KR20130082265A - Reinforcing structure for earthquake-resistant of masonry wall - Google Patents

Abstract

PURPOSE: A masonry wall earthquake-resistant reinforcing structure including a reinforcement unit is provided to prevent safety accidents and to supply a support force on an external force or earthquake by improving structural stability of a masonry wall. CONSTITUTION: A masonry wall earthquake-resistant reinforcing structure comprises a masonry wall structure (100) and a reinforcement unit (200). The reinforcement unit forms a connection hole (210) on the part in which bricks are connected to each other. a compressive force is applied in a direction in which the bricks are mutually contacted by connecting a bolt (221) and a nut (222) to the connection hole. A solidified mat (224) is attached to both side surfaces of the masonry wall structure.

Description

Masonry wall seismic reinforcement structure {REINFORCING STRUCTURE FOR EARTHQUAKE-RESISTANT OF MASONRY WALL}

The present invention relates to a masonry wall seismic reinforcement structure, and more particularly, to a masonry wall seismic reinforcement structure that can improve the structural stability of the masonry wall.

A masonry wall is an architectural structure that builds a wall by stacking stones, bricks, concrete blocks, etc., and is a smooth structure of brick, stone, and concrete block structures without reinforcement. Also called. In general, the durability (耐久性) is excellent, especially the stone is a structure that has been used for a long time.

In Western Europe, where there are few earthquakes, structural methods are used, and arches and domes, which are excellent in design, have been completed for a long time, and brick structures are still widely used.

The brick structure is not only stacking bricks but also stacking bricks on the outer surface of the inner wall made of concrete, etc., and the bonding force between the inner wall and the brick is very important. When the binding force between the inner wall and the brick wall falls, the brick that has been stacked may be collapsed by an earthquake, impact or wind pressure.

Therefore, it is necessary to closely bond the masonry with the inner wall to prevent various safety accidents caused by the collapse of the brick.

Conventionally, various methods of reinforcing such a masonry wall have been studied, but such methods generally have inconveniences of using complicated accessories or equipment, and reinforcement procedures are also very complicated and inefficient.

The object of the present invention devised in view of the above point is to improve the structural stability of the masonry wall to improve the bearing capacity against earthquakes or external forces of buildings constructed using the masonry wall and prevent safety accidents. The present invention provides a seismic reinforcing structure for masonry walls.

A masonry wall seismic reinforcing structure for achieving the above object of the present invention, the masonry wall structure to form a wall having a predetermined width and length by sequentially stacking a plurality of bricks; It characterized in that it comprises a reinforcing portion provided in the masonry wall structure for the seismic reinforcement of the masonry wall structure.

Here, the reinforcing part may be formed to penetrate through the fastening hole in the contact portion where the brick and the brick contact with each other and to fasten the fastening means to the fastening hole so that the compressive force acts in the direction in which the brick and the brick are in contact with each other.

The fastening means may include a fastening bolt inserted into the fastening hole and a fastening nut fastened to an end of the fastening bolt.

In addition, both ends of the fastening bolt may be provided with a separate washer to extend the area in contact with the brick.

In addition, a solidified mat may be attached to both sides of the masonry wall structure to which the fastening means is fastened.

The reinforcement part may include side fixing mats attached to both sides of the masonry wall structure, and a diaphragm fixing mat disposed along the width direction of the masonry wall structure on the laminated surface of the stacked bricks.

In addition, the diaphragm fixing mat may be spaced apart a predetermined interval along the height direction of the masonry wall structure may be provided in a plurality of locations.

In addition, the reinforcing part may include a side solidified mat attached to both sides of the masonry wall structure, and a bent solid mat disposed to be bent to surround the laminated surface and the side of the laminated brick attached to the masonry wall structure. .

The reinforcing part may include side fixing mats attached to both sides of the masonry wall structure, and reinforcing fibers provided between the masonry wall structure and the side fixing mat.

A seismic reinforcing method for a masonry wall structure according to a first embodiment of the present invention for achieving the object of the present invention comprises the steps of forming a through hole in the boundary area where the stacked bricks of the masonry wall structure contact each other; Fastening the fastening means to the fastening hole so that the compressive force acts in the direction in which the bricks are in contact with each other; Attaching a solidified mat to both sides of the masonry wall structure; .

A seismic reinforcing method for a masonry wall structure according to a second embodiment and a third embodiment of the present invention for achieving the object of the present invention comprises the steps of: stacking bricks forming the masonry wall structure; Stacking a portion of the brick and attaching a diaphragm solidified mat or a curved solidified mat to the brick; Stacking the remaining bricks after attaching the diaphragm solid mat or the flex solid mat; Attaching a side solidifying mat to a side surface of the masonry wall structure when the masonry wall structure is completed by laminating the brick; .

The stacking of bricks to form the masonry wall structure may further include applying a solidifying mixture between the bricks and the bricks.

As described above, the seismic reinforcement structure of the masonry wall according to the present invention improves the structural stability of the masonry wall, thereby enhancing the bearing capacity against earthquakes or external forces of buildings constructed using the masonry wall, and at the same time, safety accidents have been delayed. It is effective to prevent it.

1 is a side view showing the structure of the seismic reinforcing structure masonry wall according to the first embodiment of the present invention,
2 is an exploded perspective view illustrating an exploded structure of the seismic reinforcing wall structure according to the first embodiment of the present invention;
3 is a flow chart sequentially describing a method for seismic reinforcing masonry wall according to the first embodiment of the present invention,
4 is a side view showing the seismic reinforcing structure of the masonry wall according to the second embodiment of the present invention,
5 is a side view illustrating a seismic reinforcing structure of a masonry wall according to a third embodiment of the present invention;
6 is a flowchart sequentially describing a method for seismic reinforcing masonry wall according to a second embodiment and a third embodiment of the present invention;
7 is a side view showing the seismic reinforcing structure of the masonry wall according to the fourth embodiment of the present invention,
8 is a side view showing the seismic reinforcing structure of the masonry wall according to the fifth embodiment of the present invention.

Hereinafter, the masonry wall seismic reinforcing structure according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a side view showing the structure of the masonry wall seismic reinforcing structure according to the first embodiment of the present invention, Figure 2 is an exploded perspective view showing the decomposition of the masonry wall seismic reinforcing structure according to the first embodiment of the present invention 3 is a flowchart sequentially illustrating a method of seismic reinforcing wall masonry reinforced structure according to a first embodiment of the present invention, and FIG. 4 is a side view illustrating a structure of seismic reinforcing wall reinforced structure according to a second embodiment of the present invention. 5 is a side view illustrating a seismic reinforcement structure of the masonry wall according to the third embodiment of the present invention, and FIG. 6 is a flowchart sequentially describing the seismic reinforcement method of the masonry wall according to the second and third embodiments of the present invention. 7 is a side view illustrating the seismic reinforcement structure of the masonry wall according to the fourth embodiment of the present invention, and FIG. 8 is a side view illustrating the seismic reinforcement structure of the masonry wall according to the fifth embodiment of the present invention.

As shown in these figures, the masonry wall seismic reinforcing structure according to the present invention, the masonry wall structure 100 to form a wall having a predetermined width and length by sequentially stacking a plurality of bricks 110, masonry It is configured to include a reinforcing part 200 provided in the masonry wall structure 100 for the seismic reinforcement of the wall structure (100).

The masonry wall structure 100 is a structure in which a plurality of bricks 110 are sequentially stacked and arranged outside the concrete wall surface, and reinforces the strength of the concrete wall surface or protects the concrete wall surface.

The bricks 110 which are sequentially stacked may be arranged in parallel with each other, or may be alternately arranged along the length direction of the brick 110 for the purpose of improving bearing capacity against external forces.

In order to improve the seismic strength of the masonry wall structure 100, one side of the masonry wall structure 100 is provided with a reinforcement part 200, and the reinforcement part 200 may improve the seismic strength of the masonry wall structure 100. Any form or structure can be used if possible.

The reinforcement part 200 of the masonry wall structure 100 according to the first embodiment of the present invention is formed through the fastening hole 210 at the contact portion where the brick 110 and the brick 110 are in contact with each other and the fastening hole ( The fastening means 220 may be fastened to 210 to allow the compressive force to act in a direction in which the brick 110 and the brick 110 are in contact with each other.

Fastening hole 210 is effectively formed in a region in which the four bricks 110 are in contact with each other so that a compressive force can be applied to the plurality of bricks 110 by one fastening means 220.

The fastening means 220 may include a fastening bolt 221 inserted into the fastening hole 210 and a fastening nut 222 fastened to an end of the fastening bolt 221. Although the outer surface of the masonry wall structure 100 in contact with the fastening bolt 221 and the fastening nut 222, a separate groove is formed so that the head of the fastening bolt 221 and the fastening nut 222 is the masonry wall structure 100 It is effective to configure so as not to protrude to the outside.

Preventing the fastening bolt 221 and the fastening nut 222 from protruding to the outer surface of the masonry wall structure 100 is to prevent a safety accident, but the solidified mat 224 to be described later is the It is also intended to be firmly attached to the outer surface.

In addition, at both ends of the fastening bolt 221, a separate washer 223 for expanding the area in contact with the brick 110 so that the fastening bolt 221 applied to the brick 110 acts on the largest possible area. May be provided.

Fastening means 220 having such a structure is preferably spaced apart from each other by a predetermined distance for the seismic reinforcement of the masonry wall structure 100 to be uniformly distributed throughout the lateral wall structure 100.

The fixing mat 224 may be attached to both sides of the masonry wall structure 100 to which the fastening bolt 221 and the fastening nut 222 are fastened.

The solidified mat 224 is impregnated with a solidified mixed solution in the base material, and as a solid, maintains its inherent characteristics as a civil fiber by the base material, and may also secure excellent strength and orderability by solidifying the mixed mixed solution.

Solidified admixture is a material mainly composed of bioceramic hardener, and it is not actually mixed well when the ratio of bioceramic hardener is 10% or less, and too thin when the ratio of bioceramic hardener is 80% or more. It does not function properly as a mixed solution. Therefore, the solidified mixed solution may be preferably a mixture of 65% to 70% of water to 100% by weight of the bioceramic solidifying agent.

Bioceramic solidifying agent is composed of Potassium Alum ([CK2SO4 · Al2 · (SO2) 3 · 4Al2 (OH3)]), which has high Al2O3 · SO3 content and bauxite, alumina mineral, CaO (lime), and CaSD4 (gypsum) mineral in the theoretical compounding ratio. To produce clinker obtained by firing process at 1,200 ~ 1,300 ℃ for 2 hours, and the best ethrinzite obtained by crushing clinker is needle crystal to produce hydrate, and ettrinite crystal growth pressure causes hardening shrinkage of cement To compensate for cracks, water resistance, high strength and roughness.

By attaching the solidified mat 224 to the masonry wall structure 100 using this property, it is possible to reinforce the strength of the masonry wall structure 100 and to add soundproofing or waterproofing.

In addition, the solidified mat 224 may further include a reinforcing material that is integrally bonded to the base material in the form of a cloth, the reinforcing material is not only in the form of a fabric or fabric, such as geotextile, but also a wire mesh, such as fabric or fabric It is a member that can be firmly bonded to the outer surface of the masonry wall structure 100 by the base material and the solidified mixed solution regardless of the material or any form.

The masonry wall seismic reinforcing method according to the first embodiment of the present invention having such a configuration is as follows.

First, the brick 110 is sequentially stacked to form a masonry wall structure having a desired width, height, and length, and then through the fastening hole 210 is formed in a boundary region where the stacked bricks of the masonry wall structure contact each other.

Here, when the masonry wall structure is formed by stacking bricks, the masonry wall structure may be formed by repeating a process of stacking bricks after applying a sludge solidified mixture to the top surface of the brick.

The fastening hole 210 is preferably formed to be spaced apart at a predetermined interval in a plurality of places of the masonry wall structure 100, one fastening means 220 is formed on the interface that the four bricks 110 are in contact with each other As it is possible to apply a compressive force to a plurality of bricks 110 is more effective.

In addition, in order to prevent the fastening means 220 from protruding to the outside of the masonry wall structure 100, a separate groove may be formed at the peripheral portions of both ends of the fastening hole 210.

After the bricks 110 are formed to penetrate the fastening holes 210 so as to be mutually compressed along the width direction thereof, the fastening bolts 221, the fastening nuts 222, the washers 223, and the like are fastened to the fastening holes 210. Fasten the configured fastening means 220.

When the fastening means 220 is completed, the seismic strength of the masonry wall structure may be reinforced by attaching the solidified mat 224 to both sides of the masonry wall structure 100.

4 is a seismic reinforcement structure of the masonry wall according to the second embodiment of the present invention, as shown in the drawing, the reinforcement part 220 is attached to both side surfaces of the masonry wall structure 100 and The diaphragm solidifying mat 225 may be disposed on the laminated surface of the stacked brick 110 along the width direction of the masonry wall structure 100.

The diaphragm fixing mat 225 is spaced apart at predetermined intervals along the height direction of the masonry wall structure 100 and provided at a plurality of locations so that the brick 110 of the masonry wall structure 100 is bonded to each other along the width direction thereof. Will be reinforced.

In addition, the side solidified mat 224 attached to both sides of the masonry wall structure 100 has a resistance to earthquake resistance by reinforcing a bonding force in which bricks 110 forming the masonry wall structure 100 are bonded to each other along a height direction thereof. Can increase.

5 is a seismic reinforcing structure of the masonry wall according to the third embodiment of the present invention, as shown in the drawing, the reinforcement part 220 is attached to both sides of the masonry wall structure 100 and the side solidified mat 224. It may include a curved solidified mat 226 is disposed to be bent to surround the laminated surface and the side of the stacked brick 110 is attached to the masonry wall structure (100).

In the masonry wall seismic reinforcing structure according to the third embodiment of the present invention, the side solidified mat 224 is attached to both sides of the masonry wall structure 100 as compared to the masonry wall seismic reinforcing structure according to the second embodiment of the present invention. The structure is the same. However, the diaphragm solidified mat 225 of the masonry seismic reinforcing structure according to the second embodiment of the present invention is formed separately from the side solidified mat 224, but is disposed only along the width direction of the brick 110, The curved solidified mat 226 of the masonry wall seismic reinforcing structure according to the third embodiment is integrally attached to the lateral wall of the masonry wall structure 100 along the height direction as well as the width direction of the masonry wall structure 100. The seismic strength of can be further improved.

The structure in which the flexified solid mat 226 is disposed is not only a 'c' shape shown in FIG. 5, but also a brick 110 and a brick 110, such as a 'd' shape or a 'ㅁ' shape, as necessary. Any configuration can be used as long as it can wrap and reinforce the mutual bonding force.

The masonry wall seismic reinforcing method according to the second or third embodiment of the present invention having such a configuration is as follows.

First, some bricks 110 are sequentially stacked to form a masonry wall structure, and then the diaphragm solid mat 225 or the curved solid mat 226 are respectively disposed in the width direction of the brick 110 or the width direction thereof. A 'c' shape, a 'r' shape, or a 'ㅁ' shape is disposed along the height direction and attached to the masonry structure 100.

Here, when the masonry wall structure is formed by stacking bricks, the masonry wall structure may be formed by repeating a process of stacking bricks after applying a sludge solidified mixture to the top surface of the brick.

Then, the remaining brick 110 is further laminated so as to be the required height above the diaphragm solidified mat 225 or the curved solidified mat 226 to completely form the masonry wall structure 100, and then the masonry wall structure 100 The seismic walls of the masonry wall structure 100 may be reinforced by attaching the side solidified mats 224 to both sides of the sheet.

The masonry wall structure reinforcing structure according to the fourth embodiment of the present invention shown in FIG. The masonry wall structure is provided in contact with the side of the conventional masonry structure to reinforce the strength of the masonry wall structure by doubling the thickness of the masonry wall structure.

The masonry wall structure reinforcement structure according to the fifth embodiment of the present invention shown in FIG. 8 is required between the side solidified mat 224 and the side of the masonry wall structure of the masonry wall structure provided with the side solidified mat 224. In accordance with the reinforcing strength by installing a separate reinforcing fiber 230 has a structure to reinforce the strength of the masonry wall structure.

By improving the waterproofing and durability of the masonry wall structure through the reinforcement structure of the masonry wall structure as described above, it is possible to increase the bearing capacity against the earthquake or external force of the erected building structure by using such a masonry wall structure and thereby prevent safety accidents. have.

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 invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

100: masonry wall structure 110: brick
200: reinforcement 210: fastening hole
220: fastening means 221: fastening bolt
222: tightening nut 223: washer
224: (side) solid mat 225: diaphragm solid mat
226: curved solid mat

Claims (12)

A masonry wall structure that sequentially stacks a plurality of bricks to form a wall surface having a predetermined width and length;
A masonry wall seismic reinforcement structure comprising a reinforcing part provided in the masonry wall structure for seismic reinforcement of the masonry wall structure. The method of claim 1,
The reinforcing part is formed through the fastening hole through the contact portion where the brick and the brick contact with each other and fastening the fastening means to the fastening hole so that the compressive force acts in the direction in which the brick and the brick contact with each other. Seismic reinforcement structure. The method of claim 2,
The fastening means is a seismic reinforcement structure of the masonry wall, characterized in that it comprises a fastening bolt inserted into the fastening hole and a fastening nut fastened to the end of the fastening bolt. The method of claim 3,
Both ends of the fastening bolts seismic reinforcement structure of the masonry wall, characterized in that separate washers are provided to expand the area in contact with the brick. The method of claim 2,
The seismic reinforcement structure of the masonry wall, characterized in that the fixing mat is attached to both sides of the masonry wall structure to which the fastening means is fastened. As a method of reinforcing seismic resistance of the masonry wall structure according to any one of claims 1 to 5,
Forming a through hole in a boundary area between the stacked bricks of the masonry wall structure to be in contact with each other;
Fastening the fastening means to the fastening hole so that the compressive force acts in the direction in which the bricks are in contact with each other;
Attaching a solidified mat to both sides of the masonry wall structure; A masonry wall seismic reinforcement method comprising a. The method of claim 1,
The reinforcement part is a masonry wall seismic reinforcement structure characterized in that the side solidified mat is attached to both sides of the masonry wall structure, and the diaphragm solidified mat disposed in the width direction of the masonry wall structure on the laminated surface of the stacked bricks . The method of claim 7, wherein
The diaphragm solidifying mat is spaced apart a predetermined interval along the height direction of the masonry wall structure is provided in a plurality of locations seismic reinforcement structure, characterized in that. The method of claim 1,
The reinforcement part includes a side solidified mat attached to both sides of the masonry wall structure, and a bent solid mat disposed to be bent so as to surround the laminated surface and the side of the laminated masonry wall structure is attached to the masonry wall structure Wall seismic reinforcement structure. A method for reinforcing seismic resistance of a masonry wall structure according to any one of claims 7 to 9,
Stacking bricks forming the masonry wall structure;
Stacking a portion of the brick and attaching a diaphragm solidified mat or a curved solidified mat to the brick;
Stacking the remaining bricks after attaching the diaphragm solid mat or the flex solid mat;
Attaching a side solidifying mat to a side surface of the masonry wall structure when the masonry wall structure is completed by laminating the brick;
A masonry wall seismic reinforcement method comprising a. The method of claim 10,
Laminating the brick to form the masonry wall structure, seismic reinforcement method of the masonry wall further comprising the step of applying a solidified mixture between the brick and the brick. The method of claim 1,
The reinforcing part masonry wall seismic reinforcement structure characterized in that it comprises a side solidified mat attached to both sides of the masonry wall structure, and the reinforcing fibers provided between the masonry wall structure and the side solidified mat.

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