KR102171952B1 - Cool Roof Structure and Construction Method of gradient type well-drained - Google Patents

Abstract

The present invention relates to a gradient-type light-weight system cool roof structure with excellent drainage, and a construction method thereof. According to the present invention, the gradient-type light-weight system cool roof structure with excellent drainage comprises: a profile inclined frame; a heat insulation board; heating wires arranged on the upper surface of the heat insulation board at regular intervals; a self-attached sheet; an internal temperature sensor installed inside the profile inclined frame; an external temperature sensor installed outside the profile inclined frame; a surface sensor; and a controller. According to the present invention, heat insulation performance can be increased.

Description

Cool roof structure and construction method of gradient type well-drained}

The present invention relates to a gradient-type lightweight system cool roof structure and a construction method that can increase waterproof and thermal insulation performance and smooth roof drainage, and more particularly, to a profile, an insulation board, and a self-adhesive sheet on an existing roof slab. The present invention relates to a cool roof structure and a construction method for a light-weight system with a smooth drainage, which makes it possible to easily improve structural problems on the roof of buildings with poor waterproofing and insulation by constructing a lightweight rooftop structure consisting of.

In general, rooftop floors made of concrete slabs are structurally vulnerable to waterproofing. Therefore, it is necessary to carefully perform waterproofing treatment to prevent water leakage from the initial stage of construction, and periodic maintenance is required afterwards.

The upper surface of the roof of a conventional concrete slab structure is provided with a concrete slab, and the edge portion is surrounded by a railing wall.

This rooftop waterproofing treatment is constructed for the purpose of prolonging the life of the building by not only blocking leakage but also protecting the rooftop slabs.As a waterproofing method, a hard metal on the floor is made by mixing coating waterproofing, sheet waterproofing, sheet waterproofing and the coating waterproofing. After installing the sheet, various waterproofing methods such as composite waterproofing in which a coating waterproofing material is applied to the surface of the hard metal sheet may be applied.

On the other hand, in order to prevent water from accumulating on the roof, a roof drain capable of collecting and draining water is installed in the roof drain.

In this case, a roof drain must be installed so that water does not seep between the roof drain and the waterproof layer and leak into the building.

An example of such a waterproof structure and a roof drain is disclosed in Korean Patent No. 171704.

The waterproof layer is generally installed on the upper surface of the roof slab, and a protective mortar layer, an insulation layer, a pressing layer, etc. can be laminated to provide insulation while protecting the waterproof layer thereon.The insulation layer, etc., is first installed, followed by the waterproof layer. I can.

However, in the conventional rooftop waterproofing structure, the thickness of the waterproofing layer is as thin as 1~2mm, and it repeats contraction and expansion according to changes in temperature, as well as because the coefficient of thermal expansion between the waterproofing layer and other laminated structures is different. The waterproof layer is damaged due to the crack of the waterproof layer or the crack of the waterproof layer itself, and a leak phenomenon occurs due to the damage of the waterproof layer, causing complaints of tenants.

Therefore, since it is necessary to periodically remove the aged or damaged waterproofing layer and perform waterproofing again, there is a problem that the repair cost of the building increases as time passes.

In addition, the above-mentioned prior art has a problem in that it takes a lot of construction period of the structure laminated on the roof slab, and also requires a waterproof layer and other laminated structures to be constructed on the railing wall if considering the drying or curing period.

On the other hand, for the purpose of not performing waterproof construction on the railing wall, an inclined roof may be installed along the upper end of the railing wall. Such an example is disclosed in Korean Patent Application Publication No. 2004-9509.

However, if a sloped roof or a sloped roof is installed on the roof railing wall of a building built in a heavy snow area, the snow accumulated on the sloped roof melts and falls under the building, and the fall area is used as a parking lot. In this case, it is difficult to secure a parking space because there is a possibility that the parked vehicle may be damaged, and it may occur even if people are killed.

In addition, in the case of newly renovating the inclined roof on the roof railing wall of an existing building, there is a problem of safety issues when constructing it, and there is a problem of increasing the construction cost because it is necessary to construct a formwork and perform construction in order not to cause this problem.

In addition, in conventional apartments, the top layer is cold in winter and hot in summer due to insufficient insulation, so it is necessary to install a thick insulation layer.

On the other hand, in the "Insulation Gutter Panel for Assembled Buildings" of Utility Model Registration No. 20-343195 (Announcement on Feb. 27, 2004), manufacturing and installation are made easy by connecting the gutter panel by intersecting it between the roof panel and the wall panel. Insulation gutter panels for prefabricated buildings have been proposed that can prevent condensation and water leakage caused by a temperature difference between the outside and inside of the foam installed on the top gutter panel. Figure 8 is a schematic perspective view of the installation state of the insulation gutter panel of a conventional prefabricated building.

In addition, Utility Model Registration No. 20-343195 (Announcement on February 27, 2004) is a roof panel constituting a prefabricated building in order to solve the problem of fixing the gutter panel using a bracket on the upper outer surface of the wall panel. Safety accidents and condensation in construction are solved by placing a gutter panel between the wall panel and the wall panel.

However, the structure proposed in Utility Model Registration No. 20-343195 (Announcement on Feb. 27, 2004) is effective in clearing the rainwater of small-scale prefabricated buildings, but the structure in which the gutter panel is horizontally placed between the roof panel and the wall panel. Accordingly, it cannot be applied to a large concrete slab structure, that is, a rooftop waterproofing of an apartment, where the railing wall protrudes and includes a rooftop slab inside.

In other words, the structure proposed in Utility Model Registration No. 20-343195 (Announcement on Feb. 27, 2004) has an inclined structure of the roof lower panel, so it is easy to install the drip tray panel, but the roof of a typical apartment It is not applicable because it does not have such an inclined roof lower panel.

Moreover, the above utility model registration No. 20-343195 (2004.02.27. Announcement) does not provide any proposal for waterproofing the rooftop floor of an apartment.

In addition, in the "roof waterproofing system and its construction method" of Patent Registration No. 10-0887020 (announced on March 4, 2009), a roof 10 covering the entire roof slab 30 is installed, and the roof slab 30 and the railing A rooftop waterproof structure that does not require the construction of other laminated structures such as an insulation layer for the rooftop 10 by installing a drip tray 50 that receives water flowing from the roof along the edge between the walls 20 and guides it to the drain. Is being disclosed.

9 is a front view of a rooftop waterproof structure in which a roof 20 covering the entire rooftop slab is installed.

However, Patent Registration No. 10-0887020 (Announcement on March 4, 2009) uses a finishing material made of wood under the roof 200, and the distance between the vertical tree 60 and the horizontal tree is small. And there was a problem that it was difficult to repair and reinforce later.

In addition, since it is a wooden structure, there is a high risk of fire, and when a fire occurs, there is an unsafe problem of generating harmful gases such as carbon dioxide in the roof, which is an evacuation space.

In addition, there is a problem in that a separate passageway is not installed in case of an emergency, and it is not easy to pass under the roof 200, which causes difficulties when escaping to the outdoors.

In addition, construction could not be achieved quickly and easily, and a lot of construction costs were required, so there was an uneconomic problem.

In order to improve this problem, the "roof improvement structure and construction method" of the proposed patent registration No. 10-1036162 (announced on May 23, 2011) is installed on one side of the roof slab upper surface from the roof entrance to secure a passageway. And, a water channel passage for guiding the water flowing down from the roof to the drain hole provided with a drain hole at the end; A plurality of support pillars provided with metal pipes and vertically installed on an upper surface of the roof slab on one side of the water channel passage and the other side of the water passage passage at intervals of 12 to 35 m from each other; At least one roof support installed at an upper end of the support pillar installed at one side of the waterway passage and an upper end of the support pillar installed at the other side of the waterway passage; A wooden support frame including a plurality of support members installed on the upper surface of the roof support; At least one roof installed on the wooden support frame and inclined from the edge of the roof to the channel for the water channel or from the channel for the channel to the edge of the roof; And a mattress net installed on the upper surface of the passage for the water channel, wherein the height of the support pillar is from 07 to 18 m.

10 is a cross-sectional perspective view of a conventional rooftop improvement structure, which is a rooftop slab with a separate waterway passage installed, and a steel structure installed to have an internal space sufficient for easy passage of passers-by and a rooftop by installing a roof on the upper side. In addition to waterproofing, it is easy to evacuate in case of emergency, and it is easy to repair and repair on a regular basis.

However, there is a structural problem in achieving the construction quickly and easily because the frame must be constructed by connecting and assembling heavy metal pipes one by one.

In addition, it is possible to provide a general waterproof effect by simply using a roof such as a colored steel plate, but there is a structural problem in improving the insulation of the roof.

In addition, there is an unsanitary problem because it is easy for various algae or organic animals to enter under the roof.

(1) Utility model registration No. 20-343195 (announced on February 27, 2004) (2) Patent Registration No. 10-0887020 (2009.03.04. Announcement) (3) Patent Registration No. 10-1036162 (announced on May 23, 2011)

Therefore, the present invention was conceived to solve the above problems, and in detail, by constructing a lightweight roof structure consisting of a lightweight profile, an insulation board, and a self-adhesive sheet on the existing roof slab, the structural roof of a building with poor waterproofing It is to provide a cool roof structure and construction method of a gradient type lightweight system with a smooth drainage that can easily achieve problem improvement and increase the waterproof and thermal insulation performance and the smoothness of roof drainage.

Another object of the present invention is to increase the insulation effect through ventilation when the temperature in the roof structure is above or below a certain temperature on one side of the opened side, and increase the waterproofing and insulation performance and smoothness of the rooftop drainage. It is to provide a cool roof structure and construction method of a gradient type lightweight system with smooth drainage.

In addition, another object of the present invention is to install a heating wire that can achieve automatic heat generation when the temperature outside the insulation board is below a certain level and humidity is above a certain level, so that icicles freeze and the phenomenon of snow accumulation on the surface can be prevented in advance. It is intended to provide a cool roof structure and a construction method of a gradient type lightweight system with smooth drainage that can increase the waterproof and thermal insulation performance and the smoothness of roof drainage.

In addition, another object of the present invention is to provide a safety device that can be closely fixed to the inner surface of the building on all sides, so that a solid connection and fixation can be achieved without partially damaging the building and fixing it with a smooth gradient type lightweight system. It is to provide a cool roof structure and its construction method.

In addition, another object of the present invention is to provide a cool roof structure and a construction method of a gradient-type lightweight system with a smooth drainage capable of preventing entry of birds or stray dogs by installing a mesh body in an open area.

Other objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and preferred embodiments in connection with the accompanying drawings.

In order to achieve this object, the present invention is a rooftop facility, which is a lightweight frame made of aluminum, positioned on the rooftop slab of a building, and a rectangular support frame is formed as a connection bracket and a plurality of horizontal profiles (or angle profiles). And, the vertical profile is fixed to the bottom of each corner of the rectangular support frame is fixed by a fixing member to the roof railing, the profile inclined frame having an inclined leg portion having long legs and step legs so that the rectangular support frame is installed obliquely downward to one side;

An insulation board fixedly installed on the upper surface of the rectangular support frame of the profile inclined frame;

A heating wire arranged at regular intervals and fixedly installed on the upper surface of the insulation board;

A self-adhesive sheet positioned on the upper surface of the insulation board to cover the heating wire and fixed in close contact with the insulation board;

An internal temperature sensor installed inside the profile inclined frame;

An external temperature sensor installed outside the profile inclined frame;

A surface sensor installed on the upper surface of the self-adhesive sheet to detect moisture and temperature;

An exhaust fan installed at regular intervals between the profile inclined frame and the roof slab to discharge air inside the profile inclined frame to the outside; And

The internal temperature sensor and the external temperature sensor are connected to operate the exhaust fan so that the temperature of the interior space between the profile slope frame and the roof slab, which is a rooftop facility, is maintained at a constant temperature through ventilation, and is connected to the surface sensor. When the outside temperature is below a certain level and the humidity is above a certain level, the heating wire is automatically operated to prevent icicles or snow from accumulating on the self-adhesive sheet in winter.

The fixing member is a plate body, one side of which is inserted into the long groove of the vertical profile of the inclined leg portion and slides, and the other side has a bolt hole; And

The front end of the bolt body is formed of a rubber part and has a fixing bolt that is tightly fixed to the roof railing through the bolt hole of the fixing piece.

As the insulation board, a foamed cement board to which glass wool is bonded is used.

In the present invention, a plurality of horizontal profiles, angle profiles, and connection brackets are formed on a roof slab, and a rectangular support frame is formed, and a vertical profile is fixedly installed at the bottom of each corner of the rectangular support frame, but the rectangular support frame is installed obliquely downward to one side. Forming a profile inclined frame having an inclined leg portion;

Connecting and installing foamed cement boards in which non-flammable and excellent insulating glass wool are combined on the exposed roof slab surface at equal intervals;

Installing heating wires in the spaced apart spaces of the foamed cement boards connected at equal intervals; And

It is characterized by the step of attaching a self-adhesive sheet to the upper portion of the foam cement board to which the glass wool is bonded.

Installing one or more exhaust fans in the space between the lower side of the inclined rectangular support frame of the profile inclined frame on which the blocking net is installed and the roof slab; And

It is connected to the exhaust fan, connected to an external temperature sensor installed outside the profile inclined frame, connected to an internal temperature sensor installed inside the profile inclined frame, and installed on the upper surface of the self-adhesive sheet to detect moisture and temperature. It is characterized by further comprising the step of installing a controller that is connected to the surface sensor to melt the snow accumulated on the self-adhesive sheet in winter by operating the exhaust fan and operating the heating wire so that the temperature inside the profile inclined frame maintains a constant temperature.

As described above, the present invention constructs a profile inclined frame, which is a lightweight roof structure composed of a profile, an insulation board, and a self-adhesive sheet on the existing roof slab, so that it is easy to improve the structural problem of poor drainage on the roof of a building with weak waterproofing. There is an effect that can be achieved.

In addition, a controller and an exhaust fan are installed on the open side between the rectangular support frame of the profile inclined frame and the roof slab to increase the insulation effect through ventilation by an exhaust fan when the temperature inside the roof structure is above or below a certain temperature. It can have an effect.

In addition, when the temperature outside the insulation board is below a certain level and the humidity is above a certain level, a heating wire that can achieve automatic heat generation is installed, thereby preventing icicles from freezing and snow accumulation on the self-adhesive sheet surface. .

In addition, by providing a fixing member capable of closely fixing the inner surface of the building roof railing on all sides of the profile inclined frame, there is an effect of achieving a solid connection and fixing without taking the fixing by partially damaging the building.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it will be readily recognized by those skilled in the art that other various modifications and variations are possible without departing from the gist and scope of the present invention. It is obvious that all of these belong to the appended claims.

1 is an exploded perspective view showing the fastening of the insulating board and self-adhesive sheet in which the profile inclined frame of the cool roof structure and the glass wool are combined, which is an exemplary embodiment of the present invention;
FIG. 2 is a combined perspective view showing a combination of a profile inclined frame of a cool roof structure, an insulation board, and a self-adhesive sheet, which is an embodiment of the present invention;
Figure 3 is a plan view showing a state of use when constructing a roof slab of a gradient lightweight system cool roof structure, which is an embodiment of the present invention,
Figure 4 is a front view showing a state of use when constructing a roof slab of a gradient lightweight system cool roof structure that is an embodiment of the present invention,
5 is a side view showing a state of use when constructing a roof slab of a cool roof structure, a gradient lightweight system with smooth drainage, which is an embodiment of the present invention;
FIG. 6 is an enlarged and exploded perspective view showing the fastening of the fixing member installed on the inclined leg of the profile inclined frame of the cool roof structure, which is an exemplary embodiment of the present invention;
7 is a flow chart of a method for constructing a cool roof, a gradient lightweight system with smooth drainage, which is an embodiment of the present invention;
Figure 8 is a schematic perspective view of the installation state of the insulation gutter panel of a conventional prefabricated building,
9 is a front view of a rooftop waterproof structure in which a roof covering the entire rooftop slab is installed,
10 is a cross-sectional perspective view of a conventional rooftop improvement structure.

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

For reference, when it is determined that a detailed description of known functions or configurations related to the present invention may unnecessarily obscure the subject matter of the present invention, the detailed description thereof has been omitted.

In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of users or operators.

Therefore, it goes without saying that the definition should be made based on the contents throughout this specification.

The cool roof structure of the gradient type lightweight system of the present invention has a rectangular support frame 11 and an inclined leg portion 12, which is a roof-top facility, a profile inclined frame 10 (or an angle profile), and Insulation board 14 with glass wool fixed to the upper surface of the support frame 11, and heat wire 15 arranged on the upper surface of the insulating board 14, and fixed to the upper surface of the heat insulation board 14 and the heating wire 15 Self-adhesive seat 16, an internal temperature sensor 17 mounted on the inside of the profile inclined frame 10, an external temperature sensor 18 mounted outside the profile inclined frame 10, and a self-adhesive sheet (16) An exhaust fan 20 installed in the space between the surface sensor 19 mounted on the upper surface and the rectangular support frame 11 and the inclined leg 12 and the roof slab 50 of the profile inclined frame 10 ) And, the temperature of the inner space between the square support frame 11 of the profile inclined frame 10 and the inclined leg 12 and the roof slab 50 is maintained to be advantageous for heat insulation, and a self-adhesive sheet ( 16) It consists of a controller 40 that prevents snow from accumulating on the surface.

The profile inclined frame 10 is a rooftop facility, which is a lightweight frame made of aluminum, which is located on the roof slab 50 of a building, and includes a plurality of horizontal profiles 11a (or angle-type profiles), and a connection bracket 11b. A rectangular support frame 11 is formed in a rectangular shape, and a vertical profile 12a is fixedly installed at the bottom of each corner of the rectangular support frame 11 and fixed to the roof railing 51 by a fixing member 13, but the rectangular support frame The inclined legs 12 having long legs 12b and 12c and short legs 12d and 12e are formed so that the lengths of one side are different so that 11 is installed obliquely downward to one side.

As the fixing member 13, one side of the plate body is inserted into the long groove 12b of the vertical profile 12a of the inclined leg portion 12 and slidably moved, and the other side is a fixing piece 13a having a bolt hole 13b and , The front end of the bolt body is formed of a rubber part 13d to form a fixing bolt 13c that is tightly fixed to the roof railing 51 through the bolt hole 13b of the fixing piece 13a.

The insulation board (14a, 14b) is a board fixedly installed on the upper surface of the rectangular support frame (11) of the profile inclined frame (10) and the surface of the exposed roof slab (50). Of course, it is desirable to use a foamed cement board with glass wool that increases its bending strength, prevents bending, and realizes optimal insulation performance while reinforcing the load-bearing structure.

The heating wire 15 is a heating wire arranged at regular intervals and fixedly installed on the upper surface of the insulation board 14, and when the external temperature detected by the surface sensor 19 is below a certain level and the humidity is above a certain level, the controller ( As the heating wire 15 is automatically heated by 40), the phenomenon of freezing of icicles and accumulation of snow on the surface of the self-adhesive sheet 16 can be prevented in advance.

The self-adhesive sheet 16 is an adhesive sheet that is located on the upper surface of the insulation board 14 to cover the heat wire 15 and is in close contact with the insulation board 14, which increases strength, has a light dispersion function, and is waterproof. It is preferable to use a silica sand sheet having a function.

The internal temperature sensing sensor 17 is a sensor that is installed inside the profile inclined frame 10 to sense a temperature between the profile inclined frame 10 and the roof slab 50.

The external temperature sensor 18 is a sensor that is installed outside the profile inclined frame 10 to detect the temperature of the atmosphere.

The surface sensor 19 is a sensor that is installed on the upper surface of the self-adhesive sheet 16 to detect moisture and temperature on the upper surface of the self-adhesive sheet 16.

The exhaust fan 20 is a fan installed between the profile inclined frame 10 and the roof slab 50 at regular intervals to discharge the air inside the profile inclined frame 10 to the outside, and is a profile that is a rooftop structure. When the internal temperature between the inclined frame 10 and the roof slab 50 is above or below a certain temperature, the exhaust fan 20 is automatically operated by the controller 40 to increase the insulation effect through ventilation. There will be.

As shown in FIG. 4, a blocking network installed in the space between the profile inclined frame 10, the inclined leg part 12 and the exhaust fan 20 to prevent the inflow of birds and organic animals into the profile inclined frame 10 (30) can also be installed as needed.

The controller 40 is connected to the internal temperature sensor 17 and the external temperature sensor 18 so that the temperature of the internal space between the profile slope frame 10 and the roof slab 50, which is a rooftop facility, prevents ventilation. The exhaust fan 20 is operated to maintain a constant temperature through the surface sensor 19, and when the external temperature is below a certain level and the humidity is above a certain level, the heating wire 15 is automatically operated to make a self-adhesive sheet in winter. (16) It prevents snow from accumulating on the surface.

In addition, the construction method of the cool roof of the gradient type lightweight system with smooth drainage according to the present invention includes the step of forming a profile inclined frame (100), a foamed cement board installation step 120 in which glass wool is combined, and a heating wire installation step 130 , Self-adhesive sheet attachment step 140, and exhaust fan installation step 160, and consists of a controller installation step 170.

In the profile inclined frame forming step 100, a rectangular support frame 11 is formed in a rectangular shape with a plurality of horizontal profiles 11a (or angle-shaped profiles) and a connection bracket 11b on the roof slab 50, and A vertical profile (12a) is fixedly installed at the bottom of each corner of the support frame (11), the profile inclined frame (10), which is a rooftop facility having an inclined leg (12) in which the rectangular support frame (11) is installed obliquely downward to one side Is the step of forming.

In the step of installing the foamed cement board 120 to which the glass wool is combined, the steps of connecting and installing foamed cement boards 14a and 14b, which are insulating boards 14a and 14b having excellent non-combustible and thermal insulation functions, are connected at equal intervals on the exposed roof slab 50 surface. to be.

The heating wire installation step 130 is a step of installing the heating wire 15 in a spaced apart space of the foamed cement board, which is the insulating boards 14a and 14b connected at equal intervals.

The self-adhesive sheet attaching step 140 is a step of attaching the self-adhesive sheet 16 to the upper portion of the foamed cement board to which the glass wool, which is the insulating boards 14a and 14b, is bonded.

The exhaust fan installation step 160 is a step in which at least one exhaust fan 20 is installed in a space between the lower end of the inclined square support frame 11 of the profile inclined frame 10 and the roof slab 50.

The controller installation step 170 is connected to the exhaust fan 20, connected to an external temperature sensor 18 installed outside the profile inclined frame 10, and the inside of the profile inclined frame 10 It is connected to the internal temperature sensor 17 installed in, and is connected to the surface sensor 19 installed on the upper surface of the self-adhesive sheet 16 to detect moisture and temperature, so that the internal temperature of the profile inclined frame 10 This is a step of installing a controller 40 that properly operates the exhaust fan 20 so as to maintain it, and operates the heating wire 15 to melt snow and icicles accumulated on the self-adhesive sheet 16 in winter.

Before the exhaust fan installation step 160, birds and organic animals into the profile inclined frame 10 through the space between the bottom of the inclined rectangular support frame 11 and the roof slab 50 of the profile inclined frame 10 If necessary, the step 150 of installing the blocking network 30 to prevent the entry of the device may be further included.

This invention is a lightweight rooftop structure consisting of a horizontal profile 11 and a vertical profile 12a, a connection bracket 11b, an insulation board 14, and a self-adhesive sheet 16 on the existing roof slab 50 By constructing the inclined frame 10, it is possible to easily achieve structural problems of the roof slab 50 of a building with weak waterproofing, and the square support frame 11 and the roof slab 50 of the profile inclined frame 10 A controller 40 and an exhaust fan 20 are installed on one side of the opening between the profile inclined frame 10, which is a rooftop structure, when the temperature in the profile inclined frame 10 is above or below a certain temperature, through ventilation by the exhaust fan 20 When the temperature outside the insulation board (14) is below a certain level and humidity is above a certain level, a heating wire (15) that can achieve automatic heat generation by the controller 40 is installed to freeze icicles and self-adhesive sheet (16). The building is provided with a fixing member 13 capable of closely fixing the inside surface of the railing 51 of the building roof slab 50 on all sides of the profile slope frame 10 to prevent snow from accumulating on the surface. A solid connection and fixing is achieved without partial damage and fixing, and if necessary, a blocking net (30), which is a mesh, is placed in the open area between the square support frame (11) of the profile inclined frame (10) and the roof slab (50). It is installed to prevent entry of birds or stray dogs.

10: profile inclined frame 11: square support frame
11a: horizontal profile 11b: connection bracket
12: inclined leg portion 12a: vertical profile
12b,12c: long legs 12d,12e: short legs
13: fixing member 13a: fixing plate
13b: bolt hole 13c: fixing bolt
13d: rubber part 14: insulation board
15: heating wire 16: self-adhesive sheet
17: internal temperature sensor 18: external temperature sensor
19: surface sensor
20: exhaust fan
30: blocking network
40: controller
50: roof sleeve
100: Profile inclined frame formation step
120: foam cement board installation step
130: heating wire installation step
140: Self-adhesive sheet attachment step
160: exhaust fan installation step
170: controller installation step

Claims (5)

A rooftop facility that is a lightweight frame made of aluminum that is located on the roof slab 50 of a building, and a rectangular support frame 11 is formed with a plurality of horizontal profiles 11a and connection brackets 11b, and a rectangular support frame The vertical profile (12a) is fixedly installed at the bottom of each corner of (11) and fixed to the roof railing (51) by a fixing member (13), but the square support frame (11) is installed obliquely downward to one side, the long legs (12b, 12c) ) And stepped legs (12d, 12e) having an inclined leg portion 12 is formed, the profile inclined frame 10;
Insulation board 14 fixedly installed on the upper surface of the square support frame 11 of the profile inclined frame 10;
A heating wire 15 arranged and fixedly installed on the upper surface of the insulation board 14 at regular intervals;
A self-adhesive sheet 16 positioned on the upper surface of the insulating board 14 to cover the heating wire 15 and fixed in close contact with the insulating board 14;
An internal temperature sensor 17 installed inside the profile inclined frame 10;
An external temperature sensor 18 installed outside the profile inclined frame 10;
A surface sensor 19 installed on the upper surface of the self-adhesive sheet 16 to detect moisture and temperature;
An exhaust fan 20 installed between the profile inclined frame 10 and the roof slab 50 at regular intervals to discharge the air inside the profile inclined frame 10 to the outside; And
The internal temperature sensing sensor 17 and the external temperature sensing sensor 18 are connected so that the temperature of the internal space between the profile slope frame 10 and the roof slab 50, which is a rooftop facility, is maintained at a constant temperature through ventilation. The exhaust fan 20 is operated and connected to the surface sensor 19 so that when the external temperature is below a certain level and the humidity is above a certain level, the heating wire 15 is automatically operated to prevent icicles or snow on the self-adhesive sheet 16 in winter. A cool roof structure with a gradient type lightweight system, characterized in that it has a controller 40 that prevents the accumulation of water. The method of claim 1,
The fixing member 13 is a plate body, one side is inserted into the long groove (12b) of the vertical profile (12a) of the inclined leg portion (12) and slides, and the other side is a fixing piece (13a) having a bolt hole (13b); And
The front end of the bolt body is formed of a rubber part (13d), characterized in that it has a fixing bolt (13c) that is tightly fixed to the roof railing (51) through the bolt hole (13b) of the fixing piece (13a). Gradient lightweight system cool roof construction. The method of claim 1,
As the insulation board 14, one selected from glass wool or foam cement board is used, or glass wool and foam cement board are used together. A rectangular support frame is formed on the roof slab with a plurality of horizontal profiles and connection brackets, and a vertical profile is fixed at the bottom of each corner of the rectangular support frame, but the profile slope has an inclined leg in which the rectangular support frame is installed obliquely downward to one side. Forming a frame;
Installing and fixing glass wool on the upper portion of the square support frame;
Connecting and installing foamed cement boards having excellent non-flammable and thermal insulation functions at equal intervals on the top of the glass wool;
Installing heating wires in the spaced apart spaces of the foamed cement boards connected at equal intervals; And
A method of constructing a cool roof structure with a gradient type lightweight system comprising the step of attaching a self-adhesive sheet to an upper part of the foamed cement board. The method of claim 4,
Installing one or more exhaust fans in the space between the lower side of the inclined rectangular support frame of the profile inclined frame on which the blocking net is installed and the roof slab; And
It is connected to the exhaust fan, connected to an external temperature sensor installed outside the profile inclined frame, connected to an internal temperature sensor installed inside the profile inclined frame, and installed on the upper surface of the self-adhesive sheet to detect moisture and temperature. The drainage system, characterized in that it further comprises the step of installing a controller that melts snow accumulated on the self-adhesive sheet in winter by operating the exhaust fan and operating the heating wire so that the temperature inside the profile inclined frame is maintained at a constant temperature by being connected to the surface sensor. Smooth gradient type lightweight system cool roof structure construction method.

Images