CN216714252U - Passive room type super heat-insulation fireproof window - Google Patents

Abstract

The utility model relates to the technical field of heat-insulating fire-resistant windows, in particular to a passive room type super-heat-insulating fire-resistant window, which increases the fire-resistant integrity of the passive window, makes up the structural stability defect caused by the over-width of the passive window, improves the heat-insulating effect of the passive window and improves the practicability; including the cold chamber screw, first rock wool gasket, warm chamber screw, warm chamber frame, warm intracavity fan, rock wool glass cushion, indoor layering, big glass fastener, the second rock wool gasket, cold chamber frame and cold chamber fan, first rock wool gasket is installed on warm chamber frame and cold chamber frame, cold chamber screw installation is on first rock wool gasket and is connected with the cold chamber frame, warm chamber screw installation is on first rock wool gasket and is connected with warm chamber frame, warm intracavity fan is connected with warm chamber frame through the bridge cut-off, be connected through the bridge cut-off between warm chamber frame and the cold chamber frame, rock wool glass cushion is installed between warm intracavity fan and glass, indoor layering is installed on warm intracavity fan.

Description

Passive room type super-heat-insulation fireproof window

Technical Field

The utility model relates to the technical field of heat-insulating fire-resistant windows, in particular to a passive room type super heat-insulating fire-resistant window.

Background

The ultra-low energy consumption building of China started in 2007, and in some international projects where the China government and the German energy agency cooperate, the German energy agency starts to recommend the adoption of passive house technology. Passive room technology has therefore walked into china. Since 2009, the scientific and industrial promotion center of the ministry of housing and urban and rural construction and the german energy agency are popularized in china to construct passive low-energy-consumption buildings. In 2011, 6 months, the ministry of housing and urban and rural construction and germany transportation, the ministry of construction and urban development signed memorandum about building energy conservation and low-carbon ecological urban construction technology forgiveness, further made clear the key point of cooperation for developing passive low-energy buildings to reduce the building energy use to the maximum extent, and also made a later passive house type building in a greater development period in china.

In recent years, with the development of passive house type buildings, the passive house type buildings have high standards and requirements on the selection of passive house doors and windows through the good heat preservation and heat insulation performance of the buildings per se, under the active heating and refrigerating modes such as a traditional air conditioner, a heater and the like, the existing aluminum alloy section has high heat conduction, heat convection and heat radiation are easily generated in an aluminum alloy cavity, the existing passive house type doors and windows are easily increased in strength of the whole window due to the fact that the width of the section is increased, the glass is easily increased in thickness, and the brittleness is increased, and particularly, the requirement on the strength of the cavity is high. Because the cavity does not have obvious support and can not improve the stress strength of the cavity, the existing passive window has no fire-resistant effect.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model provides a passive room type super-heat-insulation fireproof window which increases the fire-resistant integrity of a passive window, makes up for the defect of structural stability caused by the excessive width of the passive window, improves the heat-insulation effect of the passive window and improves the practicability.

The utility model relates to a passive room type super-heat-insulation fireproof window which comprises a cold cavity screw, a first rock wool gasket, a warm cavity screw, a warm cavity outer frame, a warm cavity inner fan, a rock wool glass cushion block, an indoor trim strip, a large glass clamp, a second rock wool gasket, a cold cavity outer frame and a cold cavity fan, wherein the first rock wool gasket is arranged on the warm cavity outer frame and the cold cavity outer frame, the cold cavity screw is arranged on the first rock wool gasket and connected with the cold cavity outer frame, the warm cavity screw is arranged on the first rock wool gasket and connected with the warm cavity outer frame, the warm cavity fan is connected with the warm cavity outer frame through a bridge cut-off, the warm cavity outer frame is connected with the cold cavity outer frame through a bridge cut-off, the rock wool glass cushion block is arranged between the warm cavity inner fan and glass, the indoor trim strip is arranged on the warm cavity inner fan, the large glass clamp is arranged on the warm cavity inner fan, the second rock wool gasket is arranged on the large glass clamp and contacted with the warm cavity inner fan, the cold chamber fan is connected with the warm chamber inner fan through a broken bridge.

The passive room type super-insulation fireproof window further comprises a first warm cavity steel lining and warm cavity rock wool, wherein the first warm cavity steel lining is installed in the warm cavity outer frame, and the warm cavity rock wool is filled in the warm cavity outer frame.

The passive room type super-heat-insulation fireproof window further comprises a second fireproof rock wool block, and the second fireproof rock wool block is filled in the bridge cut-off.

The passive room type super-heat-insulation fireproof window further comprises a second warm cavity steel lining, and the second warm cavity steel lining is installed in the warm cavity inner fan.

The passive room type super-heat-insulation fireproof window further comprises cold cavity rock wool and a cold cavity steel lining, wherein the cold cavity rock wool is filled in the cold cavity outer frame, and the cold cavity steel lining is installed on the cold cavity outer frame.

The passive room type super-heat-insulation fireproof window further comprises an outdoor adhesive tape, a third rock wool strip and a water-blocking strip, wherein the outdoor adhesive tape and the third rock wool strip are both arranged on the cold cavity outer frame, and the water-blocking strip is arranged on a heat-insulation strip of the cold cavity outer frame.

The passive room type super-insulation fireproof window further comprises a fourth rock wool strip, a first rock wool strip, fire-resistant glue, a second rock wool strip and second fireproof rock wool, wherein the fourth rock wool strip is arranged between an indoor pressing strip and glass glue, the first rock wool strip is arranged on a cold cavity fan and is tightly attached to glass, the fire-resistant glue is coated between the glass and the cold cavity fan, the second rock wool strip is arranged on the cold cavity fan, and the second fireproof rock wool is filled in a bridge cut-off.

The passive room type super-heat-insulation fireproof window further comprises a first fireproof auxiliary material, an indoor adhesive tape, a second fireproof auxiliary material, a fastening screw and a fourth rock wool strip, wherein the indoor adhesive tape is installed on the warm cavity inner fan, the first fireproof auxiliary material is installed between the indoor adhesive tape and the broken bridge, the second fireproof auxiliary material is installed in the warm cavity inner fan, and the fastening screw is installed on the large glass clamping piece and connected with the warm cavity inner fan.

The passive room type super-heat-insulation fireproof window further comprises a first fireproof rock wool block, rock wool cushion glue and first fireproof rock wool, wherein the first fireproof rock wool block is filled in the bridge-cut-off cavity, the rock wool cushion glue is arranged on the outer frame of the warm cavity and the outer frame of the cold cavity, and the first fireproof rock wool is filled in a plurality of cavities of the water blocking strips.

Compared with the prior art, the utility model has the beneficial effects that:

the product broad width reaches 90mm, multiple opening mode can be realized to the cooperation five metals, the design of standard five metals notch, the commonality reinforcing, better high performance requirement is satisfied in good multi-chamber design, high-quality bridge cut-off heat-proof technology brings better whole window heat-proof quality, the fire-resistant integrality of passive form window has been increased, research and development through fire-resistant supplementary material has compensatied the structural stability defect that the passive form window is too wide to cause, the cooperation through steel aluminium makes its intensity obtain greatly promoting.

Drawings

FIG. 1 is a schematic structural view of the present invention;

in the drawings, the reference numbers: 1. a cold chamber screw; 2. a first rock wool gasket; 3. a first fireproof rock wool block; 4. rock wool cushion rubber; 5. a warm cavity screw; 6. first fireproof rock wool; 7. a warm chamber outer frame; 8. a first refractory auxiliary material; 9. an indoor adhesive tape; 10. a second refractory auxiliary material; 11. a warm cavity inner fan; 12. fastening screws; 13. rock wool glass mat blocks; 14. pressing strips in the room; 15. a fourth rock wool strip; 16. a large glass clip; 17. a second rock wool pad; 18. a first rock wool strip; 19. fire-resistant glue; 20. a second rock wool strip; 21. second fireproof rock wool; 22. an outdoor adhesive tape; 23. a third rock wool strip; 24. a water-blocking strip; 25. cold cavity rock wool; 26. a cold chamber steel liner; 27. a cold chamber outer frame; 28. a first warm cavity steel liner; 29. warm cavity rock wool; 30. a second fireproof rock wool block; 31. a second warm cavity steel liner; 32. a cold chamber fan.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the utility model but are not intended to limit the scope of the utility model.

As shown in figure 1, the passive room type super heat-insulation fireproof window comprises a cold cavity screw 1, a first rock wool gasket 2, a warm cavity screw 5, a warm cavity outer frame 7, a warm cavity inner fan 11, a rock wool glass gasket 13, an indoor press strip 14, a large glass clamping piece 16, a second rock wool gasket 17, a cold cavity outer frame 27 and a cold cavity fan 32, wherein the first rock wool gasket 2 is arranged on the warm cavity outer frame 7 and the cold cavity outer frame 27, the cold cavity screw 1 is arranged on the first rock wool gasket 2 and is connected with the cold cavity outer frame 27, the warm cavity screw 5 is arranged on the first rock wool gasket 2 and is connected with the warm cavity outer frame 7, the warm cavity outer frame 11 is connected with the warm cavity outer frame 7 through a bridge cut-off, the rock wool glass gasket 13 is arranged between the warm cavity inner fan 11 and glass, the indoor press strip 14 is arranged on the warm cavity inner fan 11, the large glass clamping piece 16 is arranged on the warm cavity inner fan 11, the second rock wool gasket 17 is arranged on the large glass clamping piece 16 and is contacted with the warm cavity inner fan 11, and the cold cavity fan 32 is connected with the warm cavity inner fan 11 through a broken bridge; the product broad width reaches 90mm, multiple opening mode can be realized to the cooperation five metals, the design of standard five metals notch, the commonality reinforcing, better high performance requirement is satisfied in good multi-chamber design, high-quality bridge cut-off heat-proof technology brings better whole window heat-proof quality, the fire-resistant integrality of passive form window has been increased, research and development through fire-resistant supplementary material has compensatied the structural stability defect that the passive form window is too wide to cause, the cooperation through steel aluminium makes its intensity obtain greatly promoting.

As the optimization of the above embodiment, the system further comprises a first warm cavity steel lining 28 and warm cavity rock wool 29, wherein the first warm cavity steel lining 28 is installed in the warm cavity outer frame 7, and the warm cavity rock wool 29 is filled in the warm cavity outer frame 7; through the above setting, the warm chamber steel lining of frame strengthens cavity intensity, promotes the fire resistance, and the fire-retardant fire prevention material in warm chamber rock wool can play fine heat preservation effect, improves the practicality.

As the optimization of the above embodiment, the fireproof rock wool bridge further comprises a second fireproof rock wool block 30, wherein the second fireproof rock wool block 30 is filled in the bridge cut-off; through above setting, effectively reduce the production of thermal convection to the rock wool piece still has fine fire resistance, and wherein the bridge cut-off position is the weakest part of section bar system, and the support fire resistance thermal insulation performance that has the rock wool piece obtains greatly promoting, improves the practicality.

As the optimization of the above embodiment, the heating chamber further comprises a second warm chamber steel lining 31, wherein the second warm chamber steel lining 31 is installed in the warm chamber inner fan 11; through above setting, reinforcing cavity intensity promotes fire resistance, improves the practicality.

As the optimization of the above embodiment, the cold cavity rock wool cooling system further comprises a cold cavity rock wool 25 and a cold cavity steel lining 26, wherein the cold cavity rock wool 25 is filled in a cold cavity outer frame 27, and the cold cavity steel lining 26 is installed on the cold cavity outer frame 27; through the above setting, the fire-retardant fire prevention material of cold chamber rock wool can play fine heat preservation effect, and the cold chamber steel lining of frame strengthens cavity intensity and promotes fire resistance, improves the practicality.

As the optimization of the above embodiment, the outdoor joint strip 22, the third rock wool strip 23 and the water blocking strip 24 are further included, the outdoor joint strip 22 and the third rock wool strip 23 are both installed on the cold cavity outer frame 27, and the water blocking strip 24 is installed on the heat insulation strip of the cold cavity outer frame 27; through above setting, rain curtain formula design, the multi-chamber design, refractory material, it is super good with rain-proof effect to keep warm fire-retardant sealed, increases the leakproofness of fire window, improves the practicality.

As the optimization of the above embodiment, the fireproof door further comprises a fourth rock wool strip 15, a first rock wool strip 18, a fireproof glue 19, a second rock wool strip 20 and a second fireproof rock wool strip 21, wherein the fourth rock wool strip 15 is installed between the indoor pressing strip 14 and the glass cement, the first rock wool strip 18 is installed on the cold cavity fan 32 and is tightly attached to the glass, the fireproof glue 19 is coated between the glass and the cold cavity fan 32, the second rock wool strip 20 is installed on the cold cavity fan 32, and the second fireproof rock wool strip 21 is filled in the broken bridge; through above setting, increase the refractiveness of window, the packing of water blocking strip multi-chamber is prevented fire rock wool and is increased water blocking strip intensity, avoids the production of thermal convection, and the energy-conserving fire resistance that keeps warm greatly promotes, improves the practicality.

As the optimization of the embodiment, the indoor adhesive tape 9 is installed on the warm cavity inner fan 11, the first fire-resistant auxiliary material 8 is installed between the indoor adhesive tape 9 and the broken bridge, the second fire-resistant auxiliary material 10 is installed in the warm cavity inner fan 11, and the fastening screw 12 is installed on the large glass clamping piece 16 and connected with the warm cavity inner fan 11; through above setting, increase fire resisting window's leakproofness, improve the practicality.

Preferably, the bridge-cut-off water-proof structure further comprises a first fireproof rock wool block 3, rock wool cushion glue 4 and a first fireproof rock wool 6, wherein the first fireproof rock wool block 3 is filled in the bridge-cut-off cavity, the rock wool cushion glue 4 is arranged on the warm cavity outer frame 7 and the cold cavity outer frame 27, and the first fireproof rock wool 6 is filled in the multi-cavity body of the water-proof strip 24; through the setting, pack the rock wool piece in the middle bridge cut-off cavity and can effectively reduce the production of thermal convection to the rock wool piece also has fine fire resistance, and wherein the bridge cut-off position is the most fragile part of section bar system, and the support fire-resistant thermal insulation performance that has the rock wool piece obtains greatly promoting, packs the fire prevention rock wool in the water blocking strip multi-chamber and increases water blocking strip intensity, avoids the production of thermal convection, and the energy-conserving fire resistance that keeps warm greatly promotes, improves the practicality.

According to the passive room type super-heat-insulation fireproof window, the installation mode, the connection mode or the arrangement mode are common mechanical modes, and the passive room type super-heat-insulation fireproof window can be implemented as long as the beneficial effects are achieved; the first fire-resistant auxiliary material 8 and the second fire-resistant auxiliary material 10 of the passive room type super heat-insulation fire-resistant window are purchased from the market, and technicians in the industry only need to install and operate the window according to the attached operating instructions.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (9)

1. A passive room type super-heat-insulation fireproof window is characterized by comprising a cold cavity screw (1), a first rock wool gasket (2), a warm cavity screw (5), a warm cavity outer frame (7), a warm cavity inner frame (11), rock wool glass gaskets (13), an indoor pressure strip (14), a large glass clamping piece (16), a second rock wool gasket (17), a cold cavity outer frame (27) and a cold cavity fan (32), wherein the first rock wool gasket (2) is arranged on the warm cavity outer frame (7) and the cold cavity outer frame (27), the cold cavity screw (1) is arranged on the first rock wool gasket (2) and is connected with the cold cavity outer frame (27), the warm cavity outer frame screw (5) is arranged on the first rock wool gasket (2) and is connected with the warm cavity outer frame (7), the warm cavity inner frame (11) is connected with the warm cavity (7) through a broken bridge, and the warm cavity outer frame (7) is connected with the cold cavity outer frame (27) through a broken bridge, rock wool glass cushion (13) are installed and are being warmed up between intracavity fan (11) and the glass, install on warm intracavity fan (11) indoor layering (14), install on warm intracavity fan (11) big glass fastener (16), second rock wool gasket (17) are installed on big glass fastener (16) and are fanning (11) contact with warm intracavity, cold chamber fan (32) are through the bridge cut-off with warm intracavity fan (11) and be connected.

2. The super insulation fire resistant window of a passive room type as claimed in claim 1, further comprising a first warm room steel lining (28) and a warm room rock wool (29), wherein the first warm room steel lining (28) is installed in the warm room outer frame (7), and the warm room rock wool (29) is filled in the warm room outer frame (7).

3. The super insulating refractory window in the form of a passive room of claim 1, further comprising a second fireproof rock wool block (30), wherein the second fireproof rock wool block (30) is filled in the bridge cut-off.

4. The passive room-type super-insulating refractory window according to claim 1, further comprising a second warm room steel lining (31), wherein the second warm room steel lining (31) is installed in the warm room inner fan (11).

5. The passive-room-type super-insulating refractory window as claimed in claim 1, further comprising cold-cavity rock wool (25) and a cold-cavity steel lining (26), wherein the cold-cavity rock wool (25) is filled in the cold-cavity outer frame (27), and the cold-cavity steel lining (26) is installed on the cold-cavity outer frame (27).

6. The passive room type super heat-insulation fireproof window is characterized by further comprising an outdoor rubber strip (22), a third rock wool strip (23) and a water blocking strip (24), wherein the outdoor rubber strip (22) and the third rock wool strip (23) are both arranged on a cold cavity outer frame (27), and the water blocking strip (24) is arranged on a heat insulation strip of the cold cavity outer frame (27).

7. The passive room type super heat-insulation fireproof window according to claim 1, further comprising a fourth rock wool strip (15), a first rock wool strip (18), a fire-resistant glue (19), a second rock wool strip (20) and a second fire-resistant rock wool strip (21), wherein the fourth rock wool strip (15) is installed between the indoor pressing strip (14) and the glass glue, the first rock wool strip (18) is installed on the cold cavity fan (32) and is tightly attached to the glass, the fire-resistant glue (19) is coated between the glass and the cold cavity fan (32), the second rock wool strip (20) is installed on the cold cavity fan (32), and the second fire-resistant rock wool strip (21) is filled in the bridge cut-off.

8. The passive room type super-insulation fire-resistant window is characterized by further comprising a first fire-resistant auxiliary material (8), an indoor adhesive tape (9), a second fire-resistant auxiliary material (10), a fastening screw (12) and a fourth rock wool strip (15), wherein the indoor adhesive tape (9) is installed on the warm cavity inner fan (11), the first fire-resistant auxiliary material (8) is installed between the indoor adhesive tape (9) and a broken bridge, the second fire-resistant auxiliary material (10) is installed in the warm cavity inner fan (11), and the fastening screw (12) is installed on a large glass clamping piece (16) and connected with the warm cavity inner fan (11).

9. The passive room type super heat-insulation fireproof window according to claim 1, further comprising a first fireproof rock wool block (3), rock wool cushion glue (4) and a first fireproof rock wool (6), wherein the first fireproof rock wool block (3) is filled in the broken bridge cavity, the rock wool cushion glue (4) is installed on the warm cavity outer frame (7) and the cold cavity outer frame (27), and the first fireproof rock wool (6) is filled in the multi-cavity of the water blocking strip (24).

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