KR102322356B1 - Encaustic brics damper and seismic reinforcement construction method of masonry structures using of the same - Google Patents

Abstract

The present invention provides a decoration brick damper and a seismic reinforcement construction method of a decoration brick structure using the same, wherein seismic energy is absorbed and dissipated by a decoration brick damper to realize the seismic reinforcement of a decoration brick structure. The decoration brick damper according to an appropriate embodiment of the present invention, which is used to prevent the collapse, overturn and damage to a decoration brick structure having decoration bricks stacked and constructed on the outer side of a wall during the generation of a seismic load, comprises: a length adjuster consisting of a first head having an anchor bolt insertion hole at an end, a second head having a connection bolt coupling hole at the other end, and a pair of head connectors for connecting the first head and the second head; an anchor bolt inserted into the first head of the length adjuster to be installed and fixed to a wall; a pair of first and second springs divided and installed with the first head of the length adjuster while being inserted into the anchor bolt at the same time to absorb and dissipate a seismic load, which is generated in the decoration brick structure, by elastic deformation; and a decoration brick connection bolt having one end screwed to the second head of the length adjuster and having the other end installed and buried in the decoration brick structure.

Description

Encaustic brics damper and seismic reinforcement construction method of masonry structures using of the same}

The present invention relates to a stucco damper used to prevent damage, overturning and collapse of a stucco structure, and a method of constructing an earthquake-resistant reinforcement of a stucco brick structure using the same. It relates to a stucco damper that can realize seismic reinforcement of stucco structures and a method for constructing seismic reinforcement of stucco brick structures using the damper.

In general, a stucco brick structure forms a masonry wall made by stacking bricks, concrete blocks, etc. on the outside of a wall (inner wall). For this masonry wall to have seismic resistance, the bonding force between the inner and outer walls is very important. Due to the nature of the structure of masonry built by stacking bricks one by one, if there is no way to secure unity such as edge beams, they are very vulnerable to lateral loads, leading to overturning and collapse. Overturning (out-of-plane deformation) of masonry walls is the most fatal phenomenon that occurs in masonry structures due to earthquakes. It is a deformation that is difficult to resist as a masonry wall, which is vulnerable to bending stress (tensile force), as a force acts in the vertical direction, not the wall direction, and causes the wall to fall, and it leads to rapid collapse of the entire building. Therefore, it is necessary to consider the prevention of overturning and collapse from the planning of the masonry building.

As the background technology of the present invention, as Korean Patent Registration No. 10-1371098 (Patent Document 1), a 'masonry wall reinforcement structure' is proposed. This is to increase the lifespan and rigidity of the masonry wall by increasing the bondability of the masonry wall composed of the inner wall, the insulating material and the outer wall through simple construction using a fixing member and a deformed iron wire. However, in the background art, the installation process is lengthened due to the operation of fixing the fixing member to the wall, the operation of assembling the vertical deformed iron wire having the primary and secondary cross-connections to the fixing member, and the fixing member is complicated, so the workability is difficult. it falls In addition, since the vertical deformed iron wire has primary and secondary cross-connections, there is a problem in that the flexural rigidity is lowered.

Korean Patent Registration No. 10-1371098

It is an object of the present invention to provide a stucco damper that enables seismic energy to be absorbed and dissipated through the stucco damper to realize seismic reinforcement of the stucco and a method for constructing the seismic reinforcement of the stucco using the same.

The stucco damper according to an appropriate embodiment of the present invention is used to prevent collapse, overturning and damage of a stucco brick structure laminated with stucco bricks on the outside of a wall when an earthquake load occurs, and once the anchor bolt insertion hole a first head having a first head, a second head having a connecting bolt fastening hole at the other end, and a length adjusting member consisting of a pair of head connecting rods connecting the first head and the second head; an anchor bolt inserted into the first head of the length adjusting member and fixedly installed on the wall; a pair of first and second springs which are inserted into the anchor bolt and installed separately with the first head of the length adjustment member interposed therebetween to absorb and dissipate the seismic load generated in the stucco structure through elastic deformation; One end is screwed to the second head of the length adjuster and the other end is a stucco connecting bolt that is embedded in the stucco structure.

In addition, the anchor bolt is characterized in that the compression nut for setting the compression amount of the pair of first and second springs is screwed.

In addition, the stucco brick connection bolt is characterized in that a connecting ring is formed through which a vertical deformed iron wire installed in the vertical direction to the stucco brick can be inserted.

In addition, the anchor bolt characterized in that it further includes a wedge extending the tip and a tightening nut extending the tip of the wedge.

On the other hand, the seismic reinforcement construction method of a stucco brick structure using a stucco damper according to the present invention comprises the steps of: (a) forming an anchor hole at a predetermined height in a wall; (b) installing the stucco damper to the anchor hole by fixing the anchor bolt as a medium; (c) Lay the retaining bricks at a certain distance from the wall, place the connecting ring of the stucco damper in the horizontal joint at the stacking height of the retaining brick, insert the vertical holder of the cross holder unit into the connecting ring, and insert the vertical holder and inserting a vertical deformed iron wire and a horizontal deformed iron wire into the horizontal holder, respectively; and repeating the step (c) to the total construction height of the retainer brick to construct the retainer brick structure.

According to the present invention, anchor bolts are fixedly installed on the wall at a certain height, and the stucco brick damper is connected to the vertical deformed iron wire penetrating into the stucco bricks stacked at a certain height through the stucco brick connection bolt and installed. Therefore, as the stucco brick is supported and installed on the wall through the vertical deformed iron wire and the stucco damper, when an earthquake arrives, a pair of springs on the stucco damper side alternately perform compressive deformation while absorbing and dissipating the seismic energy, thereby causing damage to the stucco brick structure. It can effectively prevent overturning and collapse.

In addition, the stucco brick damper can easily respond to the installation interval of the masonry wall by adjusting the overall length by the length adjusting member.

The following drawings attached to this specification illustrate preferred embodiments of the present invention, and serve to further understand the technical spirit of the present invention together with the detailed description of the present invention, so the present invention is limited to the matters described in the accompanying drawings It should not be construed as being limited.
1 is a perspective view of a stucco damper according to an embodiment of the present invention.
Figure 2 is an exploded perspective view of Figure 1;
Figure 3a is an assembly cross-sectional view of Figure 1;
3b and 3c are operational state diagrams of FIG. 1 according to the direction of the seismic load;
Figure 4 is a state view of the wedge is installed on the anchor bolt in Figure 1;
5 is an assembly cross-sectional view in which a plate spring is installed in place of the coil spring in FIG. 1;
6A to 6D are a seismic reinforcement construction flow chart of a stucco brick structure using a stucco damper according to an embodiment of the present invention.
7 is an enlarged view of part 'K' of FIG. 6d.
8 is an exemplary view in which a stucco damper, a vertical deformed reinforcing bar and a horizontal deformed reinforcing bar are connected through a cross holder unit during seismic reinforcement construction of a stucco brick structure using a stucco damper according to an embodiment of the present invention.
9 is a perspective view of a stucco damper according to another embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the presented embodiments are illustrative for a clear understanding of the present invention, and the present invention is not limited thereto.

As shown in FIGS. 1 to 3, the stucco damper 10 according to the present invention is a stucco brick structure 200 laminated with stucco bricks 210 on the outside of the wall 100 when an earthquake load occurs. Used to prevent overturning and breakage.

The stucco damper 10 includes a length adjusting member 12 , an anchor bolt 14 , a pair of first and second springs 16A and 16B, and a stucco connecting bolt 18 .

The length adjusting member 12 includes a first head 121 having an anchor bolt insertion hole 121a at one end, a second head 122 having a connection bolt fastening hole 122a at the other end, a first head 121 and a 2 It is composed of a pair of head connecting rods 123 for connecting the heads (122).

The anchor bolt 14 is inserted into the first head 121 of the length adjustment member 12 to be fixedly installed on the wall 100 . That is, the anchor bolt 14 is movably installed in the anchor bolt insertion hole 121a of the first head 121 . The anchor bolt 14 connects the stucco damper 10 to the wall 100 .

The pair of first and second springs 16A and 16B are inserted into the anchor bolt 14 and installed separately with the first head 121 of the length adjusting member 12 therebetween. The pair of first and second springs 16A and 16B may be installed in the form of a coil spring as shown in FIG. 3 or may be installed in the form of a plate spring as shown in FIG. 5 . Accordingly, a pair of first and second springs 16A and 16B alternately elastically compressively deform to absorb and dissipate the seismic load generated in the decorative brick structure 200 as shown in FIGS. 3b and 3c.

Here, it is preferable that the compression nut 15 for setting the compression amount of the pair of first and second springs 16A and 16B is screwed to the anchor bolt 14 . Therefore, when the compression nut 15 is rotationally tightened, the compression amount of the pair of first and second springs 16A and 16B is reduced, and conversely, when the compression nut 15 is rotationally loosened, the compression amount can be increased.

One end of the stucco connection bolt 18 is screw-coupled to the second head 122 of the length adjusting member 12 and the other end is embedded in the stucco brick structure 200 . The stucco brick connection bolt 18 has a male screw part 161 screwed to the second head 122 at one end and a vertical deformable iron wire 220 installed in the vertical direction to the stucco brick 210 at the other end It can be inserted A connecting ring 181 is formed.

On the other hand, as shown in Figure 4, the anchor bolt 14 may further include a wedge 17 having an extended tip. The wedge 17 can be fixed to the anchor hole 102 by extending the tip of the wedge 17 by the rotational tightening force of the tightening nut 19 screwed to the anchor bolt 14 .

An embodiment of the earthquake-resistant reinforcement construction method of the stucco brick structure using such a stucco damper 10 will be sequentially described.

First, anchor holes 102 are formed at a predetermined height in the wall 100 as shown in FIG. 6A .

Then, as shown in FIG. 6b , the stucco damper 10 is fixedly installed in the anchor hole 102 . At this time, after inserting the anchor bolt 14 on the side of the stucco brick damper 10 into the anchor hole 102 , the filler may be filled in the anchor hole 102 to fix the anchor bolt 14 .

Then, as shown in FIGS. 6C and 8, the retainer bricks 210 are stacked with a certain interval from the wall 100, and the connecting ring 181 of the stucco brick damper 10 is attached to the stacking height of the retainer bricks 210. After positioning in the horizontal joint, insert the vertical holder 231 of the cross holder unit 230 into the connecting ring 181, and the vertical holder 231 and the horizontal holder 232, respectively, the vertical deformable iron wire 220 and the horizontal The deformed iron wire 240 is inserted.

Thereafter, as shown in FIG. 6D , the stacking of the retaining bricks 210 up to the total construction height of the retainer bricks 210 and the connecting ring 181 of the stucco brick damper 10 at the corresponding stacking height position are stacked with the retainer bricks 210 . After inserting into the cross holder unit 230 positioned at the horizontal joint of the height, inserting the vertical deformed iron wire 220 and the horizontal deformed iron wire 240 into the cross holder unit 230 is repeated to form the retaining brick structure 200. will be constructed

The stucco damper 10 constructed in this way is fixedly installed on the wall 100 through anchor bolts 14 at a certain height as shown in FIGS. It is connected to the vertical deformed iron wire 220 and the horizontal deformed iron wire 240 installed on the side of the stucco brick 210 through the positioned cross holder unit 230 . Therefore, the stucco brick 210 is supported on the wall 100 via the vertical deformed wire 220, the horizontal deformed wire 240, and the stucco damper 10 as a medium, so that when an earthquake arrives, the stucco brick damper 10 side is limited. The pair of first and second springs 16A and 16B alternately absorb and dissipate seismic energy while performing compressive deformation, thereby effectively preventing damage, overturning and collapse of the stucco structure 200 .

On the other hand, the stucco brick damper 10 according to another embodiment of the present invention, as shown in FIG. 9, inserts the stucco brick connection bolt 18 into the length adjusting member 12 side of the second head 122 in the connection bolt insertion hole 122b. It can be installed by inserting it into the to be movable, and inserting the first and second springs 16A and 16B into the stucco connecting bolt 18 . At this time, the first and second springs 16A and 16B are symmetrically disposed with respect to the second head 122 and inserted and installed in the stucco brick connection bolt 18 . In addition, the anchor bolt 14 is screwed into the anchor bolt fastening hole 121b of the first head 121 side of the length adjusting member 12 . The compression nut 15 is screwed to the stucco connecting bolt 18 to set the compression amount of the pair of first and second springs 16A and 16B. Therefore, the stucco damper 10 dissipates seismic energy while the first and second springs 16A and 16B installed on the stucco connection bolt 18 are alternately compressed during vibration suppression to prevent overturning and collapse of the stucco brick structure. .

So far, the present invention has been described in detail with reference to the presented embodiments, but those skilled in the art can make various modifications and modified inventions without departing from the technical spirit of the present invention with reference to the presented embodiments. will be. The present invention is not limited by such variations and modifications, but only by the claims appended hereto.

10: stucco damper
12: length adjuster
14: anchor bolt
16A, 16B: first, second spring
18: stucco brick connection bolt

Claims (10)

In the stucco brick damper 10 used to prevent the collapse, overturning and damage of the stucco brick structure 200 laminated with the stucco brick 210 on the outside of the wall 100 when an earthquake load occurs,
A first head 121 having an anchor bolt insertion hole 121a at one end, a second head 122 having a connection bolt fastening hole 122a at the other end, a first head 121 and a second head 122, a length adjustment member 12 consisting of a pair of head connecting rods 123 for connecting;
an anchor bolt 14 inserted into the first head 121 of the length adjusting member 12 and fixedly installed on the wall 100;
A pair of absorbing and dissipating the seismic load generated in the decorative brick structure 200 through elastic deformation by being inserted into the anchor bolt 14 and installed with the first head 121 of the length adjusting member 12 interposed therebetween of the first and second springs (16A, 16B) and;
One end is screwed to the second head 122 of the length adjusting member 12, and the other end is a stucco connection bolt 18 that is embedded in the stucco brick structure 200;
Stucco brick damper, characterized in that the anchor bolt (14) further includes a wedge (17) extending the tip and a tightening nut (19) extending the tip of the wedge (17). In the stucco brick damper 10 used to prevent the collapse, overturning and damage of the stucco brick structure 200 laminated with the stucco brick 210 on the outside of the wall 100 when an earthquake load occurs,
A first head 121 having an anchor bolt fastening hole 121b at one end, a second head 122 having a connection bolt inserting hole 122b at the other end, a first head 121 and a second head 122, a length adjustment member 12 consisting of a pair of head connecting rods 123 for connecting;
An anchor bolt 14 screwed to the first head 121 of the length adjustment member 12 after being fixed to the wall 100;
a stucco connecting bolt 18 having one end inserted into the second head 122 of the length adjusting member 12 to be movably coupled and the other end embedded in the stucco brick structure 200;
At the same time as being inserted into the stucco brick connection bolt 18, it is dividedly installed with the second head 122 of the length adjuster 12 interposed therebetween to absorb and dissipate the seismic load generated in the stucco brick structure 200 through elastic deformation. A pair of first and second springs (16A, 16B); includes,
Stucco brick damper, characterized in that the anchor bolt (14) further includes a wedge (17) extending the tip and a tightening nut (19) extending the tip of the wedge (17). The method of claim 1,
Stucco brick damper, characterized in that the anchor bolt (14) is screwed with a compression nut (15) for setting the compression amount of the pair of first and second springs (16A, 16B). 3. The method of claim 2,
Stucco brick damper, characterized in that the compression nut (15) for setting the compression amount of the pair of first and second springs (16A, 16B) is screwed to the stucco connection bolt (18). 3. The method of claim 1 or 2,
The stucco brick damper, characterized in that the stucco brick connection bolt (18) is formed with a connecting ring (181) capable of inserting the vertical deformed iron wire (220) installed in the vertical direction to the stucco brick (210). delete A stucco damper 10 is installed using the anchor bolts 14 anchored to the wall 100 at a certain height, and the cross holder unit 230 positioned at the joints of the stucco bricks 210 stacked at a certain height is connected to the The vertical deformed iron wire 220 and the horizontal deformed iron wire 240 installed on the side of the decorative brick 210 are additionally inserted into the cross holder unit 230, so that the decorative brick 210 is a vertical deformed iron wire 220 and a horizontal deformed iron It is supported on the wall 100 via the line 240 and the stucco damper 10, and when an earthquake arrives, a pair of first and second springs 16A and 16B on the stucco damper 10 side are compressed alternately It absorbs and dissipates seismic energy while performing deformation.
The stucco brick damper 10,
A first head 121 having an anchor bolt insertion hole 121a at one end, a second head 122 having a connection bolt fastening hole 122a at the other end, a first head 121 and a second head 122, a length adjustment member 12 consisting of a pair of head connecting rods 123 for connecting;
an anchor bolt 14 inserted into the first head 121 of the length adjusting member 12 and fixedly installed on the wall 100;
A pair of absorbing and dissipating the seismic load generated in the decorative brick structure 200 through elastic deformation by being inserted into the anchor bolt 14 and installed with the first head 121 of the length adjusting member 12 interposed therebetween of the first and second springs (16A, 16B) and;
One end is screwed to the second head 122 of the length adjusting member 12 and the other end is a stucco connecting bolt 18 that is embedded in the stucco structure 200; The seismic construction structure of the stucco brick structure used. A stucco damper 10 is installed using the anchor bolts 14 anchored to the wall 100 at a certain height, and the cross holder unit 230 positioned at the joints of the stucco bricks 210 stacked at a certain height is connected to the The vertical deformed iron wire 220 and the horizontal deformed iron wire 240 installed on the side of the decorative brick 210 are additionally inserted into the cross holder unit 230, so that the decorative brick 210 is a vertical deformed iron wire 220 and a horizontal deformed iron It is supported on the wall 100 via the line 240 and the stucco damper 10, and when an earthquake arrives, a pair of first and second springs 16A and 16B on the stucco damper 10 side are compressed alternately It absorbs and dissipates seismic energy while performing deformation.
The stucco brick damper 10,
A first head 121 having an anchor bolt fastening hole 121b at one end, a second head 122 having a connection bolt inserting hole 122b at the other end, a first head 121 and a second head 122, a length adjustment member 12 consisting of a pair of head connecting rods 123 for connecting;
An anchor bolt 14 screwed to the first head 121 of the length adjustment member 12 after being fixed to the wall 100;
a stucco connecting bolt 18 having one end inserted into the second head 122 of the length adjusting member 12 to be movably coupled and the other end embedded in the stucco brick structure 200;
At the same time as being inserted into the stucco brick connection bolt 18, it is dividedly installed with the second head 122 of the length adjuster 12 interposed therebetween to absorb and dissipate the seismic load generated in the stucco brick structure 200 through elastic deformation. A pair of first and second springs (16A, 16B); earthquake-resistant construction structure of a stucco structure using a stucco damper, characterized in that it includes. (a) forming an anchor hole 102 at a predetermined height in the wall 100;
(b) installing the stucco damper 10 to the anchor hole 102 by fixing the anchor bolt 14 as a medium;
(c) Laying the retaining bricks 210 with a certain interval from the wall 100, but placing the connecting ring 181 of the stucco damper 10 at the horizontal joint of the stacking height of the retaining bricks 210, Insert the vertical holder 231 of the cross holder unit 230 into the connecting ring 181, and insert the vertical deformable iron wire 220 and the horizontal deformable iron wire 240 into the vertical holder 231 and the horizontal holder 232, respectively. the step of setting it up;
repeating the step (c) up to the total construction height of the retainer brick 210 to construct the retainer brick structure 200;
The stucco brick damper 10,
A first head 121 having an anchor bolt insertion hole 121a at one end, a second head 122 having a connection bolt fastening hole 122a at the other end, a first head 121 and a second head 122, a length adjustment member 12 consisting of a pair of head connecting rods 123 for connecting;
an anchor bolt 14 inserted into the first head 121 of the length adjusting member 12 and fixedly installed on the wall 100;
A pair of absorbing and dissipating the seismic load generated in the decorative brick structure 200 through elastic deformation by being inserted into the anchor bolt 14 and installed with the first head 121 of the length adjusting member 12 interposed therebetween of the first and second springs (16A, 16B) and;
One end is screwed to the second head 122 of the length adjusting member 12 and the other end is a stucco connecting bolt 18 that is embedded in the stucco structure 200; Seismic reinforcement construction method of stucco brick structure using (a) forming an anchor hole 102 at a predetermined height in the wall 100;
(b) installing the stucco damper 10 to the anchor hole 102 by fixing the anchor bolt 14 as a medium;
(c) Laying the retaining bricks 210 with a certain interval from the wall 100, but placing the connecting ring 181 of the stucco damper 10 at the horizontal joint of the stacking height of the retaining bricks 210, Insert the vertical holder 231 of the cross holder unit 230 into the connecting ring 181, and insert the vertical deformable iron wire 220 and the horizontal deformable iron wire 240 into the vertical holder 231 and the horizontal holder 232, respectively. the step of setting it up;
repeating the step (c) up to the total construction height of the retainer brick 210 to construct the retainer brick structure 200;
The stucco brick damper 10,
A first head 121 having an anchor bolt fastening hole 121b at one end, a second head 122 having a connection bolt inserting hole 122b at the other end, a first head 121 and a second head 122, a length adjustment member 12 consisting of a pair of head connecting rods 123 for connecting;
An anchor bolt 14 screwed to the first head 121 of the length adjustment member 12 after being fixed to the wall 100;
a stucco connecting bolt 18 having one end inserted into the second head 122 of the length adjusting member 12 to be movably coupled and the other end embedded in the stucco brick structure 200;
At the same time as being inserted into the stucco brick connection bolt 18, it is dividedly installed with the second head 122 of the length adjuster 12 interposed therebetween to absorb and dissipate the seismic load generated in the stucco brick structure 200 through elastic deformation. A pair of first and second springs (16A, 16B); Seismic reinforcement construction method of a stucco structure using a stucco damper, characterized in that it includes.

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