construction properties, ease of molding, etc. Of course, it can be configured as.

Meanwhile, the construction method of the joint reinforcement structure of the pillar and the cheolgolbo of the present invention includes: connecting the cheolgolbo to the pillar of the structure (S10); Installing a reinforcing member at the junction (S20); It is characterized by consisting of; including the step of pouring concrete to form a concrete portion (S30).

In the step (S10) of connecting the cheolgolbo to the pillar of the structure consists of the portion to be installed in the outer portion and the portion installed in the junction (J) according to the width of the lower flange 23 ' In case of attachment between the cheolgolbo 20 'is required.

In the step S20 of installing the reinforcing member in the joint portion, when installing the bending reinforcing bars 141 as the reinforcing member 140, a separate formwork is installed, and the housing 142 as the reinforcing member 140. And when installing the closing plate 143a and the plate 143 or the support plate 144 therein, there is no need to install a separate formwork, such a reinforcing member 140 is to serve as the formwork itself will be.

Although the above description has been made with reference to the embodiments of the present invention, the present invention is not limited to the above-described embodiments, and those skilled in the art will recognize that various changes and modifications can be made without departing from the technical spirit of the present invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description in the specification but should be defined by the claims.

1 is a plan view showing a joint in the column and cheolgolbo of the present invention.

2A and 2B are a plan view showing a first embodiment of the present invention and a cross-sectional view along the line A-A '.

3A to 3C are cross-sectional views taken along line B-B 'and line C-C', illustrating a second embodiment of the present invention.

4A through 4C are cross-sectional views taken along line D-D 'and E-E', respectively, illustrating a third embodiment of the present invention;

5A through 5C are cross-sectional views taken along line F-F 'and line G-G', illustrating a fourth embodiment of the present invention;

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

10: pillar 20: cheolgolbo

30: slab

110: upper tensile bar 120: stud

130: concrete part 140: reinforcing member

Claims (12)

delete delete delete delete delete Tensile reinforcing bar at the top of the joint in the joint reinforcement structure of the column and the cheolgolbo structure of the structure consisting of the steel cheolgolbo and the slab of the upper upper cheolgolbo; A first stud mounted inside the slab at an upper portion of the cheolgolbo; A concrete part surrounding the cheolgolbo; Reinforcing members formed in the concrete portion; In the reinforcing member reinforcement structure of the joint portion of the pillar and the cheolgolbo consisting of a housing surrounding the outer periphery of the concrete portion, The inside of the housing reinforcement structure of the pillar and the cheolgolbo, characterized in that the plate is formed so as to face each other with the through-holes in between. delete The method of claim 6, The housing is connected to the reinforcement structure of the pillar and cheolgolbo, characterized in that the support plate which is attached to the cheolgolbo and the other end is attached to the inner periphery of the housing on each side with the cheolgolbo between. The method of claim 8, The support plate reinforcement structure of the column and the cheolgolbo, characterized in that the bent shape. The method of claim 8, The inner periphery of the housing is a reinforcing structure of the column and the cheolgolbo characterized in that at least one second stud is configured. delete delete

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