KR20190135109A - Earthquake reinforcement device of masonry partition wall - Google Patents

Abstract

The present invention relates to a seismic retrofit device for a masonry partition wall, having a brick wall enclosed by a column and a beam. Masonry bricks of the brick wall are stacked heightwise by mortar, and the mortar is formed between the masonry brick and the other masonry brick of the upper surface. A perforated earthquake-proof plate having multiple bored holes is installed in the mortar and is integrally formed with the mortar. According to the present invention, the seismic retrofit device for a masonry partition wall has a beautiful appearance after construction since the seismic retrofit member is not exposed to the outside. As the seismic retrofit device for a masonry partition wall protrudes to the smooth outer surface of the masonry brick of a masonry building, there is no concern for damage to goods or a pedestrian. Also, the stacked brick wall is fixed and supported on a flat surface even when an earthquake occurs in an out-of-plane direction and in an in-plane direction of a building. The seismic retrofit device for a masonry partition wall also minimizes damage, separation, deformation, or falling of the masonry brick and minimizes injury to persons walking under the masonry brick.

Description

Earthquake reinforcement device of masonry partition wall

The present invention relates to a seismic reinforcing device of the masonry partition wall, more specifically, the seismic reinforcement member is not exposed to the outside, the exterior is extremely beautiful after construction, and protrudes on the smooth outer surface of the masonry brick of the masonry building damages pedestrians or goods. There is no fear of damage, and minimizing the damage, separation, deformation or fall of the masonry bricks by minimizing the damage and separation of the masonry bricks by minimizing the support of the masonry bricks on the plane even in the case of earthquake in-plane and out-of-plane earthquake. The present invention relates to seismic reinforcing devices for masonry partition walls.

In general, the masonry building is a building formed by stacking stones, bricks or concrete blocks, etc., and has the disadvantage of being vulnerable to earthquakes. In particular, the masonry building can support an in-plane earthquake, but its performance is significantly lower for an out-of-plane earthquake.

In addition, cracks are likely to occur at the corner portions formed by the two wall surfaces of the wall, and shear cracks are likely to occur at the corner portions of the openings in which doors or windows are formed. And, when the joint between the wall and the slab is broken, there is a high possibility that wall conduction occurs.

In order to improve the seismic performance of such masonry building, a fiber reinforcement method or a honeycomb reinforcement method is conventionally used.

The fiber reinforcing method is to attach the composite fiber sheet prepared by impregnation with glass fiber and special epoxy to the wall, the surface treatment is required before attaching the composite fiber sheet and the composite fiber sheet must be bonded, so the construction period is long. There was this.

In addition, the honeycomb reinforcement method is to attach a honeycomb-shaped reinforcement to the wall, there is a problem that takes a lot of construction cost because it uses expensive reinforcement.

In order to solve this problem, "a first reinforcement made of metal lath covering the wall surface of the building construction; and a second reinforcing part fixed on the wall of the building and coupled to a part of the metal lath; The second reinforcement part includes a plurality of reinforcement members and a plurality of connection members connecting the neighboring reinforcement members, wherein the reinforcement member coupled to the bottom of the wall of the building includes a floor slab of the building. It is also a rectangular reinforcement of the "L" shape to be coupled, and the connecting member located on the side wall edge of the building of the plurality of connecting members are provided with a flat plate respectively coupled to two adjacent surfaces of the wall, at the side edge of the wall A first L-shaped first rectangular connecting member having two flat plates so that the ends of the two reinforcing members are connected at right angles to each other; A second angular connector of "평판" shape having two flat portions for joining where the ends of the reinforcing members extending horizontally in the middle of the reinforcing members vertically extending from the corners are connected at right angles, and at the side edges of the wall A square connecting member including a third angle connecting member having a shape of "-" having two flat parts so as to be coupled to a place where two reinforcing members connected in a direction are connected; and a joint where the ends of the two reinforcing members are connected at a right angle to each other. L-shaped first plate-shaped connecting member, "ㅏ" -shaped second flat plate-type connecting member which is joined at a right angle between the ends of another reinforcing member in the middle of one reinforcing member, and A seismic reinforcing structure for a masonry building, comprising: a plate-type connecting member including a plate-type connecting member "was disclosed in Korean Patent No. 10-1293734.

The conventional seismic reinforcing structure for masonry building is covered with metal lath, which is metal mesh, and fixed by steel plate, so that the seismic performance of the masonry building in-plane and out-of-plane earthquake is improved, Not only was it not beautiful, it felt like a cage or a chicken coop, which was rather frightening, and there was a lot of safety problems that could be damaged due to a part of the pedestrian's body being scratched or damaged due to the metal metal mesh exposed to the outside.

(1) Korean Patent Registration No. 10-1293734

The present invention is to solve the above problems, the seismic reinforcing member is not exposed to the outside, the appearance is extremely beautiful after construction, and protrudes on the smooth outer surface of the masonry brick building building there is no fear of damage to pedestrians or goods. In order to minimize the damage, separation, deformation or fall of masonry bricks, the masonry partitions can be minimized by supporting the masonry bricks on a flat surface even when earthquakes occur in and out of plane. The purpose is to provide a seismic reinforcing device for the wall.

The problem to be solved by the present invention is not limited to the above-mentioned problems, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the present invention is a seismic reinforcing device of the masonry partition wall formed with brick walls surrounded by columns and beams, the brick wall is stacked in the height direction by the mortar of the masonry brick, the masonry brick and its upper surface A mortar is formed between different masonry bricks, and the inside of the mortar has a feature that a perforated earthquake plate having a plurality of perforation holes is located and formed integrally with the mortar.

The perforated seismic plate is a long plate formed with a plurality of perforated holes at a predetermined interval is formed a horizontal perforated seismic plate located in the mortar between the lateral masonry brick of the brick wall and the other masonry brick of the upper side, a plurality of perforated holes Long plates formed at regular intervals are formed in the vertical perforated seismic plate located in the mortar between the vertical masonry bricks and the masonry bricks of the brick wall, and the rectangular perforated plate formed with a plurality of perforated holes at regular intervals. A corner connecting plate is formed on the same plane of the corner where the seismic plate is in contact with each other. The corner connecting plate is formed of a "┗┛" shaped cross section, and the perforated hole at one end of the corner connecting plate and the perforated hole at the front end of the transverse perforated seismic plate are respectively bound. And press-fit the unit to fix it integrally, and the perforated hole at the other end of the corner connecting plate and the vertical perforated seismic plate Each of the perforated holes in the distal end portion is characterized in that the fixed crimping connection clip is formed to be fixed and integrally coupled.

A plurality of fastening holes are formed according to the height of the perforated seismic plate and the plate standing vertically at the side end of the brick wall, the perforated seismic plate located in the mortar between the masonry brick of the brick wall and the other masonry brick on the upper side In the state in which a part of the horizontally extended to cut the width direction from the end of the perforated plate of the perforated earthquake plate to form a plurality of locking projections, a plurality of the locking projections are inserted into the fastening hole, respectively, the column is installed It is characterized in that it further comprises a tip vertical fixing plate which is located perpendicular to the outer surface of the column.

A plate body vertically standing at the side end of the brick wall, a plurality of engaging bars having an insertion hole is formed to protrude to one side according to the height of the perforated seismic plate, a plurality of anchor protrusions having anchor holes in the column direction to the other side Further comprising a protruding tip vertical column fixing plate, fastening the tip vertical column fixing plate to the column by anchor bolts through the anchor hole of the anchor protrusion, and is located in the mortar between the masonry brick of the brick wall and the other masonry bricks on the upper side. When a part of the perforated seismic plate protrudes outward and extends horizontally, a plurality of catching protrusions are respectively inserted into the insertion hole of the catch bar and bent while cutting in the width direction at the end of the perforated seismic plate to form a plurality of catching protrusions. After fixation, the filling cap is placed in the empty space of the tip vertical column fixing plate located between the brick wall side end and the pillar. It is characterized by drying tartar.

As such, the present invention is extremely beautiful after construction because the seismic reinforcing member is not exposed to the outside, and protrudes on the smooth outer surface of the masonry brick of the masonry building, so there is no fear of damage to pedestrians or articles, and in-plane direction and out-of-plane of the building. In the case of a directional earthquake, the masonry bricks are fixed to the plane to minimize damage, separation, deformation, or fall of the masonry bricks, thereby minimizing injuries of people walking on the floor.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by those skilled in the art without departing from the gist of the present invention as claimed in the claims. Of course, such changes will fall within the scope of the claims.

1 is an exploded perspective view showing a fastening pattern of a brick wall of a horizontal perforated seismic plate and a vertical perforated seismic plate and a corner connecting plate as a seismic reinforcement device of a masonry partition wall according to an embodiment of the present invention;
2 is an exploded perspective view showing a state in which the horizontal perforated seismic plate and the vertical perforated seismic plate and the corner connecting plate, which are seismic reinforcement devices of the masonry partition wall of the present invention, are fastened by a fixed crimping connection clip,
Figure 3 is a perspective view showing the appearance of the brick wall of the perforated seismic plate is a seismic reinforcing device of the masonry partition wall according to the embodiment of the present invention located inside,
Figure 4 is a perspective view showing a state in which the perforated seismic plate and the vertical vertical fixing plate of the seismic reinforcement reinforcement of the masonry partition wall according to the embodiment of the present invention is constructed,
Figure 5 is an enlarged cross-sectional view showing the main part of the masonry partition partition wall according to the present invention, the horizontal perforated earthquake-proof plate or the vertical perforated earthquake-proof plate, which is a seismic reinforcing device of the masonry partition wall, is fastened and fixed to the column by the vertical vertical fixing plate.
Figure 6 is a perspective view showing a state of the front end vertical column fixing plate seismic reinforcement device of the masonry partition wall according to the embodiment of the present invention,
Figure 7 is an enlarged cross-sectional view showing the main portion of the seismic reinforcement reinforcement of the masonry partition wall according to the embodiment of the present invention is fixed to the horizontal perforated seismic plate or the vertical perforated seismic plate that is perforated seismic plate.

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

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention.

In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like elements throughout the specification.

Throughout the specification, when a part is "connected" with another part, it includes not only "directly connected", but also "indirectly connected" with another member therebetween. In addition, when a part is said to "include" a certain component, this means that it may further include other components, except to exclude other components unless otherwise stated.

Terms used in the present invention are terms defined in consideration of functions in the present invention, which may vary according to a user's intention or an operator's intention or custom, and thus, definitions of these terms are intended to be consistent with the technical matters of the present invention. It should be interpreted as and concepts.

In addition, the optional terms in the following embodiments are used to distinguish one component from another component, and the component is not limited by the terms. In the following description, detailed descriptions of related well-known technologies that may unnecessarily obscure the subject matter of the present invention will be omitted.

In the seismic reinforcing device of the masonry partition wall of the present invention, the brick wall 50 surrounded by the column 40 has a masonry brick 51 laminated in the height direction by the mortar 52, but the masonry brick 51 and the upper surface of the masonry partition wall. A mortar 52 is formed between the other masonry bricks 51 and has a plurality of perforation holes 11a, 12a, and 13a formed in the mortar 52 and integrally formed with the mortar 52 ( 10) and the tip vertical fixing plate 20 which is constructed like the column 40 at the tip of the brick wall 50 when the pillar 40 is constructed, and the brick wall 50 when the pillar 40 is constructed first The tip is composed of a vertical column fixed plate 30 is constructed between the tip and the pillar (40).

The perforated seismic plate 10 is a long plate body having a plurality of perforation holes 11a formed at regular intervals, and formed in the mortar 52 between the horizontal masonry brick 51 of the brick wall 50 and the masonry brick 51. The horizontal perforated seismic plate 11 positioned is formed, and the mortar between the vertical masonry brick 51 and the masonry brick 51 of the brick wall 50 is a long plate formed with a plurality of perforation holes 12a at regular intervals. A vertical perforated seismic plate 12 positioned at 52 is formed, and the horizontal perforated seismic plate 11 and the vertical perforated seismic plate 12 are formed in a rectangular plate body having a plurality of perforated holes 13a formed at regular intervals. The corner connecting plate 13 is formed on the same plane of the abutting corner, and the end is inserted into the perforated hole 13a at one end of the corner connecting plate 13 with a "┗┛" shaped cross section. Are respectively inserted into the perforated holes 11a at the distal end of the transverse perforated seismic plate 11, and bound and compressed. A plurality of fixings which are fixedly coupled to each other, and which bind and compress each of the perforated holes 13a at the other end of the corner connecting plate 13 and the perforated holes 12a at the distal end of the longitudinal perforated seismic plate 12, respectively, to be integrally fixed. The crimping connection clip 14 is formed. In addition, the horizontal perforated seismic plate 11 and the vertical perforated seismic plate 11, the perforated seismic plate 10, as shown in Figure 5 for extending the length, the horizontal perforated seismic plate (14) with a fixed pressing connection clip 14 ( 11) and the perforation holes 11a and 12a of the longitudinal perforated seismic plate 12 may be combined to extend the length in the longitudinal direction.

The tip vertical fixing plate 20 has a plurality of fastening holes 21 formed along the heights of the horizontal perforated seismic plate 11 and the vertical perforated seismic plate 12, which are the perforated seismic plate 10, and the brick wall body. The perforated seismic plate (10) located in the mortar (52) between the masonry brick (51) of the brick wall 50 and the other masonry brick 51 on the upper side of the plate standing vertically at the side end of the (50) In the state in which a part of the horizontally extended to the outside of the perforated seismic plate (10) and the perforated plate (11a, 12a) of the longitudinal perforated seismic plate 12 in the width direction by cutting in the width direction The locking protrusions 11b and 12b are formed to protrude, respectively, and the plurality of locking protrusions 11b and 12b protruding in this way are inserted into the fastening through holes 21, respectively, and the pillars 40 are constructed in the state of being bent and fixed. It is located perpendicular to the outer surface of 40).

The tip vertical column fixing plate 30 is a plate standing vertically at the side end of the brick wall 50, and the perforated seismic plate 11, the perforated seismic plate 10, and the perforated seismic plate 12 in the vertical direction. According to the height of the plurality of engaging bars 31 having the insertion hole 31a protruding to one side, the other side of the plurality of anchor protrusions 32 having the anchor hole 32a protrudes in the direction of the pillar 40 It is formed, the front end of the vertical column fixing plate 30 to the column 40 by fixing the anchor bolt 32b through the anchor hole (32a) of the anchoring protrusions 32 (32), the masonry brick of the brick wall (50) A part of the horizontal perforated seismic plate 11 and the vertical perforated seismic plate 12, which are located in the mortar 52 between the 51 and the other masonry brick 51 on the upper side, protrude outwardly. When the horizontal extension is performed, the widthwise periphery of the perforated seismic plate 11, which is the perforated seismic plate 10, and the perforated holes 11a and 12a of the longitudinal perforated seismic plate 12, in the width direction However, the plurality of locking protrusions 11b and 12b are inserted into the insertion holes 31a of the locking bars 31, respectively, in a state in which the plurality of locking protrusions 11b and 12b are formed to protrude, and then bent and fixed. The filling mortar 53 is constructed and dried in the empty space of the tip vertical column fixing plate 30 positioned between the brick wall 50 side end and the pillar 40.

The present invention as described above is a horizontal side that is a perforated plate 10 in the mortar 52 between the masonry brick 51 of the brick wall 50 located between the pillars 40 and the other masonry brick 51 on the upper side. The perforated seismic plate 11 and the longitudinal perforated seismic plate 12 are formed integrally with the mortar 52 by the perforated holes 11a and 12a to firmly fix the masonry brick 51 of the brick wall 50 at the upper and lower portions thereof. Minimize damage or deformation of the masonry brick 51 when seismic occurs, and the pillar 40 having the masonry wall 50 having such a masonry separate section 951 by the tip vertical fixing plate 20 or the tip vertical column fixing plate 30 at the tip. By firmly and firmly coupled to each other, even when an in-plane direction and an out-of-plane earthquake occurs, the masonry bricks 50 are fixed in a planar manner to minimize damage, separation, deformation, or fall of the masonry bricks 51 to walk from below. It is possible to minimize the injuries of the person in progress.

In addition, the vertical end fixing plate 20 and the vertical vertical column fixing plate, including the horizontal perforated seismic plate 11, the vertical perforated seismic plate 12 and the goker connecting plate 13, which are the seismic reinforcing members 10, which are seismic reinforcing members. 30 is not exposed to the outside, so the appearance of the brick wall 50 made of the masonry brick 51 after construction is extremely beautiful, and protrudes on the smooth outer surface of the masonry brick 51 so that there is no fear of damage to pedestrians or goods. do.

The embodiments and drawings attached to this specification are merely to clearly show some of the technical ideas included in the present invention, and those skilled in the art can easily infer within the scope of the technical ideas included in the specification and drawings of the present invention. It is apparent that all modifications and specific embodiments that can be included in the scope of the technical idea of the present invention.

The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and equivalent concepts should be construed as being included in the scope of the present invention.

10: perforated seismic plate 11: horizontal perforated seismic plate
11a: perforation hole 11b: locking protrusion
12: vertical perforated seismic plate 12a: perforated hole
12b: hooking portion 13: corner connecting plate
13a: perforation hole 14: fixed crimping connection clip
20: Vertical end fixing plate 21: Tightening hole
30: tip vertical column fixing plate 31: hook bar
31a: Insertion through hole 32: Anchor protrusion
32a: anchor ball 32b: anchor bolt
40: pillar
50: brick wall 51: masonry brick
52: mortar 53: filling mortar

Claims (4)

In the seismic reinforcing device of the masonry partition wall with brick walls surrounded by columns and beams,
The brick wall is stacked in the height direction by the mortar of the masonry brick, a mortar between the masonry brick and other masonry bricks of the upper surface is formed, the inside of the mortar has a plurality of perforated earthquake plate is located integrally with the mortar Seismic reinforcing device of the masonry partition wall, characterized in that formed. The method of claim 1,
The perforated seismic plate is a long plate formed with a plurality of perforated holes at regular intervals is formed a horizontal perforated seismic plate located in the mortar between the horizontal masonry brick and the masonry brick of the brick wall, a plurality of perforated holes at regular intervals The formed long plate is formed with a vertical perforated seismic plate located in the mortar between the vertical masonry brick and the masonry brick of the brick wall, and the horizontal perforated seismic plate and the vertical perforated seismic plate are in contact with each other. Corner connecting plate is formed on the same plane of the corner, the cross section is a "┗┛" shaped plate body to bind and squeeze the perforated hole at one end of the corner connecting plate and the perforated hole at the tip of the transverse perforated seismic plate, respectively. Integrally fixed and perforated at the other end of the corner connecting plate, and at the other end of the longitudinal perforated seismic plate Earthquake-resistant reinforcing device for masonry partition walls by the coupling holes, respectively, and compression characterized in that the fixed compression connection clips that secure bonding integrally formed. The method of claim 1,
A plurality of fastening holes are formed according to the height of the perforated seismic plate and the plate standing vertically at the side end of the brick wall, the perforated seismic plate located in the mortar between the masonry brick of the brick wall and the other masonry brick on the upper side In the state in which a part of the horizontally extended to cut the width direction from the end of the perforated plate of the perforated earthquake plate to form a plurality of locking projections, a plurality of the locking projections are inserted into the fastening hole, respectively, the column is installed Seismic reinforcement device of the masonry partition wall, characterized in that it further comprises a front end vertical fixing plate which is located perpendicular to the outer surface of the column. The method of claim 1,
A plate body vertically standing at the side end of the brick wall, a plurality of engaging bars having an insertion hole is formed to protrude to one side according to the height of the perforated seismic plate, a plurality of anchor protrusions having anchor holes in the column direction to the other side Further comprising a protruding tip vertical column fixing plate, fastening the tip vertical column fixing plate to the column by anchor bolt through the anchor hole of the anchor protrusion, and is located in the mortar between the masonry brick of the brick wall and the other masonry brick on the upper side. When a part of the perforated seismic plate protrudes outward and extends horizontally, a plurality of catching protrusions are respectively inserted into the insertion hole of the catch bar and bent while cutting in the width direction at the end of the perforated seismic plate to form a plurality of catching protrusions. After fixation, the filling cap is placed in the empty space of the tip vertical column fixing plate located between the brick wall side end and the pillar. A seismic reinforcement device for a masonry partition wall, characterized in that by drying the tar tar.

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