KR101958451B1 - Underground outside waterproofing method of concrete structure - Google Patents

Abstract

An objective of the present invention is to provide a method for waterproofing the outside of the underground of a concrete structure, wherein the outside of the underground of a concrete structure is waterproofed in different manners for each portion. Accordingly, the outside of the concrete structure can be perfectly waterproofed to reduce maintenance costs in accordance with water leak. Moreover, a period of construction can be shortened by simple waterproof construction. Furthermore, the waterproof construction can be performed even when low-temperature water and flowing water are present to be prevented from being influenced by external environment, thereby significantly increasing efficiency and productivity.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a waterproofing method for a concrete structure,

The present invention relates to an underground waterproofing method for a concrete structure, and more particularly, to a waterproofing method for underground waterproofing of a concrete structure, And to extend the lifetime of the concrete structure. The present invention relates to an underground waterproofing method for a concrete structure.

As is well known, the concrete structure is excavated at a predetermined depth from the ground to form a multi-layered basement layer, and a plurality of ground layers are formed at the upper part of the basement layer. The concrete structure, in consideration of safety and lifetime, And work is performed.

Particularly, in forming the basement layer, it is essential that complete waterproofing is required in consideration of external factors such as earth pressure and groundwater.

In accordance with this demand, Korean Patent No. 10-1181230 discloses a method of manufacturing a cement board, comprising the steps of: attaching a cement board to a soil board installed to prevent the inflow of gravel; Attaching extruded polystyrene insulation to the board; Applying a waterproof layer to the heat insulating material; And a step of constructing an outer wall of the underground structure so as to contact the waterproof layer.

In addition, Korean Patent No. 10-0766956 discloses a structure in which a horizontal interstory structure between a building and a building supports an earth retaining wall while constructing an underground sidewall in which an earth retaining wall and an underground outer wall are integrally constructed, Or the frame beams are directly fixed to the earth retaining walls so that the earth retaining walls are not supported only through the earth retaining walls but the earth pressure conveying body is installed between the earth retaining walls and the slab or between the frame beams and the slab to support the installation space of the earth- It is possible to smoothly induce the casting of the cast iron rope and the concrete for the construction of the underground outer wall without installing additional sleeves or Dowel bars. The support structure of the retaining walls with technical features and the application of this The construction method of the underground concrete wall of the building was proposed.

However, such a conventional waterproofing method has a problem that the waterproof layer is damaged by external factors such as vibration, earth pressure, or ground water, and waterproof property is lowered, shortening the life of the concrete structure.

In order to solve these problems, Korean Patent Registration No. 10-1438727 discloses an underground concrete structure in which a non-woven fabric or a waterproof sheet installed on an earth retaining wall of a seawall is prevented from being torn or damaged when the outer wall is constructed, It is possible to facilitate the waterproofing work for the outer wall after the outer wall construction and to form and maintain the semi-permanent high elasticity impervious layer against the leakage problem of the sidewall section. However, after a certain period of time, The life of the structure was shortened and the outer slope of the structure was waterproofed in the same manner so that the fragile portion was quickly broken and the maintenance cost was burdened accordingly.

Korean Patent No. 10-1181230 Korean Patent No. 10-0766956 Korean Patent No. 10-1438727

Therefore, in order to solve the above-mentioned problems, according to the present invention, the outside of the concrete structure is waterproofed by different methods in accordance with the condition of each part, so that the outside of the structure can be completely waterproofed, It is possible to reduce the maintenance cost, shorten the air by simple construction, enable the construction even in the presence of low temperature and high flow water, and to improve the efficiency and productivity of the concrete structure There is a purpose to provide an underground external waterproofing method.

According to another aspect of the present invention, there is provided a method of constructing an underground waterproofing method for a concrete structure, the method comprising the steps of: forming a base layer by pouring abandoned concrete on the ground; Forming a waterproof layer by providing a back-laid waterproof sheet composed of a coating material and an improved asphalt waterproof sheet formed using an inorganic material and a water-reactive polymer material on the base layer; And forming a bottom slab by placing reinforcing bars in the upper part of the waterproof layer and then pouring the concrete to a predetermined thickness.

According to another aspect of the present invention, there is provided an underground waterproofing method for a concrete structure, comprising the steps of: forming a base layer by placing an abutment wall, plywood, shotcrete, or lining concrete on a ground wall; A waterproof layer is formed by providing an adhesive synthetic rubber-based composite waterproof sheet composed of a high adhesive gel and an improved asphalt waterproof sheet softened with a regenerated rubber on the entire surface of the base layer, or a membrane sheet is provided on the entire surface of the base layer, Forming a waterproof layer by providing a mesh net on the entire surface of the waterproof seal after applying a flexible waterproof seal; Providing a waterproof protective film on the entire surface of the waterproof layer to form a protective layer; And forming a wall by placing reinforcing bars in front of the protective layer and pouring concrete to a predetermined thickness.

According to another aspect of the present invention, there is provided an underground waterproofing method for a concrete structure, comprising the steps of: applying a plurality of steel pipe piles to an upper part of a ceiling of an underground part of the structure; applying an asphalt primer to the lower part of the pipe; ; A step of forming a waterproof layer by providing an adhesive synthetic rubber-based composite waterproof sheet composed of a high adhesive gel and an improved asphalt waterproof sheet on the lower part of the adhesive layer; Forming a ceiling by pouring concrete having a certain thickness on the lower part of the waterproof layer; A step of perforating an injection port and a backflow check hole having a predetermined diameter so as to penetrate from the bottom surface to the top surface of the ceiling, respectively; Forming a waterproof reinforcing layer between the upper surface of the ceiling and the lower surface of the waterproof layer by injecting a flexible waterproof seal through the injection port; And filling the waterproof seal injected through the injection port with the waterproof seal to completely fill the waterproof seal and return the waterproof seal to the backflow check valve, closing the injection hole and the backflow check hole with a closing member to finish the process.

In addition, in the case where a plurality of steel pipe piles are not installed on the upper part of the ceiling of the structure, a lining concrete having a predetermined thickness may be installed to form a ceiling base layer; A step of forming a waterproof layer by providing an adhesive synthetic rubber-based composite waterproof sheet composed of a high adhesive gel and an improved asphalt waterproof sheet on the bottom of the base layer; Forming a ceiling by pouring concrete having a certain thickness on the lower part of the waterproof layer; A step of perforating an injection port and a backflow check hole having a predetermined diameter so as to penetrate from the bottom surface to the top surface of the ceiling, respectively; Forming a waterproof reinforcing layer between the upper surface of the ceiling and the lower surface of the waterproof layer by injecting a flexible waterproof seal through the injection port; And filling the waterproof seal injected through the injection port with the waterproof seal to completely fill the waterproof seal and return the waterproof seal to the backflow check valve, closing the injection hole and the backflow check hole with a closing member to finish the process.

As described above, by providing the underground waterproofing method of the concrete structure according to the present invention, it is possible to make the exterior of the structure completely waterproof even in the field environment such as traffic congestion or narrow area, And it is possible to shorten the air by simple construction, and it is possible to perform the construction even in the state where the wet base surface and the flowing water are present, so that it is not affected by the external environment, have.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing an installation state of a floor portion, which is an embodiment of an underground waterproofing method of a concrete structure according to the present invention; FIG.
BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a concrete structure,
3 is an exemplary view showing another construction of a wall portion, which is an embodiment of an underground waterproofing method of a concrete structure according to the present invention.
4 is an exemplary view showing a construction state of a ceiling portion, which is an embodiment of an underground waterproofing method for a concrete structure according to the present invention.
FIG. 5 is an exemplary view showing another construction of a ceiling portion, which is an embodiment of an underground waterproofing method for a concrete structure according to the present invention; FIG.

For a better understanding of the present invention, a preferred embodiment of the present invention will be described with reference to the accompanying drawings. The embodiments of the present invention may be modified into various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. The present embodiments are provided to enable those skilled in the art to more fully understand the present invention. Therefore, the shapes and the like of the elements in the drawings can be exaggeratedly expressed to emphasize a clearer description. It should be noted that in the drawings, the same members are denoted by the same reference numerals. Further, detailed descriptions of well-known functions and configurations that may be unnecessarily obscured by the gist of the present invention are omitted.

The underground waterproofing method of the concrete structure according to the present invention is largely composed of waterproofing of the bottom part, waterproofing of the wall part and waterproofing of the ceiling part.

As shown in FIG. 1, the waterproofing method of the bottom part of the underground outside of the structure includes the steps of forming a base layer 110 by placing abandoned concrete on the ground; Forming a waterproof layer (120) by providing a back-laid waterproof sheet composed of a coating material and an improved asphalt waterproof sheet formed using an inorganic material and a water-reactive polymer material on the base layer (110); And forming a bottom slab 100 by placing a reinforcing bar on the upper portion of the waterproof layer 120 and then pouring the concrete to a predetermined thickness.

The base layer 110 functions to prevent the waterproof layer 120 from being in direct contact with the gravel so that the waterproof property is not deteriorated and the waterproof layer 120 is easily installed.

The back-laid waterproof sheet for forming the waterproof layer (120) is a kind of composite waterproof sheet coated on one surface of the modified asphalt waterproof sheet to have a certain thickness, and a coating material formed using an inorganic material and a water- The modified asphalt waterproofing sheet is placed on the upper surface of the waterproof layer 110 so that the concrete can be installed on the upper part of the coating material so that the waterproof layer 120 and the bottom slab 100 can be integrated.

That is, after the waterproofing layer 120 is formed, the concrete is immediately placed irrespective of external factors such as ultraviolet rays, wet environment, or temperature, and the waterproof layer 120 and the bottom slab 100 can be integrated It is possible to shorten the air flow rate by simplifying the waterproof construction and to easily install the unskilled person so as to contribute to the reduction of the labor cost and to secure the safety of the worker in the closed space without using the primer or the organic solvent, It is possible to form the waterproof layer 120 continuously.

As shown in FIG. 2,

Forming a base layer (210) by placing an abutment wall, a plywood installation, a shotcrete, or a lining concrete on a wall surface of the ground; A waterproof layer 220 is formed on the entire surface of the base material layer 210 by providing an adhesive synthetic rubber-based composite waterproof sheet composed of a high adhesive gel and a modified asphalt waterproof sheet softened with a reclaimed rubber, A waterproof layer 220 is formed on the entire surface of the membrane sheet, a mesh net is formed on the entire surface of the membrane sheet, and a waterproof layer 220 is formed thereon. Forming a protective layer (230) by providing a waterproof protective film on the entire surface of the waterproof layer (220); And forming a wall 200 by placing reinforcing bars in front of the protective layer 230 and then pouring the concrete to a predetermined thickness.

The base layer 210 is formed by casting a predetermined thickness of concrete to prevent the waterproof layer from being in direct contact with the gravel so that the waterproof property is not lowered.

The waterproof layer 220 is a composite waterproof synthetic rubber composite waterproof sheet composed of a high adhesive gel and a modified asphalt waterproof sheet softened by a reclaimed rubber. The composite waterproof sheet 220 has the following properties against cracking due to no occurrence of interface detachment during the behavior and cracking, The disadvantage is minimized and the waterproof stability can be maximized.

3, the waterproof layer 220 is formed by providing a membrane sheet on the entire surface of the substrate layer 210, applying a waterproof seal on the entire surface of the membrane sheet 210, and providing a mesh net on the entire surface thereof, (220) may be formed.

The protective layer 230 is provided on the front surface of the waterproof layer to prevent the highly adhesive gel of the waterproof layer 220 from flowing down. The concrete is placed on the adhesive gel so that the waterproof layer 220 and the wall body 200 can be integrated with each other.

That is, since the waterproof layer 220 can be formed directly on the substrate layer 210 formed by casting the abandoned concrete without using a primer, the operation can be simplified and the air can be shortened and the safety of the operator in the closed space can be ensured In the process of joining the composite waterproof sheets, it is possible to directly laminate and self-adhere without using a thermal process, thereby enhancing work efficiency and productivity, and being able to adhere in a low temperature environment, so that it can be applied in the winter.

As shown in FIG. 4, when a plurality of steel pipe files are installed in the upper part of the ceiling of the underground of the structure,

Forming an adhesive layer 320 by applying an asphalt primer to the lower portion of the steel pipe 310; Forming a waterproof layer (330) by providing an adhesive composite synthetic waterproof composite waterproof sheet composed of a high adhesive gel and an improved asphalt waterproof sheet on the lower part of the adhesive layer (320); Forming a ceiling (300) by placing concrete of a certain thickness on the lower part of the waterproof layer (330); (302) and a backflow check hole (304) penetrating from the bottom surface of the ceiling (300) to the upper surface; Forming a waterproof reinforcement layer 340 between the upper surface of the ceiling 300 and the lower surface of the waterproof layer 330 by injecting a waterproof seal that is flexible and flexible through the injection port 302; When the waterproof seal injected through the injection port 302 is completely filled and flows back to the backflow confirmation hole 304, the inlet 302 and the backflow hole 304 are closed with a closing member to finish the process .

The ceiling 300 is formed by pouring concrete with a predetermined thickness and the inlet 302 and the counterflow confirmation hole 304 are formed through the bottom surface of the ceiling 300 with a predetermined diameter, So that the waterproof reinforcement layer 340 can be formed.

In addition, a plurality of steel pipe piles 310 may be installed on the ceiling 300 so as not to be exposed to the outside, or the ceiling 300 may be installed in a state where the ceiling 300 is already installed.

The adhesive layer 320 is formed by applying an asphalt primer to a lower portion of the steel pipe to a predetermined thickness. The upper part of the composite waterproof sheet, which forms the waterproof layer 330 at the lower part of the adhesive layer 320, To be installed.

The waterproof layer 330 is a composite waterproof synthetic rubber composite waterproof sheet composed of a high adhesive gel and a modified asphalt waterproof sheet softened by a reclaimed rubber. The composite waterproof sheet 330 has no breakage of interface at the time of behavior and cracking, The disadvantage is minimized and the waterproof stability can be maximized.

The waterproof reinforcement layer 340 is filled between the upper surface of the ceiling 300 and the lower surface of the waterproof layer 330 by injecting a waterproof seal that is flexible and adhered through the injection port 302 to greatly improve the waterproof property, It is possible to repair the leaked portion by injecting the waterproof seal again through the injection port 302 where leakage occurs.

Here, the waterproof seal is a waterproof material obtained by bonding a rubber liquid agent and a special adhesive resin, which are made by melting waste rubber, to waterproof the surface of a concrete structure to which wetting or foreign matter is fixed. In particular, It is a non-curing synthetic rubber-based waterproofing material, which is provided in the form of a one-part adhesive flexible adhesive gel so that it can respond to behaviors of structures and has excellent adhesion to steel, plastic, and foreign matter, thereby achieving complete waterproofing.

When the waterproof seal is injected through the injection port 302 in a predetermined amount, the water seal is discharged to the backflow check valve 304, so that the filling state can be checked. Further, And the backflow check valve 304 may be closed to shut off. Preferably, a finishing cap (not shown) or a nonwoven fabric or mortar is used as the finishing member (not shown).

On the other hand, as shown in FIG. 5, in a section and a part where a plurality of steel pipe files are not installed on the upper part of the ceiling of the structure,

Forming a ceiling base layer 410 by pouring a lining concrete having a predetermined thickness; Forming a waterproof layer (420) by providing an adhesive synthetic rubber-based composite waterproof sheet composed of a high adhesive gel and an improved asphalt waterproof sheet on the lower part of the base material layer (410); Forming a ceiling (400) by placing concrete of a certain thickness on the lower part of the waterproof layer (420); (402) and a backflow check hole (404) penetrating from the bottom surface of the ceiling (400) to the upper surface; Forming a waterproof reinforcement layer 430 between the upper surface of the ceiling 400 and the lower surface of the waterproof layer 420 by injecting a waterproof seal that is flexible and flexible through the injection port 402; When the waterproof seal injected through the injection port 402 is completely filled and flows back to the backflow check valve 404, the inlet 402 and the backflow check valve 404 are closed with a closing member to finish the process .

That is, the lining concrete is laid to a certain thickness to form a base layer 410, and a composite waterproof sheet is installed on the lower surface thereof to form a waterproof layer 420. A concrete concrete having a predetermined thickness is formed on the lower part of the waterproof layer 420 And a ceiling 400 is formed in the ceiling 400. An injection port 402 and a backflow check hole 404 are drilled in the ceiling 400 at predetermined intervals to inject a predetermined amount of an adhesive flexible waterproof seal through the inlet 402 After the waterproofing reinforcing layer 430 is formed, if it is confirmed that the waterproof seal is backwashed by the backflow check valve 404, the waterproof seal flows out by blocking the injection port 402 and the backflow check hole 404 using the closing member So that the waterproofing work on the outside of the ceiling of the concrete structure is completed.

As described above, by providing the underground waterproofing method of the concrete structure according to the present invention, it is possible for the unskilled person to completely and completely waterproof the entire underground structure of the structure, thereby reducing the construction cost and shortening the air, It is possible to carry out waterproof construction regardless of external environmental factors such as water content, and it is possible to greatly improve efficiency and productivity of waterproofing work, which is an extremely highly industrially applicable invention.

100: floor slab 200: wall
110, 210: substrate layer
120, 220: waterproof layer 230: protective layer
300, 400: Ceiling
310: steel pipe file 320: adhesive layer
410: base layer 330, 420: waterproof layer
340, 430: Waterproof reinforcement layer

Claims (4)

In the underground waterproofing method of a concrete structure, when a plurality of steel pipe files are installed on the ceiling of the underground outside of the structure,
Forming an adhesive layer by applying an asphalt primer to the lower portion of the steel tube pile;
A step of forming a waterproof layer by providing an adhesive synthetic rubber-based composite waterproof sheet composed of a high adhesive gel and an improved asphalt waterproof sheet on the lower part of the adhesive layer;
Forming a ceiling by pouring concrete having a certain thickness on the lower part of the waterproof layer;
A step of perforating an injection port and a backflow check hole having a predetermined diameter so as to penetrate from the bottom surface to the top surface of the ceiling, respectively;
Forming a waterproof reinforcing layer between the upper surface of the ceiling and the lower surface of the waterproof layer by injecting a flexible waterproof seal through the injection port;
And filling the waterproof seal injected through the injection port into the backflow check valve to completely close the injection port and the backflow check valve with the closing member, thereby completing the underground waterproofing method of the concrete structure .
The method according to claim 1,
In the underground waterproofing method of the concrete structure,
The bottom part of the underground exterior of the structure,
Casting abandoned concrete on the ground to form a base layer;
Forming a waterproof layer by providing a back-laid waterproof sheet composed of a coating material and an improved asphalt waterproof sheet formed using an inorganic material and a water-reactive polymer material on the base layer;
And forming a bottom slab by placing reinforcing bars on the upper part of the waterproof layer and then pouring the concrete with a predetermined thickness to form a bottom slab.
The method according to claim 1,
Wherein the underground outer wall portion of the concrete structure comprises:
Forming an aggregate wall, a plywood installation, a shotcrete, and a lining concrete on the ground wall to form a base layer;
A waterproof layer is formed by providing an adhesive synthetic rubber-based composite waterproof sheet composed of a high adhesive gel and an improved asphalt waterproof sheet softened with a regenerated rubber on the entire surface of the base layer, or a membrane sheet is provided on the entire surface of the base layer, Forming a waterproof layer by providing a mesh net on the entire surface of the waterproof seal after applying a flexible waterproof seal;
Providing a waterproof protective film on the entire surface of the waterproof layer to form a protective layer; And forming a wall by placing reinforcing bars in front of the protective layer and then pouring the concrete to a predetermined thickness to form a wall.
The method according to claim 1,
In the underground waterproofing method of the concrete structure,
In the case where a plurality of steel pipe piles are not installed on the upper part of the ceiling of the concrete structure,
Forming a base layer of a ceiling by placing a lining concrete having a predetermined thickness;
A step of forming a waterproof layer by providing an adhesive synthetic rubber-based composite waterproof sheet composed of a high adhesive gel and an improved asphalt waterproof sheet on the bottom of the base layer;
Forming a ceiling by pouring concrete having a certain thickness on the lower part of the waterproof layer;
A step of perforating an injection port and a backflow check hole having a predetermined diameter so as to penetrate from the bottom surface to the top surface of the ceiling, respectively;
Forming a waterproof reinforcing layer between the upper surface of the ceiling and the lower surface of the waterproof layer by injecting a flexible waterproof seal through the injection port;
And filling the waterproof seal injected through the injection port into the backflow check valve to completely close the injection port and the backflow check valve with the closing member, thereby completing the underground waterproofing method of the concrete structure .

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