CN213063383U - High-performance aluminum alloy fire-resistant window - Google Patents

Abstract

A high-performance aluminum alloy fire-resistant window comprises an aluminum alloy frame and an aluminum alloy window sash, wherein the aluminum alloy frame comprises an inner frame and an outer frame, the inner frame and the outer frame are fixed through a connecting plate, an inner side cavity is arranged on the inner frame, an outer side cavity is arranged on the outer frame, a frame heat-insulating strip is also arranged between the inner frame and the outer frame, the frame heat-insulating strips are arranged in an up-and-down opposite manner, a first heat-insulating cavity is enclosed by the inner frame, the outer frame and the frame heat-insulating strips, fire-resistant expansion strips are arranged in the inner side cavity, the outer side cavity and the first heat-insulating cavity, the aluminum alloy window sash comprises an inner window sash and an outer window sash, the inner window sash and the outer window sash are fixed through the connecting plate, an inner window cavity is arranged on the inner window sash, an outer window cavity is arranged on the outer window sash, window sash heat-insulating strips are also arranged, and fire-resistant expansion strips are arranged in the inner window cavity, the outer window cavity and the second heat insulation cavity.

Description

High-performance aluminum alloy fire-resistant window

Technical Field

The utility model relates to a door and window equipment technical field especially relates to a high performance aluminum alloy fire-resistant window.

Background

When a fire disaster happens, the window is destroyed by the fire disaster within a few minutes, a large amount of toxic smoke enters the room and ignites the indoor objects, and casualties and a large amount of property loss are caused.

Disclosure of Invention

In view of the above, there is a need for a high performance aluminum alloy fire resistant window.

A high-performance aluminum alloy fire-resistant window comprises an aluminum alloy frame and an aluminum alloy window sash, wherein the aluminum alloy window sash is connected with the aluminum alloy frame through a hinge, the aluminum alloy frame comprises an inner frame and an outer frame, the inner frame and the outer frame are fixed through a connecting plate, an inner side cavity is arranged on the inner frame, an outer side cavity is arranged on the outer frame, a frame heat-insulating strip is arranged between the inner frame and the outer frame, the frame heat-insulating strips are arranged in an up-and-down opposite mode to enclose a first heat-insulating cavity, fire-resistant expansion strips are arranged in the inner side cavity, the outer side cavity and the first heat-insulating cavity, the aluminum alloy window sash comprises an inner window sash and an outer window sash, the inner window sash and the outer window sash are fixed through the connecting plate, an inner window cavity is arranged on the inner window sash, an outer window cavity is arranged on the outer window sash, window sash heat-insulating strips, the inner window sash, the outer window sash and the window sash heat insulation strips are enclosed into a second heat insulation cavity, and the inner window cavity, the outer window cavity and the second heat insulation cavity are all provided with fire-resistant expansion strips.

Preferably, the frame heat-insulating strips are provided with fire-resistant expansion pieces, and the fire-resistant expansion pieces are respectively positioned at the upper parts of the upper frame heat-insulating strips and the lower parts of the lower frame heat-insulating strips.

Preferably, the upper part of the upper frame heat insulation strip is also provided with a fireproof cotton sheet, the fireproof cotton sheet is positioned on the upper part of the fireproof expansion sheet, and a space is reserved between the two fireproof cotton sheets.

Preferably, the upper part of the inner edge cavity is provided with a notch, and a fireproof expansion sheet is arranged in the notch.

Preferably, a blocking edge is fixedly arranged above the outer cavity, a fire-resistant sealing strip is embedded in the top of the blocking edge, and a fire-resistant expansion sheet is arranged below the fire-resistant sealing strip.

Preferably, the sash heat insulating strip is provided with a fire-resistant expansion sheet, and the fire-resistant expansion sheet is respectively positioned at the upper part of the upper sash heat insulating strip and the lower part of the lower sash heat insulating strip.

Preferably, the upper part of the upper window sash heat insulation strip is also provided with a fireproof cotton sheet, the fireproof cotton sheet is positioned on the upper part of the fireproof expansion sheet, and a space is reserved between the two fireproof cotton sheets.

Preferably, the upper part of the inner window cavity is provided with a clamping groove, and a fire-resistant expansion sheet is arranged in the clamping groove.

Preferably, the lower part of the inner window cavity is fixedly provided with a limiting edge, the lower end of the limiting edge is inlaid with a fire-resistant sealing strip, and a fire-resistant expansion sheet is arranged above the fire-resistant sealing strip.

Preferably, the upper part of the outer window cavity is fixedly provided with a glass supporting edge, a fireproof expansion sheet is arranged between the glass supporting edge and the outer window cavity, and one side of the glass supporting edge, which is in contact with the glass, is provided with a fireproof cotton sheet.

The utility model adopts the above technical scheme, its beneficial effect lies in: the utility model discloses in interior limit cavity, outside cavity, first thermal-insulated chamber, interior window cavity, outer window cavity and the thermal-insulated intracavity of second, according to the size of cavity, place the cylindric graphite fire prevention expansion strip that the diameter is unequal, receive high temperature when toasting or burning in the conflagration breaing out, the just quick emergence inflation of graphite fire prevention expanded material, it can expand to 18-20 times of self volume, be full of all cavities in aluminum alloy frame, the aluminum alloy casement completely, play to block stretching and thermal-insulated effect of firework.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a partially enlarged view of a portion a in fig. 1.

In the figure: the fireproof heat insulation structure comprises an aluminum alloy frame 01, an inner frame 11, an inner edge cavity 111, an outer frame 12, an outer edge cavity 121, a frame heat insulation strip 13, an aluminum alloy window sash 02, an inner window sash 21, an inner window cavity 211, an outer window sash 22, an outer window cavity 221, a window sash heat insulation strip 23, a first heat insulation cavity 03, a second heat insulation cavity 04, a fireproof expansion sheet 05, a fireproof cotton sheet 06, a blocking edge 07, a fireproof sealing strip 09, a limiting edge 10, a glass supporting edge 20 and a fireproof expansion strip 30.

Detailed Description

Referring to fig. 1 to 2, an embodiment of the present invention provides a high performance aluminum alloy fire resistant window, including an aluminum alloy frame 01, an aluminum alloy sash 02, the aluminum alloy sash 02 and the aluminum alloy frame 01 are connected by hinges, and a fire resistant hollow glass is further installed on the aluminum alloy sash 02, the aluminum alloy frame 01 includes an inner frame 11, an outer frame 12, the inner frame 11 and the outer frame 12 are fixed by a connecting plate, the inner frame 11 is provided with an inner edge cavity 111, the outer frame 12 is provided with an outer edge cavity 121, a frame heat insulating strip 13 is further disposed between the inner frame 11 and the outer frame 12, the frame heat insulating strip 13 is disposed up and down oppositely, so that the inner frame 11, the outer frame 12 and the frame heat insulating strip 13 enclose a first heat insulating cavity 03, the inner edge cavity 111, the outer edge cavity 121 and the first heat insulating cavity 03 are all provided with a fire resistant expansion strip 30, the aluminum alloy sash 02 includes an inner sash 21, The outer window sash 22, the inner window sash 21 and the outer window sash 22 are fixed through a connecting plate, an inner window cavity 211 is arranged on the inner window sash 21, an outer window cavity 221 is arranged on the outer window sash 22, a window sash heat insulation strip 23 is further arranged between the inner window sash 21 and the outer window sash 22, the window sash heat insulation strips 23 are arranged in an up-down opposite mode, a second heat insulation cavity 04 is defined by the inner window sash 21, the outer window sash 22 and the window sash heat insulation strips 23, and the fire-resistant expansion strips 30 are arranged in the inner window cavity 211, the outer window cavity 221 and the second heat insulation cavity 04. In interior limit cavity 111, outside cavity 121, first thermal-insulated chamber 03, interior window cavity 211, outer window cavity 221 and the thermal-insulated chamber 04 of second, according to the size of cavity, place the cylindric graphite fire prevention expanding strip that the diameter is unequal, when the conflagration breaing out receives high temperature to toast or the burning, the emergence inflation that graphite fire prevention expanded material is just quick, it can expand 18-20 times of self volume, be full of all cavities in 01, the aluminum alloy casement 02 completely, play the effect of the extension and thermal-insulated of blocking fireworks.

Because the aluminum alloy frame 01 and the aluminum alloy sash 02 are hollow in a closed state, in order to better play a role of fire prevention, sealing and smoke prevention, the frame heat-insulating strip 13 is provided with the fire-resistant expansion sheet 05, and the fire-resistant expansion sheet 05 is respectively positioned at the upper part of the upper frame heat-insulating strip 13 and the lower part of the lower frame heat-insulating strip 13. The upper part of the inner edge cavity 111 is provided with a notch, and a fireproof expansion sheet 05 is arranged in the notch. A blocking edge 07 is fixedly arranged above the outer cavity 121, a fire-resistant sealing strip 09 is embedded in the top of the blocking edge 07, and a fire-resistant expansion sheet 05 is arranged below the fire-resistant sealing strip 09. The sash heat insulating strip 23 is provided with a fire-resistant expansion sheet 05, and the fire-resistant expansion sheet 05 is respectively positioned at the upper part of the upper sash heat insulating strip 23 and the lower part of the lower sash heat insulating strip 23. When the whole window frame is heated, the fireproof expansion sheet 05 expands, the hollow part between the aluminum alloy frame 01 and the aluminum alloy window sash 02 can be filled, and the effects of blocking the spread of smoke and fire and insulating heat are achieved.

The upper part of the upper frame heat insulation strip 13 is also provided with fireproof cotton sheets 06, the fireproof cotton sheets 06 are positioned on the upper part of the fireproof expansion sheet 05, and a space is reserved between the two fireproof cotton sheets 06.

The lower part of the inner window cavity 211 is fixedly provided with a limiting edge 10, the lower end of the limiting edge 10 is inlaid with a fire-resistant sealing strip 09, and a fire-resistant expansion sheet 05 is arranged above the fire-resistant sealing strip 09.

The upper part of the upper window sash heat insulation strip 23 is also provided with fireproof cotton sheets 06, the fireproof cotton sheets 06 are positioned on the upper parts of the fireproof expansion sheets 05, and a space is reserved between the two fireproof cotton sheets 06, after the fireproof expansion sheets 05 are heated and expanded, the fireproof cotton sheets can pass through the space between the two fireproof cotton sheets, so that a gap between the fireproof hollow glass and the aluminum alloy window sash 02 can be completely sealed.

The upper portion of interior window cavity 211 is provided with the joint groove, is provided with fire-resistant inflation piece 05 in the joint groove.

The upper part of the outer window cavity 221 is fixedly provided with a glass supporting edge 20, a fire-resistant expansion sheet 05 is arranged between the glass supporting edge 20 and the outer window cavity 221, and one side of the glass supporting edge 20, which is in contact with the glass, is provided with a fireproof cotton sheet 06.

The utility model discloses in, all fire-resistant expansion piece 05 all adopt the mode of inlaying when the installation, and its connected mode is the draw-in groove formula connection, when the installation, need brush the fire-resistant glue of one deck on fire-resistant expansion piece 05, on the one hand can be better with fire-resistant expansion piece 05 fixed, on the other hand can play the effect of fire prevention.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

Claims (10)

1. A high performance aluminum alloy fire resistant window which is characterized in that: the aluminum alloy window sash comprises an aluminum alloy frame and an aluminum alloy window sash, wherein the aluminum alloy window sash is connected with the aluminum alloy frame through a hinge, the aluminum alloy frame comprises an inner frame and an outer frame, the inner frame and the outer frame are fixed through a connecting plate, an inner side cavity is formed in the inner frame, an outer side cavity is formed in the outer frame, a frame heat insulation strip is further arranged between the inner frame and the outer frame, the frame heat insulation strips are arranged oppositely from top to bottom, a first heat insulation cavity is formed by the inner frame, the outer frame and the frame heat insulation strips in a surrounding mode, a fireproof expansion strip is arranged in the inner side cavity, the outer side cavity and the first heat insulation cavity, the aluminum alloy window sash comprises an inner window sash and an outer window sash, the inner window sash and the outer window sash are fixed through the connecting plate, an inner window cavity is formed in the inner window sash, an outer window sash cavity is formed in, The outer window sash and the window sash heat insulation strips enclose a second heat insulation cavity, and the inner window cavity, the outer window cavity and the second heat insulation cavity are all provided with fire-resistant expansion strips.

2. The high performance aluminum alloy refractory window of claim 1, wherein: and the frame heat-insulating strips are provided with fireproof expansion sheets which are respectively positioned at the upper parts of the upper frame heat-insulating strips and the lower parts of the lower frame heat-insulating strips.

3. The high performance aluminum alloy refractory window of claim 2, wherein: the upper portion of upper portion frame heat insulating strip still is provided with the fire prevention cotton piece, and the fire prevention cotton piece is located the upper portion of fire-resistant inflation piece to leave the interval between two fire prevention cotton pieces.

4. The high performance aluminum alloy refractory window of claim 1, wherein: the upper part of the inner edge cavity is provided with a notch, and a fireproof expansion sheet is arranged in the notch.

5. The high performance aluminum alloy refractory window of claim 1, wherein: and a blocking edge is fixedly arranged above the outer edge cavity, a fireproof sealing strip is embedded at the top of the blocking edge, and a fireproof expansion sheet is arranged below the fireproof sealing strip.

6. The high performance aluminum alloy refractory window of claim 1, wherein: the fireproof expansion pieces are respectively positioned on the upper part of the upper window sash heat insulation strip and the lower part of the lower window sash heat insulation strip.

7. The high performance aluminum alloy refractory window of claim 6, wherein: the upper part of the upper sash heat insulation strip is also provided with a fireproof cotton sheet which is positioned on the upper part of the fireproof expansion sheet, and a space is reserved between the two fireproof cotton sheets.

8. The high performance aluminum alloy refractory window of claim 1, wherein: the upper portion of interior window cavity is provided with the joint groove, is provided with fire-resistant inflation piece in the joint inslot.

9. The high performance aluminum alloy refractory window of claim 8, wherein: the lower part of the inner window cavity is fixedly provided with a limiting edge, the lower end of the limiting edge is inlaid with a fire-resistant sealing strip, and a fire-resistant expansion sheet is arranged above the fire-resistant sealing strip.

10. The high performance aluminum alloy refractory window of claim 1, wherein: the upper portion of the outer window cavity is fixedly provided with a glass supporting edge, a fireproof expansion sheet is arranged between the glass supporting edge and the outer window cavity, and a fireproof cotton sheet is arranged on one side of the glass supporting edge, which is in contact with the glass.

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