KR102185549B1 - Seismic reinforcement structure for non-bearing wall system of reinforced concrete wall apartment to prevent cracks and damage by earthquake - Google Patents

Abstract

The present invention relates to a PC non-bearing wall seismic reinforcement structure of a wall-type apartment for preventing cracks and damage caused by earthquakes, which is disposed between the upper and lower floor slabs, and is installed in the non-bearing wall installation space formed between the structural walls on both sides. As a seismic reinforcement structure of the bearing wall, a non-bearing wall structure configured to form a wall surface having a predetermined width and width, and a non-bearing wall structure installed between the non-bearing wall structure and the upper floor slab and the lower floor slab to the non-bearing wall installation space. A spacing in which a non-bearing wall structure is installed, and both sides of the non-bearing wall structure are spaced apart according to a set separation distance with respect to the side surface of the structural wall so that load transfer to the non-bearing wall structure is prevented when the structural wall is transversely deformed. It provides a PC non-bearing wall seismic reinforcement structure for wall-type apartments for preventing cracks and damage caused by earthquakes, comprising a connecting means.
According to the above, by applying the non-bearing wall in advance and then applying it to the wall-type apartment, on-site construction of the non-bearing wall of uniform quality is possible, workability and convenience can be improved, and damage is caused because the non-bearing wall structure is made of a PC structure. Even if it occurs, simply replace the PC non-bearing wall structure, so it is easy to repair and reinforce after the damage occurs, and it is possible to reduce the repair and reinforcement cost.

Description

PC non-bearing wall seismic reinforcement structure for wall-type apartments to prevent cracks and damage caused by earthquakes {SEISMIC REINFORCEMENT STRUCTURE FOR NON-BEARING WALL SYSTEM OF REINFORCED CONCRETE WALL APARTMENT TO PREVENT CRACKS AND DAMAGE BY EARTHQUAKE}

The present invention relates to a PC non-bearing wall seismic reinforcement structure of a wall-type apartment for preventing cracks and damage caused by earthquakes, and in more detail, an on-site construction of uniform quality is possible, and earthquakes due to separation from the structural wall and separation means It relates to a seismic reinforcement structure of non-bearing walls that can prevent cracks and damage of non-bearing walls and structural walls caused by load.

In general, in a multi-storey apartment house such as an apartment, a multi-storey building such as a villa or a building, a non-bearing wall that does not receive a vertical load exists between the upper and lower floor slabs of each floor.

As an example of a technology for such a non-bearing wall, Korean Patent Registration No. 10-1362193 discloses that the non-bearing wall is manufactured by cast-in-place concrete, and between the floor slabs at the top or bottom of the non-bearing wall, it can absorb deformation by expansion and contraction. In-situ concrete non-bearing wall installation structure, characterized in that all vertical deflections occurring in the floor slab are absorbed by the compressive deformation of the buffer isolator, so that vertical loads do not act on the non-bearing walls. It has been disclosed.

Meanwhile, damages such as severe cracks and dropouts in apartment houses (apartments) due to earthquakes have recently occurred in Korea. Referring to FIG. 1, it can be seen that the earthquake causes wall separation, joint destruction, and shear cracking of non-bearing walls, and in particular, it can be seen that damage to non-bearing walls such as water walls and wing walls occurs.

Here, the above-mentioned damage caused by the non-bearing wall did not cause personal injury rather than the structural damage caused by the shear wall crack, but it caused psychological anxiety for the residents, and the high cost of repairing non-structural elements was incurred, resulting in enormous economic loss. This is very big.

However, this non-bearing wall is a reality in which the analysis is performed by excluding the non-bearing wall as a lateral force-resistance member, such as a shear wall, when structural analysis for a multi-family house such as an apartment, and if water walls and wing walls are considered as lateral resistance members in structural design. When the analysis is performed, the reinforcement design of the non-bearing wall element is not performed, and errors about the member continue to occur.

However, in domestic MDUs, even with the exception of non-bearing walls, the amount of walls is relatively large, so the standard for the inter-floor displacement ratio at the system level for the entire structure is satisfied, so it is not a big problem in structural analysis.

Therefore, in the case of the non-bearing wall, the construction method such as a masonry tank was not applied to integrate with the structural members of the building, but due to the increase in labor and construction costs, the actual construction site has minimal reinforcement on the water wall and the wing wall as shown in FIG. The reality is that concrete is placed jointly by being installed and integrated with the shear wall.

This results in large crack damage and brittle fracture of the member by distributing the seismic load according to the size of the stiffness unlike the water wall and wing wall designed with the minimum reinforcement. Even in a designed apartment, severe cracks and damage to the non-bearing walls can occur.Severe cracks and damage of the non-bearing walls of these apartments seriously damage the usability of the apartments due to draft and rainwater penetration. Reinforcement is a technically difficult problem.

Therefore, in the prior art, where the water wall and the wing wall, which are non-bearing walls, are jointly designed with the shear wall, and the cavity is placed at the design/construction site, shear cracks of the non-bearing wall can spread to the shear wall when a natural disaster such as an earthquake occurs. There is a problem that the fragility of the entire structure increases due to damage, and since the minimum reinforcement of the wing wall and water wall is connected to the shear wall, it is not easy to dismantle in case of damage caused by an earthquake, and the cost is economically high due to difficulties in repair and reinforcement. There was a problem that it took.

Korean Patent Registration No. 10-1362193

An object of the present invention was conceived to solve the above problems, by applying a non-bearing wall to a wall-type apartment after pre-fabrication, enabling on-site construction of uniform quality and configuring it to be spaced apart from the structural wall through a spaced connection means, Provides a PC non-bearing wall seismic reinforcement structure for wall-type apartments to prevent cracks and damage caused by earthquakes that can prevent cracks and damage caused by connecting hardware when an earthquake load occurs, and can reduce economic loss due to repair and reinforcement. It is aimed at.

According to a preferred embodiment of the present invention, the PC non-bearing wall of a wall-type apartment is disposed between the upper and lower floor slabs and is installed in the non-bearing wall installation space formed between the structural walls on both sides to prevent cracks and damage due to earthquakes. A seismic reinforcement structure, comprising: a non-bearing wall structure configured to form a wall surface having a predetermined width and width; The non-bearing wall structure is installed between the non-bearing wall structure and the upper floor slab and the lower floor slab to install the non-bearing wall structure in the non-bearing wall installation space, wherein both side surfaces of the non-bearing wall structure are set with respect to the side of the structural wall. It characterized in that it is configured to include a spaced connection means installed to be spaced apart according to.

According to another embodiment of the present invention, the spacing connecting means, one side is installed respectively on the upper and lower side of the non-bearing wall structure, the other side is installed respectively on the upper and lower floor slabs, the non-bearing wall The structure is characterized in that it is composed of a hinge portion to be installed rotatably with respect to the upper floor slab and the lower floor slab.

According to another embodiment of the present invention, the hinge portion is formed to be bent in a'U' shape, the outer side is fixedly coupled to the side surfaces of the upper floor slab and the lower floor slab, respectively, and the inner side of the non-bearing wall structure It is characterized in that it comprises a support portion into which the upper and lower portions are inserted, and a hinge shaft through which the support portion and the non-bearing wall structure are rotatably coupled to each other.

According to another embodiment of the present invention, the hinge part is installed in the upper and lower centers of the non-bearing wall, respectively.

According to another embodiment of the present invention, a plurality of the hinge portions are installed to be spaced apart from each other in the upper and lower portions of the non-bearing wall.

According to another embodiment of the present invention, the spaced connection means further includes a slope measuring unit installed on the non-bearing wall structure to measure the inclination of the non-bearing wall structure by the hinge part, and indicating whether an earthquake has occurred. It is characterized by being configured.

According to another embodiment of the present invention, the spaced connection means, one side is installed respectively on the upper and lower side of the non-bearing wall structure, the other side is installed respectively on the upper floor slab and the lower floor slab, the non- The bearing wall structure is characterized in that it is configured to include a sliding portion to be installed to be slidably movable with respect to the upper floor slab and the lower floor slab.

According to another embodiment of the present invention, the sliding part includes a guide rail having an outer side fixedly coupled to the side surfaces of the upper floor slab and the lower floor slab, and having a sliding groove formed on a side facing the non-bearing wall structure. , One side is coupled to each of the upper and lower surfaces of the non-bearing wall structure, and the other side is characterized in that it comprises a sliding member slidably inserted into the sliding groove of the guide rail.

According to another embodiment of the present invention, a plurality of the sliding parts are provided to be spaced apart from each other in the upper and lower portions of the non-bearing wall.

According to another embodiment of the present invention, the guide rail is characterized in that the stop jaws are respectively formed at both ends of the sliding groove to prevent separation of the sliding member.

According to another embodiment of the present invention, the sliding member is characterized in that it is formed of a steel plate member.

According to another embodiment of the present invention, the spaced connection means is installed on the non-bearing wall structure to measure the lateral movement displacement of the non-bearing wall structure by the sliding unit, and a displacement measurement indicating whether an earthquake has occurred. It characterized in that it is configured to further include a wealth.

According to another embodiment of the present invention, the separation distance is characterized in that it is composed of less than 0.015 h _sx allowable interlayer displacement. (Here, h _sx represents the x-layer height.)

According to another embodiment of the present invention, the non-bearing wall structure is characterized in that it is composed of PC (Precast Concrete).

According to another embodiment of the present invention, the non-bearing wall structure is characterized in that the upper and lower surfaces are respectively installed to be spaced apart from the upper floor slab and the lower floor slab by the separation distance.

Meanwhile, since the description of the technology disclosed in this specification is merely an embodiment for structural or functional description, the scope of the rights of the disclosed technology should not be construed as being limited by the embodiments described in the text. That is, since the embodiments can be variously changed and have various forms, the scope of the rights of the disclosed technology should be understood to include equivalents capable of realizing the technical idea. In addition, since the object or effect presented in the disclosed technology does not mean that a specific embodiment should include all or only such effects, it should not be understood that the scope of the rights of the disclosed technology is limited thereby.

In addition, the meaning of the terms described in the present invention should be understood as follows. Terms such as “first” and “second” are used to distinguish one element from other elements, and the scope of rights is not limited by these terms. For example, a first component may be referred to as a second component, and similarly, a second component may be referred to as a first component.

Furthermore, when a component is referred to as being “connected” to another component, it should be understood that although it may be directly connected to the other component, another component may exist in the middle. On the other hand, it should be understood that some components do not exist. On the other hand, other expressions that describe the relationship between the constituent elements, such as “between” and “between” or “neighbor to” and “directly adjacent to” should be interpreted as well.

Singular expressions are to be understood as including plural expressions unless the context clearly indicates otherwise, and terms such as “comprises” or “have” refer to specified features, numbers, steps, actions, components, parts, or It is to be understood that it is intended to designate that a combination exists and does not preclude the presence or addition of one or more other features or numbers, steps, actions, components, parts, or combinations thereof.

The PC non-bearing wall seismic reinforcement structure of a wall-type apartment for preventing cracks and damage caused by earthquakes according to the present invention provides the following effects.

First, by applying the non-bearing wall in advance and then applying it to the wall-type apartment, on-site construction of the non-bearing wall of uniform quality is possible, and constructability and convenience can be improved.

Second, since the non-bearing wall structure is made of a PC structure, even if damage occurs, it is only necessary to replace the PC non-bearing wall structure, so it is easy to repair and reinforce after damage occurs, and repair and reinforcement costs can be reduced.

Third, by separating it from the structural wall through a spaced connection means, cracks and damage of the non-bearing wall and structural wall due to the connecting hardware in the event of an earthquake load are prevented by suppressing the crack of the non-bearing wall structure itself and securing and improving seismic performance. Can be prevented.

1 is a reference diagram showing a state in which cracks and breakages of non-bearing walls of an apartment have occurred due to an earthquake.
Figure 2 is a reference diagram showing a conventional non-bearing wall installation structure.
3 is a front view showing a PC non-bearing wall seismic reinforcement structure of a wall-type apartment for preventing cracks and damage due to earthquakes according to an embodiment of the present invention.
Figure 4 is an enlarged perspective view showing the configuration of the spaced connection member hinged in the non-bearing wall seismic reinforcement structure of Figure 3;
Figure 5 is a front view showing another embodiment of the spaced connection member in the seismic reinforcement structure of the non-bearing wall of Figure 3;
Figure 6 is an enlarged perspective view showing the configuration of the spaced connection member slidingly coupled in the non-bearing wall seismic reinforcement structure of Figure 5;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3, the PC non-bearing wall seismic reinforcement structure of a wall-type apartment for preventing cracks and damage due to an earthquake according to an embodiment of the present invention is disposed between the upper floor slab 10 and the lower floor slab 20 , As a seismic reinforcement structure of the non-bearing wall installed in the non-bearing wall installation space formed between the structural walls (30, 40) on both sides, the non-bearing wall structure (100), including the non-bearing wall structure (100) and the spacing connecting means (200,300) It is configured to be installed in the non-bearing wall installation space.

First, the non-bearing wall is configured to form a wall surface having a predetermined width and width, and is formed corresponding to the wall surface configuration of a construction building.

In detail, the non-bearing wall structure 100 is composed of PC (Precast concrete), and may be configured to be installed and constructed at the site after pre-manufacturing, not for cast-in-place construction. Accordingly, even if the non-bearing wall structure 100 needs to be repaired afterwards, since the non-bearing wall structure 100 only needs to be replaced, it is easy to repair and reinforce, thereby providing an effect of reducing costs.

Further, the non-bearing wall structure 100 is composed of a reinforced concrete PC, so that the rigidity of the non-bearing wall structure 100 can be secured, but it goes without saying that various configurations can be applied as an embodiment.

The spaced connection means (200, 300) is installed between the non-bearing wall structure 100 and the upper floor slab 10 and the lower floor slab 20 to provide the non-bearing wall structure 100 in the non-bearing wall installation space. It serves to install.

In detail, the spacing connecting means (200,300) is installed so that both sides of the non-bearing wall structure (100) are spaced apart according to the set separation distance (Δh) with respect to the side surfaces of the structural walls (30, 40), the structure It may be configured to prevent load transfer to the non-bearing wall structure 100 when the walls 30 and 40 are deformed in the transverse direction.

The spaced connection means (200, 300), as well as the upper and lower surfaces of the non-bearing wall structure (100), as well as both sides of the non-bearing wall structure (100), respectively, for the upper floor slab (10) and the lower floor slab (20). By being separated by a spaced distance, the non-bearing wall structure 100 itself provides an effect of suppressing cracks and securing and improving seismic performance.

Meanwhile, the separation distance is a separation distance between the non-bearing wall structure 100 and an adjacent wall structure, and is preferably configured to be less than 0.015 h _{sx of} allowable interlayer displacement. Here, h _sx represents the x-layer height.

This is to consider the permissible displacement at the level of the structural system at the load-bearing wall and the joint in order to prevent the seismic performance and cracking of the above-described PC-type non-bearing wall seismic reinforcement structure. Since apartment houses such as apartments correspond to known seismic grade I. This is because the allowable interlayer displacement cannot exceed 0.015 of the wall height.

Therefore, the spaced connection means (200,300) is spaced between the bearing walls to ensure safety against the expected inter-floor displacement, and in consideration of the Maximum Considering Earthquake, the permissible inter-floor displacement proposed by the Building Structural Standard (KBC 2016) ( Install the non-bearing wall structure 100 so that the coefficient of 3/2) can be applied. Here, since the details related to the seismic grade I are the same as those related to the known seismic grade, a detailed description thereof will be omitted.

Hereinafter, a non-bearing wall seismic reinforcing structure to which the spaced connection means 200 and 300 according to various embodiments is applied will be described.

Embodiment 1

First, in the first embodiment, the spacing connection means 200 is configured to be connected to the PC reinforced concrete non-bearing wall structure 100 in a hinge type, and after the non-bearing wall structure 100 is manufactured with a PC, the hinge part It is connected and fixed to the upper floor slab 10 and the lower floor slab 20, respectively.

Looking in detail with respect to the hinge part, the hinge part is installed on one side of the top and bottom of the non-bearing wall structure 100, respectively, and the other side is on the upper floor slab 10 and the lower floor slab 20, respectively. It may be installed, and the non-bearing wall structure 100 may be configured to be rotatably installed with respect to the upper floor slab 10 and the lower floor slab 20.

Looking in detail with reference to FIG. 4, the hinge portion may be configured to include a support portion 210 and a hinge shaft 220.

The support part 210 is formed to be bent in a'U' shape, the outer side is fixedly coupled to the side surfaces of the upper floor slab 10 and the lower floor slab 20, respectively, and the non-bearing wall structure 100 inwardly The upper and lower portions of the can be configured to be inserted and inserted.

The hinge shaft 220 may pass through the support part 210 and the non-bearing wall structure 100 so that the non-bearing wall structure 100 may be rotatably coupled.

Here, the configuration of the support part 210 and the hinge shaft 220 is made of a material having rigidity capable of sufficiently supporting the non-bearing wall structure 100, and a detailed description thereof will be omitted.

Meanwhile, as shown, one hinge part may be installed at the upper and lower centers of the non-bearing wall, respectively.

However, this is an embodiment, and the hinge part may be installed to be spaced apart from each other in the upper and lower portions of the non-bearing wall structure 100 according to the structure of the non-bearing wall structure 100, in this case, eccentricity to the non-bearing wall structure 100 They can be symmetrically spaced apart so that this does not occur.

Further, the separation connecting means 200, although not shown, is installed on the non-bearing wall structure 100 to measure the inclination of the non-bearing wall structure 100 by the hinge when an earthquake occurs, and indicate whether an earthquake has occurred. It may be configured to further include a tilt measurement unit. The inclination measurement unit may apply a known inclination measurement sensor, and the inclination measurement unit may apply various configurations such as a configuration that allows the user to check with the naked eye or a configuration that the user can check by transmitting inclination information to a user terminal I can.

According to the above, in the case of applying the hinge-type spaced connection member, the non-bearing wall seismic reinforcement structure, since the non-bearing wall structure 100 is connected in a hinge type, the moment when the structure moves in the transverse direction under an earthquake load. Shear force and axial force are transmitted without receiving, and since there is a separation from the structural walls 30 and 40 on both sides, it is possible to prevent load transmission due to the non-bearing wall structure 100 when the structural walls 30 and 40 are deformed. Since the shear span of the walls 30 and 40 becomes longer, it is possible to induce bending behavior.

Therefore, the PC non-bearing wall seismic reinforcement structure of the wall-type apartment for preventing cracks and damage caused by the earthquake can prevent damage to the structural walls 30 and 40 supporting lateral loads under earthquake loads, and the non-bearing wall structure 100 Even if damage such as cracks occurs in the PC, it is only necessary to replace the non-bearing wall structure 100, so it is easy to repair and reinforce after the damage occurs, thereby reducing the repair and reinforcement cost.

Example 2

5 is a view showing a PC non-bearing wall seismic reinforcement structure of a wall-type apartment for preventing cracks and damage due to earthquakes using the spaced connection means 300 according to the second embodiment.

The spaced connection means 300 according to the second embodiment, unlike the first embodiment, is configured to be connected to the PC reinforced concrete non-bearing wall structure 100 in a sliding type, and the non-bearing wall structure 100 is made of a PC. After construction, a sliding part made of a slidable hardware is used to connect and fix the upper floor slab 10 and the lower floor slab 20.

Here, the sliding part, one side is installed on each of the upper and lower portions of the non-bearing wall structure 100, the other side is installed on the upper floor slab 10 and the lower floor slab 20, respectively, the non-bearing wall structure 100 is configured to be slidably installed with respect to the upper floor slab 10 and the lower floor slab 20.

Referring to FIG. 6, looking at the sliding part in detail, the sliding part may include a guide rail 310 and a sliding member 320.

The guide rail 310 has an outer side fixedly coupled to the side surfaces of the upper floor slab 10 and the lower floor slab 20, respectively, and a sliding groove 311 on the side facing the non-bearing wall structure 100 Can be formed.

Here, the guide rail 310 may have stopping jaws formed at both ends of the sliding groove 311 to prevent the sliding member 320 from moving in a direction outside the rail surface to prevent separation.

One side of the sliding member 320 is coupled to an upper surface and a lower surface of the non-bearing wall structure 100, and the other side is slidably inserted into the sliding groove 311 of the guide rail 310.

Here, the sliding member 320 is preferably formed of a steel plate member having sufficient rigidity, but is not limited thereto.

Meanwhile, a plurality of the sliding parts may be installed in each of the upper and lower portions of the non-bearing wall structure 100 to be spaced apart, and as shown in the figure, three sliding parts may be installed at the upper and lower portions respectively, but the present invention is not limited thereto.

Although not shown, the spaced connection means 300 is a displacement measuring unit installed on the non-bearing wall structure 100 to measure the lateral movement displacement of the non-bearing wall structure by the sliding unit, and indicating whether an earthquake has occurred. It may be configured to further include.

Here, the displacement measurement unit can apply a known displacement measurement sensor, and the displacement measurement unit has various configurations such as a configuration that allows the user to check with the naked eye or a configuration that the user can check by transmitting displacement information to a user terminal, etc. Can be applied.

According to the above, when the slide-type spaced connection member is applied, the non-bearing wall seismic reinforcement structure is vertical when the spaced connection means 300 is connected to the upper floor slab 10 and the lower floor slab 20. Since sliding in the direction is possible, even when the height between the upper and lower floor slabs 10 and 20 is not constant, the PC non-bearing wall structure 100 can be easily installed.

In addition, in the non-bearing wall seismic reinforcement structure, the non-bearing wall seismic reinforcement structure is not only separated from the structural walls (30, 40) on both sides, but also from the upper and lower floor slabs (10, 20). It is possible to prevent damage such as cracks of the structural walls 30 and 40 and the non-bearing wall structure 100 by preventing the transmission of loads, and also the damage of the structural walls 30 and 40 that support lateral loads under earthquake loads. Not only can it be prevented, but even if damage such as cracks occurs in the non-bearing wall structure 100, it is only necessary to replace the PC non-bearing wall structure 100, so it is easy to repair and reinforce after the damage occurs, thereby reducing the repair and reinforcement cost. .

The present invention has been described with reference to the embodiments shown in the drawings, but these are merely exemplary, and those of ordinary skill in the art will appreciate that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical scope of the present invention should be determined by the technical spirit of the appended claims.

10: upper floor slab 20: lower floor slab
30,40: structural wall 100: non-bearing wall structure
200,300: separation connecting means 210: support
220: hinge shaft 310: guide rail
311: sliding groove 320: sliding member

Claims (12)

In the PC non-bearing wall seismic reinforcement structure of a wall-type apartment for preventing cracks and damage caused by earthquakes, which is disposed between the upper floor slab and the lower floor slab and installed in the non-bearing wall installation space formed between the structural walls on both sides,
A non-bearing wall structure configured to form a wall surface having a predetermined width and width;
The non-bearing wall structure is installed between the non-bearing wall structure and the upper floor slab and the lower floor slab to install the non-bearing wall structure in the non-bearing wall installation space, wherein both side surfaces of the non-bearing wall structure are set with respect to the side of the structural wall. Including a spaced connection means installed spaced apart according to,
The spaced connection means, one side is installed respectively on the upper and lower side of the non-bearing wall structure, the other side is respectively installed on the upper floor slab and the lower floor slab, the non-bearing wall structure is the upper floor slab and the lower floor It includes a hinge to be installed rotatably with respect to the slab,
The hinge part is a PC non-bearing wall seismic reinforcement structure of a wall-type apartment for preventing cracks and damage due to earthquake, characterized in that a plurality of the hinge parts are installed to be spaced apart from each other on the top and bottom of the non-bearing wall structure.
The method of claim 1,
The hinge part,
A support portion bent in a'C' shape, the outer side is fixedly coupled to the side surfaces of the upper and lower floor slabs, respectively, and the upper and lower portions of the non-bearing wall structure are inserted into the inner side,
PC non-bearing wall seismic reinforcement structure of a wall-type apartment for preventing cracks and damage caused by earthquakes, characterized in that it comprises a hinge shaft through which the support and the non-bearing wall structure are rotatably coupled to the non-bearing wall structure.
The method of claim 1,
The hinge part is a PC non-bearing wall seismic reinforcement structure of a wall-type apartment for preventing cracks and damage caused by earthquakes, characterized in that the hinge part is symmetrically spaced apart so that eccentricity does not occur in the non-bearing wall structure (100).
◈ Claim 4 was abandoned upon payment of the set registration fee. The method of claim 1,
The spaced connection means,
One side is installed on the upper and lower portions of the non-bearing wall structure, and the other side is installed on the upper and lower floor slabs, so that the non-bearing wall structure is slidable with respect to the upper and lower floor slabs. PC non-bearing wall seismic reinforcement structure for wall-type apartments for preventing cracks and damage caused by earthquakes, characterized in that it includes a sliding part to be installed in a way.
◈ Claim 5 was abandoned upon payment of the set registration fee. The method of claim 4,
The sliding part,
A guide rail whose outer side is fixedly coupled to the side surfaces of the upper floor slab and the lower floor slab, and has a sliding groove formed on the side facing the non-bearing wall structure,
Wall-type apartment for preventing cracks and damage due to earthquake, characterized in that one side is coupled to the upper and lower surfaces of the non-bearing wall structure, and the other side includes a sliding member slidably inserted into the sliding groove of the guide rail. PC non-bearing wall seismic reinforcement structure.
◈ Claim 6 was abandoned upon payment of the set registration fee. The method of claim 4,
The sliding part,
PC non-bearing wall seismic reinforcement structure of a wall-type apartment for preventing cracks and damage caused by earthquakes, characterized in that a plurality of the top and bottom of the non-bearing wall are installed to be spaced apart from each other.
◈ Claim 7 was abandoned upon payment of the set registration fee. The method of claim 4,
The spaced connection means further comprises a displacement measuring unit installed on the non-bearing wall structure to measure the transverse movement displacement of the non-bearing wall structure by the sliding unit, and indicating whether or not an earthquake has occurred. PC non-bearing wall seismic reinforcement structure for wall-type apartments to prevent cracks and damage caused by.
The method of claim 1,
The non-bearing wall structure,
A seismic reinforcement structure for PC non-bearing walls in wall-type apartments to prevent cracks and damage caused by earthquakes, characterized by consisting of PC (Precast Concrete).
The method of claim 1,
The non-bearing wall structure,
PC non-bearing wall seismic reinforcement structure of a wall-type apartment for preventing cracks and damage caused by earthquakes, characterized in that the upper and lower surfaces are respectively installed to be spaced apart from the upper floor slab and the lower floor slab by the separation distance.

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