KR102128219B1 - Seismic reinforcement structure for pilotis building - Google Patents

Abstract

The present invention relates to a seismic reinforcement structure of a piloti structure. A seismic reinforcement structure of a piloti structure, according to an embodiment of the present invention, is a seismic reinforcement structure of a piloti structure, which is installed inside a concrete column forming the piloti structure. The seismic reinforcement structure comprises: an upper reinforcement means which is installed at a predetermined height along a plurality of main column reinforcements vertically installed inside the concrete column, and includes an upper reinforcement member having a polygonal shape of which the inside is penetrated to surround the plurality of main column reinforcements, and a plurality of upper connection members extending in a downward direction from a portion where a plurality of corners constituting the upper reinforcement member intersect, respectively; and a lower reinforcement means which is installed to be spaced apart from the upper reinforcement means along the plurality of main column reinforcements, and includes a lower reinforcement member having a shape corresponding to the upper reinforcement member and having a penetrated interior that surrounds the plurality of main column reinforcements, and a plurality of lower connection members extending in an upward direction from the lower reinforcement member at positions corresponding to the plurality of upper connection members, respectively, and coupled to the plurality of upper connection members, respectively. Some of a plurality of tie bars horizontally installed to surround the plurality of main column reinforcements are disposed between the upper and lower reinforcement members.

Description

Seismic reinforcement structure for pilotis building

The present invention relates to a seismic reinforcing structure of a pilotti structure, and more specifically, to a seismic reinforcing structure of a pilotti structure capable of further reinforcing the seismic reinforcing structure by a plurality of column main bars and a plurality of strip rebars of an existing concrete column with a simpler structure. It's about structures.

In general, a pilotis structure refers to a structure in which a certain space is formed on the ground floor by constructing a multi-story building having a plurality of floors with a plurality of concrete pillars on the ground. Since the space formed on the ground floor can be used as a parking space or a traffic space, it has various advantages in providing residential space and solving parking problems, and has recently been applied to general multi-family houses as well as apartments.

1 is a view showing the structure of a general pilotti structure.

As shown in FIG. 1, the pilotti structure 10 is a structure supporting a plurality of floors by using a plurality of concrete pillars 20 installed on the ground, and thus is designed due to application of a special load different from that of a conventional wall-type building. Since the load increases, the minimum requirements to be observed in construction design, structural design, building permit, and construction, which are different from existing wall-type buildings, are prescribed to secure seismic stability.

In general, the pilotti structure 10 forms a large cross-sectional area of the concrete pillar 20 for seismic design in order to secure seismic safety, or increases the number of concrete pillars 20 to perform seismic reinforcement. For the seismic reinforcement, various types of seismic reinforcement structures are installed on the concrete pillar 20.

For example, Korean Registered Patent Publication No. 10-1867074 (Seismic Reinforcement Structure of Pilotti Structure Buildings) (announced on July 23, 2018), Korean Registered Patent Publication No. 10-2012486 (Variable installation costs for pilotti structure buildings) Possible seismic reinforcing structures and seismic reinforcing methods using the seismic reinforcing structures) (announced on August 20, 2019), etc., disclose techniques for reinforcing the seismic structure of concrete pillars 20 using various shapes of seismic reinforcing structures have.

However, the conventional seismic reinforcing structure has a relatively complicated structure, so the construction work of the concrete pillar 20 is not only complicated, but since most of the seismic reinforcing structures should be installed only at limited locations such as edges of the concrete pillar 20, seismic resistance There was a problem that the reinforcing effect is significantly reduced.

Accordingly, there is a need for a seismic reinforcing structure of a pilotti structure capable of further strengthening the seismic reinforcing structure by a plurality of column main reinforcing bars and a plurality of strip reinforcing bars of a conventional concrete column with a simpler structure.

Domestic registered patent publication No. 10-1867074 (Seismic reinforcement structure of pilotti structure buildings) (announced on July 23, 2018) Domestic Patent Registration No. 10-2012486 (Seismic reinforcing structure capable of variable installation in a pilotti structure building and seismic reinforcing method using the seismic reinforcing structure) (announced on August 20, 2019)

The present invention was invented to improve the above-mentioned problems, and the problem to be solved by the present invention is horizontally parallel to a plurality of column main reinforcing bars installed vertically inside a concrete column constituting a pilotti structure. Providing a seismic reinforcement structure of a pilotti structure capable of further strengthening the seismic reinforcing structure by a plurality of column main reinforcing bars and a plurality of strip reinforcing bars by installing a polygonal seismic reinforcing structure to surround the formed plurality of strip reinforcing bars. Is to do.

The technical problem of the present invention is not limited to those mentioned above, and another technical problem that is not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the seismic reinforcing structure of the pilotti structure according to an embodiment of the present invention is in the seismic reinforcing structure of the pilotti structure installed inside the concrete column constituting the pilotti structure, perpendicular to the interior of the concrete column It is installed at a predetermined height along a plurality of pillar main reinforcing bars installed, and the upper reinforcing member having a polygonal shape penetrated inside to surround the plurality of pillar main reinforcing bars, and a plurality of corners constituting the upper reinforcing member cross each other. Upper reinforcement means consisting of a plurality of upper connecting member extending extending downward from the portion; And a lower reinforcing member installed to be spaced apart from the upper reinforcing means along the plurality of column main reinforcing bars, and having a shape corresponding to the upper reinforcing member and having an inner portion penetrated to surround the plurality of column main reinforcing bars, and the plurality of upper connections. It is formed extending upward from the lower reinforcing member at a position corresponding to each of the members, and includes lower reinforcing means composed of a plurality of lower connecting members coupled to each of the plurality of upper connecting members, and surrounding the plurality of pillar main reinforcing bars It characterized in that some of the plurality of strip reinforcement horizontally installed is disposed between the upper and lower reinforcement members.

At this time, the cross section of each of the plurality of corners constituting the upper reinforcing member and the lower reinforcing member is characterized by having a'a' shape bent at 90 degrees.

In addition, the seismic reinforcing structure of the pilotti structure, in the state in which the plurality of upper connecting members and the plurality of lower connecting members are coupled, on an open side surface formed by the plurality of upper connecting members and the plurality of lower connecting members. It is characterized in that it further comprises at least one side reinforcing member consisting of a side reinforcing member having a rectangular shape through which the inside is penetrated, and at least one side reinforcing rib formed inside the side reinforcing member.

In addition, the seismic reinforcing structure of the pilotti structure is provided between the upper reinforcing member and the lower reinforcing member, an intermediate reinforcing member having a polygonal shape penetrated to surround the plurality of pillar main reinforcing members, and the intermediate reinforcing member It characterized in that it further comprises at least one intermediate reinforcing means consisting of a plurality of intermediate connecting members extending in each of the upper direction and the lower direction from the portion where each of the corners constituting the member intersect.

At this time, the intermediate reinforcing member, a first intermediate reinforcing member formed to surround one side of the plurality of pillar main reinforcement; And a second intermediate reinforcing member coupled to the first intermediate reinforcing member and formed to surround the other side of the plurality of pillar main reinforcing bars.

On the other hand, the seismic reinforcing structure of the pilotti structure, the upper double reinforcing member having a polygonal shape through which the inside is enclosed so as to surround the upper reinforcing member, and a plurality of corners constituting the upper double reinforcing member, respectively, are lowered from the intersection. Upper double reinforcement means consisting of a plurality of upper double connecting member extending in the direction; And a lower double reinforcing member which is installed to be spaced apart from the upper double reinforcing member along the plurality of pillar main reinforcing bars, and has a shape corresponding to the upper double reinforcing member and penetrates the lower reinforcing member to penetrate the lower reinforcing member. Further comprising a lower double reinforcing means formed from a plurality of lower double connecting members coupled to each of the plurality of upper double connecting members is formed extending upward from the lower double reinforcing member at a position corresponding to each of the upper double connecting members. It is characterized by.

Specific details of other embodiments are included in the detailed description and drawings.

According to the seismic reinforcing structure of the pilotti structure according to an embodiment of the present invention, it is installed inside the concrete pillars constituting the pilotti structure and includes a plurality of column main reinforcing bars and a plurality of band reinforcing bars formed vertically inside the concrete column. By installing a polygonal seismic reinforcing structure to wrap, it is possible to further strengthen the seismic reinforcing structure by a plurality of column main reinforcing bars and a plurality of strip reinforcing bars of an existing concrete column.

In addition, according to the seismic reinforcing structure of the pilotti structure according to an embodiment of the present invention, the polygonal seismic reinforcing structure for reinforcing a plurality of pillar main reinforcing bars and a plurality of strip reinforcing bars is divided into upper and lower parts, thereby providing a simpler structure. As well as further strengthening the seismic reinforcing structure by a plurality of column main reinforcing bars and a plurality of strip reinforcing bars, it is possible to more easily perform the construction work of the concrete columns.

In addition, according to the seismic reinforcing structure of the pilotti structure according to an embodiment of the present invention, by additionally installing a plate-shaped reinforcing structure on the side of the seismic reinforcing structure for reinforcing a plurality of pillar main reinforcing bars and a plurality of strip reinforcing bars, simpler As a structure, it is possible to further strengthen the seismic reinforcing structure by a plurality of column main reinforcing bars and a plurality of strip reinforcing bars, and to more easily perform the construction work of the concrete columns.

In addition, according to the seismic reinforcing structure of the pilotti structure according to an embodiment of the present invention, a polygonal seismic reinforcing structure for reinforcing a plurality of pillar main reinforcing bars and a plurality of strip reinforcing bars is divided into upper and lower parts, and then interposed as necessary. By configuring so that the reinforcing means can be added, the structure of the seismic reinforcing structure can be freely changed and installed according to the installation conditions of the plurality of column main reinforcing bars and the plurality of strip reinforcing bars.

In addition, according to the seismic reinforcing structure of the pilotti structure according to an embodiment of the present invention, by implementing a double structure of the seismic reinforcing structure for reinforcing a plurality of pillar reinforcing bars and a plurality of strip reinforcing bars, a plurality of pillar main reinforcing bars and a plurality of strip reinforcing bars Seismic reinforcement structure by can be further strengthened.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description of the claims.

1 is a view showing the structure of a general pilotti structure.
Figure 2 is a perspective view schematically showing the structure of a concrete pillar is installed seismic reinforcement structure of the pilotti structure according to an embodiment of the present invention.
Figure 3 is a perspective view showing the structure of the earthquake-resistant reinforcement structure of the pilotti structure according to an embodiment of the present invention.
4 is an exploded perspective view showing the structure of the earthquake-resistant reinforcement structure of the pilotti structure according to an embodiment of the present invention.
5 is an exploded perspective view showing a first modification of the earthquake-resistant reinforcement structure of the pilotti structure according to an embodiment of the present invention.
6 is a perspective view showing a second modified example of the earthquake-resistant reinforcement structure of the pilotti structure according to an embodiment of the present invention.
7 is an exploded perspective view showing a second modified example of the earthquake-resistant reinforcement structure of the pilotti structure according to an embodiment of the present invention.
8 is an exploded perspective view showing a third modified example of the seismic reinforcement structure of the pilotti structure according to an embodiment of the present invention.
9 is an exploded perspective view showing a fourth modified example of the earthquake-resistant reinforcement structure of the pilotti structure according to an embodiment of the present invention.
10 is an exploded perspective view showing a fifth modified example of the earthquake-resistant reinforcement structure of the pilotti structure according to an embodiment of the present invention.
11 and 12 is a perspective view showing the structure of the fixing bracket constituting the earthquake-resistant reinforcement structure of the pilotti structure according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art to which the present invention pertains can easily implement the present invention.

In describing the embodiments, descriptions of technical contents well known in the technical field to which the present invention pertains and which are not directly related to the present invention will be omitted. This is to more clearly communicate the subject matter of the present invention by omitting unnecessary description.

For the same reason, some components in the accompanying drawings are exaggerated, omitted, or schematically illustrated. Also, the size of each component does not entirely reflect the actual size. The same reference numbers are assigned to the same or corresponding elements in each drawing.

In addition, the device or element orientation (eg "front", "back", "up", "down", "top", "bottom") The expressions and predicates used herein with respect to terms such as ", "left", "right", "lateral", etc. are only used to simplify the description of the present invention, and related devices Or you will see that the element simply indicates or does not mean that it should have a specific direction.

Hereinafter, the present invention will be described with reference to the drawings for explaining the seismic reinforcing structure of the pilotti structure according to an embodiment of the present invention.

2 is a perspective view schematically showing the structure of a concrete pillar having an earthquake-resistant reinforcement structure of a pilotti structure according to an embodiment of the present invention, and FIG. 3 is a structure of an earthquake-resistant reinforcement structure of a pilotti structure according to an embodiment of the present invention. 4 is an exploded perspective view showing the structure of the earthquake-resistant reinforcement structure of the pilotti structure according to an embodiment of the present invention.

2 to 4, the seismic reinforcing structure 100 of the pilotti structure 10 according to an embodiment of the present invention is composed of the upper reinforcing means 110 and the lower reinforcing means 120 when viewed as a whole. And, it is installed inside the concrete pillar 20 constituting the pilotti structure 10 may serve to further strengthen the seismic structure of the existing pilotti structure 10.

As illustrated in FIG. 2, the upper reinforcement means 110 may be installed at a predetermined height along a plurality of pillar main reinforcing bars 21 vertically installed inside the concrete pillar 20. In addition, as shown in FIGS. 3 and 4, the upper reinforcement means 110 may be composed of an upper reinforcement member 111 and a plurality of upper connection members 112.

First, the upper reinforcing member 111 is a polygon that is internally penetrated (111a) so as to surround a plurality of pillar main reinforcing bars 21 in order to perform the role of a resistance member against loads and lateral forces acting on the plurality of main pillars 21 It can have a shape. In FIG. 2, when the concrete pillar 20 constituting the pilotti structure 10 has a square cross-section, the upper reinforcement member 111 shows an example having a rectangular shape, but the upper reinforcement member 111 has a concrete pillar ( It may have a variety of shapes according to the cross-sectional shape of 20).

Preferably, as shown in FIG. 4, each of the plurality of corners constituting the upper reinforcing member 111 may have a “A” shape bent at 90 degrees. The upper reinforcing member 111 having such a structure may have strong resistance to lateral forces acting around the plurality of pillar main reinforcing bars 21.

In addition, the plurality of upper connection members 112 may be formed to extend downward from a portion where each of the plurality of edges constituting the upper reinforcement member 111 intersects. The plurality of upper connection members 112 may be coupled to each of the plurality of lower connection members 122 constituting the lower reinforcement means 120 to be described later.

In addition, as shown in FIGS. 3 and 4, the lower reinforcing member 120 may be composed of a lower reinforcing member 121 and a plurality of lower connecting members 122.

First, the lower reinforcing member 121 is installed to be spaced apart from the upper reinforcing means 110 along the plurality of column main reinforcing bars 21, and has a shape corresponding to the upper reinforcing member 111 and the plurality of column main reinforcing bars 21. The inside may be penetrated (121a) to wrap. Although not shown in detail, like the upper reinforcing member 111, the cross sections of each of the plurality of corners constituting the lower reinforcing member 121 may have an'a' shape or an'b' shape bent at 90 degrees. have.

In addition, the plurality of lower connection members 122 are formed to extend upward from the lower reinforcement member 121 at positions corresponding to each of the plurality of upper connection members 112, and are coupled to each of the plurality of upper connection members 112 Can be. 4 illustrates an example in which a plurality of upper connection members 112 and a plurality of lower connection members 122 are coupled to each other by a coupling protrusion 112a and a coupling groove 122a, but is not limited thereto. The method of coupling the upper connecting member 112 and the plurality of lower connecting members 122 can be changed by a person skilled in the art.

Preferably, as shown in FIG. 2, some of the plurality of strip reinforcing bars 22 horizontally installed to surround the plurality of pillar main reinforcing bars 21 are disposed between the upper reinforcing member 111 and the lower reinforcing member 121. Can be placed on.

As described above, the seismic reinforcing structure 100 of the pilotti structure 10 according to an embodiment of the present invention is installed inside the concrete pillar 20 constituting the pilotti structure 10 and inside the concrete pillar 20. By installing the earthquake-resistant reinforcement structure 100 of a polygonal shape so as to surround the plurality of pillar main reinforcing bars 21 vertically formed and the plurality of strip reinforcing bars 22 formed horizontally, the plurality of main pillars 21 and the plurality of existing concrete pillars Seismic reinforcement structure by the sash reinforcing bar 22 can be further strengthened.

In addition, by constructing the plurality of pillar main reinforcing bars 21 and the plurality of strip-shaped reinforcing bars 22 by separating the upper and lower portions of the seismic reinforcing structure 100 in a polygonal shape, the plurality of pillar main reinforcing bars 21 in a simpler structure And a seismic reinforcing structure by a plurality of strip reinforcing bars 22, as well as a construction work of the concrete column 20 can be performed more easily.

Meanwhile, the seismic reinforcement structure 100 of the pilotti structure 10 according to an embodiment of the present invention may further include side reinforcement means 130 as necessary.

5 is an exploded perspective view showing a first modification of the earthquake-resistant reinforcement structure of the pilotti structure according to an embodiment of the present invention.

As shown in FIG. 5, the seismic reinforcement structure 100 of the pilotti structure 10 may further include side reinforcement means 130 in addition to the upper reinforcement means 110 and the lower reinforcement means 120. The side reinforcement means 130 may be composed of a side reinforcement member 131 and at least one side reinforcement rib 132.

First, the side reinforcement member 131 has a thin plate shape, and a plurality of upper connecting members 112 and a plurality of lower connecting members 122 are coupled, a plurality of upper connecting members 112 and a plurality of lower parts It may be coupled to the open side formed by the connecting member 122. At this time, the side reinforcing member 131 may have a rectangular shape through which the inside is penetrated to facilitate the introduction of concrete when the concrete constituting the concrete pillar 20 is poured.

In addition, the side reinforcement ribs 132 are formed inside the side reinforcement member 131, and may serve to provide resistance when load and lateral force act on the plate-shaped side reinforcement member 131. 5 illustrates an example in which a pair of side reinforcement ribs 132 are formed at an internal diagonal position of the side reinforcement member 131 having a square plate shape, but is not limited thereto, and the number of side reinforcement ribs 132 and The shape can be changed by any person skilled in the art.

As described above, the seismic reinforcing structure 100 of the pilotti structure 10 according to an embodiment of the present invention includes the seismic reinforcing structure 100 for reinforcing a plurality of pillar main reinforcing bars 21 and a plurality of strip reinforcing bars 22. By additionally installing a plate-shaped reinforcing structure on the side, it is possible to further strengthen the seismic reinforcing structure by a plurality of pillar main reinforcing bars 21 and a plurality of strip reinforcing bars in a simpler structure, as well as a concrete column 20 The construction work can be performed more easily.

Meanwhile, the seismic reinforcing structure 100 of the pilotti structure 10 according to an embodiment of the present invention may further include an intermediate reinforcing means 140 as necessary.

6 is a perspective view showing a second modified example of the seismic reinforcement structure of the pilotti structure according to an embodiment of the present invention, and FIG. 7 is a second modified example of the seismic reinforcement structure of the pilotti structure according to an embodiment of the present invention It is an exploded perspective view.

6 and 7, the seismic reinforcement structure 100 of the pilotti structure 10 may further include an intermediate reinforcement means 140 in addition to the upper reinforcement means 110 and the lower reinforcement means 120. . The intermediate reinforcing means 140 may be composed of an intermediate reinforcing member 141 and a plurality of intermediate connecting members 142.

First, the intermediate reinforcing member 141 is installed between the upper reinforcing member 111 and the lower reinforcing member 121, has a shape corresponding to the upper reinforcing member 111 and the lower reinforcing member 121, a plurality of pillars It may have a polygonal shape through which the inside is penetrated to surround the main reinforcing bar 21. Although not shown in detail, the cross section of each of the plurality of corners constituting the intermediate reinforcing member 141 has an'a' shape or an'b' shape bent at 90 degrees, or an'ㅏ' shape bent up and down. It can have a shape.

In addition, as illustrated in FIG. 7, the plurality of connecting members may be formed to extend upwardly and downwardly from portions where each of the plurality of corners constituting the intermediate reinforcing member 141 intersects. Accordingly, the plurality of connection members may be coupled to each of the plurality of upper connection members 112 and each of the plurality of lower connection members 122 vertically.

On the other hand, the intermediate reinforcing member 141 constituting the intermediate reinforcing means 140 of the earthquake-resistant reinforcing structure 100 of the pilotti structure 10 may be assembled to each other in a divided state in plural as necessary.

8 is an exploded perspective view showing a third modified example of the seismic reinforcement structure of the pilotti structure according to an embodiment of the present invention.

Preferably, as shown in FIG. 8, the intermediate reinforcing member 141 includes a first intermediate reinforcing member 141 and a first intermediate reinforcing member 141 formed to surround one side of the plurality of pillar main reinforcing bars 21. It is coupled to and may be composed of a second intermediate reinforcing member 141 formed to surround the other side of the plurality of pillar main reinforcement (21). 8 illustrates an example in which the intermediate reinforcement member 141 is assembled in a state in which a pair is separated based on a plurality of pillar main reinforcing bars 21, but is not limited thereto.

As described above, the seismic reinforcing structure 100 of the pilotti structure 10 according to an embodiment of the present invention has a polygonal seismic reinforcing structure for reinforcing a plurality of pillar main reinforcing bars 21 and a plurality of strip reinforcing bars 22. 100) by separating the upper and lower parts, and then configuring the intermediate reinforcing means 140 to be added as needed, the seismic reinforcing structure according to the installation conditions of the plurality of pillar main reinforcing bars 21 and the plurality of strip reinforcing bars 22 The structure of (100) can be freely changed and installed.

On the other hand, the seismic reinforcing structure 100 of the pilotti structure 10 according to an embodiment of the present invention may be implemented in a double structure as necessary.

9 is an exploded perspective view showing a fourth modified example of the earthquake-resistant reinforcement structure of the pilotti structure according to an embodiment of the present invention.

As shown in FIG. 9, the seismic reinforcement structure 100 of the pilotti structure 10 includes an upper double reinforcement means 150 and a lower double reinforcement means 160 in addition to the upper reinforcement means 110 and the lower reinforcement means 120. It may further include.

As illustrated in FIG. 9, the upper double reinforcing member 150 has an upper double reinforcing member 151 having a polygonal shape penetrated inside to surround the upper reinforcing member 111 of the upper reinforcing means 110, and the upper part Each of the plurality of corners constituting the double reinforcing member 151 may be formed of a plurality of upper double connecting members 152 extending downwardly from a crossing portion.

In addition, the lower double reinforcing means 160 is installed to be spaced apart from the upper double reinforcing means 150 along the plurality of pillar main reinforcing bars 21, and has a shape corresponding to the upper double reinforcing member 151, the lower reinforcing member 121 ) Is formed to extend upward from the lower double reinforcing member 161 at a position corresponding to each of the lower double reinforcing member 161 and the plurality of upper double connecting members 152 through which the inside penetrates, It may be composed of a plurality of lower double connecting member 162 coupled to each of the double connecting member 152.

10 is an exploded perspective view showing a fifth modified example of the earthquake-resistant reinforcement structure of the pilotti structure according to an embodiment of the present invention.

As shown in FIG. 10, the seismic reinforcement structure 100 of the pilotti structure 10 further includes a side double reinforcement means 170 in addition to the upper double reinforcement means 150 and the lower double reinforcement means 160 as necessary. You may.

The side double reinforcement means 170 is a plurality of upper double connecting members 152 and a plurality of lower double connecting members 162 are coupled, a plurality of upper double connecting members 152 and a plurality of lower double connecting members ( 162) can be coupled to the open side.

Although not shown, the side double reinforcing means 170 may be composed of a side double reinforcing member having a rectangular shape through which the inside is formed, and at least one side double reinforcing rib formed inside the side double reinforcing member, if necessary. have.

As described above, the seismic reinforcing structure 100 of the pilotti structure 10 according to an embodiment of the present invention includes a seismic reinforcing structure 100 for reinforcing a plurality of pillar main reinforcing bars 21 and a plurality of strip reinforcing bars 22. By implementing the double structure, it is possible to further strengthen the seismic reinforcing structure by the plurality of pillar main reinforcing bars 21 and the plurality of strip reinforcing bars 22.

Meanwhile, the upper reinforcing means 110 and the lower reinforcing means 120 constituting the seismic reinforcing structure 100 of the pilotti structure 10 according to an embodiment of the present invention are respectively concrete pillars 20 by separate fixing brackets. ) Can be coupled to each of the plurality of pillar main reinforcement (21) installed vertically inside.

11 and 12 is a perspective view showing the structure of the fixing bracket constituting the earthquake-resistant reinforcement structure of the pilotti structure according to an embodiment of the present invention.

11 shows an example of the first fixing bracket 180 required when a plurality of corners constituting the upper reinforcing means 110 are coupled to the inner surfaces of the plurality of pillar main reinforcing bars 21, and in FIG. 11, the upper reinforcing means It shows an example of the second fixing bracket 190 required when a plurality of corners constituting (110) are coupled to the outer surfaces of the plurality of pillar main reinforcing bars (21).

As illustrated in FIG. 11, when a plurality of corners constituting the upper reinforcing means 110 are located on the inner surface of the plurality of column main reinforcing bars 21, the first fixing bracket 180 may use the column main reinforcing bar 21. The first fixing part 181 which is formed to protrude in the direction toward the outside and fixedly coupled to the outer circumferential surface of the pillar-shaped main reinforcement 21 of the pipe shape, and the first fixing part 181 extending from both sides of the first fixing part 181 It may be formed of a pair of second fixing portions 182 that are formed to protrude in a direction opposite to the protruding direction and fixedly coupled to corners constituting the upper reinforcing means 110.

Alternatively, when a plurality of corners constituting the upper reinforcing means 110 are located on the outer surface of the plurality of pillar main reinforcing bars 21, the second fixing bracket 190 is formed to protrude in the direction toward the pillar main reinforcing rod 21 The third fixing part 191 is fixedly coupled to the outer circumferential surface of the pillar-shaped main reinforcing bar 21, and is formed extending from both sides of the third fixing part 191 so that the third fixing part 191 protrudes. It may be formed of a pair of fourth fixing portions 190 that protrude in the direction and are fixedly coupled to corners constituting the upper reinforcing means 110.

As described above, the seismic reinforcing structure 100 of the pilotti structure 10 according to an embodiment of the present invention is coupled to each of the plurality of pillar main reinforcing bars 21 by a fixing bracket, thereby making the construction work of the concrete pillar 20 more visible. It can be easily done.

Meanwhile, in the specification and drawings, preferred embodiments of the present invention have been disclosed, and although specific terms have been used, they are merely used in a general sense to easily describe the technical contents of the present invention and to understand the invention. It is not intended to limit the scope of the invention. It is apparent to those skilled in the art to which the present invention pertains that other modifications based on the technical spirit of the present invention can be implemented in addition to the embodiments disclosed herein.

<Explanation of reference numerals for main parts of drawings>
10: pilotti structure 20: concrete pillar
21: Column main reinforcing bar 22: Belt reinforcing bar
100: earthquake-proof reinforcement structure 110: upper reinforcement means
111: upper reinforcement member 112: upper connection member
120: lower reinforcement means 121: lower reinforcement member
122: lower connecting member 130: side reinforcement means
131: side reinforcement member 132: side reinforcement rib
140: intermediate reinforcement means 141: intermediate reinforcement member
142: intermediate connecting member 150: upper double reinforcement means
151: upper double reinforcement member 152: upper double connecting member
160: lower double reinforcement means 161: lower double reinforcement member
162: lower double connecting member 170: side double reinforcement means
180: first fixing bracket 190: second fixing bracket

Claims (6)

delete delete In the seismic reinforcement structure of the pilotti structure installed inside the concrete column constituting the pilotti structure,
It is installed at a predetermined height along a plurality of pillar main reinforcing bars installed vertically in the interior of a concrete column, and an upper reinforcing member having a polygonal shape penetrated to enclose the plurality of pillar main reinforcing bars, and a plurality of constituting the upper reinforcing member Upper reinforcement means consisting of a plurality of upper connecting member is formed extending in a downward direction from the portion of each corner of the intersection;
It is installed so as to be spaced apart from the upper reinforcing means along the plurality of pillar main reinforcing bars, and has a shape corresponding to the upper reinforcing member and a lower reinforcing member penetrated to enclose the plurality of pillar main reinforcing members, and the plurality of upper connecting members. A lower reinforcing means formed to extend upward from the lower reinforcing member at a position corresponding to each, and composed of a plurality of lower connecting members coupled to each of the plurality of upper connecting members; And
In the state in which the plurality of upper connection members and the plurality of lower connection members are coupled, it is coupled to the open side formed by the plurality of upper connection members and the plurality of lower connection members, and has a rectangular shape through which the inside penetrates. And a side reinforcement member and at least one side reinforcement means composed of at least one side reinforcement rib formed inside the side reinforcement member,
Seismic reinforcing structure of the pilotti structure, characterized in that a part of the plurality of strip reinforcing bars horizontally installed to surround the plurality of pillar main rebars is disposed between the upper reinforcing member and the lower reinforcing member. In the seismic reinforcement structure of the pilotti structure installed inside the concrete column constituting the pilotti structure,
It is installed at a predetermined height along a plurality of pillar main reinforcing bars installed vertically in the interior of a concrete column, and an upper reinforcing member having a polygonal shape penetrated to enclose the plurality of pillar main reinforcing bars, and a plurality of constituting the upper reinforcing member Upper reinforcement means consisting of a plurality of upper connecting member is formed extending in a downward direction from the portion of each corner of the intersection;
It is installed so as to be spaced apart from the upper reinforcing means along the plurality of pillar main reinforcing bars, and has a shape corresponding to the upper reinforcing member and a lower reinforcing member penetrated to enclose the plurality of pillar main reinforcing members, and the plurality of upper connecting members. A lower reinforcing means formed to extend upward from the lower reinforcing member at a position corresponding to each, and composed of a plurality of lower connecting members coupled to each of the plurality of upper connecting members; And
It is installed between the upper reinforcing member and the lower reinforcing member, the intermediate reinforcing member having a polygonal shape through which the inside is enclosed so as to surround the plurality of pillar main reinforcing members, and a plurality of edges constituting the intermediate reinforcing member cross each other And at least one intermediate reinforcing means composed of a plurality of intermediate connecting members extending from the part in the upper direction and the lower direction, respectively.
Seismic reinforcing structure of the pilotti structure, characterized in that a part of the plurality of strip reinforcing bars horizontally installed to surround the plurality of pillar main rebars is disposed between the upper reinforcing member and the lower reinforcing member. The method of claim 4,
The intermediate reinforcement member,
A first intermediate reinforcing member formed to surround one side of the plurality of pillar main reinforcing bars; And
Seismic reinforcement structure of the pilotti structure, characterized in that it is coupled to the first intermediate reinforcing member, a second intermediate reinforcing member formed to surround the other side of the plurality of pillar main reinforcement. In the seismic reinforcement structure of the pilotti structure installed inside the concrete column constituting the pilotti structure,
It is installed at a predetermined height along a plurality of pillar main reinforcing bars installed vertically in the interior of a concrete column, and an upper reinforcing member having a polygonal shape penetrated to enclose the plurality of pillar main reinforcing bars, and a plurality of constituting the upper reinforcing member Upper reinforcement means consisting of a plurality of upper connecting member is formed extending in a downward direction from the portion of each corner of the intersection;
It is installed so as to be spaced apart from the upper reinforcing means along the plurality of pillar main reinforcing bars, and has a shape corresponding to the upper reinforcing member and a lower reinforcing member penetrated to enclose the plurality of pillar main reinforcing members, and the plurality of upper connecting members. A lower reinforcing means formed to extend upward from the lower reinforcing member at a position corresponding to each, and composed of a plurality of lower connecting members coupled to each of the plurality of upper connecting members;
An upper double reinforcing member having a polygonal shape through which the inside is enclosed so as to surround the upper reinforcing member, and a plurality of upper double connecting members extending downwardly from a portion where each of the corners constituting the upper double reinforcing member intersects. Upper double reinforcement means consisting of; And
It is installed to be spaced apart from the upper double reinforcing means along the plurality of pillar main reinforcing bars, and has a shape corresponding to the upper double reinforcing member and a lower double reinforcing member penetrated to surround the lower reinforcing member, and the plurality of upper parts And a lower double reinforcing means configured to extend upwardly from the lower double reinforcing member at a position corresponding to each of the double connecting members, and composed of a plurality of lower double connecting members coupled to each of the plurality of upper double connecting members,
Seismic reinforcing structure of the pilotti structure, characterized in that a portion of the plurality of band reinforcing bars horizontally installed to surround the plurality of pillar main rebars is disposed between the upper reinforcing member and the lower reinforcing member.

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