KR101442010B1 - Method of Constructing Eco-friendly Waterproof Repair in Rooftop Slab - Google Patents

Abstract

The present invention relates to a water resistance repair construction method capable of forming a rooftop water resistance layer containing a waterproof agent layer and a push mortar layer in the upper part of a rooftop slab of a concrete building, and preventing water leak and condensation caused by a crack generated in the rooftop water resistance layer with the rooftop slab. According to the present invention, the water resistance repair construction method comprises: a step for forming an urethane injecting hole by punching the lower part of the push mortar layer to have the diameter of 5-15 mm in order to form a hole from the outside to the empty space generated by shrinking-swelling of the push mortar layer; a step for forcibly injecting an elastic foam urethane waterproof agent mechanically into the crack formed in the empty space, the rooftop slab, and the rooftop water resistance layer through the urethane injecting hole, and for forming foam by hardening and expanding at a high speed by immediately absorbing water when the elastic foam urethane waterproof agent is in contact with the water penetrated into the empty space and the crack; and a step for coating the upper part of the push mortar layer with the elastic foam urethane waterproof agent within minutes without a separate drying step after the elastic foam urethane waterproof agent is injected. A double-reinforced water resistance layer is formed by using the rooftop water resistance layer pre-constructed for water resistance without demolition of the rooftop water resistance layer.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a roof-

More particularly, the present invention relates to a waterproof repairing method for an environmentally friendly waterproofing of a roof slab, and more particularly, to a waterproof repairing method for a roof slab, As soon as the water penetrating into the voids (A1) and the cracks (C1) and the elastic foamed urethane waterproofing agent meet, the water is absorbed to rapidly fill the space (A1) and the crack (C1) It is possible to reduce the construction cost by 40% since it is possible to form a waterproof layer doubly reinforced by using the conventional roof waterproof layer as it is without demolishing the conventional roof waterproof layer, and the construction time of the elastic foamed urethane waterproofing agent is not required, 30% reduction, as well as providing excellent waterproof stability and eco-friendly waterproof repair and construction of roof slabs without construction waste It relates.

Generally, most buildings such as buildings, apartments, shops and the like are being constructed of concrete, and concrete used for concrete structures constructed in Korea is a shrinkable Portland series. Since shrinkable Portland cement-type concrete is accompanied by shrinkage at the time of curing, the longer the curing time, the stronger the weathering and the longer the lifetime becomes. However, the curing time is inevitably shortened for the purpose of quick construction, Cracking occurs 100% due to rapid shrinkage. For reference, the complete curing of shrinkable Portland-based concrete takes about one year.

In this shrinkable Portland-based concrete structure constructed with a short curing time for rapid construction, leakage and condensation due to cracks necessarily occur.

Conventionally, waterproofing work is also carried out when the concrete building 5 is expanded and contracted. In the conventional waterproofing method, a waterproofing agent is directly applied to the surface of the concrete building 5 and the protective wall is spaced apart from the surface of the concrete building 5 Or a roof waterproofing layer 53 including a waterproofing agent layer 531, a heat insulating waterproofing agent layer 532 and a pressing mortar layer 533 is formed or a waterproofing roof is formed by using an asphalt single .

1, the roof waterproof layer 53 in close contact with the surface of the concrete building 5 has a crack C (crack) of the roof slab 50b and the pressing mortar layer 533, which are generated at the time of rapid curing, The cracks C are generated in the entire roof waterproof layer 53 of the roof waterproof layer 53 and the pressing mortar layer 533 is repelled and adhered to the waterproofing agent layer 531 and the heat insulating waterproofing agent layer 532 The water introduced due to the inherent moisture and the crack C repeatedly shrinks and expands due to the external weather to form an empty space A under the pressed mortar layer 533 and the risk of sinking and leakage and condensation are serious .

In order to repair the roof waterproofing layer 53 in which the cracks C and the voids A are generated, the conventional roof waterproofing layer 53 is removed and removed to remove the cracks C of the roof slab 50b of the concrete building 5 The roof waterproofing layer 53 is cured and the crack C and the void space A are renewed again while the roof waterproofing layer 53 is cured. Leakage and dew condensation recur, and the removed roof waterproof layer 53 is scattered and becomes a building waste as it is, which adversely affects the environment.

Recently, various waterproofing methods have been disclosed in order to solve these problems. However, there has been no proper method for suppressing the generation of scattering and building waste, and a construction method of repairing the roof waterproof layer 53 as it is is being studied, (C) of the slab (10b) and the roof waterproofing layer (21) are not properly filled, and waterproof stability is low due to leakage of water and condensation in the repaired waterproof layer

Korean Patent No. 10-0537958

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a waterproof layer, The present invention provides a waterproof repair and construction method of a roof slab in which construction cost is reduced by 40%, construction period is shortened by 30%, excellent waterproof stability is provided, and roof slab is free from construction waste.

To achieve the above object, according to the present invention, a roof waterproof layer including a waterproofing layer and a pressing mortar layer is formed on an upper part of a roof slab of a concrete building, and a roof waterproofing layer is formed on the roof slab to prevent leakage and condensation In the waterproof repair and construction method, the press mortar layer (213) is punched to have a diameter ranging from 5 to 15 mm so as to penetrate through the void space (A1) generated due to shrinkage and expansion of the pressing mortar layer (213) Forming a urethane injection hole 22 (S100); The elastic foamed urethane waterproofing agent 23 is mechanically injected through the urethane injection hole 22 into the void space A1, the roof slab 10b and the crack C1 formed on the roof waterproof layer 21, (S110) of absorbing water immediately after the water penetrating into the hollow space (A1) and the crack (C1) and the elastic foamed urethane waterproofing agent (23) meet to form a foam while rapidly curing and expanding; (S 120) of applying an elastic urethane waterproofing agent (24) to the upper portion of the pressing mortar layer (213) within a few minutes after the injection of the elastic foamed urethane waterproofing agent (23) The present invention provides an environmentally friendly waterproof repairing and installing method for a roof slab, which is characterized in that a waterproof layer reinforced by a doubly reinforced waterproof layer is used without being demolished.

In the eco-friendly waterproofing repairing and installing method of the roof slab, it is preferable that the step (S110) of forcibly injecting the elastic foamed urethane waterproofing agent (23) is performed at a pressure in the range of 20 to 60 kg / cm.

Further, in the eco-friendly waterproof repairing and installing method of the roof slab, it is preferable that the step (S100) of forming the urethane injection hole 22 is formed to have a length in the range of 100 to 200 mm.

In the eco-friendly waterproofing repairing and installing method of the roof slab, the step (S120) of applying the elastic urethane waterproofing agent (24) includes a lower layer (24a) for applying a coating waterproofing agent layer, a middle layer A top coat layer 24b forming a coating layer, and a top coat layer 24c forming a coating layer.

The effects of the present invention are as follows. In order to prevent water leakage and condensation caused by cracks on the roof slab of the concrete building, repair the waterproofing layer and inject the elastic foamed urethane waterproofing agent into the empty space (A1) and the crack (C1) A1) and the crack (C1) and the elastic foam Urethane waterproofing agent, the water is absorbed as soon as it meets, and the foam is formed while expanding and hardening at a high speed. Thus, the conventional roof waterproofing layer is doubled It is possible to reduce the construction cost by 40%, and it is possible to shorten the construction period by 30% by eliminating the need for the separate drying time of the elastomeric foamed urethane waterproofing agent, and also to provide excellent waterproof stability, It is possible to provide an environmentally friendly waterproof repairing and installing method of roof slabs.

FIG. 1 is a schematic view showing leakage of water from a roof slab and a roof waterproof layer of a conventional concrete building
2 is a schematic view showing a waterproof construction on a roof slab and a roof waterproof layer of a concrete building according to the present invention
FIG. 3 is a schematic view showing a waterproof construction on a roof slab and a roof waterproof layer (including an insulating waterproof layer) of a concrete building according to the present invention

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

Hereinafter, the present invention will be described in detail with reference to preferred embodiments. It is to be understood, however, that the embodiments are illustrative of the invention in order that the invention may be better understood, and that the terms or words used should not be construed in a conventional or dictionary sense, It should be understood that the present invention should not be construed as being limited to the meanings and concepts consistent with the technical idea of the present invention based on the principle that the concept of the term can be appropriately defined in order to explain it by a method.

The first embodiment of the present invention is a method of waterproofing and repairing water leakage and condensation caused by cracks generated in the roof slab 10b and the roof waterproofing layer 21 of the concrete building 1 .

The roof waterproofing layer 21 formed on the roof slab 10b of the concrete building 1 has a waterproofing layer 211 and a pressing mortar layer 213 sequentially laminated from the roof slab 10b.

The waterproofing agent layer 211 is formed of a waterproofing agent, a non-exposed sheet or an asphalt waterproofing agent, and is adhered to and adhered to the surface of the roof slab 10b using an adhesive material such as a primer, 213) is similar to ordinary mortar but it is applied by increasing the waterproof effect by pressing it several times so as not to have crack (C1) after construction.

The rooftop waterproof layer 21 thus constructed is cracked together with the roof when the cracks C1 of the roof slab 10b and the pressing mortar layer 213 as the concrete building 1 are dried, Leaks and condensation are generated in the upper part.

However, the pressing mortar layer 213 formed on the waterproofing layer 211 does not have only the crack C1, but the water introduced through the crack C1 is mixed with the oily waterproofing agent layer 211 and the water- (Aqueous) pushing mortar layer 213 and absorbed by the pushing mortar layer 213, the pushing mortar layer 213 repeatedly expands and shrinks due to the influence of the external temperature to generate the void space A1 inside .

In order to repair the roof slab 10b and the roof waterproofing layer 21 in which the cracks C1 and the voids A1 have been generated, the operator firstly places the press mortar layer 213 under the influence of external temperature and leakage The urethane injection hole 22 is formed so that the pushing mortar layer 213 is pierced through from the outside to the empty space A1 generated by repeating shrinkage and expansion (S100).

The urethane injection hole 22 may be formed as large as possible, but it is effective to drill the urethane injection hole 22 to have a diameter ranging from 5 to 15 mm. The urethane injection hole 22 is preferably punched to have a length of 100 to 200 mm since the pressing mortar layer 213 is usually applied in a length of 100 to 200 mm.

The tool used in the drilling is not limited because it can be selected from widely used ones.

Next, the elastomeric foamed urethane waterproofing agent 23 is mechanically injected into the void space A1 at a pressure ranging from 20 to 60 kg / cm through the urethane injection hole 22 (S110)

At this time, the fully foamed elastic foamed urethane waterproofing agent 23 fills the void space A1 and the cracks C1 formed on the roof slab 10b and the waterproofing agent layer 211 are formed together to form a first waterproof layer do.

If the pressing mortar layer 213 is removed and then re-worked according to the conventional method, the newly-installed pressing mortar layer 213 generates cracks C1 during curing and the water content inherent in the pressing mortar layer 213 The cracks C1 and the voids A1 are produced while being subjected to expansion and contraction under the influence of the external temperature, so that the same leakage and condensation occur again.

However, in the waterproofing repairing method of the present invention in which the pressing mortar layer 213 is removed without repairing after removing the pressing mortar layer 213, since the pressed mortar layer 213 has already undergone the expansion and contraction, (C 1) while absorbing moisture, it is more excellent in waterproof stability.

At this time, the elastic foamed urethane waterproofing agent 23 absorbs water as soon as it encounters the water in the crack C1 to form a foam at a high speed while expanding. It is advantageous for repairing the crack C1 in which water exists .

Next, an elastic urethane waterproofing agent (24) is applied to the upper portion of the pressing mortar layer (213) to form a second waterproof layer (S120). The elastic urethane waterproofing agent 24 includes an undercoat layer 24a for applying a layer of a coating waterproofing agent called a primer, a middle layer 24b for applying elastic urethane, a top coat layer 24b for forming a coating layer, Layer 24c.

In the first embodiment of the present invention, the application of the elastic urethane waterproofing agent 24 proceeds immediately without drying the injected elastic foamed urethane waterproofing agent 23 because the injected elastic urethane waterproofing agent 24 is gradually It is required to be dried to provide a harder and denser structure to improve the waterproof stability.

Hydrophobic rigid foram type hydrophobic urethane foam expanding agent may be used as the elastic foamed urethane waterproofing agent (23).

Therefore, in the first embodiment of the present invention, the roof waterproofing layer 21 already installed is removed, the roof slab 10b is filled again, and the roof waterproofing layer 21 is not reworked, And the environmentally friendly advantage of not generating construction waste.

3, in order to increase the heat insulating efficiency between the waterproofing layer 211 and the pressing mortar layer 213, a plate-shaped heat insulating material such as a polyethylene-based material, a polystyrene-based material or a urethane- The waterproofing agent layer 212 may be formed.

The rooftop waterproof layer 21 thus constructed is cracked together with the roof when the cracks C1 of the roof slab 10b and the pressing mortar layer 213 as the concrete building 1 are dried, Leaks and condensation are generated in the upper part.

However, the pressing mortar layer 213 formed on the heat insulating waterproofing layer 212 does not generate only the cracks C1, but the water introduced through the cracks C1 has an oily waterproofing agent layer 211 And is absorbed by the pushing mortar layer 213 while the pushing mortar layer 213 repeats expansion and contraction due to the influence of the external temperature to generate the void space A1 on the inner side .

In order to repair the roof slab 10b and the roof waterproofing layer 21 in which the cracks C1 and the voids A1 have been generated, the operator firstly places the press mortar layer 213 under the influence of external temperature and leakage The urethane injection hole 22 is formed so that the pushing mortar layer 213 is pierced through from the outside to the empty space A1 generated by repeating shrinkage and expansion (S100).

The urethane injection hole 22 may be formed as large as possible, but it is effective to drill the urethane injection hole 22 to have a diameter ranging from 5 to 15 mm. The urethane injection hole 22 is preferably punched to have a length of 100 to 200 mm since the pressing mortar layer 213 is usually applied in a length of 100 to 200 mm.

The tool used in the drilling is not limited because it can be selected from widely used ones.

Next, the elastomeric foamed urethane waterproofing agent 23 is mechanically injected into the void space A1 at a pressure ranging from 20 to 60 kg / cm through the urethane injection hole 22 (S110)

At this time, the fully foamed elastic foamed urethane waterproofing agent 23 fills the void space A1 and the cracks C1 formed on the roof slab 10b and the waterproofing agent layer 211 are formed together to form a first waterproof layer do.

If the pressing mortar layer 213 is removed and then re-worked according to the conventional method, the newly-installed pressing mortar layer 213 generates cracks C1 during curing and the water content inherent in the pressing mortar layer 213 The cracks C1 and the voids A1 are produced while being subjected to expansion and contraction under the influence of the external temperature, so that the same leakage and condensation occur again.

However, in the waterproofing repairing method of the present invention in which the pressing mortar layer 213 is removed without repairing after removing the pressing mortar layer 213, since the pressed mortar layer 213 has already undergone the expansion and contraction, (C 1) while absorbing moisture, it is more excellent in waterproof stability.

At this time, the elastic foamed urethane waterproofing agent 23 absorbs water as soon as it encounters the water in the crack C1 to form a foam at a high speed while expanding. It is advantageous for repairing the crack C1 in which water exists .

Next, an elastic urethane waterproofing agent (24) is applied to the upper portion of the pressing mortar layer (213) to form a second waterproof layer (S120). The elastic urethane waterproofing agent 24 includes an undercoat layer 24a for applying a layer of a coating waterproofing agent called a primer, a middle layer 24b for applying elastic urethane, a top coat layer 24b for forming a coating layer, Layer 24c.

In the second embodiment of the present invention, the application of the elastomeric urethane waterproofing agent 24 proceeds immediately without drying the injected elastic foamed urethane waterproofing agent 23 because the injected elastic foamed urethane waterproofing agent 23 It should be dried slowly, because it has a harder and denser structure and improved waterproof stability.

Hydrophobic rigid foram type hydrophobic urethane foam expanding agent may be used as the elastic foamed urethane waterproofing agent (23).

Therefore, in the second embodiment of the present invention, the roof waterproofing layer 21 already installed is removed, the roof slab 10b is again filled with cracks, and the roof waterproofing layer 21 is not reworked, And the environmentally friendly advantage of not generating construction waste.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, You can understand that you can.

For example, a person skilled in the art can change the material, size and the like of each constituent element depending on the application field or can combine or substitute the embodiments in a form not clearly disclosed in the embodiments of the present invention, Of the range.

Therefore, it should be understood that the above-described embodiments are only illustrative in all aspects and should not be construed as limiting the scope of the invention, and such modified embodiments are included in the technical idea described in the claims of the present invention.

1: Concrete E Building 10b: Rooftop slab
21: roof waterproof layer 211: coating film waterproofing layer
212: Adiabatic waterproofing layer 213: Nurture layer
22: Urethane injection hole 23: Elastic type foamed urethane waterproofing agent
24: elastomeric urethane waterproofing agent
24a: lower layer 24b: middle layer
24c: upper layer A1: empty space
C1: Crack
S100: injection hole forming step
S110: Filling step of elastomeric foamed urethane waterproofing agent
S120: Application step of elastomeric urethane waterproofing agent

Claims (4)

A waterproofing repairing method for preventing leakage and condensation due to cracks generated in a roof waterproof layer together with the roof slab, wherein a roof waterproof layer including a waterproofing layer and a pressing mortar layer is formed on a roof slab of a concrete building,
The Urethane injection hole 22 is drilled so as to have a diameter ranging from 5 to 15 mm so as to be passed through from the outside to the empty space A1 generated by the expansion and contraction of the pressing mortar layer 213 under the pressing mortar layer 213, (S100);
The elastic foamed urethane waterproofing agent 23 is mechanically injected through the urethane injection hole 22 into the void space A1, the roof slab 10b and the crack C1 formed on the roof waterproof layer 21, (S110) of absorbing water immediately after the water penetrating into the hollow space (A1) and the crack (C1) and the elastic foamed urethane waterproofing agent (23) meet to form a foam while rapidly curing and expanding;
(S120) applying an elastic urethane waterproofing agent (24) to the upper portion of the pushing mortar layer (213) within a few minutes after the injection of the elastic foamed urethane waterproofing agent (23) within a few minutes without additional drying process;
The roof waterproof layer, which is used for waterproofing, is used without being demolished to form a doubly reinforced waterproof layer,
The step of injecting the elastomeric foamed urethane waterproofing agent 23 is performed at a pressure in the range of 20 to 60 Kg / cnf, the urethane injection hole 22 is formed in a length of 100 to 200 mm, Step S120 of applying the elastomeric urethane waterproofing agent 24 includes a primer layer 24a for applying a coating film waterproofing agent layer, a middle layer 24b for applying elastic urethane, and a top coat layer 24c for forming a coating layer Wherein the roof slab is applied to the roof slab. delete delete delete

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