CN218509357U - Fire-resistant window - Google Patents

Abstract

The utility model relates to a fire-resistant door and window technical field particularly, relates to a fire-resistant window. A fire-resistant window comprises a window frame section, a window frame steel core, a fixed sash glass bracket, a fixed sash glass pressing plate, fixed sash fire-resistant glass, a window sash, a window shaft and an integrated fire-resistant window closer; the window frame section bar is arranged along the outline of the window and is provided with a fixed sector and a movable sector; the window sash is rotatably connected to the movable sector through a window shaft, the integrated fireproof window closer is connected with the window frame section bar and the window sash, and the integrated fireproof window closer is used for closing the window sash when a fire disaster happens. The fire-resistant window can improve the structural stability and fire resistance of the fire-resistant window; and can close the casement when the conflagration breaing out through integral type fire prevention window closer, and then can with fixed fan fire prevention glass, casement fire prevention glass, waterproof sealing strip and first fire prevention sealing strip and the cooperation of second fire prevention sealing strip to can effectively prevent the intensity of a fire to stretch and the flue gas diffusion when taking place the condition of a fire.

Description

Fire-resistant window

Technical Field

The utility model relates to a fire-resistant door and window technical field particularly, relates to a fire-resistant window.

Background

The fire-resistant window is a fire-resistant partition with certain fire resistance, has the functions of preventing fire from spreading and preventing smoke from diffusing, and can prevent the fire from spreading within a certain time to ensure the evacuation of people. Most of the existing fire-resistant windows are made of aluminum alloy, and due to the low melting point of the aluminum alloy, the fire resistance of the window body is poor, and the fire resistance of the fire-resistant window is affected.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a fire-resistant window, its simple structure, processing and simple to operate, fire behavior is good moreover.

The embodiment of the utility model is realized like this:

the utility model provides a fire-resistant window, which comprises a window frame section bar, a window frame steel core, a fixed sash glass bracket, a fixed sash glass pressing plate, fixed sash fire-resistant glass, a window sash, a window shaft and an integrated fire-resistant window closer;

the window frame section bar is arranged along the outline of the window and is provided with a fixed sector and a movable sector; the window frame steel core is arranged in a cavity of the window frame section bar, window frame right-angle codes are arranged inside four corners of the window frame section bar, and window frame wrap angles are arranged outside the four corners of the window frame section bar;

the fixed sash glass support is connected with the window frame steel core and the window frame section bar, the fixed sash fireproof glass is contained in an area defined by the fixed sash glass support, the fixed sash glass pressing plate is connected with the fixed sash glass support, and the fixed sash glass pressing plate is abutted against the indoor side of the fixed sash fireproof glass;

the window sash is rotatably connected to the movable sector through the window shaft, the integrated fireproof window closer is connected with the window frame section and the window sash, and the integrated fireproof window closer is used for closing the window sash in case of fire.

In an optional embodiment, the fire resistant window further comprises first waterproof sealing strips arranged on the outdoor side and the indoor side of the fixed sash of fire resistant glass, and the first waterproof sealing strips are abutted to the fixed sash of fire resistant glass.

In an optional embodiment, an outdoor side of the fixed sector is provided with an outdoor pressing line bayonet, and an indoor side of the fixed sector is provided with a first indoor pressing line bayonet;

the fireproof window further comprises a first fixed pressing line clamped at the bayonet of the indoor and outdoor pressing line and a first movable pressing line clamped at the bayonet of the first indoor pressing line; the first fixed pressing line and the first movable pressing line are both provided with sealing strip clamping grooves;

a first waterproof sealing strip positioned on the outdoor side of the fireproof glass of the fixed sash is clamped in a sealing strip clamping groove of the first fixed pressing strip; the first waterproof sealing strip located on the indoor side of the fixed sash of fireproof glass is clamped in the sealing strip clamping groove of the first movable pressing strip.

In an alternative embodiment, the fire resistant window further comprises a first fire resistant sealing strip;

first fire prevention sealing strip sets up in the indoor side of activity sector to with the indoor side butt of casement.

In an optional embodiment, a second indoor pressing line bayonet is arranged on the indoor side of the movable sector;

the fire-resistant window also comprises a second fixed pressing line clamped in the bayonet of the second indoor pressing line;

the fixed line ball strip of second is provided with fire prevention sealing strip draw-in groove, and first fire prevention sealing strip joint is in fire prevention sealing strip draw-in groove.

In an optional embodiment, the window sash comprises a window sash profile, a window sash steel core, a window sash glass bracket, window sash fireproof glass and a window sash glass pressing plate;

the window sash steel core is arranged in a cavity of the window sash profile, window sash right-angle connectors are arranged at four corners of the window sash profile, and window sash angle connectors are arranged in the window sash profile;

casement glass support is connected with casement steel core and casement section bar, and casement fire prevention glass holding is in the region of being enclosed by casement glass support, and casement glass clamp plate is connected with casement glass support, and casement glass clamp plate and casement fire prevention glass's indoor side butt.

In an optional embodiment, the window sash further comprises second waterproof sealing strips arranged on the outdoor side and the indoor side of the fireproof glass of the window sash, and the second waterproof sealing strips are abutted to the fireproof glass of the window sash.

In an optional embodiment, a sealing strip clamping groove is formed in the outdoor side of the window sash profile;

and a second waterproof sealing strip on the outdoor side of the window sash section bar is clamped in the sealing strip clamping groove.

In an alternative embodiment, the sash further comprises a second active pressure line; an indoor pressing line bayonet is arranged on the indoor side of the window sash profile, and the second movable pressing line is clamped in the indoor pressing line bayonet;

the second movable pressing line strip is provided with a sealing strip clamping groove, and a second waterproof sealing strip on the indoor side of the sash section is clamped in the sealing strip clamping groove.

In an alternative embodiment, the sash further comprises a second fire resistant sealant;

the second fireproof sealing strip is arranged between the sash fireproof glass and the sash profile.

The utility model discloses beneficial effect includes:

the fireproof window comprises a window frame section, a window frame steel core, a fixed sash glass bracket, a fixed sash glass pressing plate, fixed sash fireproof glass, a window sash, a window shaft and an integrated fireproof window closer; the window frame section bar is arranged along the outline of the window and is provided with a fixed sector and a movable sector; the window frame steel core is arranged in a cavity of the window frame sectional material, window frame right-angle codes are arranged inside four corners of the window frame sectional material, and window frame wrap angles are arranged outside the four corners of the window frame sectional material; the fixed sash glass support is connected with the window frame steel core and the window frame section bar, the fixed sash fireproof glass is contained in an area defined by the fixed sash glass support, the fixed sash glass pressing plate is connected with the fixed sash glass support, and the fixed sash glass pressing plate is abutted against the indoor side of the fixed sash fireproof glass; the window sash is rotatably connected to the movable sector through a window shaft, the integrated fireproof window closer is connected with the window frame section bar and the window sash, and the integrated fireproof window closer is used for closing the window sash when a fire disaster happens.

The structure of the fire-resistant window can be simplified through the arrangement of the window frame section, the window frame steel core, the window frame right-angle code and the window frame wrap angle, and the structural stability and fire resistance of the fire-resistant window can be improved through the arrangement mode; and can close the casement when taking place the conflagration through the fire prevention window closer to can effectively prevent the intensity of a fire to spread and the flue gas diffusion when taking place the fire.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural view of a fire resistant window according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of a window shaft and an integrated fireproof window closer according to an embodiment of the present invention;

FIG. 3 is a cross-sectional view of a window frame in an embodiment of the present invention;

fig. 4 is a sectional view of a window sash according to an embodiment of the present invention;

FIG. 5 is a schematic view of the window frame according to an embodiment of the present invention;

FIG. 6 is a schematic structural view of a glass pressing plate of a fixed fan in an embodiment of the present invention;

fig. 7 is a schematic structural view of a first waterproof sealing strip in the embodiment of the present invention;

fig. 8 is a schematic structural view of the first fire-proof sealing strip in the embodiment of the present invention.

The icon is 100-fire window; 110-a window frame; 111-window frame profiles; 112-a window frame steel core; 113-fixed sash glass support; 114-fixed sash glass press plate; 115-fixed fan fireproof glass; 116-the window axis; 117-one-piece fire resistant window closer; 118-window frame right angle code; 119-window frame wrap angle; 101-fixed sector; 102-an active sector; 120-a window sash; 121-sash profile; 122-sash steel core; 123-sash glass support; 124-fireproof window sash glass; 125-sash glass press plate; 126-sash right angle code; 127-sash corner brace; 131-a first waterproof sealing strip; 132-external pressure line bayonet; 133-a first indoor pressing line bayonet; 134-first fixed pressure line; 135-first active pressure line; 136-a first fire-resistant sealing strip; 137-a second indoor pressing line bayonet; 138-second stationary press line; 151-a second waterproof sealing strip; 152-a second active pressure line; 153-a second fire-resistant sealing strip; 161-a first glass abutment; 162-a frame abutment; 163-a second glass abutment; 164-a first snap-in portion; 165-a second snap-in part; 166-a third glass abutment; 167-third snap-on part.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without making creative efforts belong to the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined or explained in subsequent figures.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate the position or positional relationship based on the position or positional relationship shown in the drawings, or the position or positional relationship which is usually placed when the product of the present invention is used, and are only for convenience of description and simplification of the description, but do not indicate or imply that the device or element referred to must have a specific position, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

Furthermore, the terms "horizontal", "vertical" and the like do not imply that the components are required to be absolutely horizontal or pendant, but rather may be slightly inclined. For example, "horizontal" merely means that the direction is more horizontal than "vertical" and does not mean that the structure must be perfectly horizontal, but may be slightly inclined.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 5, the present embodiment provides a fire resistant window 100, wherein the fire resistant window 100 includes a window frame profile 111, a window frame steel core 112, a fixed sash glass bracket 113, a fixed sash glass pressure plate 114, a fixed sash fire resistant glass 115, a window sash 120, a window shaft 116, and an integrated fire resistant window closer 117;

the window frame section bar 111 is arranged along the outline of the window and is provided with a fixed sector 101 and a movable sector 102; the window frame steel core 112 is arranged in a cavity of the window frame section bar 111, window frame right-angle codes 118 are arranged inside four corners of the window frame section bar 111, and window frame wrap angles 119 are arranged outside the four corners of the window frame section bar 111;

the fixed sash glass bracket 113 is connected with the window frame steel core 112 and the window frame section 111, the fixed sash fireproof glass 115 is accommodated in an area surrounded by the fixed sash glass bracket 113, the fixed sash glass pressing plate 114 is connected with the fixed sash glass bracket 113, and the fixed sash glass pressing plate 114 is abutted against the indoor side of the fixed sash fireproof glass 115;

a sash 120 is rotatably connected to the movable sector 102 by means of a window shaft 116, and an integrated fire shutter 117 is connected to the frame profile 111 and the sash 120, the integrated fire shutter 117 being adapted to close the sash 120 in case of fire.

It should be noted that, in this embodiment, the window frame profile 111 and the window frame steel core 112 may be made of aluminum alloy profiles; the fixed glass bracket 113 and the fixed glass pressing plate 114 may be made of galvanized steel.

The operating principle of the fire resistant window 100 is:

referring to fig. 1-5, the fire resistant window 100 includes a window frame profile 111, a window frame steel core 112, a fixed sash glass bracket 113, a fixed sash glass pressing plate 114, a fixed sash fire resistant glass 115, a window sash 120, a window shaft 116, and an integrated fire resistant window closer 117; the window frame section bar 111 is arranged along the outline of the window and is provided with a fixed sector 101 and a movable sector 102; the window frame steel core 112 is arranged in a cavity of the window frame section 111, the inner parts of four corners of the window frame section 111 are respectively provided with a window frame right-angle code 118, and the outer parts of the four corners of the window frame section 111 are respectively provided with a window frame wrap angle 119; the fixed sash glass bracket 113 is connected with the window frame steel core 112 and the window frame section 111, the fixed sash fireproof glass 115 is contained in an area surrounded by the fixed sash glass bracket 113, the fixed sash glass pressing plate 114 is connected with the fixed sash glass bracket 113, and the fixed sash glass pressing plate 114 is abutted against the indoor side of the fixed sash fireproof glass 115; a sash 120 is rotatably connected to the movable sector 102 by means of a window shaft 116, and an integrated fire shutter 117 is connected to the frame profile 111 and the sash 120, the integrated fire shutter 117 being adapted to close the sash 120 in case of fire.

According to the fire-resistant window 100, the structure of the fire-resistant window 100 can be simplified through the arrangement of the window frame section 111, the window frame steel core 112, the window frame right-angle code 118 and the window frame wrap angle 119, and the structural stability and fire resistance of the fire-resistant window 100 can be improved through the arrangement mode; and the window sash 120 can be closed in case of a fire through the fire window closer, thereby effectively preventing the spread of fire and the diffusion of smoke in case of a fire.

Further, referring to fig. 1 to 5, in the present embodiment, in order to improve the waterproof and fireproof performance of the fire resistant window 100, firstly, the fire resistant window 100 further includes first waterproof sealing strips 131 disposed on the outdoor side and the indoor side of the fixed sash fireproof glass 115, and the first waterproof sealing strips 131 are all abutted against the fixed sash fireproof glass 115.

Specifically, an outdoor side of the fixed sector 101 is provided with an outdoor pressure line bayonet 132, and an indoor side of the fixed sector 101 is provided with a first indoor pressure line bayonet 133; the fire-resistant window 100 further comprises a first fixed pressing strip 134 clamped in the outdoor pressing strip bayonet 132, and a first movable pressing strip 135 clamped in the first indoor pressing strip bayonet 133; the first fixed pressing strip 134 and the first movable pressing strip 135 are both provided with sealing strip clamping grooves;

the first waterproof sealing strip 131 positioned on the outdoor side of the fixed sash fireproof glass 115 is clamped in the sealing strip clamping groove of the first fixed pressing strip 134; the first waterproof sealing strip 131 located on the indoor side of the fixed sash fireproof glass 115 is clamped in the sealing strip clamping groove of the first movable pressing strip 135.

Secondly, the fire resistant window 100 further comprises a first fire resistant sealing strip 136; the first fire-resistant weather strip 136 is disposed on the indoor side of the movable sector 102 and abuts against the indoor side of the window sash 120.

Specifically, a second indoor pressing line bayonet 137 is arranged on the indoor side of the movable sector 102; the fire resistant window 100 further comprises a second fixed pressing strip 138 clamped in the second indoor pressing strip bayonet 137; the second fixed pressing line 138 is provided with a fireproof sealing strip clamping groove, and the first fireproof sealing strip 136 is clamped in the fireproof sealing strip clamping groove.

In conclusion, the fireproof window 100 can form a stable main structure of the window frame 110 through the window frame profile 111, the window frame steel core 112, the window frame right angle code 118 and the window frame wrap angle 119, and through the arrangement of the first fixing pressure line 134 and the second fixing pressure line 138, the number of profiles can be reduced, the manner of assembling standardized profiles is convenient to adopt, and the manufacturing efficiency and the installation efficiency of the fireproof window 100 can be improved.

Further, referring to fig. 1 to 5, in the present embodiment, when the window sash 120 is disposed, the window sash 120 may include a window sash profile 121, a window sash steel core 122, a window sash glass bracket 123, window sash fire-proof glass 124, and a window sash glass pressure plate 125;

the sash steel core 122 is arranged in a cavity of the sash section bar 121, sash right-angle connectors 126 are arranged at four corners of the sash section bar 121, and sash right-angle connectors 127 are arranged in the sash section bar 121;

the window sash glass support 123 is connected with the window sash steel core 122 and the window sash section bar 121, the window sash fireproof glass 124 is accommodated in an area surrounded by the window sash glass support 123, the window sash glass pressing plate 125 is connected with the window sash glass support 123, and the window sash glass pressing plate 125 is abutted against the indoor side of the window sash fireproof glass 124.

It should be noted that, in this embodiment, the window sash profile 121 and the window sash steel core 122 may be made of aluminum alloy profiles; the window sash glass bracket 123 and the window sash glass pressing plate 125 may be made of galvanized steel sheets.

Further, referring to fig. 1 to 5, in the present embodiment, in order to improve the waterproof and fireproof performance of the fireproof window 100, the window sash 120 further includes second waterproof sealing strips 151 disposed on the outdoor side and the indoor side of the window sash fireproof glass 124, and the second waterproof sealing strips 151 are abutted against the window sash fireproof glass 124.

Specifically, a sealing strip slot is arranged on the outdoor side of the sash profile 121; the second waterproof sealing strip 151 on the outdoor side of the window sash profile 121 is clamped in the sealing strip clamping groove. Sash 120 also includes a second active pressure line 152; an indoor pressing line bayonet is arranged on the indoor side of the window sash section bar 121, and the second movable pressing line 152 is clamped in the indoor pressing line bayonet; the second movable pressing strip 152 is provided with a sealing strip clamping groove, and the second waterproof sealing strip 151 on the indoor side of the window sash section bar 121 is clamped in the sealing strip clamping groove.

Secondly, the window sash 120 further includes a second fire-resistant sealant 153, and the second fire-resistant sealant 153 is disposed between the window sash fire-resistant glass 124 and the window sash profile 121.

In summary, the stable main structure of the window sash 120 can be formed by the window sash profile 121, the window sash steel core 122, the window sash right angle bracket 126, the window sash angle bracket 127 and the window sash glass bracket 123, and in addition, the window frame profile 111 and the window sash steel core 122 are made of aluminum materials, so that the fire resistance of the fire resistant window 100 can be improved, and the structural stability of the fire resistant window 100 can be maintained in case of fire.

It should be noted that, referring to fig. 1 to 8, in the present embodiment, when the fixed sash glass support 113 and the sash glass support 123 are provided, the same support structure may be adopted, and specifically, taking the fixed sash glass support 113 as an example for description, the fixed sash glass support 113 includes a first glass contact portion 161 and a frame contact portion 162, where the first glass contact portion 161 is used for contacting the fixed sash fire-proof glass 115 or the sash fire-proof glass 124, and the frame contact portion 162 is used for contacting the window frame 110 or the sash 120; when the first waterproof sealing strip 131 and the second waterproof sealing strip 151 are arranged, the same waterproof sealing strip may be used, specifically, taking the first waterproof sealing strip 131 as an example for description, the first waterproof sealing strip 131 may include a second glass abutting portion 163, a first clamping portion 164 and a second clamping portion 165, where the second glass abutting portion 163 is used for abutting against the fixed sash fireproof glass 115 or the sash fireproof glass 124, and the first clamping portion 164 and the second clamping portion 165 are used for clamping with a sealing strip clamping groove; when the first fire-proof sealing strip 136 and the second fire-proof sealing strip 153 are disposed, the same fire-proof sealing strip may be used, specifically, taking the first fire-proof sealing strip 136 as an example, the first fire-proof sealing strip 136 may include a third glass abutting portion 166 and a third clamping portion 167, where the third glass abutting portion 166 is used for abutting against the fixed sash fire-proof glass 115 or the sash fire-proof glass 124, and the third clamping portion 167 is clamped with the fire-proof sealing strip clamping groove.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A fire resistant window, characterized by:

the fire-resistant window comprises a window frame section bar, a window frame steel core, a fixed sash glass bracket, a fixed sash glass pressing plate, fixed sash fire-resistant glass, a sash, a window shaft and an integrated fire-resistant window closer;

the window frame section is arranged along the outline of the window and is provided with a fixed sector and a movable sector; the window frame steel core is arranged in a cavity of the window frame section bar, window frame right-angle codes are arranged inside four corners of the window frame section bar, and window frame wrap angles are arranged outside the four corners of the window frame section bar;

the fixed sash glass support is connected with the window frame steel core and the window frame sectional material, the fixed sash fireproof glass is contained in an area defined by the fixed sash glass support, the fixed sash glass pressing plate is connected with the fixed sash glass support, and the fixed sash glass pressing plate is abutted against the indoor side of the fixed sash fireproof glass;

the window sash is rotatably connected to the movable sector through the window shaft, the integrated fireproof window closer is connected with the window frame section bar and the window sash, and the integrated fireproof window closer is used for closing the window sash in case of fire.

2. The fire resistant window of claim 1, wherein:

the fire-resistant window still including set up in the first waterproof sealing strip of fixed fan fire prevention glass's the outdoor side and indoor side, first waterproof sealing strip all with fixed fan fire prevention glass butt.

3. The fire resistant window of claim 2, wherein:

an outdoor side of the fixed sector is provided with an outdoor pressure line bayonet, and an indoor side of the fixed sector is provided with a first indoor pressure line bayonet;

the fire-resistant window also comprises a first fixed pressing line clamped at the bayonet of the outdoor pressing line and a first movable pressing line clamped at the bayonet of the first indoor pressing line; the first fixed pressing strip and the first movable pressing strip are both provided with sealing strip clamping grooves;

the first waterproof sealing strip positioned on the outdoor side of the fixed sash of fireproof glass is clamped in the sealing strip clamping groove of the first fixed pressing strip; the first waterproof sealing strip positioned on the indoor side of the fixed sash of fireproof glass is clamped in the sealing strip clamping groove of the first movable pressing strip.

4. The fire resistant window of claim 1, wherein:

the fire resistant window further comprises a first fire resistant sealing strip;

the first fireproof sealing strip is arranged on the indoor side of the movable sector and is abutted against the indoor side of the window sash.

5. The fire resistant window of claim 4, wherein:

a second indoor pressing line bayonet is arranged on the indoor side of the movable sector;

the fire-resistant window also comprises a second fixed pressing line clamped in the second indoor pressing line bayonet;

the second fixed pressing line strip is provided with a fireproof sealing strip clamping groove, and the first fireproof sealing strip is clamped in the fireproof sealing strip clamping groove.

6. The fire resistant window of any one of claims 1-5, wherein:

the window sash comprises a window sash profile, a window sash steel core, a window sash glass support, window sash fireproof glass and a window sash glass pressing plate;

the window sash steel core is arranged in a cavity of the window sash profile, window sash right-angle codes are arranged at four corners of the window sash profile, and window sash angle codes are arranged in the window sash profile;

the window sash glass support is connected with the window sash steel core and the window sash profile, the window sash fireproof glass is contained in an area defined by the window sash glass support, the window sash glass pressing plate is connected with the window sash glass support, and the window sash glass pressing plate is abutted to the indoor side of the window sash fireproof glass.

7. The fire resistant window of claim 6, wherein:

the casement still including set up in the outdoor side of casement fire prevention glass and the second waterproof sealing strip of indoor side, the second waterproof sealing strip all with casement fire prevention glass butt.

8. The fire resistant window of claim 7, wherein:

a sealing strip clamping groove is formed in the outdoor side of the window sash sectional material;

and the second waterproof sealing strip on the outdoor side of the sash section bar is clamped in the sealing strip clamping groove.

9. The fire resistant window of claim 7, wherein:

the window sash further comprises a second movable pressure line; an indoor pressing line bayonet is arranged on the indoor side of the window sash profile, and the second movable pressing line is clamped in the indoor pressing line bayonet;

the second movable pressing line strip is provided with a sealing strip clamping groove, and the second waterproof sealing strip on the indoor side of the sash section is clamped in the sealing strip clamping groove.

10. The fire resistant window of claim 6, wherein:

the window sash further comprises a second fireproof sealing strip;

the second fireproof sealing strip is arranged between the sash fireproof glass and the sash profile.

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