KR200438912Y1 - Reinforcement bracket for constructing earthquake-proof wall - Google Patents

Abstract

The present invention relates to a bracket device for constructing a seismic design load bearing wall, partition wall, finishing wall, etc., in particular a vertical bracket inserted between the corresponding side of the masonry to be masonry, and inserted into the vertical bracket in the transverse direction to the top of the brick It is to form a horizontal support positioned on the surface and the support bracket is fixed to the retaining wall in combination with the horizontal support, respectively, to enable the construction of the seismic wall by these,

By vertical brackets, the sides between the bricks are joined to each other to thereby have earthquake resistance in the front and rear directions, and the horizontal supports provide the earthquake resistance in the up, down and forward and backward directions of the wall, and by the support brackets. Since the stable coupling force with the horizontal support as well as the retaining wall and the seismic wall has a solid connection state, it is an masonry bracket device for constructing a seismic designed wall that has relatively excellent seismic resistance from the multi-directional vibration of the entire seismic wall.

Vertical Bracket, Horizontal Support, Support Bracket, Seismic Wall, Slit Ball, Fixed Hole

Description

Reinforcement bracket for constructing earthquake-proof wall}

1 is a view illustrating the construction of a wall having a conventional seismic masonry structure

Figure 2 is an overall perspective view of the bracket device according to the present invention

3 is a side view of the bracket device according to the present invention

Figure 4 is a perspective view of the construction of the seismic wall using the bracket device according to the present invention

Figure 5 is a cross-sectional view of the construction of the seismic wall using the bracket device according to the present invention

Explanation of symbols on the main parts of the drawings

10: vertical bracket 11,11 ': insertion hole

12: long hole 13: cutting edge

20: horizontal support

30: support bracket 31: slit ball

32: horizontal portion 33: fixed slot

34: vertical part

50,50: Brick 51: Anchor bolt

52: retaining wall

The present invention relates to a bracket device for constructing a seismic design of a load-bearing wall, partition wall, finishing wall, etc. More specifically, the vertical bracket is inserted between the corresponding side of the masonry to be masonry, and inserted into the vertical bracket in the transverse direction It relates to a horizontal support and a support bracket that is coupled to the horizontal support is fixed to the retaining wall, respectively, and relates to an masonry bracket device for enabling a seismic design of the wall to be constructed on one side of the retaining wall by these brackets and the horizontal support.

In general, the masonry building is a structure in which bricks or concrete blocks are bonded by mortar and are used for building walls of buildings such as houses, warehouses, villas, etc., and are evaluated in the most common way because they are moisture resistant, durable, fireproof, and economical. do.

In addition, the strength of the masonry wall masonry is determined by the strength of the brick and mortar, the thickness and height of the wall, the length, so in order to exhibit the structural strength of the wall, not only the strength of the brick itself and the mortar strength, but also the thickness of the wall. The amount of wall, etc. must be reasonably calculated and constructed.

The general masonry brick is composed of a rectangular cube in plan. If you want to construct various walls using the bricks as described above, put the mortar on the brick and place the new mortar on the mortar. By stacking bricks repeatedly, the masonry will be done.

However, the outer wall or finishing wall of the building obtained from the masonry structure as described above is typically formed on the outer surface of the retaining wall, and if a vibration or earthquake occurs, the bonding force with the retaining wall is lost and cracks are formed on the outer surface. It has a problem that occurs or collapses.

Therefore, in order to prevent this, the brick is masonry in a seismic design method, and the masonry masonry structure of the seismic design is fixed to the brackets fixed from the retaining wall 100 between the bricks stacked up and down as shown in FIG. The end portion of the 101 is positioned, and the horizontally joined bricks are placed on the horizontally stacked bricks to prevent vertical cracking of the masonry wall 103 by the joints 102, and the bracket 101 By selecting the masonry structure of the seismic design method to increase the before and after coupling force between the retaining wall 100 and the masonry wall 103 to prevent the crack in the transverse direction.

However, as described above, the masonry structure for seismic design of the brick has a very good bearing capacity from the retaining wall to the front and rear directions in the seismic design by the bracket and the joint, but the vibration in the vertical and horizontal directions applied to the masonry wall itself. It has an extremely fragile structure, and when the vibration occurs in the vertical and horizontal directions of the masonry wall due to an earthquake or the like, it will not properly buffer or support it, causing cracks in the masonry wall or falling down.

That is, while the construction state of the seismic wall by the bracket and the joint as described above is excellent in the support force between the entire wall and the retaining wall, while the coupling force between the brick and the individual brick is not very different from the general masonry wall vibration occurs In this case, since the cracks between the bricks are easily generated by the multi-directional vibration applied directly to the masonry wall itself, since numerous cracks are generated between the bricks of the masonry wall, the structural strength of the masonry wall is greatly reduced.

The present invention is devised to improve the problems as described above, a vertical bracket inserted between the corresponding side of the masonry to be masonry, a horizontal support inserted into the vertical bracket in the transverse direction and positioned on the upper surface of the brick and its horizontal support In combination with the forming a support bracket fixed to the retaining wall, respectively, to enable the construction of the seismic wall by these,

By vertical brackets, the sides between the bricks are joined to each other to thereby have earthquake resistance in the front and rear directions, and the horizontal supports provide the earthquake resistance in the up, down and forward and backward directions of the wall, and by the support brackets. Stable coupling force with the horizontal support as well as through the retaining wall and the seismic wall has a solid connection state to provide an masonry bracket device for the construction of a seismic designed wall that has a relatively good seismic resistance from multi-directional vibration of the entire seismic wall This is the purpose of the present invention.

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

2 is an overall perspective view of a bracket device according to the present invention, Figure 3 is a side view of the bracket device according to the present invention.

The configuration of the present invention, the vertical bracket having an insertion hole (11) (11 ') spaced up and down at the tip; A horizontal support 20 extending in the longitudinal direction; It is provided with a support bracket 30 of the bent form having a horizontal portion 32 is formed with a slit hole 31 and a vertical portion 34 is formed with a fixed long hole 33,

The vertical bracket 10 is inserted into the slit hole 31 of the support bracket 30, and the insertion hole 11 of the vertical bracket 10 protruding upward from the horizontal portion 32 of the support bracket 30. It is configured by inserting the horizontal support 20 in 11 ',

The vertical bracket 10 is vertically inserted between the side end portions formed opposite to each other on both sides of the laterally assembled bricks 50, 50 ′, and the horizontal support 20 is laterally masonry bricks. Located along its longitudinal direction on top of 50, 50 ',

The support bracket 30 is fixed to the outer surface of the retaining wall 52 through a separate anchor bolt 51 from the fixing hole 33 to enable a solid installation of the support bracket 30, these Since the support bracket 30 and the vertical bracket 10 are fitted to each other by the slit hole 31 and are coupled to each other, the support brackets 30 and the vertical brackets 10 have solid support forces.

In the middle of the vertical bracket 10 is formed a long hole 12 for further increasing the bonding force with the mortar for the masonry, the lower end of the vertical bracket 10 has a tip-reduction width (dotted reduction width) ( 13) may be configured to improve the insertability of the vertical bracket (10).

When described in more detail by the accompanying drawings the operation of the masonry bracket device for the construction of the present invention seismic designed wall according to the above configuration as follows.

As shown in the present invention, the bracket device has a vertical bracket 10, a horizontal support 20 and a support bracket 30, respectively, so that the construction of the wall having a better multi-directional earthquake resistance through their mutual coupling .

A plurality of insertion holes 11 and 11 'spaced apart in the up and down directions are punctured at the tip of the vertical bracket 10, and the insertion holes 11 and 11' extend in the longitudinal direction. The horizontal support 20 is inserted.

In this case, the insertion holes 11 and 11 'are formed in a plurality of spaced apart from each other in the up and down directions so as to change the position at which the horizontal support 20 is inserted. The insertion position of the horizontal support 20 used is very effective to adjust the insertion depth or the height of the protrusion of the vertical bracket 10 from the horizontal support 20 located above the brick 50, 50 '.

In particular, the vertical bracket 10 is to be coupled to a separate support bracket 30, the support bracket 30 is a horizontal portion 32 having a slit hole 31 and the fixing hole 33 As having a bent shape of the vertical portion 34 having,

Insertion holes 11 and 11 'formed at the distal end of the vertical bracket 10 exposed to the upper surface of the horizontal portion 32 while the vertical bracket 10 is inserted into the silt hole 31. When the horizontal support 20 is inserted, the vertical bracket 10 and the support bracket 30 are interconnected.

In such a state by using the fixing hole 33 formed in the vertical portion 34 of the support bracket 30 is to be fixed in close contact with the outer surface of the retaining wall 52, the anchor bolt protruding from the retaining wall 52 In the state in which the fixing hole 33 of the vertical portion 34 is inserted into the 51, an additional fastening nut (not shown in the drawing) is screwed into the anchor bolt 51 protruding through the fixing hole 33. When combined, it is possible to obtain a solid installation state of the support bracket (30).

When the earthquake-resistant wall is to be constructed by using the bracket device in such a state, as illustrated in FIGS. 4 and 5, the vertical spaces between the two sides of the bricks 50 and 50 'are continuously stacked in the horizontal and vertical directions. As the bracket 10 is inserted, it is to have a bonding force with the mortar through the curing of the mortar placed on both sides of the unidirectional side of the brick (50, 50 ').

At this time, the middle of the vertical bracket (10) forms a long hole (12), the mortar is passed through the long hole 12, so that the coupling force of the mortar and the vertical bracket (10) is further increased, the vertical The progressively narrower tip portion 13 formed on the lower end of the bracket 10 serves to improve the insertability of the vertical bracket (10).

In addition, the horizontal support 20 is inserted into the insertion hole (11) (11 ') of the vertical bracket 10 in the transverse direction is located on the upper surface of the brick 50, 50' The horizontal support 20 is placed between the upper and lower bricks 50 and 50 'along the transverse width of the seismic wall together with the curing of the mortar, which is a binder for masonry construction.

The horizontal support 20 is a brick 50 in the earthquake-resistant wall even when the horizontal support 20 has the excellent support force from the up and down vibration of the earthquake-resistant wall, even when the left and right vibration occurs All of the 50's are supported in the lateral direction, so that the seismic walls are separated from the retaining wall 52 so that the seismic walls have excellent coupling and bearing force.

In addition, the earthquake-proof wall constructed by the vertical bracket 10 and the horizontal support 20 as described above to have multi-directional earthquake resistance should have a solid connection state from the retaining wall 52 on one side thereof. As a means, the support bracket 30 is fixed to one side of the retaining wall 52, and the support bracket 30 has a slit hole 31 of the horizontal portion 32 into which the vertical bracket 10 is inserted. ), The vertical portion 34 of the support bracket 30 is firmly fixed to the retaining wall 52 and the vertical bracket 10 is formed in the slit hole 32 of the horizontal portion 31. Since the vertical bracket (10) is fixedly embedded in the seismic wall by the curing of the mortar as a result, the support bracket (40) firmly fixed to one side of the retaining wall (52) and the firm fitting coupling Because it has a structure One seismic wall and retaining wall have a stable and firm connection with each other.

At this time, the fixing hole 33 formed in the vertical portion 34 of the support bracket 30 is for adjusting the installation height of the support bracket 30, of the bricks 50, 50 'to be stacked. In consideration of the horizontal height it is possible to vary the installation position of the support bracket 30 in the vertical direction by varying the fastening position of the anchor bolt through the fixing hole 33 so that it can be fixed to have a proper height. .

Such a bracket device is to have excellent seismic resistance, such as load-bearing wall, partition wall, finishing wall, etc. constructed through the masonry of bricks, and excellent bonding force with the adjacent retaining wall 52, and excellent resistance from a variety of directions, that is, multi-directional vibration Will have.

The masonry bracket device for constructing the earthquake-proof wall structure of the present invention as described above has a side wall between bricks by a vertical bracket, thereby having earthquake resistance in the front and rear direction, and by means of a horizontal support, , And has the seismic resistance of the downward and forward and backward direction, and by the support bracket to ensure a stable coupling force with the horizontal support, as well as a solid connection state of the retaining wall and the seismic wall through this relatively relatively from the multi-directional vibration of the whole seismic wall It is excellent in shock resistance.

Claims (3)

A vertical bracket 10 having insertion holes 11 and 11 'spaced apart from each other at a tip end thereof; A horizontal support 20 extending in the longitudinal direction; It is provided with a support bracket 30 of the bent form having a horizontal portion 32 is formed with a slit hole 31 and a vertical portion 34 is formed with a fixed long hole 33, The vertical bracket 10 is inserted into the slit hole 31 of the support bracket 30, and the insertion hole 11 of the vertical bracket 10 protruding upward from the horizontal portion 32 of the support bracket 30. (11 ') mounting bracket device for constructing a seismic designed wall, characterized in that configured to insert the horizontal support 20. The method of claim 1, An intermediate bracket of the vertical bracket (10) masonry bracket device for constructing a seismic designed wall, characterized in that formed by forming a long hole (12) to increase the coupling force with the mortar. The method of claim 1, A masonry bracket device for constructing a seismic engineered wall, characterized in that the lower end of the vertical bracket 10 is formed by forming a tip portion 13 of gradually decreasing width to facilitate the insertion of the vertical bracket 10. .

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