KR102176019B1 - construction panel for preventing fire spread and manufacturing method of the same - Google Patents

Abstract

It relates to a building panel for preventing fire spread and a method of manufacturing the same, wherein the building panel for preventing fire spread according to the present invention: is mutually oriented so as to form a front and a rear side facing the indoor and outdoor sides of the building, respectively, by a distance separated from each other. A pair of panel frames provided to form a constant thickness; A glass wool filled between the pair of panel frames and provided to perform fireproof and heat insulating functions; And, a non-combustible foam film provided in the form of a thin film pad or tape to close the spaced end sides between the pair of panel frames to which the glass wool is exposed, and made of a non-combustible material and provided to expand the volume in case of fire. It characterized in that it comprises a.
As a result, when a fire occurs after construction, a structure to prevent the fire from spreading through the joint part is made integrally in advance in the manufacturing process before construction, so that the spread of fire in the event of a fire after construction is prevented and at the same time easy. Provides a building panel for fire spread prevention and a method of manufacturing the same, which improves workability with one construction, prevents scattering of fillers such as glass fiber during construction, and facilitates the manufacturing process to improve productivity and reduce manufacturing costs. can do.

Description

Construction panel for preventing fire spread and manufacturing method of the same}

The present invention relates to a building panel for preventing the spread of fire and a method of manufacturing the same, and more particularly, it is constructed as an interior and exterior material of a building, and a structure to prevent the spread of fire by spreading fire through the joint when a fire occurs after construction is manufactured before construction In the process, it is manufactured as an integral type in advance, so that easy construction improves workability, and during construction, the scattering of fillers such as glass fiber is blocked, and the manufacturing process is also easy to improve productivity and to reduce the production cost. It relates to a building panel and its manufacturing method.

Sandwich panels are generally widely used as building panels, and these sandwich panels are laminated panels in which a filler is sandwiched between a steel plate and a steel plate to be used as interior and exterior materials of a building. Usually, the surface is mainly made of metal plates such as steel plates or aluminum plates. The filler is mainly manufactured by inserting foamed styrofoam, glass fiber, urethane, etc. in consideration of insulation, sound insulation, or heat insulation.

This sandwich panel is one of the building materials used as a space division or exterior wall by shortening the construction period or as a wall surface in a building that has already been built, and its scope of application is expanding due to the advantages such as simplicity of construction and reduction of construction period. Actually.

An example of a conventional building panel is disclosed in Korean Utility Model Registration No. 20-0375818 (registered on February 2, 2005, hereinafter referred to as'patent document 1').

However, the construction panel according to the prior art has a problem in that it may be difficult to prevent the fire from spreading because fire and heat can easily penetrate through the gaps of the joints when a fire occurs.

In addition, in the construction panel according to the prior art, the work of separately installing a structure to prevent the spread of fire at the joint part is difficult and not easy, so the work time required for construction is delayed, etc. In the case of a glass fiber, there is a problem that the glass fiber is easily scattered to the outside during the construction process, which may adversely affect the work environment.

Republic of Korea Utility Model Registration No. 20-0375818 (registered on February 2, 2005)

An object of the present invention is to prevent the spread of fire in the event of a fire after construction, as a structure to prevent the spread of fire by spreading fire through the joint part in the event of a fire after construction is made integrally in advance in the manufacturing process before construction. Easy construction improves workability, prevents scattering of fillers such as glass fiber during construction, and makes the manufacturing process easier to improve productivity and reduce manufacturing costs. To provide.

In order to achieve the above object, the building panel for preventing fire spread according to the present invention is arranged to form a front and a rear side facing the indoor and outdoor sides of the building, respectively, and are provided to form a constant thickness by a distance spaced apart from each other. A pair of panel frames; A glass wool filled between the pair of panel frames and provided to perform fireproof and heat insulating functions; And, a non-combustible foam film provided in the form of a thin film pad or tape to close the spaced end sides between the pair of panel frames to which the glass wool is exposed, and made of a non-combustible material, and provided to expand the volume in case of fire. It characterized in that it comprises a.

Here, the non-combustible foam film is preferably provided by impregnating or coating a non-combustible foam composition on a film substrate made of an inorganic or organic material.

On the other hand, the manufacturing method of the building panel for preventing fire spread according to the present invention is: A steel plate is processed to form a front and a rear side to face the indoor and outdoor sides of the building, respectively, and arranged in mutual orientation, and a constant thickness is formed by a distance separated from each other. Manufacturing a pair of panel frames; Filling and filling glass wool performing fireproof and heat insulating functions between the pair of panel frames; Providing a non-combustible foam film having a non-combustible and expanding volume in case of a fire in the form of a thin film pad after the glass wool filling step; And closing the spaced end sides between the pair of panel frames to which the glass wool is exposed with the non-combustible foam film.

According to the present invention, when a fire occurs after construction, a structure for preventing the fire from spreading through the joint part is made integrally in advance in the manufacturing process before construction, so that the spread of fire in the event of a fire after construction is prevented. At the same time, easy construction improves workability, prevents scattering of fillers such as glass fiber during construction, and makes the manufacturing process easier, improving productivity and reducing manufacturing costs, a building panel for preventing fire spread and its manufacturing method. Can provide.

1 is a plan configuration view from above of a joint portion of which the construction of a building panel for preventing fire spread according to the present invention is completed,
FIG. 2 is a plan configuration view from above of a state before the construction panel for preventing fire spread of FIG. 1 is constructed;
3 is a perspective view of a non-combustible foam film according to the present invention,
4 is a flowchart illustrating a method of manufacturing a building panel for preventing fire spread according to the present invention.

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

The building panel 100 for preventing fire spread according to the present invention, as shown in FIGS. 1 and 2, is oriented to form a front and a rear side to face the indoor and outdoor sides of the building, respectively, and are arranged in mutual orientation by a distance separated from each other. A pair of panel frames 110 provided to form a certain thickness, a glass wool 120 filled between the pair of panel frames 110 and provided to perform fireproof and heat insulation functions, and a thin film pad or tape It includes a non-combustible foam film 130 provided in the form of a non-combustible foam film 130 provided to close the spaced end sides between the pair of panel frames 110 to which the glass wool 120 is exposed, and provided with a non-combustible material, and to expand the volume in case of fire. .

Accordingly, when a fire occurs after construction, the non-combustible foam film 130, which is a structure to prevent the fire from spreading through the joint part, is made integrally with the building panel 100 in advance in the manufacturing process before construction. In the event of a fire after a fire, the spread of fire is prevented, and at the same time, the ease of construction improves workability, and during construction, the scattering of fillers such as glass fiber of the glass wool 120 is blocked, and the manufacturing process is also easy, thereby improving productivity. It is possible to provide a building panel 100 for preventing fire spread that can reduce manufacturing cost.

The panel frame 110, as shown in FIGS. 1 and 2, is formed to be symmetrical to each other by bending a steel plate to form the front and rear surfaces of the building panel 100, in particular One of the left and right portions is bent so that it can be fitted and connected to the other to be constructed.

The glass wool 120 is filled and filled between a pair of panel frames 110 as shown in FIG. 2.

As an embodiment of the present invention, it is described that the glass wool 120 is applied as a filler, but as another embodiment of the present invention, in addition to the glass wool 120, an insulating material such as foamed styrofoam or urethane may be applied.

The non-combustible foam film 130 is prepared by impregnating or coating a non-combustible foaming composition such as a special non-combustible liquid having a property of expanding and expanding by heat on a film substrate made of an inorganic or organic material.

Here, when the non-combustible foam composition is coated to form a non-combustible foam coating layer, the thickness is preferably provided to be approximately 1.0 to 4.0 mm.

At this time, as shown in Figure 3, the total thickness of the non-combustible foam film 130 is provided in the form of a thin thin film of approximately 3 ~ 10 mm, the non-combustible foam film 130 is in contact with the glass wool 120 It is preferable that an adhesive is applied to the surface to be adhered to the glass wool 120.

Accordingly, after construction, the non-combustible foam film 130 is inserted into the joint of the building panel 100 in the form of a thin film in the form of a thin film in the form of a finishing material, and when a fire occurs, it is non-combustible due to fire and heat transmitted through the joint. As the foam film 130 swells and expands, it fills the gap of the joint part, thereby greatly reducing the thermal conductivity, thereby effectively preventing the fire from spreading.

In addition, conventionally, in order to separately construct a non-combustible foam pad using a relatively thick pad substrate like a sponge during the construction process, the work is too difficult and not easy, so the work time required for construction may be greatly delayed, and the workability may be greatly reduced. , The non-combustible foam film 130 according to the present invention is provided in the form of a thin thin film pad or tape, and provides a spaced end side between the pair of panel frames 110 to which the glass wool 120 is exposed during the manufacturing process rather than construction. Since it is provided integrally with the building panel 100 to finish, it is only necessary to quickly and easily frame the building panel 100 at the construction site, so that the workability can be greatly improved.

In addition, conventionally, when glass fiber is used as a filler, the glass fiber is easily scattered to the outside during the construction process, so that it gets on the worker's body or enters the body through the oral cavity or nasal cavity, causing serious diseases. Although it may have an effect, according to the non-combustible foam film 130 according to the present invention, scattering of fillers such as glass fibers of the glass wool 120 is blocked during construction, so that the workability is improved and the workability is comfortable and safe with an easy working environment. The environment can be created.

On the other hand, the non-combustible foam film 130 according to the present invention is rapidly foamed when the temperature reaches about 200 ~ 300 ℃ due to the high heat and flame applied through the joint portion of the building panel 100 in the event of a fire and has a thickness of 30 ~ It will be about 40 times thicker.

By blocking or delaying the transmission of high heat to the other side, the foamed heat insulating layer can prevent human damage and minimize damage due to a sudden temperature increase.

Accordingly, after the construction of the building panel 100 according to the present invention, when a fire occurs, the heat applied through the joint portion of the building panel 100 increases in stages, so that the non-combustible foam film 130 is primarily After being foamed, even if the fire suppression is delayed to the extent that the panel frame 110 is deformed or the fire scale becomes larger, the non-combustible foam film 130 can be expanded and expanded further by the double foam structure. By completely filling the gaps in the part, it is possible to prevent further spread of the fire and to prevent further serious damage from the fire.

As an embodiment of the present invention, the film substrate of the non-combustible foam film 130 is provided with an inorganic material in which alumina and silica are mixed, and the non-combustible foam composition is 21 to 30% by weight of ammonium polyphosphate and 1 to 10% by weight of melamine. Based on 11-20% by weight of titanium dioxide in the resin, 1-10% by weight of pentaerythritol, 1-10% by weight of dipentaerythritol, 1-10% by weight of paraffin chloride, 16-20% by weight of a solvent such as xylene Consists of

In general, the purpose of non-combustible foaming material is to suppress the temperature increase by blocking the heat source by the expanded film and providing flame retardancy.

When a fire occurs, resin deformation occurs due to high temperature, that is, the resin becomes a soft, high-viscosity conductor, and ammonia gas and acid are produced through acid catalysis, and the melt is further softened.

The reaction occurs at the same time at 200 ~ 300 ℃, the foam layer is decomposed to form a carbide. When the coating layer is thermally decomposed, it becomes a salt and an acid such as phosphoric acid, and at the same time, the coating layer becomes viscous. The acid catalysis accelerates the rate of decomposition of the coating layer and allows rapid gas generation.

Due to the generated gas, the viscous coating layer is foamed, and as the viscosity of the coating layer increases, a crosslinking reaction occurs in the foam layer, and the coating film expands by 30 to 50 times or more.

The coating layer is carbonized, has fire resistance, and produces a heat shielding effect. The surface is continuously oxidized due to air and heat, but the inner foam layer has the effect of continuously blocking heat.

The core of the foaming is that each of the raw materials used has to take place sequentially at almost the same time as the liquidation of the binder, the generation of gas, and the crosslinking role of the foam layer.

On the other hand, as another embodiment of the present invention, the film substrate of the non-combustible foam film 130 may be an inorganic substrate or a polyester-based organic substrate, and the non-combustible foam composition is 25 to 30% by weight of a water-soluble polyamide curable epoxy, It consists of 15 to 20% by weight of expanded graphite, 15 to 30% by weight of boric acid, 5 to 15% by weight of vermiculite, 3 to 5% by weight of high-temperature inorganic foaming agent, and 30 to 40% by weight of water.

Water-soluble polyamide curable epoxy is a type of thermosetting resin and is not easily deformed by heat, so it is used for maintaining the shape for realizing the nonflammable foaming function.

Expanded graphite, which is also referred to as'graphiter', refers to graphite that has a property of expanding in heat of 130 to 150°C, and the non-combustible foamed film 130 may expand and expand by about 3 times when heated to become thick. .

High-temperature inorganic foaming agent, which is also referred to as'graphiter', has a property to rapidly expand thermally by generating gas at a heat of about 350°C, and the non-combustible foam film 130 is foamed about 2 to 5 times when heated. It can be thick.

Accordingly, there is an effect that the first foaming takes place about 50 to 80% around 130° C., and the second foaming takes place around 350° C. to ensure continuous foaming.

On the other hand, the manufacturing method of the building panel 100 for preventing fire spread according to the present invention, as shown in Figure 4, processing the steel plate to form a front and rear facing the indoor and outdoor sides of the building, respectively, and arranged in mutual orientation. A step (S10) of manufacturing a pair of panel frames 110 forming a constant thickness by a distance spaced apart from each other, and a glass wool 120 that performs fireproof and heat insulating functions between the pair of panel frames 110 A step of filling and filling (S20), and a step (S30) of providing a non-combustible foam film 130 that is non-flammable and expands in volume in case of fire after the glass wool filling step (S20) in the form of a thin-film pad or a thin-film tape, It includes a step (S40) of closing the spaced end sides between the pair of panel frames 110 to which the glass wool 120 is exposed with the non-combustible foam film 130.

Accordingly, when a fire occurs after construction, the non-combustible foam film 130, which is a structure to prevent the fire from spreading through the joint part, is made integrally with the building panel 100 in advance in the manufacturing process before construction. In the event of a fire after a fire, the spread of fire is prevented, and at the same time, the ease of construction improves workability, and during construction, the scattering of fillers such as glass fiber of the glass wool 120 is blocked, and the manufacturing process is also easy, thereby improving productivity. It is possible to provide a method of manufacturing the building panel 100 for preventing fire spread that can reduce the manufacturing cost.

Here, the step of manufacturing the non-combustible foam film 130 (S30) is described as being performed after the glass wool filling step (S20), but may be performed simultaneously with or before the panel frame manufacturing step (S10). In addition, the step of finishing with the non-combustible foam film 130 (S40) is a non-combustible foam film 130 on any of the four circumferences of the pair of panel frames 110 spaced apart from each other before the glass wool filling step (S20) It may be performed once again so that they are interposed and then finished, and then the glass wool 120 is filled and then the remaining circumferential parts are finished again.

On the other hand, the step of finishing with the non-combustible foam film 130 (S40) is a non-combustible foam film 130 cut to the size of each structure and the glass wool 120 interposed between a pair of panel frames 110 with a roller. Pressing and attaching the non-combustible foam film 130 to the glass wool 120.

At this time, since it may be difficult to fix the attachment position only with the adhesive applied to the non-combustible foam film 130, a plurality of pins are prepared in advance so that the roller is rotated, and a plurality of pins are rotated along the longitudinal direction of the non-combustible foam film 130. It is preferable that the non-combustible foam film 130 is fixed to the glass wool 120 while pins are stuck at regular intervals.

Here, on the surface where the non-combustible foam film 130 is in contact with the glass wool 120, a plurality of protrusions are formed to protrude at regular intervals in place of the pin so that the non-combustible foam film 130 is fixed to the glass wool 120. You may.

Accordingly, according to the present invention, the manufacturing process is also easy and productivity is improved, and unlike the conventional relatively thick pad type, it is prepared in the form of a thin thin film to reduce the manufacturing cost. Can provide a way.

Although the technical aspects have been described above and in the accompanying drawings, the technical idea of the present invention is for the purpose of explanation, and is not limited thereto, and those having ordinary technical knowledge in the technical field of the present invention It will be appreciated that the present invention can be variously modified and changed without departing from the technical scope of the claims to be described later.

100: construction panel for preventing fire spread 110: panel frame
120: glass wool 130: non-combustible foam film

Claims (3)

A pair of panel frames that are mutually oriented and arranged to form a front and a rear side to face the indoor and outdoor sides of the building, respectively, and provided to form a constant thickness by a distance spaced apart from each other;
A glass wool filled between the pair of panel frames and provided to perform fireproof and heat insulating functions; And
A non-combustible foam film provided in the form of a thin film pad or tape to close the spaced end sides between the pair of panel frames to which the glass wool is exposed, and made of a non-combustible material, and provided to expand the volume in case of fire;
Including,
The non-combustible foam film is provided by impregnating or coating a non-combustible foam composition on a film substrate made of an inorganic or organic material,
The film substrate of the non-combustible foam film is provided with an inorganic material in which alumina and silica are mixed, and the non-combustible foam composition is 21 to 30% by weight of ammonium polyphosphate, 1 to 10% by weight of melamine, 11 to 20% by weight of titanium dioxide in resin Fire spread, characterized in that it is composed of 1 to 10% by weight of pentaerythritol, 1 to 10% by weight of dipentaerythritol, 1 to 10% by weight of chlorinated paraffin and 16 to 20% by weight of a solvent such as xylene Prevention building panel.
delete Manufacturing a pair of panel frames each of which is oriented by processing the steel plates so as to face the indoor and outdoor sides of the building to form a front and a rear side, and forming a constant thickness by a distance spaced apart from each other;
Filling and filling glass wool performing fireproof and heat insulating functions between the pair of panel frames;
Preparing a non-combustible foam film having a non-combustible and expanding volume in case of fire after the glass wool filling step in the form of a thin film pad; And
Closing the spaced end sides between the pair of panel frames to which the glass wool is exposed with the non-combustible foam film;
Including,
The non-combustible foam film is provided by impregnating or coating a non-combustible foam composition on a film substrate made of an inorganic or organic material,
The film substrate of the non-combustible foam film is provided with an inorganic material in which alumina and silica are mixed, and the non-combustible foam composition is 21 to 30% by weight of ammonium polyphosphate, 1 to 10% by weight of melamine, 11 to 20% by weight of titanium dioxide in resin Fire spread, characterized in that it is composed of 1 to 10% by weight of pentaerythritol, 1 to 10% by weight of dipentaerythritol, 1 to 10% by weight of chlorinated paraffin and 16 to 20% by weight of a solvent such as xylene Manufacturing method of prevention building panel.

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