KR200419931Y1 - Brick for aseismatic having high cohemiveness with mortar - Google Patents

Abstract

The present invention mainly relates to masonry bricks constituting the bearing wall, partition wall, retaining wall, and the like, and particularly, in the case of bricks having a rectangular rectangular shape on a plane, by forming vertical seismic grooves having a predetermined depth at both ends thereof, As the mortar used as the binder of the filler is filled into the interior of the vertical seismic groove, the bonding force with the brick is greatly increased by the hardened mortar, so that the cracks, collapses and warpages of the wall are not generated from impact or vibration, and thus a safer state is maintained. The present invention relates to an earthquake-resistant design brick having excellent bonding strength with mortar, which is characterized by increased durability and seismic resistance and robustness.

Wall, Brick, Mortar, Earthquake Recess

Description

Earthquake-resistant brick with excellent mortar bonding {Brick for aseismatic having high cohemiveness with mortar}

1 is an overall perspective view of a seismic design brick according to the present invention

2 is a plan view of a seismic design brick according to the present invention

3 is an embodiment of the masonry using a brick according to the present invention

Figure 4 is an enlarged plan view of the masonry state using a brick according to the present invention

5 is another embodiment of a seismic design brick according to the present invention

6 is a plan view of the masonry state using a conventional brick

Explanation of symbols on the main parts of the drawings

1,1 ': seismic recess

10 brick 11: mortar

The present invention mainly relates to masonry bricks constituting the bearing wall, partition wall, retaining wall, etc. More specifically, by forming the seismic grooves on the vertical groove on each side end of the masonry brick, the binder used when masonry bricks As the mortar is filled into the seismic groove, the strength of the brick increases as the bonding strength between the brick and the brick is greatly improved, so that cracks, collapse, and warpage due to vertical and horizontal impact or vibration applied to the wall It is about a brick that can be designed to prevent earthquake.

In general, the masonry building is a structure in which brick or concrete blocks are bonded by mortar, and 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 must be rational.

The general masonry is composed of rectangular cubes in the plane. If you want to make various walls using the bricks as described above, put mortar on the brick and place it on the mortar that is out of alignment with the lower brick. By stacking bricks repeatedly, the masonry will be done.

However, the wall masonry constructed by the general brick as described above does not have a good bonding force between the mortar and the brick is easily cracked or collapsed or distorted by impact or vibration,

Since the general brick has a flat side as shown in FIG. 6, the bonding force with the brick 100 is determined only by the hard adhesive performance of the mortar 101 itself, and thus the physical properties of the mortar 101 are reduced or its mortar ( When the impact or vibration of the bonding force of 101) is applied, shearing occurs due to cracking at the boundary between the mortar 101 and the brick 100, so that the construction life of the wall is very short.

In addition, unlike the above-mentioned bricks, each side end is used in the form of a sawtooth block, but the block as described above is not a brick for masonry to form a wall, but as a finishing block for paving roads or sidewalks, such as It is not suitable for use as a brick for masonry because it is intended to enhance the aesthetics while preventing each block from shifting each other simply by laying blocks on the floor.

Therefore, there is an urgent need for an earthquake-resistant seismic brick having excellent bonding force from the impact and vibration applied to the wall while having excellent bonding force with the mortar in the masonry for masonry.

The present invention was devised to eliminate the problems as described above. In the planar rectangular hexahedral brick, by forming a vertical seismic groove of a certain depth at both ends thereof, the mortar used as a binder of the brick when masonry Since it is filled into the vertical seismic recess grooves, the bonding force with the brick is greatly increased by the hardened mortar, thereby maintaining a safer state without cracking, collapsing or warping of the wall from impact or vibration, and increasing durability and seismic resistance. It is an object of the present invention to provide a brick for earthquake-resistant design with excellent binding force with mortar having robustness.

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

1 is an overall perspective view of a seismic design brick according to the present invention, Figure 2 is a plan view thereof.

In the planar rectangular cube 10,

To form the seismic recesses (1) (1 ') perpendicular to both sides of the cross-section, the mortar (11) used as a binder between the brick (10) is filled into the seismic recesses (1) (1') and the coupling force This is configured to increase.

In this case, the seismic recesses (1) (1 ') can be formed in one or more numbers on both side cross-sections, the shape is also obtained in the form of right-angle grooves, or waveform or dovetail shape to obtain the same effect It can be.

The embodiment of the masonry using a brick for earthquake-resistant design excellent in bonding force with the mortar as described above and a more detailed description of the coupling plane will be described as follows by the accompanying drawings.

When the construction of the bearing wall, partition wall, retaining wall, etc. using the brick 10 as described above is to be formed by sequentially sequencing from the bottom of the concrete wall to the upper side,

The most common form of the masonry method is that the upper and lower bricks are alternately laid in different positions so that the mortar is filled between the upper, lower and side ends of the brick 10 as described above. By (11), misalignment as shown in FIG. 3 is performed.

The wall is assembled as described above to obtain a plane as shown in Figure 4, the brick 10 according to the present invention is a vertical seismic groove (1) (1 ') is formed at both ends, the brick 10 Mortar (11) used as a binder of the) is filled into the seismic recess (1) (1 ') and hardened, so that the bonding force is greatly improved.

That is, the conventional bonding force between mortar and brick is determined only by the physical bonding properties of the mortar, so when excessive shock or vibration is applied to the wall, the boundary between the mortar and the wall is broken and cracks or collapse of the wall occur. It was.

However, when the wall is constructed by the brick 10 according to the present invention, the mortar 11 in the slime phase is filled into the seismic recesses 1 and 1 'of the brick 10 to cure and cure. Therefore, even if the adhesion characteristics of the mortar 11 is somewhat reduced by the reinforced portion hardened inside the seismic recess (1) (1 ') of the brick 10 will have a more durable durability and shock resistance.

That is, even if the front and rear or up and down impact or vibration occurs, the cross-sectional area of the mortar 11 joining the bricks 10 is greatly increased, so that no cracking or collapse occurs, and the boundary between the mortar 11 and the bricks 10 is increased. Even if a fragile fracture occurs in a part of the hardened mortar 11 is cured in the seismic recess (1) (1 ') of the brick 10, showing excellent safety from the front and rear shock or vibration Will be.

In addition, since the cross-sectional area of the mortar 11 is increased even when the impact or vibration in the vertical direction occurs, the durability of the wall can be more effectively maintained from cracks and vibrations.

Here, the shape and number of the seismic recesses 1 and 1 ′ are not limited, and as shown in FIG. 5, at least one seismic recess 1 and 1 ′ may be formed at both sides of the brick 10. The shape can also be formed into a seismic groove (1) (1 ') in the shape of a simple concave as shown in the figure, and can be variously changed into a dovetail shape having a waveform, polygon, or bonding force. As long as it can be, any form may be sufficient as the structure by which the earthquake-resistant recess 1 and 1 'improves the coupling force of the mortar 11 and the brick 10.

As described above, the earthquake-resistant design brick having excellent binding force with the mortar of the present invention has a mortar, which is used as a binder for the brick, is charged into the vertical seismic recess, and thus the bonding force with the brick is greatly increased by the hardened mortar. The wall can maintain a safer state from vibration and vibration, and has an effect of increased durability, shock resistance, and robustness.

Claims (2)

In the planar rectangular cube 10, To form a vertical seismic recess (1) (1 ') on both sides of the brick (10), the mortar (11) used as a binder between the brick (10) in the masonry 10 is the seismic recess (1) (1') The earthquake-resistant design brick with excellent bonding strength with mortar, characterized in that the composition is configured to increase the bonding force is hardened by. The method of claim 1, The seismic recesses 1 and 1 ′ are formed in one or more numbers on both side cross-sections of the brick 10, and the shape of the seismic recesses 1 or 1 ′ is made in the form of a right-angle groove, a wave shaped groove or a dovetail groove. Earthquake-resistant design brick with excellent bonding to mortar.

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