CN216472925U - Heat-insulation type composite fireproof glass - Google Patents

Abstract

The utility model discloses a heat-insulation type composite fireproof glass, relates to the technical field of composite fireproof glass, and aims to solve the problems that the common composite fireproof glass in the prior art is large in overall structure volume and easy to break due to thermal expansion at high temperature. One side of first outside triangle fire prevention insulating glass is provided with first inboard triangle fire prevention insulating glass, one side of second outside triangle fire prevention insulating glass is provided with the inboard triangle fire prevention insulating glass of second, be provided with third outside triangle fire prevention insulating glass on first outside triangle fire prevention insulating glass's the rear end face, be provided with fourth outside triangle fire prevention insulating glass, two on the rear end face of second outside triangle fire prevention insulating glass's the rear end face first outside triangle fire prevention insulating glass, second outside triangle fire prevention insulating glass, first inboard triangle fire prevention insulating glass and the inboard triangle fire prevention insulating glass of second constitute a whole fire prevention glass, and is three whole fire prevention glass constitutes a compound fire prevention glass.

Description

Heat-insulation type composite fireproof glass

Technical Field

The utility model relates to the technical field of composite fireproof glass, in particular to heat-insulation type composite fireproof glass.

Background

The composite fireproof glass is glass formed by bonding two or more pieces of common plate glass by using a transparent fireproof adhesive or sprayed with composite fireproof glass liquid.

At present, the composite fireproof glass on the market is formed by bonding two or more integral sheets, the glass expands when being heated, the expanded volume of the glass is larger due to overhigh temperature, and the glass with overlarge volume is extremely easy to extrude and break at corners, so that the whole glass is broken, and the fireproof effect is influenced; therefore, the market urgently needs to develop a heat-insulating composite fireproof glass to help people to solve the existing problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a heat-insulating composite fireproof glass, which solves the problems that the common composite fireproof glass in the background art has large integral structure volume and is easy to break when being expanded under high temperature.

In order to achieve the purpose, the utility model provides the following technical scheme: the heat-insulation type composite fireproof glass comprises first outer side triangular fireproof heat-insulation glass and second outer side triangular fireproof heat-insulation glass, wherein one side of the first outer side triangular fireproof heat-insulation glass is provided with first inner side triangular fireproof heat-insulation glass, one side of the second outer side triangular fireproof heat-insulation glass is provided with second inner side triangular fireproof heat-insulation glass, third outer side triangular fireproof heat-insulation glass is arranged on the rear end face of the first outer side triangular fireproof heat-insulation glass, fifth outer side triangular fireproof heat-insulation glass is arranged on the rear end face of the third outer side triangular fireproof heat-insulation glass, fourth outer side triangular fireproof heat-insulation glass is arranged on the rear end face of the second outer side triangular fireproof heat-insulation glass, and sixth outer side triangular fireproof heat-insulation glass, two first outer side triangular fireproof heat-insulation glass, second outer side triangular fireproof heat-insulation glass, and third outer side triangular fireproof heat-insulation glass, The second outer side triangular fireproof heat-insulation glass, the first inner side triangular fireproof heat-insulation glass and the second inner side triangular fireproof heat-insulation glass form a whole fireproof glass, and the whole fireproof glass forms a composite fireproof glass.

Preferably, be provided with first embedded fixed frame between first outside triangle fire prevention insulating glass and the third outside triangle fire prevention insulating glass, be provided with first aerogel adhesive tape between first embedded fixed frame and the first outside triangle fire prevention insulating glass, first embedded fixed frame and first outside triangle fire prevention insulating glass all with the adhesion of first aerogel strip.

Preferably, be provided with the second aerogel adhesive tape between first embedded fixed frame and the third outside triangle fireproof heat-insulating glass, first embedded fixed frame and third outside triangle fireproof heat-insulating glass all with the adhesion of second aerogel adhesive tape, be provided with the embedded fixed frame of second between third outside triangle fireproof heat-insulating glass and the fifth outside triangle fireproof heat-insulating glass.

Preferably, a third aerogel rubber strip is arranged between the embedded fixed frame of the second and the fireproof heat-insulating glass of the fifth outer side triangle, the embedded fixed frame of the second and the fireproof heat-insulating glass of the fifth outer side triangle are adhered to the third aerogel rubber strip, and a fourth aerogel rubber strip is arranged between the embedded fixed frame of the second and the fireproof heat-insulating glass of the third outer side triangle.

Preferably, the embedded fixed frame of second and the adhesion of third outside triangle fire prevention insulating glass all with fourth aerogel strip, the outside of the fixed frame of first embedded is provided with first head and the second head of taking out gas respectively, and first head and the second head of taking out gas all set up structure as an organic whole with the fixed frame of first embedded.

Preferably, the outside of the embedded fixed frame of second is provided with third head and fourth head of bleeding respectively, and third head of bleeding and fourth head of bleeding all set up structure as an organic whole with the embedded fixed frame of second, be provided with the perforation on first inboard triangle fire prevention insulating glass's the hypotenuse, and the perforation sets up structure as an organic whole with first inboard triangle fire prevention insulating glass.

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

1. the utility model is formed by splicing a plurality of pieces of glass which are traditionally integrated into a whole piece of glass through fireproof glue by utilizing the principle of triangle stability, and simultaneously, the glass of the triangles are all right-angled triangles, and the three sides of the glass are thickened, thereby expanding the triangular glass even after being heated, volume grow, triangle-shaped glass is extrusion adhesive tape earlier, has certain inflation space, then three limit has carried out the thickening, extrudees also difficult broken deformation, passes through the stable principle of triangle at last for triangle-shaped glass itself is just difficult to the breakage, thereby avoids fire prevention glass to appear broken condition after the thermal expansion, improves this compound fire prevention glass's result of use and fire behavior.

2. The utility model discloses a through the first head of taking out air, the second head of taking out air, the setting of third head of taking out air and fourth head of taking out air, first head of taking out air, the second head of taking out air, third head of taking out air and fourth head of taking out air, can take out the air between the three-layer glass through these four heads of taking out air, be the state of inside formation sub-vacuum, hot-conducting inefficiency under the vacuum state, thereby realize the thermal-insulated effect of high performance, improve this compound fire prevention glass's thermal-insulated effect.

Drawings

FIG. 1 is a front view of a thermal insulating composite fire resistant glass of the present invention;

FIG. 2 is a side view of a thermal insulating composite fire resistant glass of the present invention;

FIG. 3 is a schematic view of the first inner triangular fireproof heat-insulating glass of the present invention.

In the figure: 1. the first outer triangular fireproof heat-insulating glass; 2. the second outer side triangular fireproof heat-insulating glass; 3. the first inner triangular fireproof heat-insulating glass; 4. the second inner triangular fireproof heat-insulating glass; 5. a first embedded fixing frame; 6. third outer triangular fireproof heat-insulating glass; 7. the fourth outer triangular fireproof heat-insulating glass; 8. the fifth outer side triangular fireproof heat-insulating glass; 9. the sixth outer side triangular fireproof heat-insulating glass; 10. a first aerogel strip; 11. a second aerogel strip; 12. a third aerogel strip; 13. a fourth aerogel strip; 14. a first gas extraction head; 15. a second gas extraction head; 16. a third gas extraction head; 17. a fourth gas extraction head; 18. perforating; 19. a second embedded fixing frame.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-3, an embodiment of the present invention is shown: a heat insulation type composite fireproof glass comprises a first outer triangular fireproof heat insulation glass 1 and a second outer triangular fireproof heat insulation glass 2, a first inner triangular fireproof heat insulation glass 3 is arranged on one side of the first outer triangular fireproof heat insulation glass 1, a second inner triangular fireproof heat insulation glass 4 is arranged on one side of the second outer triangular fireproof heat insulation glass 2, a third outer triangular fireproof heat insulation glass 6 is arranged on the rear end face of the first outer triangular fireproof heat insulation glass 1, a fifth outer triangular fireproof heat insulation glass 8 is arranged on the rear end face of the third outer triangular fireproof heat insulation glass 6, a fourth outer triangular fireproof heat insulation glass 7 is arranged on the rear end face of the second outer triangular fireproof heat insulation glass 2, a sixth outer triangular fireproof heat insulation glass 9 is arranged on the rear end face of the fourth outer triangular fireproof heat insulation glass 7, and two first outer triangular fireproof heat insulation glasses 1, The second outer side triangular fireproof heat-insulating glass 2, the first inner side triangular fireproof heat-insulating glass 3 and the second inner side triangular fireproof heat-insulating glass 4 form integral fireproof glass, and the three integral fireproof glasses form composite fireproof glass.

Further, be provided with first embedded fixed frame 5 between first outside triangle fire prevention insulating glass 1 and the third outside triangle fire prevention insulating glass 6, be provided with first aerogel adhesive tape 10 between first embedded fixed frame 5 and the first outside triangle fire prevention insulating glass 1, first embedded fixed frame 5 and first outside triangle fire prevention insulating glass 1 all with the adhesion of first aerogel adhesive tape 10, also be through the adhesion of first aerogel adhesive tape 10 between second outside triangle fire prevention insulating glass 2 and the first embedded fixed frame 5 simultaneously.

Further, a second aerogel strip 11 is arranged between the first embedded fixed frame 5 and the third outer side triangular fireproof heat-insulating glass 6, the first embedded fixed frame 5 and the third outer side triangular fireproof heat-insulating glass 6 are both adhered to the second aerogel strip 11, a second embedded fixed frame 19 is arranged between the third outer side triangular fireproof heat-insulating glass 6 and the fifth outer side triangular fireproof heat-insulating glass 8, and meanwhile, the fourth outer side triangular fireproof heat-insulating glass 7 is also adhered to the first embedded fixed frame 5 through the second aerogel strip 11.

Further, a third aerogel rubber strip 12 is arranged between the second embedded fixing frame 19 and the fifth outer-side triangular fireproof heat-insulating glass 8, the second embedded fixing frame 19 and the fifth outer-side triangular fireproof heat-insulating glass 8 are both adhered to the third aerogel rubber strip 12, a fourth aerogel rubber strip 13 is arranged between the second embedded fixing frame 19 and the third outer-side triangular fireproof heat-insulating glass 6, and the sixth outer-side triangular fireproof heat-insulating glass 9 and the second embedded fixing frame 19 are also adhered to each other through the third aerogel rubber strip 12.

Further, the second embedded fixing frame 19 and the third outer side triangular fireproof heat-insulating glass 6 are both adhered to the fourth aerogel strip 13, the outer side of the first embedded fixing frame 5 is provided with a first air-pumping head 14 and a second air-pumping head 15 respectively, the first air-pumping head 14 and the second air-pumping head 15 are both arranged to be of an integrated structure with the first embedded fixing frame 5, the second embedded fixing frame 19 and the fourth outer side triangular fireproof heat-insulating glass 7 are also adhered to each other through the third aerogel strip 12, and the first air-pumping head 14 and the second air-pumping head 15 are both provided with two parts.

Further, the outer side of the second embedded fixed frame 19 is provided with a third air exhaust head 16 and a fourth air exhaust head 17 respectively, the third air exhaust head 16 and the fourth air exhaust head 17 are both integrated with the second embedded fixed frame 19, a perforation 18 is arranged on the bevel edge of the first inner side triangular fireproof heat-insulating glass 3, the perforation 18 and the first inner side triangular fireproof heat-insulating glass 3 are integrated, the third air exhaust head 16 and the fourth air exhaust head 17 are both provided with two holes, the first inner side triangular fireproof heat-insulating glass 3 is identical to the second inner side triangular fireproof heat-insulating glass 4 in structure, the bevel edge of the first outer side triangular fireproof heat-insulating glass 1 is also provided with the perforation 18, and the perforation 18 is communicated with the perforation 18 on the bevel edge of the first inner side triangular fireproof heat-insulating glass 3.

The working principle is as follows: when in use, the complete fireproof glass consists of two first outer triangular fireproof heat-insulating glass 1, two second outer triangular fireproof heat-insulating glass 2, two first inner triangular fireproof heat-insulating glass 3 and two second inner triangular fireproof heat-insulating glass 4, the integrated composite fireproof glass is formed by bonding three complete fireproof glasses, the complete fireproof glasses are bonded through the embedded fixing frames and the aerogel strips, so that two embedded fixing frames, namely the first embedded fixing frame 5 and the second embedded fixing frame 19, are needed, four aerogel strips, namely the first aerogel strip 10, the second aerogel strip 11, the third aerogel strip 12 and the fourth aerogel strip 13 are needed, after the composite fireproof glass is spliced, air between the glasses is pumped out through the first air pumping head 14, the second air pumping head 15, the third air pumping head 16 and the fourth air pumping head 17, so that the interior of the glass forms sub-vacuum, and an integral composite fireproof glass is produced.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides a compound fire prevention glass of thermal-insulated type, includes first outside triangle fire prevention heat insulating glass (1) and second outside triangle fire prevention heat insulating glass (2), its characterized in that: one side of first outside triangle fire prevention insulating glass (1) is provided with first inboard triangle fire prevention insulating glass (3), one side of second outside triangle fire prevention insulating glass (2) is provided with second inboard triangle fire prevention insulating glass (4), be provided with third outside triangle fire prevention insulating glass (6) on the rear end face of first outside triangle fire prevention insulating glass (1), be provided with fifth outside triangle fire prevention insulating glass (8) on the rear end face of third outside triangle fire prevention insulating glass (6), be provided with fourth outside triangle fire prevention insulating glass (7) on the rear end face of second outside triangle fire prevention insulating glass (2), be provided with sixth outside triangle fire prevention insulating glass (9), two on the rear end face of fourth outside triangle fire prevention insulating glass (7) first outside triangle fire prevention insulating glass (1), The second outer side triangular fireproof heat-insulation glass (2), the first inner side triangular fireproof heat-insulation glass (3) and the second inner side triangular fireproof heat-insulation glass (4) form a whole fireproof glass, and the whole fireproof glass forms a compound fireproof glass.

2. The heat-insulating composite fireproof glass according to claim 1, wherein: be provided with first embedded fixed frame (5) between first outside triangle fire prevention heat insulating glass (1) and third outside triangle fire prevention heat insulating glass (6), be provided with first aerogel adhesive tape (10) between first embedded fixed frame (5) and first outside triangle fire prevention heat insulating glass (1), first embedded fixed frame (5) and first outside triangle fire prevention heat insulating glass (1) all with first aerogel adhesive tape (10) adhesion.

3. The heat-insulating composite fireproof glass according to claim 2, wherein: be provided with second aerogel adhesive tape (11) between first embedded fixed frame (5) and third outside triangle fire prevention insulating glass (6), first embedded fixed frame (5) and third outside triangle fire prevention insulating glass (6) all with second aerogel adhesive tape (11) adhesion, be provided with embedded fixed frame (19) of second between third outside triangle fire prevention insulating glass (6) and fifth outside triangle fire prevention insulating glass (8).

4. The heat-insulating composite fireproof glass according to claim 3, wherein: be provided with third aerogel adhesive tape (12) between embedded fixed frame of second (19) and fifth outside triangle fire prevention insulating glass (8), and embedded fixed frame of second (19) and fifth outside triangle fire prevention insulating glass (8) all with third aerogel adhesive tape (12) adhesion, be provided with fourth aerogel adhesive tape (13) between embedded fixed frame of second (19) and third outside triangle fire prevention insulating glass (6).

5. The heat-insulating composite fireproof glass according to claim 4, wherein: the embedded fixed frame of second (19) and the fire-proof heat-insulating glass of third outside triangle (6) all with fourth aerogel adhesive tape (13) adhesion, the outside of the fixed frame of first embedded (5) is provided with first head of taking out gas (14) and second head of taking out gas (15) respectively, and just first head of taking out gas (14) and second head of taking out gas (15) all set up structure as an organic whole with the fixed frame of first embedded (5).

6. The heat-insulating composite fireproof glass according to claim 5, wherein: the outside of the embedded fixed frame of second (19) is provided with third head of taking out gas (16) and fourth head of taking out gas (17) respectively, and third head of taking out gas (16) and fourth head of taking out gas (17) all set up structure as an organic whole with the embedded fixed frame of second (19), be provided with on the hypotenuse of first inboard triangle fire prevention insulating glass (3) and perforate (18), and perforate (18) and first inboard triangle fire prevention insulating glass (3) set up structure as an organic whole.

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