KR20170011492A - building construction method using of an Autoclaved Lightweight Concrete and of the same building - Google Patents

Abstract

The present invention relates to a building structure using a foamed concrete block and a method of constructing the foamed concrete block. The foamed concrete block has a top surface of a foundation layer to coalesce a foamed concrete block and a heat insulation layer, a first waterproof layer on the side of the foundation layer, And a galvanized steel sheet body is provided up to a predetermined lower height at which a heat insulating layer is formed to provide a construction structure using a foamed concrete block that is strong against moisture absorption and moisture permeation, It has its purpose.
According to the present invention, it is possible to completely block the moisture and moisture from the bottom of the foundation layer to solve the disadvantage of the construction of the foamed concrete block, and to perform the second waterproofing work on the surface of the foamed concrete block Watertightness with the first waterproof layer is maintained and the moisture permeation phenomenon is completely solved, and the galvanized steel sheet body is attached to the bottom of the outer wall instead of brick or stone to enhance durability and stain resistance.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a building structure using a foamed concrete block,

The present invention relates to a building structure using a foamed concrete block and a method of constructing the same. More specifically, the present invention relates to a foamed concrete block, a foamed concrete block, A building structure using a foamed concrete block which is resistant to moisture absorption and moisture permeation, has a beautiful outer appearance and is excellent in strength by providing a second waterproof layer up to a predetermined lower height and providing a galvanized steel plate body up to a predetermined lower height at which a heat insulating layer is formed; .

As known in the art, a structure is constructed by constructing a building frame and a wall with a structural material such as wood, reinforcing steel or reinforced concrete. In recent years, Autoclaved Lightweight Concrete (hereinafter referred to as ALC) .

Since the foamed concrete block (ALC) has several merits, it is favored as a building material. First of all, the construction material such as wood, reinforcing steel or reinforced concrete is constructed by the structure, However, the foamed concrete block (ALC) has a high insulation effect for delaying the heat transfer due to the minute air bubbles formed at the time of foaming. It is a well known result that the insulation effect is 7 times as much as that of ordinary concrete.

Second, since the weight per unit area of the foamed concrete block (ALC) is smaller than that of ordinary concrete or reinforcing bars, there is an advantage that the foamed concrete block (ALC) can be easily and dynamically constructed.

Third, the foamed concrete block (ALC) has an advantage of being excellent in shear stress but easy to cut and cut. Accordingly, the foamed concrete block (ALC) has been popular as a building material in recent years.

However, there are some problems in the construction of the foamed concrete block (ALC).

First, the foamed concrete block (ALC) is excellent in hygroscopic property, absorbing moisture after construction to increase the incidence of mold, and it is possible to produce a humid indoor air condition by discharging moisture to the room.

In order to prevent the foundation layer 4 from absorbing moisture and discharging it from the ground to the room side during the process of forming the concrete foundation layer 4 in the conventional building construction process, the vinyl is laid flat on the inside of the foundation layer However, there is a fundamental limitation in preventing the moisture absorption of the base layer 4.

In particular, the above-mentioned foamed concrete block (ALC) is also applied to the upper part of the base layer 4 made of concrete. In this case, moisture and moisture are absorbed by the base layer 4 There is a problem that the foamed concrete block (ALC) assembled in the immediate upper room is immediately adversely affected by moisture absorption.

That is, the conventional foamed concrete block (ALC) has a problem in that adverse effects due to moisture or moisture introduced from the base layer (4) located immediately below the outer wall are more adversely affected than moisture and moisture adhering to the outer wall there was.

The foamed concrete block (ALC) is generally made of a heat insulating layer 14 such as styrofoam as an outer heat insulating layer on the outer wall, and an exterior finish coat layer 20 such as staco is formed on the outer surface of the heat insulating layer 14 The construction of the dry bit construction method is common. The dry bit construction can easily be damaged by external force. In order to provide more aesthetically pleasing property, the brick, Add a finish to the stone.

However, in the case of finishing using bricks, bricks or stones, especially in the case of finishing using bricks or bricks, the problem is that it is highly contaminated by rain and snow, mold is well formed, is easily discolored and is vulnerable to moisture there was.

SUMMARY OF THE INVENTION The present invention has been made in view of the circumstances of the prior art described above, and it is an object of the present invention to provide a foamed concrete block in which a first waterproof layer is formed on an upper surface of a base layer for joining a foamed concrete block and a heat insulating layer, A building structure using a foamed concrete block which is resistant to moisture absorption and moisture permeation, has a beautiful external appearance and is excellent in strength, and a construction method thereof, by providing a galvanized steel plate body to a lower end predetermined height forming a waterproof layer and a heat insulating layer. have.

In order to achieve the above object, according to a preferred embodiment of the present invention, there is provided a method of manufacturing a concrete structure, comprising the steps of: a) forming a concrete foundation layer 4; b) forming a first waterproof layer (6) on the outer surface of the concrete foundation layer (4); c) forming a supporting concrete layer 8 at a position where the concrete base layer 4 flows inward from the edge of the concrete foundation layer 4 by a predetermined distance; d) assembling the foamed concrete block (10) on the support concrete layer (8); e) attaching a heat insulating layer 14 to the outer surface of the foamed concrete block 10; f) fixing the galvanized steel sheet body 18 to the outer surface of the heat insulating layer 14 from the lower end to a predetermined height; g) spraying an exterior finishing coat layer 20 on the outer surface of the heat insulating layer 14 to form a foamed concrete block.

Preferably, the first waterproof layer 6 comprises 12 to 25% by weight of xylene, 6 to 12% by weight of methyl isobutyl ketone (MIBK), 23 to 35% by weight of isopropyl alcohol (Iso propyl alchol) 82 to 88% by weight of an epoxy resin composed of an epoxy resin; A method for constructing a building structure using a foamed concrete block, wherein the mixture is composed of 55 to 68% by weight of xylene and 40 to 50% by weight of a polyamine, and 12 to 18% by weight of a curing agent .

Preferably, the method further comprises the step of applying a second waterproof layer (12) to the outer surface of the foamed concrete block (10) from the lower end to a certain height between steps d) and e) A method of constructing a building structure using a concrete block is provided.

Preferably, the galvanized steel sheet body 18 is installed at a height of 1 to 1.5 meters, and a method of constructing a building structure using the foamed concrete block is provided.

Preferably, in the step g), the exterior finish coat layer 20 is applied so that the lower end of the exterior finish coat layer 20 may cover the upper end of the galvanized steel plate body 18. In the method of constructing a building structure using the foamed concrete block, / RTI >

Preferably, the galvanized steel sheet body 18 is fixed to the foamed concrete block 10 by a knife block 22 or is attached to the outer surface of the heat insulating layer 14 with an adhesive 16 A method of constructing an architectural structure using a foamed concrete block is provided.

The concrete foundation layer 4 is formed at the lowermost portion of the concrete foundation layer 4, the first waterproof layer 6 is formed on the outer surface of the foundation layer 4, A supporting concrete layer 8 is formed at a position to be introduced in a predetermined distance inward from the edge of the foamed concrete block 4 and a foamed concrete block 10 is assembled to an upper portion of the supporting concrete layer 8, A second waterproof layer 12 is applied from the lower end to a predetermined height on the outer surface of the foamed concrete block 10 and an adiabatic layer 14 is adhered to the outer surface of the foamed concrete block 10 and the outer surface of the adiabatic layer 14 Wherein the galvanized steel sheet body (18) is fixed from a lower end to a predetermined height and an exterior finish coat layer (20) is sprayed on the outer surface of the heat insulating layer (14) / RTI >

The construction method and the construction method using the foamed concrete block according to the present invention can completely solve moisture and moisture permeated from the bottom of the foundation layer to solve the disadvantage of the construction of the foamed concrete block, Waterproofing with the first waterproof layer is maintained by the second waterproof construction on the surface of the block to completely solve the moisture permeation phenomenon and the durability and stain resistance are strengthened by attaching the galvanized steel plate to the bottom of the outer wall instead of brick or stone. .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an enlarged cross-sectional view of a building structure using a foamed concrete block according to an embodiment of the present invention,
2 is a process diagram showing a construction process of a building structure using a foamed concrete block according to an embodiment of the present invention;
3A to 3H are sectional views of a construction process of a building using a foamed concrete block according to an embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the drawings.

FIG. 1 is an enlarged side view of a building structure using a foamed concrete block according to an embodiment of the present invention. FIG. 2 is a cross-sectional view illustrating a construction process of a building structure using a foamed concrete block according to an embodiment of the present invention. 3 (a) to 3 (h) are sectional views of a construction process of a building using a foamed concrete block according to an embodiment of the present invention.

A method of constructing a building structure using a foamed concrete block according to an embodiment of the present invention includes forming a first waterproof layer on the base layer side and a foamed concrete block A second waterproof layer is formed to a predetermined lower height of the surface, and a galvanized steel sheet body is provided up to a predetermined lower height at which the heat insulating layer is formed, thereby being strong against moisture absorption and moisture permeation,

The concrete structure 2 using the foamed concrete block according to an embodiment of the present invention is characterized in that the concrete foundation layer 4 is formed at the lowermost portion and the first waterproof layer 6 is formed on the outer surface of the concrete foundation layer 4 And a supporting concrete layer 8 is formed at a position where the concrete concrete layer 8 flows inward from the edge of the concrete foundation layer 4 in a predetermined distance and the foamed concrete block 10 is assembled to the upper part of the supporting concrete layer 8 A second waterproof layer 12 is applied to the outer surface of the foamed concrete block 10 from a lower end to a predetermined height and a heat insulating layer 14 is attached to the outer surface of the foamed concrete block 10, 14, and a galvanized steel sheet body 18 is fixed from a lower end to a predetermined height, and an exterior finish coat layer 20 is formed by spraying on the outer surface of the heat insulating layer 14.

At this time, the concrete foundation layer (4) has a rectangular parallelepiped shape and is a base layer in which stone such as rubble and sand is put into the interior and the upper part is finished with concrete again. Normally, .

However, since the concrete foundation layer 4 is filled with stone and then a thin vinyl sheet is laid on the top of the concrete foundation layer, concrete is laid on the top of the foundation, and the vinyl sheet may be damaged due to some ground vibration or settlement. have. Also, if the building is used for a long time, the damage of the vinyl sheet becomes worse.

If the vinyl sheet is damaged, the stone filled in the concrete foundation layer 4 sucks moisture such as rainwater due to a physical phenomenon such as a capillary phenomenon, and the sucked moisture is removed from the concrete foundation layer 4 And reaches the upper surface. Therefore, unless a separate waterproof layer is applied to the concrete foundation layer 4, the building is very vulnerable to moisture and moisture.

Particularly, when the building is located around the agricultural land or around the reservoir, this phenomenon of moisture penetration becomes more serious.

Accordingly, the building structure 2 using the foamed concrete block according to an embodiment of the present invention is a building that maintains a pleasant environment by solving such a problem, and is a beautifully constructed building.

First, the concrete base layer 4 provided in the present invention is formed by applying a first waterproof layer 6 to the outer surface of the concrete base layer 4 so that even if water rises on the inner stone or concrete material of the concrete base layer 4, The first waterproof layer 6 blocks moisture so that moisture can not permeate through the first waterproof layer 6.

The first waterproof layer 6 may include 12 to 25% by weight of xylene, 6 to 12% by weight of methyl isobutyl ketone (MIBK), 23 to 35% by weight of isopropyl alcohol (Iso propyl alchol) 82 to 88% by weight of an epoxy resin composed of an epoxy resin; 55 to 68% by weight of xylene, and 40 to 50% by weight of a polyamine, in an amount of 12 to 18% by weight.

The xylene refers to dimethylbenzene. It is a substance that is insoluble in water and is importantly used as a raw material for synthetic resin. The methyl isobutyl ketone is an aliphatic compound which is stable at room temperature and normal pressure. Such methyl isobutyl ketone is utilized in the present invention as an antioxidant for coating applications and epoxy resins.

The isopropyl alcohol dissolves nonpolar materials and is used as a solvent for paints and inks.

The polyamine is an aliphatic hydrocarbon having two or more amino groups, and is used as an organic polymer flocculant in the present invention.

Therefore, the polyamine is prepared as a curing agent having a curing property by reacting with xylene, which is a solvent, and mixed at a ratio of about 1: 1.

At this time, it is preferable that the first waterproof layer 6 is applied at least three times in order to completely block moisture penetration.

The second waterproof layer 12 has the same structure as that of the first waterproof layer 6. The second waterproof layer 12 is formed on the outer surface of the foamed concrete block 10 to a predetermined height from the lower end thereof. Preferably about 1 meter from the lower end of the foamed concrete block 12.

The galvanized steel plate body 18 is an outer surface of the heat insulating layer 14 and is fixed from the lower end to a predetermined height. The galvanized steel plate body 18 is made of bricks or stone Instead, it is a construction for improving the surface durability of the lower part of the building and increasing the pollution degree.

Preferably, the galvanized steel plate body 18 is installed at a height of 1 to 1.5 meters, and the galvanized steel plate body 18 is fixed to the foamed concrete block 10 by a knife block 22, Is adhered to the outer surface of the base material (14) with an adhesive (16).

In the meantime, when the galvanized steel sheet body 18 is all installed, the exterior finish coat layer 20 is applied to the surface of the heat insulating layer 20. Preferably, the exterior finish coat layer 20 is dried Use a finishing material such as Starco used in bit construction.

More preferably, the exterior finish coat layer 20 is applied so that its lower end covers the top of the galvanized steel sheet body 18.

A construction process of a building structure using a foamed concrete block according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

First, a concrete foundation layer 4 constituting the foundation of a building is formed. The concrete foundation layer 4 is formed in a rectangular parallelepiped shape. Then, concrete is laid in the formwork, and after curing and drying, Layer 4 is prepared.

Then, a stone such as rubble or sand is put into the concrete foundation layer 4, and the upper part is closed with concrete again.

In this state, the first waterproof layer 6 is formed on the outer surface of the base concrete layer 4. The detailed structure of the first waterproof layer 6 has been described above and will be omitted.

A supporting concrete layer (8) is formed at a position where it flows inward from the edge of the concrete foundation layer (4) by a certain distance. Since the inside of the support concrete layer 8 is the inside part 200, construction such as installation of a boiler water pipe (for example, a so-called 'nightingale construction') is usually performed, but the description is omitted.

Then, the foamed concrete block 10 is assembled to the upper part of the support concrete layer 8. The foamed concrete block 10 is a large-sized block, which is light in weight relative to the area, but performs a rough construction using a crane.

At this time, the second waterproof layer 12 is applied to the outer surface of the foamed concrete block 10 from the lower end to a certain height. Preferably, the lower end of the second waterproof layer (12) is in contact with the first waterproof layer (6).

Moisture and moisture permeated from the inside or the bottom of the base layer 4 are already cut through the first waterproof layer 6 but the possibility of moisture permeability at the end can be completely blocked by forming the second waterproof layer 12 .

In the existing building construction, a separate foamed concrete block that is waterproofed at the lower end of the foamed concrete block 10 is used. However, the waterproofed foamed concrete block also has to be waterproofed separately, Moisture and moisture introduced from the lower part of the room through the base layer 4 are moisture permeable phenomenon which is not related to the foamed concrete block 10,

However, the present invention is a construction method that completely solves such permeability phenomenon.

Next, a heat insulating layer 14 is attached to the outer surface of the foamed concrete block 10. Since such a construction is a part of a general dry bit construction, detailed description is omitted.

In this state, the outer surface of the heat insulating layer 14 is fixed and the galvanized steel sheet body 18 is fixed from the lower end to a predetermined height.

The galvanized steel plate body 18 is a structure for improving the surface durability of the lower part of the building and increasing the pollution degree in place of the brick or stone applied to the lower part of the general building.

Preferably, the galvanized steel plate body 18 is installed at a height of 1 to 1.5 meters, and the galvanized steel plate body 18 is fixed to the foamed concrete block 10 by a knife block 22, Is adhered to the outer surface of the base material (14) with an adhesive (16).

The exterior finish coat layer 20 is preferably formed by spraying an exterior finish coat layer 20 on the outer surface of the heat insulating layer 14, Make sure to cover the top.

Meanwhile, the building structure and the construction method using the foamed concrete block according to the embodiment of the present invention are not limited to the above-described embodiments, but various modifications can be made within the scope of the present invention.

2: building structure, 4: foundation layer,
6: first waterproof layer, 8: supporting concrete layer,
10: foamed concrete block, 12: second waterproof layer,
14: heat insulating layer, 18: galvanized steel sheet body,
20: Exterior finish coat layer.

Claims (7)

a) forming a concrete foundation layer (4);
b) forming a first waterproof layer (6) on the outer surface of the concrete foundation layer (4);
c) forming a supporting concrete layer 8 at a position where the concrete base layer 4 flows inward from the edge of the concrete foundation layer 4 by a predetermined distance;
d) assembling the foamed concrete block (10) on the support concrete layer (8);
e) attaching a heat insulating layer 14 to the outer surface of the foamed concrete block 10;
f) fixing the galvanized steel sheet body 18 to the outer surface of the heat insulating layer 14 from the lower end to a predetermined height;
g) spraying an exterior finishing coat layer (20) on the outer surface of the heat insulating layer (14) to form a foamed concrete block. The method according to claim 1,
The first waterproof layer 6 may be formed of 12 to 25 wt% of xylene, 6 to 12 wt% of methyl isobutyl ketone (MIBK), 23 to 35 wt% of isopropyl alcohol and epoxy resin 82 to 88% by weight of an epoxy-based resin consisting of an epoxy resin; Wherein the mixture is composed of 55 to 68% by weight of xylene and 40 to 50% by weight of a polyamine, and 12 to 18% by weight of a curing agent. The method according to claim 1,
Between the steps d) and e)
Further comprising the step of applying a second waterproof layer (12) to the outer surface of the foamed concrete block (10) from a lower end to a predetermined height. The method according to claim 1,
Wherein the galvanized steel sheet body (18) is installed at a height of 1 to 1.5 meters. The method according to claim 1,
Wherein the exterior finish coat layer (20) is applied so that the lower end of the exterior finish coat layer (20) covers the upper end of the galvanized steel plate body (18) in the step g). The method according to claim 1,
Characterized in that the galvanized steel sheet body (18) is fixed to the foamed concrete block (10) by a knife block (22) or attached to the outer surface of the heat insulation layer (14) with an adhesive (16) Construction method of building using. A concrete foundation layer 4 is formed at the lowermost portion of the concrete foundation layer 4 and a first waterproof layer 6 is formed on the outer surface of the foundation layer 4, A supporting concrete layer 8 is formed at a position to be introduced to a certain distance inward from a periphery of the foamed concrete block 10 and a foamed concrete block 10 is assembled to an upper portion of the supporting concrete layer 8, A second waterproof layer 12 is applied to the surface from a lower end to a predetermined height and an adiabatic layer 14 is adhered to the outer surface of the foamed concrete block 10 and the outer surface of the adiabatic layer 14 Characterized in that the galvanized steel plate body (18) is fixed to a predetermined height and the exterior finish coat layer (20) is sprayed on the outer surface of the heat insulating layer (14).

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