KR101201438B1 - Construction method of ALC block build - Google Patents

Abstract

According to the present invention, one semicircular bent portion of a fastener is positioned in a square groove formed on at least one line on one side of the upper and lower surfaces of the inner wall lightweight foam concrete block (ALC) while the upper and lower surfaces of the outer wall lightweight foam concrete block The lower and upper protrusions, each of which is bent downward and upward, are forcibly inserted, respectively, so that the space between the inner wall and the outer wall is made by zinc-plated threaded bolts and fixing bolts supporting the semicircular bent portions and the square grooves. The present invention relates to a fastener of a light-weight foamed concrete block for reinforcing heat insulation and strength of a wall and a method of constructing a wall using the same.

The present invention described above,

In the narrow lightweight foam concrete block, the process of forming two rectangular grooves in the longitudinal direction on the upper or lower surface of the wide lightweight foamed concrete block while forming one square groove in the longitudinal direction on one surface of the upper surface or the lower surface,

Forming the upper and lower projections while bending upward and downward on the other side of the fastener forming one or more semi-circular bent portions on one side so as to be located in the square groove of the lightweight foam concrete block of the inner wall;

The lightweight foamed concrete block formed with the square grooves is formed by bundling into the inner wall and forming a space while masonrying the lightweight foamed concrete block without the square grooves into the outer wall;

Inner wall first row lightweight foam concrete block is a process of masonry to form a concave-convex coupling by the mortar of the floor while the square groove toward the bottom,

Inner wall second row light weight foam concrete blocks are bonded to inner wall first row light weight foam concrete blocks while the square groove is located on the upper surface;

The process of assemble the outer wall first row lightweight foam concrete block twice the height of the inner wall to be combined with the mortar of the floor,

The lower and upper projections on the other side of the fasteners in which the semi-circular bent portions are located in the square grooves of the second row of lightweight foamed concrete blocks on the inner wall are respectively the upper surface of the first row of lightweight foam concrete blocks and the lower side of the second row of lightweight foam concrete blocks. To force the inner and outer walls to be forced into the

Applying mortar while filling zinc plated bolts to pass through semi-circular bent portions of the fasteners located in the square grooves of the second row of light-weight foamed concrete blocks, the inner wall third without filling with the square grooves The process of assemble the thermally lightweight foam concrete block so that the zinc-plated computer bolt is located between,

Applying mortar to the flat upper surface of the inner wall third row lightweight foam concrete blocks while repeating the step of placing the square grooves of the inner wall fourth row lightweight foam concrete blocks to the upper side to configure the inner wall and the outer wall side by side. It features.

Lightweight foam concrete block, inner wall, outer wall, square groove, clamp, bolt

Description

Fasteners for joining lightweight foam concrete blocks and construction methods for walls using the same {Construction method of ALC block build}

The present invention relates to a fastener of a lightweight foamed concrete block and a method of constructing a wall using the same. Specifically, at least one row of at least one line formed on one side of the upper and lower surfaces of the inner wall lightweight foamed concrete block (ALC) Supporting the semi-circular bent portion and the square groove by inserting the lower and upper projections bent into the upper and lower portions of the outer wall light-weight foam concrete block while the other side of the fasteners bent downwards and upwards, respectively, with one semicircular bent portion positioned. The present invention relates to a fastener of a lightweight foamed concrete block in which the heat insulation and strength of the double wall having a space between an inner wall and an outer wall are reinforced by zinc-plated bolts and fasteners, and a method of constructing a wall using the same.

Recently, lightweight foam concrete blocks, which are installed on the outer and inner walls of various buildings, are about one quarter lighter in weight than concrete blocks of the same size, are excellent in light weight, excellent in fire resistance, siliceous raw materials, calcareous raw materials, It is manufactured by mixing and foaming foaming agents such as powder quicklime, gypsum and aluminum at an appropriate ratio, and there is no generation of harmful gases as minerals. Its thermal conductivity is about one tenth of that of general concrete blocks. Owing to its excellent effect of blocking external noise, it is used in various construction fields.

However, while having the advantages as described above, the weight is light, weak to impact from outside and vulnerable to rain, and the compressive strength is significantly lower than that of the general concrete block to fix the hardware including nails or set anchors commonly used There was a problem.

In addition, since the weight is light, there is an advantage that does not generate a lot of load, on the other hand, the wall is easily broken by the impact transmitted from the outside, or in particular, the wall collapsed due to the draft has been used only in limited places.

As a conventional technique proposed to solve this problem, Patent Registration No. 10-0663923 (dry masonry method and masonry of the masonry block) has been proposed,

This is, "In masonry the masonry block including a vertically open hollow, forming at least one square groove in the longitudinal direction on top of the masonry block, masonry blocks of the same layer while stacking the masonry block formed with a rectangular groove Insert the reinforcing bars of a certain length into the square grooves of the field in order to extend more than one row, and the hook bolt is hooked on the straight bars located on the lower part of the masonry block while the masonry blocks are stacked so that the upper part protrudes to the top of the masonry block. The hook is then hooked on a straight reinforcing bar located in the upper part to pass through the hook bolt, and the masonry blocks are laminated by tightening the connector through a nut, and the plurality of hooks protrude upward on the top of the masonry block. The upper portion of the bolt is further provided with a plurality of ceiling reinforcing bar is fixed to the front through the nut is inserted into the ceiling wall Dry masonry method of masonry blocks. " Is done.

However, according to the above-described dry masonry method and masonry of the masonry block, while inserting the linear reinforcement while structuring the masonry block, each of the linear reinforcement through the hook bolt and nut and the connection port or the masonry block is constant When more than the pressure is applied, it can be easily broken. When pulling the hook bolts and nuts and the connecting port connected up and down with strong force, the masonry block was broken. After all, there was a problem that the work costs also increased.

In addition, patent registration No. 10-337435 (brick construction method and its brick) has been proposed,

This includes, "a step of having a prefabricated ocher brick made of rock bricks and sharp bricks;

Installing a support member through a bottom surface to support and reinforce the ocher brick during construction;

Assembling the ocher brick step by step through the support member;

Installing the rebar in the transverse direction at each step;

Installing an exterior plate material on a main portion of the vertical beam and the corner beam; And

It is proposed a method of constructing a brick comprising a; a finishing step of treating the assembled ocher wall by painting, wallpapering, painting, etc. on the surface.

However, according to the construction method of the conventional brick and the brick technology as described above, the method of constructing the retaining wall, ondol or indoor partition of the building using the yellow earth brick or manufacturing according to the predetermined compounding rate, the manufacturing cost is high, and the weight of the brick Compared with the conventional concrete block, there is a problem that the overall load of the building is heavy because of the similar degree.

Therefore, the applicant has proposed a patent application No. 10-2007-0049422 dated May 21, 2007 (construction method using a lightweight foam concrete block with reinforcing bars),

It is configured by forming at least one or more square grooves in the longitudinal direction on the upper surface and the lower surface of the lightweight foam concrete block, respectively,

As a construction method for constructing a wall or the like using the lightweight foam concrete block, arranging reinforcing bars on the bottom surface and placing concrete so as to bury only half of the diameter of the reinforcing bars while placing concrete on the reinforcing bars;

Fixing one end of the reinforcing bar to the vertical frame;

Aligning the rectangular grooves formed in the lower surface of the lightweight foam concrete block to the half protruding upward from the reinforcing bars;

Inserting reinforcing bars into a square groove formed on an upper surface of the lightweight foam concrete block;

Fixing one end of the reinforcing bar to the vertical frame; The step of applying a binder to the upper surface of the lightweight foam concrete block ".

However, in the construction method using the lightweight foam concrete block provided with the conventional reinforcing bar as described above, the combination of the lightweight foam concrete blocks connected to the left and right is stable, while in the state of being stacked in one layer, the lightweight foam concrete block Due to its strength and thickness, it is reluctant to use it as a material for exterior walls in areas where there is a lot of rain, snow and wind, as well as a lot of rain, snow and wind depending on the region, and its strength is insignificant. There was a limit.

In particular, due to the characteristics of the material of the lightweight foam concrete block rainwater from the outside is infiltrated into the interior there is a problem that mold occurs indoors due to over-humidity, it was necessary to effectively block this.

The method of installing the panel corresponding to the outer wall by the anchor bolt coupling to the outer surface of the inner wall is used in the construction of the concrete wall, but the anchor cannot be fixed to the outer surface of the lightweight foam concrete block (ALC) with low compressive strength. Construction was not available.

Therefore, the present invention is to compensate for the low compressive strength, which is a disadvantage of the conventional lightweight foam concrete block as described above, at least one row of the upper surface or the lower surface of the inner wall of the lightweight foam concrete block when bundling the lightweight foam concrete block The semi-circular bent portion of the clamp is positioned in the square groove formed above so that the upper and lower protrusions, which are bent upwards and downwards, respectively, are forcibly inserted into the lower and upper surfaces of the outer wall lightweight foam concrete blocks. By improving the heat insulating properties of the double wall having a space between the inner wall and the outer wall by the zinc-plated bolts and the fasteners for supporting the semi-circular bent portion and the square groove, as well as due to the space between the double wall High-strength foamed foam blocks for maximum insulation It is an object of the present invention to provide a method of constructing a fixture and a wall using the same.

In another aspect, the present invention is to separate the inner wall and the outer wall to block the inflow of rain water at the source and to prevent the moisture from entering the inner wall.

The fixing clamp of the lightweight foamed concrete block of the present invention for achieving the above object and the construction method of the wall using the same,

In the narrow lightweight foam concrete block of 75mm to 125mm width, two rectangular grooves are formed in the upper or lower surface of the wide lightweight foamed concrete block of 150mm to 250mm in width, while forming one square groove in the longitudinal direction on one side of the upper surface or the lower surface. Forming in the longitudinal direction,

Forming the upper and lower protrusions while bending upward and downward on the other side of the fixing rod having at least one semi-circular bent portion formed on one side in the square groove of the inner wall lightweight foam concrete block;

The lightweight foamed concrete block formed with the rectangular grooves is formed by narrowing the narrow lightweight foamed concrete blocks without the rectangular grooves to the outer wall of the wall in the state of forming a space of 20 to 70 mm between the walls while forming the space between the walls. Process,

Inner wall first row lightweight foam concrete block is a process of masonry so that the square groove is directed to the bottom so that the mortar of the bottom surface flows into the square groove and the concave-convex method is combined in the longitudinal direction,

Inner wall second row light weight foam concrete block is a process of allowing the square groove to be located on the upper surface while being bonded by a mortar between the inner wall first row light weight foam concrete blocks,

The first row of lightweight foam concrete blocks, which are twice the height of the inner wall, are assembled to be combined with the mortar of the floor,

The lower and upper projections on the other side of the first row of lightweight foam concrete blocks and the outer wall of the second row of lightweight foam concrete blocks are located in the square groove of the second row of lightweight foamed concrete blocks, respectively. Installing at regular intervals while being forcedly inserted at the bottom of the process to strengthen not only the strength between the inner wall and the outer wall, but also the strength of the outer wall only;

While filling the square grooves with mortar while installing zinc-plated bolts to pass through the semi-circular bent portions of the fasteners located in the square grooves of the second row of lightweight foamed concrete blocks, the inner grooves are not formed. The process of masonry so that the zinc-plated computer bolt is located at the bottom of the inner wall of the third row of lightweight foam concrete blocks,

Applying mortar to the flat upper surface of the inner wall third row lightweight foam concrete blocks while repeating the step of placing the square grooves of the inner wall fourth row lightweight foam concrete blocks to the upper side to configure the inner wall and the outer wall side by side. It features.

According to the fixing method of the light-weight foamed concrete block of the present invention as described above and the construction method of the wall using the same, while forming a space of 20 ~ 70mm between the inner wall and the outer wall to be stacked to separate the outer wall and the inner wall due to the air layer of the space rainwater Blocking the inflow of the insulation to improve the effect,

The lightweight foamed concrete block, which is formed in the longitudinal direction on one side of the lightweight foamed concrete block in the first row, is oriented in the first row, and the mortar of the bottom surface flows into the squared groove so that the squared grooves face the lower side. To make the association

The lower and upper projections formed on the other side of the fixing bolts are installed at regular intervals so that the lower and upper projections formed on the other side of the fixing bolts are forced into the upper and lower portions of the outer wall lightweight foam concrete blocks, respectively. To enhance the strength of the inner and outer walls,

The third row of light-weight bubbles in the inner wall without the square grooves while the mortar is sufficiently filled in the square grooves while the zinc-plated computer bolts are installed in the longitudinal direction in the semi-circular bent portion of the fasteners located in the square grooves of the lightweight foam concrete blocks. The zinc-plated bolts are placed at the bottom of the concrete block so that the strength is improved by the zinc-plated bolts, and the pH of the lightweight foam concrete block (ALC) is 8-9, so zinc It is effective to prevent rust while using this plated computer bolt.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a view showing the configuration of a fastener of a lightweight foam concrete block according to the present invention,

The semi-circular bent portion (2) located in the square groove of the inner wall lightweight foam concrete block is bent upward and downward, respectively, while cutting the center of the other end of the clamp (1) formed on one side to form the upper protrusion (3) and the lower protrusion ( 4) is formed to be forced between the outer wall lightweight foam concrete block.

2 is a view showing another configuration of the fastener of the lightweight foam concrete block according to the present invention,

Semi-circular bent portions (2) (5) located in two rows of square grooves of the inner wall lightweight foam concrete block are bent upwards and downwards, respectively, while cutting the center of the other end of the clamp (1) formed on one side to form an upper projection (3). ) And the lower protrusion 4 is configured to be forcibly inserted between the outer wall lightweight foam concrete block.

3 is a view showing another configuration of the fastener of the lightweight foam concrete block according to the present invention,

Semi-circular bent portions (2) (5) located in two rows of square grooves of the inner wall lightweight foam concrete block are bent upwards and downwards, respectively, while cutting the center of the other end of the clamp (1) formed on one side to form an upper projection (3). ) And the lower protrusion 4 to be forcibly inserted between the outer wall lightweight foam concrete block 30,

Holes 6 and 7 for nailing the semi-circular bent portions 2 and 5 are formed to maximize the effect of reinforcement when the fasteners 1 are installed on the inner wall lightweight foam concrete block.

4 is a view showing another configuration of the fastener of the lightweight foam concrete block according to the present invention,

Semi-circular bent portions (2) (5) located in two rows of square grooves of the inner wall lightweight foam concrete block are bent upwards and downwards, respectively, while cutting the center of the other end of the clamp (1) formed on one side to form an upper projection (3). ) And the lower protrusion 4 to be forcibly inserted between the outer wall lightweight foam concrete block,

The bent part 8 is formed in the center of the said clamp 1, and it is comprised so that it may support between the inner wall lightweight foam concrete block and the outer wall lightweight foam concrete block with a big force.

FIG. 5 is a view illustrating a construction process of assembling a lightweight foam concrete block using a clamp according to the present invention.

In the narrow lightweight foamed concrete block 10 having a width of 75 mm to 125 mm, one square groove 11 is formed in the longitudinal direction on one surface of the upper surface or the lower surface, and the upper surface or the lower surface of the wide lightweight foamed concrete block of 150 mm to 250 mm is wide. Forming a two rectangular grooves in the longitudinal direction (101);

The upper projections are bent upwards and downwards on the other side of the fasteners 1 formed with at least one semicircular bent portion 2 located on the square groove 11 of the lightweight foamed concrete block 10 of the inner wall, respectively. 3) and the process (102) of forming the lower protrusion (4),

The lightweight foamed concrete block 10 having the square grooves 11 formed therein is a narrow lightweight foam having no space between the grooves in the state in which a space 25 of 20 to 70 mm is formed between the walls and the inner wall of the wall. A process of masonrying the concrete block 30 to the outer wall of the wall 103;

The inner wall of the first row of lightweight foam concrete block 10 is a step of forming a square groove 11 toward the bottom so that the mortar 12 of the bottom surface is introduced into the square groove to form a combination of the concavo-convex method in the longitudinal direction ( 104),

Next, the inner wall second row lightweight foamed concrete blocks 14 are bonded to each other by the mortar 13 between the inner wall first row lightweight foamed concrete blocks 10 while the square groove 15 is positioned on the upper surface. )and,

And the outer wall first row lightweight foam concrete block 30, which is twice the height of the inner wall is a process (106) to assemble to be combined with the mortar 31 of the bottom surface,

The fastener 1 is provided so that one semicircular bent part 2 is located in the square groove 15 of the inner wall second row of light-weight foam concrete blocks 14, and on the other side of the fastener 1 The lower protrusions 4 and the upper protrusions 3 are forcibly inserted into the upper surface of the outer wall first row of lightweight foamed concrete blocks 30 and the lower wall of the outer row of second row of lightweight foamed concrete blocks 32, respectively, with the inner wall therebetween. Forming a 20 to 70 mm space 25 uniformly so that not only the strength between the inner wall and the outer wall, but also the strength of only the outer wall (111),

The zinc-plated computer bolt 26 is installed to pass through the semi-circular bent portion 2 of the fastener 1 located in the square groove 15 of the inner wall second row lightweight foamed concrete block 14 (108). 1) Apply a mortar (16) to fill the square groove (15) above (108), and then bolt the zinc plated zinc plated between the inner wall third row lightweight foam concrete block (17) without the next square groove 109 to arrange the position of

Applying a mortar (18) to the flat upper surface of the third row of lightweight foamed concrete blocks 17, the inner wall of the fourth row of lightweight foamed concrete blocks (19) to assemble so that the square groove 21 is located above (110) By repeating), the inner wall and the outer wall are arranged side by side.

The fastener of the lightweight foamed concrete block of the present invention configured as described above and the construction method of the wall using the same

In the light-weight foam concrete block 10 having a narrow width of 75 mm to 125 mm, one rectangular groove 11 is formed in the longitudinal direction on one surface of the upper and lower surfaces. In addition, two rectangular grooves are formed in the longitudinal direction on the upper and lower surfaces of the wide and lightweight foamed concrete blocks 150mm to 250mm wide.

The upper protrusion (3) is bent upwardly and downwardly on the other side of the clamping member (1) having at least one semicircular bent portion (2) formed in the square groove (11) of the lightweight foamed concrete block (10) of the inner wall, respectively. ) And the lower protrusion 4.

The lightweight foamed concrete block 10 having the square grooves 11 formed therein has a width of 20 to 70 mm between the walls of the wall and is not formed with the square grooves while forming a space 25 therebetween. The narrow lightweight foam concrete block 30 is assembled to the outer wall of the wall.

After applying the mortar 12 on the bottom surface of the first row of light-weight foam concrete blocks 10 attached to the square groove 11 facing the bottom so that the mortar 12 of the bottom surface flows into the square groove, Figure 6 As shown in Figure 6 is to be combined so that the concave-convex method is made in the longitudinal direction.

Next, the mortar 13 is applied to the upper surface of the inner wall first row of lightweight foamed concrete blocks 10, and then the inner wall second row of lightweight foamed concrete blocks 14 is attached so that the square groove 15 is located on the upper surface. It is made to adhere by the mortar 13 between the lightweight foamed concrete block 10.

Then, after applying the mortar 31 on the bottom surface, the outer wall first row lightweight foam concrete block 30 having a height twice as high as that of the inner wall is assembled so as to be combined with the mortar 31 on the bottom surface.

The lower protrusions 4 on the other side of the clamp 1, in which one semi-circular bent portion 2 is located in the square groove 15 of the inner wall second row lightweight foamed concrete block 14, are each outer wall first row lightweight. It is to be inserted into the upper surface of the foam concrete block 30 forcibly, as shown in Figure 7 installed between the inner wall and the outer wall at regular intervals of 20 ~ 70mm space 25, as well as the strength between the inner wall and the outer wall, the outer wall Enhance the strength of the bay.

The upper projection 3 of the fastener 1 has a mortar 32 applied therebetween, and then the outer wall second row of lightweight foam concrete blocks 33 are attached to each other by attaching the outer wall second row of lightweight foam concrete blocks 33. Stable masonry is possible to be forcedly inserted below.

The zinc-plated computer bolts 26 are installed to pass through the semi-circular bent portions 2 of the fasteners 1 located in the square grooves 15 of the second row of light-weight foamed concrete blocks 14, and the mortar 16 After filling the square groove (15) with the above), the inner wall of the third row of light-weight foamed concrete blocks (17) without the square groove is positioned, and the square groove (15) as shown in FIG. The zinc-plated threaded bolt 26 is positioned to position.

The reason why the bolt is used as the zinc-plated bolt 26 is that the pH of the lightweight foam concrete block (ALC) is 8 to 9, so the iron is fast rust, so the zinc plated bolt ( 26) to prevent rust.

As shown in FIG. 9, the mortar 18 is applied to the flat upper surface of the inner wall third row of lightweight foam concrete blocks 17 so that the square groove 21 of the inner wall fourth row of lightweight foam concrete blocks 19 is positioned upward. As masonry.

In addition, by repeatedly performing the above-described masonry processes, the inner and outer walls can be side by side.

FIG. 10 is a view illustrating a construction process of assembling an outer wall of a heavy material using a clamp according to another embodiment of the present invention.

After applying the mortar 52 on the bottom surface, the inner wall of the first row of lightweight foamed concrete blocks 50 is attached so that the square grooves 51 face the bottom so that the mortar 52 of the bottom surface flows into the square grooves 51. , Masonry is to be combined in the longitudinal direction.

Applying mortar 53 to the upper surface of the inner wall first row of lightweight foam concrete blocks 50 and then attaching the inner wall second row of light foam foam concrete blocks 54 so that the square grooves 55 and 56 are located on the upper surface. The inner wall is bonded by the mortar 53 between the first row of lightweight foamed concrete blocks 50.

The space 80 between the inner wall lightweight foamed concrete block 51 and the outer wall body 70, which is the center of the clamp 60, in which one semi-circular bent portion 61, 62 is located in the square grooves 55 and 56. The lower protrusion 64 on the other side is forcibly inserted into the upper surface of the first row outer wall body 70 while the triangular reinforcement piece 66 is attached to the lower end, and the upper protrusion 65 is mortar 72 therebetween. By applying the next outer wall and then attaching the stable weight to enable the strong weight of the outer wall, which is the next heavy material is possible.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but many variations and modifications may be made without departing from the scope of the invention. It will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims.

1 is a perspective view showing the configuration of a clamp according to an embodiment of the present invention.

Figure 2 is a perspective view showing the configuration of a clamp according to another embodiment of the present invention.

Figure 3 is a perspective view showing the configuration of a clamp according to another embodiment of the present invention.

Figure 4 is a perspective view showing the configuration of a clamp according to another embodiment of the present invention.

5 is a schematic diagram showing a construction process of the present invention.

6 is a schematic diagram showing a state in which the first row is stacked according to an embodiment of the present invention.

Figure 7 is a schematic diagram showing a state in which the fastener is installed in accordance with an embodiment of the present invention.

Figure 8 is a schematic diagram showing a state in which a zinc-plated computer bolt is installed in accordance with an embodiment of the present invention.

8 is a schematic view showing a state of constructing a wall of the present invention.

9 is a schematic diagram showing a state of constructing a wall according to an embodiment of the present invention.

10 is a schematic view showing a state in which the outer wall of the heavy construction in accordance with another embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

1: clamp 2, 5: semi-circular bent portion

3: upper protrusion 4: lower protrusion

10, 14, 17, 19, 30, 33: Lightweight aerated concrete blocks

11, 15, 21: square groove 25: space

26: computer bolt

Claims (6)

The semi-circular bent portion (2) located in the square groove of the inner wall lightweight foam concrete block is bent downward and upward, respectively, while cutting the center of the other end of the clamp (1) formed on one side to form the upper projection (3) and the lower projection ( 4) The fastener of the lightweight foam concrete block, characterized in that formed by forming. The method according to claim 1, Two semi-circular bent portions (2) (5) located at two rows of square grooves of the inner wall lightweight foam concrete block are formed simultaneously on one side of the stainless steel clamp (1) while cutting the center of the other end upward and downward, respectively. The fastener of the lightweight foam concrete block, which is bent to form an upper protrusion (3) and a lower protrusion (4). The method according to claim 1, On one side of the clamp 1, holes 6 and 7 for nailing two semi-circular bent portions 2 and 5 respectively located in two rows of square grooves of the inner wall lightweight foam concrete block are simultaneously formed. A fastener of a lightweight foam concrete block, characterized in that formed by forming the upper projection (3) and the lower projection (4) by bending the upper and lower portions, respectively, while cutting the center of the end of the side. The method according to claim 1, Of the clamping rod (1) forming two semicircular bent portions (2) and (5) on one side, each of which is bent upward and downward while cutting the center of the other end thereof to form an upper protrusion (3) and a lower protrusion (4). A fastener of the lightweight foam concrete block, characterized in that the bending portion (8) is formed in the center to support between the inner wall lightweight foam concrete block and the outer wall lightweight foam concrete block. In the narrow lightweight foamed concrete block 10 having a width of 75 mm to 125 mm, one square groove 11 is formed in the longitudinal direction on one surface of the upper surface or the lower surface, and the upper surface or the lower surface of the wide lightweight foamed concrete block of 150 mm to 250 mm is wide. Forming two square grooves in the longitudinal direction, The upper projection (3) and the lower portion are bent upwardly and downwardly on the other side of the clamping member (1) formed on one side of the semicircular bent portion (2) located in the square groove (11) of the inner wall lightweight foam concrete block (10). The process of forming the projection 4, The lightweight foamed concrete block 10 having the square grooves 11 formed therein is a narrow lightweight foam having no space between the grooves in the state in which a space 25 of 20 to 70 mm is formed between the walls and the inner wall of the wall. Masonry the concrete block 30 to the outer wall of the wall, The inner wall of the first row of lightweight foam concrete block 10 is a process of masonry so that the square groove 11 is directed to the bottom so that the mortar (12) of the bottom surface is introduced into the square groove to form a concave-convex coupling in the longitudinal direction; , The inner wall second row lightweight foam concrete blocks 14 are bonded to each other by the mortar 13 between the inner wall first row lightweight foam concrete blocks 10 while the square groove 15 is positioned on the upper surface thereof. The outer wall first row of lightweight foam concrete block 30 is a process of cooperating with the mortar 31 of the bottom surface to be bonded, A fastener 1 is installed so that one semicircular bent portion 2 is located in the square groove 15 of the inner wall second row of lightweight foamed concrete blocks 14, and the lower protrusion 4 on the other side of the fastener 1 is disposed. ) And the upper projection 3 are 20 to 70 mm space between the inner wall and the upper wall of the outer wall of the first row of lightweight foamed concrete blocks 30 and the lower wall of the outer wall of the second row of lightweight foamed concrete blocks 32. The process of constantly forming 25, The zinc-plated computer bolts 26 are installed to pass through the semi-circular bent portions 2 of the fasteners 1 located in the square grooves 15 of the second row of light-weight foamed concrete blocks 14, and the mortar 16 To be sufficiently filled in the square groove 15 while applying, and to place the zinc-plated threaded bolt 26 between the inner wall third row lightweight foamed concrete blocks 17 without the next square groove. Process, Repeat the process of applying the mortar 18 on the flat top surface of the inner wall third row of lightweight foam concrete blocks 17 so that the square grooves 21 of the inner wall fourth row of lightweight foam concrete blocks are positioned upward. The wall construction method using the fasteners of the lightweight foam concrete block, characterized in that the inner wall and the outer wall to be arranged side by side. Two semi-circular bent portions 61 and 62 in one of the square grooves 55 and 56 have a triangular reinforcement piece 66 attached to the center lower end of the clamp 60 positioned in the inner wall lightweight foam concrete block 51. Light foamed concrete block, characterized in that the lower projection 64 of the other side is forcibly inserted into the upper surface of the first row outer wall 70 while the upper projection 65 is attached to the outer wall attached to the upper portion. Construction method of wall using clamp

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