KR102112282B1 - Brick set and wall structure - Google Patents

Abstract

The present invention relates to a brick set and a wall structure constructed by using the same. The brick set comprises: bricks (120) each having a rebar hole (122) drilled vertically; a rebar (160) passing through the rebar hole (122); and a mortar guide (140) having a blocking plate (144) formed inside an outer frame (142) of the mortar guide to block the rebar hole (122). The bricks (120) are stacked without feeding the mortar into the rebar hole (122) by repeating a process of applying mortar to the bricks (120) while the mortar guide (140) is placed on the bricks (120) and then removing the mortar guide (140) in a process of stacking the bricks (120), and then a brick wall (100) is formed by passing the rebar (160) through the rebar hole (122) and fixing the rebar. Therefore, the brick set can form a structurally stable wall.

Description

Brick set and wall structure constructed using the same

The present invention relates to a brick and a building wall constructed using the brick.

Generally, bricks are constructed to form or reinforce the walls of a building or to decorate or reinforce the walls formed by pouring concrete. It is formed in a certain standard and is constructed by stacking it on the foundation, and cement mortar is used to fix the bricks. However, when the bricks are constructed in the same manner as described above, since the bonding between the bricks is made only by the cement mortar, there is a problem that it is vulnerable to lateral impact. To this end, bricks connected to the protrusions and groove structures have been proposed, but were not satisfactory in terms of structural stability.

(Document 1) Republic of Korea Patent Publication No. 10-2005-0113095 (2005. 12. 1.)

An object of the present invention is to propose a brick set capable of forming a structurally stable wall surface while being simple to construct and to propose a wall structure formed through such a brick set.

In the present invention, the process of stacking the bricks includes a brick with a plurality of reinforcing holes perforated in the vertical direction, a reinforcing bar penetrating the reinforcing bar holes, and a mortar guide formed inside the outer frame of a blocking plate blocking the reinforcing bar holes In the above mortar guide, the mortar is put on the brick, and then the process of removing the mortar guide is repeated. To achieve the above object by proposing a brick set to form and a wall structure formed of such a brick set.

According to the present invention, it is possible to easily construct and form a structurally stable wall, and such a wall can be firmly formed by being constructed like a concrete wall and a heat insulating material.

Figure 1a. 1b is an exemplary view showing a brick and mortar guide according to the present invention,
Figure 2 is an exemplary view showing the action of the mortar guide in the process of stacking bricks according to the present invention,
Figure 3 is an exemplary view showing a structure for fixing the reinforcing bar according to the present invention,
4 is an exemplary view of a state in which bricks according to the present invention are stacked to form brick walls;
5 is an exemplary view showing a wall structure according to the present invention,
6 is an exemplary view showing a state in which slabs are formed in the wall structure according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings FIGS. 1 to 6.

Figures 1a, 1b is an exemplary view showing a brick and a mortar guide according to the present invention, Figure 2 is an exemplary view showing the action of a mortar guide in the process of stacking bricks according to the present invention, Figure 3 is to fix the rebar according to the invention An exemplary view showing a structure, FIG. 4 is an exemplary view in which a brick according to the present invention is stacked to form a brick wall.

First, the brick set according to the present invention will be described.

The brick set according to the present invention includes a brick 120, a reinforcing bar 160, and a mortar guide 140.

The brick 120 forms a three-dimensional shape. It can form a cuboid shape, but is not limited thereto. The brick 120 is formed to penetrate the reinforcing hole 122 in the vertical direction. One reinforcing bar hole 122 may be formed, preferably a plurality of. The drawing shows that three are formed.

The side surface of the brick 120 is formed through a horizontal hole 124 in the horizontal direction. The horizontal hole 124 may also be formed with one or a plurality of rebar holes 122. The horizontal hole 124 will be described later, but if necessary, a support pin is installed through it.

The reinforcing bar 160 is generally used in a construction site, has a predetermined length, and is installed through the reinforcing hole 122 in a state where the bricks 120 are stacked. It is natural that the diameter of the reinforcing bar 160 should be smaller than that of the reinforcing hole 122, and it is preferable that the diameter is approximately 1/2 to 1/4 of the diameter of the reinforcing hole 122, and when it is excessively thin. Since there is a problem with the strength, one having a diameter that can exhibit adequate strength is adopted.

The mortar guide 140 forms a structure in which a blocking plate 144 is formed inside the outer frame 142 formed in a certain shape and standard. The outer frame 142 is formed to fit the shape of the brick 120, and the blocking plate 144 forms a size and shape to cover and close the reinforcing hole 122, and the position corresponding to the reinforcing hole 122. Is formed on. Therefore, when the mortar guide 140 is placed on the brick 120, the blocking plate 144 covers the reinforcing hole 122 to block it. The blocking plate 144 is formed inside the outer frame 142 by being connected to the outer frame 142 with a thin connection. As a result, the part except for the blocking plate 144 and the connecting rod is formed inside the outer frame 142 in an empty state.

The process of stacking bricks 120 with the brick set according to the present invention will be described.

First, choose a floor or form a foundation. The foundation may be formed by pouring concrete to secure structural stability of the building.

When the foundation is prepared, it starts to build chagok chagok brick 120. The cement mortar is applied to the foundation with a certain thickness, and the bricks 120 are arranged in a line thereon, and the cement mortar is also filled between adjacent bricks 120. This process is no different from the existing method.

Meanwhile, a reference bar 190 may be installed on the foundation along a line arranging the bricks 120. The reference bar 190 helps to ensure that the bricks 120 are arranged in a straight line, and also helps to prevent the arrangement from being disturbed by external forces. give.

Then, when the arrangement of one layer is completed, the bricks 120 are started to be stacked thereon. The reinforcing hole 122 formed in the lower layer brick 120 and the reinforcing hole 122 of the brick 120 stacked on the upper layer are stacked while determining a position to coincide. At this time, as shown in FIG. 2, the mortar guide 140 is arranged on the lower layer brick 120, and then the cement mortar is applied to a certain thickness, and when the process of applying the cement mortar is completed, the mortar guide 140 is removed. Accordingly, a cement mortar layer is formed in the rest of the parts except for the reinforcing hole 122 formed in the brick 120, and the reinforcing hole 122 formed in the lower layer brick 120 and the reinforcing hole 122 formed in the brick 120 stacked on the upper layer. ) Are placed in a straight line with each other to communicate.

After the above steps, the bricks 120 are stacked to a desired height, and then the reinforcing bars 160 are fixed through the reinforcing holes 122. The lower end of the reinforcing bar 160 is fixed to the foundation, the foundation bolt 180 is previously installed on the foundation, and the brick 120 is stacked while the foundation bolt 180 is positioned in the reinforcing hole 122, and then the reinforcing hole ( 122, the lower end of the reinforcing bar 160 is connected to the foundation bolt 180 to fix the reinforcing bar 160. To this end, it is natural that the nut structure should be formed at the bottom of the reinforcing bar 160. Thereafter, the top of the reinforcing bar 160 is firmly fixed in an appropriate manner to stably support the bricks on which the reinforcing bar 160 is accumulated, thereby forming a brick wall 100 as illustrated in FIG. 4.

Here, the lower end of the reinforcing bar 160 may be formed with a collar (162). The collar 162 is provided separately and can be coupled to the lower end of the reinforcing bar 160, and is formed to form a structure that widens toward the bottom. Therefore, as shown in FIG. 3, when the reinforcing bar 160 is lowered along the reinforcing bar hole 122, the foundation bolt 180 is guided to the lower end of the reinforcing bar 160 by the point 162. According to the configuration of the collar 162, it is possible to easily connect the lower end of the reinforcing bar 160 to the foundation bolt 180. As shown in B of FIG. 3, the stylus 162 is not formed in the reinforcing bar 160 but is installed in a fixed state on the base so that the ends of the reinforcing bars 160 can be formed to be coupled.

Thereafter, the mortar may be filled in the reinforcing bar hole 122 as necessary. According to him, the reinforcing bar 160 is firmly fixed by the mortar in the reinforcing bar hole 122.

Hereinafter, a wall structure formed of a brick set according to the present invention will be described. 5 is an exemplary view showing a wall structure according to the present invention.

The wall structure according to the present invention includes a brick wall 100 formed of bricks 120.

The brick wall 100 is formed by a brick 120 and a reinforcing bar 160. Brick 120 is a reinforcing bar hole (122) is perforated in the vertical direction, the reinforcing bar hole (122) is stacked in communication in the vertical direction to form a wall. The reinforcing bar 160 is installed with the bottom fixed to the bottom by penetrating the reinforcing bar hole 122 from the top to the bottom after the brick 120 is stacked and the wall is formed. The upper end of the reinforcing bar 160 is fixed so as not to move by a separate fixing means, the brick wall 100 serves to reinforce so as not to fall or damage by the lateral pressure.

The wall structure according to the present invention may further include an insulating material 200 formed on one surface of the brick wall 100.

The insulating material 200 is formed on the indoor side when the brick wall 100 is formed in one row, and is formed between the brick walls 100 formed in two rows when the brick walls 100 are formed in two rows at regular intervals. Will be. The heat insulating material 200 may be fixed to the brick wall 100 by a support pin 400 penetrating the brick wall 100, wherein the support pin 400 has a nut through the heat insulating material 200 at its end. By being fastened, the insulating material 200 is firmly fixed.

The wall structure according to the present invention may further include a concrete wall 300.

The concrete wall 300 may be formed in contact with the brick wall 100, or may be formed in contact with each other in the order of the brick wall, the heat insulating material 200, and the concrete wall 300. In particular, when the brick wall 100 is formed in two rows at regular intervals, a concrete wall 300 is formed therebetween, and the insulating material 200 is filled between the concrete wall 300 and the brick wall 100. .

When the concrete wall 300 is formed, the end of the support pin 400 penetrating the brick wall 100 may be formed to be embedded in the concrete wall 300. Accordingly, the support pin 400 serves to firmly fix the brick wall 100 to the concrete wall 300.

On the other hand, when the brick wall 100 is formed in two rows and a concrete wall 300 and an insulating material 200 are formed therebetween, the support pin 400 penetrates each of the two rows of brick walls 100 to form a concrete wall ( 300) is preferably formed so that the end is buried. In addition, some of the support pins 400 may be formed to support the brick wall 100 by being formed to penetrate the other side of the brick wall 100 in the other row of the brick wall 100. At this time, the support pin 400 formed to penetrate the other side of the brick wall 100 of the other column penetrates the rod-shaped or plate-shaped reinforcement 195 of a predetermined length in the vertical or horizontal direction to support it. Pin 400 may be installed to penetrate, this configuration is a brick wall 100 is formed by first installing the brick wall 100, and then forming a wall structure according to the present invention by pouring concrete between them It helps to prevent them from being separated from each other by the pressure of concrete.

As described above, the wall structure according to the present invention formed of the brick wall 100, the insulating material 200, and the concrete wall 300 plays a main role in supporting the load of the concrete wall 300, and the insulating material 200 is When the insulation performance is implemented, the brick wall 100 serves as a decorative function while supporting a load. In particular, the brick wall 100 is supported by the concrete wall 300 by the support pin 400, and also supported in the longitudinal and transverse directions by the reinforcing bar 160, so that it is not easily collapsed by external force and forms a stable state. .

In the process of constructing the wall structure according to the present invention as described above, the brick wall 100 is first formed, and in the process, the insulation material 200 is installed, and then a support pin having a length penetrating the insulation material 200 is provided. 400) and a support pin 400 having a length buried in the concrete wall 300 and a support pin 400 penetrating the opposite brick wall 100 are sequentially installed from the bottom of the brick wall 100, if necessary, and finally As the concrete is poured, the concrete wall 300 is formed.

6 is an exemplary view showing a state in which slabs are formed in the wall structure according to the present invention.

When the wall structure as described above is formed and then the ceiling of the building, that is, the slab 500 is formed, a formwork is installed in the transverse direction on the top of the concrete wall 300, and concrete is poured over it to form the slab 500 You can do it. At this time, when the brick wall 100 is formed in two rows, the height of the indoor brick wall 100 is lower than the height of the outdoor brick wall 100 so that the slab 500 naturally connects to the top of the concrete wall 300. It is desirable to do. In this process, the upper end of the reinforcing bar formed in the interior brick wall 100 is fixed while being buried in the slab 500, so the upper end is naturally fixed.

100: brick wall, 120: brick,
122: rebar hole, 124: horizontal hole,
140: mortar guide, 142: outer frame,
144: blocking plate, 160: rebar,
162: fine, 180: foundation bolt,
190: reference bar, 200: insulation,
300: concrete wall, 400: support pin,
500: slab.

Claims (7)

A plurality of reinforcing holes (122) in the vertical direction is perforated and a horizontal hole (124) in the horizontal direction is provided with a brick 120, the foundation bolt 180 is formed on the bottom of the foundation bolt 180 is the reinforcing hole (122) ) In the state of being accommodated, the reinforcing bar holes 122 are stacked in two rows from the bottom to communicate in the vertical direction to form a brick wall 100,
At the bottom, the reinforcing bar 160 having a point 162 with a wide opening at the bottom is penetrated through the reinforcing hole 122 and fixed to the bottom of the foundation bolt 180, and then installed in the reinforcing bar hole 122. Fill the mortar,
The support pin 400 is penetrated through the horizontal hole 124 to partially install the opposite brick wall 100 in the brick wall 100, while some end ends between the two rows of brick walls 100. Install it in this position,
Concrete is placed between the two rows of brick walls 100 to form a concrete wall 300 such that the support pin 400 is buried in concrete to construct a wall including the brick wall 100 and the concrete wall 300 How to build walls. According to claim 1,
A wall construction method in which an insulating material 200 is installed between the two rows of brick walls 100 before forming the concrete wall 300. According to claim 2,
After the insulating material 200 is installed, the support pin 400 is penetrated through the horizontal hole 124 so that the end is installed to penetrate the insulating material 200 so that the support pin 400 supports the insulating material 200. How to build walls.

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