KR101319527B1 - Seismic retrofit structure for building remodeling and seismic retrofit method using the same - Google Patents

Abstract

PURPOSE: An earthquake-proof reinforcement structure for the remodeling of a building and an earthquake-proof reinforcement method using the same are provided to shorten the period of construction for the construction of building remodeling and reduce construction cost, and to achieve the improved earthquake-proof performance. CONSTITUTION: An earthquake-proof reinforcement structure for the remodeling of a building includes a reinforcement exterior wall (110), a connection member (120), and a new constructed foundation (130). The reinforcement external wall is closely spaced to the exterior wall (13) of a building, and covers the exterior surface of the exterior wall. The connection member causes the exterior wall and the reinforcement exterior wall to be connected so as to integrally move. The new constructed foundation is provided in the lower portion of the reinforcement exterior wall and is formed along the edge of the building.

Description

Seismic reinforcement structure for building remodeling and seismic reinforcement method using it {SEISMIC RETROFIT STRUCTURE FOR BUILDING REMODELING AND SEISMIC RETROFIT METHOD USING THE SAME}

The present invention relates to a seismic reinforcing structure for building remodeling and a seismic reinforcing method using the same. More specifically, in a remodeling of a building, a seismic reinforcing structure and an earthquake reinforcing structure are installed to enhance seismic performance by installing a reinforcing outer wall on an outer wall of an existing building. It is about a method.

In the past, corridor-type apartments on the 10th to 15th floors were widely constructed as a residential building to solve the shortage of residential space.

However, in the conventional corridor-type apartments, a single corridor is shared by a plurality of households, thereby increasing unnecessary area per unit household, thereby substantially reducing the area per unit household and limiting the planar configuration and space utilization. Liver privacy was infringed.

Accordingly, in order to meet the demands of the consumer, stepped apartments that can increase the dedicated area of the unit household, maximize the planar configuration and space utilization, and reduce the invasion of privacy are widely used.

In addition, in recent years, the existing apartments are kept intact, and the exterior or interior is trimmed and changed to a new apartment. In general, remodeling a conventional corridor apartment into a staircase apartment is widely practiced.

In addition, in other business buildings, in order to save the cost and time for dismantling existing buildings and constructing new buildings, remodeling works are being widely carried out, leaving the existing building frame intact.

Meanwhile, the seismic design method is to consider the earthquake load additionally in the design of the structure. In Korea, it was newly established in 1986 and applied to more than a certain size of the structure that will be built after 1988. Therefore, seismic design is often not applied to structures before 1988 or low-rise apartments with five stories or less even in new construction after 1988. In addition, in 2005, a mandatory rule for mandatory seismic design for three-story or higher structures was introduced. Therefore, when remodeling is made, seismic reinforcement is required.

Therefore, when remodeling a building before 1988, there is a need for seismic reinforcement, and for this, a method such as reinforcing the internal bearing wall is used. However, as shown in FIG. In this case, due to problems such as reinforcing the reinforcing bars 2 through the slabs 1 formed in each layer, the process is difficult and takes a long time and excessively increases the construction cost. there was.

The present invention provides a seismic reinforcement structure and a seismic reinforcement method installed on the outer wall of an existing building (hereinafter referred to as 'building') so as to reduce the construction period and cost while exhibiting sufficient seismic performance to solve the above problems. To provide.

Building seismic reinforcement structure according to the present invention, the reinforcing outer wall is provided to be in close contact with the outer wall of the building to cover the outer surface of the outer wall, the connecting member connecting the outer wall and the reinforcing outer wall so that the outer wall and the reinforcing outer wall behaves integrally. And it may include a new foundation provided in the lower portion of the reinforcing outer wall.

In the building seismic reinforcement structure according to the present invention, the new foundation may be formed along the outer periphery of the building.

In the building earthquake-resistant reinforcing structure according to the present invention, the new foundation includes at least one body portion embedded in the ground and a structure portion provided on the body portion, at least a portion of the building foundation is the body portion and the structure portion It may be located in the space formed by.

In the building earthquake-resistant reinforcing structure according to the present invention, two body parts are formed, and the structure part may be provided on the body part to be connected to each other to form the body part.

In the building earthquake-resistant reinforcing structure according to the present invention, the body portion has a cross-section of the '' 'shape, the structure portion may be provided in a form extending horizontally from the upper end of the body portion to cover the space formed by the body portion.

The earthquake-resistant reinforcing structure according to the present invention may further include a ground reinforcing means provided in the lower portion of the body portion and embedded in the ground.

Building seismic reinforcement method according to the present invention, including at least one body portion and a structure portion provided on the upper portion of the body portion, the newly established that at least a portion of the building foundation is located in the space formed by the body portion and the structure portion Forming a foundation, installing a connecting member on the outer wall of the building, and closely connected with the outer wall to cover the outer surface of the outer wall through the connecting member so as to be integral with the outer wall, the upper surface of the structure part of the new foundation It may include the step of forming a reinforcing outer wall provided in.

Building seismic reinforcement method according to the present invention may further include the step of embedding the ground reinforcing means provided in the lower portion of the new foundation in the basement of the building before the step of forming the new foundation.

In the building earthquake-resistant reinforcement method according to the present invention, the step of installing the connection member may be performed during the progress of the step of embedding the ground reinforcement means or forming the new foundation.

The seismic reinforcement structure and the seismic reinforcement method for building remodeling of the present invention can shorten the construction period and reduce the construction cost in the building remodeling work and at the same time can exhibit improved seismic performance.

1 is a front schematic view showing the structure of a typical corridor apartment.
Figure 2a is a partial plan view showing the interior of a typical corridor apartment.
2B is a partial plan view of the interior of a typical multi-family house after remodeling has been performed.
2C is a plan schematic view of a typical multi-family house after remodeling has been done.
Figure 3 is a partial schematic cross-sectional view of a multi-family house for explaining the conventional method of seismic reinforcement construction.
4A and 4B are front schematic views of a remodeling apartment house in which a seismic reinforcing structure is installed according to an embodiment of the present invention.
5 is a cross-sectional view of the seismic reinforcement structure according to an embodiment of the present invention.
6 (a) and 5 (b) is a partial perspective view of the seismic reinforcement structure according to an embodiment of the present invention.
7 (a) to 7 (d) is a flow chart showing a seismic reinforcement method according to an embodiment of the present invention.

Hereinafter, with reference to the drawings will be described in detail a specific embodiment of the present invention. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventive concept. Other embodiments falling within the scope of the inventive concept may readily be suggested, but are also considered to be within the scope of the present invention.

In addition, components with the same functions within the scope of the same idea shown in the drawings of the embodiments will be described using the same reference numerals.

1 and 2A, in general, the corridor-type MDU 10 has a foundation 12 formed below the ground, and a building body 11 is formed on the foundation 12.

The foundation 12 generally has a horizontal plane that extends from the periphery of the building body 11 as a base for keeping the building body 11 stable.

The building body 11 has outer walls 13 formed on both sides thereof, and verandas 14 for each generation are located on the front side, and corridors 15 on each floor are located on the rear side.

In the remodeling of the corridor-type apartment house, as shown in FIG. 2B, the corridor 15 of each floor is incorporated into a dedicated area for each household (16 → 16 ′), and the stairs elevator room 20 is newly constructed at points adjacent to the left and right households. Is common.

Accordingly, since the newly constructed stairs elevator room 20 is installed at the rear of the corridor-type apartment house, one per two households per floor, the installed stairs elevator room 20 structurally supports the building body 11. Will be supported.

The stair elevator 20, which is built in the rear of the apartment house also serves to improve the seismic performance, in particular to improve the seismic performance for the left and right vibration (A direction).

On the other hand, since the effect of the seismic performance improvement for the front and rear vibration (B direction) is insignificant, seismic reinforcement for the front and rear vibration (B direction) may be additionally required.

Referring to Figure 4a, the seismic reinforcement structure according to an embodiment of the present invention is in close contact with the outer wall 13 of the apartment house is formed to cover the outer surface of the outer wall 110, the outer wall 13 and the It may include a connection member 120 for fastening the reinforcing outer wall (110).

The reinforcing outer wall 110 may be a reinforced concrete structure formed by pouring concrete into the steel frame structure.

In addition, as shown in Figure 4b, the reinforcement outer wall 110 may be formed to extend upward than the original height of the outer wall 13 as much as the extension if the apartment house is further expanded to a higher floor.

The connection member 120 may be a shear key installed on the outer wall 13 so that a part thereof protrudes, and a part to be protruded is accommodated in the reinforcing outer wall 110.

However, not limited to this, various connection devices known to those skilled in the art may be used.

The connection member 120 is connected to the outer wall 13 and the reinforcing outer wall 110 to be integrated to improve the seismic performance of the building.

4A, 4B, and 5, the seismic reinforcing structure according to the embodiment of the present invention may include a new foundation 130 formed below the ground. This is because the building foundation 12 is designed without considering the load of the reinforcing outer wall 110 or a load additionally added when an earthquake occurs, so as to support the load of the reinforcing outer wall 110 and the like.

The new foundation 130 is at least one body portion 131 buried in the ground outside the building avoiding the position of the foundation 12 of the apartment house and the structural portion provided on the upper surface of the body portion (131) ( 132).

At this time, the space portion 133 is formed by the body portion 131 and the structure portion 132, the base 12 is located in the space portion 133.

The new foundation 130 formed as described above is provided with two body parts 131 and horizontally extending from upper ends of the body parts 131, as shown in FIG. It may have a form including a structure portion 132 interconnecting 131.

In addition, as shown in (b) of Figure 6, the new foundation 130, the body portion 131 ', the horizontal surface is made of' C 'shape and the upper end of the body portion 131' It may have a form including a structure portion 132 ′ which is horizontally extended inward to cover the space 133 ′ formed by the body portion 131 ′.

As such, the excavation of the foundation 12 is performed by embedding the new foundation 130 to support the reinforcing outer wall 110 without using the foundation 12 to support the reinforcing outer wall 110. Since no work is required, such as drilling and the like, the construction period is shortened and construction cost is reduced, and additionally, the additional foundation can be added by the newly added foundation 130, thereby exhibiting improved seismic performance.

The seismic reinforcement structure may further include a ground reinforcement means 140 buried in the ground and provided below the new foundation 130.

The ground reinforcement means 140 is embedded in the ground so that the new foundation 130 supports the reinforcing outer wall 110 more stably, thereby exhibiting more improved seismic performance.

As a method of embedding the ground reinforcing means 140 in the ground, a designation method known to those skilled in the art such as ground compaction, rubble compaction, or pile piling may be used.

7 (a) to 7 (d) is a flow chart showing a method of seismic reinforcement of a building using the seismic reinforcement structure according to an embodiment of the present invention.

Referring to (a) to (d) of FIG. 7, the seismic reinforcement method of the building according to the present embodiment includes the steps of embedding the ground reinforcing means in the ground (FIG. 7 (a)) to form a new foundation. It may include the step (Fig. 7 (b)), the step of installing the connecting member on the outer wall of the building (Fig. 7 (c)), the step of forming a reinforcing outer wall (Fig. 7 (d)).

In the step of embedding the ground reinforcing means (FIG. 7 (a)), the ground reinforcing means 140 may be buried along the outside of the building avoiding the position where the foundation 12 of the building is formed.

This is for seismic reinforcement of the building without excavation or drilling work on the foundation 12.

As a method of embedding the ground reinforcing means 140 in the ground, a designation method known to those skilled in the art such as ground compaction, rubble compaction, or pile piling may be used.

The step of embedding the ground reinforcing means (FIG. 7A) may be omitted depending on the size of the building and the state of the ground.

Forming the new foundation (Fig. 7 (b)), at least one body portion 131 and the horizontal portion extending from the body portion 131 provided on the ground reinforcement means 140 and the foundation It may be a step of forming the structure portion 132 formed on the (12).

In this step, the body portion 131 and the structure portion 132 may be a reinforced concrete structure formed by manufacturing the steel structure to cast concrete on the steel structure.

As such, by forming the new foundation 130 so as not to interfere with the existing foundation 12 of the building, it is not necessary to excavate or drill the foundation 12 of the existing building, and thus the construction period and the construction cost. Can be reduced.

In the step of installing the connecting member (FIG. 7C), the connecting member 120 is constructed on the outer wall 13 of the existing building so that a part thereof protrudes, and the protruding part is accommodated in the reinforcing outer wall 110. May be a shear key.

However, the present invention is not limited thereto, and various connection members known to those skilled in the art may be used.

The connection member 120 is connected to the outer wall 13 and the reinforcing outer wall 110 to be described later integrally to improve the seismic performance of the building.

The step of installing the connecting member (Fig. 7 (c)) after the step of embedding the ground reinforcing means (Fig. 7 (a)) and forming the new foundation (Fig. 7 (b)) It is not limited to being advanced, but it can be performed before or during the process of installing the ground reinforcement means (FIG. 7 (a)) and forming the new foundation (FIG. 7 (b)).

In order to shorten the construction period, the step of installing the connecting member (Fig. 7 (c)) is the step of embedding the ground reinforcing means (Fig. 7 (a)) and the step of forming the new foundation (Fig. 7 It is preferable to carry out during the progress of (b)).

The step of forming the reinforcing outer wall (Fig. 7 (d)) is to form a steel structure on the new foundation 130, after laying the formwork to form concrete to form a reinforced outer wall 110 of reinforced concrete structure It may be a step.

At this time, the projecting portion of the connection member 120 is accommodated in the concrete is poured, the seismic performance of the building is improved by allowing the outer wall 13 and the reinforcing outer wall 110 of the existing building integrally behaved.

In the above, the building seismic reinforcing structure and the seismic reinforcing method using the same according to an embodiment of the present invention have been described above. For convenience of description, the present invention has been described based on remodeling of multi-unit houses, but it will be apparent to those skilled in the art that the present invention can be applied to other business buildings other than multi-unit houses.

10: Apartment
12: Foundation
13: outer wall
110: reinforcement outer wall
120:
130: New Foundation
140: ground reinforcement means

Claims (9)

A reinforcing outer wall adhered to the outer wall of the building and provided to cover the outer surface of the outer wall;
A connection member connecting the outer wall and the reinforcing outer wall so that the outer wall and the reinforcing outer wall behave integrally with each other; And
Seismic reinforcement structure comprising a; foundation provided on the lower portion of the reinforcing outer wall. The method of claim 1,
The new foundation is a building seismic reinforcement structure is formed along the outside of the building. 3. The method of claim 2,
The new foundation includes at least one body portion embedded in the ground and a structure portion provided on the body portion, wherein at least a portion of the building foundation is located in the space portion formed by the body portion and the structure portion seismic seismic Reinforcement structure. The method of claim 3,
Two body parts are formed, the structure part is provided on top of the body portion is provided in the building earthquake-resistant reinforcement structure provided in the form of interconnecting the body portion. The method of claim 3,
The body portion has a cross-section of the '''shape, the structure portion is a horizontal earthquake-proof reinforcement structure provided in the form to cover the space formed by the body portion extending horizontally from the upper end of the body portion The method of claim 3,
The earthquake-proof reinforcement structure of the building further comprising a ground reinforcement means provided in the lower portion of the body buried in the ground. Forming a new foundation including at least one body portion and a structure portion provided on an upper portion of the body portion, wherein at least a portion of a building foundation is located in a space formed by the body portion and the structure portion;
Installing a connection member on an outer wall of the building;
And forming a reinforcing outer wall integrally connected to the outer wall to cover the outer surface of the outer wall through the connecting member and integrally behaving with the outer wall and provided on an upper surface of the structure part of the new foundation. The method of claim 7, wherein
And embedding the ground reinforcing means provided in the lower portion of the new foundation in the underground of the building before the forming of the new foundation. 9. The method of claim 8,
The step of installing the connection member is earthquake-resistant reinforcement method, characterized in that carried out during the process of embedding the ground reinforcement means or forming the new foundation.

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