KR102039151B1 - Complex waterproofing structure for preventing leakage with deaeration-tube and method thereof - Google Patents

Abstract

The present invention relates to a complex waterproof structure including a deaerator tube and a construction method thereof, wherein a plurality of deaerator tubes (3) are installed vertically and horizontally between a concrete slab (2) and a waterproof sheet (4), such that a vapor pressure generated by the concrete slab (2) may be moved in a horizontal direction along a ventilation passage (31c) of the deaerator tubes (3) before being discharged to the outside through a distal end of the deaerator tubes (3) installed along a vertical wall (2a). Therefore, an air pocket phenomenon in which the waterproof sheet (4) is loosened from the concrete slab (2) is prevented. In addition, a sheet interval unit (5) is formed with a uniform interval between the neighboring waterproof sheets (4a, 4b) in order to respond to shrinkage or expansion corresponding to changes in temperature. Furthermore, a coupling sheet (6), having a plurality of penetration holes (63) and a protrusion (65), is installed on an upper surface of an edge of the waterproof sheets (4a, 4b) adjacent to an upper portion of the sheet interval unit (5), before the neighboring waterproof sheets (4a, 4b) and a finishing waterproof layer (7) formed at an upper portion thereof are monolithically coupled, thereby preventing the waterproof layer from being peeled.

Description

Complex waterproofing structure for preventing leakage with deaeration-tube and method

The present invention relates to a rooftop exposure type composite waterproofing method, and more particularly, by installing a plurality of degassing tubes at regular intervals between the concrete slab and the waterproof layer, including a degassing tube so that no air pocket phenomenon occurs over time. The present invention relates to a composite waterproof structure and its construction method.

Since the roof of the building is exposed to the outside environment, waterproof construction is required to prevent water from seeping in by rain or snow. Accordingly, there have been efforts and researches by those skilled in the art for various waterproof methods, and as a result, materials and products according to roof waterproofing and various construction methods have been developed.

In general, the waterproof method is a waterproof sheet method for attaching a waterproof sheet made of synthetic polymers such as rubber asphalt or vinyl chloride resin to the upper surface of a concrete slab of a building with an adhesive, and a waterproof coating film for applying polyurethane rubber system and fast curing elastomer waterproof flooring material. There is a method.

However, in such a waterproof structure, a portion of the waterproof layer is inflated by the water vapor pressure generated in the concrete slab surface with the passage of time occurs. These air pockets are caused by the water vapor pressure generated by the vaporization of moisture present in the concrete slab by pushing up the waterproof layer. If a part of the waterproof layer is damaged and external water flows into the damaged part and is absorbed by the concrete slab, the temperature rises, and the water present in the voids of the concrete slab is heated and vaporized to generate water vapor pressure. Alternatively, when concrete slabs are newly constructed, the concrete or mortar constituting the structure is not completely dried, or during the summer rainy season or after high humidity in the atmosphere, the moisture particles are moistened through the outer wall of the structure and vaporized as the temperature increases. Thus, water vapor pressure is generated. As the water vapor pressure rises, the rising pressure (stress) of the waterproofing layer constructed on the concrete slab causes the waterproofing layer to swell, and the phenomenon of sinking is constantly repeated when the temperature drops in the middle of the night. The waterproof layer swelling boundary portion is broken due to the cyclic stress stress, leading to cracking, breakage phenomenon, the loss of waterproof performance.

In view of these problems, various degassing structures have been disclosed to prevent the formation of air pockets by water vapor or gas evaporated in the concrete slab. For example, in order to suppress the swelling of the waterproof layer due to the water vapor pressure, a degassing device or a base of various shapes is installed on the concrete slab surface. This degassing device discharges the water vapor pressure generated in the interior of the concrete slab to the outside to prevent the formation of air pockets. However, in order to install a degassing apparatus or a base, additional costs are incurred and the degassing apparatus is protruded to the upper part of the waterproof layer, which is not only in appearance but also is a danger to the safety of the user using the rooftop.

In recent years, a degassing structure has been developed that does not use a degassing device that protrudes above the waterproof layer. For example, in the conventional rooftop waterproofing structure disclosed in Korean Patent Registration No. 10-0710432 and its construction method, the waterproof sheet is installed so that a predetermined gap is formed between the waterproof sheets installed on the upper surface of the concrete slab, and a gap between the waterproof sheets is provided. Breathable fillings are installed to allow moisture and air to escape. At this time, the breathable filling is installed only in the gap between the waterproof sheet, the lower surface is provided with an adhesive layer and a release paper, and the upper surface is provided with a breathable reinforcement pad having a predetermined thickness and width. And a grid-type reinforcement mesh is further installed on the upper surface of the breathable reinforcement pad.

Therefore, the gap between the waterproof sheets is filled with the breathable filling corresponding to the building behavior and the expansion and contraction of the waterproofing material, and the breathable reinforcement pad and the reinforcing mesh are installed on the upper surface in turn, so that the moisture and air generated from the concrete slab follow the breathable filling. At the same time to be discharged to the outside to allow the joint between the neighboring waterproof sheet to be integrated. However, the conventional breathable filling is a continuous open cell structure with synthetic foam, and is made of a soft hydrophilic sponge made of soft PVA, so that the flow of water vapor pressure is not smooth, and the breathable filling is installed only in a limited gap (5-10 mm) between the waterproof sheets. Therefore, there was a problem that it is difficult to discharge the steam pressure quickly. In addition, since the breathable filler is bonded to the side of the waterproof sheet, as the waterproof sheet repeatedly contracts and expands, a gap is generated between the waterproof sheet and the breathable filler, whereby water vapor pressure leaks through the gap to the lower portion of the waterproof sheet. There was.

In view of this problem, a method of installing a plurality of degassing sheets between the concrete slab surface and the waterproof layer has recently been developed. That is, the coating film lifting prevention device disclosed in Korean Patent Laid-Open Publication No. 10-2009-0039338, by installing a degassing sheet 10 provided in the form of a roll between the concrete slab surface and the waterproof layer, the external water vapor pressure generated in the concrete slab To be discharged. That is, the upper degassing sheet 10 has an adhesive layer 21 formed on both bottoms in the longitudinal direction of the degassing sheet 10, and a base 20 for protecting the adhesive layer 21 is provided. In addition, the mesh 30 is further attached to the upper surface of the degassing sheet 10 in the longitudinal direction. Therefore, the degassing sheet 10 is laid out or terminated at regular intervals on a concrete slab surface such as a rooftop, and both ends are bent up to a certain height of a vertical wall and attached to the end of the degassing sheet 10 attached thereto. Install by attaching. Then, the ventilation passages 12 are formed in the longitudinal direction between the upper surface of the concrete slab and the ventilation grooves 11 formed on the bottom surface of the degassing sheet 10. Water vapor pressure generated by condensation due to moisture evaporation and temperature change in the concrete slab moves horizontally along the air passage 12 and is discharged to the outside through the free end of the terminal to prevent the formation of an air pocket in the waterproof layer. can do.

However, the conventional degassing sheet 10 forms a ventilation groove 11 at a predetermined depth on the lower surface of the degassing sheet 10 to secure the air vent 12 sealed between the upper surface of the concrete slab and the ventilation groove 11. Therefore, in the case where cracks or foreign matters are on the upper surface of the concrete slab, the adhesive force of the adhesive layer 21 is lowered, and a part of the air passage 12 is partially opened, so that the water vapor pressure moving along the air passage 12 is waterproof. There was a problem that the air pocket may be formed to leak to the bottom of the sheet. In addition, the process of forming the ventilation grooves 11 with a predetermined depth on the bottom surface of the degassing sheet 10 is not only complicated, but there is a problem that the thickness of the degassing sheet 10 becomes thick to dig deeply the ventilation grooves 11. . In addition, since the adhesive layer 21 and the release paper are provided on the lower surface of the degassing sheet 10, and a breathable reinforcing pad having a predetermined thickness and width and a grid-type reinforcing mesh are sequentially installed, the structure and construction method are complicated. there was.

Republic of Korea Patent Registration No. 10-0710432 (Registration Date: April 16, 2007) Republic of Korea Patent Registration No. 10-1142856 (Registration Date: 2012.05.03)

The present invention has been made to solve the problems of the prior art, the first object of the present invention is to install a plurality of degassing tube at regular intervals between the concrete slab (coated body) and the waterproof layer (coated body) in the concrete slab The present invention provides a composite waterproof structure including a degassing tube that discharges water vapor pressure generated to the outside to prevent air pockets from being lifted or popped from a concrete slab and a construction method thereof.

Another object of the present invention is to form a gap at regular intervals between the neighboring waterproof sheet and to install a bonding sheet on the upper portion of the concrete slab and the waterproof layer to expand or expand the buffer under the influence of temperature, such as peeling off the waterproof layer It is to provide a composite waterproof structure and its construction industry including a degassing tube to prevent the.

As a means for achieving the object of the present invention, the composite waterproof structure comprising a degassing tube according to the present invention,

A concrete slab comprising at least one vertical wall;

A plurality of degassing tubes installed on the upper surface of the concrete slab at regular intervals and both ends of which are installed at a predetermined height by bending upwardly along the vertical wall;

Including; a waterproofing layer is installed on the upper surface of the concrete slab and degassing tube,

The degassing tube,

It consists of the upper film and the lower film of a constant width,

Both left and right ends of the upper film and the lower film are integrally formed in a flat tube shape,

The lower film is formed with a plurality of vent holes to allow the water vapor pressure generated in the concrete slab to be introduced into the vent film so that the water vapor pressure is horizontally moved between the upper film and the lower film;

On the upper surface of the upper film,

The degassing tube is characterized in that the reinforcing sheet is attached to prevent the degassing tube from being extended or expanded upward by the pressure of the water vapor pressure introduced into the vent of the degassing tube.

In the present invention, a plurality of ventilation holes are formed in the upper film so as to correspond to the plurality of ventilation holes formed in the lower film, and the reinforcing sheet attached to the upper film closes the ventilation holes.

 The reinforcing sheet is made of a nonwoven fabric or synthetic resin film having a width similar to that of the degassing tube.

A plurality of waterproof sheets attached to upper surfaces of the concrete slab and the degassing tube;

Further comprising a; bonding sheet is attached to the upper surface of the sheet separation portion formed at regular intervals between the neighboring waterproof sheet and the edge upper surface of the neighboring waterproof sheet;

The bonding sheet,

It consists of a sheet of synthetic resin of constant width,

A plurality of through holes are formed at regular intervals on both left and right sides of the center so as to be positioned on an upper surface of the waterproof sheet.

The bonding sheet has a plurality of protrusions protruding from the upper and lower sides on the left and right sides of the center, respectively, at regular intervals, and after installing the bonding sheet on the edge upper surface of the neighboring waterproof sheet, When pressurized, a plurality of protrusions formed on the bottom surface of the coupling sheet are inserted into the neighboring waterproof sheet so that the neighboring waterproof sheets are integrally combined.

A predetermined waterproofing layer is formed on the upper surface of the waterproof sheet and the bonding sheet to form a finish waterproof layer, and a part of the coating material is formed on the upper surface of the waterproof sheet installed below through the through hole formed in the bonding sheet. Coupled integrally, a plurality of protrusions formed on the upper surface of the bonding sheet is hardened after being impregnated in the coating material is integrally bonded to the finish waterproof layer.

A top coat layer is further formed on the top surface of the finish waterproof layer to protect the finish waterproof layer from ultraviolet rays or friction, and rainwater or foreign matter is formed on the top of the plurality of degassing tubes installed on the vertical wall through a vent of the degassing tube. Install foreign material blocking member to prevent intrusion.

The foreign material blocking member is an extruded product made of plastic or metal, and a flat fixing part to be attached to the vertical wall, a cover part extending vertically from the fixing part and protruding the upper portion of the degassing tube; The cover part is made of a bent portion bent to one side to surround the end of the degassing tube, it is installed in the horizontal direction on the vertical wall to cover a plurality of degassing tubes.

Construction method of the composite waterproof structure comprising a degassing tube according to the present invention,

A degassing tube installation step of installing a plurality of degassing tubes at regular intervals on an upper surface of the concrete slab of the building, and installing the degassing tubes at both ends by bending upwards along a vertical wall installed on the concrete slab;

And a waterproofing layer forming step of forming a waterproofing layer on an upper surface of the concrete slab in which the degassing tube is installed.

The degassing tube, the upper film and the lower film made of a constant width,

Both left and right ends of the upper film and the lower film are integrally formed in a flat tube shape,

The lower film is formed with a plurality of vent holes to allow the water vapor pressure generated in the concrete slab to be introduced into the vent film so that the water vapor pressure is horizontally moved between the upper film and the lower film;

On the upper surface of the upper film, a reinforcing sheet is attached to prevent the degassing tube from being extended or expanded upward by the pressure of the water vapor pressure introduced into the vent of the degassing tube.

In the present invention, the waterproofing layer forming step, a plurality of waterproof sheet is installed so that the sheet space is formed at regular intervals between the concrete slab and the waterproof sheet neighboring the upper surface of the degassing tube.

A coupling sheet installation step of installing a coupling sheet on an upper surface of the sheet spacer and an edge upper surface of a neighboring waterproof sheet;

Finishing waterproofing layer installation step of forming a finish waterproofing layer by applying a predetermined coating waterproofing material to a predetermined thickness on the upper surface of the waterproofing sheet is installed a bonding sheet;

The bonding sheet is a synthetic resin sheet having a predetermined width, and a plurality of through holes are formed at regular intervals on both sides of the center, and a plurality of protrusions protruding a predetermined length up and down between or between the through holes are integrally formed. After installation, the plurality of protrusions formed on the lower surface of the bonding sheet is located on the upper surface of the neighboring waterproof sheet, and then press the coupling sheet to the lower portion and the plurality of protrusions protruding downward are inserted into the waterproof sheet and combined integrally. When the coating material is installed on the upper surface of the waterproof sheet and the bonding sheet to a certain thickness, a portion of the coating material moves downward through the through hole formed in the bonding sheet to be integrally coupled to the upper surface of the waterproof sheet. The plurality of protrusions protruding upward on the upper surface of the bonding sheet is hardened after being impregnated with the coating material and integrally with the finishing waterproof layer. To combine.

A top coat layer forming step of forming a top coat layer by applying or spraying a top cord material, such as water-soluble urethane, inorganic finish, urea, etc. with a roller on the upper surface of the finish waterproofing layer, further comprising a front end of the plurality of degassing tube The fixed vertical wall is further provided with a foreign matter blocking member for preventing the ingress of rainwater or foreign matter through the vent of the degassing tube, the foreign matter blocking member is an extruded water made of plastic or metal, the water A flat fixing part to be attached to a straight wall, a cover part extending vertically from the fixing part to protrude to cover the upper part of the degassing tube, and bent to one side to surround the end of the degassing tube in the cover part. Comprising a portion, is installed in the horizontal direction on the vertical wall to cover a plurality of degassing tube.

According to the composite waterproof structure including the degassing tube of the present invention as described above and its construction method, by installing a plurality of degassing tube at regular intervals between the concrete slab (coated body) and the waterproof layer (coated body) occurs in the concrete slab By discharging the water vapor pressure to the outside to prevent the air pocket phenomenon that the waterproof layer is lifted or burst from the concrete slab.

In addition, the present invention is to form a gap at a predetermined interval between the neighboring waterproof sheet and to install a bonding sheet on the upper to cushion the concrete slab and the waterproof layer in a situation such as stretching or expanding under the influence of temperature, the neighboring waterproof By providing a bonding sheet having a plurality of through holes or protrusions between the sheets, the waterproof layer can be prevented from peeling off.

In addition, the degassing tube according to the present invention is not provided with an adhesive layer, and a vent hole having a simple structure is formed in the lower film, and the reinforcing sheet installed on the upper surface of the degassing tube has a width similar to that of the degassing tube. Simple, since the degassing tube is provided in a rolled manner, there is an effect that can be easily installed of the concrete slab.

1 is a perspective view showing an example of a composite waterproof structure including a degassing tube according to the present invention;
2 is an enlarged view showing a composite waterproof structure including the degassing tube shown in FIG.
3 is a perspective view showing an example of a degassing tube according to the present invention;
4 is a perspective view showing an example of a rolled degassing tape according to the present invention;
5 is a perspective view showing an example of a foreign matter blocking member according to the present invention;
6 is a perspective view showing an example of a bonding sheet according to the present invention;
7 is a cross-sectional view of a composite waterproof structure including a degassing tube according to the present invention;
8 is a perspective view showing another embodiment of a composite waterproof structure including a degassing tube according to the present invention;
9 is a flowchart showing a construction method of a composite waterproof structure including a degassing tube according to the present invention;
10A to 10D are explanatory views showing a construction method of a composite waterproof structure including a degassing tube according to the present invention;
11 is a perspective view showing an example of a degassing sheet according to the prior art.

Advantages and features of the present invention, and methods of achieving the same will be described in detail with reference to the accompanying drawings. However, when it is determined that the detailed description of the known technology or configuration related to the present invention may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. In addition, the terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to intentions or customs of users or operators, and the definition thereof includes a composite waterproof structure including a degassing tube according to the present invention and its construction. It should be made based on the contents throughout the specification to describe the method.

First, Figures 1 and 2 show an example of a composite waterproof structure including a degassing tube according to the present invention.

Referring to the drawings, an embodiment of the composite waterproof structure 1 including the degassing tube according to the present invention, the concrete slab 2 including a vertical wall (2a) and the upper surface of the concrete slab (2) A plurality of degassing tubes 3 are installed at regular intervals and both ends are installed at a predetermined height by bending upwardly along the vertical wall 2a, and a plurality of degassing tubes attached to the upper surfaces of the concrete slabs 2 and the degassing tubes 3. Waterproof sheet 4a (4b) and the sheet spacer portion 5 formed at regular intervals between the waterproof sheet 4, and the upper and neighboring waterproof sheet 4a of the sheet spacer portion 5 ( The bonding sheet 6 is attached to the upper surface of the edge of 4b), and the waterproof sheet 4a (4b) and the finishing waterproof layer 7 is installed on the upper surface of the bonding sheet (6).

In addition, a top coat layer 8 is provided on the top surface of the finish waterproof layer 7 to protect the finish waterproof layer from ultraviolet rays or friction. In addition, the foreign material blocking member 9 is further installed on the vertical wall 2a to prevent rainwater or foreign matter from entering through the end of the degassing tube 3.

As described above, the first aspect of the composite waterproof structure 1 including the degassing tube of the present invention is to install a plurality of degassing tubes 3 between the concrete slab 2 and the waterproof sheet 4 to provide a concrete slab ( After the water vapor pressure generated in 2) is moved in the horizontal direction, air is discharged from the concrete slab 2 by the waterproof sheet 4 to be discharged to the outside through the end of the degassing tube 3 installed in the vertical wall 2a. This is to avoid pocketing.

In addition, a second aspect of the composite waterproof structure 2 including the degassing tube of the present invention, the sheet spaced apart at regular intervals between the waterproof sheet (4a) (4b) adjacent to the upper surface of the concrete slab ( 5) install a plurality of waterproof sheets 4 so as to form, the concrete slab by installing a coupling sheet 6 on the upper surface of the edge of the waterproof sheet (4a) (4b) adjacent to the upper portion of the sheet space (5). When (2) or the waterproof sheet 4 is contracted and expanded by temperature, it is buffered so that the waterproof layer can be prevented from being damaged.

As such, the rooftop is exposed to a variety of external environments and therefore must meet various conditions when waterproofing. For example, a composite waterproof structure installed on the rooftop should not cause swelling of the waterproof layer due to water vapor pressure. In addition, the shrinkage and expansion of the concrete slab or waterproof sheet should not cause cracking or lifting of the waterproof layer. There should be no deterioration caused by long-term exposure to ultraviolet light (UV). In addition, terminals shall not be generated at the junction of the waterproof sheet.

The composite waterproof structure in which the degassing tube according to the present invention is installed, meets various physical and environmental conditions placed on the roof of a building, and quickly discharges water vapor pressure by using a material used to prevent the formation of an air pocket. In order to maximize long-term safety by maximizing the advantages of the partial insulation method, a plurality of degassing tubes 3 are installed between the concrete slab and the waterproof sheet, and the bonding sheet is disposed between the neighboring waterproof sheets 4a and 4b. (6) is to install.

More specifically, the degassing tube (3), as shown in Figure 3, consists of a top film 31b and a bottom film 31a having a constant width, the top film 31b and the bottom film 31a. ) Is formed in a flat tube shape in which both ends of the left and right ends are integrally combined to form an air passage 31c between the upper film 31b and the lower film 31a.

The upper film 31b and the lower film 31a are made of PE film, and the lower film 31a has a plurality of vent holes so that water vapor pressure from the concrete slab 2 flows into the degassing tube 3. 33 is formed. The vent hole 33 is made of a circular shape, but is not necessarily limited to this form. In addition, the vent holes 33 are formed at regular intervals in two to three rows along the longitudinal direction, but are not necessarily formed in one line. In addition, although the vent hole 33 is preferably formed only on the lower film 31a, it is also possible to simultaneously drill the vent hole 33 on the lower film 31a and the upper film 31b to facilitate the punching operation. Do.

The reinforcing sheet 35 thicker than the upper film 31b is attached to the upper surface of the upper film 31b. The reinforcing sheet 35 is attached to the upper film 31b to close the vent hole 33 formed in the upper film 31b. Therefore, the air passage 31c is formed between the upper film 31b and the lower film 31a. In addition, the reinforcing sheet 35 reinforces the strength of the degassing tube 3 to prevent the degassing tube 3 from stretching or expanding. That is, when water vapor pressure is introduced into the degassing tube 31c formed inside the degassing tube 3 and the internal pressure increases, the reinforcing sheet 35 prevents the degassing tube 3 from expanding or expanding to form an air pocket. Do not That is, the degassing tube 3 is only slightly expanded in the range allowed by the reinforcing sheet 35 to form an air passage 31c through which water vapor pressure can flow.

To this end, the reinforcing sheet 35 is made of a non-woven fabric having a width similar to the degassing tube 3 or a synthetic resin film of a constant thickness, as shown in FIG. The reinforcing sheet 35 is integrally attached to the upper film 31b of the degassing tube 3 using an adhesive or the like. At this time, the adhesive does not flow into the vent hole 33 formed in the upper film 31b.

Preferably, the degassing tube (3) is made of a degassing tape (3A) having a width of 5 ~ 15cm with the reinforcing sheet (35) attached to the upper surface. As shown in FIG. 4, the degassing tape 3A is wound on the outer circumferential surface of the wick and provided in a roll form. Therefore, when installing the degassing tube (3) to the concrete slab (2) can be easily installed while loosening the degassing tape (3A).

For example, the degassing tube 3 may be installed on the upper surface of the concrete slab 2 in the horizontal direction and the vertical direction at regular intervals, or may be installed in the diagonal direction, curved or only one side. Since the lower surface of the degassing tube 3 is not provided with an adhesive layer, the degassing tube 3 can be fixed with a fixture or partially attached with an adhesive.

And as shown in Figure 1, both ends of the degassing tube (3) installed on the concrete slab 2 is installed at a constant height by bending upwards along the vertical wall (2a) installed on the concrete slab (2). In addition, the front end of the degassing tube (3) installed on the vertical wall (2a) is further provided with a foreign matter blocking member (9) for blocking the inflow of moisture or foreign matter into the degassing tube (3).

The foreign material blocking member 9 is an extruded product made of plastic or metal, and as shown in FIG. 5, the flat fixing part 81 and the fixing part 81 can be attached to the vertical wall 2a. A cover portion 82 extending vertically to protrude to cover the tip of the degassing tube 3 attached to the vertical wall 2a, and the cover portion 82 to cover the tip of the degassing tube 3 to one side. It includes a bending portion 83 to be bent. And the fixing portion 81, the cover portion 82 and the bent portion 83 of the foreign matter blocking member 9 is made integrally. In addition, an adhesive layer 84 may be formed on the lower surface of the fixing part 81. Therefore, when the foreign matter blocking member 9 is installed horizontally on the vertical wall 2a on which the plurality of degassing tubes 3 are installed, it is possible to block rainwater or foreign substances from flowing into the degassing tube 3.

Subsequently, the waterproof sheet 4 is attached to the upper surface of the concrete slab 2 to perform a waterproof function, butyl rubber, synthetic rubber or asphalt rubber is attached to the TPO or PET film. The waterproof sheet 4 is a rectangular sheet provided in the form of a roll, the thickness of which is in the range of 1 to 3 mm, more preferably 15 mm so as to withstand the load with sufficient durability.

When the waterproof sheet 4 is installed, the sheet spacers 5 are formed at regular intervals between neighboring waterproof sheets 4a and 4b. The sheet spacer 5 may be attached by being spaced apart so that neighboring waterproof sheets 4a and 4b do not overlap, or by removing a gap between the waterproof sheets 4a and 4b which are joined to each other using a cutter. . The sheet separation unit 5 is to prevent the damage to the waterproof layer by buffering the concrete slab 2 or waterproof sheet 4 when the temperature increases with the expansion.

Subsequently, a coupling sheet 6 is installed on an upper surface of the edge of the waterproof sheet 4a and 4b adjacent to the upper portion of the sheet spacer 5. As shown in FIG. 6, the bonding sheet 6 is a synthetic resin sheet having a constant width, and a plurality of through holes 63 are formed at regular intervals on both sides of the center. Therefore, as shown in FIG. 7, when the coating material is applied to the upper surface of the bonding sheet 6, a portion of the coating material is introduced into the through hole 63 to be integrally coupled to the upper surface of the waterproof sheet 4. . That is, the coupling sheet 6 integrally couples the neighboring waterproof sheets 4a and 4b by using the coating material passed through the through hole 63.

In addition, projections 65 protruding a predetermined length up and down are formed at regular intervals on both left and right sides of the center of the coupling sheet 6. Therefore, as shown in FIG. 7, when the coupling sheet 6 is installed on the upper surface of the edge of the neighboring waterproof sheets 4a and 4b and presses downward, the lower end of the protrusion 65 protruding downward is waterproof. The sheet 4 is inserted into the waterproof sheet 4a, 4b and the bonding sheet 6 integrally. In addition, when the coating film material is applied to the upper surface of the bonding sheet 6, the protrusions 65 protruding upward are impregnated in the coating material to integrally combine the bonding sheet 6 and the coating film material and adjoin the waterproof sheet ( 4a) and 4b are integrally combined. As described above, the bonding sheet 6 integrates the neighboring waterproof sheets 4a and 4b by using a plurality of through holes 63 and protrusions 65 to prevent breakage or overlapping of the waterproof sheet joints. It is possible to prevent the formation of the end waterway and the lifting of the junction portion.

Subsequently, the finish waterproof layer 7 may be formed of various coating materials such as urethane, urea, and inorganic flooring. In general, the waterproof sheet 4 does not have a high surface hardness, so when the user uses the roof, defects such as tearing occur. In order to prevent this, a finish waterproof layer 7 is formed by using a coating material having a large surface hardness.

The top coat layer 8 is formed on the top surface of the finish waterproof layer 7 to protect the finish waterproof layer 7 from ultraviolet rays or friction. At this time, the top coat layer 8 may be implemented by applying or spraying a water-soluble urethane, inorganic finish, urea and the like with a roller.

On the other hand, Figure 8 shows another embodiment of the composite waterproof structure (1) comprising a degassing tube according to the present invention, the concrete slab (2) including a vertical wall (2a) of the concrete slab (2) A plurality of degassing tubes 3 are installed on the upper surface at regular intervals and both ends are installed at a predetermined height by bending upwardly along the vertical wall 2a, and a coating film on the upper surfaces of the degassing tubes 3 and the concrete slabs 2. And a finish waterproof layer 7 formed by applying the material to a certain thickness. The top coat layer 8 is further provided on the top surface of the finish waterproof layer 7 to protect the finish waterproof layer from ultraviolet rays or friction.

As described above, the present embodiment omits the waterproof sheet 4 and the bonding sheet 6, and the concrete slab 2 is provided by installing a plurality of degassing tubes 3 between the concrete slab 2 and the finishing waterproof layer 7. By the water vapor pressure generated in the) it is to prevent the finishing waterproof layer 7 to be lifted. Since the rest of the structure is the same as the above-described embodiment, a detailed description thereof will be omitted.

Hereinafter, the degassing combined waterproofing method according to the present invention will be described.

As shown in Figure 9, the degassing composite waterproofing method according to the present invention consists of a pre-treatment step, degassing tube installation step, waterproof sheet installation step, bonding sheet installation step, finishing waterproof layer installation step, top coat layer installation step.

First, the pretreatment step (S10), as shown in Figure 10a, is a step of arranging the upper surface of the concrete slab 2 and the surface of the vertical wall (2a). That is, to repair the damaged portion formed on the upper surface of the concrete slab (2) or to remove foreign substances. Moreover, asphalt primer is apply | coated to the upper surface of the concrete slab 2 and the surface of the vertical wall 2a as needed.

Subsequently, in the degassing tube installation step (S20), the degassing tube 3 is installed on the upper surface of the concrete slab 2 at regular intervals. Since the degassing tube 3 is provided in a rolled tape, it can be easily installed on the upper surface of the concrete slab 2 while releasing the degassing tape 3A.

In this case, since the adhesive layer is not provided on the lower surface of the degassing tube 3, it is not necessary to adhere to the upper surface of the concrete slab 2, but in some cases, it may be fixed using a temporary fixture or partially using an adhesive. And both ends of the degassing tube (3) is installed at a constant height by bending upwards along the vertical wall (2a) installed perpendicular to the concrete slab (2).

In addition, the foreign matter blocking member 9 is horizontally attached to the front end of the degassing tube 3 installed on the vertical wall 2a so that rain water and foreign substances do not flow into the degassing tube 3.

Subsequently, the upper surface of the concrete slab (2) in which the degassing tube (3) is installed directly forms a coating film waterproof layer (7) or a plurality of waterproof sheets (4) and the bonding sheet (6) in turn and then the coating film waterproof layer on the upper surface (7) can be formed. This can be selected in consideration of economical efficiency, workability, etc., taking into consideration the basic physical properties and applied areas according to the thickness of the coating material.

In the present embodiment will be described a composite waterproof method for forming a waterproof film layer 7 after the waterproof sheet 4 and the bonding sheet 6 is installed. That is, the waterproof sheet installation step (S30) is a step of attaching a plurality of waterproof sheet 4 to the upper surface of the concrete slab (2) is installed degassing tube (3). The waterproof sheet 4 is made of butyl rubber, synthetic rubber or asphalt rubber attached to the TPO or PET film to perform a waterproof function. Therefore, a plurality of degassing tube (3) is fixed to the bottom by installing the waterproof sheet (4).

At this time, the sheet spacers 5 are formed at regular intervals between the neighboring waterproof sheets 4a and 4b. The sheet spacer 5 may be implemented by being spaced apart so that neighboring waterproof sheets 4a and 4b do not overlap, or by removing a space between the watertight sheets 4a and 4b which are butted together using a cutter. The sheet spacer 5 serves to cushion the waterproof sheet 4 when it is inflated.

Subsequently, as shown in FIG. 10B, as shown in FIG. 10B, the bonding sheet installation step (S40) may be performed by installing the bonding sheet 6 on the edge upper surface of the waterproof sheet 4a and 4b adjacent to the upper portion of the sheet spacer 5. Step. The bonding sheet 6 is a synthetic resin sheet having a predetermined width, and a plurality of through holes 63 are formed at regular intervals on both sides of the center, and a predetermined length vertically between or between the through holes 63. A plurality of protrusions 65 protruding are integrally formed. Therefore, when the coupling sheet 6 is installed on the upper part of the sheet separation part 5 formed between the neighboring waterproof sheets 4a and 4b and pressed downward, the protrusions 65 protrude from the lower surface of the coupling sheet 6. ) Is fixed to the neighboring waterproof sheet (4a) (4b).

And the finish waterproof layer forming step (S50), as shown in Figure 10c, by applying a coating waterproofing material to a predetermined thickness on the upper surface of the waterproof sheet 4, the coupling sheet 6 is installed to form a finish waterproof layer (7) Step. In this way, when the coating film waterproofing material is applied to the upper surface of the bonding sheet 6, a part of the coating waterproofing material passes through the through hole 63 of the bonding sheet 6 and integrally with the upper surface of the waterproof sheet 4 located below. Will be combined. In addition, the projections 65 formed to protrude on the upper surface of the bonding sheet 6 is impregnated in the coating film and then hardened to serve to integrally bond the bonding sheet 6 and the finishing waterproof layer 7 integrally.

And as shown in Figure 10d, the finish waterproof layer 7 performs a top coat layer forming step (S60) to form a top coat layer 8 on the upper surface. That is, when the coating waterproofing material is vulnerable to UV or weak in strength, the top waterproofing layer 7 is coated on top surface by spraying or spraying the top cord material such as water-soluble urethane, inorganic finishing material and urea with a roller. Can be formed.

Thus, in the construction method of the composite waterproof structure using the degassing tube according to the present invention, a plurality of degassing tubes (3) between the concrete slab (2) and the waterproof sheet (4) longitudinally and horizontally installed in the concrete slab (2) The water vapor pressure sheet 4 is discharged to the outside through the end of the degassing tube (3) installed along the vertical wall (2a) and then moved horizontally along the passage (31c) of the degassing tube (3) ) Is prevented from rising from the concrete slab 2 to rise upwards. In addition, when the sheet spaced portion (5) is formed at regular intervals between the neighboring waterproof sheet (4a) (4b) to shrink or expand in accordance with the change in temperature, by buffering it to prevent damage to the waterproof layer, the sheet space The coupling sheet 6 is installed on the upper surface of the portion 5 and the upper edge of the neighboring waterproof sheets 4a and 4b, and the plurality of through holes 63 and the protrusions 65 provided in the coupling sheet 6 are provided. By using the neighboring waterproof sheet (4a) (4b) and the combination of the finishing waterproof layer (7) formed on the top integrally to prevent the lifting phenomenon or damage.

In particular, the degassing tube (3) according to the present invention by combining the left and right ends of the lower film (31a) and the upper film (31b) integrally to form a flat tube, the lower film in contact with the upper surface of the concrete slab (2). A plurality of vent holes 33 are formed in the 31a, and the water vapor pressure generated from the concrete slab 2 flows into the vent passage 31c inside the degassing tube 3 through the plurality of vent holes 33. In order to flow in the horizontal direction, the inflow of water vapor pressure is smoother than that of the conventional degassing sheet, and the water vapor pressure once introduced into the degassing tube 3 moves along the air passage 31c formed in the form of a tube. There is an effect that can prevent the phenomenon of leakage to the outside.

In addition, the composite waterproof structure and the construction method using the degassing tube according to the present invention, the lower layer of the degassing tube 3 is not provided with an adhesive layer, the lower film (31a) is formed with a vent hole 33 in a simple structure, the Since the reinforcing sheet 35 installed on the upper surface of the degassing tube 3 has a width similar to that of the degassing tube 3, the structure is simple in its entirety. In addition, since the degassing tube 3 is provided in a rolled manner and is not a method of adhering to the upper surface of the concrete slab 2 using an adhesive layer, the construction of the degassing tube 3 is easy.

Although the above has been described with reference to a preferred embodiment of the present invention, those skilled in the art will be variously modified and changed within the scope of the invention without departing from the spirit and scope of the invention described in the claims below. I can understand that you can.

1: composite waterproof structure 2: concrete slab
2a: vertical wall 3: degassing tube
4: waterproof sheet 5: seat separation part
6: bonding sheet 7: finishing waterproof layer
8: top coat layer 9: foreign material blocking member
31a: lower film 31b: upper film
31c: Aeration 33: Aeration Hole
35: reinforcing sheet 63: through hole
65: protrusion 81: fixing part
82: cover portion 83: bend portion
84: adhesive layer

Claims (11)

In the composite waterproof structure installed on the upper surface of the concrete slab including at least one vertical wall,
The composite waterproof structure is installed on the upper surface of the concrete slab at regular intervals, both ends of the degassing tube is installed at a constant height by bending upwards along the vertical wall;
Includes; a waterproof layer is installed on a portion of the concrete slab and the degassing tube
The degassing tube has a width of 5 ~ 15cm and consists of an upper film and a lower film of an impermeable material,
Both left and right ends of the upper film and the lower film are integrally combined in the longitudinal direction and made of a flat and long tube shape.
The lower film is formed with a plurality of ventilation holes so that the water vapor pressure generated in the concrete slab flows into the inside, and the lower film is not formed with a ventilation hole so as to block air from the ventilation hole. An air passage is formed between the upper film and the upper film so that the water vapor pressure can move horizontally;
The upper surface of the upper film, the degassing tube is characterized in that the degassing tube is attached to the reinforcement sheet for preventing the degassing tube is greatly extended or expanded to the upper by the pressure of the water vapor pressure introduced into the ventilating tube Composite waterproof structure.
delete According to claim 1,
The reinforcing sheet is a composite waterproof structure comprising a degassing tube, characterized in that made of a non-woven fabric or synthetic resin film having a width similar to the degassing tube.
According to claim 1,
A plurality of waterproof sheets attached to upper surfaces of the concrete slab and the degassing tube;
Further comprising a; bonding sheet is attached to the upper surface of the sheet separation portion formed at regular intervals between the neighboring waterproof sheet and the edge upper surface of the neighboring waterproof sheet;
The bonding sheet is made of a synthetic resin sheet made of a constant width,
Composite waterproof structure comprising a degassing tube, characterized in that the plurality of through-holes are formed at regular intervals so as to be positioned on the upper and left sides of the waterproof sheet around the center.
delete delete According to claim 1,
The composite waterproof structure includes a degassing tube further comprising a debris blocking member further installed on the front end of the plurality of degassing tubes installed on the vertical wall to prevent rainwater or foreign matter from entering through the vent of the degassing tube. .
The method of claim 7, wherein
The foreign material blocking member is an extruded product made of plastic or metal, and a flat fixing part to be attached to the vertical wall, a cover part extending vertically from the fixing part and protruding the upper portion of the degassing tube; A composite waterproof comprising a degassing tube made of a bent portion bent to one side to surround the end of the degassing tube in the cover portion, it is installed in the horizontal direction to cover a plurality of degassing tubes rescue.
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