KR20200042334A - Modular Archit1ect1ure Using the Composite Insulation Panel with Fire Partition - Google Patents

Abstract

According to the present invention, a prefabricated building is provided. The prefabricated building includes: a plurality of units each including four vertical frames for forming a wall of a prefabricated building, four horizontal frames for forming an upper surface by connecting ends of vertical frames, which are adjacent to each other, with each other, and four horizontal frames for forming a lower surface by connecting the other ends of the vertical frames, which are adjacent to each other, with each other; a wall panel installed on the frames to form the wall of the prefabricated building; at least one composite insulation panel installed on an outer wall surface of the wall panel for the external insulation of the prefabricated building; and a hermetic fire tube placed between two units located side by side in a vertical or transverse direction, and including at least one of an air layer and a filling layer therein. Therefore, the prefabricated building is capable of preventing a fire from spreading throughout the whole building.

Description

Prefabricated building using a composite insulation panel with fire-resistance compartments {Modular Archit1ect1ure Using the Composite Insulation Panel with Fire Partition}

The present invention relates to a prefabricated building using a composite insulation panel, the composite insulation panel is arranged such that the outer wall of the prefabricated building has a fire protection zone, and the airtight fire protection tube and fire protection membrane are used to provide insulation and fireproof performance between unit units of the prefabricated building. It relates to a prefabricated building that can be improved.

Recently, as the age of low birthrate and aging has increased, the demand for housing model development has increased significantly.

In particular, there is an increasing demand for dormitories and residential improvement for young people and college students. As a result, modular construction, which is recognized as a prefabricated building that can be rapidly supplied by shortening the construction period to 1/2, is attracting attention, and research on this has been actively conducted. Is going on.

Modular building, unlike the existing building that performs most of the process in the field, pre-fabricates and installs various interior materials, mechanical equipment, electric wiring, etc. in a module structure composed of a cube such as a number of lego blocks in a factory like a car. It refers to a building that is completed by transporting and assembling it to the site.

 That is, as a high-efficiency building that combines the advantages of the manufacturing industry in a factory, structures, interiors, exteriors, and facilities can be manufactured in a modular factory and easy to repair.

In addition, as the unit unit is assembled, it is easy to expand and rebuild, and it is possible to supply quickly. In particular, it can be supplied in various models according to the style of the consumer as a structure that responds to the demand of the consumer.

In order for the standardized parts and materials manufactured in the factory to be constructed immediately without on-site processing, a gap for each part and material inevitably occurs.

That is, even in the case of standardized materials, construction errors may occur depending on the site conditions and construction techniques when constructing in the field, and when joining with adjacent materials, extra dimensions for joining are required.

Therefore, if the production dimension and the module designation dimension are set to be the same, the standard for securing the mutual area is violated due to such error or margin of construction, causing cutting in the field. Therefore, there is a need for a free space to deal with errors or margins that occur during production and construction. This is called a gap.

This gap value consists of the sum of the construction error and the construction margin, and when the construction error does not occur, the maximum gap value occurs.

Therefore, how to deal with this gap is very important in standard construction.

In particular, in the case of on-site construction, there is a problem in that the heat insulation performance between unit units is deteriorated by such a gap formed between unit units.

In addition, a certain gap space between the units formed when the unit units are combined is required to block the movement path of the bar, which is expected as a fire movement path in case of fire.

On the other hand, the insulation method of a building includes an internal insulation system that installs insulation inside the building and an external insulation system that installs outside the building.

The interior heat insulation system installed inside the building is easier to install than the exterior heat insulation system, but has a disadvantage that the insulation effect is inferior to the exterior heat insulation method surrounding the entire building exterior.

In recent years, the insulation performance has been gradually strengthened in terms of energy saving, and most buildings are applying an external insulation system. However, in recent years, the problem of fire in the external insulation system has emerged due to large fires in buildings.

Insulators are made of materials that are most easily burned due to the characteristics of performance, and when a fire occurs, the fire easily spreads to the insulation surrounding the entire building, causing fire to spread throughout the building, leading to a large human accident.

Accordingly, the insulating product called PF insulation, a non-combustible material, is in the spotlight, but it causes a considerable burden on construction costs due to problems in the construction method and very high cost.

Glass wool, which is a semi-non-combustible material such as PF insulation, is very susceptible to moisture, and when installed outside a building that frequently leaks into moisture, sagging occurs when the glass wool is damp, deteriorating the insulation performance rapidly.

In addition, most semi-non-combustible insulation materials have a soft structure, and, unlike ordinary styrofoam type insulation materials, when installing on a building exterior, a separate structural frame is required to attach the exterior finishing material. In addition, there is a disadvantage in that the external finishing material must undergo a process of attaching a separate waterproofing paper when the finishing material does not have a waterproof function.

Therefore, there is a need for a technology capable of improving the heat insulation performance and the fire protection performance between unit units capable of overcoming the above problems.

In order to solve the above problems, the present invention has an object to provide a prefabricated building using a composite insulation panel having a fire protection zone.

In order to achieve the above object, according to an aspect of the present invention, four vertical frames for forming a wall surface of a prefabricated building, and four for forming an upper surface by interconnecting one end of each vertical frame adjacent to each other. A plurality of unit units each including four horizontal frames for forming a lower surface by mutually connecting a horizontal frame and the other end of each vertical frame adjacent to each other; A wall panel installed on the frame to form a wall surface of the prefabricated building; For the external insulation of the prefabricated building, at least one composite insulation panel installed on the outer wall surface of the wall panel; And it is disposed between two unit units positioned side by side in the vertical direction or the left and right direction, and provides a prefabricated building including an airtight fireproof tube having at least one of an air layer and a filling layer therein.

In addition, according to another aspect of the present invention, four vertical frames for forming a wall surface of a prefabricated building, and four horizontal frames for forming an upper surface by interconnecting one end of each vertical frame adjacent to each other, and each other A plurality of unit units including four horizontal frames for forming a lower surface by interconnecting the other ends of each adjacent vertical frame; A wall panel installed on the frame to form a wall surface of the prefabricated building; For the external insulation of the prefabricated building, at least one composite insulation panel installed on the outer wall surface of the wall panel; And it is disposed between two unit units positioned side by side in the vertical direction or in the left and right direction, and provides a prefabricated building including a fire barrier made of a refractory material.

According to the present invention, it is possible to prevent the fire from spreading over the entire building even in the event of a fire by arranging the composite insulation panel in a prefabricated structure to have a fire protection zone using a fixing material.

In addition, the composite insulation panel can be attached to the exterior finish on the panel itself, there is an advantage that does not require a separate structural frame or waterproof paper to attach the exterior finish.

When constructing a prefabricated building in the field of a unit unit of a conventional prefabricated building, it is possible to overcome the problem that the heat insulation performance and fire protection performance of the unit unit are deteriorated by the gap values formed between the unit units.

In addition, when stacking a plurality of unit units vertically, it is possible to improve the heat insulation performance and fire protection performance between unit units.

1 and 2 is a schematic diagram of a prefabricated building according to an embodiment of the present invention.
3 is a side cross-sectional view of a composite insulating panel according to an embodiment of the present invention.
4 is a perspective view showing a fixing material according to an embodiment of the present invention.
5 and 6 is a view showing that the composite insulation panel is installed in a prefabricated building according to an embodiment of the present invention.
7 to 10 are schematic diagrams showing that an airtight fire protection tube and a fire protection film are installed in a prefabricated building according to an embodiment of the present invention.
11 and 12 are views showing an airtight fire protection tube and a fire protection film according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, the terms or words used in the present specification and claims should not be construed as being limited to ordinary or lexical meanings, and the inventor appropriately explains the concept of terms to explain his or her invention in the best way. Based on the principle that it can be defined, it should be interpreted as meanings and concepts consistent with the technical spirit of the present invention.

In addition, regardless of reference numerals, the same or corresponding components are assigned the same or similar reference numerals, and duplicate description thereof will be omitted, and for convenience of description, the size and shape of each constituent member are exaggerated or reduced. Can be.

Therefore, the embodiments shown in the embodiments and the drawings described in this specification are only the most preferred embodiments of the present invention and do not represent all of the technical spirit of the present invention, and at the time of this application, various alternatives are possible. It should be understood that there may be equivalents and variations.

Hereinafter, a prefabricated building (hereinafter referred to as a prefabricated building) using a composite insulation panel having a fire protection section according to an embodiment of the present invention will be described in detail with reference to FIGS. 1 to 12 attached to this document.

First, in this specification, "architecture" is used in a generic sense including residential, non-residential buildings, and the like.

In addition, in this specification, the unit unit is manufactured in a factory and assembled in the field, and a plurality of unit units can be assembled to each other to construct various types of buildings.

Particularly, in this specification, panels installed on the floor, ceiling, etc., which are generally provided in the unit unit, internal partitions, glass, electrical and communication wiring, equipment piping, finishing materials, interior and exterior materials, windows, and the like will be omitted for convenience of description.

The present invention relates to a prefabricated building (10).

The prefabricated building 10 according to an embodiment of the present invention includes a plurality of unit units 100, a wall panel 150, a composite insulating panel 170, an airtight fire protection tube 200, and / or a fire protection film 300. do.

1 and 2 is a schematic diagram of a prefabricated building according to an embodiment of the present invention.

Referring to FIG. 1, the unit unit 100 of the present invention includes four vertical frames 110 for forming a wall surface of a prefabricated building.

In addition, it includes four horizontal frames 120 for forming an upper surface by interconnecting one end of each vertical frame 110 adjacent to each other.

In addition, it includes four horizontal frames 130 for forming a lower surface by interconnecting the other ends of each vertical frame 110 adjacent to each other.

As described above, the interconnected vertical frames 110 and horizontal frames 120 and 130 may form side surfaces of the unit unit 100.

In addition to this, referring to FIG. 2, the wall panel 150 may be installed on a frame to form a wall surface of the prefabricated building 10. That is, the wall panel 150 may be installed on the vertical frame 110.

The wall panel 150 may be applicable to any of those that are generally used for a wall in a prefabricated building.

In addition, the one or more composite insulation panels 170 may be installed on the outer wall surface of the wall panel 150 for external insulation of the prefabricated building.

3 is a side cross-sectional view of a composite insulating panel according to an embodiment of the present invention.

Referring to FIG. 3, the composite insulation panel 170 of the present invention includes an insulating layer 171 made of an insulating material and a non-combustible layer made of a non-combustible material, and a non-combustible layer 173 bonded to both surfaces of the insulating layer 171, respectively.

More specifically, the heat insulating material includes any one of expanded polystyrene (EPS) and extruded polystyrene, and the non-combustible material may include glass reinforced plastic, but is not limited thereto. It does not work.

For example, the composite insulation panel 170 may be a lightweight glass reinforced plastic (GRP) panel (GRP sandwich panel) using a rigid general styrofoam type (eg, EPS, XPS) insulation.

In addition, for example, the composite insulation panel 170 may be in the form of a glass fiber-reinforced plastic sheet attached to each other (adhesive) as a non-combustible material on both sides of expanded polystyrene (EPS) as an insulating layer.

Figure 4 is a perspective view showing a fixing material according to an embodiment of the present invention, Figures 5 and 6 is a view showing that the composite insulation panel is installed in a prefabricated building according to an embodiment of the present invention.

4 to 6, the prefabricated building 10 of the present invention is predetermined to support any one or more of the top, bottom, side ends and corners of the composite insulation panel 170 on the outer wall surface of the wall panel 150 It includes a plurality of fixing members 190 are installed spaced apart.

More specifically, the fixing member 190 has a first surface facing the outer wall surface of the wall panel and a second surface 192 opposite to the first surface, and a plurality of partition members protruding from the second surface 192 193, the plurality of partition members 193 may be disposed at a predetermined interval to have a predetermined space 195 between two adjacent partition members 193.

The partition member 193 may be provided in a 'straight line' extending along the longitudinal direction to support the top, bottom or side ends of the composite insulation panel 170, for example, two partition members 193 They may be disposed at a predetermined distance from each other to have a predetermined space 195.

In addition, the partition member 193 may be provided in a “bending” shape formed to bend to support the edge of the composite insulating panel 170, and may be bent to have an approximately “a” or “b” shape. , For example, the four partition members 193 may be disposed at a predetermined distance from each other to have a predetermined space 195 '.

Here, the predetermined space 195 ′ formed by the four bent partition members 193 may have an approximately cross shape.

Here, the fixing material 190 may be made of any material, such as ferrous or non-ferrous materials or synthetic resin, but is preferably equipped with strong fire resistance, and is firmly fixed using a fixing means such as a piece or adhesive on the outer wall of the wall. It is preferably installed.

On the other hand, the composite insulating panel of the present invention, by a partition member formed as described above to form a spaced apart portion 175 that is a predetermined space between two adjacent composite insulating panels.

The spacer 175 may be formed to extend along a predetermined space (195, 195 ') formed by the partition member 193 of the fixing member 190, and the partition member 193 is a partial area of the spacer 175 Can form.

At least one of an airtight fire protection tube or a fire protection film may be disposed on the spacer 175.

On the other hand, the airtight fireproof tube 200 of the present invention is disposed between two unit units positioned side by side in the vertical direction or the left and right direction, it may be formed to have at least one of the air layer (S) and the filling layer (P) therein have.

In addition, the fire protection film 300 is disposed between two unit units 100 positioned side by side in the vertical direction or the horizontal direction, and may be made of a refractory material.

Here, the fire protection film 300 may mean a non-combustible film, a fire-resistant film, and a flame-retardant film having a fire-resistant, fire-resistant and flame-retardant function.

In particular, the airtight fireproof tube 200 and the fire protection film 300 may be formed of a fireproof, nonflammable or flame retardant material that can block fire in the event of a fire.

The refractory, non-combustible or flame-retardant material may be applicable as long as it is generally used.

For example, the refractory, non-flammable or flame retardant material is a material that can withstand physical and chemical effects at high temperatures, and may include silicone rubber, expanded graphite, and the like, such as isocyanate, silicone, polyol, rubber, etc. Any one or more selected from inorganic expansion-based flame retardants, phosphorus-based flame retardants, inorganic hydroxide-based flame retardants, boric acid-based flame retardants, silicate-based flame retardants, carbonate-based flame retardants, ammonium polyphosphates (APP) and melamine polyphosphates (MPP) in synthetic or natural resins Mixed mixtures.

In addition, it may include a refractory material molded from raw materials such as refractory clay, siliceous, high alumina, and chromium-magnesia.

In particular, when it is formed by mixing silicic acid (SiO2) and boric acid (B2O5), it resolidifies by silicic acid (SiO2) and boric acid (B2O5) in the event of a fire, thereby increasing the firmness of the carbonized film. Therefore, depending on the temperature, the effect of heat shielding and flame-retardant performance may be shown step by step.

In addition to this, the hermetic fire tube 200 may be disposed at intervals between two unit units positioned side by side in the vertical direction or the left and right direction, and the air gap between the unit units may be more sealed in the state where the airtight fire protection tube is disposed as described above. The fire protection film 300 may be disposed between the airtight fire protection tube 200 and each unit unit.

For example, when two unit units are arranged side by side in the vertical direction, a fire protection film, an airtight fire protection tube, and a fire protection film may be sequentially disposed between the two unit units, and vice versa, an airtight fire protection tube, a fire protection film, airtight protection The tubes may be arranged one after the other.

As described above, when the airtight fire protection tube and the fire protection film are disposed at the same time, not only the insulation between the unit units is improved, but also the heat insulation performance is improved, and formed of a fireproof material disposed in a gap that can be used as a fire movement path in case of fire. The synergistic effect of preventing the fire from being increased by the fire barrier film and the airtight fire prevention tube appears.

Here, the fire barrier film may be formed in a fluid solid or gel form to have a fire or fire resistance function.

Meanwhile, referring to FIG. 1, the unit unit 100 has frames 120 and 130 forming upper and lower surfaces.

That is, the upper and lower surfaces of the unit unit are formed by the plurality of horizontal frames 120 and 130.

In particular, a wall surface is formed by a plurality of vertical frames 110 interconnecting the plurality of horizontal frames 120 and 130.

7 to 10 are schematic diagrams showing that an airtight fire protection tube and a fire protection film are installed in a prefabricated building according to an embodiment of the present invention.

Referring to FIGS. 7 to 10, at least one of the airtight fire protection tube 200 or the fire protection film 300, when the unit unit 100 is stacked adjacent in the vertical direction, the lower surface of the upper unit unit ( 100b) or the upper surface 100a of the lower unit unit.

In particular, when the unit units are stacked, at least one or more of the airtight fire protection tube 200 or the fire protection film 300 may be disposed between the lower surface 100b of the upper unit unit and the upper surface 100a of the lower unit unit. You can.

In addition, the unit unit 100 has a frame forming a side surface.

That is, the unit unit 100 forms four sides by the vertical 110 and horizontal frames 120 and 130.

In particular, at least one or more of the airtight fire protection tube or the fire protection film may be disposed between the opposite side surfaces of the unit units when the two unit units 100 are disposed adjacent to each other in the left and right directions. .

Therefore, as the airtight fire protection tube 200 and the fire protection film 300 of the present invention are disposed between unit units, it is possible to improve the heat insulation performance and the fire protection performance of each unit unit 100.

On the other hand, the unit unit 100 of the present invention has a fastening groove 140 formed in each frame.

In particular, at least one or more of the hermetic fire protection tube 200 or the fire protection film 300 may be inserted into at least a portion of the fastening groove.

Here, the airtight fire prevention tube 200 and the fire protection film 300 may be partially inserted into the remaining fastening grooves by close contact of the unit unit 100.

More specifically, referring to FIGS. 8 and 9, the unit unit 100 has fastening grooves 140 formed in horizontal frames 120 and 130 forming upper and lower surfaces.

In particular, the airtight fire protection tube 200 or the fire protection film 300, when the unit unit 100 is stacked adjacent in the vertical direction, the fastening groove 140b and the lower unit of the lower surface 100b of the upper unit unit It may be disposed between the fastening groove (140a) of the upper surface (100a) of the unit.

In addition, the unit unit 100 has fastening grooves 140 formed in vertical 110 and horizontal frames 120 and 130 forming four sides.

In particular, the airtight fireproof tube 200 or the fire protection film 300, when two unit units 100 are disposed adjacent to each other in a horizontal direction facing one side, the side facing the unit units (100c, 100d) It may be disposed between the fastening grooves (140c, 140d).

Here, the fastening groove 140 into which a portion of the airtight fire protection tube 200 or the fire protection film 300 is inserted is a groove used for assembly of each unit unit during construction of the unit unit, the unit unit 100 factory When manufacturing, it is possible to use a groove formed integrally with the frame.

Therefore, when the airtight fire protection tube 200 and the fire protection film 300 are inserted to improve the heat insulation performance and the fire protection performance between the unit units 100, the insertion groove for the airtight fire protection tube 200 and the fire protection film 300 is inserted. The advantage of not having to form a back separately.

More specifically, at least one of the at least one of the hermetic fire protection tube 200 and the fire protection film 300 of the present invention may be inserted into at least a portion of any one of the fastening grooves 140a, 140b, 140c, 140d.

That is, the airtight fire protection tube 200 and the fire protection film 300 are any one of the fastening grooves facing each other between the unit unit 100 when the unit unit 100 is stacked up or down or disposed adjacent to the left and right. Some areas may be inserted into the fastening groove.

For example, referring to FIG. 9 (a), when the unit unit 100 is stacked up and down, the fastening groove 140a and the fastening groove 140a formed on the upper surface of the unit unit 100a on the first floor Among the fastening grooves 140b formed on the lower surface of the opposing two-layer unit unit 100b, a partial region of the airtight fire protection tube 200 or the fire protection film 300 may be inserted into the fastening groove 140a of the upper surface. .

On the contrary, although not shown in the drawings, some regions of the airtight fire protection tube 200 or the fire protection film 300 may be inserted into the fastening groove 140b formed in the lower surface.

That is, a partial area of the airtight fire protection tube 200 or the fire protection film 300 in one of the fastening groove 140a of the unit unit 100a on the first floor and the fastening groove 140b of the unit unit 100b on the second floor This can be inserted.

In addition, as an example, referring to FIG. 9 (b), when the unit unit 100 is disposed adjacent to the left and right, an airtight fire protection tube is provided in one of the fastening grooves facing each other between the unit units 100 ( 200) or a portion of the fire protection layer 300 may be inserted.

That is, a part of the airtight fire protection tube 200 or the fire protection film 300 is inserted into one of the fastening groove 140c of the left unit unit 100c and the fastening groove 140d of the right unit unit 100d. Can be.

In addition, at least one or more of the airtight fire protection tube 200 or the fire protection film 300 may be partially inserted into the remaining fastening grooves by close contact of the unit unit 100.

As an example, when the unit unit 100 is stacked up and down, an airtight fire protection tube or a fire barrier is inserted into the fastening groove 140a of the lower unit unit of any one of the fastening grooves 140a or 140b as described above. After, the remaining part of the region may be inserted into the fastening groove 140b of the upper unit unit which is the remaining fastening groove by close contact between the unit units 100 such as assembly of the unit unit 100.

As described above, the airtight fire protection tube 200 or the fire protection film 300 is inserted into the fastening grooves 140a and 140b so that the airtight fire protection tube 200 or the fire protection film 300 is provided with each unit unit 100. While being fixed between the unit, the insulation and fire protection performance between the unit units 100 may be improved.

Particularly, due to the pressure between the unit units 100, some regions of the airtight fireproof tube 200 or the fire protection film 300 are inserted into the fastening grooves 140a and 140b facing each other, and the other portions of each region are each unit. It is in close contact between the frames of the unit 100, so that the heat insulation effect and the fire prevention effect can be improved.

In addition, since the airtight fire protection tube 200 or the fire protection film 300 is fixed to the fastening groove 140 as described above, it is possible to more easily improve the heat insulation performance and the fire protection performance between the unit units 100.

Meanwhile, referring to FIG. 10, at least one or more airtight fire protection tubes 200 or fire protection barriers 300 of the present invention may be disposed along the circumference of four horizontal frames on the top or bottom surface of the unit unit 100. have.

In particular, at least one or more airtight fireproof tubes 200 or fireproof membranes 300 may be disposed per each horizontal frame, and when a plurality of airtight fireproof tubes 200 or fireproof membranes 300 are disposed, thermal insulation efficiency And fire protection efficiency can be improved.

In addition to this, as shown in (b) and (c) of FIG. 10, the airtight fire protection tube 200 or the fire protection film 300 has four horizontal frame circumferential directions of the upper surface or the lower surface of the unit unit 100. Accordingly, it may be provided to form a closed curve.

The airtight fire protection tube 200 or the fire protection film 300 provided to form a closed curve as described above is formed by a plurality of fastening grooves 140 formed in respective frames when the unit units 100 are disposed in the left and right and up and down directions. It is fixed, and some areas of the airtight fire protection tube 200 or the fire protection film 300 are inserted into the fastening grooves 140 facing each other, and some of the other areas are in close contact with each other, resulting in higher insulation and fire protection. Appears.

11 and 12 are views showing an airtight fire protection tube and a fire protection film according to an embodiment of the present invention.

11 and 12, cross-sections of the airtight fire protection tube 200 and the fire protection film 300 of the present invention may include at least a portion selected from circular, elliptical, polygonal, and hemispherical shapes.

More specifically, the cross-sections of the airtight fireproof tube 200 and the fire protection film 300 include circular, elliptical, square, trapezoidal, hexagonal, semicircle, hourglass shapes in which the diameter of the central portion decreases inward, etc. It is not limited.

In addition, the airtight fire protection tube 200 and the fire protection film 300 include one or more air layers and adiabatic filling layers partitioned therein.

That is, the airtight fire protection tube may include one or more air layers S partitioned therein or a filling layer P filled with a refractory or non-combustible material.

In particular, the hermetic fire tube, It can be made of fireproof or non-combustible material to have a firewall function.

Here, the hermetic fireproof tube, may be provided with a filling layer filled with an air layer or a refractory material at the same time, when provided as described above has the effect of improving the heat insulation performance and fire performance.

In addition to this, the fire barrier film 300 may be formed of a fluid solid or gel form having a fire or fire resistance function.

Here, the fire barrier film 300 may be a fluid solid or a gel form having a fire or fire resistance function as described above, and at least one air layer (S) or fire resistance or inside the airtight fire protection tube 200, or It may include a filling layer (P) filled with a non-combustible material.

That is, a plurality of air layers (S) or a fire filling layer (P) formed in the air may be formed inside the hermetic fire tube (200) or the fire barrier film (300).

Therefore, the insulation efficiency and the fire prevention efficiency can be increased by the plurality of air layers or the fire filling layer.

More specifically, as shown in (a) of FIG. 12, the airtight fire protection tube 200 or the fire protection film 300 may have a plurality of air layers S formed in the inside, and the surface may be the aforementioned fire resistant material. It can be formed of.

In addition, as shown in FIG. 12B, an air layer S and a filling layer P may be included therein.

In addition, as shown in FIG. 12 (c), the air layer S and the filling layer P are included inside, and the surface may be formed of the aforementioned refractory material.

In addition, as shown in (d) of FIG. 12, a filling layer P formed of a refractory or non-combustible material may be formed between a plurality of airtight fireproof tubes 200 having an air layer S therein or a fire protection film 300. have.

Here, a plurality of air layers (S) and a filling layer (P) may be formed, respectively, and the filling layer (P) may be made of a refractory or non-combustible material to have a firewall function, and a heat insulating material may be filled to form insulation. You can.

As described above, the present invention has an effect of preventing the fire from spreading to the entire building even in the event of a fire by arranging the composite insulation panel in a prefabricated structure to have a fire protection zone using a fixing material.

In particular, the partition member of the fixing material forms a spaced portion 175 and arranges an airtight fire protection tube and / or a fire protection film on the spaced portion, so that the fire spreads only within a predetermined area to prevent the fire from spreading throughout the building. I can do it.

In addition, the composite insulating panel can be attached to the exterior finish on the panel itself, there is an advantage of not having to attach a separate structural frame or waterproof paper to attach the exterior finish.

10: Prefab building
100, 100a, 100b, 100c, 100d: unit unit
110: vertical frame
120: horizontal frame on the upper surface
130: horizontal frame on the lower surface
140, 140a, 140b, 140c, 140d: fastening groove
150: wall panel
170: composite insulation panel
190: fixing material
200: airtight fire protection tube
300: fire barrier

Claims (9)

Four vertical frames for forming a wall surface of a prefabricated building, and four horizontal frames for forming an upper surface by interconnecting one end of each vertical frame adjacent to each other, and between the other ends of each vertical frame adjacent to each other. A plurality of unit units each including four horizontal frames for connecting and forming a lower surface;
A wall panel installed on the frame to form a wall surface of the prefabricated building;
For the external insulation of the prefabricated building, at least one composite insulation panel installed on the outer wall surface of the wall panel; And
A prefabricated building that is disposed between two unit units positioned side by side in the vertical direction or in the horizontal direction, and includes an airtight fire protection tube having at least one of an air layer and a filling layer therein. Four vertical frames for forming a wall surface of a prefabricated building, and four horizontal frames for forming an upper surface by interconnecting one end of each vertical frame adjacent to each other, and between the other ends of each vertical frame adjacent to each other. A plurality of unit units including four horizontal frames for connecting and forming a lower surface;
A wall panel installed on the frame to form a wall surface of the prefabricated building;
For the external insulation of the prefabricated building, at least one composite insulation panel installed on the outer wall surface of the wall panel; And
A prefabricated building that is disposed between two unit units positioned side by side in the vertical direction or in the horizontal direction, and includes a fire barrier made of fire-resistant material. The method according to claim 1 or 2,
The composite insulating panel includes an insulating layer made of an insulating material and
A prefabricated building made of a non-combustible material and comprising a non-combustible layer that is bonded to both sides of the heat insulating layer. According to claim 3,
The insulating material includes any one of expanded polystyrene (EPS) and extruded polystyrene,
The non-combustible material is a prefabricated building containing glass fiber reinforced plastic. The method according to claim 1 or 2,
A prefabricated building comprising a plurality of fasteners spaced apart at predetermined intervals to support one or more of the top, bottom, side, and edges of the composite insulation panel on the exterior wall of the wall panel. The method of claim 5,
The fixing material has a first surface facing the outer wall surface of the wall panel and a second surface opposite to the first surface, and includes a plurality of partition members protruding from the second surface,
The plurality of partition members are prefabricated buildings, which are arranged at predetermined intervals so as to have a predetermined space between two adjacent partition members. The method of claim 6,
The composite insulating panel includes a spaced portion, which is a predetermined separation space formed between two adjacent composite insulating panels by partition members. The method of claim 7,
At least one of an airtight fire protection tube or a fire protection film is disposed in the spaced apart structure. The method according to claim 1 or 2,
The airtight fireproof tube is made of fireproof or non-combustible material to have a firewall function,
The fire barrier film is a prefabricated building comprising a fluid solid or gel form having a fire or fire resistance function.

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