KR102134400B1 - Column reinforcement device and method of pilotis building - Google Patents

Abstract

The present invention relates to a pillar reinforcement device and method of a pilotti structure, a plurality of corner bodies 110 fixed to corners of the first floor of the pillar 10 of the pilotti structure 1 and movable on a pillar surface; And a plurality of couplers 150 fastened to one side (110a) and the other side (110b) of the corner body (110) located on the edge of one surface of the pillar (10); including, one side (110a) of the corner body ) And male threads in opposite directions are formed on the other side 110b, male threads in opposite directions are formed on one end 150a of the coupler 150 and the other end 150b, and the corner body 110 One side (110a) and the one end (150a) of the coupler 150 is fastened, the other side (110b) of the corner body 110 and the other end (150b) of the coupler 150 is fastened, the coupler When the 150 is rotated in one direction, the corner bodies 110 are fastened to the coupler 150, and the plurality of corner bodies 110 and the plurality of couplers 150 surround the circumference of the pillar 10. It provides a wrapping column reinforcement device and a reinforcement method using the same.

Description

Column reinforcement device and method of pilotis building

The present invention relates to a pillar reinforcing device, and more particularly, to a pillar reinforcing device of a pilotti structure capable of improving the seismic performance of a pilotti structure by reinforcing one layer of a pillar of the pilotti structure.

The pilotti structure is a structure that is opened without installing external walls, facilities, etc., except for structures supporting loads, such as pillars and bearing walls, on the ground layer that touches the ground.

Therefore, the structure supporting the load is exposed to the outside, and thus damage may occur, and thus, in the event of an earthquake, it is a structure having a very weak structure (see FIGS. 1(a) and (b)).

The nation's Pilotti buildings are about 240,000 buildings, accounting for 3.3% of the total buildings, and 85% of them, 200,000 buildings, were surveyed for residential use such as apartments and villas. As a result of the survey, the Pilotti building is concentrated in a small multi-family multi-family residential building, so residents living in the Pilotti building are susceptible to danger in the event of an earthquake, and measures are urgent.

The method of improving the seismic performance of a conventional pilotti building pillar is largely divided into a conventional method and two methods using other steel and damping devices.

Existing conventional construction methods include the expansion of sections, aramid and carbon fiber reinforcement, and steel plate reinforcement. This conventional method has a problem that the construction method is wet construction (reinforced concrete pouring, etc.), and the construction method is also complicated.

In the case of the reinforcement method using other steel reinforcement and damping devices, the field work process and air were reduced due to factory manufacturing, but there were still difficulties in installing steel reinforcement and damping devices in the field, space utilization was poor, and aesthetics was not Hurt The cost was also high compared to the conventional method.

In addition, both of the above methods have a problem in that the area of the parking lot on the first floor can be invaded, resulting in a change in the dedicated area.

JP 1998-196132 A JP 6058332 B2 KR 2013-93335 A KR 1382368 B JP 3406820 B2

The present invention was devised to solve the above problems.

We intend to minimize the complexity of the multiple processes and construction methods that occur due to wet construction.

In addition, it took a lot of steps to apply the conventional column reinforcement device to the column, it is intended to minimize these steps.

In addition, in the process of installing a conventional pillar reinforcement device, it is intended to solve the problem of deteriorating the use of space and spoiling the aesthetics.

One embodiment of the present invention for solving the above problems, in the pillar reinforcement device of the pilotti building (1), each fixed to the corner of the first floor of the pillar (10) of the pilotti building (1), the pillar surface A plurality of corner bodies 110 movable in; And a plurality of couplers 150 fastened to one side (110a) and the other side (110b) of the corner body (110) located on the edge of one surface of the pillar (10); including, one side (110a) of the corner body ) And male threads in opposite directions are formed on the other side 110b, male threads in opposite directions are formed on one end 150a of the coupler 150 and the other end 150b, and the corner body 110 One side (110a) and the one end (150a) of the coupler 150 is fastened, the other side (110b) of the corner body 110 and the other end (150b) of the coupler 150 is fastened, the coupler When the 150 is rotated in one direction, the corner bodies 110 are fastened to the coupler 150, and the plurality of corner bodies 110 and the plurality of couplers 150 surround the circumference of the pillar 10. It provides a wrapping column reinforcement device.

In addition, it is preferable that the pillar reinforcement device further includes a handle 160 positioned on the coupler 150.

In addition, it is preferable that a plurality of the pillar reinforcement devices are installed on the pillar 10, some of the plurality of pillar reinforcement devices are installed on the upper portion of the pillar 10, and other portions are installed on the lower portion.

In addition, the plurality of pillar reinforcement devices are installed spaced apart in the vertical direction, it is preferable that the spacer 170 is positioned so as to connect the pillar reinforcement devices in a space spaced between the pillar reinforcement devices.

In addition, the pillar reinforcement device, the outer cover of the coupler 150, it is preferable to further include a closing cover 190 that is continuously connected to the plurality of corner bodies (110).

In addition, it is preferable that the gap-retaining material 170 and the pillar reinforcing device are connected without being spaced apart from each other.

In another embodiment of the present invention for solving the above problems, in a pillar reinforcement method for reinforcing one layer of the pillar 10 of the pilotti building 1 using a plurality of pillar reinforcement devices, (a) the pillar Placing a plurality of corner bodies 110 at the corners of (10); (b) placing a plurality of couplers 150 between the corner bodies 110, respectively; (c) one side end 150a and the other end 150b of the coupler 150, respectively, in which male threads in opposite directions are respectively formed on one side 110a and the other side 110b of the corner bodies in which female threads in opposite directions are respectively formed. ); (d) When the coupler 150 is rotated by an external force, one side 110a and the other side 110b of the corner bodies 110 at the one side end 150a and the other end 150b of the coupler 150 are rotated. ) Are respectively fastened; And (d1) the steps (a) to (d) are repeated, such that the plurality of corner bodies 110 and the plurality of couplers 150 wrap the circumference of the pillar 10; desirable.

In addition, it is preferable that the steps (a) to (d) are repeated multiple times at the top and bottom of the pillar 10 after the step (d1), respectively.

In addition, the steps (a) to (d) are performed so that the pillar reinforcement devices are spaced apart, and then, (e) the space retainer 170 is located in the spaced apart space between the pillar reinforcement devices, the It is preferable to further include the step of continuously connecting the pillar reinforcement devices.

In addition, after the step (e), (f) the closing cover 190 covers the outer side of the coupler 150, the plurality of corner bodies 110 and the gap retaining material 170 are continuously It is preferable to further include a step that is installed as possible.

The present invention as described above has the following effects.

First, the pillar reinforcing device according to the present invention includes a coupler having a screw thread in the opposite direction, so that the corner body can be fastened to one side and the other side with one fastening, and is easy to install and requires short air.

Second, the pillar reinforcing device according to the present invention is provided with a handle on the coupler, so that the coupler can be easily rotated even if there is no space for rotating the coupler, and thus the corner body can be easily fastened to both sides.

Third, the pillar reinforced by the pillar reinforcement device according to the present invention has a smooth and continuous surface, thereby preventing safety accidents that may occur due to the pillar reinforcement device having irregularities.

Fourth, according to the present invention, the reinforced pillar of the pilotti structure has a smooth and continuous surface, and does not damage the exterior of the piloti structure and does not harm the light and aesthetics.

Fifth, the pillar reinforcing device according to the present invention is simple to manufacture because it uses a minimum number of members and has low cost burden.

Sixth, in installing the pillar reinforcement device according to the present invention to the pillar, the air is shortened because the process of pouring concrete is not required.

Seventh, even if the pillar reinforcement device according to the present invention is installed on the pillar of the pilotti building, the utilization of the space is high because it does not invade the use space of the first floor.

Eighth, the constraining effect of the pillars of the pilotti building is maximized by the pillar reinforcing device according to the present invention.

1 is a photograph of the damage of a pilotti building due to an earthquake.
2 is a perspective view of a pillar reinforcing device according to a first embodiment of the present invention.
3 is a related view showing an installation method using a pillar reinforcing device according to a first embodiment of the present invention.
4 is a perspective view of a pillar reinforcing device according to a second embodiment of the present invention.
5 is a related view showing an installation method using a pillar reinforcing device according to a second embodiment of the present invention.
6 is a perspective view of a pillar reinforcing device according to a third embodiment of the present invention, a closing cover, and a gap holding material.
7 is a perspective view after the closing cover and the spacer are installed in the pillar reinforcing device according to the third embodiment of the present invention.

Hereinafter, a pillar reinforcing device and method according to the present invention will be described in detail with reference to the drawings. Here, the components constituting the present invention may be used integrally or separately used as needed. In addition, some components may be omitted depending on the type of use. Various modifications are possible in the form of the present invention and the number of components.

Description of column reinforcement

Embodiment 1

A pillar reinforcing device capable of reinforcing one layer of the pillar 10 of the pilotti building 1 according to the first embodiment of the present invention will be described with reference to FIGS. 2 to 3.

Here, the first floor of the pillar 10 of the pilotti building 1 means a portion of the pillar 10 in a state exposed from the pilotti building 1 to the outside.

The pillar reinforcement device according to the first embodiment includes a plurality of corner bodies 110, a plurality of and a coupler 150.

The corner bodies 110 are respectively fixed to the corners of the first floor of the pillar 10 of the pilotti building 1 and are movable on the pillar surface (see FIG. 3(a)).

The number of corner bodies 110 will preferably vary depending on the number of corners of the pillar 10, and the corner body 110 has the same shape on one side and the other side and has a symmetrical shape that can cover the corner edges of the pillar 10. It would be desirable to have

The corner body 110 is formed with female threads in opposite directions to one side 110a and the other side 110b having symmetrical shapes. The effect according to this will be described together in the description of the coupler 150 to be described later.

The coupler 150 has a rod-shaped male thread, which is opposite to each other, at one end 150a and the other end 150b.

Corner bodies 110 are fastened to both ends of the coupler 150 with threaded portions opposite to each other, and specifically, any of the corner bodies 110 on one side 150a and the other side 150b of the coupler 150. It is fastened to one side (110a) of one corner body 110 and the other side (110b) of the other corner body (110).

One side 110a of the corner body 110 and one end 150a of the coupler 150 are fastened, and the other side 110b of the corner body 110 and the other end 150b of the coupler 150 are fastened, When rotating the coupler 150 in one direction, the corner bodies 110 are fastened with the coupler 150 at a time. When rotating the coupler 150 in a direction opposite to the fastening direction, the fastened corner bodies 110 are simply separated. That is, it is easy to install the column reinforcement device by simplifying the step of fastening by such a configuration.

In addition, the male and female threads that are opposite to each other are formed on one side and the other side of the coupler 150 to fasten the corner members 110 that are fastened to one side and the other side at a time. This is because when the male threads of the same direction are formed on one side and the other side of the coupler 150, the corner members 110 are fastened only on one side or the other side, and the corner members 110 located at both sides cannot be fastened.

In one embodiment, the coupler 150 is implied by a bar or wire, but is not limited thereto.

When the corner members 110 are respectively located at the corners of the pillar 10 through the repetition of these processes, a plurality of corner bodies 110 and a plurality of couplers 150 surround the circumference of the pillar 10 ( (C) and (d) of FIG. 3).

Due to the fastening structure of the corner body 110 and the coupler 150 as mentioned, the restraining effect of the pillar 10 is maximized, because threads in opposite directions are formed, so that the restraining is not easy.

On the other hand, a plurality of pillar reinforcement devices are installed on the pillar 10 of the pilotti building 1, and at this time, some of the pillar reinforcement devices are installed on the upper portion of the pillar 10, and other portions are installed on the lower portion. . This is because the upper and lower parts of the structure exposed to the first floor of the pillar 10 of the pilotti structure 1 are vulnerable.

2nd Example

The pillar reinforcement device according to the second embodiment will be described with reference to FIGS. 4 and 5 further.

In the second embodiment, repeated description of the same configuration as the pillar reinforcement device according to the first embodiment is omitted.

The pillar reinforcement device according to the second embodiment further includes a handle 160 in the pillar reinforcement device according to the first embodiment.

The handle 160 is located on the coupler 150 and is located between one end 150a and the other end 150b of the coupler 150 having different male threads.

When installing the column reinforcement device according to the present invention by the handle 160 to the column 10, even if there is no gap for work between the coupler 150 and the column 10, the coupler using the handle 160 ( 150) and the corner body 110 can be easily fastened. For example, a spanner having an end having a shape different from the shape of the handle 160 is connected to the handle 160 to easily fasten the column reinforcement device according to the present invention.

Third Example

The pillar reinforcement device according to the third embodiment will be described with reference to FIGS. 6 and 7 further.

In the third embodiment, repeated description of the same configuration as the pillar reinforcement device according to the first or second embodiment is omitted.

The pillar reinforcement device according to the third embodiment further includes a spacer 170 and a closing cover 190 in the pillar reinforcement device according to the first or second embodiment.

At this time, the plurality of pillar reinforcement devices according to the first and second embodiments are spaced apart and installed in the vertical direction.

The spacer 170 connects the column reinforcement devices to the spaced apart spaces between the column reinforcement devices in order to maintain the spaced apart space in the vertical direction of the plurality of column reinforcement devices. That is, the column reinforcement devices spaced apart from each other by the gap retainer 170 are continuously connected.

The closing cover 190 covers the outer side of the coupler 150 and is continuously connected to a plurality of corner bodies 110. When the spacer 170 is installed, the spacer 170 and the plurality of corner bodies 110 are continuously connected (see FIG. 7 ).

The pillar 10 has a smooth and continuous surface by the gap holding material 170 and the closing cover 190 according to the third embodiment, and it is possible to prevent a safety accident that may occur due to a conventional reinforcement device. , It does not damage the appearance and does not harm the lighting and aesthetics.

The closing cover 190 may be provided with a coupling portion compatible with the shape of the coupler 150 so as to be coupled with the coupler 150 for easy coupling with the coupler 150. For example, the C-shaped coupling portion may be formed on the closing cover 190 corresponding to the number of couplers 150.

Description of column reinforcement method

The first Example And second Example

6 to 7, a pillar reinforcement method for reinforcing one layer of the pillar 10 of the pilotti building 1 using a plurality of pillar reinforcement apparatuses according to the first and second embodiments of the present invention will be described. do.

In the pillar reinforcement method using the pillar reinforcement device according to the first embodiment and the second embodiment, step s100 of placing a plurality of corner bodies 110 at corners of the pillar 10, respectively, between the corner bodies 110 Step s200 of locating the plurality of couplers 150, one end of the coupler 150 having male threads in opposite directions to each other on one side 110a and the other side 110b of the corner bodies in which female threads are formed in opposite directions, respectively. Step 150a) and step s300 of positioning the other end 150b, when the coupler 150 is rotated by an external force, one side of the corner bodies 110 at one end 150a and the other end 150b of the coupler 150 ( Steps s400 and s100 to s400, where 110a) and the other side 110b are respectively fastened, are repeated, including steps s410 in which a plurality of corner bodies 110 and a plurality of couplers 150 wrap around the column 10. do.

First, a step of positioning a plurality of corner bodies 110 at corners of the pillars 10, which are steps s100, is performed. Some of the plurality of corner bodies 110 may be located first on two adjacent corners of the corners of the pillar 10.

Next, a step of positioning the plurality of couplers 150 between the corner bodies 110, which are steps s200, is performed. Positioning the coupler 150 to fasten the corner bodies 110 in the same extension line to each other, one side and the other side of the coupler 150 are positioned corresponding to the fastening portions formed in the respective corner bodies 110. Would be desirable.

Next, one end (150a) and the other end of the coupler (150) having opposite male threads formed in opposite directions on one side (110a) and the other side (110b), respectively, of the corner bodies, each of which is opposite to each other in step s300 (s300). Step 150b) is performed. Male threads in opposite directions are formed at one end 150a and the other end 150b at the coupler 150, and as mentioned, each one side 110a of the corner bodies 110 in the same extension line of the pillar. This is because male threads are formed in opposite directions to the other side 110b.

Next, when the coupler 150 in step s400 is rotated by an external force, one side 110a and the other side 110b of the corner bodies 110 are disposed at one end 150a and the other end 150b of the coupler 150. Each fastening step is performed. Male threads in opposite directions are formed at one end 150a and the other end 150b at the coupler 150, and the opposite directions are at opposite sides of each of the one side 110a and the other side 110b of the corner bodies 110. Since the threads are formed, each corner body is fastened to one end and the other end of the coupler 150 when the coupler 150 that engages with them is rotated in one direction.

Next, steps s410 to s400, which are steps s410, are repeated, so that a plurality of corner bodies 110 and a plurality of couplers 150 wrap around the column 10. The number of repetitions will be different depending on the number of corners of the first floor of the pillar of the pilotti building 1.

When steps S100 to s400 are repeated, the column 10 is repeated multiple times at the top and bottom. As mentioned, it is because the structure of the upper and lower columns of the pillar in the pilotti structure 1 is weak.

At this time, when using the column reinforcing device according to the second embodiment, a plurality of couplers 150, the handle 160 is included, it is performed in the same steps as above.

Third Example

The third embodiment is performed after the method of pillar reinforcement using the pillar reinforcement apparatus according to the first and second embodiments (see FIG. 6 ).

In Figure 6, after the second embodiment, the column reinforcement method using the column reinforcement device according to the third embodiment is shown, but after the first embodiment, the column reinforcement method using the column reinforcement device according to the third embodiment It may be performed.

In the column reinforcement method using the column reinforcement device according to the third embodiment, the space maintaining member 170 is located in the spaced apart space between the column reinforcement devices, step s500 and the closing cover 190 to continuously connect the column reinforcement devices It covers the outer side of the coupler 150, and includes a step s600 that is installed so that the plurality of corner bodies 110 and the spacer 170 are continuous.

After the method according to the first embodiment and the second embodiment is performed, the step s500, the step s500, is located in the spaced apart space between the column reinforcement devices, so that the step s500 of continuously connecting the column reinforcement devices Is performed.

At this time, the column reinforcement devices are performed to be spaced apart, and the spacer 170 is positioned in the spaced apart space between the column reinforcement devices.

It is possible to reinforce the first floor of the pillar 10 of the pilotti building 1 while the pillar reinforcement devices maintain a predetermined gap by the gap retaining material 170.

Next, the closing cover 190, which is the step s600, covers the outside of the coupler 150, and performs a step in which a plurality of corner bodies 110 and the space retention materials 170 are installed to be continuous.

Through this step, the exterior of the pilotti building 1 is not damaged, and light and aesthetics are not damaged. In addition, the burden of the foundation is also reduced because the minimum materials are used according to the steps mentioned above.

As described above, the present specification has been described with reference to the embodiments shown in the drawings so that those skilled in the art can easily understand and reproduce the present invention, but these are merely exemplary, and those skilled in the art can make various modifications and equivalents from the embodiments of the present invention. It will be understood that embodiments are possible. Therefore, the protection scope of the present invention should be defined by the claims.

1: Pilotti Architecture
10: Pillar
110: corner body
110a: one side (of the corner body)
110b: the other side (of the corner body)
150: coupler
150a: one end (of the coupler)
150b: the other end (of the coupler)
160: handle
170: gap retaining material
190: closing cover

Claims (10)

In the pillar reinforcement device of the pilotti building (1),
A plurality of corner bodies 110 fixed to corners of the first floor of the pillar 10 of the pilotti building 1 and movable on the pillar surface; And
It includes; a plurality of couplers 150 fastened to one side (110a) and the other side (110b) of the corner body (110) located on the edge of one surface of the pillar (10);
Female threads in opposite directions are formed on one side 110a and the other side 110b of the corner bodies, and male threads in opposite directions are formed on one end 150a and the other end 150b of the coupler 150, ,
One side 110a of the corner body 110 and one end 150a of the coupler 150 are fastened, and the other side 110b of the corner body 110 and the other end 150b of the coupler 150 Is signed,
When the coupler 150 is rotated in one direction, the corner bodies 110 are fastened to the coupler 150,
The plurality of corner bodies 110 and the plurality of couplers 150 surround the circumference of the pillar 10,
The pillar reinforcement device,
It is installed on the pillar 10 in a number,
The plurality of pillar reinforcement devices are installed spaced apart in the vertical direction, some of the plurality of pillar reinforcement devices are installed on the upper portion of the pillar 10, the other is installed on the lower portion,
The spacer 170 is positioned to connect the pillar reinforcement devices to the spaced apart spaces between the pillar reinforcement devices,
Covering the outside of the coupler 150, further comprising a closing cover 190 that is continuously connected to the plurality of corner bodies 110,
Column reinforcement.
According to claim 1,
The pillar reinforcement device,
Further comprising a handle 160 located on the coupler 150,
Column reinforcement.
delete delete delete According to claim 1,
The gap-retaining material 170 and the pillar reinforcement device are connected without separation from each other,
Column reinforcement.
In the pillar reinforcement method for reinforcing the first floor of the pillar 10 of the pilotti building (1) using a plurality of pillar reinforcement device,
(a) placing a plurality of corner bodies 110 at corners of the pillar 10, respectively;
(b) placing a plurality of couplers 150 between the corner bodies 110, respectively;
(c) one side end 150a and the other end 150b of the coupler 150, respectively, in which male threads in opposite directions are respectively formed on one side 110a and the other side 110b of the corner bodies in which female threads in opposite directions are respectively formed. );
(d) When the coupler 150 is rotated by an external force, one side 110a and the other side 110b of the corner bodies 110 at the one side end 150a and the other end 150b of the coupler 150 ) Are respectively fastened; And
(d1) the steps (a) to (d) are repeated, the plurality of corner bodies 110 and the plurality of couplers 150 surrounding the circumference of the pillar 10; including,
Steps (a) to (d), after the step (d1), are repeated multiple times, respectively, at the top and bottom of the pillar 10,
Steps (a) to (d) are performed so that the pillar reinforcement devices are spaced apart, and thereafter,
(e) a space keeping member 170 is located in a spaced apart space between the pillar reinforcement devices, so that the pillar reinforcement devices are continuously connected; And
(f) closing cover 190 covers the outer side of the coupler 150, and the plurality of corner bodies 110 and the spacing maintaining member 170 are installed to be continuous; further comprising,
Column reinforcement method. delete delete delete

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