KR102345622B1 - Window for fireproof and insulation - Google Patents

Abstract

A fire insulation window according to the present invention comprises: a sash frame that fixes the glass and has a plurality of compartments formed therein; a window frame supporting the sash frame and having a plurality of compartments formed therein; a window support member installed in the internal compartment of at least one of the sash frame or the window frame to prevent deformation or separation of the sash frame and the window frame due to high temperature in the event of a fire; and at least one solid fire extinguishing member installed on one side of the space formed when the sash frame and the window frame are combined to discharge a fire extinguishing material by high temperature when the fire occurs, thereby capable of significantly reducing the spread of damage caused by fire.

Description

Window for fireproof and insulation

The present invention relates to fire-insulating windows and doors, and more specifically, to include a fire-extinguishing member that actively removes flames flowing into the windows and doors as well as a window support member that prevents deformation or separation of windows and doors due to high temperatures in case of fire. It relates to a fire insulation insulation window that can significantly reduce the spread of damage caused by fire by having fire protection performance that can withstand a temperature of 1000°C or higher for 60 minutes or more in case of fire.

Fireproof windows are 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 60 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.

Accordingly, in recent years, technologies for imparting a fire protection function to windows and doors have been developed in accordance with standards and requirements for fire protection windows. For example, in Patent Document 1 below, there is a fireproof window with high structural stability, low coefficient of linear expansion, low shrinkage, low thermal conductivity and easy post-processing so that it can pass the fire resistance test of the domestic glass partition and the fire resistance test of the fire door. has been disclosed.

In addition, in Patent Document 2 below, it is possible to simultaneously implement a fire prevention and heat insulation effect by configuring a fireproof window equipped with a fireproof glass and a fireproof frame on the outdoor side and an insulated window with improved thermal insulation performance by filling the frame with a heat insulating material on the indoor side. A fireproof and insulated window is disclosed.

However, in the case of the fire prevention windows disclosed in the above-mentioned prior documents, since the fire protection performance is secured by configuring the material of the window and/or glass with an expensive flame retardant or non-combustible material, the installation cost of the product is increased as well as the scale of the fire. Accordingly, when the temperature and duration of the flame exceed the flame retardant condition (or non-combustible condition) of the material, there is a problem in that the fire protection performance cannot be properly secured.

In addition, in the case of the window disclosed in Patent Document 2, since the fire prevention window and the insulated window are dually configured, not only the installation cost of the product increases, but also the installation space of the product increases, thereby encroaching on the internal volume of the building.

Therefore, there is a need for the development of fire insulation windows that can effectively maintain the fire protection performance required for fire protection windows in case of fire while minimizing the increase in the installation cost and installation space of the product.

Republic of Korea Patent Publication No. 10-2021-0037123 (published on 4. 6. 2021) Republic of Korea Patent Registration No. 10-2149326 (2020. 8. 28. Announcement)

The present invention is to solve the problems of the prior art as described above, and an object of the present invention is to reduce the cost of manufacturing and installing windows and doors while having a fire protection performance that can withstand a temperature of 1000 ° C. or higher for 60 minutes or more in case of fire. It is to provide a fire insulation insulation window that can significantly reduce the spread of damage caused by fire.

In addition, another object of the present invention is to include a fire extinguishing member that actively removes flames flowing into the inside of the window as well as a window support member to prevent deformation or separation of windows and doors due to high temperature in case of fire. It is to provide a fire-insulating window that can more effectively block the flame transmission through.

In order to achieve the object as described above, fire insulation windows and doors according to the present invention include a window frame with a plurality of compartments formed therein, a window frame frame with a plurality of compartments fixed therein, a window frame frame with a plurality of compartments formed therein and supporting the window frame, the window frame with a plurality of compartments formed therein. A window support member installed in the internal compartment of at least one of a frame or a window frame to prevent deformation or separation of the window frame and the window frame due to high temperature in case of fire, and a space formed when the window frame and the window frame are combined It is characterized in that it includes at least one solid fire extinguishing member that is installed on one side and discharges the extinguishing material by high temperature when a fire occurs.

In addition, the window and door support member, the volume is expanded above a certain temperature to support the inside of the window frame frame and the window frame frame, and a fire resistant expandable material that blocks the propagation of flames or toxic gases generated during a fire, the outer surface supports the inner wall of the compartment It is characterized in that at least one of a hollow metal core inserted so as to be inserted or a fire-through-through material that is accommodated in the hollow part of the metal core to support the metal core and absorb heat generated in case of fire.

In addition, the fire insulation and heat insulation windows are casement windows and are installed in the space formed when the window frame and the window frame are combined, one end of which is in close contact with the outer surface of the window frame and the other end is in close contact with the outer surface of the window frame. It is characterized in that it further comprises a combustion prevention gasket that blocks the flame from one side of the window from being transmitted to the other side when it occurs.

In addition, the solid fire extinguishing member is characterized in that the combustion prevention gasket.

In addition, the solid fire extinguishing member is configured in any one form of a sticker type, a tape type, a stick type, and a panel type, and is characterized in that it is coupled to one side of the outer surface of the window frame or the window frame frame.

In addition, the fire insulation windows and doors according to the present invention, at least among a window frame that fixes glass and has a plurality of compartments formed therein, a window frame that supports the window frame and has a plurality of compartments formed therein, and the window frame or the window frame frame It is installed in any one of the internal compartment and includes a window support member to prevent deformation or separation of the window frame and the window frame frame due to high temperature in the event of a fire, wherein the window and door support member expands in volume at a certain temperature or more, so that the window frame frame A fireproof expandable material that supports the inside of the window frame and blocks the propagation of flames in case of fire, a hollow metal core with an outer surface inserted to support the inner wall of the compartment, or a metal core that is accommodated in the hollow of the metal core At least one of a fire-resistant flow-through material that supports and absorbs heat generated in a fire, and a metal bracket surrounding the end inserted into the window frame is screwed into the metal core inserted into the window frame frame so that the glass is not removed in case of fire. It is coupled and fixed, and a fire-resistant fiber insulating material is interposed on the contact surface between the end of the glass and the metal bracket to prevent the glass from being damaged by heat transfer in case of fire.

The fire insulation and insulation windows according to the present invention can prevent the deformation or separation of the frame due to high temperature in case of fire by the support members such as fire-resisting expandable materials, metal core materials, and fire-resistant flow-through materials installed in the internal compartments of the frames constituting the windows and doors. Therefore, even if expensive flame retardant or non-combustible windows are not used, it is possible to realize fire protection that can withstand a temperature of 1000℃ or more for 60 minutes or more in case of fire, thereby reducing the cost of manufacturing and installing windows and preventing the spread of damage due to fire. There are advantages to doing.

In addition, the fire-insulation window according to the present invention is configured to include not only the above-described window support member but also a fire extinguishing member that actively removes the flame flowing into the window, so that when a fire occurs, flame transmission through the window is more effectively blocked. This has the advantage of further preventing the spread of damage caused by fire.

In addition, in the case of the fire insulation windows and doors according to the present invention, when the frame constituting the windows is made of a PVC material having thermal insulation properties, as in the prior art, there is no need to dually configure the heat insulation windows and fire doors, so the installation cost and installation of windows and doors There is an advantage of preventing an increase in space.

1 is a cross-sectional view showing the configuration of a fire-insulating window according to an embodiment of the present invention;
Figure 2 is a cross-sectional view showing the configuration of another modified example of a fire-insulating window according to an embodiment of the present invention, and
Figure 3 is a cross-sectional view showing the configuration of another modified example of the fire insulation insulated windows according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, the embodiments of the present invention will be described in detail so that those of ordinary skill in the art to which the present invention pertains can easily implement them.

However, the present invention may be embodied in many different forms and is not limited to the embodiments described herein. In addition, 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.

In addition, throughout the specification, when a part "includes" a certain component, it means that other components may be further included, rather than excluding other components, unless specifically stated to the contrary. Like reference numerals in the drawings denote like elements.

Hereinafter, the present invention will be described in detail by describing preferred embodiments of the present invention with reference to the accompanying drawings.

1 is a cross-sectional view showing the configuration of a fire-insulating window according to an embodiment of the present invention, Figure 2 is a cross-sectional view showing the configuration of another modified example of the fire-insulating window according to an embodiment of the present invention.

The fire and heat insulation windows 10 according to this embodiment are fixed to the openings of the glass assemblies 11,130,140,150, the windowpane frame 100 for fixing the glass assemblies11,130,140,150, and buildings, etc. It is configured to include a window frame frame 200 to support.

The glass assemblies 11, 130, 140, and 150 are fixed to one side of the outer surface of the window frame 100 as will be described later. It is configured to include a metal bracket 130 formed in an approximately 'C' or 'F' shape to surround the end of the glass 11 .

At this time, the glass 11 may be configured as one, but it is preferable to include a plurality of glasses for insulation. In this case, a spacer (not shown) having a predetermined width so that an air insulation layer can be formed between each glass 11 . ) is interposed.

In addition, the glass assemblies 11 , 130 , 140 , and 150 are interposed between the refractory fiber insulating material 140 interposed between the side end of the glass 11 and the metal bracket 130 , and the lower end of the glass 11 and the metal bracket 130 . It is configured to further include a fire prevention glass block 150 .

The fire resistant fiber insulation 140 has a function of increasing the adhesion between the glass 11 and the metal bracket 130 , and in case of fire, high-temperature heat is directly transmitted to the glass 11 through the metal bracket 130 to the glass (11) will perform an insulating function to prevent damage.

To this end, the fire-resisting fiber insulation material 140 is preferably made of a material having fire-resistance and heat-insulating properties as well as fire-resistance that can withstand high-temperature heat. material) can be made.

In this case, the fire resistant fiber insulation 140 is more preferably made of a material obtained by melting an inorganic fire resistant material into fibers for self-adhesiveness and buffering properties. It is composed of cerakwool, a fireproof insulation used at ultra-high temperatures of 1200℃ or higher.

The ceramic wool is a product made by melting refractory materials such as silica and alumina into fibers. It will also have additional functions such as sound insulation and smoke protection (blocking smoke in case of fire).

In addition, the fire protection glass block 150 performs a function of supporting the lower end of the glass 11. In this embodiment, in order to prevent high temperature heat from being transmitted directly to the glass during a fire, the fire protection glass block 150 was composed of any one of the known high-temperature-resistant materials that can withstand ultra-high temperatures of 1000 to 1200 °C or higher.

On the other hand, a plurality of compartments are formed inside the window frame 100 and the window frame 200 for the insulation of the building by the air layer and the installation of the window support members 310 , 320 , 330 to be described later, each compartment is the frame 100 , 200) is formed to be separated from each other by a partition wall that performs a rib function for strength reinforcement.

In this embodiment, as an example, the case where the sash frame 100 and the sash frame 200 are made of a PVC material effective for heat blocking in order to secure the heat insulation function of the fire-insulation insulation window 10 will be described, but it is not limited thereto. Accordingly, the window frame 100 and the window frame 200 may be formed of another synthetic resin material having thermal insulation properties, a metal material (aluminum, stainless steel, etc.), or a combination thereof.

In addition, in the present embodiment, the case where the window frame 100 and the window frame frame 200 are frames for opening and closing the windows in the outward or inward direction will be described as an example.

In the present embodiment, the window frame 100 has a window panel profile 101 in which a glass assembly 10, 130, 140, 150 is fixed to one side of the outer surface and a plurality of compartments are formed therein, and the window glass profile 101 together with the glass It is configured to include a glass fixing frame 110 coupled to one side of the window glass profile 101 so as to fix the assemblies 10, 130, 140, and 150, and the specific configuration and glass assembly of the window glass profile 101 and the glass fixing frame 110 Since the method of fixing (10,130,140,150) is a known technique, a detailed description thereof will be omitted here.

In addition, the window frame 100 is configured to further include a window glass profile 101 and a glass gasket 120 interposed between the glass fixing frame 110 and the glass 11. A well-known fire-resistant material (preferred) so that the glass 11 is firmly fixed to the window frame 100 to prevent the propagation of flames or toxic gas (smoke), and to perform the function of preventing the removal of the glass 11 Preferably, it may be made of a fire-resistant rubber material), and, if necessary, may be made of a fire-resistant expandable material 310 to be described later.

In addition, the sash frame 200 includes a sash profile 201 for supporting the sash profile 101, and a frame gasket 210 for adhering a contact surface when the sash profile 101 and the sash profile 201 are combined. is comprised of

The space formed when the window sash profile 101 and the sash profile 201 are combined by the above configuration is a space closed by the outer surfaces of the sash profile 101 and the sash profile 201 and the frame gasket 210 . will form

Therefore, the frame gasket 210 is made of a known fire resistant material (preferably a fire resistant rubber material) like the glass gasket 120 described above in order to prevent flame or toxic gas (smoke) from propagating through the space during a fire. may be made of, and if necessary, may be made of a material of a fireproof expandable material 310 to be described later.

On the other hand, in general, PVC material has superior thermal insulation properties compared to metal materials, but has weak high temperature resistance. It is softened or melted, and the shape of the window is deformed or separated/removed into each component, thereby having a disadvantage in that the fire protection performance is lost.

Therefore, in order to solve this problem, the fire insulation and insulation windows according to the present embodiment are installed in the inner compartment (specifically, the inner compartment of the profile) of at least one of the window frame 100 or the window frame 200 to solve this problem. It is characterized in that it further comprises window support members (310, 320, 330) for preventing deformation or separation of the window frame 100 and the window frame frame 200 due to high temperature.

In this embodiment, the window and door support members 310, 320, and 330 are, as an example, a fire-resisting expandable material 310, a metal core material 320, and a fire-proof flow-through material 330 installed in the inner compartment of the window frame profile 101 and the window frame profile 210. It is configured to include at least one.

In addition, in this embodiment, as an example, the case where the window support members 310, 320, and 330 are installed in both the window frame profile 101 and the window frame profile 201 are described, but the present invention is not limited thereto. 101) or the window frame profile 201 may be installed in any one.

In this embodiment, the fireproof expandable material 310 is installed in the inner compartment of the window profile 101, the glass fixing frame 110 and the window frame profile 201, and the volume is expanded at a certain temperature or higher in case of a fire, so that the window profile 101 ), by supporting the inside of the glass fixing frame 110 and the window frame profile 201 to prevent their shape from being deformed or to fill the gap created by the deformation to block the propagation of flames or toxic gases generated during fire function will be performed.

The fire resistant expandable material 310 according to this embodiment is a fire protection material formed in a stick, strip, or narrow panel shape using expanded graphite and refractory minerals as raw materials. It rapidly expands from 20 to 60 times its original volume (for about 2 to 3 minutes) to form a dense fire protection layer, thereby effectively realizing fire and smoke prevention functions. Since it is a non-polluting material, it can ensure safety in case of fire.

In addition, the metal core 320 is molded into a hollow shape using a metal material such as aluminum, and the outer surface is inserted into the inner compartment of the window profile 101 and the window frame profile 201 to support the inner wall of the compartment. do.

The metal core 320 installed in this way has a function of reinforcing the mechanical strength of the window frame 100 and the window frame 200, and the deformation of these frames 100 and 200 in case of fire or the angle coupled to the inside and outside of the window 10 It performs a function of preventing the components from being separated/dismounted.

In the present embodiment, the metal bracket 130 of the glass assembly 11, 130, 140, 150 is coupled to the metal core 320 inserted into the window profile 101 by a piece P such as a screw or bolt. (11, 130, 140, 150) is integrated into the window profile 101, so that in the event of a fire, the glass 11 or the glass assembly is removed from the window 10 and it is possible to prevent the flame from propagating through their installation space.

In addition, hardware 400 such as a handle, a locking device, and a hinge installed outside is coupled to the metal core 320 inserted into the window frame profile 201 by a piece P, which causes the hardware 400 to By being integrated with the window frame profile 201, when a fire occurs, the hardware 400 is removed from the windows and doors 10 to prevent the flame from propagating through their installation space.

In addition, the fire-resistant flow-through material 330 is molded into a stick or rod shape and installed to support the metal core 320 inside the hollow part of the metal core 320, and in normal times the window frame 100 and the window frame ( 200) and performs a function of preventing the metal core 320 from being detached from the deformed profiles 101 and 201 together with the fireproof expandable material 310 with an expanded volume in case of fire.

In addition, the fire-resistant flow-through material 330 functions as an insulator in normal times due to the characteristic of absorbing and storing heat, and in case of a fire, it absorbs high-temperature heat to the outside through the metal core 320 with good thermal conductivity. By minimizing the transfer of heat, the window 10 performs a function of increasing the duration that can withstand the fire.

To this end, the refractory flow-through material 330 may be preferably implemented using a known refractory material having high thermal conductivity and specific heat. have.

In addition, the fire and heat insulation windows 10 according to this embodiment further include a combustion prevention gasket 220 and a solid fire extinguishing member 350 installed on one side of a space formed when the window frame 100 and the window frame 200 are combined. is configured to include

At this time, the combustion prevention gasket 220 is installed so that one end is in close contact with the outer surface of the sash frame 100 and the other end is in close contact with the outer surface of the sash frame 200 . In this embodiment, as an example, the combustion prevention The gasket 220 was installed to be fixed to the outer surface of the window frame 200 .

In the case of the fire prevention function of the frame gasket 210 is lost in the case of a fire, the flame or toxic gas generated from one side of the window and the window through the space formed by the window frame 100 and the window frame 200 is released. It performs the function of additionally blocking the propagation to the other side.

To this end, the combustion prevention gasket 220 may be made of a known fire resistant material (preferably a fire resistant rubber material), and, if necessary, may be made of a fire resistant expandable material 310 to be described later.

In addition, in order for the combustion prevention gasket 220 to stably secure the fire protection performance, it is preferable that a protrusion 160 contacting the upper end of the combustion prevention gasket 220 is formed on the lower surface of the window frame 200 .

In addition, the solid fire extinguishing member 350 is installed on one side of the outer surface of any one of the window frame 100 or the window frame frame 200 to release the fire extinguishing material by the high temperature generated in case of a fire to extinguish the flame introduced into the window. By performing an active removal function, the window 10 performs a function of increasing the duration that can withstand the fire.

As an example, the solid fire extinguishing member 350 according to the present invention is configured in such a way that the fire extinguishing agent injected therein is discharged to the outside while thermal deformation and/or cracks are generated on the outer surface due to the high heat generated during a fire, or solid It can be configured in such a way that the fire extinguishing agent body of the fire extinguishing agent is directly burned in the event of a fire and is converted into a gaseous form and discharged to the outside.

In this embodiment, as an example, a case where the solid fire extinguishing member 350 is made of a solid fire extinguishing agent is applied. In this case, the solid fire extinguishing member 350 is potassium nitrate (KNO ₃ ), potassium perchlorate (KClO ₄ ), nitration It may be a solid mixture including barium (Ba(NO ₃ ) _{2 ) and resins.}

In addition, the solid fire extinguishing member 350 may be molded into any one of a sticker type, a tape type, a stick type, and a panel type and coupled to one side of the inner or outer surface of the window frame 100 or the window frame frame 200 .

In general, when a fire occurs, oxygen (O), hydrogen (H), and hydroxide (OH) substances in an unstable state _{combine with oxygen (O 2} ) in the air and are activated, thereby causing a chain combustion. As the solid fire extinguishing member 350 according to the combustion generates a solid fire extinguishing aerosol component containing a large amount of potassium (K) during combustion, the potassium (K) is combined with hydrogen and hydroxyl groups to stop the chain reaction of the flame.

In this embodiment, as an example, the case where the solid fire extinguishing member 350 is separately installed on the outer surfaces of the window frame 100 and the window frame 200 has been described as an example, but as another modification, as shown in FIG. The fire extinguishing member 350 may be configured in the form of a combustion prevention gasket 220 .

In this case, the combustion prevention gasket 220 may be entirely made of the solid fire extinguishing member 350, or may be molded in a form in which the solid fire extinguishing member 350 is mixed with a common gasket material. The stick-shaped solid fire extinguishing member 350 may be inserted into a portion of the inside of the gasket 220 .

Figure 3 is a cross-sectional view showing the configuration of another modified example of the fire-insulating window according to an embodiment of the present invention.

Compared with the previously described FIGS. 1 and 2, FIG. 3 is different in that the fire insulation windows are sliding doors that open and close by sliding the window in the lateral direction.

Therefore, in comparison with the windows of FIGS. 1 and 2 described above, since there is only a slight difference with respect to some components according to the structural difference of the windows, detailed descriptions of other overlapping components will be omitted below.

The fire insulation window 20 according to the modified example of FIG. 3 is provided to support the glass assemblies 11, 130, 140, and 150, the window frame 102 provided to fix the glass assembly, and the window frame 102 to be slidably movable on the rail. It is configured to include a window sill frame (202).

In this case, the glass 11 is firmly fixed to the window profile 103 and the glass fixing frame 111 by the fire-resisting sealing member 121, and the fire-resistant sealing member 121 includes the above-described glass gasket 120 and In contrast, there is a difference only in the shape and the function is the same.

In addition, there is a slight difference from the windows and doors of FIGS. 1 and 2 described above in that the metal core 320 inserted into the window profile 103 is formed in a 'C' shape with an open lower part.

In addition, in the case of the modified example of FIG. 3, there is a slight difference from the windows and doors of FIGS. 1 and 2 described above in that the position where the solid fire extinguishing member 350 is installed is installed in the direction of both ends of the window frame 202. .

10, 20: fire insulation insulation window 11: glass
100, 102: window frame frame 101, 103: window panel profile
110, 111: glass fixing frame 120: glass gasket
121: fireproof sealing member 130: metal bracket
140: fire-resistant fiber insulation 150: fire-resistant glass block
160: protrusion 200, 202: window frame frame
201, 203: window frame profile 210, 211: frame gasket
220: combustion prevention gasket 310: fireproof expansion material
320: metal core 330: fire-resistant flow-through material
350: solid fire extinguishing member 400: hardware
P: piece

Claims (7)

delete delete delete delete delete A window frame that fixes the glass and has a plurality of compartments formed therein;
a window frame frame supporting the window frame and having a plurality of compartments formed therein;
a window support member installed in the internal compartment of at least one of the window frame or the window frame to prevent deformation or separation of the window frame and the window frame due to high temperature in case of fire; and
At least one solid fire extinguishing member installed on one side of the space formed when the window frame and the window frame is coupled to emit a fire extinguishing material by high temperature when a fire occurs,
The window support member is a fireproof expandable material that expands in volume above a certain temperature to support the inside of the window frame and the window frame and block the propagation of flames generated in case of fire, and the outer surface is a hollow type inserted to support the inner wall of the compartment at least one of a metal core material of or a fire-resistant flow-through material that is accommodated in a hollow part of the metal core material to support the metal core material and absorb heat generated in case of fire,
In order to prevent the glass from being removed in case of fire, a metal bracket surrounding the end inserted into the window frame is screwed to the metal core inserted into the window frame and fixed,
Fire-insulating windows and doors, characterized in that a fire-resisting fiber insulating material is interposed between the end of the glass and the contact surface of the metal bracket to prevent the glass from being damaged due to heat transfer in case of fire. delete

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