KR102142230B1 - Brick masonry system for seismic design - Google Patents

Abstract

The present invention relates to an earthquake-proof brick masonry system and, more specifically, to an earthquake-proof brick masonry system, which can have excellent coupling force as the center and one side of bricks are inserted and coupled into earthquake-proof steel rods, and absorb impact to provide earthquake-proof performance as horizontal and vertical joints made of an elastic material are inserted into a vertical space and a horizontal space between the bricks.

Description

Brick masonry system for seismic design

The present invention relates to a brick construction system for seismic resistance, and more specifically, because the center and one side of the brick are fitted to the seismic steel bar, the bonding strength is excellent, and the upper and lower spaces of the brick and the brick, and the left and right spaces are made of elastic materials. Since it inserts horizontal and vertical joints, it relates to a seismic brick masonry system capable of absorbing shock and controlling seismic expansion due to seasonal temperature and sunshine to provide seismic performance to prevent wall cracking.

In general, in order to decorate a brick on the inner and outer walls of a building, a method of installing an insulating material on an inner wall and stacking a number of masonry bricks for decoration on the outer side of the insulating material is mainly performed. At this time, in order to fix the masonry bricks, this type of construction that is fixed while being joined through mortar is commonly referred to as wet construction.

However, this wet construction method has a problem in that partial cracking occurs due to repeated shrinkage and expansion due to environmental changes such as temperature changes in the four seasons, wind, and sunlight, and if the external force acts before drying, the brick is masonry. This collapsed or skewed cause safety problems.

In addition, wet control construction has disadvantages such as the inability to construct due to the effect of winter temperature, and the process of applying and drying mortar takes a long time, resulting in a long construction period and a decrease in work efficiency.

In order to solve this problem of wet construction, a dry construction method of fixing a brick using a plurality of fastening members such as anchors or brackets and bolts and nuts is being constructed, but by connecting bricks by tightening too many bolt nuts. This hassle has the problem of increasing the construction period and cost.

In order to solve this problem, Korean Patent Registration No. 10-1500313 includes a plurality of fixing brackets installed at predetermined intervals on the bearing wall; A plurality of horizontal supports connected to the fixed bracket and installed in the transverse direction of the bearing wall; A plurality of vertical supports fitted to the horizontal support and installed in the longitudinal direction of the bearing wall; In the state spaced apart from the front of the bearing wall, the pair of outer locking grooves, which are arranged to cross each other and spaced apart from each other, and a pair of inner locking grooves formed between the outer locking grooves are formed in a height direction. The outer catching groove and the inner catching groove have a plurality of bricks formed in a narrow form at the entrance side and a wide inside; One side end is hung on the vertical support, and the other end is hung on the brick to fix the brick. Disclosed is a dry brick wall structure characterized in that it comprises a; fixed clip for fixing the bricks hanging in the inner hanging groove of the bricks are staggered.

However, in the registered patent, the connection of the fixing clips connecting the bricks to the horizontal and vertical supports is concentrated in a plurality of fixing brackets connected to the inner wall, resulting in structural defects of load and drawing shear, and the bricks are fixed with the fixing clips connected to the horizontal and vertical supports. The fitting method has a disadvantage in that the brick between the vertical bar spacing and the horizontal bar spacing is not reinforced, so it is weak to large impacts such as earthquakes.

Republic of Korea Registered Patent No. 10-1500313

The present invention has been devised to solve the problems of the prior art, and the object of the present invention is to provide excellent bonding strength because it fits the center and one side of a brick on a steel bar, and an elastic material in the upper and lower spaces of the brick and brick, and the left and right spaces. It is to provide a seismic brick masonry system that can absorb shock and provide seismic performance by inserting horizontal and vertical joints made of.

The problem to be solved of the present invention is not limited to those mentioned above, 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 seismic brick masonry system according to the present invention includes at least a pair of vertical bars fixed to a wall to be constructed; At least one horizontal plate fixed horizontally to the vertical bar and having a plurality of first insertion holes along a longitudinal direction in the front; A plurality of steel bars fitted into the first insertion hole; Includes; a plurality of bricks to be fitted to the steel bar, the brick is provided with a central insertion hole in the central area, a pair of side insertion holes on the left and right sides, the central insertion hole is recessed toward the front from the rear center of the brick A hole part; A pair of guide hole portions extending vertically from side to side at the end of the entry hole portion; It consists of a seating hole that extends from the guide hole but is bent toward the rear of the brick; consists of, the side insert is a pair of side guide hole formed on the left and right side; It is characterized in that it consists of; a side seating hole part extending from the side guide hole part and bent toward the rear side of the brick.

Further, in the seismic brick masonry system according to the present invention, each brick is fitted and fixed to a pair of neighboring steel bars, and the central insertion hole is fitted to any one first steel bar, and any one of a pair of side inserts One side insert is characterized in that it is fitted and fixed to the other one of the second steel bar.

In addition, in the brick construction system for seismic resistance according to the present invention, horizontal joints made of an elastic material are stacked on the upper surface of the brick sandwiched by a pair of neighboring steel bars, and the horizontal joints are provided with a central insertion hole and a side insertion hole of the brick. Corresponding central inserts and side inserts are formed to fit on a pair of steel bars, and vertical joints made of an elastic material are sandwiched between right and left neighboring bricks, and the vertical joints are fitted between the adjacent bricks. , It is characterized in that it consists of a pair of fitting projections that extend from side to side in the center of the fitting portion and are fitted to the side guide hole portions of each brick.

In addition, in the brick construction system for earthquake-proof according to the present invention, the vertical bar is formed on the first surface where an anchor is inserted so that it is fixed to the wall to be constructed, and the first surface is bent and the second fixing hole is bent on the first surface. It is configured to include a second surface formed, the horizontal plate is a first insertion hole formed in the front perforated form to pass through the vertical steel bar, and the incision groove formed in the rear to fit the second surface of the vertical bar , It comprises a second insertion hole provided on one side of the incision groove.

In addition, in the seismic brick masonry system according to the present invention, the second surface of the vertical bar is characterized in that a vertical pad made of an elastic material is fitted into the incision groove in a combined state to block the thermal bridge phenomenon.

According to the brick construction system for seismic resistance according to the present invention, since the center and one side of the brick are fitted into the steel bar, the bonding force is excellent, and horizontal and vertical joints made of elastic materials are inserted into the upper and lower spaces of the brick and the brick and the left and right spaces. Therefore, it is effective in absorbing shock and providing seismic performance.

The effects of the present invention are not limited to those mentioned above, and other effects not mentioned will become apparent to those skilled in the art from the following description.

1 is an exploded perspective view showing a main configuration of a seismic brick masonry system according to the present invention.
2 is a perspective view showing a state in which bricks are masonry according to the seismic brick masonry system according to the present invention.
3 is a perspective view showing an expanded state of the masonry system of FIG. 2.
4 and 5 are perspective views showing a state in which the brick and the joint of the present invention are installed.
6 is a cross-sectional view showing a wall constructed according to the brick construction system for earthquake-proof according to the present invention.
7 is a photograph of a brick masonry according to an embodiment of the brick masonry masonry system according to the present invention.
8A and 8B are cross-sectional and perspective views showing a state in which a brick construction system for seismic protection according to the present invention is applied to a roof.

Hereinafter, preferred embodiments of the present invention will be described in detail.

In describing the present invention, when it is determined that detailed descriptions of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, detailed descriptions thereof will be omitted. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to a user's or operator's intention or precedent. Therefore, the definition should be made based on the contents throughout this specification.

1 is an exploded perspective view showing a main configuration of a seismic brick masonry system according to the present invention, and FIG. 2 is a perspective view showing a brick masonry according to the seismic brick masonry system according to the present invention. This is a perspective view showing the expansion of the masonry system. 4 and 5 are perspective views showing a state in which a brick and a joint of the present invention are installed, and FIG. 6 is a cross-sectional view showing a wall constructed according to a seismic brick masonry system according to the present invention, and FIG. 7 is a view according to the present invention This is a picture of a brick masonry according to an embodiment of a seismic brick masonry system.

1 to 7, the brick construction system for earthquake-proof according to the present invention is at least a pair of vertical bars 110 fixed to the wall (A) to be constructed, and horizontally fixed to the vertical bars 110 and forward At least one horizontal plate 120 in which a plurality of first insertion holes 121 are formed along the longitudinal direction, a plurality of steel rods 140 fitted to the first insertion holes 121, and the steel rods 140 ) May include a plurality of bricks 100 to be fitted.

The vertical bar 110 is a first surface 111 formed with a first fixing hole 111a into which an anchor is inserted so as to be fixed to the wall A of the construction target, and the second fixing part is bent at the first surface 111 It comprises a second surface 112, the hole 112a is formed.

The horizontal plate 120 is formed in the front of the first insertion hole 121, the second surface 112 of the vertical bar 110, the cut groove 122 formed in the rear and the cut groove It is configured to include a second insertion hole 123 provided on one side of (122).

After inserting the anchor 115 into the first fixing hole 111a and fixing it to the wall A, the cutting groove 122 of the horizontal plate 120 is fitted to the second surface 112, and the connecting member 130 ) To fix the vertical bar 110 and the horizontal plate 120.

The connecting member 130 is made of a'b' shaped structure consisting of a vertical surface 131 having a first hole 131a and a horizontal surface 132 having a second hole 132a, the second fixing hole 112a And the first hole 131a with a bolt 116, and the second insertion hole 123 and the second hole 132a with a bolt 116 to fasten the horizontal plate 120 to the vertical bar 110. To fix.

In addition, the second surface 112 of the vertical bar 110 is preferably fitted into the incision groove 122 in a state in which the vertical pad 113 made of an elastic material such as silicon is coupled, which may have been impacted from the outside. This is to absorb shock and block thermal bridge phenomenon.

After the horizontal plate 120 is installed, the steel bar 140 is fixed to the first insertion hole 121. The steel bar 140 is preferably to use a seismic steel bar that can maintain a strength that can withstand external shocks such as earthquakes.

Here, the first insertion hole 121 is configured in the form of a long hole extending so that a pair of steel bars 140 are disposed at both right and left ends, and the spacing between the plurality of steel bars 140 is uniformly arranged.

After inserting each steel bar 140 into the first insertion hole 121, the fixing nut 142 is fastened to fix it.

In addition, the steel bar 140 may be used by connecting a plurality of pieces according to a required length, and it may be exemplified to connect the fastening nut 142 to the end of the steel bar 140.

When the installation of the steel bar 140 is completed, the brick 100 is fitted into the steel bar 140, which is advantageous in that it can significantly shorten the time compared to the wet brick method using a cement to fix the brick. .

The brick 100 of the present invention is largely provided with a central insertion hole 101 in the central area and a pair of side insertion holes 107 on the left and right sides.

The central insertion port 101 is an entry hole portion 102 that is recessed toward the front from the rear center of the brick 100, and a pair of guide hole portions 103 extending vertically from side to side at the end of the entry hole portion 102 And, extending from the guide hole portion 103, but consists of a seating hole portion 104 that is inclined toward the rear side of the brick 100.

The side insert 107 is a pair of side guide hole portion 105 formed on the left and right sides, and the side seating hole portion 106 extending from the side guide hole portion 105 and bent toward the rear side of the brick 100 Is made of

Each brick 100 is fixed by being fitted to a pair of neighboring steel bars 140 as shown in FIG. 4.

The central insertion hole 101 is fitted to any one of the first steel bars 140, and any one of the side insertion holes 107 of the pair of side insertion holes 107 is fixed to the other one of the second steel bars 140 do.

More specifically, the entry hole portion 102 of the brick 100 is pushed into the first steel bar 140 as shown in the arrow direction of FIG. 4(a), and then guide hole portion as shown in the arrow direction of FIG. 4(b). After moving to the right along (103), the first steel bar 140 is seated in the seating hole 104 by moving as shown in the arrow direction of FIG. 4(c). It is seated on the side seating hole portion 106.

After masonry is bricked in the left-right direction as shown in FIG. 4, joints are installed.

The joint of the present invention may be composed of a horizontal joint 108 and a vertical joint 109 made of an elastic material such as urethane, silicone or rubber, and absorbs shock when an external impact such as an earthquake is applied to improve seismic performance. Will be exerted.

The horizontal joint 108 is stacked on each brick 100, and like the brick, a central insertion hole 108a and a side insertion hole 108b are formed and fitted and fixed to a pair of steel bars 140.

The vertical joint 109 is inserted between the adjacent bricks 100 from side to side, and the fitting portion 109a sandwiched between the adjacent bricks 100 and the center of the fitting portion 109a. It can be exemplified that it is an'T' shaped structure formed of a pair of fitting protrusions 109b that are extended and fitted to the side guide hole parts 105 of each brick 100. In addition, since the fitting protrusion 109b is fitted into the side guide hole 105 of the brick 100, the brick 100 inserted into the steel bar 140 is prevented from flowing from side to side.

On the other hand, Figure 8 is a cross-sectional view showing a state applied to the roof brick construction system according to the present invention. Referring to FIG. 8, the seismic brick masonry system of the present invention can be applied to an inclined wall or ceiling brick finish, such as a roof, not a vertical wall.

Since the brick masonry structure of the present invention is connected to a hole formed of bricks and bricks by vertical steel rods and inserts horizontal and vertical joints made of elastic material, it absorbs shock to provide seismic performance, and simply blocks bricks. It is characterized by controlling the thermal bridge phenomenon transmitted to the inner wall frame by putting a pad on the vertical bar to block the thermal bridge of the masonry structure exposed to the outside by fastening and assembling to the steel bar rather than the stacking method.

The present invention described above is merely exemplary, and those skilled in the art to which the present invention pertains will appreciate that various modifications and other equivalent embodiments are possible. Therefore, it will be understood that the present invention is not limited to the forms mentioned in the above detailed description. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims. It is also to be understood that the present invention includes all modifications, equivalents, and substitutes within the spirit and scope of the invention as defined by the appended claims.

100: brick 101: central insertion hole
102: entrance hole 103: guide hole
104: seating hole portion 105: side guide hole portion
106: side seating hole portion 107: side insert
108: horizontal joint 108a: central insertion hole
108b: side insert 109: vertical joint
109a: fitting part 109b: fitting protrusion
110: vertical bar 111: first side
111a: 1st fixed hole 112: 2nd side
112a: Second fixing hole 113: Vertical pad
113a: 2nd fixed hall
115: anchor 116: bolt
120: horizontal plate 121: the first insertion hole
122: incision groove 123: second insertion hole
130: connecting member 131: vertical plane
131a: Hole 1 132: Horizontal plane
132a: Hall 2 140: Gangbong
141: through nut 142: fixing nut
143: L type (for ceiling, roof) Angle A: Wall

Claims (5)

At least one pair of vertical bars fixed to the wall to be constructed; At least one that is horizontally fixed to the vertical bar and has a plurality of first insertion holes formed along the longitudinal direction in the front, bending between the front and rear parts to distribute the vertical load due to the brick's own weight and to prevent horizontal sagging. A horizontal plate; A plurality of steel bars fitted into the first insertion hole; Includes; a plurality of bricks to be fitted to the steel bar,
The brick is provided with a central insertion hole in the central region and a pair of side insertion holes on the left and right sides,
The central insertion hole is an entry hole that is recessed toward the front from the rear center of the brick; A pair of guide hole portions extending vertically from side to side at the end of the entry hole portion; It consists of a seating hole that extends from the guide hole but is bent toward the rear side of the brick;
The side insert is a pair of side guide holes formed on the left and right sides;
It is made of a side seating hole portion extending from the side guide hole portion but bent toward the rear side of the brick;
Each brick is fixed by being inserted into a pair of neighboring steel bars, and the central insertion hole is fitted into any one first steel bar, and any one of the side inserts among the pair of side insertion holes is fitted into the other second steel bar and fixed. And
A horizontal joint made of an elastic material is stacked on the upper surface of the brick sandwiched by the pair of adjacent steel bars,
The horizontal joint is formed with a central insertion hole and a side insertion hole corresponding to a central insertion hole and a side insertion hole of the brick, and fitted to a pair of steel bars,
Between horizontally adjacent bricks, vertical joints made of elastic material are fitted,
The vertical joint is a seismic brick masonry system comprising a fitting part sandwiched between neighboring bricks and a pair of fitting protrusions extending from side to side in the center of the fitting part and fitting into side guide hole parts of each brick. .
delete delete According to claim 1,
The vertical bar,
It comprises a first surface with a first fixing hole into which an anchor is inserted so as to be fixed to a wall to be constructed, and a second surface bent at the first surface and having a second fixing hole,
The horizontal plate,
Characterized in that it comprises a first insertion hole formed in the front, a cutting groove formed in the rear to fit the second surface of the vertical bar, and a second insertion hole provided on one side of the cutting groove True brick masonry system.
According to claim 1,
Seismic brick masonry system, characterized in that the second surface of the vertical bar is fitted in the incision groove with the vertical pad made of an elastic material being combined.

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