CN218562781U

CN218562781U - Modularization aluminum alloy skylight

Info

Publication number: CN218562781U
Application number: CN202222408540.6U
Authority: CN
Inventors: 马也
Original assignee: Nantong Suchitc Construction Engineering Co ltd
Current assignee: Nantong Suchitc Construction Engineering Co ltd
Priority date: 2022-09-13
Filing date: 2022-09-13
Publication date: 2023-03-03
Anticipated expiration: 2032-09-13

Abstract

The utility model discloses a modularization aluminum alloy skylight, aluminum alloy skylight polycell transverse arrangement, the permutation and combination mode is: the movable window units and the fixed window units are transversely arranged at intervals, wherein the number of the fixed window units is 1-a plurality of the fixed window units are continuously and transversely arranged; the movable window unit and the fixed window unit are longitudinally arranged on the mounting base through the module mounting bracket according to the natural drainage gradient. The utility model discloses an aluminium alloy profile structure that gives up heat, aluminium alloy window frame processing adopt machinery group frame concatenation, and aluminium alloy window frame need not the welding, and direct group frame becomes sky window unit, with the adjacent support parallel connection in a plurality of unit skylights on the mounting base, constitutes the energy-conserving waterproof skylight daylighting top of polycell, has realized mass production and modularization installation.

Description

Modularization aluminum alloy skylight

Technical Field

The utility model relates to an aluminum alloy skylight belongs to building door and window, especially relates to building intelligent skylight.

Background

The intelligent skylight is widely used in modern buildings, particularly in the sky such as a lighting well, a atrium and the like, wherein the skylight has better waterproof performance and is a waterproof skylight welded by aluminum alloy sections. However, after the aluminum alloy section is welded, the fluorocarbon finish or the oxidation coloring layer on the surface of the section is damaged, so that the aluminum alloy section is firstly used for welding the aluminum alloy skylight frame according to the size of the customized skylight frame, the original primer finish protective layer is removed by polishing the whole frame after welding, and then the chemical treatment, oxidation coloring or fluorocarbon coating, is carried out after oil removal and decontamination. The working efficiency is low, the cost is high, and the consumption is great. Moreover, the nylon bridge-cut-off heat insulation strips, sealing rubber strips and the like are fused during welding, the stress structure of the skylight section is damaged, the sealing structure of the skylight is damaged, and the waterproof and energy-saving performance of the skylight is not fundamentally guaranteed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an aluminum alloy window frame need not the welding, directly organizes the modularization aluminum alloy skylight of framing skylight unit.

The technical solution of the utility model is that:

the utility model provides a modularization aluminum alloy skylight, characterized by: the aluminum alloy skylight multi-unit is transversely arranged in a combination mode as follows: the movable window units and the fixed window units are transversely arranged at intervals, wherein the fixed window units are arranged in a 1-multiple continuous transverse direction; the movable window unit and the fixed window unit are longitudinally arranged on the mounting base through the module mounting bracket according to the natural drainage gradient;

the fixed window comprises a fixed window aluminum alloy window frame, the fixed window aluminum alloy window frame is spliced by adopting a mechanical frame assembly, a fixed window aluminum alloy pressing plate presses and installs the fixed window panel on the fixed window aluminum alloy window frame through a press-bonding sealing strip, a fixed window panel gasket rubber strip is padded between the fixed window panel and the fixed window aluminum alloy window frame, the fixed window aluminum alloy pressing plate and the fixed window aluminum alloy window frame are connected through a fixed window nylon heat-insulating strip, a fixed window heat-insulating sealing rubber strip is arranged on the fixed window nylon heat-insulating strip, a groove is arranged on the fixed window aluminum alloy window frame, and a fixed window sealing water-guiding rubber strip is clamped, so that a sealed heat-insulating cavity is formed between the fixed window aluminum alloy pressing plate and the fixed window aluminum alloy window frame;

the movable window structure comprises a movable window aluminum alloy window frame which adopts machinery or uses corner connectors to splice and assemble the frame; the movable window aluminum alloy pressing plate presses and installs the movable window panel on the movable window aluminum alloy sash through the pressure-bonding sealing strip, a movable window panel gasket rubber strip is padded between the movable window panel and the sash frame, in addition, the movable window aluminum alloy pressing plate is connected with the movable window aluminum alloy sash through a movable window nylon adiabatic strip, and a movable window heat-insulation sealing rubber strip is matched on the movable window nylon adiabatic strip to ensure that a sealed heat-insulation cavity is formed with an adjacent window body; the movable window aluminum alloy window sash is connected with the movable window aluminum alloy window frame through a hinge or a hinge; the movable window aluminum alloy window frame is fixedly provided with a heat insulation sealing strip, and the movable window aluminum alloy window sash is compacted on the heat insulation sealing strip when being closed, so that waterproof sealing, heat insulation and energy conservation between the movable window aluminum alloy window sash and the fixed window aluminum alloy window frame are ensured; the outer side of the heat insulation sealing strip is provided with an adhesive tape at a position corresponding to the sealing water guide adhesive tape of the fixed window;

the fixed window and the movable window are combined in a butt-joint mode, after the movable window is closed, an aluminum alloy sealing buckle plate which follows up with an aluminum alloy sash of the movable window is tightly buckled above an aluminum alloy pressing plate of the fixed window through a waterproof sealing rubber strip, and a rib groove male and female buckle is formed to form a first closed waterproof system; meanwhile, the heat insulation sealing rubber strips attached to the nylon heat insulation strips of two adjacent windows are mutually overlapped and compacted when the movable window is closed; in addition, the sealing water guide rubber strips for fixing the window and the heat insulation sealing strips as well as the sealing strips between the windows between the adjacent window frames are tightly attached and compacted after the window units are installed in place, so that a four-sealing and waterproof system for sealing three equal-pressure cavities is formed.

The tail parts of the fixed window and the movable window are provided with a water guide plate, a transverse water collection plate and a tail part diversion trench; extending the sealing water guide adhesive tape of the fixed window to the outer edge of the tail part of the window frame after framing, arranging and fixing a transverse water collecting plate on the aluminum alloy window frame of the fixed window with the transverse tail part below the sealing water guide adhesive tape of the fixed window, and arranging and fixing the transverse water collecting plate on the aluminum alloy window frame of the movable window with the transverse tail part; and tail guide grooves are formed in the tail module supports of the adjacent skylight units, leaked water in the isobaric cavity between the skylight units is discharged out of the outer edge of the skylight window frame through the sealing water guide rubber strips and the rubber strips on the heat insulation sealing strips along the slope, is received by the transverse water collecting plate and is discharged through the tail guide grooves.

In order to connect the window panel and the drainage cornice of the daylighting top in a sealing way, the panel tail frame is fixed at the tail part of the window panel, the edge-collecting aluminum plate is arranged below the transverse water collecting plate, rainwater is naturally discharged to the panel tail frame along the slope on the movable or fixed window panel, and the daylighting top cornice is discharged by the edge-collecting aluminum plate.

Setting a condensate water diversion system: the condensed water on the inner side of the skylight glass flows into the groove of the fixed window panel gasket rubber strip or the movable window panel gasket rubber strip along the slope, the condensed water guide plates are arranged below the two ends of the fixed window panel gasket rubber strip or the movable window panel gasket rubber strip at the tail part of the skylight, and the condensed water is received by the transverse water collecting plates and flows into the tail part guide groove to be discharged.

The movable window aluminum alloy window sash is connected with the movable window aluminum alloy window frame through a hinge or a hinge, and the tail part of the movable window aluminum alloy window sash and the tail part of the movable window aluminum alloy window frame are provided with electric window openers for controlling the opening and closing of the skylight.

And a top waterproof cover is arranged on the top slope of the skylight unit.

The utility model discloses an aluminium alloy profile structure that gives up heat, aluminium alloy window frame processing adopt machinery group frame concatenation, and aluminium alloy window frame need not the welding, and direct group frame becomes sky window unit, with the adjacent support parallel connection in a plurality of unit skylights on the mounting base, constitutes the energy-conserving waterproof skylight daylighting top of polycell, has realized mass production and modularization installation. Three sealed equal-pressure cavities are arranged between the fixed window unit and the movable window unit, and an anti-leakage rainwater diversion system and a condensate water diversion system are arranged, so that the energy conservation of the skylight meets the thermal requirements of buildings, and the air tightness and the water tightness of the skylight are improved.

Drawings

The present invention will be further described with reference to the accompanying drawings and examples.

Fig. 1 is a schematic view of a combination of a fixed window module and a movable window module.

FIG. 2 is a diagram of a fixed window and a movable window combined node.

FIG. 3 is a diagram of fixed window structure component nodes.

FIG. 4 is a diagram of the active window structure composition nodes.

Fig. 5 is a schematic view of a water guide structure at the tail of the fixed window.

Fig. 6 is a schematic view of a water guide structure at the tail of the movable window.

Detailed Description

The utility model provides a modularization intelligence aluminum alloy skylight, aluminum alloy skylight polycell transverse arrangement, the permutation and combination mode is: a plurality of movable window units 2 and fixed window units 1 are transversely arranged at intervals as shown in fig. 1, wherein a plurality of fixed window units can be continuously and transversely arranged and are longitudinally arranged on an installation base 4 through a module installation bracket 3 according to a natural drainage gradient as shown in fig. 1; when the daylighting roof needs double slopes, two groups of multi-unit skylights are installed in a longitudinally symmetrical slope rising mode (note that the fixed window module 1 and the movable window module 2 shown in the figure 1 are arranged in a transverse mode).

The skylight units are processed and assembled in a factory, and fine line production in the factory is more favorable for controlling the quality of the skylight. The field installation process only comprises simple hoisting, positioning and bolt fastening work, the labor intensity of field construction is greatly reduced, the technical requirement is greatly met, and meanwhile, the installation work efficiency is greatly improved.

The fixed window structure (see fig. 3) comprises a fixed window aluminum alloy window frame 101, a window panel gasket rubber strip 102, a sealing water guide rubber strip 103, a nylon heat insulation strip 104, a heat insulation sealing rubber strip 105, an aluminum alloy pressing plate 106, a pressure adhesion sealing strip 107, a window panel 108 (glass or sunlight plate and the like) and the like, and the tail part (see fig. 5) of the fixed window is provided with a rubber condensate water guide plate 8, a PVC transverse water collecting tank 9 and a tail part guide groove 6. The aluminum alloy window frame is processed by adopting mechanical frame assembly and splicing without welding; an aluminum alloy pressing plate 106 presses a fixed window panel 108 (energy-saving glass or a sunlight plate) on a fixed window aluminum alloy window frame 101 through a pressing and bonding sealing strip 107, a window panel gasket rubber strip 102 is arranged between the panel and the window frame, in addition, the aluminum alloy pressing plate 106 is connected with the fixed window aluminum alloy window frame 101 through a nylon heat-insulating strip 104, a heat-insulating sealing rubber strip 105 is arranged on the nylon heat-insulating strip 104, a groove is arranged on the fixed window aluminum alloy window frame 101, a fixed window sealing water guide rubber strip 103 is clamped, a sealed heat-insulating cavity is formed by the aluminum alloy pressing plate and an adjacent window body, and the fixed window forms an integrally sealed energy-saving window body unit through the combined connection.

The movable window is structurally composed of a movable window aluminum alloy window frame 201 (shown in figure 4), a movable window aluminum alloy window sash 202, a movable window airtight rubber strip 203, a movable window airtight rubber strip 204, a window panel gasket rubber strip 205, a heat insulation sealing strip 206, a nylon heat insulation strip 207, a heat insulation sealing rubber strip 208, a sponge or rubber waterproof sealing strip 209, a window panel 210 (glass, sunlight plates and the like), an aluminum alloy pressing plate 211, a pressure adhesion sealing strip 212 and an aluminum alloy sealing buckle plate 7, wherein a rubber condensate water guide plate 8, a PVC transverse water collection plate 9, a tail guide groove 6 and a window opener mechanism 12 are arranged at the tail part (shown in figure 6) of the movable window. The aluminum alloy window frame is processed by adopting machinery or splicing and assembling frames by using corner connectors without welding; the aluminum alloy pressing plate 211 presses a movable window panel 210 (energy-saving glass or sunlight plate) on the aluminum alloy window sash 202 of the movable window through a pressing and bonding sealing strip 212, a window panel gasket rubber strip 205 is padded between the panel and the window frame, in addition, the aluminum alloy pressing plate 211 is connected with the aluminum alloy window sash 202 of the movable window through a nylon heat insulation strip 207, and the nylon heat insulation strip 207 is provided with a heat insulation sealing rubber strip 208 to ensure that a sealed heat insulation cavity is formed with an adjacent window body. The movable window aluminum alloy sash 202 is connected with the movable window aluminum alloy frame 201 through a hinge or a hinge; the movable window aluminum alloy window frame 201 is fixedly provided with a heat insulation sealing strip 206, and the movable window aluminum alloy sash 202 is compacted on the heat insulation sealing strip 206 when being closed, so that waterproof sealing, heat insulation and energy conservation between the movable window aluminum alloy sash and the fixed window aluminum alloy window frame are ensured; the outer side of the heat insulation sealing strip 206 is provided with an adhesive tape at a position corresponding to the fixed window sealing water guide adhesive tape 103; an airtight rubber strip 203, an airtight rubber strip 204 and a heat insulation sealing strip 206 are arranged between the window sash and the window frame, so that waterproof sealing, heat insulation and energy conservation between the movable sash and the fixed frame are guaranteed. The movable window forms an integral sealed energy-saving window body unit through the combined connection.

Further optimize, for window panel and daylighting top drainage eaves mouth sealed linking, at window panel afterbody fixed panel tail frame 10, set up in the below of horizontal water-collecting plate 9 and receive limit aluminum plate 11, like fig. 5 and fig. 6, the rainwater is gone up the same direction as the slope on activity or fixed window panel and is naturally arranged to panel tail frame 10, is again by receiving limit aluminum plate 11 and discharge daylighting top eaves mouth.

The fixed window and the movable window are spliced and combined into a node as shown in figure 2, after the movable window is closed, an aluminum alloy sealing buckle plate 7 which follows up with an aluminum alloy sash of the movable window is simultaneously and tightly buckled above a fixed window pressing plate through a waterproof sealing rubber strip 209, and rib grooves are buckled by male and female parts to form a first closed waterproof system; meanwhile, the heat insulation

sealing rubber strips

105 and 208 attached to the nylon adiabatic bars of the two adjacent windows are mutually overlapped and compacted when the movable window is closed; in addition, the sealing water guide rubber strips 103 of the fixed window and the heat insulation sealing strips 206, and the sealing strips 5 between the windows between the adjacent window frames are tightly attached and compacted after the window units are installed in place. Thus, 4 sealing waterproof systems with 3 equal-pressure cavities are formed, the strict air tightness and water tightness are ensured, and the energy-saving requirement is met.

The preferable materials of the sealing strip and the rubber strip are ethylene propylene diene monomer sealing materials; the glass is preferably coated hollow glass.

Further preferably: an anti-leakage rainwater flow guide system in the isobaric cavity is arranged: the tail part (see figure 5) of the fixed window and the tail part (see figure 6) of the movable window are provided with a water guide plate 8, a transverse water collection plate 9 and a tail part flow guide groove 6; extending the sealing water guide adhesive tape 103 of the fixed window to the outer edge of the tail part of the window frame after framing, arranging and fixing the transverse water collecting plate 9 on the aluminum alloy window frame 101 of the fixed sash with the transverse tail part below the sealing water guide adhesive tape, and arranging and fixing the transverse water collecting plate 9 on the aluminum alloy window frame 201 of the movable sash with the transverse tail part; a tail guide groove 6 is arranged on a tail module bracket 3 of an adjacent skylight unit, and the leaked moisture in an isobaric cavity between a left window unit and a right window unit is discharged out of the outer edge of the skylight window frame through a sealing water guide adhesive tape 103 and an adhesive tape on a heat insulation sealing strip 206, is received by a transverse water collecting plate 9 and is discharged out of a daylighting top cornice through the tail guide groove 6;

further optimized, a condensate water diversion system is arranged: condensed water on the inner side of the skylight glass flows into the groove of the glass

mat rubber strip

102 or 205 along the slope, the condensed water guide plates 8 are arranged below two ends of the glass

mat rubber strip

102 or 205 at the tail part of the skylight, and the condensed water is also received by the transverse water collecting plate 9 and flows into the tail part guide groove 6 to be discharged;

further optimally, the movable window aluminum alloy sash 202 is connected with the movable window aluminum alloy window frame 201 through a hinge or a hinge, and an electric window opener is arranged between the tail of the movable window aluminum alloy sash 202 and the tail of the movable skylight of the movable window aluminum alloy window frame 201 to control the opening and closing of the skylight;

and further optimally, when the daylighting roof is a single slope or a double slope, a top waterproof cover is arranged on the top slope of the skylight unit.

In the figure, there are also a building foundation 13 and an interior trim closure 14.

The above-mentioned embodiments are merely descriptions of the preferred embodiments of the present invention, and are not limitations on the scope of the present invention, and those skilled in the art will be able to increase or decrease the number of the sealing and the number of the isobaric cavities, use alternative materials for the components in the present technical solution, and make various modifications and changes to the present technical solution without departing from the design spirit of the present invention, and all shall fall within the protection scope defined by the claims of the present invention.

Claims

1. The utility model provides a modularization aluminum alloy skylight, characterized by: the aluminum alloy skylight has the following transverse arrangement modes: the movable window units and the fixed window units are transversely arranged at intervals, wherein the fixed window units are arranged in a 1-multiple continuous transverse direction; the movable window unit and the fixed window unit are longitudinally arranged on the mounting base through the module mounting bracket according to the natural drainage gradient;

the fixed window comprises a fixed window aluminum alloy window frame, the fixed window aluminum alloy window frame is spliced by adopting a mechanical frame assembly, a fixed window aluminum alloy pressing plate presses and installs the fixed window panel on the fixed window aluminum alloy window frame through pressing and bonding a sealing strip, a fixed window panel gasket adhesive tape is padded between the fixed window panel and the fixed window aluminum alloy window frame, the fixed window aluminum alloy pressing plate and the fixed window aluminum alloy window frame are connected through a fixed window nylon heat-insulating strip, a fixed window heat-insulating sealing adhesive tape is arranged on the fixed window nylon heat-insulating strip, a groove is arranged on the fixed window aluminum alloy window frame, and a fixed window sealing water-guiding adhesive tape is clamped;

the movable window structure comprises a movable window aluminum alloy window frame which is spliced and assembled mechanically or by using corner connectors; the movable window aluminum alloy pressing plate presses and installs the movable window panel on the movable window aluminum alloy sash through the pressure-bonding sealing strip, a movable window panel gasket rubber strip is padded between the movable window panel and the sash frame, in addition, the movable window aluminum alloy pressing plate is connected with the movable window aluminum alloy sash through a movable window nylon adiabatic strip, and a movable window heat-insulation sealing rubber strip is matched on the movable window nylon adiabatic strip to ensure that a sealed heat-insulation cavity is formed with an adjacent window body; the movable window aluminum alloy window sash is connected with the movable window aluminum alloy window frame through a hinge or a hinge; the movable window is fixedly provided with a heat insulation sealing strip; adhesive tapes are arranged on the outer side of the heat-insulating sealing strip and at the position corresponding to the sealing water guide adhesive tape of the fixed window;

the fixed window and the movable window are combined in a splicing way, an aluminum alloy sealing buckle plate which follows up the aluminum alloy sash of the movable window is tightly buckled above the aluminum alloy pressing plate of the fixed window through a waterproof sealing rubber strip, and a rib groove male and female buckle is formed to form a first closed waterproof system; meanwhile, the heat insulation sealing rubber strips attached to the nylon heat insulation strips of two adjacent windows are mutually overlapped and compacted when the movable window is closed; in addition, the sealing water guide rubber strips for fixing the window and the heat insulation sealing strips as well as the sealing strips between the windows between the adjacent window frames are tightly attached and compacted after the window units are installed in place, so that a four-sealing and waterproof system for sealing three equal-pressure cavities is formed.

2. A modular aluminum alloy skylight of claim 1, further comprising: the tail parts of the fixed window and the movable window are provided with a water guide plate, a transverse water collection plate and a tail part diversion trench; extending the sealing water guide adhesive tape of the fixed window to the outer edge of the tail part of the window frame after the frame assembly, arranging and fixing a transverse water collecting plate on the aluminum alloy window frame of the fixed window with the transverse tail part below the sealing water guide adhesive tape of the fixed window, and arranging and fixing the transverse water collecting plate on the aluminum alloy window frame of the movable window with the transverse tail part; and tail guide grooves are arranged on the tail module supports of the adjacent skylight units.

3. The modular aluminum alloy skylight of claim 2, wherein: fixing the panel tail frame at the tail part of the window panel, and arranging a trimming aluminum plate below the transverse water collecting plate.

4. A modular aluminum alloy skylight of claim 2, further comprising: setting a condensate water diversion system: and condensed water guide plates are arranged below two ends of the fixed window panel gasket rubber strip or the movable window panel gasket rubber strip at the tail part of the skylight.

5. A modular aluminum alloy skylight as set forth in claim 1, 2 or 3, wherein: the movable window aluminum alloy window sash is connected with the movable window aluminum alloy window frame through a hinge or a hinge, and the tail part of the movable window aluminum alloy window sash and the tail part of the movable window aluminum alloy window frame are provided with electric window openers for controlling the opening and closing of the skylight.

6. A modular aluminum alloy skylight of claim 1, 2 or 3, further characterized by: and a top waterproof cover is arranged on the top of the slope above the skylight unit.