KR20130090178A - Construction structure and method for roof top insulation and waterproof - Google Patents

Abstract

PURPOSE: A structure and a method for constructing insulating and waterproof layers on a building rooftop is provided to construct an insulating panel and a waterproof layer on the rooftop, thereby effectively insulating and waterproof-processing the rooftop. CONSTITUTION: A structure for constructing insulating and waterproof layers on a building rooftop (1) includes a fixtures (10), insulating panels (20), waterproofing foam (30), and a waterproofing layer (40). A plurality of the fixtures is installed on the top surface of the rooftop. A plurality of the insulating panel is joined to the fixtures and arranged. The waterproofing foam is packed between the insulating panels, and the waterproofing layer is placed on the top surface of the top surfaces of the insulating panels. The fixture includes a supporting panel (11) and a fixing rib (12). The fixing rib is extended from the periphery of the supporting panel to the front side so that the insulating layer is fitted into the fixing rib.

Description

Construction structure and method for roof top insulation and waterproof

The present invention relates to a new building roof insulation waterproof construction and method that can improve the insulation effect and waterproof performance of the roof of the building.

In general, the wall surface of the building is attached to the insulating material is configured to insulate.

However, the rooftop of the building is not only heated directly at the temperature of the sunlight in summer, but also heated to a higher temperature than the sidewall, and in the winter, the heat of the heated indoor air flows out through the rooftop. Higher degrees of thermal insulation may be required.

However, until now, the roof top has only waterproof coating on the upper surface, and only the method of attaching and fixing the heat insulating material on the lower side of the slab forming the roof has been performed.

Therefore, since the roof of the building is difficult to sufficiently insulate, there is a need for a new building roof insulation waterproof construction and method that can improve the insulation performance of the roof of the building.

On the other hand, in recent years, a dry method for fixing a heat insulation panel to a side wall surface of a building using a fixture, and a semi-dry method for fixing the heat insulation panel to a wall surface of a building using an adhesive and a fixture together has been widely used.

Patent Publication 10-2006-0080833 Patent Registration 10-0777142 Patent Registration 10-0950086 Patent Registration 10-0135675

The present invention has been made to solve the above problems, and an object of the present invention is to provide a new building roof insulation waterproof construction and method that can improve the heat insulation effect and waterproof performance of the building roof.

The above objects and various advantages of the present invention will become more apparent from the preferred embodiments of the present invention by those skilled in the art.

According to the present invention for achieving the above object, a plurality of fasteners (10) fixed to the upper surface of the rooftop (1), coupled to the fixture 10 to cover the upper surface of the rooftop (1) to form a wide plane It includes a plurality of insulation panels 20, a waterproof foam 30 is filled in the gap between the insulation panel 20, and a waterproof layer 40 laminated on the upper surface of the insulation panel 20, Fixture 10 is a support panel 11 is formed with a through hole (11a) is coupled to the anchor bolt 13, and extends forward from the circumferential surface of the support panel 11 fixed to the heat insulating panel 20 Provided is a building roof insulation waterproof construction structure comprising a plurality of fixed ribs 12 that are.

According to another feature of the invention, the upper peripheral portion of the heat insulating panel 20 is formed with a concave groove 21 is filled with the waterproof foam 30, the waterproof foam 30 is the concave groove 21 The building roof insulation waterproof construction is provided, characterized in that the gap between the interior and the insulation panel 20 is filled to have a T-shaped cross section.

According to another feature of the invention, the waterproof foam 30 is provided with a building roof insulation waterproof construction structure, characterized in that the epoxy foam or urethane foam.

According to another feature of the invention, the adhesive layer 50 is formed between the top surface of the rooftop 1 and the heat insulation panel 20, the heat insulation panel 20 on the top surface of the rooftop (1) Provided is a building roof insulation waterproof construction structure characterized in that the adhesive fixing.

According to another feature of the invention, the waterproof layer 40 is a mortar layer 41 laminated on the upper surface of the heat insulation panel 20, and the waterproof coating layer 42 laminated on the upper surface of the mortar layer 41 and In addition, there is provided a building roof insulation waterproof construction structure comprising a top coating layer 43 laminated on the upper surface of the waterproof coating layer 42.

According to another feature of the invention, the waterproof layer 40 is a mortar layer 41 laminated on the upper surface of the heat insulation panel 20 and a plurality of waterproof plates disposed to cover the upper surface of the mortar layer 41. 45 and a top coating layer 43 laminated on the upper surface of the waterproof plate 45, wherein the periphery of the waterproof plate 45 is taped to seal the gap between the waterproof plate 45. Provided is a building roof insulation waterproof construction.

According to another feature of the invention, the rooftop (1) is formed with a drain hole 2, the upper surface of the heat insulating panel 20 is characterized in that the gradient is formed so as to slope downward toward the drain hole (2) Roof insulation waterproof construction is provided.

According to another feature of the invention, the side of the fixed rib 12 is formed with a ratchet portion 12a inclined toward the proximal end, the insulating panel 20 coupled to the fixed rib 12 is the ratchet portion There is provided a building roof insulation waterproof construction structure which is prevented from being caught by (12a).

According to another feature of the invention, the length (L1) of the fixed rib 12 is longer than the thickness (L2) of the heat insulating panel 20 when the heat insulating panel 20 is fitted to the fixed rib 12. The end of the fixing rib 12 is configured to protrude to the upper surface of the heat insulating panel 20, the heat insulating panel 20 after inserting the heat insulating panel 20 to the fixing rib 12 of the fixture 10. Bending the end of the fixing rib 12 protruding to the upper surface of the building is provided a roof construction waterproof waterproof construction characterized in that it is possible to fix the heat insulating panel (20).

According to another feature of the present invention, the fixing rib 12 has a weak portion 12c having a lower strength than other portions, and when the end of the fixed rib 12 is bent, the fixed rib 12 is the weak portion. There is provided a building roof insulation waterproof construction structure which is bent from 12c.

On the other hand, according to the present invention for achieving the above object, the step of fixing the fixture 10 to the upper surface of the rooftop 1, a plurality of insulating panels 20 to cover the upper surface of the rooftop 1 to form a wide plane ) Fixedly coupled to the fixture 10, and filling the waterproof foam 30 in the gap between the heat insulating panel 20 to prevent the gap between the heat insulating panel 20, and the heat insulating panel 20 Provided is a building roof insulation waterproof construction method comprising the step of laminating a waterproof layer 40 on the upper surface.

According to another feature of the present invention, there is provided a building roof insulation waterproof construction method further comprising the step of applying an adhesive on the upper surface of the roof (1) or the lower side of the insulation panel (20).

According to the building roof insulation waterproof construction and method according to the present invention, the fixing fixture 10 is fixed to the upper surface of the roof by using the anchor bolt 13, the insulation panel 20 to the fixture 10 ), And then, the watertight foam 20 is filled in the gaps between the insulation panels 20 to seal the gaps between the insulation panels 20 to install the insulation panels 20. In addition, when the waterproof foam 30 is cured, the construction may be completed by laminating and curing the mortar layer 41, the waterproof coating layer 42, and the top coating layer 43 on the upper surface of the heat insulation panel 20.

Therefore, while the heat insulation panel 20 can be installed on the upper surface of the rooftop 1, which has not been insulated in the related art, the waterproof layer 40 can be applied to the upper surface thereof to more effectively insulate and waterproof the rooftop 1. There is an advantage.

1 is a side cross-sectional view showing a building roof insulation waterproof construction structure according to the present invention,
Figure 2 is a perspective view showing a fixture of a building roof insulation waterproof construction structure according to the present invention,
3 is a perspective view showing an insulation panel of a building roof insulation waterproof construction structure according to the present invention,
4 to 7 is a view showing a building roof insulation waterproof construction structure according to another embodiment of the present invention,
8 is a side cross-sectional view showing a second embodiment of a building roof insulation waterproof construction structure according to the present invention,
9 is a perspective view showing a fixture of a second embodiment of a building roof insulation waterproof construction structure according to the present invention,
Figure 10 is a side cross-sectional view showing a building roof insulation waterproof construction method according to the present invention.

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

1 to 3 illustrate a building roof insulation waterproof construction structure according to the present invention, a plurality of fasteners 10 are fixed to the upper surface of the rooftop 1 and coupled to the fasteners 10 and the rooftop (1). A plurality of heat insulation panels 20 arranged to cover a top surface of the cover) to form a wide plane, a waterproof foam 30 filled in a gap between the heat insulation panels 20, and stacked on the top surface of the heat insulation panel 20. It is composed of a waterproof layer (40).

In detail, the fixture 10 has a support panel 11 having a through hole 11a to which the anchor bolt 13 is coupled, as shown in FIG. 2, and a circumferential surface of the support panel 11. Consists of a plurality of fixed ribs 12 extending forward in the.

The support panel 11 of the fixture 10 is formed in a plate shape of a long square to the left and right and the through hole (11a) is formed on both sides. The fixing rib 12 extends forward from both sides in the longitudinal direction of the support panel 11. At this time, the fixed rib 12 is formed by cutting the metal plate so that the proximal end is integrally connected to both sides of the support panel 11 in the longitudinal direction, and the support panel 11 and the fixed rib 12 are integrally connected. After that, the fixing ribs 12 may be bent forward to produce the fixture 10.

In addition, a ratchet portion 12a inclined toward the proximal end is formed at a side of the fixed rib 12 so that the thermal insulation panel 20 coupled to the fixed rib 12 is not caught by the ratchet portion 12a.

The heat insulation panel 20 is made of a foamed synthetic resin material such as styrofoam, and is configured in a wide plate shape so that the heat insulation panel 20 is laterally connected to form a wide plane. At this time, as shown in Figure 3, the upper peripheral portion of the heat insulating panel 20 is formed with a concave groove 21 is filled with the waterproof foam 30.

The waterproof foam 30 uses epoxy foam or urethane foam having excellent waterproofness and adhesiveness, and is injected and cured in a gap between the insulating panels 20 in which the side surfaces are in close contact or fine space. It serves to prevent gaps. At this time, since the concave groove 21 is formed in the upper circumferential portion of the heat insulating panel 20, the waterproof foam 30 has a T-shaped cross section in the gap between the inside of the concave groove 21 and the heat insulating panel 20. It is filled to have a shape. In addition, when the lower side surface of the insulation panel 20 is spaced apart from the upper surface of the rooftop 1, as shown in FIG. 1, the waterproof foam 30 flows into the lower side of the insulation panel 20 to insulate it. The lower portion of the panel 20 is filled.

The waterproof layer 40 includes a mortar layer 41 stacked on an upper surface of the heat insulation panel 20, a waterproof coating layer 42 stacked on an upper surface of the mortar layer 41, and an upper surface of the waterproof coating layer 42. The top coating layer 43 is laminated on.

Thus, the waterproof layer 40 composed of the mortar layer 41, the waterproof coating layer 42 and the top coating layer 43 is widely used for waterproofing the rooftop, a detailed description thereof will be omitted.

Reference numeral 12b, which is not described, illustrates a wedge member formed by cutting the middle portion of the fixed rib 12 into a triangle and then bending it laterally, when the insulation panel 20 is fitted to the fixed rib 12, the wedge member. 12b is fixed to the insulation panel 20 so that the insulation panel 20 does not fall out.

As described above, according to the building roof insulation waterproof construction structure according to the present invention, using the anchor bolt 13 to fix the fastener 10 to the roof surface (1) upper surface of the building, the heat insulating panel ( 20 and the insulation panel 20 is fixed so as to cover the entire rooftop 1 upper surface, and then the waterproof foam 30 is filled in the gap between each insulation panel 20 to seal the gap between the insulation panels 20. To install the thermal insulation panel (20). When the waterproof foam 30 is cured, the mortar layer 41, the waterproof coating layer 42, and the top coating layer 43 are laminated and cured on the upper surface of the heat insulation panel 20, thereby completing the construction of the waterproof layer 40. can do.

Therefore, while the heat insulation panel 20 can be installed on the upper surface of the rooftop 1, which has not been insulated in the related art, the waterproof layer 40 can be applied to the upper surface thereof to more effectively insulate and waterproof the rooftop 1. There is an advantage.

In addition, by filling and sealing the waterproof foam 30 in the gap between the heat insulating panel 20, not only can improve the waterproof performance and heat insulating performance, but also the upper surface of the rooftop (1) and the bottom of the heat insulating panel 20. When a space is generated between the side surfaces, the waterproof foam 30 flows into the lower side of the heat insulation panel 20 and hardens, thereby more effectively sealing the gap between the heat insulation panels 20 and at the same time, further insulating the heat insulation panel 20. There is an advantage that can be firmly supported. In particular, the upper peripheral portion of the heat insulating panel 20 is formed with a concave groove 21 is filled with the waterproof foam 30, the waterproof foam 30 is filled so as to have a T-shaped cross-section, waterproof foam ( 30) by expanding the contact area of the heat insulating panel 20 has the advantage that the waterproof foam 30 can be more firmly bonded to the heat insulating panel (20).

In addition, since the ratchet portion 12a inclined toward the proximal end is formed on the side surface of the fixed rib 12, and the heat insulating panel 20 coupled to the fixed rib 12 is not caught by the ratchet part 12a, the heat insulating panel ( 20) there is an advantage that can be firmly fixed.

In the present embodiment, but using the dry method of fixing the heat insulating panel 20 to the upper surface of the rooftop 1 using the fixture 10, as shown in Figure 4, the rooftop (1) By forming an adhesive layer 50 between the top surface and the bottom surface of the heat insulating panel 20, using a semi-dry method of fixing the heat insulating panel 20 to the top surface of the rooftop 1 using the fixture 10 and the adhesive. It is also possible.

To this end, the fastener 10 is fixed to the upper surface of the rooftop 1, and suitable for the upper surface of the rooftop 1 or the lower side of the thermal insulation panel 20 before the insulating panel 20 is coupled to the fixture 10. After applying the positive adhesive, by fixing the heat insulating panel 20 to the fixture 10, the heat insulating panel 20 can be fixed to the upper surface of the roof 1 by the fastener 10 and the adhesive.

As such, when the heat insulating panel 20 is bonded to the upper surface of the rooftop 1 by using the fastener 10 and the adhesive together, the heat insulating panel 20 can be more firmly fixed as compared to the method using only the fastener 10 alone. There is an advantage.

In addition, the waterproof layer 40 includes a mortar layer 41 stacked on the top surface of the heat insulation panel 20, a waterproof coating layer 42 stacked on the top surface of the mortar layer 41, and the waterproof coating layer 42. Although it is illustrated that the top coating layer 43 is laminated on the upper surface, as shown in FIG. 5, the waterproof coating layer 42 may be replaced by a waterproof plate 45. The waterproof plate 45 is configured in a sheet shape having a predetermined width, and after the waterproof plate 45 is disposed to cover the upper surface of the mortar layer 41, a tape ( 46) to seal the gap between the waterproof plate (45). At this time, it is preferable that the tape 46 uses a butyl rubber tape.

As such, the waterproof layer 40 may be variously changed.

And, as shown in Figure 6, when the drain hole 2 is formed on one side of the rooftop (1), the heat insulating panel 20 is formed with a through hole 22 connected to the drain hole (2), The top surface of the heat insulation panel 20 is formed with a slope to be inclined downward toward the drain port (2).

When the construction is performed using the heat insulating panel 20 having a gradient formed on the top surface of the heat insulating panel 20 as described above, the top surface of the heat insulating panel 20 and the waterproof layer 40 is inclined toward the drain hole 2, and the rainwater is gradientd. Flow along the there is an advantage that can be effectively discharged to the drain (2). In particular, when manufacturing in consideration of the gradient from the time of manufacturing the insulation panel 20, compared to the conventional method of forming a gradient by using a trowel or the like after the operator lays the mortar on the upper surface of the roof (1), a more accurate gradient There is an advantage that can be formed to allow water to be drained more efficiently.

In addition, as shown in FIG. 7, when the vertical wall 3 is formed at the circumference of the rooftop 1, the fixture 10 and the heat insulation panel 20 are formed on the side of the vertical wall 3. It is also possible to construct the waterproof layer 40 so that the entire rooftop 1 can be insulated and waterproofed.

In addition, by forming a plurality of protrusions or grooves on the upper surface of the heat insulation panel 20, the contact surface between the heat insulation panel 20 and the mortar layer 41 of the waterproof layer 40 is increased, thereby providing the heat insulation panel 20 and the mortar layer. It is also possible to improve the bonding force of (41).

8 to 10 show another embodiment according to the present invention, the length (L1) of the fixing rib 12 of the fixture 10 is longer than the thickness (L2) of the heat insulating panel 20 is When the heat insulating panel 20 is inserted into the fixed rib 12, the end of the fixed rib 12 is configured to protrude to the upper surface of the heat insulating panel 20.

In addition, a weak portion 12c is formed at the end of the fixed rib 12. The weak portion 12c has a shape similar to the ratchet portion 12a formed on both sides of the fixed rib 12, and thus, the left and right widths of the fixed rib 12 are narrowed by cutting both ends of the fixed rib 12 in a triangle. When the worker bends the distal end of the fixed rib 12, the fixed rib 12 is bent from the weakened portion 12c as a starting point so that the fixed rib 12 can be easily bent and the fixed rib ( 12) to force the bending position.

At this time, the weakened portion 12c is formed so that the weakened portion 12c is positioned near the upper surface of the heat insulating panel 20 when the heat insulating panel 20 is fixed to the fixed rib 12.

Therefore, as shown in FIG. 10, after inserting the heat insulation panel 20 into the fixing rib 12 of the fixture 10, the protrusion protruding to the upper surface of the heat insulation panel 20 about the weak part 12c. By bending the end of the rib 12 there is an advantage that can physically secure the heat insulation panel 20.

In particular, a weak portion 12c is formed at the front end of the fixed rib 12, so that the fixed rib 12 can be easily bent around the weak portion 12c, thereby further bending the end of the fixed rib 12. There is an advantage that it becomes easy.

In the present embodiment, it is illustrated that the weak portion 12c is formed at the tip end of the fixed rib 12, but as in the first embodiment described above, several ratchet portions 12a are formed on both sides of the fixed rib 12. When is formed, the ratchet portion 12a which is formed at the front end of the fixing rib 12 and protrudes to the upper surface of the heat insulating panel 20 may be used as the weak portion 12c.

It will be appreciated by those skilled in the art that changes may be made to the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

1. Rooftop 10. Fixtures
20. Insulation panel 21. Concave groove
30. Waterproof foam 40. Waterproof layer
50. Adhesive Layer

Claims (12)

A plurality of fasteners 10 fixed to an upper surface of the rooftop 1,
A plurality of heat insulation panels 20 coupled to the fixture 10 and disposed to cover a top surface of the rooftop 1 to form a wide plane;
Waterproof foam 30 is filled in the gap between the insulating panel 20,
It includes a waterproof layer 40 stacked on the upper surface of the heat insulation panel 20,
The fixture 10 includes a support panel 11 having a through hole 11a to which the anchor bolt 13 is coupled, and extends forward from the circumferential surface of the support panel 11 to fit the heat insulation panel 20. Building roof insulation waterproof construction comprising a plurality of fixed ribs 12 is fixed.
The method of claim 1,
Concave grooves 21 in which the waterproof foam 30 is filled are formed in the upper circumferential portion of the insulating panel 20,
Building waterproof roof construction, characterized in that the waterproof foam 30 is filled to have a T-shaped cross section in the gap between the inside of the concave groove 21 and the heat insulation panel (20).
The method of claim 1,
The waterproof foam 30 is a building roof insulation waterproof construction structure, characterized in that the epoxy foam or urethane foam.
The method of claim 1,
An adhesive layer 50 is formed between the upper surface of the rooftop 1 and the heat insulation panel 20.
Building insulation roof waterproof construction structure characterized in that the heat insulating panel 20 can be fixed to the upper surface of the roof (1).
The method of claim 1,
The waterproof layer 40 and the mortar layer 41 is laminated on the upper surface of the heat insulation panel 20,
Waterproof coating layer 42 is laminated on the upper surface of the mortar layer 41,
Building roof insulation waterproof construction, characterized in that it comprises a top coating layer (43) laminated on the upper surface of the waterproof coating layer (42).
The method of claim 1,
The waterproof layer 40 and the mortar layer 41 is laminated on the upper surface of the heat insulation panel 20,
A plurality of waterproof plates 45 disposed to cover the upper surface of the mortar layer 41,
It includes a top coating layer 43 laminated on the upper surface of the waterproof plate 45,
Tapered circumference of the waterproof plate 45 is a building roof insulation waterproof construction structure, characterized in that the gap between the waterproof plate 45 is sealed.
The method of claim 1,
The rooftop (1) is formed with a drain (2),
The upper surface of the insulation panel 20 is a roof construction of waterproof waterproof construction, characterized in that the slope is formed to be inclined downward toward the drain port (2).
The method of claim 1,
On the side of the fixed rib 12 is formed a ratchet portion 12a inclined toward the proximal end,
Building insulation roof construction waterproof construction, characterized in that the insulation panel 20 coupled to the fixed rib 12 is not caught by the ratchet portion (12a).
The method of claim 1,
The length L1 of the fixing rib 12 is longer than the thickness L2 of the insulating panel 20 so that the end of the fixing rib 12 is inserted when the insulating panel 20 is inserted into the fixing rib 12. Is configured to protrude to the upper surface of the heat insulation panel 20,
The insulation panel 20 is inserted into the fixing rib 12 of the fixture 10, and then the end of the fixing rib 12 protruding to the top surface of the insulation panel 20 is bent to close the insulation panel 20. Building roof insulation waterproof construction structure, characterized in that can be fixed.
The method of claim 9,
The fixing rib 12 has a weak portion 12c having a lower strength than other portions,
When the end of the fixed rib 12 is bent the fixed rib 12 is bent from the weakened portion (12c) starting point, building roof insulation waterproof construction.
Fixing and fixing the fixture 10 on the upper surface of the rooftop 1,
Fixing the plurality of heat insulation panels 20 to the fixture 10 so as to cover a top surface of the rooftop 1 to form a wide plane;
Filling the waterproof foam 30 in the gap between the heat insulating panel 20 to prevent the gap between the heat insulating panel 20,
Building waterproof roof construction method comprising the step of laminating a waterproof layer (40) on the upper surface of the insulating panel (20).
12. The method of claim 11,
Building roof insulation waterproof construction method further comprising the step of applying an adhesive on the upper surface of the roof (1) or the lower side of the heat insulation panel (20).

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