KR101867074B1 - Seismic strengthening structure of pilotty structure building - Google Patents

Abstract

The present invention relates to a seismic strengthening structure of a piloti structure building, which is composed of a plurality of strengthening members and buffer members, and is installed in a column of a piloti structure building to minimize deformation or damage of the column for seismic resistance to be strengthened. According to the present invention, in the seismic strengthening structure of a piloti structure building, as the strengthening members are installed in a corner portion of the column, rigidity of the column is increased, and further, the buffer members are installed between the strengthening members to absorb vibration energy. Therefore, stability can be improved in case of an earthquake.

Description

[0001] SEISMIC STRENGTHENING STRUCTURE OF PILOTTY STRUCTURE BUILDING [0002]

More particularly, the present invention relates to a seismic retrofitting structure of a pilotty structure for reinforcing an earthquake-proof property by minimizing deformation or damage of a column by installing the column on a column of a pilotty structure.

Generally, a pilotty structure is a structure in which a plurality of pillars installed at a predetermined height from a bottom surface of a building to support an upper structure and secure a ground floor space of a predetermined size. The ground floor space secured is a space And it can be used as a parking space, and so it is widely applied to buildings such as a multi-family house or an apartment building.

However, the pilotty structure is susceptible to earthquakes because the column can be easily deformed or damaged when an external force is applied due to the occurrence of an earthquake or the like. Therefore, it is necessary to develop a technique for reinforcing pillars in pilotty structures.

On the other hand, Korean Patent Registration No. 10-1301143 discloses an example of an anti-seismic steel structure of a pilotty structure. This invention relates to an anti-seismic steel structure of a pilotty structure, comprising: a column body disposed along a bottom surface of an upper structure and having a predetermined height and installed in a vertical direction to support an upper structure; And a damper module including a reinforcing plate for increasing the rigidity of the column body is coupled to the column body so that an external force that causes deformation of the column body and the core wall body is dispersed in the column body, Wherein the damper module comprises: a lower reinforcement plate which is vertically disposed and fixed to the outside of the column body and is joined to a lower portion of the column body; An upper reinforcing plate which is separated from the lower reinforcing plate and spaced apart from the upper reinforcing plate and joined to the upper portion of the column; And a damper disposed between the lower reinforcing plate and the upper reinforcing plate for connecting the lower reinforcing plate to the upper reinforcing plate and absorbing energy when an external force is applied, The reinforcing plate and the damper are detachably coupled to each other so that the damaged damper can be exchanged between the lower reinforcing plate and the upper reinforcing plate.

However, since the above-described conventional steel structure for the advancement of the pilo-structure has a structure in which the upper reinforcing plate and the lower reinforcing plate are entirely wrapped around the outside of the column, the size of the reinforcing plate must be made different according to the column size There is a problem. That is, if the size of the reinforcing plate is made different according to the size of the column, it is impossible to mass-produce the reinforcing plate, and thus the workability and economical efficiency are deteriorated.

In addition, since the damper connecting the upper reinforcing plate and the lower reinforcing plate is formed of a steel bar having a circular cross-section, when the external pressure is applied in the horizontal direction, the inner steel barrel structure of the conventional pilotty structure absorbs energy while being deformed However, when external pressure is applied in the vertical direction, there is a problem that the energy is transmitted to the building without being deformed. In addition, the damper made of a steel rod is not easily fixed to a reinforcing plate, and is easily broken when a strong external force is applied, such as a strong seismic wave, so that the damper can not function.

1) Korean Registered Patent No. 10-1301143 (Registered Date: Aug. 22, 2013), Title of invention: "Steel Structure of Pilotty Structure" 2) Korean Registered Patent No. 10-0973152 (Registered on Jul. 26, 2010), entitled " 3) Korean Patent No. 10-1382368 (Registered on April 01, 2014), entitled "RC Structure Beam with High Tensile Fibers - Seismic Retrofit Method for Columns" 4) Korean Registered Patent No. 10-1368312 (Registered on Feb. 19, 2014), title of the invention: "Strengthening Steel Structures by Damper Jointing"

The present invention has been proposed in order to solve the above-mentioned problems, and it is an object of the present invention to provide a reinforcing member for reinforcing a column by providing a reinforcement member at a corner of a column, Thereby improving the mass production, economical efficiency, and constructability of the pilotty structure.

Another object of the present invention is to provide a cushioning structure for connecting a reinforcing member and a reinforcing member so that the cushioning member is deformed in the horizontal and vertical directions according to the direction of the external force when the external force is applied, And to provide an improved seismic strengthening structure of the pilotty structure.

The above-mentioned objects are achieved by an earthquake-proof reinforcement structure provided on a column of a pilotty structure, comprising: a corner contact portion having a "? &Quot; shape such that a corner contact space is formed on the inner surface so as to be in close contact with a corner portion of the column; A lower binding portion formed to extend outward from the upper end and formed with a plurality of binding holes to penetrate, a lower binding portion formed to extend outward from a lower end of the corner tight fitting portion and having a plurality of binding holes passed therethrough, A plurality of reinforcing members each of which is formed with a plurality of binding holes formed integrally therewith and integrally formed with a plurality of binding holes, a pair of transverse portions and a vertical portion are connected to each other and have a rectangular frame shape in which the center is hollow, And the reinforcing member is provided at the corner of the column with a corner mill The reinforcing member and the cushioning member are connected to each other by a bolt and a nut that are inserted through the coupling hole of the reinforcing member and the coupling hole of the cushioning member after the cushioning member is interposed between the reinforcing member and the reinforcing member And a plurality of buffer members are interposed between the reinforcing member provided on the upper portion and the reinforcing member provided on the lower portion so that the intermediate portion is spaced apart from the upper portion and the lower portion of the column when the reinforcing member is installed on the corner portion of the column, A plurality of buffer members are disposed in close contact with each other. The reinforcing member and the cushioning member are connected to each other by bolts and nuts which are fastened through the fastening hole of the reinforcing member and the fastening holes of the cushioning member and the cushioning members which are in close contact with each other are connected to each other by bolts and nuts fastened through the fastening holes Wherein the buffer member has a rectangular shape of a rectangle having a length shorter than the length of the transverse portion so that the elastic force in the transverse direction is better than the longitudinal direction so that the reinforcing member provided at each corner of the column and the reinforcing member are arranged horizontally A cushioning member is installed so that the horizontal portion is placed horizontally when the reinforcing member is vertically connected to the upper and lower portions of the column, And is configured so as to be able to be absorbed through the transverse portion. Achieved by steel construction.

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The cushioning member is further provided between a reinforcing member provided at an upper portion and a ceiling of a building supported by the pillar and between a reinforcing member provided at a lower portion and a ground.

The seismic reinforcing structure of the pilotty structure according to the present invention is constructed such that not only the stiffness of the column is increased because the reinforcement member is provided at the corner portion of the column but also the buffer member is provided between the reinforcement member and the reinforcement member to absorb the vibration energy The stability is improved when an earthquake occurs.

In addition, since the seismic retrofitting structure of the pilotty structure according to the present invention is constructed in a prefabricated manner, it is easy to construct and applicable to existing buildings, and the reinforcement members are respectively installed at the corner portions of the columns, So that it can be applied to all the pillars of various sizes irrespective of the size of the pillars. Thus, it is possible to improve mass production, economical efficiency, and workability.

In addition, since the buffer member connecting the reinforcing member and the reinforcing member has a crisscross structure, the seismic reinforcing structure of the pilotty structure according to the present invention can absorb energy while being deformed in the horizontal and vertical directions in accordance with the direction in which the external pressure is applied Therefore, it is effective to absorb vibration and to have a seismic strengthening function.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exploded perspective view of a seismic retrofitting structure of a pilotty structure according to the present invention,
Fig. 2 is an exploded view of the reinforcing member in Fig. 1,
3 is a front view showing a basic state in which an anti-seismic reinforcement structure of a pilotty structure building according to the present invention is installed on a column,
4 is a sectional view taken along line AA in Fig. 3,
5 and 6 are a front view showing a state of another embodiment in which an anti-seismic reinforcing structure of a pilotty structure according to the present invention is installed on a column,
7 is a front view showing another embodiment of the buffer member applied to the present invention,
8 and 9 are views for explaining the deformation state of the buffer member applied to the present invention.

The present invention will now be described in detail with reference to the accompanying drawings.

1 to 4, an anti-seismic reinforcing structure of a pilotty structure according to the present invention is installed on a pillar 10 of a pilotty structure, and comprises a plurality of reinforcing members 100 and a cushioning member 200 .

The reinforcing member 100 includes a corner fitting portion 110 having a shape of a letter "A" such that the corner fitting space 112 is formed on the inner surface so as to be in contact with the corner portion of the column 10, And a plurality of coupling holes H1 formed to extend outward from the upper end of the corner fitting portion 110 and extending outward from the upper end of the corner fitting portion 110, And a side coupling portion 140 extending outward from the outer end of the corner fitting portion 110 and having a plurality of coupling holes H1 penetrating therethrough are formed integrally with the lower coupling portion 130, .

Here, it is preferable that the corner contact portion 110 is configured such that the left and right sides are symmetrical with respect to the middle corner portion, and when the corner close portion 110 is closely attached to the corner portion of the column 10, . The upper binding portion 120 and the lower binding portion 130 are formed in a shape of a letter like the corner contact portion 110 and protrude outward of the corner contact portion 110, The lower binding part 130 of the reinforcing member 100 installed on the upper part can be seated in the upper binding part 120 of the reinforcing member 100 provided at the lower part. The side binding portion 140 is formed so as to protrude to the same length as the upper binding portion 120 and the lower binding portion 130 when extending outward from the outer end of the corner tight portion 110, B and the nut N can be fastened between the lower binding portion 130 and the side binding portion 140 between the upper binding portion 120 and the lower binding portion 130. [ The buffering member (200) can be brought into close contact with the side surface of the reinforcing member (100) by the side binding portion (140).

Of course, when the reinforcing member 100 is installed on the column 10, it may be arranged so as to be placed on the corner portion. However, in some cases, the reinforcing member 100 may be attached by using an adhesive or mortar.

The cushioning member 200 has a rectangular shape having a pair of transverse portions 210 and a longitudinal portion 220 connected to each other and having a buffer space 230 having an empty center, A plurality of coupling holes H2 corresponding to the binding holes H1 are formed in the through hole 220. [ Therefore, when the external pressure is applied to the buffer member 200, the transverse portion 210 and the vertical portion 220 are twisted or bent by the buffer space 230 inward or outward to absorb vibration and impact do.

The cushioning member 200 is preferably configured to have a rectangular rectangular frame shape having a shorter length of the vertical part 220 than the length of the horizontal part 210 so that the elastic force in the lateral direction is better than the longitudinal direction. As shown in FIG. In addition, it is preferable that the corner portion where the transverse portion 210 and the vertical portion 220 are connected to each other in the buffer member 200 is rounded to have an elastic force on the corner portion.

7, the buffer member 200 may be constructed such that the X-bar 240 connected diagonally to the buffer space 230 formed at the center is installed to reinforce the supporting force. The X-bar 240 is installed to prevent the corners of the cushioning member 200 from being crushed and to prevent the corners of the transverse portion 210 and the vertical portion 220 from being completely crushed when they are deformed.

The structure of reinforcing the columns 10 of the pilotty structure using the reinforcing member 100 and the cushioning member 200 will be described below. After the cushioning member 200 is interposed between the reinforcing member 100 and the reinforcing member 100 and the binding hole H1 of the reinforcing member 100 and the cushioning member 200 The reinforcing member 100 and the cushioning member 200 may be connected to each other by the bolts B and the nuts N passing through the coupling hole H2 of the coupling member 100. [

Of course, as shown in FIG. 3, when the reinforcing member 100 is installed at the corner of the column 10, the basic installation structure is provided at the upper portion and the lower portion so as to be spaced apart from each other. A plurality of cushioning members (200) are interposed between the reinforcing member (100) provided at the upper portion and the reinforcing member (100) provided at the lower portion, and a plurality of the cushioning members (200) are disposed in close contact with each other. Of course, the buffer member 200 may be arranged so as to be spaced apart at a predetermined interval. The reinforcing member 100 and the cushioning member 200 are fixed by the bolts B and the nuts which are inserted through the coupling hole H1 of the reinforcing member 100 and the coupling hole H2 of the cushioning member 200, And the cushioning member 200 closely attached to each other may be connected to each other by a bolt B and a nut N fastened through the coupling hole H2.

When the reinforcing member 100 provided at each corner of the column 10 and the reinforcing member 100 are horizontally connected to each other, the cushioning member 200 is installed so that the transverse portion 210 is horizontal, When the reinforcing member 100 installed on the upper part and the lower part of the buffer member 200 are connected vertically, the buffer member 200 is installed so that the transverse part 210 is vertically placed, 210 so as to be absorbed.

5, the cushioning member 200 is installed between the reinforcing member 100 installed on the upper part and the ceiling 12 of the building supported by the pillar 10, (Not shown).

6, the cushioning member 200 is not interposed between the upper and lower portions of the reinforcing member 100, and the lower binding portion 130 of the reinforcing member 100 provided at the upper portion is located at the lower portion Or may be installed directly on the upper binding portion 120 of the reinforcing member 100 installed.

Meanwhile, although not shown, after the reinforcing member 100 and the buffer member 200 are installed as described above, the outer surface of the reinforcing member 100 and the buffer member 200 are closed through a closing member, The member may be installed so as to be obscured.

Since the seismic reinforcing structure of the pilotty structure constructed and installed in this way has the structure in which the column 10 is surrounded by the reinforcing member 100 and the buffer member 200, the rigidity is increased and the plastic deformation capacity is increased simultaneously, The external pressure is dispersed when the external pressure is applied. In addition, when the external pressure is generated, the cushioning member 200 is twisted as shown in Fig. 8 or warped as shown in Fig. 9 according to the direction in which the external pressure is applied, and the dissipation of strain energy is induced through plastic deformation, There is an increasing feature.

In addition, since the present invention can be installed in a column of a conventional pilotty structure building, it can be installed in all buildings, is excellent in installation workability and workability, and the reinforcing member (100) And the reinforcing member 100 is connected to the reinforcing member 100 through the cushioning member 200 so that the reinforcing member 100 can be applied to the pillars 10 of various sizes regardless of the size of the pillars 10 Feature.

In addition, since the cushioning member 200 connecting the reinforcing member 100 and the reinforcing member 100 has a rectangular frame structure, the present invention can absorb energy while being deformed in the horizontal and vertical directions according to the direction in which the external pressure is applied It is possible to cope with both the horizontal vibration wave and the vertical vibration wave when an earthquake occurs.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Anyone who can afford it will know.

10: column 100: reinforcing member
110: corner contact portion 120: upper binding portion
130: lower binding portion 140: side binding portion
200: buffer member 210:
220: vertical part 230: buffer space
H1: Bond hole H2: Bond hole

Claims (4)

Claims [1] An anti-seismic reinforcing structure installed on a column of a pilotty structure,
A corner fastening portion having a "? &Quot; shape such that a corner contact space is formed on the inner surface so as to be able to be brought into close contact with the corner portion of the column, an upper fastening portion formed to extend outward from the upper end of the corner fastening portion, And a plurality of reinforcement members extending in the outward direction from the lower end of the corner contact portion and formed outwardly from the outer end of the corner tight contact portion and formed with a plurality of binding holes through which the plurality of binding holes extend, Wow,
A pair of transverse portions and a longitudinal portion connected to each other and having a hollow shape with a hollow center, and a transverse portion and a longitudinal portion of the transverse portion are formed with a plurality of buffer members,
The reinforcing member is provided so as to be in close contact with a corner portion of the column and then a bolt is inserted through the coupling hole of the reinforcing member and the coupling hole of the buffer member after interposing the buffer member between the reinforcing member and the reinforcing member, The reinforcing member and the buffer member are connected to each other by a nut,
Wherein a plurality of cushioning members are provided between a reinforcing member provided at an upper portion and a reinforcing member provided at a lower portion, wherein a plurality of cushioning members are interposed between the reinforcing member provided at the upper portion and the reinforcing member provided at the lower portion, After the cushioning members are disposed in close contact with each other. The reinforcing member and the cushioning member are connected to each other by bolts and nuts which are fastened through the fastening holes of the reinforcing member and the fastening holes of the cushioning member and the cushioning members which are in close contact with each other are connected to each other by bolts and nuts fastened through the fastening holes Lt; / RTI >
The cushioning member is configured to have a rectangular shape of a rectangle whose length is shorter than the length of the transverse portion so that the elastic force in the transverse direction is better than the longitudinal direction. When the reinforcing member provided at each corner of the column and the reinforcing member are horizontally connected, When the cushioning member is provided so as to lie in the horizontal direction and the reinforcing members provided at the upper and lower portions of the column are vertically connected, the cushioning member is installed so that the horizontal portion is vertically placed, so that the vibration energy in the horizontal and vertical directions is absorbed Wherein the resilient structure is constructed so as to be able to support the resilient structure of the pilotty structure.
delete delete The method according to claim 1,
Wherein the cushioning member is additionally installed between a reinforcing member provided at an upper portion and a ceiling of a building supported by the pillar and between a reinforcing member provided at a lower portion and the ground.

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