KR102601149B1 - Vent pipe assembly and water-proofing method of roof using the same and water-proofing sheet - Google Patents

Abstract

The present invention relates to a ventilation pipe assembly and a rooftop waterproofing method using the assembly and a waterproof sheet. The first ventilation pipe and the second ventilation pipe are inserted through the sheet cover covering the edge of the ventilation pipe penetration hole formed in the rooftop waterproofing waterproof sheet, The first ventilation pipe is inserted into the ventilation pipe insertion hole formed on the upper surface of the perforated exhaust pipe buried at the leakage point of the rooftop slab and covered with a transparent first waterproof cover in a fixed state to evaporate moisture or water at the leakage point of the rooftop slab, The second ventilation pipe is inserted and fixed to the upper surface of the press mortar layer formed on the buried point of the perforated exhaust pipe and covered with a transparent second waterproof cover, so that the non-woven fabric and PVC (PVC) materials are sequentially laminated on the press mortar layer. Evaporates moisture or water in the waterproof layer formed by the waterproof sheet.
According to the present invention, the state of moisture or water evaporation from the leak point of the rooftop slab or the waterproof layer of the rooftop slab can be easily and conveniently checked with the naked eye through a transparent waterproof cover without the need to separate the ventilation pipe after completing the waterproofing work, and the press forming the waterproof layer By interposing a non-woven fabric between the mortar layer and the waterproof sheet, it is possible to form a waterproof layer with an optimally minimized thickness (for example, about 10 cm) while preventing accidents in which the waterproof sheet is damaged by direct contact with the pressed mortar layer after completion of waterproofing work.

Description

Vent pipe assembly and roof waterproofing method using the assembly and waterproofing sheet {Vent pipe assembly and water-proofing method of roof using the same and water-proofing sheet}

The present invention relates to rooftop waterproofing technology, and more specifically, connects a ventilation pipe for the rooftop slab to evaporate and remove moisture or water at the leakage point of the rooftop slab, and connects a ventilation pipe for the waterproof layer to remove moisture or water in the waterproof layer formed on the rooftop slab. This relates to a ventilation pipe assembly that removes water by evaporating it and a rooftop waterproofing method using the assembly and waterproofing sheet.

In general, on the rooftop slab of a concrete building, an insulating layer made of insulating materials such as Styrofoam, a pressed mortar layer, and a waterproofing layer made of waterproofing materials such as urethane are sequentially formed to prevent water leakage.

If a crack occurs in the rooftop of a concrete building with a waterproofing layer as described above, moisture accumulates between the waterproofing layer and the rooftop slab, as shown in Figure 1, or in severe cases, water accumulates, resulting in gaps or gaps in the rooftop slab. Water leaks occur through cracks.

For reference, (a) in FIG. 1 is a cross-sectional view illustrating water leakage occurring in the rooftop slab 10 in which the insulation layer 11, the press mortar 12 layer, and the waterproofing layer 13 are sequentially formed. (b) is a photograph showing a state in which water is accumulated between the waterproof layer 13 and the rooftop slab 10, as shown in (a) of FIG. 1.

When a water leak occurs in the rooftop slab of a concrete building as described above, waterproofing work is usually done by installing a ventilation pipe at the leaking area.

Figure 2 is an example illustrating a method of installing a conventional ventilation pipe to prevent water leakage from the rooftop slab of a concrete building.

First, as shown in (b) of FIG. 1, a water leak point where water is accumulated is found on the rooftop slab 10, and the waterproof layer 13 and the press mortar layer 12 are exposed so that the surface of the rooftop slab 10 is exposed at the water leak point. ) and the insulation layer 11 are sequentially removed, then moisture on the surface of the exposed rooftop slab 10 is removed or stagnant water is scooped out.

Next, part of the surface of the exposed rooftop slab 10 is tilted so that water accumulates on the surface.

Next, an absorbent fabric 20 (e.g., non-woven fabric) that absorbs water accumulated is laid on the surface of the exposed rooftop slab 10, on which part of the surface is ground at an angle, and gravel is laid on the absorbent fabric 20 to a predetermined thickness. A gravel layer 30 is formed.

Next, at least two ventilation pipes (40) made of Poly Vinyl Chloride (PVC), which have ventilation holes drilled on the side of the lower part, pass through the gravel layer (30) and reach the absorbent fabric (20). Fix it. At this time, it is preferable to connect the upper end of the ventilation pipe 40 to a waterproof pipe 41 with a ventilation hole toward the ground so that the ventilation pipe 40 can be waterproofed.

After the ventilation pipe 40 is fixed as described above, the gravel layer 30 is plastered with a press mortar layer 12 using high-strength mortar, cured, and then the waterproof layer 13 is formed again with a waterproofing material such as urethane to expose the exposed rooftop. Waterproofing work is completed by refilling the slab surface.

As shown in FIG. 2, at least two or more conventional ventilation pipes 40 are installed through a natural evaporation method, that is, moisture absorbed into the absorbent fabric 20 (e.g., non-woven fabric) by an air flow naturally blowing from the outside. Because it is a method of evaporating water, it takes tens of days or months for the moisture or water to completely evaporate after completion of waterproofing work.

Meanwhile, since the conventional ventilation pipe 40 described above is made of an opaque PVC material, it is connected to the upper end of the ventilation pipe 40 whenever it is desired to visually check the state of moisture or water evaporation after completion of waterproofing work. There is the inconvenience of having to separate the waterproof pipe 41, and if serious damage occurs to the ventilation pipe 40 during the work of separating the waterproof pipe 41, there is a problem that inevitably leads to the resumption of waterproofing work.

(Patent Document 1) KR10-0769929 B1

The present invention is to solve the conventional problems as described above. The purpose of the present invention is to insert the first ventilation pipe and the second ventilation pipe through the sheet cover covering the edge of the ventilation pipe penetration hole formed in the waterproofing sheet for rooftop waterproofing. , The first ventilation pipe is inserted into the ventilation pipe insertion hole formed on the upper surface of the perforated exhaust pipe buried at the leakage point of the rooftop slab and covered with a transparent first waterproof cover in a fixed state to evaporate moisture or water at the leakage point of the rooftop slab. , the second ventilation pipe is inserted and fixed to the upper surface of the press mortar layer formed on the buried point of the perforated exhaust pipe, and covered with a transparent second waterproof cover, so that non-woven fabric and PVC (PVC) are sequentially laminated on the press mortar layer. It provides a ventilation pipe assembly that evaporates moisture or water in the waterproof layer formed by the waterproof sheet, and a rooftop waterproofing method using the assembly and the waterproof sheet.

In order to achieve the object of the present invention as described above, the ventilation pipe assembly according to the present invention includes a vertical ventilation pipe and a wing portion extending from the lower end of the vertical ventilation pipe, and the wing portion is an edge portion of a ventilation pipe penetration hole formed in a waterproofing sheet for rooftop waterproofing. a seat cover covering the; It is made of a top-and-bottom open cylinder, and is inserted through the inside of the vertical ventilation pipe of the seat cover, through the ventilation pipe through-hole, to the bottom of the perforated exhaust pipe, and is inserted at a certain distance from the bottom of the perforated exhaust pipe 140. When the upper end of the vertical ventilation pipe is completely inserted into the concave formed along the circumference of the outer surface, the descent is restricted and ventilation holes are drilled in the upper and lower ends, and the concave is formed by a protrusion protruding from the outer surface of the first ventilation pipe and the protrusion. A first ventilation pipe composed of a bending portion bent at a right angle downward toward the perforated exhaust pipe at the end of the bending portion, the bending portion forming an insertion groove between the outer surface of the first ventilation pipe; It is made of a top-and-bottom open cylinder, and is inserted and fixed through the inside of the vertical ventilation pipe of the seat cover, through the ventilation pipe penetration hole, from the rooftop slab to the upper surface of the press mortar layer formed on the buried point of the exhaust perforated pipe, and has ventilation holes at the upper end. A second ventilation pipe is perforated; A waterproof cover made transparently to cover the upper part of the first ventilation pipe or the second ventilation pipe and connected to the upper part of the ventilation pipe to prevent water from entering the upper opening of the ventilation pipe; And at least one cover that is buried at the leak point of the rooftop slab, has a cylindrical shape, has ventilation holes perforated in the side and bottom parts, and forms a ventilation pipe insertion hole into which the first ventilation pipe is inserted and fixed when separated and removed from the upper surface. A plate is formed on the upper surface, and on the bottom part, a ventilation pipe fixing groove is protruded into which the end of the first ventilation pipe inserted into the ventilation pipe insertion hole is inserted and fixed, and ventilation holes are formed into which an absorbent cloth buried in the water leakage point of the rooftop slab is inserted and fixed. It is characterized in that it consists of a perforated pipe for exhaust.

In the ventilation pipe assembly according to the present invention, the waterproof cover is connected to the upper part of the first ventilation pipe by a screw connection or interference fitting method and is connected to the upper part of the first ventilation pipe from the closed upper edge of the lower open transparent central ventilation pipe with ventilation holes perforated at the upper end. It is characterized by a transparent waterproof membrane slanted in the direction of the ground and formed in the shape of an umbrella.

In the ventilation pipe assembly according to the present invention, the waterproof cover is connected to the upper part of the second ventilation pipe by a screw connection method or an interference fit method and is connected to the upper part of the second ventilation pipe from the closed upper edge of the lower open transparent central ventilation pipe with ventilation holes perforated at the upper end. It is characterized by the formation of a transparent waterproof membrane that extends and curves in the direction of the ground.

In order to achieve the purpose of the present invention as described above, the rooftop waterproofing method using the vent pipe assembly and waterproof sheet according to the present invention is a rooftop waterproofing method using the vent pipe assembly and waterproof sheet according to the present invention, which is discovered as a water leak point. A first process of securing a waterproofing work space by removing moisture from the surface of the exposed rooftop slab or scooping out stagnant water; Following the first process, the perforated exhaust pipe is buried in the waterproofing work space secured on the surface of the exposed rooftop slab, and at least one vent pipe formed by separating and removing at least one cover plate of the buried perforated exhaust pipe A second process of inserting each of the first ventilation pipes into the insertion holes and fixing the ends of the first ventilation pipes by inserting them into the ventilation pipe fixing grooves protruding from the bottom of the perforated exhaust pipes; Following the second process, the perforated exhaust pipe is plastered with a press mortar layer and cured, and then a waterproof sheet made of non-woven fabric and PVC material is sequentially laminated on the press mortar layer, wherein the first ventilation pipe and the first ventilation pipe are placed on the waterproof sheet. A third process of forming a ventilation pipe penetration hole through which the second ventilation pipe passes and forming a waterproofing layer by connecting the waterproofing sheets exposed on the entire surface of the rooftop slab to each other using a layered joint method; Following the third process, a fourth process of extracting the first ventilation pipe inserted into the perforated exhaust pipe through a ventilation pipe penetration hole formed in the waterproof sheet forming the waterproof layer; Following the fourth process, the edge portion of the ventilation pipe penetration hole of the waterproof sheet from which the first ventilation pipe is missing is covered with the sheet cover, and the gap between the wing portion of the sheet cover and the waterproof sheet is sealed with a sealant, and then the first vent pipe is removed. The ventilation pipe is again inserted through the inside of the vertical ventilation pipe of the seat cover, through the ventilation pipe penetration hole, to the bottom of the perforated pipe for exhaust, and before or after inserting the first ventilation pipe to the bottom of the perforated exhaust pipe, the second The edge of the ventilation pipe penetration hole of the waterproof sheet for inserting the ventilation pipe is covered with the sheet cover, the gap between the wing portion of the sheet cover and the waterproof sheet is sealed with a sealant, and then the second ventilation pipe is installed perpendicularly to the sheet cover. A fifth process of inserting through the ventilation pipe through-hole through the inside of the ventilation pipe to the upper surface of the press mortar layer formed on the buried point of the perforated exhaust pipe; And following the fifth process, the upper part of the first ventilation pipe and the upper part of the second ventilation pipe are covered with the waterproof cover, and then the overlap joint portion of the waterproofing sheets exposed on the entire surface of the rooftop slab is joined to complete the waterproofing layer. It is characterized by consisting of 6 processes.

In the rooftop waterproofing method using a ventilation pipe assembly and a waterproof sheet according to the present invention, in the second process, the perforated exhaust pipe is buried in the waterproofing work space, and an absorbent cloth is used to absorb water collected on the surface of the exposed rooftop slab. After being fixed by inserting into the ventilation holes formed in the bottom part of the perforated exhaust pipe, the perforated exhaust pipe with the absorbent fabric fixed to the bottom part is seated on the surface of the exposed rooftop slab.

In the rooftop waterproofing method using a ventilation pipe assembly and a waterproof sheet according to the present invention, in the fifth process, the first ventilation pipe is again passed through the ventilation pipe through hole through the inside of the vertical ventilation pipe of the sheet cover to the bottom of the perforated pipe for exhaust. It is characterized in that it is inserted until the upper end of the vertical ventilation pipe is completely inserted into the concave formed along the circumference of the outer surface of the first ventilation pipe and its descent is limited.

In the rooftop waterproofing method using a ventilation pipe assembly and a waterproof sheet according to the present invention, the sixth process is characterized in that the overlapping joints of the waterproof sheets are joined with a heat splicer (for example, a PVC welding gun, etc.).

According to the present invention, the state of moisture or water evaporation from the leakage point of the rooftop slab or the waterproof layer of the rooftop slab can be easily and conveniently checked with the naked eye through a transparent waterproof cover without the need to separate the ventilation pipe after completing the waterproofing work.

In addition, when a non-woven fabric is interposed between the press mortar layer forming the waterproof layer and the waterproof sheet according to the present invention, the waterproof sheet has an optimally minimized thickness (e.g., 10 cm) while preventing accidents where the waterproof sheet is damaged by direct contact with the press mortar layer after completion of waterproofing work. degree) can form a waterproof layer.

Figure 1 is an embodiment illustrating water leakage occurring in the rooftop slab of a concrete building.
Figure 2 is an embodiment illustrating a method of installing a conventional ventilation pipe to prevent water leakage from the rooftop slab of a concrete building.
Figure 3 is a perspective view of a ventilation pipe assembly according to the present invention.
Figure 4 is an exploded perspective view of Figure 3.
Figure 5 is an embodiment illustrating a rooftop waterproofing method using a ventilation pipe assembly and a waterproofing sheet according to the present invention.
Figure 6 is a plan view showing a state in which the waterproofing sheets exposed on the entire surface of the rooftop slab are connected to each other using a layered joint method to form a waterproofing layer.
Figure 7 is an exploded perspective view of the second ventilation pipe fixed on the waterproof layer.

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

The ventilation pipe assembly and the rooftop waterproofing method using the assembly and the waterproofing sheet according to the present invention described below are not limited to the examples below, and can be used in the general technical field without departing from the gist of the technology claimed in the claims. The technical spirit is there to the extent that anyone with knowledge can change and implement it.

Referring to FIGS. 3 to 6, the ventilation pipe assembly 100 according to the present invention is installed at a leak point of the rooftop slab of a concrete building to not only evaporate moisture or water at the leak point, but also collect moisture and water from around the leak point. Evaporates any moisture or water.

The ventilation pipe assembly 100 according to the present invention includes a seat cover 110, a first ventilation pipe 120, a second ventilation pipe 120', waterproof covers 130 and 130', and a perforated exhaust pipe 140.

The sheet cover 110 includes a vertical vent pipe 111 and a wing portion 112 extending from a lower end of the vertical vent pipe 111, and the wing portion 112 penetrates the vent pipe formed on the waterproof sheet 100c for rooftop waterproofing. Cover the edge of the ball (100c').

The first ventilation pipe 120 is made of a vertical ventilation pipe 111 of the seat cover 110, passes through the ventilation pipe through hole 100c', and reaches the bottom of the perforated exhaust pipe 140. It is inserted up to the part so as to be spaced apart from the bottom of the perforated exhaust pipe 140 by a certain distance, and when the upper end of the vertical ventilation pipe 111 is completely inserted into the concave portion 121 formed along the circumference of the outer surface, the descent is limited. Ventilation holes 122 and 123 are perforated at the upper and lower ends, and the concave portion 121 includes a protrusion 121a protruding from the outer surface of the first vent pipe 120 and a perforated exhaust pipe at the end of the protrusion 121a. It is composed of a bending portion 121b bent at a right angle downward toward 140, and the bending portion 121b forms an insertion groove 121c between the outer surface of the first ventilation pipe 120.

The second ventilation pipe 120' is manufactured as a top-and-bottom open cylinder, and passes through the ventilation pipe penetration hole 100c' through the inside of the vertical ventilation pipe 111 of the seat cover 110 to the rooftop slab 10. It is inserted and fixed to the upper surface of the press mortar layer (100a) formed on the buried point of the perforated exhaust pipe 140, and ventilation holes 121' are drilled at the upper end.

The waterproof cover (130, 130') is transparently manufactured to cover the upper part of the first ventilation pipe (120) or the second ventilation pipe (120'), and is connected to the upper part of the ventilation pipe (120, 120'). ') prevents water from entering the top opening.

In an embodiment of the present invention, the waterproof covers 130 and 130' are two different shapes covering the upper portions of the first ventilation pipe 120 and the second ventilation pipe 120', respectively, which have different shapes as described above. paper is used.

Among the two types of waterproof covers (130, 130') of different shapes, the waterproof cover (130) covering the upper part of the first ventilation pipe (120) is screwed or press-fitted to the upper part of the first ventilation pipe (120). A transparent waterproof membrane 132 inclined toward the ground from the closed upper edge of the lower open transparent central ventilation pipe 131 connected to and having ventilation holes 131a perforated at its upper end is formed in an umbrella shape.

Among the two types of waterproof covers (130, 130') of different shapes, the waterproof cover (130') covering the upper part of the second ventilation pipe (120') is screwed or pressed to the upper part of the second ventilation pipe (120'). A transparent waterproof membrane 132' is formed that bends and extends in the direction of the ground from the closed upper edge of the lower open type transparent central ventilation pipe 131', which is connected by a fitting method and has ventilation holes 131a' perforated at the upper end. .

The perforated pipe 140 for exhaust is buried at a water leak point of the rooftop slab 10, has a cylindrical shape, and has ventilation holes 141 perforated in the side and bottom portions. When separated and removed from the upper surface, the first ventilation pipe 120 ) is formed on the upper surface, and at least one cover plate 142 forming the ventilation pipe insertion hole 142a into which the The ventilation pipe fixing groove 143, into which the end is inserted and fixed, protrudes, and ventilation holes 144 into which the absorbent fabric 20, which is embedded in the water leak point of the rooftop slab 10, is inserted and fixed are formed.

The cover plate 142 is connected to the upper surface of the perforated exhaust pipe 140 by a connecting part 142', and is separated from the upper surface by cutting the connecting part 142'.

3 to 5 illustrate the perforated exhaust pipe 140 made of a rectangular shape. However, in the case where the perforated exhaust pipe 140 is circular, the area where the existing waterproofing layer is removed from the water leak point of the rooftop slab 10 is circular, A cylindrical perforated exhaust pipe can be used.

In this way, the perforated exhaust pipe 140 according to the present invention can be manufactured as a solid body in a shape such as rectangular, circular, square, oval, etc., depending on the shape of the area where the existing waterproof layer is removed from the water leak point of the rooftop slab 10. there is.

The rooftop waterproofing method using the ventilation pipe assembly 100 according to the present invention configured as described above consists of the first to sixth processes and is performed as follows.

As shown in FIG. 5, the ventilation pipe assembly 100 is installed at a water leak point of the rooftop slab 10 of a concrete building to prevent water leakage at the water leak point.

First, when a water leak point is discovered on the rooftop slab (10) of a concrete building, the existing waterproof layer on the surface of the rooftop slab (10) is removed from the water leak point, and then the moisture on the surface of the exposed roof slab (10) is removed or the accumulated water is removed. Scoop out to secure space for waterproofing work (1st process).

Once the waterproofing work space is secured as described above, the perforated exhaust pipe 140 is buried in the waterproofing work space secured on the surface of the exposed rooftop slab 10, and at least one of the buried perforated exhaust pipes 140 is installed. Insert the first ventilation pipe 120 into each of the at least one ventilation pipe insertion hole 142a formed by removing the cover plate 142, and insert the end of the first ventilation pipe 120 into the perforated exhaust pipe 140. ) and secure it by inserting it into the ventilation pipe fixing groove 143 protruding from the bottom of the pipe (second process).

For example, as shown in FIG. 3, the first ventilation pipe 120 can be fixed to any one ventilation pipe insertion hole 142a formed in the perforated exhaust pipe 140.

In this case, the perforated exhaust pipe 140 is buried in the waterproof work space, and an absorption cloth 20 that absorbs water collected on the exposed surface of the rooftop slab 10 is placed on the bottom of the perforated exhaust pipe 140. After being fixed by inserting into the ventilation holes 144 (see FIG. 4) formed in the portion, the perforated exhaust pipe 140, in which the absorbent fabric 20 is fixed to the bottom portion, is placed on the exposed surface of the rooftop slab 10. It settles on top.

After at least one first ventilation pipe 120 is fixed to the perforated exhaust pipe 140 buried in the waterproof work space as described above, a mortar layer 100a is pressed on the perforated exhaust pipe 140 (FIG. 5 After plastering and curing with (reference), a non-woven fabric (100b) and a waterproofing sheet (100c) made of PVC are sequentially laminated on the press mortar layer (100a), and the first A ventilation pipe penetration hole 100c' through which the ventilation pipe 120 and the second ventilation pipe 120' passes is formed, and the waterproofing sheets 100c exposed on the entire surface of the rooftop slab 10 are connected to each other using an overlapping joint method. This forms a waterproof layer (third process).

After forming a waterproof layer by connecting the waterproof sheets (100c) exposed on the entire surface of the rooftop slab (10) with each other using a layered joint method as described above, the ventilation pipe through hole formed in the waterproof sheet (100c) on which the waterproof layer was formed The ventilation pipes 120 and 120' inserted into the perforated exhaust pipe 140 are removed through (100c') (fourth process).

Accordingly, as shown in FIG. 6, the waterproof sheets 100c are connected to each other in an overlapping joint manner, and the ventilation pipe through-hole 100c' through which the first ventilation pipe 120 and the second ventilation pipe 120' pass ) A waterproof layer with perforations is formed.

After the waterproof layer as shown in FIG. 6 is formed, the edge portion of the ventilation pipe penetration hole 100c of the waterproof sheet 100c, where the first ventilation pipe 120 is missing, is covered with the sheet cover 110 and the sheet cover ( The gap between the wing portion 112 of the 110) and the waterproof sheet 100c is sealed with a sealant (e.g., silicone, etc.), and then the first ventilation pipe 120 is again connected to the vertical ventilation pipe of the sheet cover 110 ( 111) It is inserted through the ventilation pipe through hole 100c' through the inside to the bottom of the perforated exhaust pipe 140 (fifth process).

In addition, the edge portion of the ventilation pipe through hole 100c of the waterproof sheet 100c for inserting the second ventilation pipe 120' is covered with the sheet cover 110 and the wing portion 112 of the sheet cover 110 ) and the waterproof sheet 100c are sealed with a sealant (e.g., silicone, etc.), and then the second ventilation pipe 120' is passed through the vertical ventilation pipe 111 of the sheet cover 110. It is inserted through the through hole 100c' to the upper surface of the press mortar layer 100a formed on the buried point of the perforated exhaust pipe 140 (fifth process).

In this case, the first ventilation pipe 120 is inserted again through the inside of the vertical ventilation pipe 111 of the seat cover 110, through the ventilation pipe penetration hole 100c', and up to the bottom of the perforated exhaust pipe 140. It is inserted to be spaced apart from the bottom of the exhaust hole perforated pipe 140 by a certain distance, and the upper end of the vertical ventilation pipe 111 is completely inserted into the concave portion 121 formed along the circumference of the outer surface of the first ventilation pipe 120 and lowered. Insert until limited.

In the fifth process described above, the first ventilation pipe 120 is inserted to the bottom of the exhaust perforated pipe 140, and the second ventilation pipe 120' is formed above the buried point of the exhaust perforated pipe 140. The process of inserting the press mortar layer 100a to the upper surface is not set in stone and may change depending on the site situation.

For example, before or after inserting the first ventilation pipe 120 to the bottom of the perforated pipe 140 for exhaust, the second ventilation pipe 120' is formed on the buried point of the perforated pipe 140 for exhaust. A press mortar layer ( 100a) Can be inserted up to the top.

After both the first ventilation pipe 120 and the second ventilation pipe 120' are fixed as described above, the upper part of the ventilation pipe 120, 120' is finally covered with the waterproof cover 130, 130', and then the roof slab 10 is covered. The waterproof layer is completed by joining the overlapping joints of the waterproof sheets (100c) exposed on the entire surface (6th process).

At this time, the second ventilation pipe 120' and the waterproof cover 130' are fixed on the waterproof layer, as shown in FIG. 7, and the waterproof sheets 100c have their overlapping joints formed by heat fusion (e.g., PVC welding). It is preferable to join with a gun, etc.).

As can be seen from the above, according to the present invention, after completion of waterproofing work, there is no need to separate the ventilation pipe 40 as in the prior art, but the water leak point of the rooftop slab 10 or the rooftop slab ( The evaporation state of moisture or water in the waterproofing layer of 10) can be easily and conveniently checked with the naked eye.

In addition, when a non-woven fabric (100b) is interposed between the press mortar layer (100a) that forms the waterproof layer according to the present invention and the waterproof sheet (100c) made of PVC material, the PVC material is formed after completion of the waterproofing work. It is possible to form a waterproof layer with an optimally minimized thickness (for example, about 10 cm) while preventing accidents in which the waterproof sheet 100c is damaged by direct contact with the press mortar layer 100a.

10: Rooftop slab 11: Insulation layer
12: Pressed mortar layer 13: Waterproofing layer
20: Absorbent cloth 30: Gravel layer
40: Ventilation pipe 41: Waterproof pipe
100: Ventilation pipe assembly
110: Seat cover 111: Vertical ventilation pipe
112: Wing 120: First ventilation pipe
121: recess 122,123: ventilation hole
120': Second ventilation pipe 121': Ventilation hole
130,130': Waterproof cover 131a,131a': Ventilation hole
131,131': Transparent central ventilation pipe 132,132': Transparent waterproof membrane
140: Perforated pipe for exhaust 141: Ventilation hole
142: cover plate 142': connection part
142a: Ventilation pipe insertion hole 143: Ventilation pipe fixing groove
144: Ventilation hole
100a: pressed mortar layer 100b: non-woven fabric
100c: Waterproof sheet 100c': Ventilation pipe penetration hole

Claims (7)

It includes a vertical ventilation pipe 111 and a wing portion 112 extending from the lower end of the vertical ventilation pipe 111, and the wing portion 112 is an edge of the ventilation pipe penetration hole 100c' formed in the rooftop waterproofing waterproof sheet 100c. A sheet cover 110 covering the portion;
It is manufactured as a top-and-bottom open cylinder, and is inserted through the inside of the vertical ventilation pipe 111 of the seat cover 110, through the ventilation pipe penetration hole 100c', and up to the bottom of the perforated exhaust pipe 140. It is inserted to be spaced apart from the bottom part of (140) by a certain distance, and when the upper end of the vertical ventilation pipe 111 is completely inserted into the concave portion 121 formed along the circumference of the outer surface, the descent is restricted and ventilation holes ( 122 and 123) are perforated, and the concave portion 121 is formed at a right angle downward toward the perforated exhaust pipe 140 from the end of the protrusion 121a protruding from the outer surface of the first ventilation pipe 120 and the protrusion 121a. A first ventilation pipe (120) composed of a bent bending portion (121b), wherein the bending portion (121b) forms an insertion groove (121c) between the outer surface of the first ventilation pipe (120) and the bending portion (121b);
It is manufactured as a top-and-bottom open cylinder, and passes through the ventilation pipe penetration hole (100c') through the inside of the vertical ventilation pipe (111) of the seat cover (110) to the buried point of the perforated exhaust pipe (140) on the rooftop slab (10). A second ventilation pipe (120') is inserted and fixed to the upper surface of the pressing mortar layer (100a) formed thereon and has ventilation holes (121') drilled at the upper end;
It is transparently manufactured to cover the upper part of the first ventilation pipe 120 or the second ventilation pipe 120', and is connected to the upper part of the ventilation pipe 120 or 120' so that water flows through the upper opening of the ventilation pipe 120 or 120'. Two types of waterproof covers (130, 130') with different shapes to prevent entry; and
It is buried at the water leak point of the rooftop slab 10, has a cylindrical shape, and has ventilation holes 141 perforated in the side and bottom parts, and is a ventilation pipe insertion hole into which the first ventilation pipe 120 is inserted and fixed when separated and removed from the upper surface. At least one cover plate 142 forming (142a) is formed on the upper surface, and the bottom part has a ventilation pipe fixing groove into which the end of the first ventilation pipe 120 inserted into the ventilation pipe insertion hole 142a is inserted and fixed. An exhaust perforated pipe (140) in which (143) protrudes and ventilation holes (144) are formed into which the absorption cloth (20) embedded in the water leak point of the rooftop slab (10) is inserted and fixed;
It consists of,
The waterproof cover 130 is connected to the upper part of the first ventilation pipe 120 by a screw coupling method or an interference coupling method, and is connected to the upper part of the first ventilation pipe 120 by blocking the lower open transparent central ventilation pipe 131 with ventilation holes 131a perforated at the upper end. It is characterized in that the transparent waterproof membrane 132 slanted from the top edge toward the ground is formed in the shape of an umbrella,
The waterproof cover (130') is connected to the upper part of the second ventilation pipe (120') by screw coupling or interference fitting, and has a lower open transparent central ventilation pipe (131) in which ventilation holes (131a') are perforated at the upper end. A ventilation pipe assembly characterized in that a transparent waterproof membrane (132') is formed curved and extending from the closed upper edge of the vent pipe in the direction of the ground. delete delete As a rooftop waterproofing method using the ventilation pipe assembly (100) of paragraph 1,
A first process of securing a waterproofing work space by removing moisture or scooping out stagnant water on the surface of the exposed rooftop slab (10) discovered as a water leak point;
Following the first process, the perforated exhaust pipe 140 is buried in the waterproofing work space secured on the surface of the exposed rooftop slab 10, and at least one cover plate 142 of the buried perforated exhaust pipe 140 is installed. ) is inserted into each of the at least one ventilation pipe insertion hole 142a formed by separating and removing the end of the first ventilation pipe 120 to the bottom of the perforated exhaust pipe 140. A second process of fixing it by inserting it into the protruding ventilation pipe fixing groove 143;
Following the second process, the perforated exhaust pipe 140 is plastered with a press mortar layer 100a and cured, and then a waterproof sheet made of non-woven fabric 100b and PVC is placed on the press mortar layer 100a. (100c) are sequentially stacked, forming a ventilation pipe penetration hole (100c') through which the first ventilation pipe (120) and the second ventilation pipe (120') pass in the waterproof sheet (100c), and forming the roof slab (10). A third process of forming a waterproof layer by connecting the waterproof sheets (100c) exposed on the entire surface to each other using a layered joint method;
Following the third process, the first ventilation pipe 120 inserted into the perforated exhaust pipe 140 is passed through the ventilation pipe penetration hole 100c' formed in the waterproof sheet 100c forming the waterproof layer. 4 courses;
Following the fourth process, the edge portion of the ventilation pipe penetration hole 100c of the waterproof sheet 100c, where the first ventilation pipe 120 is missing, is covered with the sheet cover 110 and the wing portion of the sheet cover 110 ( The gap between 112) and the waterproof sheet 100c is sealed with a sealant, and then the first ventilation pipe 120 is again passed through the inside of the vertical ventilation pipe 111 of the sheet cover 110 to the ventilation pipe penetration hole 100c'. is inserted to the bottom of the perforated exhaust pipe 140, and the second vent pipe 120' is inserted before or after inserting the first vent pipe 120 to the bottom of the perforated exhaust pipe 140. In order to do this, the edge of the ventilation pipe through hole 100c of the waterproof sheet 100c is covered with the sheet cover 110 and a gap is formed between the wing portion 112 of the sheet cover 110 and the waterproof sheet 100c. After being sealed with a sealant, the second ventilation pipe 120' is passed through the ventilation pipe penetration hole 100c' through the inside of the vertical ventilation pipe 111 of the seat cover 110 to the buried point of the perforated exhaust pipe 140. A fifth process of inserting the upper surface of the press mortar layer (100a) formed above; and
Following the fifth process, among the two types of waterproof covers 130 and 130' of different shapes, the waterproof cover 130 that covers the upper part of the first ventilation pipe 120 is screwed to the upper part of the first ventilation pipe 120. Alternatively, a transparent waterproof membrane 132 inclined toward the ground from the closed upper edge of the lower open transparent central ventilation pipe 131, which is connected by interference fitting and has ventilation holes 131a perforated at the upper end, is formed in an umbrella shape, ,
Among the two types of waterproof covers (130, 130') of different shapes, the waterproof cover (130') covering the upper part of the second ventilation pipe (120') is screwed or pressed to the upper part of the second ventilation pipe (120'). A transparent waterproof membrane 132' is formed that extends in a curved direction toward the ground from the closed upper edge of the lower open type transparent central ventilation pipe 131', which is connected by a fitting method and has ventilation holes 131a' perforated at its upper end. Next, a sixth process of completing the waterproofing layer by joining the overlapping joint portions of the waterproofing sheets (100c) exposed on the entire surface of the rooftop slab (10);
It consists of
In the second process, the perforated exhaust pipe 140 is buried in the waterproof work space, and an absorption cloth 20 for absorbing water collected on the exposed surface of the rooftop slab 10 is added to the perforated exhaust pipe 140. After fixing it by inserting it into the ventilation holes 144 formed on the bottom part, the perforated exhaust pipe 140, on which the absorbent fabric 20 is fixed on the bottom part, is seated on the exposed surface of the rooftop slab 10. Characterized by,
In the fifth process, the first ventilation pipe 120 passes through the ventilation pipe penetration hole 100c' through the inside of the vertical ventilation pipe 111 of the seat cover 110 to the bottom of the perforated exhaust pipe 140. It is inserted so as to be spaced apart from the bottom of the exhaust hole perforated pipe 140 by a certain distance, and the upper end of the vertical ventilation pipe 111 is completely inserted into the concave portion 121 formed along the circumference of the outer surface of the first ventilation pipe 120. Characterized by inserting until it is inserted and the descent is limited,
In the sixth process, a rooftop waterproofing method using a ventilation pipe assembly and a waterproof sheet is characterized in that the overlapping joint portions of the waterproof sheets (100c) are joined with a heat fusion machine. delete delete delete

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