CN214006186U - Hidden frame energy-saving noise-reducing thick-layer hollow glass window - Google Patents

Abstract

The utility model discloses a hidden frame energy-conserving thick-layer cavity glass window of making an uproar that falls, including fossil fragments and rotary rod, the front end outside of fossil fragments is provided with sealed glue, and sealed outer end of gluing is provided with the bolt, the front end middle part of fossil fragments is provided with the spring, and the outer end of spring is provided with the spring fixer, the front end of spring is provided with fixed briquetting, and fixed briquetting's left end is provided with the adhesive tape, the rotary rod is installed in the front end of adhesive tape, and the front end of adhesive tape is provided with the foam glue, the front end of rotary rod is provided with first vacuum glass, and first vacuum glass's front end is provided with the structure and glues, the middle-end that the structure was glued is provided with the silicone structure and glues. The hidden frame energy-saving noise-reducing thick-layer hollow glass window is provided with the spring, the spring and the fixed pressing block are distributed in a parallel mode, the spring can push the fixed pressing block to the front end, and the spring applies pressure to the first vacuum glass through the fixed pressing block by using the foam adhesive and the structural adhesive so as to guarantee that the first vacuum glass is stable and tight.

Description

Hidden frame energy-saving noise-reducing thick-layer hollow glass window

Technical Field

The utility model relates to a glass window technical field specifically is a hidden frame energy-conserving thick layer cavity glass window of making an uproar that falls.

Background

The glass curtain wall is a building external protective structure or a decorative structure which is composed of a supporting structure system and glass, has certain displacement capacity relative to a main body structure and does not bear the action of the main body structure, the glass curtain wall comprises an exposed frame glass curtain wall and a hidden frame glass curtain wall, wherein a metal frame of the glass curtain wall is hidden on the back of the glass, and the metal frame cannot be seen outdoors. The hidden frame glass curtain wall has the structural characteristics that: the glass is arranged on the outer side of the aluminum frame, the glass is bonded with the aluminum frame through the silicone structure sealant, and the load of the curtain wall is mainly born by the sealant.

Glass windows in the market do not have the noise reduction effect in use, and ordinary office buildings are arranged beside highways, can not obtain a quiet working environment during working, can be very scorched, and have the defects of high indoor temperature and the like during sunshine high-light, so that the hidden-frame energy-saving noise-reduction thick-layer hollow glass window is provided.

Disclosure of Invention

An object of the utility model is to provide a hidden frame energy-conserving thick layer cavity glass window of making an uproar that falls to the effect of making an uproar does not possess of proposing in solving above-mentioned background art, and general office building sets up on the highway next door in addition, can't obtain quiet operational environment when handling official business, can be very impatient, and the problem of the higher class shortcoming of indoor temperature when sunshine shines aloft.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a hidden frame energy-conserving thick-layer cavity glass window of making an uproar that falls, includes fossil fragments and rotary rod, the front end outside of fossil fragments is provided with sealed glue, and sealed outer end of gluing is provided with the bolt, the front end middle part of fossil fragments is provided with the spring, and the outer end of spring is provided with the spring fixer, the front end of spring is provided with fixed briquetting, and fixed briquetting's left end is provided with the adhesive tape, the rotary rod is installed in the front end of adhesive tape, and the front end of adhesive tape is provided with the foamed glue, the front end of rotary rod is provided with first vacuum glass, and just first vacuum glass's front end is provided with the structure and glues, the middle-end that the structure was glued is provided with the silicone structure and glues, and the front end that the silicone structure glued is provided with second vacuum glass, second vacuum glass's middle-end upside is provided with interior hexagonal screw, and the front end of interior hexagonal screw is provided with the false keel.

Preferably, the spring and the fixed pressing block are distributed in parallel, and the spring and the fixed pressing block are elastically connected.

Preferably, the first vacuum glass and the second vacuum glass are distributed in parallel, and the first vacuum glass and the second vacuum glass form a detachable structure through hexagon socket head cap screws.

Preferably, the first vacuum glass and the keel are distributed vertically, and the first vacuum glass and the keel form a rotating structure through a rotating rod.

Preferably, the outer wall of the upper end of the keel is mutually attached to the inner wall of the sealant, and the keel and the sealant form a detachable structure through bolts.

Preferably, the foam adhesive and the structural adhesive are symmetrically distributed along a vertical central axis of the silicone structural adhesive, and the silicone structural adhesive is circular.

Compared with the prior art, the beneficial effects of the utility model are that: the hidden frame energy-saving noise-reducing thick-layer hollow glass window is provided with the spring, the spring and the fixed pressing block are distributed in a parallel mode, the spring can push the fixed pressing block to the front end, and the spring applies pressure to the first vacuum glass through the fixed pressing block by using the foam adhesive and the structural adhesive so as to guarantee that the first vacuum glass is stable and tight.

First vacuum glass is the parallel form with second vacuum glass and distributes, and first vacuum glass is vacuum environment with second vacuum glass's middle-end, because the vacuum gives sound insulation effectually, still has good sunshine effect of shielding, installs first vacuum glass earlier when the installation, then at first vacuum glass front end installation second vacuum glass, pour into two glass middle parts with the silicone structural adhesive into after that, then use the structural adhesive to fix a position fixedly, so not only stable in structure, difficult damage in addition or have the gap.

First vacuum glass is vertical form with fossil fragments and distributes, and fossil fragments front end mid-mounting has the rotary rod, and first vacuum glass shell is connected to the both sides of rotary rod, and first vacuum glass can rotate through the rotary rod, can help indoor sparse air after first vacuum glass opens, keeps circulation of air to make indoor air more clear.

Drawings

Fig. 1 is a schematic top view of the present invention;

FIG. 2 is a schematic structural view of the first vacuum glass of the present invention in a state of being connected to the keel;

fig. 3 is a schematic view of the overall structure of the present invention.

In the figure: 1. a keel; 2. a spring retainer; 3. fixing a pressing block; 4. a spring; 5. sealing glue; 6. rotating the rod; 7. a bolt; 8. an adhesive tape; 9. foam rubber; 10. a first vacuum glass; 11. structural adhesive; 12. a silicone structural adhesive; 13. a second vacuum glass; 14. a hexagon socket head cap screw; 15. the false keel.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: a hidden frame energy-saving noise-reducing thick-layer hollow glass window comprises a keel 1, a spring fixer 2, a fixed pressing block 3, a spring 4, a sealant 5, a rotary rod 6, a bolt 7, a rubber strip 8, a foam rubber 9, a first vacuum glass 10, a structural rubber 11, a silicone structural rubber 12, a second vacuum glass 13, an inner hexagonal screw 14 and a false keel 15, wherein the sealant 5 is arranged outside the front end of the keel 1, the bolt 7 is arranged at the outer end of the sealant 5, the spring 4 is arranged in the middle of the front end of the keel 1, the spring fixer 2 is arranged at the outer end of the spring 4, the fixed pressing block 3 is arranged at the front end of the spring 4, the rubber strip 8 is arranged at the left end of the fixed pressing block 3, the rotary rod 6 is installed at the front end of the rubber strip 8, the foam rubber 9 is arranged at the front end of the rubber strip 8, the first vacuum glass 10 is arranged at the front end of the rotary rod 6, and the structural rubber 11 is arranged at the front end of the first vacuum glass 10, the middle end of the structural adhesive 11 is provided with a silicone structural adhesive 12, the front end of the silicone structural adhesive 12 is provided with second vacuum glass 13, the upper side of the middle end of the second vacuum glass 13 is provided with an inner hexagonal screw 14, and the front end of the inner hexagonal screw 14 is provided with a false keel 15.

In the utility model, the spring 4 and the fixed pressing block 3 are distributed in parallel, the spring 4 and the fixed pressing block 3 are elastically connected, the spring 4 is arranged at the middle end of the keel 1, the spring 4 can push the fixed pressing block 3 to the front end, and the spring 4 applies pressure to the first vacuum glass 10 through the fixed pressing block 3 by the foam rubber 9 and the structural rubber 11 so as to ensure that the first vacuum glass 10 is stable and compact;

first vacuum glass 10 and second vacuum glass 13 are the parallel form and distribute, and first vacuum glass 10 and second vacuum glass 13 constitute detachable construction through hexagon socket head cap screw 14, the middle-end of first vacuum glass 10 and second vacuum glass 13 is vacuum environment, because the vacuum sound insulation is effectual, still have good sunshine effect of shielding, the time of installation is installed first vacuum glass 10 earlier, then at first vacuum glass 10 front end installation second vacuum glass 13, 12 pours into two glass middles into with the silicone structure glue, then use structure glue 11 to fix a position fixedly, so not only stable in structure, and difficult damaged.

The first vacuum glass 10 and the keel 1 are vertically distributed, the first vacuum glass 10 and the keel 1 form a rotating structure through a rotating rod 6, the rotating rod 6 is installed in the middle of the front end of the keel 1, two sides of the rotating rod 6 are connected with a shell of the first vacuum glass 10, the first vacuum glass 10 can rotate through the rotating rod 6, after the first vacuum glass 10 is opened, indoor air evacuation can be facilitated, and air circulation is kept to enable indoor air to be clearer;

the outer wall of the upper end of the keel 1 is mutually attached to the inner wall of the sealant 5, the keel 1 and the sealant 5 form a detachable structure through the bolt 7, the bolt 7 is used for fastening and maintaining the structure at the middle end of the keel 1, the sealant 5 is used for sealing the joint of the keel 1 at the side edge of the keel 1, and after the keel 1 is sealed by the sealant 5, the keel 1 and the sealant 5 are fixed through the bolt 7, so that the compression resistance degree of the keel 1 can be improved, and the corrosion in the keel 1 is avoided;

the foam adhesive 9 and the structural adhesive 11 are symmetrically distributed along the vertical central axis of the silicone structural adhesive 12, the silicone structural adhesive 12 is arranged to be circular, the joints of the foam adhesive 9 and the first vacuum glass 10, the second vacuum glass 13 and the keel 1 are used, so that the toughness of the interior can be improved, and the second vacuum glass 13 can have a certain buffering effect when being impacted, so that the keel 1 is protected from being damaged.

The working principle is as follows: for the hidden frame energy-saving noise-reducing thick-layer hollow glass window, firstly, a keel 1 is installed, then, a first vacuum glass 10 is installed, at the moment, after the installation of the first vacuum glass 10 is finished, then, structural adhesive 11 is injected into the left end of the first vacuum glass 10, after the structural adhesive 11 is solidified, a spring fixer 2 is opened to push a spring 4 forwards, then, the spring 4 pushes a front end fixing pressing block 3, then, the fixing pressing block 3 pushes the front end structural adhesive 11 to achieve the fixing effect, at the moment, second vacuum glass 13 is installed, at the moment, inner hexagonal screws 14 are used for connecting the outer sides of the middle ends of the first vacuum glass 10 and the second vacuum glass 13, after the first vacuum glass 10 and the second vacuum glass 13 are connected through the inner hexagonal screws 14, structural adhesive 11 is used for connecting the connecting positions of the first vacuum glass 10 and the second vacuum glass 13 and the keel 1, then, silicone structural adhesive 12 is used for connecting the middle ends of the vacuum glass, can strengthen vacuum glass intensity like this, then be provided with adhesive tape 8 in the first vacuum glass 10 outside, because first vacuum glass 10 is different in the seasonal volume change of difference, adhesive tape 8 can provide sufficient change space, use bolt 7 to fix fossil fragments 1 with sealed glue 5 at last, thereby sealed glue 5 mainly blocks fossil fragments 1 inside air and can not take place the oxidation and increase the service life, thereby accomplish the use of whole hidden frame energy-conservation thick layer cavity glass window of making an uproar that falls like this.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a hidden frame energy-conserving thick layer cavity glass window of making an uproar that falls, includes fossil fragments (1) and rotary rod (6), its characterized in that: the front end of the keel (1) is externally provided with a sealing glue (5), the outer end of the sealing glue (5) is provided with a bolt (7), the middle part of the front end of the keel (1) is provided with a spring (4), the outer end of the spring (4) is provided with a spring fixer (2), the front end of the spring (4) is provided with a fixed pressing block (3), the left end of the fixed pressing block (3) is provided with an adhesive tape (8), the rotary rod (6) is installed at the front end of the adhesive tape (8), the front end of the adhesive tape (8) is provided with foam adhesive (9), the front end of the rotary rod (6) is provided with first vacuum glass (10), the front end of the first vacuum glass (10) is provided with structural adhesive (11), the middle end of the structural adhesive (11) is provided with silicone structural adhesive (12), and the front end of the silicone structural adhesive (12) is provided with second vacuum glass (13), an inner hexagonal screw (14) is arranged on the upper side of the middle end of the second vacuum glass (13), and a false keel (15) is arranged at the front end of the inner hexagonal screw (14).

2. The hidden-frame energy-saving noise-reducing thick-layer hollow glass window as claimed in claim 1, wherein: the spring (4) and the fixed pressing block (3) are distributed in parallel, and the spring (4) and the fixed pressing block (3) are elastically connected.

3. The hidden-frame energy-saving noise-reducing thick-layer hollow glass window as claimed in claim 1, wherein: the first vacuum glass (10) and the second vacuum glass (13) are distributed in a parallel shape, and the first vacuum glass (10) and the second vacuum glass (13) form a detachable structure through a hexagon socket head cap screw (14).

4. The hidden-frame energy-saving noise-reducing thick-layer hollow glass window as claimed in claim 1, wherein: the first vacuum glass (10) and the keel (1) are vertically distributed, and the first vacuum glass (10) and the keel (1) form a rotating structure through a rotating rod (6).

5. The hidden-frame energy-saving noise-reducing thick-layer hollow glass window as claimed in claim 1, wherein: fossil fragments (1) upper end outer wall laminates with sealed inner wall in (5) each other, and fossil fragments (1) pass through bolt (7) with sealed glue (5) and constitute detachable construction.

6. The hidden-frame energy-saving noise-reducing thick-layer hollow glass window as claimed in claim 1, wherein: the foam adhesive (9) and the structural adhesive (11) are symmetrically distributed along a vertical central axis of the silicone structural adhesive (12), and the silicone structural adhesive (12) is circular.

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