KR102515078B1 - Fireproof structure for roof having insulation layer and heat resistance layer, and construction method for the same - Google Patents

Abstract

As a roof fireproof structure, it is composed of a heat insulation layer and a heat resistance layer, and EPS (expanded styrofoam) and urethane can also be used by reducing the thermal transmittance by the heat resistance layer, and also, a roof fire resistance structure having a heat insulation layer and a heat resistance layer Provided is a roof fireproof structure having a heat insulation layer and a heat resistance layer and a construction method thereof, which can form a thin roof by providing excellent heat insulation performance and provide a beautiful building exterior.

Description

Roof fireproof structure with heat insulation layer and heat resistance layer and its construction method

The present invention relates to a roof fireproof structure, and more specifically, to improve the fireproof performance of a roof, a heat resistance layer formed of a wood carbonized layer, etc. is combined with a steel roof plate for construction, a heat insulation layer and heat resistance It relates to a roof fireproof structure having layers and a construction method thereof.

Until now, steel roof plates for construction have been recognized as fireproof structures in Korea. For example, steel roof plates for construction are formed by bonding an iron plate, an insulation material (glass wool, mineral wool, etc.) and an iron plate in that order.

1 is a view showing a steel roof plate for construction, which has been recognized as a general fireproof structure, in FIG. 1 a) is a perspective view showing a roof plate 10 in which a concavo-convex steel plate is exposed on an upper surface of a roof, and b) in FIG. 1 is a flat steel plate This is a perspective view showing the roof plate 20 exposed on the upper surface of the roof, and FIG. 2 is a view showing the configuration and test procedure of a roof fireproof structure according to the prior art.

As shown in a) of FIG. 1, the roof plate 10 in which the concave-convex steel plate is exposed on the upper surface of the roof is a steel roof plate for construction, and includes a flat first steel plate 11, a heat insulating material 13, and a concave-convex second steel plate. 12, and as shown in b) of FIG. 1, the roof plate 20 in which the flat steel plate is exposed on the upper surface of the roof is a steel roof plate for construction, and the concave-convex first steel plate ( 21), the heat insulating material 23, and the planar second steel plate 23 are sequentially formed. As such, the steel roof plate for construction shown in a) and b) of FIG. 1 is recognized as a fireproof structure.

However, in the case of the building steel roof plates 10 and 20 shown in a) and b) of FIG. 1, the surfaces of both sides of the roof plate are also metal, and as shown in FIG. 2, the roof plates 10 and 20 Since the mounted truss is also metal, the temperature of the metal rises due to fire in the event of a fire, and there is a risk that the roof system may collapse with a large deformation accordingly.

In order to improve the fire resistance of such a roof, a method of increasing the density or thickness of glass wool/mineral wool or reducing the interval between trusses is used. At this time, in order to secure the fire resistance of the roof, there is a limit in that it is difficult to use insulation materials such as EPS and urethane in the steel roof plate for construction.

Specifically, EPS and urethane are widely used because they satisfy the required performance of the thermal transmittance rate among the required performance of the roof at room temperature. Here, Thermal Transmittance is a coefficient of heat permeation due to thermal transmittance, which is the amount of heat transferred from one fluid to the other when the temperature difference between the two fluids of the solid wall is unit time per unit surface area. Also called heat transfer rate. However, in the case of EPS, despite its low price and excellent insulation performance in the case of urethane, its use is limited because fire resistance is not secured in case of fire.

On the other hand, as a prior art, Korean Patent Registration No. 10-1491584 discloses an invention titled "a building panel with simultaneously enhanced heat and sound insulation and flame retardancy and a manufacturing method thereof", which will be described with reference to FIG. 3 .

3 is a perspective view showing a building panel in which thermal insulation, sound insulation, and flame retardancy are simultaneously enhanced according to the prior art.

Referring to FIG. 3 , in the building panel in which heat insulation, sound insulation, and flame retardancy are simultaneously enhanced according to the prior art, first and second galvanized steel sheets 40 that are the base layer 31 made of a galvanized steel sheet or prepainted steel sheet are used. , 50); A heat insulating layer 32 composed of polyurethane foam, phenol foam, or expanded polystyrene provided inside the base layer 31 to improve heat insulation; A sound insulation and flame retardant layer 33 composed of glass wool of a non-combustible material or mineral wool of a non-combustible material provided on the upper surface of the heat insulation layer 32 or the heat insulation curing layer 35 for the purpose of improving sound insulation and flame retardancy and further improving heat insulation ; The top surface of the first galvanized steel sheet 40 or the heat insulating layer ( 32), the lower surface of the second galvanized steel sheet 50, or the upper surface of the sound insulation and flame retardant layer 33 and the upper surface of the heat insulating curing layer 35, polyurethane resin or epoxy resin as the main component respectively provided. configured adhesive layer 34; Composed of kraft paper or non-woven fabric provided on the upper surface of the heat insulating layer 32 for the purpose of maintaining the thickness of the heat insulating layer 32 and preventing the outflow of the heat insulating material during compression curing of the base layer 31 and the heat insulating layer 32 It includes a heat insulating curing layer (35).

According to the building panel in which thermal insulation, sound insulation, and flame retardancy are simultaneously enhanced according to the prior art, by separately manufacturing and installing the insulation panel and the flame retardant panel, the problem of significantly increasing material cost, installation cost, and the number of laying man-hours is solved, especially in buildings. Insulation performance and flame retardant performance are simultaneously enhanced, sound insulation performance of buildings is also excellent, and manufacturing and installation of building panels are easy, so productivity and workability can be greatly improved.

In the case of a building panel in which thermal insulation, sound insulation, and flame retardancy are simultaneously enhanced according to the prior art, the insulation upper and lower panels are composed of PVC plates, and the lower auxiliary insulation material is divided with a compressed styrofoam board to increase the insulation effect. .

On the other hand, as a prior art, Korean Patent Registration No. 10-1981767 discloses an invention titled "roof system having a fireproof structure", which will be described with reference to FIG. 4 .

4 is a view showing a roof system having a fireproof structure according to the prior art, in FIG. 4 a) is a perspective view showing a construction state, and FIG. 4 b) is a front sectional view.

As shown in a) and b) of FIG. 4, the roof system having a fireproof structure according to the prior art supports the roof and has a roof support beam 81 at the top of the roof support beam 81 having a fireproof structure. A fireproof structure deck 61 installed in a transverse direction with respect to and formed by bending a non-combustible coated steel plate so that the upper portion is open; A fixing clamp 62 assembled to the fireproof deck 61 to extend from the bottom to the top of the fireproof deck 61; Structural beams 63 assembled to the fixing clamp 62 to be supported by the fixing clamp 62 and extend along the longitudinal direction of the fireproof structure deck 61; It includes a non-combustible heat insulating material 64 filled with the inside of the fireproof structure deck 61 and wrapped around at least a portion of the fixing clamp 62 and the structural beam 63.

Accordingly, the structural steel 63, which is not supported by a middle purlin that is not provided as a fireproof structure, and substitutes for the role of a middle purlin such as a C-section steel, is hidden inside and set integrally, so that the middle purlin is completely omitted from the outside, and the fireproof structure It is supported by the roof support beam 81, which is the main structural beam, and supports the roof of the building, so that in the event of a fire, the length of the middle purlin crossing the roof support beam 81 is extended to about 5 to 10 m as in the prior art. Accordingly, it is possible to prevent the roof from collapsing by minimizing the thermal deformation of the overall structure without being twisted or bent and collapsed due to thermal deformation, which is not provided as a fireproof structure.

Here, the fire-resistant structure refers to a structure that can withstand main structural beams without collapsing due to thermal deformation for about 1 hour or more from the time of occurrence of fire.

As shown in b) of FIG. 4, the fire-resistant structure deck 61 is provided so that a plate material made of non-flammable painted steel, the surface of which is painted with a fire-resistant paint, is bent and extended along the longitudinal direction, but the top is open. In cross-section, it is provided in a form in which a U-shape is rotated by 90 degrees in a counterclockwise direction, and a clamp fitting portion 71 bent in the form of an inverted trapezoid is formed on the lower bottom in front cross-section. Here, reference numeral 72 denotes an engagement coupling portion.

Accordingly, even if the assembly of the fixing clamp 62 and the structural beam 63 is omitted, the structural strength can be sufficiently reinforced at the side portion overlapping each other, and the clamp fitting portion is located in the middle portion that does not overlap each other. The fixing clamp 62 is easily assembled in an interference fit method in (71) so that the structural strength is sufficiently reinforced with the side parts overlapping each other to support the load transmitted from the upper roof by the structural steel beam 63. can

As a result, according to the roof system having a fireproof structure according to the prior art, it is not supported by a middle purlin that is not provided with a fireproof structure, and the middle purlin is hidden inside and set, so that the middle purlin is completely omitted from the outside and the main fireproof structure has a fireproof structure. By being supported by structural beams and supporting the roof of a building, it is possible to prevent collapse of the roof by minimizing thermal deformation in the event of a fire. deformation such as separation and separation can be suppressed.

Although the above-mentioned glass wool is relatively expensive, thick and heavy, it is inevitable to use such glass wool as a heat insulating material for a steel roof plate for construction. However, when glass wool, mineral wool, or the like is used as a heat insulator for the roof, air is stretched and construction cost increases.

In addition, since the building steel roof plates 10 and 20 recognized as existing fireproof structures shown in a) and b) of FIG. 1 are vulnerable to fire, there is a need to form a separate layer that can withstand fire. .

Republic of Korea Patent Registration No. 10-1491584 (registration date: February 3, 2015), title of invention: "Building panel with enhanced heat and sound insulation and flame retardancy at the same time and manufacturing method thereof" Republic of Korea Patent Registration No. 10-1981767 (registration date: May 17, 2019), title of invention: "Roof system with fireproof structure" Republic of Korea Patent Registration No. 10-701614 (registration date: March 23, 2007), title of invention: "Fireproof prefabricated panel and its manufacturing method" Republic of Korea Patent Registration No. 10-584513 (registration date: May 23, 2006), title of invention: "Building Partition Panel" Republic of Korea Patent Registration No. 10-1233079 (registration date: February 7, 2013), title of invention: "Building roofing panel and its manufacturing method" Republic of Korea Patent Publication No. 2012-0085552 (Publication date: August 1, 2012), title of invention: "Insulation composite panel containing wood and method for manufacturing the insulation composite panel" Republic of Korea Patent Publication No. 2015-0067960 (published date: June 19, 2015), title of invention: "insulation panel for interior and exterior"

The technical problem to be achieved by the present invention for solving the above problems is a roof fireproof structure, which is configured by dividing into a heat insulation layer and a heat resistance layer, and by reducing the thermal transmittance by the heat resistance layer, EPS (expanded styrofoam) and urethane are used as insulation It is to provide a roof fireproof structure having a heat insulation layer and a heat resistance layer that can be used as and a construction method thereof.

Another technical problem to be achieved by the present invention is a roof fire resistant structure having a heat insulation layer and a heat resistance layer, which can form a thin roof by excellent heat insulation performance by providing a roof fire resistance structure having a heat insulation layer and a heat resistance layer, and the same It is to provide a construction method.

As a means for achieving the above-described technical problem, a roof fire resistant structure having a heat insulating layer and a heat resistance layer according to the present invention is a roof fire resistant structure for improving fire resistance performance, comprising: a flat first steel plate forming an inner side of a roof; a second concave-convex steel plate forming the outside of the roof; As a heat insulating material, a heat insulating layer formed by being placed between the flat first steel plate and the concave-convex second steel plate; and a heat resistance layer mounted under the first flat steel plate, wherein the heat resistance layer is formed of a carbonized material that blocks heat by forming a carbonized layer in the event of a fire, or a non-combustible material or quasi-carbonized material that blocks heat from the roof. made of non-combustible materials; The carbonized material is wood or PVC formed into a carbonized layer when a fire occurs, and the non-combustible material or semi-non-combustible material is selected from CRC board, cement board, silica board and gypsum board; In addition, a prefabricated panel is formed by fastening the heat resistance layer to the lower portion of the flat first steel plate, the prefabricated panel is sequentially mounted on a truss and connected, and the connection portion of the prefabricated panel is waterproofed with a waterproofing material. do.

Here, the heat insulating layer is preferably selected from glass wool, mineral wool, EPS, and urethane.

Here, the thermal transmittance is reduced by the heat resistance layer, so that the EPS or urethane is used as an insulator for a fireproof roof structure.

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On the other hand, a roof fire resistant structure having a heat insulating layer and a heat resistance layer according to the present invention is a roof fire resistant structure for improving fire resistance performance, comprising: a concave-convex first steel plate forming an inner side of a roof; a second flat steel plate forming the outer side of the roof; As a heat insulating material, a heat insulating layer formed by being placed between the flat first steel plate and the concave-convex second steel plate; and a heat resistance layer mounted on the lower portion of the concave-convex steel plate, wherein the heat resistance layer is formed of a carbonized material that blocks heat by forming a carbonized layer when a fire occurs, or a non-combustible material that blocks heat from a roof. made of semi-incombustible materials; The carbonized material is wood or PVC formed into a carbonized layer when a fire occurs, and the non-combustible material or semi-non-combustible material is selected from CRC board, cement board, silica board and gypsum board; In addition, a prefabricated panel is formed by fastening the heat resistance layer to a lower portion of the concave-convex steel plate, and the prefabricated panel is sequentially mounted on a truss and connected. The connection portion of the prefabricated panel is characterized in that it is waterproofed with a waterproofing material.

On the other hand, as another means for achieving the above-described technical problem, a construction method of a roof fire resistant structure having a heat insulating layer and a heat resistance layer according to the present invention is a construction method of a roof fire resistant structure for improving fire resistance performance, a ) forming a building steel roof plate formed of a flat first steel plate, a heat insulation layer, and a concave-convex second steel plate; b) forming a heat resistance layer corresponding to the cross section of the building steel roof plate; c) forming a prefabricated panel by fastening the heat resistance layer to the lower portion of the flat first steel plate; d) sequentially mounting and connecting the prefabricated panels on a truss; and e) waterproofing the connection portion of the prefabricated panel with a waterproofing material to complete the roof fireproof structure, wherein the steel roof plate for construction in step a) includes a flat first steel plate forming an inner side of the roof; a second concave-convex steel plate forming the outside of the roof; and a heat insulating layer formed by being placed between the flat first steel plate and the concave-convex second steel plate, wherein the heat resistance layer is formed of a carbonized material that blocks heat by forming a carbonized layer in the event of a fire, or a roof It is formed of a non-combustible material or semi-non-combustible material that blocks the heat of; The carbonized material is wood or PVC formed into a carbonized layer when a fire occurs, and the non-combustible or semi-non-combustible material is selected from CRC board, cement board, silica board and gypsum board.

On the other hand, as another means for achieving the above-described technical problem, a construction method of a roof fire resistant structure having a heat insulating layer and a heat resistance layer according to the present invention is a construction method of a roof fire resistant structure for improving fire resistance performance, a ) forming a building steel roof plate formed of a concave-convex first steel plate, a heat insulating layer, and a flat second steel plate; b) forming a heat resistance layer corresponding to the cross section of the building steel roof plate; c) forming a prefabricated panel by fastening the heat resistance layer to the lower portion of the concave-convex steel plate; d) sequentially mounting and connecting the prefabricated panels on a truss; and e) waterproofing the connection portion of the prefabricated panel with a waterproofing material to complete the roof fireproof structure, wherein the steel roof plate for construction in step a) includes a concave-convex first steel plate forming the inside of the roof; a second flat steel plate forming the outer side of the roof; and a heat insulating layer formed by being placed between the flat first steel plate and the concave-convex second steel plate, wherein the heat resistance layer is formed of a carbonized material that blocks heat by forming a carbonized layer in the event of a fire, or a roof It is formed of a non-combustible material or semi-non-combustible material that blocks the heat of; The carbonized material is wood or PVC formed into a carbonized layer when a fire occurs, and the non-combustible or semi-non-combustible material is selected from CRC board, cement board, silica board and gypsum board.

According to the present invention, as a roof fireproof structure, EPS (expanded styrofoam) and urethane can also be used by dividing into a heat insulation layer and a heat resistance layer, and reducing the thermal transmittance by the heat resistance layer. In other words, inexpensive EPS or urethane material with excellent insulation performance can be used as the insulation material.

According to the present invention, by providing a roof fireproof structure having a heat insulation layer and a heat resistance layer, it is possible to form a thin roof with excellent heat insulation performance and to provide a beautiful exterior of the building. Since the weight is reduced as the thickness of the roof becomes thinner, the construction is easy, the construction period can be shortened, and accordingly, the construction cost can be reduced.

1 is a view showing a steel roof plate for construction that has been recognized as a general fireproof structure.
2 is a perspective view showing a building panel having simultaneously enhanced heat insulation, sound insulation, and flame retardancy according to the prior art.
3 is a view showing the configuration and test sequence of a roof fireproof structure according to the prior art.
4 is a view showing a roof system having a fireproof structure according to the prior art.
5 is a perspective view showing a roof fireproof structure having a heat insulation layer and a heat resistance layer according to a first embodiment of the present invention.
6 is a cross-sectional view showing a roof fireproof structure having a heat insulation layer and a heat resistance layer according to a first embodiment of the present invention.
7 is a perspective view showing a roof fireproof structure having a heat insulation layer and a heat resistance layer according to a second embodiment of the present invention.
8 is a cross-sectional view showing a roof fireproof structure having a heat insulation layer and a heat resistance layer according to a second embodiment of the present invention.
9 is an operation flow chart of a construction method of a roof fireproof structure having a heat insulation layer and a heat resistance layer according to a first embodiment of the present invention.
10A to 10E are cross-sectional views for specifically explaining a method of constructing a fireproof roof structure having a heat insulation layer and a heat resistance layer according to a first embodiment of the present invention, respectively.
11 is an operation flow chart of a construction method of a roof fireproof structure having a heat insulation layer and a heat resistance layer according to a second embodiment of the present invention.
12A to 12E are cross-sectional views for specifically explaining a method of constructing a fireproof roof structure having a heat insulation layer and a heat resistance layer according to a second embodiment of the present invention, respectively.

Hereinafter, embodiments of the present invention will be described in detail so that those skilled in the art can easily practice with reference to the accompanying drawings. However, the present invention may be embodied in many different forms and is not limited to the embodiments described herein. And in order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and similar reference numerals are attached to similar parts throughout the specification.

Throughout the specification, when a certain component is said to "include", it means that it may further include other components without excluding other components unless otherwise stated.

[Roof fireproof structure 100 having an insulation layer and a heat resistance layer]

5 is a perspective view showing a roof fire resistant structure having a heat insulating layer and a heat resistance layer according to a first embodiment of the present invention, and FIG. 6 is a fire resistant roof structure having a heat insulating layer and a heat resistance layer according to the first embodiment of the present invention. It is a cross section that represents

5 and 6, the roof fire resistant structure 100 having a heat insulating layer and a heat resistance layer according to the first embodiment of the present invention is a roof fire resistant structure for improving fire resistance performance, and a first flat steel plate 110 ), a concave-convex second steel plate 120, a heat insulating layer 130, and a heat resistance layer 140.

The flat first steel plate 110 forms the inside of the roof, and the concavo-convex second steel plate 120 forms the outside of the roof. At this time, the flat first steel plate 110 and the concave-convex second steel plate 120 use general steel plates, but other materials such as sheets may be used, or the first flat steel plate 110 may not be used. .

The heat insulating layer 130 is a heat insulating material, and is formed by being placed between the first flat steel plate 110 and the second concave-convex steel plate 120 . For example, the heat insulating layer 130 is selected from glass wool, mineral wool, EPS, and urethane. At this time, the thermal transmittance is reduced by the heat resistance layer 140, so that the EPS or urethane is used as a heat insulating material for a roof fireproof structure. can

Specifically, the glass wool is a glass fiber made in the shape of wool and is widely used as a heat preservation, heat insulation, and soundproofing material. Specifically, glass wool is made of molten glass in a fibrous form, and is generally used as a heat insulating material and a cold insulating material for houses because of its remarkable insulating effect. At this time, the safe use temperature is 300 ℃, specific gravity of 0.1 or less, tensile strength of about 200 kg / ㎝, elasticity is low, tensile strength. It is excellent in electrical insulation, fire resistance, heat insulation, sound absorption, corrosion resistance, water resistance, etc., and is lightweight, but weak against bending, and the convergence is absorbed by capillary action. For example, grease wool is used for reinforcing plastic products, and is used for heat insulation, sound insulation, heat preservation, electrical insulation, and bulkhead materials for storage batteries.

In addition, the mineral wool (mineral fiber) is a mineral fiber, such as naturally obtained asbestos or scientifically produced artificial rock wool, glass wool (glass wool). Generally, it is a type of fiber used together with plant fibers and synthetic fibers, and is mainly used as a heat-retaining and sound-proofing material.

The heat resistance layer 140 is mounted on the lower portion of the flat first steel plate 110 and is formed of a carbonized material that blocks heat by forming a carbonized layer in the event of a fire, or blocks heat from the roof, that is, a low thermal transmittance ( It is formed of non-combustible or semi-incombustible materials with thermal transmittance). For example, the carbonized material is wood or PVC formed into a carbonized layer when a fire occurs, and the non-combustible or semi-non-combustible material may be selected from CRC board, cement board, silica board, and gypsum board.

According to the roof fireproof structure having a heat insulating layer and a heat resistance layer according to the first embodiment of the present invention, the roof is divided into a heat insulating layer 130 and a heat resistance layer 140, and at this time, the heat insulating layer 130 is used for conventional construction. A steel roof plate may be used, and the heat resistance layer 140 is installed on the lower end of the first flat steel plate 110 to block heat. In addition, a prefabricated panel is formed by fastening the heat resistance layer 140 to the lower portion of the flat first steel plate 110, the prefabricated panel is sequentially mounted on the truss 150 and connected, and the connection of the prefabricated panel The part is waterproofed with a waterproofing material 160.

[Roof fireproof structure 200 having an insulation layer and a heat resistance layer]

7 is a perspective view showing a roof fire resistant structure having a heat insulating layer and a heat resistance layer according to a second embodiment of the present invention, and FIG. 8 is a fire resistant roof structure having a heat insulating layer and a heat resistance layer according to a second embodiment of the present invention. is a cross-section representing

Referring to FIGS. 7 and 8 , a roof fire resistant structure 200 having a heat insulating layer and a heat resistance layer according to a second embodiment of the present invention is a roof fire resistant structure for improving fire resistance, and includes a concave-convex first steel plate ( 210), a second flat steel plate 220, a heat insulation layer 230 and a heat resistance layer 240. At this time, in the case of the roof fire resistant structure 200 having the heat insulating layer and the heat resistance layer according to the second embodiment of the present invention, the roof fire resistant structure 100 having the heat insulating layer and the heat resistance layer according to the first embodiment of the present invention described above. ), they are substantially the same except for the fact that the configurations of the concave-convex first steel plate 210 and the planar second steel plate 220 are reversed.

The uneven first steel plate 210 forms the inner side of the roof, and the flat second steel plate 220 forms the outer side of the roof. In addition, a prefabricated panel is formed by fastening the heat resistance layer 240 to the lower portion of the concave-convex steel plate 210, and the prefabricated panel is sequentially mounted on the truss 250 and connected. The connection portion of the prefabricated panel is waterproofed with a waterproof material 260.

The heat insulating layer 230 is a heat insulating material, and is formed by being placed between the uneven first steel plate 210 and the second flat steel plate 220 . At this time, the heat insulating layer 230 is selected from glass wool, mineral wool, EPS and urethane. At this time, since the thermal transmittance is reduced by the heat resistance layer 240, the EPS or urethane can be used as an insulator for the fireproof structure of the roof.

The heat resistance layer 240 is mounted on the lower portion of the concave-convex steel plate 210 and is formed of a carbonized material that blocks heat by forming a carbonized layer in the event of a fire, or has a low thermal transmittance to block heat from the roof. It may be formed of a material or a semi-incombustible material.

For example, the carbonized material is wood or PVC formed into a carbonized layer when a fire occurs, and the non-combustible or semi-non-combustible material may be selected from CRC board, cement board, silica board, and gypsum board.

As described above, as a roof fireproof structure, in the case of a roof fireproof structure having a heat insulation layer and a heat resistance layer according to an embodiment of the present invention, when configured by dividing into a heat insulation layer 130 and a heat resistance layer 140, EPS ( Styrofoam) and urethane may also be used. In other words, inexpensive EPS or urethane material with excellent insulation performance can be used as the insulation material.

In addition, when using a roof fireproof structure with excellent insulation performance, the thickness of the roof can be reduced, and the exterior of the building becomes beautiful. Since the total weight is reduced as the thickness of the roof becomes thinner, construction is easy, the construction period can be shortened, and accordingly, construction costs can be reduced.

As a result, according to the roof fire resistant structure having a heat insulating layer and a heat resistance layer according to the first and second embodiments of the present invention, the roof fire resistant structure is divided into a heat insulating layer and a heat resistance layer, and the heat transmittance is increased by the heat resistance layer. By reducing, EPS (expanded styrofoam) and urethane can also be used. In addition, by providing a roof fireproof structure having a heat insulation layer and a heat resistance layer, the thickness of the roof can be formed thin due to excellent heat insulation performance, and a beautiful exterior of the building can be provided.

[Construction method of roof fireproof structure having insulation layer and heat resistance layer]

9 is an operation flow chart of a construction method of a roof fireproof structure having a heat insulation layer and a heat resistance layer according to a first embodiment of the present invention, and FIGS. 10A to 10E are respectively a heat insulation layer and a heat resistance These are cross-sectional views to explain in detail the construction method of the layered roof fireproof structure.

Referring to FIGS. 9 and 10A to 10E, a construction method of a roof fire resistant structure having a heat insulating layer and a heat resistance layer according to a first embodiment of the present invention is a construction method of a roof fire resistant structure for improving fire resistance performance, First, a steel roof plate for construction is formed of the flat first steel plate 110, the heat insulating layer 130, and the concave-convex second steel plate 120 (S110). Specifically, as shown in FIG. 10A, the steel roof plate for construction includes a flat first steel plate 110 forming an inner side of the roof; a concave-convex second steel plate 120 forming the outside of the roof; and a heat insulating layer 130 formed by being interposed between the flat first steel plate 110 and the concave-convex second steel plate 120 as a heat insulating material. Here, the heat insulating layer 130 is selected from glass wool, mineral wool, EPS, and urethane, and at this time, the thermal transmittance is reduced by the heat resistance layer 140, so that the EPS or urethane can be used as a heat insulating material for a fireproof roof structure. .

Next, a heat resistance layer 140 corresponding to the cross section of the building steel roof plate is formed (S120). Specifically, as shown in FIG. 10B, the heat resistance layer 140 is mounted on the lower portion of the planar first steel plate 110, and is formed of a carbonized material that blocks heat by forming a carbonized layer in case of fire, or It is preferable to be formed of a non-combustible material or semi-non-combustible material having a low thermal transmittance to block the heat of the roof. For example, the carbonized material is wood or PVC formed into a carbonized layer when a fire occurs, and the non-combustible or semi-non-combustible material may be selected from CRC board, cement board, silica board, and gypsum board.

Next, as shown in FIG. 10C , a prefabricated panel is formed by fastening the heat resistance layer 140 to the lower portion of the first flat steel plate 110 (S130).

Next, as shown in FIG. 10D, the prefabricated panels are sequentially mounted on the truss 150 and connected (S140).

Next, as shown in FIG. 10E, the connection portion of the prefabricated panel is waterproofed with a waterproofing material 160 to complete the roof fireproof structure (S150).

[Construction method of roof fireproof structure having insulation layer and heat resistance layer]

11 is an operation flow chart of a construction method of a roof fireproof structure having a heat insulation layer and a heat resistance layer according to a second embodiment of the present invention, and FIGS. These are cross-sectional views to explain in detail the construction method of the layered roof fireproof structure.

Referring to FIGS. 11 and 12A to 12E, a construction method of a roof fire resistant structure having a heat insulating layer and a heat resistance layer according to a first embodiment of the present invention is a construction method of a roof fire resistant structure for improving fire resistance performance, First, a steel roof plate for construction is formed of the concave-convex first steel plate 210, the heat insulating layer 230, and the flat second steel plate 220 (S210). Specifically, as shown in FIG. 12A, the steel roof plate for construction includes a first concave-convex steel plate 210 forming an inner side of the roof; a second flat steel plate 220 forming the outer side of the roof; and a heat insulating layer 230 formed by being interposed between the concave-convex first steel plate 210 and the second flat steel plate 220 as a heat insulating material. At this time, the heat insulating layer 230 is selected from glass wool, mineral wool, EPS, and urethane. At this time, the thermal transmittance is reduced by the heat resistance layer 240, so that the EPS or urethane can be used as a heat insulating material for a roof fireproof structure. .

Next, a heat resistance layer 240 corresponding to the cross section of the building steel roof plate is formed (S220). Specifically, as shown in FIG. 12B, the heat resistance layer 240 is mounted on the lower portion of the concave-convex steel plate 210 and is formed of a carbonized material that blocks heat by forming a carbonized layer in case of fire, or Alternatively, it is formed of a non-combustible material or semi-non-combustible material having a low thermal transmittance to block the heat of the roof. In this case, the carbonized material is wood or PVC formed as a carbonized layer when a fire occurs, and the incombustible or semi-incombustible material may be selected from a CRC board, cement board, silica board, and gypsum board.

Next, as shown in FIG. 12C , a prefabricated panel is formed by fastening the heat resistance layer 240 to the lower portion of the concavo-convex steel plate 210 (S230).

Next, as shown in FIG. 12D, the prefabricated panels are sequentially mounted on the truss 250 and connected (S240).

Next, as shown in FIG. 12E, the connection portion of the prefabricated panel is waterproofed with a waterproofing material 260 to complete the roof fireproof structure (S250).

After all, according to an embodiment of the present invention, EPS (expanded styrofoam) and urethane can also be used as a roof fireproof structure by dividing into a heat insulation layer and a heat resistance layer, and reducing the thermal transmittance by the heat resistance layer. In other words, inexpensive EPS or urethane material with excellent insulation performance can be used as the insulation material. In addition, by providing a roof fireproof structure having a heat insulation layer and a heat resistance layer, the thickness of the roof can be formed thin due to excellent heat insulation performance, and a beautiful exterior of the building can be provided. Since the weight is reduced as the thickness of the roof becomes thinner, the construction is easy, the construction period can be shortened, and accordingly, the construction cost can be reduced.

The above description of the present invention is for illustrative purposes, and those skilled in the art can understand that it can be easily modified into other specific forms without changing the technical spirit or essential features of the present invention. will be. Therefore, the embodiments described above should be understood as illustrative in all respects and not limiting. For example, each component described as a single type may be implemented in a distributed manner, and similarly, components described as distributed may be implemented in a combined form.

The scope of the present invention is indicated by the following claims rather than the detailed description above, and all changes or modifications derived from the meaning and scope of the claims and equivalent concepts should be construed as being included in the scope of the present invention. do.

100: roof fireproof structure (first embodiment)
110: flat first steel plate 120: uneven second steel plate
130: heat insulation layer 140: heat resistance layer
150: truss 160: waterproofing material
200: roof fireproof structure (second embodiment)
210: uneven first steel plate 220: flat second steel plate
230: heat insulation layer 240: heat resistance layer
250: truss 260: waterproofing material

Claims (20)

In the roof fireproof structure for improving fireproof performance,
a flat first steel plate 110 forming the inner side of the roof;
a concave-convex second steel plate 120 forming the outside of the roof;
As a heat insulator, a heat insulating layer 130 formed by being placed between the flat first steel plate 110 and the concave-convex second steel plate 120; and
Including a heat resistance layer 140 mounted on the lower portion of the first flat steel plate 110,
The heat resistance layer 140 is formed of a carbonized material that blocks heat by forming a carbonized layer when a fire occurs, or is formed of a non-combustible material or a semi-noncombustible material that blocks heat from the roof; The carbonized material is wood or PVC formed into a carbonized layer when a fire occurs, and the non-combustible material or semi-non-combustible material is selected from CRC board, cement board, silica board and gypsum board; and
A prefabricated panel is formed by fastening the heat resistance layer 140 to the lower portion of the flat first steel plate 110, and the prefabricated panel is sequentially mounted on the truss 150 and connected, and the connection portion of the prefabricated panel is A roof fireproof structure having a heat insulation layer and a heat resistance layer, characterized in that it is waterproofed with a waterproofing material (160). According to claim 1,
The heat insulation layer 130 is a roof fireproof structure having a heat insulation layer and a heat resistance layer, characterized in that selected from glass wool, mineral wool, EPS and urethane. According to claim 2,
A roof fireproof structure having a heat insulation layer and a heat resistance layer, characterized in that the heat transmittance is reduced by the heat resistance layer 140 and the EPS or urethane is used as a heat insulation material of the roof fire resistance structure. delete delete In the roof fireproof structure for improving fireproof performance,
a concave-convex first steel plate 210 forming the inside of the roof;
a second flat steel plate 220 forming the outer side of the roof;
As a heat insulator, a heat insulating layer 230 formed by being placed between the concave-convex first steel plate 210 and the second flat steel plate 220; and
Including a thermal resistance layer 240 mounted on the lower portion of the concave-convex steel plate 210,
The heat resistance layer 240 is formed of a carbonized material that blocks heat by forming a carbonized layer when a fire occurs, or is formed of a non-combustible material or a semi-noncombustible material that blocks heat from the roof; The carbonized material is wood or PVC formed into a carbonized layer when a fire occurs, and the non-combustible material or semi-non-combustible material is selected from CRC board, cement board, silica board and gypsum board; and
A prefabricated panel is formed by fastening the heat resistance layer 240 to the lower portion of the concave-convex steel plate 210, and the prefabricated panel is sequentially mounted on the truss 250 and connected. The roof fireproof structure having a heat insulation layer and a heat resistance layer, characterized in that the connection portion of the prefabricated panel is waterproofed with a waterproofing material (260). According to claim 6,
The heat insulation layer 230 is a roof fireproof structure having a heat insulation layer and a heat resistance layer, characterized in that selected from glass wool, mineral wool, EPS and urethane. According to claim 7,
A roof fireproof structure having a heat insulation layer and a heat resistance layer, characterized in that the heat transmittance is reduced by the heat resistance layer 240 and the EPS or urethane is used as a heat insulation material of the roof fire resistance structure. delete delete In the construction method of the roof fire resistance structure for improving fire resistance performance,
a) forming a building steel roof plate formed of a flat first steel plate 110, a heat insulation layer 130 and a concave-convex second steel plate 120;
b) forming a heat resistance layer 140 corresponding to the cross section of the building steel roof plate;
c) forming a prefabricated panel by fastening the heat resistance layer 140 to the lower portion of the flat first steel plate 110;
d) sequentially mounting and connecting the prefabricated panels on a truss (150); and
e) waterproofing the connection part of the prefabricated panel with a waterproofing material 160 to complete the roof fireproof structure, wherein the steel roof plate for construction in step a),
a flat first steel plate 110 forming the inner side of the roof;
a concave-convex second steel plate 120 forming the outside of the roof; and
As a heat insulating material, it includes a heat insulating layer 130 formed by being placed between the flat first steel plate 110 and the concave-convex second steel plate 120,
The heat resistance layer 140 is mounted on the lower portion of the first flat steel plate 110 and is formed of a carbonized material that blocks heat by forming a carbonized layer in case of fire, or a non-combustible material or semi-noncombustible material that blocks heat from the roof. made of material; The carbonized material is wood or PVC formed as a carbonized layer when a fire occurs, and the non-combustible material or semi-non-combustible material is a heat insulating layer and a heat resistance layer, characterized in that selected from CRC board, cement board, silica board and gypsum board Construction method of fireproof roof structure. According to claim 11,
The heat insulating layer 130 is a construction method of a roof fireproof structure having a heat insulating layer and a heat resistance layer, characterized in that selected from glass wool, mineral wool, EPS and urethane. According to claim 12,
Construction method of a roof fireproof structure having a heat insulation layer and a heat resistance layer, characterized in that the heat transmittance is reduced by the heat resistance layer 140 and the EPS or urethane is used as a heat insulation material of the roof fire resistance structure. delete delete In the construction method of the roof fire resistance structure for improving fire resistance performance,
a) forming a building steel roof plate formed of the concave-convex steel plate 210, the heat insulating layer 230, and the flat second steel plate 220;
b) forming a heat resistance layer 240 corresponding to the cross section of the building steel roof plate;
c) forming a prefabricated panel by fastening the heat resistance layer 240 to the bottom of the concave-convex steel plate 210;
d) sequentially mounting and connecting the prefabricated panels on a truss (250); and
e) waterproofing the connection part of the prefabricated panel with a waterproofing material 260 to complete the roof fireproof structure, wherein the steel roof plate for construction in step a),
a concave-convex first steel plate 210 forming the inside of the roof;
a second flat steel plate 220 forming the outer side of the roof;
As a heat insulating material, it includes a heat insulating layer 230 formed by being placed between the concave-convex first steel plate 210 and the second flat steel plate 220,
The heat resistance layer 240 is mounted on the lower portion of the concavo-convex steel plate 210 and is formed of a carbonized material that blocks heat by forming a carbonized layer in case of fire, or a non-combustible material or quasi-carbonized material that blocks heat from the roof. made of non-combustible materials; The carbonized material is wood or PVC formed as a carbonized layer when a fire occurs, and the non-combustible material or semi-non-combustible material is a heat insulating layer and a heat resistance layer, characterized in that selected from CRC board, cement board, silica board and gypsum board Construction method of fireproof roof structure. According to claim 16,
The heat insulating layer 230 is a construction method of a roof fireproof structure having a heat insulating layer and a heat resistance layer, characterized in that selected from glass wool, mineral wool, EPS and urethane. According to claim 17,
Construction method of a roof fireproof structure having a heat insulation layer and a heat resistance layer, characterized in that the heat transmittance is reduced by the heat resistance layer 240 and the EPS or urethane is used as a heat insulation material of the roof fire resistance structure. delete delete

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