KR100760904B1 - A method of construction for reinforcement of building and fabric thereof - Google Patents

Abstract

A method for constructing a reinforcing material of a building and a reinforcing structure are provided to minimize the costs for maintenance and repair of the building. A method for constructing a reinforcing material of a building comprises the steps of: forming a first coating compound layer coated with the composite primer coating having at least flame retardant and water-proof properties and adhesiveness on a bottom(10) or a wall(11) of the building; laminating a ventilation sheet made of the fiber on the first coating compound; forming a second coating compound layer coated with paste-type composite resin coating having at least flame retardant and water-proof properties and adhesiveness on the ventilation sheet; forming a third coating compound layer coated with paste-type foamable composite resin mixed with silica and have at least at least flame retardant and water-proof properties and adhesiveness on the second coating compound; and forming a fourth coating compound layer coated with the composite resin coating to have at least at least flame retardant and water-proof properties and adhesiveness on the third coating compound.

Description

A method of construction for reinforcement of building and fabric

1 is a perspective view of a building structure in which the reinforcing material is constructed according to the first embodiment of the present invention.

2 is a perspective view of a building structure in which the reinforcing material is constructed according to the second embodiment of the present invention.

Figure 3 is a side cross-sectional view of the building structure reinforcement construction according to the second embodiment of the present invention.

4 is a cross-sectional view taken along the line A-A of FIG.

<Description of Symbols for Main Parts of Drawings>

10: bottom 11: wall

21: First coating agent 22: Second coating agent

23: third coating agent 24: fourth coating agent

30: pressing sheet 30 ': breathable sheet

40: vent plate

41: bulkhead 42: aeration

43: downward bent portion 45: bonding means

The present invention relates to a reinforcement construction method and a reinforcing structure of a building which can improve durability by preventing leakage and crack expansion through maintenance even if it is an old building with an increase in the service life of a new building.

Buildings such as multi-family houses, ordinary houses or shopping mall buildings are generally made of reinforced concrete structures. These reinforced concrete structures have various causes, such as changes in fatigue load and humidity due to repeated impacts over time after being constructed. May age or crack. In addition, a cement building may have a difference in shaking of a wall or floor due to an external impact, causing cracks.

As an example of building aging phenomenon, if the floor floor or wall shakes or impacts partly, cracks may occur at the boundary or weak part of the building. As it progresses, the size is expanded. If it is left as it is, the aging of the building is accelerated, which in turn threatens the safety, thereby accelerating the time for reconstruction, and thus there is a problem in that a lot of social costs are additionally charged.

In addition, when a conventional cement floor sea sand is constructed, the corrosion rate is high, and whitening phenomenon tends to occur under the influence of ultraviolet rays.

Conventional methods for repairing / repairing cracks in buildings include the most common methods, such as filling silicon cracks and repairing them, or by filling cement with cracks. Only fundamental measures such as reinforcement of the building, such as ultimately preventing cracks from progressing or improving durability, are still in place.

Accordingly, an object of the present invention for solving the above problems is to install a reinforcing structure in the case of new buildings to improve the durability to minimize the maintenance and maintenance costs required for the repair / repair, and also to In this case, by maintaining and repairing the crack to prevent further progress, it is possible to extend the service life of the product so that it can be lived safely in a comfortable state. To provide.

Reinforcement construction method of the building according to an aspect of the present invention for achieving the above object, in the case of a new building, synthetic primer primer (flame retardant, non-flammable, waterproof and adhesive) in the bottom and / or wall of the building Forming a first coating agent (21) layer coated thereon; A crimping sheet stacking step of attaching a crimping sheet 30 formed by weaving flame retardant and nonflammable fibers onto a mesh on the first coating agent 21 layer; Pressing and fixing the pressing sheet 30 more firmly by re-applying the first coating agent 21 on the pressing sheet 30; Forming a second coating agent (22) layer coated with a synthetic resin paint on a paste having flame retardancy, nonflammability, water resistance and moisture resistance on the compressed sheet 30; Forming a third coating agent (23) layer having a flame-retardant, non-flammable, waterproof, and insulating property on the second coating agent layer (22) and applying a foamable synthetic resin coating on a paste containing silica sand; And a fourth coating agent (24) layer forming step of applying a synthetic resin paint having a flame retardancy, non-flammability, elasticity, waterproofness and UV protection function on the third coating agent (23) layer, In the step of forming the first coating agent 21, the silicon filling operation to the crack portion is required.

Building reinforcing structure according to another aspect of the present invention, the first coating agent 21 is a synthetic primer primer having at least flame retardant, non-flammable, waterproof and adhesive to the bottom portion 10 and / or wall portion 11 ) Layer is formed, and the breathable sheet 30 'made of fibers is laminated on the first coating agent 21 layer, and the paste having at least flame retardancy, nonflammability, waterproofness and moisture resistance on the breathable sheet 30' layer. A second coating agent layer 22 is formed of a synthetic resin coating on the second coating agent, and a third coating agent which is at least a flame-retardant, non-flammable, waterproof and insulating material on the second coating agent layer 22, which is a foamed synthetic resin coating on a paste containing silica sand ( 23) a layer is formed, characterized in that the fourth coating agent 24 layer which is a synthetic resin coating having at least flame retardant, stretchable, waterproof and UV blocking function is formed on the third coating agent (23) layer.

A hollow ventilation plate 40 is interposed between the first coating agent 21 layer and the breathable sheet 30 'and the ventilation plate 40 is in contact with the bottom 10 and the wall 11, respectively. It is characterized in that it is bent in the form of 'b'.

Even in this case, in the case of the old building, silicon filling work to the crack portion is required before the first coating agent 21 forming step.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred construction method and reinforcing structure according to the present invention.

1 is a perspective view of a building structure in which a reinforcing material is constructed according to a first embodiment of the present invention, and with reference to FIG. 1, a construction method of the building reinforcing material of the present invention will be described.

As shown, the building reinforcement construction method of the present invention, the first coating agent to dry by applying a synthetic primer paint having at least flame retardant, non-flammable, waterproof and adhesive to the floor and / or wall of the building ( 21) layer forming step.

In the step of forming the first coating agent 21 layer, in the case of a new building, the first coating agent 21 may be immediately installed on the interlayer floor 10 and the wall part 11, and the floor part may be used to reinforce the building in use. If cracks have occurred in (10) or the wall portion 11, it is preferable to apply the first coating agent 21 prior to the work of filling the silicon in these crack portions.

The first coating agent 21 has a specific gravity of 1.05 to 1.15, a viscosity of 2800 to 3200 mPa.s, and an acidity of 6.5 to 7.5 pH, and the paint having such characteristics includes LH1 (model name) of the Japanese brand name ROHAS LOHAS. The second coating agent to the fourth coating agent to be described later may also include the model names LH2 to LH4 of the brand name LOHAS of Japan RV, but the present invention is not limited thereto, and is applied to other paints within the same and equivalent range. can do.

When applying the first coating agent 21 to the bottom portion 10 and / or the wall portion 11, it is possible to use a brush, a roller, a mortar gun or a spray, or any other tool or application means.

When the first coating agent 21 is touched by hand within 30 minutes, it does not get on the hand, and since it takes up to 60 minutes to completely cure, the drying time after application is within a range of about 10 to 60 minutes depending on the surrounding environment and season. It may be appropriately adjusted at, and the coating film thickness after drying is applied so as to be in the range of 15-30 μm.

The first coating agent 21 formed as described above is particularly adhesive and firmly adhered to the bottom 10 and / or the wall 11, and at the same time, water or moisture is prevented by the bottom 10 or the wall 11 due to the waterproof property. It blocks the infiltration into.

Next, the present invention includes a pressing sheet laminating step of attaching the pressing sheet 30 formed by weaving fibers onto the mesh on the first coating agent 21 layer.

The fiber constituting the crimping sheet 30 is a flame-retardant, non-flammable, adhesive material having a limited oxygen index (LOI) of 28 or more and is woven in a lattice form to form a large space therein, such as a net. It is pressed against one coating (21) layer.

Of course, the woven form can be changed in various ways, when the pressing sheet 30 is attached to the bottom portion 10 and the wall portion 11, the pressing sheet attached to the wall portion ( The uppermost part of the 30 is up to about 5 cm high from the bottom 10 so that the wall 11 and the bottom 10 are firmly attached to each other by the crimping sheet 30 so as to maintain mutual integrity and impact from the outside. In the case of receiving the building wall and the floor will be moved in unison with each other will not cause cracks.

Thereafter, by applying the first coating agent 21 on the pressing sheet 30 again, the pressing sheet 30 may be more firmly pressed and adhered to the previously applied first coating agent 21.

In addition, the second coating agent 22, which will be described later, may be directly applied onto the pressing sheet 30, and the present invention provides a paste having at least flame retardancy, nonflammability, waterproofness, and moisture resistance on the bonded pressing sheet 30. and forming a second coating agent (22) layer by applying the synthetic resin paint on the paste to dry it.

The second coating agent 22 has a specific gravity of 1.45 to 1.55, a viscosity of 8500 to 9500 mPa.s, an acidity of 7.0 to 8.0pH, and the paint having such characteristics may include LH2 (model name) of Japan RV Co., Ltd. The present invention is not limited thereto and can be applied to other paints within the same and equivalent range.

When applying the second coating agent 22 on the first coating agent 21 or the pressing sheet 30, a brush, a roller, a mortar gun or a spray, or any other tool or means may be used.

When the second coating agent 22 is touched by hand within 80 minutes, the second coating agent 22 does not adhere to the hand, and since it takes up to 120 minutes to completely cure, the drying time after application is within a range of about 60 to 120 minutes depending on the surrounding environment and season. What is necessary is just to adjust suitably, and after drying, the coating film thickness is apply | coated so that it may exist in the range of 120-300 micrometers.

The second coating agent layer 22 formed as described above is excellent in waterproofness and moisture resistance, thereby suppressing condensation of the bottom portion 10 and the wall portion 11, and having heat resistance and heat insulation, which prevents heat from being heated by heating means (piping) installed in the building. Even if it is added, the original state can be maintained with little change in physical properties, and the elongation is large so that no cracks or cracks occur.

Next, the present invention forms a third coating agent layer 23 having at least flame retardant, nonflammability, insulating property, and water resistance on the second coating agent layer 22, and coating and drying the foamed synthetic resin coating on a paste containing silica sand. Steps.

The third coating agent 23 has a specific gravity of 1.55 to 1.65, a viscosity of 11500 to 12500 mPa.s, and an acidity of 7.0 to 8.0pH. The paint having such characteristics may include LH3 (model name) of Japan RV Co., Ltd. The present invention is not limited thereto and can be applied to other paints within the same and equivalent range.

When applying the third coating agent 23 on the second coating agent 22, a brush, a roller, a mortar gun or a spray, or any other tool or means may be used.

When the third coating agent 23 is touched by hand within 80 minutes, it does not get on the hand, and since it takes up to 120 minutes to completely cure, the drying time after application is within a range of about 60 to 120 minutes depending on the surrounding environment and season. It may be appropriately adjusted at, and the coating film thickness after drying is applied so as to be in the range of 200 ~ 500㎛.

The third coating agent layer 22 formed as described above is foamed by incorporating silica sand and has high airtightness, preventing bacteria and air from passing through, and preventing neutralization of concrete forming the bottom part 10 or the wall part 11. Has the ability to extend.

Next, the present invention includes a step of forming a fourth coating agent (24) layer to dry by applying a synthetic resin coating having at least flame retardant, non-flammable, waterproof, stretchable and UV protection function on the third coating agent (23) layer. .

The fourth coating agent 24 has a specific gravity of 1.05 to 1.15, a viscosity of 800 to 1200 mPa.s, and an acidity of 6.5 to 7.5 pH, and a paint having such characteristics may include LH4 (model name) of Japan RV Corporation. The present invention is not limited thereto and can be applied to other paints within the same and equivalent range.

When the fourth coating agent 24 is applied onto the third coating agent 23, a brush, a roller, a mortar gun or a spray, or any other tool or means may be used.

If the fourth coating agent 24 is not touched by hand when touched within 30 minutes, the time required for complete curing is up to 60 minutes, so the drying time after application is within a range of about 10 to 60 minutes depending on the surrounding environment and season. What is necessary is just to adjust suitably, and after drying, the coating film thickness is apply | coated so that it may be in the range of 15-25micrometer.

The fourth coating agent 24 layer formed as described above is a thin elastic and highly elastic coating film, which is flexible and effectively blocks ultraviolet rays, thereby preventing the coating agent inside thereof from changing whitening of cement and other physical properties due to ultraviolet rays. .

The characteristics of each of the coating agents 21 to 24 exemplified above describe only a part of the intrinsic properties of each coating agent, and if at least a coating material including the intrinsic properties described above is constructed in the above-described order, it is equivalent to the present invention. It should be understood that it is in.

Next, a second embodiment of the present invention which has a breathable function will be described.

2 is a perspective view of a building structure in which a reinforcement material is constructed according to a second embodiment of the present invention, and FIG. 3 is a side cross-sectional view of a building structure in which a reinforcement material is constructed according to a second embodiment of the present invention, and FIG. It is sectional drawing which cut AA line.

2 and 3, the reinforcing structure of the building according to the second embodiment of the present invention, at least to the bottom portion 10 and / or wall portion 11 by the construction method of the first embodiment described above. A first coating agent 21 layer, which is a flame retardant, nonflammable, waterproof, and adhesive synthetic resin primer paint, is formed, and a breathable sheet 30 'made of fiber is laminated on the first coating agent 21 layer. A second coating agent layer 22 is formed on the breathable sheet 30 'layer, which is a synthetic resin coating material having at least flame retardancy, incombustibility, waterproofness and moisture resistance, and at least flame retardant on the second coating agent layer 22, A non-flammable, waterproof, and insulating material is formed, and a third coating agent layer 23, which is a foamable synthetic resin paint on a paste containing silica sand, is formed, and at least flame retardant, elasticity, waterproofness, and UV blocking function are provided on the third coating agent 23 layer. 4th coating, which is a synthetic resin paint Characterized in that (24) layer is formed.

The breathable sheet 30 ′ may be a nonflammable or flame retardant material made of the same material as that of the above-mentioned crimping sheet 30, and the air passage is formed by weaving more densely during weaving so that the coating agent does not penetrate between the fibers. It was made.

When the breathable sheet 30 'is installed, moisture formed in the bottom portion 10 evaporates to reach the upper portion of the wall portion 11 through the breathable sheet 30', thereby removing moisture in the bottom portion 10. . In addition, it has a function of discharging the air formed in the bottom (10).

Here, the characteristics and functions of the respective coatings 21 to 24 are as described above, and the breathable sheet 30 'may be denser than the pressing sheet 30 of the first embodiment, and the breathable sheet 30' In the case where the second coating agent 22 is applied on the sheet), moisture or air can be sufficiently flowed in a form in which the breathable sheet 30 'is detached between the first coating agent and the second coating agent, thereby providing a more dense network structure. The first coating agent 21 and the second coating agent 22 are attached to each other through.

Although not shown, the first coating agent 21, which is a primer coating agent for firm adhesion and fixing of the breathable sheet 30 ', as described above, between the breathable sheet 30' and the second coating agent layer 21, is described above. May be applied to further interpose.

As a more preferable form of the reinforcing structure according to the present invention, a ventilation plate 40 made of a metal such as aluminum and having a hollow inside is further disposed between the first coating agent 21 and the breathable sheet 30 '. May be interposed.

The vent plate 40 is preferably bent in a 'b' shape so as to be in contact with the bottom 10 and the wall 11, respectively, and the appropriate number in consideration of the area or environment of the building to be constructed ( At least one) can be selected and installed.

At this time, in order to allow the vent plate 40 to be firmly and hermetically attached to the wall part 11, the wall part is adhered to the wall part 11 with an adhesive means 45 such as silicon around the vent plate 40. The space between the 11 and the vent plate 40 can be sealed and airtightness can be maintained.

As shown in FIGS. 2 and 4, the vent plate 40 includes a plurality of partition walls 41 formed at a predetermined interval inside the hollow phase, and a plurality of vent channels 42 are disposed between adjacent partition walls 41. Wherein the direction of the aeration passage 42 extends from the bottom portion 10 to the wall portion 11 such that air in the breathable sheet 30 ′ formed on the bottom portion 10 flows into the aeration passage 42. By this, the wall 11 can be smoothly circulated.

On the other hand, the more preferable form of the vent plate 40, the upper end of the vent plate 40 attached to the wall portion 11 is bent inward as shown in Figs. By extending the downward bent portion 43 in the form to prevent foreign matter from entering the open portion of the vent plate 40 attached to the wall portion 11 when the air is circulated, wherein the downward bent portion 43 The height from the bottom of the bottom to the bottom 10 is to maintain about 5cm, similar to the installation height of the breathable sheet 30 'described above, of course, these values can be changed as needed without limitation.

In the above description, the first embodiment to which the crimping sheet 30 is applied and the breathable sheet 30 'and the vent plate 40 are applied to and separated from the second embodiment are provided for better understanding of the present invention. The sheet 30 ′ and the pressing sheet 30 may be selectively changed as necessary.

According to the reinforcing material construction method and reinforcing structure of the building of the present invention as described above, due to the water repellency and waterproofness, airtightness and UV protection function, it is possible to extend the durable life of the building by preventing the neutralization, whitening and aging of concrete.

In addition, when the apartment is installed in the parking lot, when the vehicle brake is operated in the parking lot, it is possible to prevent the noisy contact between the wheel and the floor, and silica sand is mixed in the third coating agent to prevent the slip.

In addition, the building reinforcing material blocks harmful components emitted from the building, antibacterial against static electricity and mites, antifouling and non-toxic, so it is environmentally friendly, such as preventing sickness syndrome such as sick house syndrome or atopy.

Moreover, the construction is simple and can be performed at low cost, and each coating agent, the crimped sheet and the breathable sheet woven onto the net are all flame retardant or non-flammable materials, so as to suppress the generation of toxic gas in case of accidental fire accident. It has an improved very advantageous effect.

Claims (11)

Forming a first coating agent (21) layer coated with a synthetic primer primer having at least flame retardancy, nonflammability, water resistance, and adhesion to the bottom and / or wall of the building; A breathing sheet stacking step of attaching a breathable sheet of fiber (30 ') on the first coating agent (21) layer; Forming a second coating agent (22) layer coated with a synthetic resin paint on a paste having at least flame retardancy, nonflammability, waterproofness, and moisture resistance on the breathable sheet (30 '); Forming a third coating agent (23) layer having at least flame retardancy, nonflammability, waterproofness, and insulating property on the second coating agent layer (22) and applying a foamable synthetic resin coating on a paste containing silica sand; Reinforcement construction of the building comprising the step of forming a fourth coating agent (23) layer coated with a synthetic resin coating having at least flame retardant, non-flammable, elastic, waterproof and UV-blocking function on the third coating agent (23) layer. Way. The method of claim 1, In place of the breathable sheet 30 ′ on the first coating agent 21 layer, a crimping sheet 30 formed by weaving a flame retardant, non-flammable and adhesive fiber into a mesh is attached to the first coating agent 21. After further coating to firmly press / fix the crimping sheet (30), and then the second coating agent 22 is applied to the construction of the building reinforcement, characterized in that the coating. The method of claim 1, The first coating agent 21 has a specific gravity of 1.05 to 1.15, a viscosity of 2800 to 3200 mPa.s, an acidity of 6.5 to 7.5pH, and a drying time of 10 to 60 minutes after application, and a thickness of 15 to 30 μm after drying. Construction method of reinforcement of building. The method of claim 1, The second coating agent 22 has a specific gravity of 1.45 to 1.55, a viscosity of 8500 to 9500 mPa.s, an acidity of 7.0 to 8.0pH, and a drying time of 60 to 120 minutes after application, and a film thickness of 120 to 300 μm after drying. Construction method of reinforcement of building. The method of claim 1, The third coating agent 23 has a specific gravity of 1.55 to 1.65, a viscosity of 11500 to 12500 mPa.s, an acidity of 7.0 to 8.0pH, and a drying time after coating is 60 to 120 minutes, and a thickness of the coating film after drying is 200 to 500 μm. Construction method of reinforcement of building. The method of claim 1, The fourth coating agent 24 has a specific gravity of 1.05 to 1.15, a viscosity of 800 to 1200 mPa.s, an acidity of 6.5 to 7.5pH, and a drying time of 10 to 60 minutes after application, and a thickness of 15 to 25 μm after drying. Construction method of reinforcement materials. In the reinforcement structure of the building, On the bottom portion 10 and / or the wall portion 11, a layer of the first coating agent 21, which is a synthetic primer primer having at least flame retardancy, nonflammability, waterproofness and adhesiveness, is formed, The breathable sheet 30 'made of fibers is laminated on the first coating agent 21 layer, On the layer of breathable sheet 30 ', a second coating agent layer 22 is formed, which is a synthetic resin coating on paste having at least flame retardancy, nonflammability, water resistance and moisture resistance. A third coating agent layer 23 is formed on the second coating agent layer 22, which is at least flame retardant, nonflammable, waterproof and insulating, and is a foamed synthetic resin paint on a paste in which silica is mixed. The reinforcing structure of the building, characterized in that the fourth coating agent (23) layer is formed on the third coating agent layer 23 is at least flame retardant, non-flammable, stretchable, waterproof and UV protection. The method of claim 7, wherein In place of the breathable sheet 30 'on the layer of the first coating agent 21, the sheet 30 for squeezing the flame retardant, nonflammable, waterproof, and adhesive fibers is woven into a mesh to attach the compressive sheet 30, and the first coating agent is applied. The coating is further applied to firmly compress / fix the pressing sheet 30, and then the second coating agent 22 is applied to the reinforcing structure of the building. The method of claim 7, wherein A hollow ventilation plate 40 is further interposed between the first coating agent 21 layer and the breathable sheet 30 ′, and the ventilation plate 40 is disposed at the bottom 10 and the wall 11. The reinforcing structure of a building, which is bent in a 'b' shape to be in contact with and is installed in at least one construction site. The method of claim 9, A plurality of partition walls 41 are formed at a predetermined interval inside the hollow phase of the vent plate 40, and a plurality of vent paths extending from the bottom part 10 to the wall part 11 between the adjacent partition walls 41 ( 42) reinforcing structure of a building, characterized in that formed. The method according to claim 9 or 10, Reinforcing structure of the building, characterized in that the upper end of the vent plate 40 attached to the wall portion 11 is bent inwardly downward downward bending portion 43 is extended again.

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