KR101869376B1 - Waterproofing composition for bridge surface and dual composite waterproofing method using the waterproofing composition for bridge surface - Google Patents

Abstract

The present invention relates to a waterproof composition for a bridge deck that prevents the bridge deck from being corroded or settled due to rainwater, by preventing the bridge deck of a road or a bridge from absorbing the rainwater, and a double-layered waterproofing method using the same. The method includes the steps of: removing alien substances from the bridge deck and cutting a protruding portion; applying a primer on the bridge deck to form a primer layer; installing a heat drying device on the primer layer to dry rainwater; disposing a flame retardant sheet on the heat drying device; disposing non-woven fabric on the flame retardant sheet; disposing a bridge deck waterproof sheet on the non-woven fabric; and paving asphalt concrete on the bridge deck waterproof sheet to form an asphalt concrete layer. Since the primer layer, the flame retardant sheet, the non-woven fabric, and the bridge deck waterproof sheet are sequentially deposited on the bridge deck, water tightness is maintained to prevent the rainwater from penetrating in case of rain. Since the heat drying device for generating hot blast is further installed between the primer layer and the flame retardant sheet, the rainwater permeating through cracks of the asphalt concrete layer and the bridge deck waterproof sheet, thereby solving problems of corrosion or settling caused by the rainwater.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a double composite waterproofing method using a composite waterproofing composition and a waterproofing composition,

The present invention relates to a dual composite waterproofing method using a cross-linked waterproofing composition, and more particularly, to a cross-linked waterproofing composition for preventing corrosion or settlement caused by rainwater and a double composite waterproofing method using the cross-linked waterproofing composition.

Generally, bridges are bridged by cracks caused by physical and chemical deterioration such as penetration of storm and accumulation of vehicle load, moisture penetrates and steel rods are corroded and the bonding force between concrete materials is deteriorated. Deterioration due to repetition of freezing and thawing action and accelerating the corrosion of reinforcing bars due to chloride penetration of snow removers not only deteriorates the durability and lifespan of the bridges but also affects safety problems.

Therefore, the construction of bridges and overpasses should be completely watertight. Waterproofing method and rubberized asphalt method are widely used as commonly used bridge waterproofing methods. As a method for waterproofing a coating film, as described in Korean Patent Application No. 10-2004-0074580, an aqueous or oily liquid waterproofing agent is applied to the surface of a sphere with a roller, a spray or a brush to evaporate water or solvent to form a film By installing a waterproof sheet thereon, it is easy to construct with complicated structure with a great degree of bending. However, some coating materials used in the waterproofing method of the coating film are poor in adhesion with the upper ascon layer and evaporation of water or solvent after coating may cause problems such as air delay, construction problems, pinhole phenomenon and thickness defect .

In addition, the rubberized asphalt method is preformed in the form of a sheet using a main reinforcing material and rubberized asphalt as a main material, and a problem of insufficient water tightness of the joints between the adjacent sheets is a problem. To prevent this, the joint is heated by a torch The physical properties of the rubberized asphalt are changed at the time of heat fusion and the water leakage due to lack of adhesion between the sheet and the concrete structure flows to the waterproof layer below the waterproofing layer to cause waterproofing at the vulnerable portion of the concrete structure.

In addition, there is a problem that the infiltrated rainwater is dried for a long time, and serious problems such as settlement of soil due to infiltrated rainwater or corrosion of reinforcing steel or concrete are caused.

The above-mentioned invention means the background art of the technical field to which the present invention belongs, and does not mean the prior art.

SUMMARY OF THE INVENTION The present invention has been conceived to solve the above-mentioned problems of the prior art. It is an object of the present invention to provide a waterproofing sheet for a waterproofing sheet, which comprises a primer layer, a flame retardant sheet, There is provided a dual composite waterproofing method using a cross-linked waterproofing composition which is further provided with a heat drying device between a layer and a flame retardant sheet to dry rainwater infiltrated by rainfall or cracking to prevent corrosion or settlement caused by rainwater .

In order to achieve the above object,

It is a dual composite waterproofing method that prevents rainwater from being absorbed through the bridge or bridges.

A preliminary preparation step of removing a foreign matter of the cross-section and cutting the protruded part to keep it flat;

A primer layer forming step of forming a primer layer by applying a primer to the bridge surface;

Installing a heat drying device on the primer layer to dry the rainwater;

Placing a flame retardant sheet while covering an upper portion of the heating and drying apparatus;

Disposing a nonwoven fabric on the flame-retardant sheet;

A cross-linked waterproof sheet placing step of placing a cross-linked waterproof sheet on the nonwoven fabric; And

And an ascon layer forming step of forming an ascon layer by laying an ascon on an upper portion of the cross-face waterproof sheet.

In one embodiment of the present invention, the heat-generating and drying apparatus includes a heat-generating housing having a heat-generating space therein and having a ventilation hole communicating with the heat-

Heat-generating tubes disposed through the heat-generating housing and formed with hot air nozzles,

Supporting columns arranged in the heat generating space,

A sensing sensor disposed at an upper portion of the heat generating housing for sensing rainwater,

And a hot air fan that receives the signal of the sensor and supplies hot air to the heat engine tubes.

At this time, an expansion groove may be formed in the upper surface of the heat-generating housing, and the air vent may be formed in the lower portion of the expansion groove.

In addition, an emergency urging device is further installed in the heat generating housing,

Wherein the emergency pressure device comprises a drive motor provided inside the heat generating housing and driven by receiving a signal from the detection sensor,

And an extruding fan installed on a driving shaft of the driving motor.

In one embodiment of the present invention, the cross-linked waterproofing sheet is formed of a cross-linked waterproofing composition, wherein the cross-linked waterproofing composition comprises 10 to 40% by weight of carbon powder, 30 to 60% by weight of butyl rubber, 0.1 to 5% , 1 to 20% by weight of an additive and 1 to 5% by weight of a curing agent.

In the dual composite waterproofing method using the waterproofing composition of the present invention, the primer layer, the flame retardant sheet, the nonwoven fabric and the waterproofing sheet of cross-linked waterproofing sheet are successively applied to waterproof the cross- So that rainwater infiltrated by rainfall or cracks is dried to prevent corrosion or settlement caused by rainwater.

FIG. 1 is a flowchart showing a dual complex waterproofing method according to the present invention.
2 is a cross-sectional view illustrating a double composite waterproofing method according to the present invention.
FIG. 3 is a view illustrating an operation process of a dual complex waterproofing method according to the present invention.
FIG. 4 is a view showing a heat-generating and drying apparatus in the double composite waterproofing method according to the present invention.
5 is a view showing another embodiment of the double composite waterproofing method according to the present invention.
FIG. 6 is a view showing still another embodiment of the double composite waterproofing method according to the present invention.
FIG. 7 is a view showing another embodiment of the double composite waterproofing method according to the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, preferred embodiments of a double composite waterproofing method using a cross-linked waterproofing composition according to the present invention will be described with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

In addition, the following embodiments are not intended to limit the scope of the present invention, but merely as an example, and various embodiments may be implemented through the present invention.

As shown in the drawing, a dual composite waterproofing method 10 (hereinafter referred to as a double composite waterproofing method) using a waterproofing composition for a bridge according to the present invention is characterized in that rainwater passes through a bridge 200 of a road or a bridge 100 The double composite waterproofing method is a double composite waterproofing method in which waterproofing is carried out to prevent water absorption so that the water is prevented from being absorbed. S4, a placement step of arranging the adhesive cloth, a step S6 of arranging a cross-face waterproof sheet, and a step S7 of forming an ascon layer.

The preliminary preparation step (S1) is a step of removing the foreign matter of the bridge face (200) and cutting the protruded part to keep it flat.

In the preliminary preparation step (S1), it is preferable that water is sprayed onto the cross-face 200 and suction is performed through a vacuum pump to remove foreign matter and then dried.

In the process of spraying the water on the face 200, it is preferable to sweep the face 200 with a brush to remove foreign substances sticking to the face 200.

The step of forming the primer layer (S2) is a step of forming a primer layer 10 by applying a primer to the cross-section 200.

The primer described above is applied to the upper part of the first cross face 200 at a predetermined thickness in order to increase the corrosion resistance and adhesion when the road is packed and to improve the bonding force with the cross face waterproof sheet 50 by forming the upper face flatly. Followed by curing.

The heat generating and drying means installing step S3 senses rainwater penetrating through the cross-face waterproof sheet 50 and drying the rainwater. The heat drying apparatus 20 is installed on the primer layer 10, Thereby allowing the rainwater to be dried.

The heating and drying device 20 includes a rectangular heating housing 21 formed of a metal material and having a heat generating space 211 inside and having a ventilation hole 212 communicating with the heat generating space 211 on an upper panel, A heat pipe 22 having a tubular structure disposed through the heat generating housing 21 and formed with hot air nozzles 221, support pillars 23 disposed in the heat generating space 211, And a hot air blower 25 for receiving a signal of the sensing sensor 24 and supplying hot air to the heat pipes 22 from the outside.

It is preferable that an anchor bolt is formed on the bridge face 200 and the heat generating housing 21 is fastened to the anchor bolt to fix the heat generating housing 21. In this case, It is possible.

The hot air nozzle 221 is formed in the heat pipe 22 disposed inside the heat generating housing 21 and the heat pipe 22 is arranged to pass through the heat generating housing 21.

The heat pipe 22 is connected to both ends of the heat exchanger 25 so as to circulate the hot air. The heat pipe 22 is connected to the heat exchanger 25 and the other end of the heat pipe 22 is exposed to the outside And it is preferable to further tighten the sealing lid at the other end.

The sensing sensor 24 is disposed on the upper side of the flame retardant sheet 30 and detects the rainwater absorbed by the rainwater when the rainwater absorbs the rainwater and transmits the sensed rainwater to the hot air blower 25 to be supplied through the hot air nozzle 221 The heating housing 21 is heated by hot air and hot air is blown through the air holes 212 to dry the rainwater absorbed in the nonwoven fabric 40. [

At this time, the detection sensor 24 is disposed on the upper part of the cross-face waterproof sheet 50. When the rainwater of the cross-face waterproof sheet 50 is sensed, the detection sensor 24 generates heat of the heat- (50) is heated to dry the rainwater.

It is preferable that the heat generating housing 21 is disposed at a predetermined interval on the bridge 200 and a concrete layer is formed between the heat generating housings 21.

The vent hole 212 may be formed on the entire outer surface of the heat-generating housing 21.

The step of arranging the flame-retardant sheet (S4) is a step of disposing the flame retardant sheet (30) while covering the upper portion of the heat-generating and drying apparatus (20).

Any of the sheets which do not burn by heating the flame-retardant sheet 30 may be used, and it is preferable to adhere and fix the sheet on the upper portion of the heat-generating and drying apparatus 20.

The nonwoven fabric 40 is disposed on the upper portion of the flame retardant sheet 30 to absorb the permeated water and the heat generated in the heating and drying apparatus 20 is transferred to the nonwoven fabric 40 Thereby drying the absorbed rainwater.

At this time, the nonwoven fabric 40 receives the heat of the heating and drying apparatus 20 by the flame retardant sheet 30, and the nonwoven fabric 40 and the heating and drying apparatus 20 are disposed in contact with each other, .

The nonwoven fabric arranging step S5 is a step of disposing the nonwoven fabric 40 on the flame retardant sheet 30.

The nonwoven fabric 40 is formed in the form of a sheet and disposed on the flame retardant sheet 30, and an adhesive paint is applied to the upper portion of the flame retardant sheet 30 and then fixed to each other.

The nonwoven fabric 40 prevents the inflow of rainwater from being absorbed and moving to the lower portion.

The cross-linked waterproof sheet placement step S6 is a step of disposing a cross-face waterproof sheet 50 made of a synthetic resin material which is disposed on the nonwoven fabric 40 and blocks rainwater from penetrating the bridge face 200.

The cross-linked waterproof sheet 50 may cover the nonwoven fabric 40 and may be coated with an adhesive paint on the nonwoven fabric 40. The cross-linked waterproof sheet 50 may be attached to the nonwoven fabric 40, It is also possible to apply the primer to the upper part of the primer layer 10 and to attach the cross-linked waterproof sheet 50 to the upper part of the primer layer 10.

The cross-linked waterproofing agent composition for forming the cross-linked waterproof sheet 50 may comprise 10 to 40 wt% of carbon powder, 30 to 60 wt% of butyl rubber, 0.1 to 5 wt% of a plasticizer, 1 to 20 wt% of an additive, More specifically, it may be composed of 25% by weight of carbon powder, 55% by weight of butyl rubber, 2% by weight of a plasticizer, 15% by weight of an additive and 3% by weight of a curing agent , Such a cross-linked waterproofing composition may be formed into a gel, applied and cured to form a cross-linked waterproofing sheet.

More specifically, the carbon powder, the butyl rubber, the plasticizer, the additive and the curing agent are mixed and heated to form a mixture in a molten state and then applied. Alternatively, the additive is replaced with a gelling agent, mixed and gelled It is also possible to apply it.

The ascon layer forming step S7 is a step of forming an ascon layer 60 on the upper surface of the cross-linked waterproof sheet 50 to form an ascon layer.

At this time, the upper nonwoven fabric 40 may be further disposed on the upper surface of the cross-linked waterproof sheet 50 to allow the nonwoven fabric 40 to absorb rainwater.

6, an expansion groove 213 is formed in the upper surface of the heat generating housing 21 and the vent hole 212 is formed in the lower portion of the expansion groove 213, Since the diameter of the expansion groove 213 is larger than the diameter of the expansion groove 213, the area of contact with the flame retardant sheet 30 is increased so that the flame retardant sheet 30 is uniformly heated, To the nonwoven fabric (40).

7, the emergency heating device 21 is further provided with an emergency pressure device 26. The emergency pressure device is provided inside the heat-generating housing 21 and transmits a signal of the detection sensor 24 A driving motor 261 driven and driven by the driving motor 261 and an extruding fan 262 installed on the driving shaft of the driving motor 261. The driving motor 261 drives the hot air through the air hole 212 It is possible to dry the rainwater which has been injected in a large amount when it is blown up, faster than the hot air blown into the vent hole 212 through the hot air nozzle 221.

The double composite waterproofing method using the crosslinked waterproofing composition according to the present invention has been described in detail with reference to the drawings.

In the dual composite waterproofing method using the crosslinked waterproofing composition according to the present invention, the primer layer, the flame retardant sheet, the nonwoven fabric, and the cross-linked waterproof sheet are sequentially attached to or laminated on the bridging surface to maintain watertightness so that rainwater can not penetrate during rain, A heat generating and drying device for generating heat by the hot air is further provided between the primer layer and the flame retardant sheet to dry the rainwater infiltrated by the cracks of the rainfall or the ascon layer and the waterproofing sheet of the cross face waterproof sheet to prevent corrosion or sinking The problem does not occur.

It will be apparent to those skilled in the art that various modifications and equivalent arrangements may be made therein without departing from the scope of the present invention as defined by the appended claims and their equivalents. . Therefore, it is to be understood that the present invention is not limited to the above-described embodiments. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims. It is also to be understood that the invention includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

10: primer layer 20: heating dryer
30: Flame retardant sheet 40: Nonwoven fabric
50: Cross-face waterproof sheet 60: Ascon layer
21: heat generating housing 211: heat generating space
212: vent hole 213: extended groove
22: the heat engine
221: hot air nozzle 23: support column
24: detection sensor 25:
26: emergency urging device 261: drive motor
262: Extruding fan
100: bridge 200: bridge
S1: preliminary preparation step S2: primer layer formation step
S3: Installing the heat generating and drying means S4: Placing the flame retardant sheet
S5: Nonwoven fabric disposing step S6: Cross-face waterproof sheet disposing step
S7: Ascon layer formation step

Claims (5)

It is a dual composite waterproofing method that prevents rainwater from being absorbed through the bridge or bridges.
A preliminary preparation step of removing a foreign matter of the cross-section and cutting the protruded part to keep it flat;
A primer layer forming step of forming a primer layer by applying a primer to the bridge surface;
Installing a heat drying device on the primer layer to dry the rainwater;
Placing a flame retardant sheet while covering an upper portion of the heating and drying apparatus;
Disposing a nonwoven fabric on the flame-retardant sheet;
A cross-linked waterproof sheet placing step of placing a cross-linked waterproof sheet on the nonwoven fabric; And
And an ascon layer forming step of forming an ascon layer by laying an ascon on an upper portion of the cross-linked waterproof sheet. In the double composite waterproof method,
Wherein the heat generating and drying device includes a heat generating housing having a heat generating space therein and having a ventilation hole communicating with the heat generating space on an upper panel,
Heat-generating tubes disposed through the heat-generating housing and formed with hot air nozzles,
Supporting columns arranged in the heat generating space,
A sensing sensor disposed at an upper portion of the heat generating housing for sensing rainwater,
And a hot air blower for receiving the signal of the detection sensor and supplying hot air to the heat engine tubes,
An expansion groove is formed in an upper surface portion of the heat-generating housing, the vent hole is formed in a lower portion of the expansion groove,
The emergency heating housing is further provided with an emergency return device,
Wherein the emergency pressure device comprises a drive motor provided inside the heat generating housing and driven by receiving a signal from the detection sensor,
And an extruding fan provided on a driving shaft of the driving motor,
Wherein the cross-linked waterproofing composition comprises 10 to 40% by weight of carbon powder, 30 to 60% by weight of butyl rubber, 0.1 to 5% by weight of a plasticizer, 1 to 20% by weight of an additive and 1 to 20% To 5% by weight,
The heat pipe is connected to both ends of the hot air blower so as to circulate hot air,
The heat-generating housing is disposed at a predetermined interval on the cross-section, and a concrete layer is formed between the heat-generating housings,
The upper nonwoven fabric is further disposed on the upper surface of the cross-linked waterproof sheet to allow the nonwoven fabric to absorb rainwater,
The diameter of the extended groove is formed to be larger than the diameter of the vent hole so that the area of contact with the flame-retardant sheet is increased so that the flame-retardant sheet is uniformly heated, and then the heat is transferred to the nonwoven fabric A double composite waterproofing method.
delete delete delete delete

Images