KR102455274B1 - Aluminium fireproof window having inner stiffener - Google Patents

Abstract

The present invention provides an aluminum fireproof window having an inner stiffener. The aluminum fireproof window comprises: a fireproof window (110); and an aluminum window profile (120) in which the fireproof window (110) is installed with a fireproof sealant interposed therebetween, and which slides to open and close along the aluminum guide profile (131) of a window frame (130). The aluminum fireproof window has: a first reinforcing plate (140) inserted into an inner space corresponding to the shape of the aluminum window profile (120); and a second reinforcing plate (150) inserted into the inner space corresponding to the shape of the aluminum guide profile (131). Therefore, the aluminum fireproof window can maintain the shapes of the aluminum window profile (120) and the aluminum guide profile (131) to minimize deformation of aluminum windows and doors due to high heat, thereby increasing fire protection performance.

Description

ALUMINIUM FIREPROOF WINDOW HAVING INNER STIFFENER

The present invention relates to an aluminum fire protection glass window having an internal reinforcement, which can improve fire protection performance by minimizing deformation of aluminum windows due to high heat.

As is well known, fire protection windows are used to prevent casualties, property damage, and spread damage due to fire, and generally refer to windows with fire protection performance that can withstand a temperature of 1000°C or higher for 20 minutes or more in case of a fire.

Conventional window-related technologies have been developed mainly for insulated windows and doors in response to the global demand for energy reduction and greenhouse gas reduction. The need for it emerged.

Therefore, in recent years, aluminum windows, which are widely used as lighting, ventilation windows, airtight and insulation windows, etc., have been changed and developed for use as fire windows with fire protection functions in accordance with the standards and requirements for fire windows and doors. Although it is possible to manufacture fire-proof windows with aluminum, the manufacturing process is complicated and takes a long time. There is a problem in that it is weak and deformed and cannot exert its proper function.

Accordingly, it is possible to manufacture a fire protection window made of an aluminum material by increasing the thickness, but since the manufacturing cost increases due to an expensive material, a technology capable of improving the fire protection performance by minimizing the deformation of the aluminum window due to heat is required.

Korean Patent Application Laid-Open No. 10-2022-0014216 (Fire-proof windows with thermal insulation performance, 2022.02.04) Korean Patent Publication No. 10-2345622 (Fire-fired insulation windows, 2021.12.31)

The technical problem to be achieved by the spirit of the present invention is to provide an aluminum fire prevention glass window having an internal reinforcement, which can improve the fire protection performance by minimizing the deformation of the aluminum windows and doors due to high heat.

In order to achieve the above object, an embodiment of the present invention, a fire resistant glass window; and an aluminum window profile in which the fire-resistant glass window is installed through a fire-resistant sealant, and slides to open and close along the aluminum guide profile of the window frame, wherein the aluminum window profile is inserted into the inner space corresponding to the shape of the aluminum window profile. To provide an aluminum fire protection glass window with an internal reinforcement, which includes a reinforcement plate and a second reinforcement plate inserted into the inner space corresponding to the shape of the aluminum guide profile to maintain the shape of the aluminum window profile and the aluminum guide profile do.

In addition, the first reinforcing plate is made of a metal material, a non-combustible material, or a flame-retardant material, and is cut or cut and bent according to the shape of the inner space for each individual profile of the aluminum window profile, and is forcibly introduced into the inner space of the aluminum window profile. position, or both ends may be fixed to each other.

In addition, the second reinforcing plate is made of an iron plate material and is cut or cut and bent according to the shape of the inner space for each individual profile of the aluminum guide profile and is forcibly inserted into the inner space of the aluminum guide profile, or both ends are mutually can be fixed.

In addition, the first reinforcing plate may be forcibly introduced into the inner space of the aluminum window profile through graphite powder, and the second reinforcing plate may be forcibly introduced into the inner space of the aluminum guide profile through graphite powder.

In addition, a first lead-in groove in the longitudinal direction is formed on the outer surfaces of the first reinforcing plate and the second reinforcing plate, respectively, and the first lead-in groove is formed on the inner surface of the aluminum window profile and the aluminum guide profile. A second inlet groove having a concave-convex shape may be formed in the longitudinal direction to occlude with the .

In addition, a reinforcing frame in which a hollow is formed in a polygonal shape or a reinforcing frame in which a polygonal shape is embossed on one side may be inserted into the inner surfaces of the first reinforcing plate and the second reinforcing plate.

In addition, the solid fire extinguishing member may be installed at regular intervals in the inner space of the aluminum guide profile.

According to the present invention, it is possible to reduce the unit price compared to the expensive aluminum fire protection glass window by reducing the weight, and the exterior is composed of aluminum of various colors to provide good corrosion resistance, processability and heat insulation function, and it can provide a beautiful aesthetic feeling, and the inner side There is an effect of minimizing the shape deformation caused by high heat by inserting a reinforcing material of a metal material, non-combustible material or flame-retardant material to maintain the fire protection function as much as possible.

1 shows a front view, a vertical cross-sectional view, and a horizontal cross-sectional view, respectively, of an aluminum fire protection glass window having an internal reinforcement according to an embodiment of the present invention.
Figure 2 shows the internal structure of the aluminum fire protection glass window provided with the internal reinforcement of Figure 1.
Figure 3 shows a modified example of the aluminum fire protection glass window having the internal reinforcement of Figure 1;
FIG. 4 shows another modified example of the aluminum fire protection glass window with the internal reinforcement of FIG. 1 .
Figure 5 shows another embodiment of the aluminum fire protection glass window with the inner reinforcement of Figure 1;

Hereinafter, embodiments of the present invention having the above-described characteristics will be described in more detail with reference to the accompanying drawings.

An aluminum fire-resistant glass window having an internal reinforcement according to an embodiment of the present invention, a fire-resistant glass window (110); and an aluminum window profile 120 in which the fire-resistant glass window 110 is installed through a fire-resistant sealant, and slides to open and close along the aluminum guide profile 131 of the window frame 130; ) to correspond to the shape of the first reinforcing plate 140 inserted into the inner space and the second reinforcing plate 150 to be inserted into the inner space corresponding to the shape of the aluminum guide profile 131, the aluminum window profile 120 ) and to maintain the shape of the aluminum guide profile 131 to minimize deformation of aluminum windows and doors due to high heat to improve fire protection performance.

Hereinafter, with reference to FIGS. 1 to 5, the aluminum fire protection glass window having the internal reinforcement of the above-described configuration will be described in detail as follows.

First, the fire-resistant glass window 110 may be made of heat-shielding glass or fire-resistant glass, and may be formed of a plurality of plate glass spaced apart by filling argon gas therebetween.

Next, in the aluminum window profile 120, the fire resistant glass window 110 is installed through a fire resistant sealant 111 (see FIG. 5) such as a heat resistant silicone sealant material strong against heat, and the upper and lower portions of the window frame 130 are installed. It slides left and right to open and close along the aluminum guide profile 131 .

On the other hand, the first reinforcing plate 140 to be inserted into the inner space corresponding to the shape of the aluminum window profile 120 and the second reinforcing plate 150 to be inserted into the inner space corresponding to the shape of the aluminum guide profile 131, By providing, the aluminum window profile 120 and the aluminum guide profile 131 are reinforced to maintain the shape of the aluminum window profile 120 and the aluminum guide profile 131 even at high temperatures, so that the aluminum windows and doors are deformed by high heat. can be minimized

For example, since aluminum melts at 660° C. and can be easily deformed at a high temperature of 1000° C. or higher, the first reinforcing plate 140 and the second reinforcing plate 150 such as steel that does not melt even at a high temperature of 1500° C. or higher are used in the aluminum window profile 120 ) and the aluminum guide profile 131 to maintain the profile shape, thereby improving fire protection performance.

In addition, the first reinforcing plate 140 is made of a metal material, a non-combustible material, or a flame-retardant material, and is cut or cut and bent according to the shape of the inner space for each individual profile of the aluminum window profile 120 . It is forcibly drawn into the internal space and is spaced apart or located closely, or both ends are fixed to each other by welding, etc. It is possible to provide a beautiful aesthetic feeling, and to minimize the shape deformation of the aluminum window profile 120 by inserting a reinforcing material of a metal material, a non-combustible material or a flame-retardant material inside to maintain the fire protection function as much as possible.

In addition, the second reinforcing plate 150 is made of a metal material, a non-combustible material, or a flame-retardant material, and is cut or cut and bent according to the shape of the inner space for each individual profile of the aluminum guide profile 131 . It is forcibly drawn into the internal space and is spaced apart or located closely, or both ends are fixed to each other by welding, etc. In addition, it is possible to provide a beautiful aesthetic feeling, and to minimize the shape deformation of the window frame 130 by inserting a reinforcing material of a metal material, a non-combustible material, or a flame-retardant material inside to maintain the fire protection function as much as possible.

In this way, structural stability can be secured through the insertion of the first reinforcing plate 140 and the second reinforcing plate 150, and structural strength can be improved even when formed to the same thickness as the fire protection glass window formed of a single aluminum material.

Meanwhile, the first reinforcing plate 140 is forcibly introduced into the inner space of the aluminum window profile 120 with graphite powder interposed therebetween, and the second reinforcing plate 150 uses graphite powder in the inner space of the aluminum guide profile 131 . By intervening to force the insertion, it can be easily inserted by the slippery graphite powder.

In addition, as shown in (b) of Figure 3, the first reinforcing plate 140 and the second reinforcing plate 150 is formed on the outer surface of each of the first inlet groove 141 of the concave-convex shape in the longitudinal direction, and , on the inner surface of the aluminum window profile 120 and the aluminum guide profile 131, a second inlet groove 121 in the longitudinal direction to occlude the first inlet groove 141 is formed, so that the first reinforcing plate ( 140) and the second reinforcing plate 150, the contact area between the aluminum window profile 120 and the aluminum guide profile 131 may be widened so as not to be easily deformed by high temperature.

In addition, as shown in Fig. 4, the inner surface of the first reinforcing plate 140 and the second reinforcing plate 150 has a hollow reinforcing frame 160 or one side formed in a polygonal shape such as a quadrangle and a honeycomb structure. A reinforcing frame 160 having an embossed polygonal shape such as a square or honeycomb structure is inserted, or a polygonal shape such as a square or honeycomb structure is embossed on the inner surface of the first reinforcing plate 140 and the second reinforcing plate 150 (not shown), it may be made to reinforce the structural strength of the fireproof glass window.

In addition, as shown in FIG. 2 , the solid fire extinguishing member 160 may be installed at regular intervals in the inner space of the aluminum guide profile 131 .

For example, the solid fire extinguishing member 160 is made of a solid mixture including potassium nitrate, potassium perchlorate, barium nitrate and resins, and the aluminum guide profile 131 and the second reinforcing plate 150 due to the high heat generated during a fire. ) through the cracks generated, the combusted and combusted gaseous extinguishing material is released to the outside to remove the flame and increase the duration that can withstand the fire.

On the other hand, the fire prevention glass window having the aforementioned first reinforcing plate 140 and the second reinforcing plate 150 is a sliding window as shown in FIG. 1, a fixed window as shown in FIG. fix), casement, awning, double hung, turn and tilt, folding door, etc. can be equally applied.

Therefore, by the configuration of the aluminum fire protection glass window having the internal reinforcement as described above, the weight can be reduced and the unit price can be reduced compared to the expensive aluminum fire protection glass window, and the appearance is composed of aluminum of various colors to achieve good corrosion resistance and workability. It can provide a thermal insulation function and provide a beautiful aesthetic feeling, and insert a reinforcing material of a metal material, non-combustible material or flame-retardant material inside to minimize shape deformation due to high heat to maintain the fire protection function as much as possible.

The embodiments described in this specification and the configurations shown in the drawings are only the most preferred embodiment of the present invention, and do not represent all of the technical spirit of the present invention, so various equivalents that can replace them at the time of the present application It should be understood that there may be water and variations.

110: fireproof glass window 120: aluminum window profile
121: second inlet groove 130: window frame
131: aluminum guide profile 140: first reinforcing plate
141: first lead-in groove 150: second reinforcing plate
160: reinforcement frame

Claims (7)

fireproof glass windows;
and an aluminum window profile in which the fire-resistant glass window is installed through a fire-resisting sealant, and slides to open and close along the aluminum guide profile of the window frame;
A first reinforcing plate inserted into the inner space to correspond to the shape of the aluminum window profile and a second reinforcing plate to be inserted into the inner space according to the shape of the aluminum guide profile, the aluminum window profile and the aluminum guide profile to keep its shape,
The first reinforcing plate is made of a metal material, a non-combustible material, or a flame-retardant material, and is cut or cut and bent according to the shape of the inner space for each individual profile of the aluminum window profile, and is forcibly inserted into the inner space of the aluminum window profile. , both ends are fixed to each other,
The first reinforcing plate is forcibly introduced into the inner space of the aluminum window profile by interposing graphite powder,
The second reinforcing plate is characterized in that the graphite powder is forcibly introduced into the inner space of the aluminum guide profile,
Aluminum fire glazing with internal reinforcement.
delete According to claim 1,
The second reinforcing plate is made of a metal material, a non-combustible material, or a flame-retardant material, and is cut or cut and bent according to the shape of the inner space for each individual profile of the aluminum guide profile and is forcibly inserted into the inner space of the aluminum guide profile. , characterized in that both ends are fixed to each other,
Aluminum fire glazing with internal reinforcement.
delete 4. The method of claim 3,
The first reinforcing plate and the outer surface of the second reinforcing plate are respectively formed with first inlet grooves in the form of concavities and convexities in the longitudinal direction,
In the inner surface of the aluminum window profile and the aluminum guide profile, it characterized in that a second lead-in groove of a concave-convex shape is formed in the longitudinal direction to occlude with the first lead-in groove,
Aluminum fire glazing with internal reinforcement.
4. The method of claim 3,
A reinforcing frame in which a hollow is formed in a polygonal shape or a reinforcing frame in which a polygonal shape is embossed on one side is introduced into the inner surfaces of the first reinforcing plate and the second reinforcing plate,
Aluminum fire glazing with internal reinforcement.
According to claim 1,
In the inner space of the aluminum guide profile, it characterized in that the solid fire extinguishing member is installed at regular intervals,
Aluminum fire glazing with internal reinforcement.

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