KR101808058B1 - Coupling beam of coupled shear wall to increase strength of the anchorage - Google Patents

Abstract

The present invention relates to a parallel shear wall coupling beam with increased strength of anchorage, comprising: a precast concrete (PC) block forming part to allow the outside of a rebar structure to be covered by a PC block with a size equal to or greater than that of a beam to be formed while burying the rebar structure allowing a pair of rebars to be penetrated; and an anchorage part to separate the rebars penetrating the PC block forming part to protrude from both sides at a predetermined interval by an anchorage plate while each of the rebars is coupled to allow a spiral stirrup to surround the outside thereof such that the rebars are embedded the inside of a shear wall. Thus, the anchorage part is previously manufactured in a manufacturing factory to be simply coupled to the rebar structure of the shear wall side on a site; thereby being able to construct a coupling beam with strong anchorage strength while being easy and fast.

Description

Coupling beam of coupled shear wall with increased strength of the anchorage,

The present invention relates to a parallel shear wall coupling beam with enhanced fixing strength. More specifically, the present invention relates to a parallel shear wall coupling beam having a reinforcing structure reinforced by a diagonal reinforcing bar to be precisely pre- A parallel shear wall coupling beam having a reinforcing structure for enhancing the joining strength together with the spiral stirrup in a diagonal reinforcing bar projecting to both sides of the block to increase the fixing strength so as to maximize the coupling strength with the parallel shear walls while minimizing the fixing length .

Generally, in order to exhibit the function of a high-rise building for a given purpose, a pipeline or elevator of various facilities is inevitably installed. For this purpose, a reinforced concrete wall is installed.

These walls are the main resistance elements of lateral loads such as winds or earthquakes acting on high-rise buildings. These walls are called shear walls, and the shear walls are slabs or couples And a parallel shear wall structure connected by a ring beam.

The shear walls typically provide structural safety as well as contributing to the prevention of damage to the non-structural structures and the shear walls may have one or more openings for vertical passageway and elevator shaft, duct and staircase installations. .

These shear walls are coupled by beams, and these beams are called coupling beams or coupling beams.

A coupled shear wall with an independent shear wall coupled with a coupling beam has high strength, stiffness and energy dissipation, so that it is resistant to lateral forces in high-rise structures. It is an efficient structural system.

Coupling beams are designed so that two walls behave integrally or independently depending on the stiffness. In order for the coupled shear wall to exhibit excellent seismic performance, a similar concept to the steel column-weakening system of moment frames The plastic hinge must first be generated in the coupling beam before the yielding mechanism occurs at the bottom of the shear wall.

In addition, when a lateral load such as a wind load or an earthquake load occurs on the shear wall, more deformation occurs in the coupling beam than in the shear wall, so that the structure including the constraining steel surrounding the diagonal multi- .

According to the current KBC2009 (Building Structural Design Standard), the height limit when constructing a high-rise building of 60m or more corresponding to the seismic design category D is applied, so that the construction can be made only when special details of the coupling beam are applied along with the special shear wall structure. .

However, most of the diagonal reinforcement details of the coupling beam are subjected to the construction work on the site because of the multi-beam reinforcement, and thus it is difficult to construct the complex reinforcement in a narrow space.

Particularly, since the thickness and height of the coupling beam gradually become thinner, there is a problem that the placement in the field becomes more difficult.

Further, in order to fix the coupling beam to the front end wall, the fixing length of the diagonal reinforcing bar becomes excessively long, so that there is a problem that there is a lot of restrictions on the construction.

Therefore, there is a need for restraining the entire reinforced concrete coupling beam and improving the construction and assembly of the inner diagonal reinforcing bars.

Published patent application 2012-0074386 (Jul. Registration No. 1428752 (April 4, 2014)

Accordingly, it is an object of the present invention to solve the above problems and to solve the above problems, and it is an object of the present invention to provide a precast concrete block having a precise size, So as to increase the fixing strength so that the efficiency of construction can be greatly improved.

In addition, the present invention provides a fixing structure in which a fixing plate welded with helical stubs is fixed to a reinforcing bar projecting to both sides of a precast concrete block, thereby minimizing the length of the reinforcing bars projected, Another object is to provide a parallel shear wall coupling beam with increased strength.

In order to achieve the above object, the present invention provides a parallel shear wall coupling having an increased fixing strength according to the present invention, wherein a reinforcing structure for allowing a pair of reinforcing bars to pass therethrough is buried, A precast concrete block forming part to be covered by a precast concrete block to be largely enclosed; The pair of reinforcing bars projecting to the both sides through the precast concrete block forming part are fused in the interior of the front wall so that the spiral stirrups are coupled to surround the outside while being spaced apart by a fixed distance by the fixing plate .

In the above construction, the reinforcing bars are made of a pair of reinforcing beams spaced apart from each other by a predetermined distance, and the fixing plate is fixed by one or more lock nuts on each side of the end side of the reinforcing bars while allowing the reinforcing bars to pass therethrough.

The pair of reinforcing bars are spaced apart from each other by a predetermined height so as to be embedded in the precast concrete block in a parallel or X-shape.

With the parallel shear wall coupling beam of the present invention having the above-described configuration, the fixing unit can be simply connected to the reinforcing structure at the front wall side at the construction site, so that the concrete construction of the shear wall can be performed. And it is possible to cope with the earthquake more appropriately.

Further, the present invention allows the concrete block to be formed in advance in a precise size with respect to the thickness of the front wall and the height of the beam, so that the construction time can be greatly shortened while being more accurately installed in the field.

In the meantime, according to the present invention, the diagonal reinforcing bars connected to the front wall side are formed with spiral stubs, respectively, so that the joining strength with the shear walls and the joining strength can be further improved, and at the same time, the stiffness of the beams can be maximized, have.

1 is a perspective view illustrating an embodiment of a parallel shear wall coupling beam with an increased fixing strength according to the present invention;
FIG. 2 is a perspective view showing the internal structure of the precast concrete block forming part in the parallel shear wall coupling beam with the fixing strength of FIG. 1 enhanced;
Fig. 3 is a front view of Fig. 1
4 is a side cross-sectional view illustrating a connection structure of a reinforcing bar horizontally arranged between reinforcing beams in a parallel shear wall coupling beam having increased fixing strength according to the present invention
FIG. 5 is an enlarged perspective view illustrating a configuration in which a fixing plate is coupled between reinforcing beams of a reinforcing bar in a parallel shear wall coupling beam having a fixing strength according to the present invention enhanced. FIG.
6 is an enlarged perspective view illustrating a configuration in which a fixing plate is coupled to an end portion of a reinforcing beam of a reinforcing bar in a parallel shear wall coupling beam having increased fixing strength according to the present invention.
FIG. 7 is a front sectional view illustrating a structure in which a spiral stirrup is installed in a reinforcing beam embedded in a precast concrete block forming part in a parallel shear wall coupling beam having a fixing strength according to the present invention enhanced;
8 is a front view illustrating an embodiment in which a parallel shear wall coupling beam having a fixing strength according to the present invention is applied to a shear wall

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a parallel shear wall coupling beam with a fixing strength according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view illustrating an embodiment of a parallel shear wall coupling beam in which the fixing strength according to the present invention is enhanced. FIG. 2 is a perspective view of a parallel shear wall coupling beam with a fixing strength of FIG. Fig. 3 is a front view of Fig. 1; Fig.

As shown in the figure, the parallel shear wall coupling with enhanced fixing strength of the present invention is largely constituted as a precast concrete block forming section 10 and a fixing section 20.

The precast concrete block forming part 10 in the parallel front shear wall coupling beam with the fixing strength of the present invention reinforced has a constitution that forms substantially the shear walls on both sides or between the columns or between the shear walls and the columns.

The precast concrete block forming part 10 is a concrete block formed in accordance with the size of a beam to be formed, and various reinforcing steel structures are embedded in the concrete block.

In the present invention, the precast concrete block forming unit 10 is constructed by arranging the reinforcing steel structure in the same shape as the reinforcing steel structure installed at the construction site, molding the concrete outside the reinforced steel structure, .

Therefore, the reinforcing steel structure to be laid in the precast concrete block forming portion 10 is very similar to the structure of the reinforcing steel structure of the coupling beam using the conventional multi-layer reinforcing bars.

That is, the reinforcing structure constituting the precast concrete block forming part 10 is a rectangular reinforced concrete structure made up of the upper and lower cast iron rods 11 and 12, the reinforcing bars 13 and the head bar 14, 15 are inserted into the pre-cast concrete block 16 while penetrating in an X-shape or parallel.

In such a reinforcing structure, the upper and lower cast iron rods 11 and 12 are each provided in two or more pieces, and horizontally and horizontally arranged parallel to each other while maintaining a constant interval in the upper and lower portions.

The lengths of the upper and lower cast iron rods 11 and 12 are longer than the length of the beam to be actually formed so as to partially protrude toward the front end walls of both sides to resist the tensile force acting on the coupling beam.

However, if the height of the beam is high, it is also possible to provide an intermediate steel root (not shown) between the upper and lower cast iron rods 11 and 12.

The upper and lower cast iron rods 11 and 12 are formed in a rectangular shape on the side surface and the band bars 13 for winding the outer sides of the upper and lower cast iron rods 11 and 12 are spaced apart at regular intervals in the longitudinal direction So that a plurality of pieces are arranged.

The strip reinforcing bar 13 is provided to reinforce the shear force of the upper and lower cast iron rods 11 and 12, and the number of formed ribs 13 can be adjusted according to the forming length and reinforcement strength of the beam.

This is the band reinforcing bar 13 provided in a direction perpendicular to the upper and lower cast iron rods 11 and 12 provided in the horizontal length direction of the beam.

A head bar 14 is provided at one side of the band reinforcing bars 13 in a trench shape that opens downward.

The head bar 14 is provided at one side of each of the strip bars 13 formed at regular intervals along the longitudinal direction of the upper and lower cast iron rods 11 and 12. The head bar 14 is fixed at both lower ends of the body A head having a cross section with a larger diameter than the body is mounted so as to be fixedly fixed to the upper and lower cast iron rods 11 and 12 or the bar reinforcing bars 13 toward the inside of the space of each band reinforcing bar 13.

The head bar 14 is fixed to the upper and lower cast iron rods 11 and 12 or the belt bar 13 by binding the bars or the head with a binding wire or by welding.

In such a reinforcing structure, a pair of reinforcing rods 15 are passed through in parallel or X-shaped crossing.

A pair of reinforcing bars 15 according to the present invention each have a pair of reinforcing beams 150 spaced vertically or horizontally parallel to each other at regular intervals as shown in FIG.

However, it is also possible that the pair of reinforcing bars 15 are combined with each other so that the reinforcing beam 150 on one side of the reinforcing bars 15 is positioned between the reinforcing beams 150 on the other side of the reinforcing bars 15.

It is most preferable that the precast concrete block 16 of the present invention is a portion that substantially forms a coupling beam, but is formed to have the same length as the forming length of the coupling beam.

The precast concrete block 16 is a concrete block formed to have a predetermined size such that the upper and lower cast iron rods 11 and 12, the steel bar 13, the head bar 14 and the reinforcing bars 15 are embedded.

The precast concrete block 16 is formed to be longer than the length between the reinforcing bars 13 at both ends and shorter than the length of the upper and lower cast iron rods 11 and 12. [

Therefore, the precast concrete block 16 is a portion that forms a substantial coupling beam.

Since the precast concrete block forming part 10 of the present invention is preformed by precise design in the factory in advance, it can be molded to the exact size of the coupling beam to be applied, and mass production is possible with the same size.

The fixing part 20 is formed on both sides of the precast concrete block forming part 10.

The fixing unit 20 of the present invention is configured to connect and fix the coupling beam to the front end walls on both sides.

The fixing unit 20 is composed of a reinforcing bar 15 and upper and lower cast iron rods 11 and 12 extending to both sides while forming the precast concrete block forming unit 10.

The upper and lower cast iron rods 11 and 12 are formed to be shorter than the length of the reinforcing ropes 15 and fixed at both ends of the reinforcing ropes 15 penetrating the precast concrete block forming portions 10 to both sides (20) is provided.

FIG. 5 is an exploded enlarged and separated perspective view illustrating a configuration in which a fixing plate is engaged between reinforcing beams of a reinforcing bar in a parallel shear-wall coupling beam having increased fixing strength according to the present invention. FIG. 6 is a cross- In which the fixing plate is coupled to the end of the reinforcing beam of the reinforcing bars in the parallel front shear wall coupling beams.

As shown in the figure, the fusing unit 20 includes a spiral stub 21 having a shape in which a pair of reinforcing beams 150 constituting the reinforcing bars 15 are simultaneously wound in a spiral shape from the outside, The stub 21 of the stub 21 is provided to surround the outer sides of the pair of the reinforcing beams 150 in various shapes such as an elliptical shape or a triangular shape.

The reinforcement beams 150 are formed on the ends of the reinforcing bars 15 in units of the reinforcement rods 15 formed of the pair of reinforcing beams 150. The reinforcing beams 150 are formed on the end portions of the reinforcing beams 150, So that the fixing plate 22 is engaged so that the end of the fixing plate 22 penetrates in the longitudinal direction.

However, it is also possible to provide the fixing plate 22 so that one end of the clip-type fixing bar 220 having a predetermined length between the pair of reinforcing beams 150 in the longitudinal direction of the reinforcing bars 15 is fixed by welding .

It is also possible to fix the fixing bar 220 to the spiral stub 21 by welding.

At least one lock nut 23 is coupled to the end of each reinforcing beam 150 for fixing the fusing plate 22 at the end of the reinforcing bars 15.

In each reinforcing beam 150, the fusing plate 22 is fixed to prevent movement of the reinforcing beam 150 in the axial direction by engaging one or more lock nuts 23 on each side.

When the fixing plate 22 is fixed by the lock nut 23, the fixing plate 22 can maintain a vertical state with respect to the axial direction in the reinforcing beam 150, and the concrete can be stably It is fixed and buried.

In addition, the reinforcing bars 15 made of a pair of reinforcing beams 150 maintain the gap between the pair of reinforcing beams 150 to be constant by the fixing plate 22.

On the other hand, it is also possible to omit the locknut 23 to the reinforcing beam 150 and to fix them by welding, respectively.

7, a spiral stirrup 21 having the same structure as that of the spiral stirrup 21 welded at one end to the fusing plate 22 is formed on the outer peripheral surface of the reinforcing bar 15 embedded in the precast concrete block forming portion 10, So as to be embedded in the concrete.

A process of constructing the coupling beam using the parallel shear wall coupling beam with the fixing strength according to the above-described configuration is described in more detail as follows.

The parallel shear wall couplings having enhanced fixing strength of the present invention have a pair of reinforcing bars 15 parallel to the inside of a rectangular frame made up of the upper and lower cast iron rods 11 and 12, the belt bar 13 and the head bar 14 Or X shape, so that they are manufactured by using the formwork which is manufactured by the same or larger length as the size of the coupling beam to be installed in a separate manufacturing factory rather than the construction site.

The precast concrete block 16 is formed into a precise size by placing precast concrete in the form of a precise size so that the precast concrete block 16 is transported to the construction site in a molded state and connected between the front walls.

The coupling of the present invention has the same size as the shape of the beam to be welded, and the reinforcing frames are buried therein to maximize the strength of the beam, while being uniformly connected as an exact size.

Above all, in the construction site, the interference with other structures, especially the tendency that the height and the thickness of the shear walls have been gradually reduced recently, makes it difficult to secure a relatively small height and thickness of the coupling. The precast concrete block can be manufactured so as to have sufficient rigidity in advance so that it is very easy to manufacture and can shorten the manufacturing time as well.

In addition, even if the height and thickness of the coupling beam are reduced, the coupling with the concrete and the strength of the structure can be more strongly formed, and the same size can be mass-produced.

The prefabricated couplings of the present invention can be inserted between the front walls at the construction site and the upper and lower cast iron rods 11 and 12 and the reinforcing ropes 15 formed to protrude from both sides of the precast concrete block forming portion 10 The end portion is firmly connected to the reinforcing bar structure for shear wall forming so as to form the coupling beam.

When the coupling beam is connected to the reinforcing bar structure for shear wall forming, the fixing plate 22 is firmly fixed to the pair of reinforcing beams 150 constituting the reinforcing bars 15 of the coupling beam by the locknuts 23, The helical stub 21, which is welded to the fusing plate 22 at one end, is wound on the beam 150, so that the fixing force with the shear wall becomes stronger.

In this way, the reinforcing bars for shearing wall are connected to the ends of the reinforcing beams 150 by welding or separate connecting means between the front end walls of both sides, and the shear reinforcing bars are welded to the fixing plate 22 It is possible.

When the shear wall 21 is formed by the concrete pouring and hardening after the coupling beam of the present invention is fixed and the shear wall is formed by the concrete as shown in FIG. 8, the fixing plate 22 is embedded in the concrete together with the spiral stirrup 21, ) Is made stronger.

That is, when the pair of reinforcing beams 150 are wrapped and fixed by the spiral stirrup 21 and the fusing plate 22, it is possible to fix the reinforcing bars by using the plural bundle reinforcing bars using a plurality of reinforcing bars at the time of fixing at the front end wall 30 It can exhibit a stronger fixing force than a fixing force and a strong fixing force even with a smaller number of bars.

The fixation by the combination of the reinforcement rope 15 of the present invention with the spiral stirrup 21 and the fixation plate 22 can be fixed even if the length of the previous bundle reinforcement rods buried in the front end wall 30 is significantly shortened It is possible to appropriately cope with recent trends in which the thickness of the front end wall 30 is narrowed and at the corner wall side where the front end wall 30 side width is formed to be very short.

In particular, the spiral stirrup 21 of the present invention has a tensile force for supporting the coupling beam at the front end wall 30, so that even if a certain load is applied to the coupling beam, tensile force greater than a certain level is applied from the front end wall 30, So that the reinforcing bars 15 are prevented from being separated from the concrete.

As described above, the present invention minimizes the work in the construction site to minimize the construction period, and even if the projecting length of the reinforcing beam 150 protruding from both sides of the precast concrete block forming part 10 is shortened as much as possible, So that it is possible to easily apply it anywhere even if the width or the thickness of the front end wall 30 is excessively reduced. Thus, it is possible to cope with the tendency of a recent wall thickness to be thin.

Meanwhile, since the present invention can significantly shorten the construction time in the field, it is possible to provide a very economical advantage of reducing the construction cost and the number of times of maintenance.

10: Precast concrete block forming part
11: upper cast iron root 12: lower cast iron root
13: belt reinforcement 14: head bar
15: Reinforcement beam 150: Reinforcing beam
16: Precast concrete block
20:
21: stirrup 22: fixing plate
23: lock nut 30: front wall

Claims (7)

A precast concrete block forming unit for covering a reinforced concrete structure such that a pair of reinforcing bars penetrate through the reinforced concrete structure, the reinforced concrete structure being covered by a precast concrete block that covers the outer surface of the reinforced concrete structure,
A pair of reinforcing bars projecting from both sides of the precast concrete block forming part are coupled to each other so as to surround the outer side of the reinforcing bars while a pair of reinforcing beams are spaced apart at regular intervals by the fixing plate A fixing unit to be embedded in the interior of the front end wall;
As shown in Fig.
Wherein the precast concrete block forming unit comprises:
Two or more sets of upper and lower cast iron steels which are horizontally arranged parallel to each other in the axial direction while keeping a predetermined gap therebetween,
A plurality of reinforcing bars reinforcing the shear force of the upper and lower cast iron rods so as to surround the upper and lower cast steel ropes and surrounding the upper and lower cast steel ropes,
A head bar provided in a trench shape that opens downward from one side of a band bar formed at regular intervals and facing the inside of the space of the bar bar so that a head having a cross section with a larger diameter than a body is mounted on both lower ends of the body,
A pair of reinforcing bars spaced at a certain height from each other in the inside of the reinforcing structure made up of the upper and lower cast steel rods,
A precast concrete block that is longer than the length of the bar reinforcements at both ends and shorter than the length of the upper and lower cast iron bars so that the upper and lower cast iron bars, the bar reinforcement, the head bar and the pair of reinforcement bars are embedded, Parallel shear wall coupling beams with increased strength.
delete The method according to claim 1,
Wherein the upper and lower cast iron rods are formed longer than the length of the beam to be actually formed so that the fixing strength is increased so that a portion of the upper and lower cast iron rods is partially inserted into the shear walls on both sides.
The method according to claim 1,
The pair of reinforcing bars are arranged such that a pair of reinforcing beams are arranged horizontally, and a pair of reinforcing beams of the reinforcing bars are arranged vertically and vertically or horizontally, .
The method according to claim 1,
Wherein the fixing plate has a fixing strength in which one or more lock nuts are fastened to both sides of the reinforcing beam so that a male screw is formed at an end of each reinforcing beam through which each reinforcing beam of the reinforcing bars is made, Enhanced parallel shear wall coupling beams.
The method of claim 5,
Wherein the fixation plate is formed with a pair of reinforcing beams, and one end of the clip-like fixing bar is fixed by welding while the fixation strength is increased in the longitudinal direction of the reinforcing beam.
The method according to claim 1,
And a reinforcing bar embedded in the reinforcing structure of the precast concrete block forming part is reinforced with a fixing strength for embedding a spiral stirrup that encloses a pair of reinforcing beams.

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