CN219586994U - Deformation-resistant fireproof glass partition wall - Google Patents

Abstract

The utility model provides a deformation-resistant fireproof glass partition wall, which comprises a steel frame, nano silicon composite fireproof glass, fireproof sealing auxiliary materials and a decorative buckle cover, wherein the steel frame is arranged on the fireproof glass partition wall; the frame is arranged between the two nano silicon composite fireproof glass, the frame comprises a main keel and a clamping mechanism, the main keel is connected with the clamping mechanism through bolts, and the nano silicon composite fireproof glass is arranged between the main keel and the clamping mechanism; the main joist comprises two symmetrically arranged trapezoid steel structures, sliding grooves matched with bolts are formed in the main joist, first grooves are formed in two sides of the bottom of the main joist, and first fireproof expansion sealing strips corresponding to the first grooves are arranged on the upper surface of the nano-silicon composite fireproof glass; the main joist outside is equipped with first buckle closure, and the space of first buckle closure and main joist is filled fire-proof mud. The main keel structure of the utility model is stable, the gaps between the frame and the buckle cover are filled with fire-proof mud, and the fire-proof mud is matched with nano silicon composite fire-proof glass to play a role in deformation resistance, fire prevention and heat insulation.

Description

Deformation-resistant fireproof glass partition wall

Technical Field

The utility model belongs to the field of building facilities, and particularly relates to a deformation-resistant fireproof glass partition wall.

Background

Building fire prevention is an important component of building design, and non-bearing partition walls formed by fire-proof glass are widely used in more and more buildings, so that a complete fire-proof partition system is formed, and the requirements of architects on building decoration effects are met.

The existing fireproof glass non-bearing partition wall can have A/C fireproof effect according to different fireproof glass used. However, the partition wall system using the nano silicon composite fireproof glass is extremely easy to deform under the condition of a long-time fire scene and even threatens the fireproof safety of the system. Because the nano silicon composite fireproof glass has different thickness according to different fireproof and heat insulation time requirements, the weight can reach 60-160 KG/square meter. The steel section bar used by the common system can lose 80% of bearing capacity at 700 ℃, deformation is easy to occur under the large self weight of the nano silicon composite fireproof glass, and once the frame system is deformed, the gravity center of the nano silicon glass is deviated, so that the whole fireproof system can collapse.

Disclosure of Invention

In view of the above, the utility model aims to provide a deformation-resistant fireproof glass partition wall, which solves the problem that the traditional nano-silicon composite fireproof glass partition wall frame is easy to deform to lose fireproof performance.

In order to achieve the above purpose, the technical scheme of the utility model is realized as follows:

a deformation-resistant fireproof glass partition wall comprises a steel frame, nano silicon composite fireproof glass, fireproof sealing auxiliary materials and a decorative buckle cover; the frame is arranged between the two nano silicon composite fireproof glass, the frame comprises a main keel and a clamping mechanism, the main keel is connected with the clamping mechanism through bolts, and the nano silicon composite fireproof glass is arranged between the main keel and the clamping mechanism; the main joist comprises two symmetrically arranged trapezoid steel structures, and the two trapezoid steel structures are symmetrically arranged by taking the upper bottom edge of the trapezoid steel structure as an axis, so that the structure of the main joist is more stable and is not easy to deform; a chute matched with the bolt is arranged in the main keel, first grooves are formed in two sides of the bottom of the main keel, and a first fireproof expansion sealing strip corresponding to the first grooves is arranged on the upper surface of the nano silicon composite fireproof glass; the main joist outside is equipped with first buckle closure, and the gap packing fire prevention mud of first buckle closure and main joist, fire prevention mud light in weight just is heated the postcuring, plays fixed stay, the effect of preventing deformation to whole section bar under the scene of a fire condition on the one hand, on the other hand can slow down heat conduction, plays the separation effect to the high temperature.

Further, the clamping mechanism comprises a pressing plate and a second buckle cover, through holes corresponding to the bolts are formed in the pressing plate, second grooves are formed in two sides of the pressing plate, and a second fireproof expansion sealing strip corresponding to the second grooves is arranged on the lower surface of the nano silicon composite fireproof glass; the second fireproof expansion sealing strip is arranged between the nano-silicon composite fireproof glass and the pressing plate, the fireproof expansion sealing strip can seal the space between the frame and the glass, when a fire disaster occurs, the fireproof expansion sealing strip rapidly expands, gaps around the complete filling are formed, a good heat insulation layer is formed, the fireproof expansion sealing strip is arranged inside the first groove and the second groove, and the sealing is more thorough.

Further, the gap between the second buckle cover and the pressing plate is filled with fire-proof mud.

Further, the first buckle closure and the second buckle closure are provided with reinforcing angle steel, the reinforcing angle steel is provided with through holes, and the reinforcing angle steel is fixedly connected with the first buckle closure and the second buckle closure through screws.

Further, the nano silicon composite fireproof glass comprises a plurality of float glass layers, the plurality of float glass layers are connected through a nano silicon fireproof material interlayer, when a fire disaster occurs, the nano silicon fireproof material foams and expands to form a fireproof glue plate with a porous structure, and the flame is effectively blocked, so that the nano silicon composite fireproof glass has the functions of fireproof and heat insulation.

Compared with the prior art, the deformation-resistant fireproof glass partition wall has the following advantages:

the main keel is composed of two symmetrically arranged trapezoid steel structures, so that the structure is more stable, the gaps of the main keel and the first buckle cover, the gaps of the pressing plate and the second buckle cover are filled with fire-proof mud, the fire-proof mud is light in weight and is solidified after being heated, on one hand, the whole profile is fixedly supported and prevented from deforming under the condition of a fire scene, and on the other hand, the heat conduction can be slowed down, and the high-temperature blocking effect is achieved; a fireproof expansion sealing strip is arranged between the main keel, the pressing plate and the nano silicon composite fireproof glass, and expands when meeting fire, so that gaps around the fireproof expansion sealing strip are completely filled, a good heat insulation layer is formed, and the fireproof and smoke-proof effects are achieved; the nano silicon composite fireproof glass can meet the requirements of fire resistance, heat insulation and fire resistance integrity.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model. In the drawings:

FIG. 1 is a cross-sectional view of a deformation-resistant fire-resistant glass partition in accordance with an embodiment of the present utility model;

fig. 2 is a schematic view of a deformation-resistant fireproof glass partition reinforcing angle steel according to an embodiment of the utility model.

Reference numerals illustrate:

1. a first fire-resistant intumescent seal; 2. a main keel; 3. a bolt; 4. a chute; 5. a first buckle cover; 6. fire-resistant mud; 7. a pressing plate; 8. a second buckle cover; 9. a first groove; 10. a second groove; 11. an interlayer of nano silicon fireproof material; 12. a second fire-resistant intumescent seal; 13. reinforcing angle steel; 14. a float glass layer.

Detailed Description

It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be combined with each other.

The utility model will be described in detail below with reference to the drawings in connection with embodiments.

As shown in fig. 1 to 2, a deformation-resistant fireproof glass partition wall comprises a steel frame, nano silicon composite fireproof glass, fireproof sealing auxiliary materials and a decorative buckle cover; the frame is arranged between two nano silicon composite fireproof glass, the frame comprises a main keel 2 and a clamping mechanism, the main keel 2 is connected with the clamping mechanism through a bolt 3, and the nano silicon composite fireproof glass is arranged between the main keel 2 and the clamping mechanism; the main keel 2 comprises two symmetrically arranged trapezoid steel structures, and the two trapezoid steel structures are symmetrically arranged by taking the upper bottom edge of the trapezoid steel structures as an axis, so that the structure of the main keel 2 is more stable and is not easy to deform; a chute 4 matched with the bolt 3 is arranged in the main keel 2, first grooves 9 are formed in two sides of the bottom of the main keel 2, and a first fireproof expansion sealing strip 1 corresponding to the first grooves 9 is arranged on the upper surface of the nano silicon composite fireproof glass; the main joist 2 outside is equipped with first buckle closure 5, and the gap of first buckle closure 5 and main joist 2 is filled fire-proof mud 6, and fire-proof mud 6 light in weight just is heated the postcuring, plays fixed stay, the effect of preventing deformation to whole section bar under the scene of a fire condition on the one hand, on the other hand can slow down heat conduction, plays the separation effect to the high temperature.

The clamping mechanism comprises a pressing plate 7 and a second buckle cover 8, a through hole corresponding to the bolt 3 is arranged on the pressing plate 7, second grooves 10 are arranged on two sides of the pressing plate 7, and a second fireproof expansion sealing strip 12 corresponding to the second grooves 10 is arranged on the lower surface of the nano-silicon composite fireproof glass; the second fireproof expansion sealing strip 12 is arranged between the nano-silicon composite fireproof glass and the pressing plate 7, the fireproof expansion sealing strip can seal the frame and the glass, when a fire disaster occurs, the fireproof expansion sealing strip rapidly expands to completely fill gaps around to form a good heat insulation layer, and the fireproof expansion sealing strip is arranged inside the first groove 9 and the second groove 10 to enable the sealing to be more thorough.

The gap between the second buckle cover 8 and the pressing plate 7 is filled with fire-proof mud 6.

The first buckle closure 5 and the second buckle closure 8 are provided with reinforcing angle steel 13, the reinforcing angle steel 13 is provided with through holes, and the reinforcing angle steel 13 is fixedly connected with the first buckle closure 5 and the second buckle closure 8 through screws.

The nano silicon composite fireproof glass comprises a plurality of float glass layers 14, the plurality of float glass layers 14 are connected through the nano silicon fireproof material interlayer 11, when a fire disaster occurs, the nano silicon fireproof material interlayer 11 is foamed and expanded to form a fireproof glue plate with a porous structure, and the flame is effectively blocked, so that the nano silicon composite fireproof glass has the functions of fireproof and heat insulation.

In the concrete implementation, the main joist 2 adopts a symmetrically arranged trapezoid steel structure, so that the frame structure is more stable and is not easy to deform; when in installation, the nano silicon composite fireproof glass is placed between the main keel 2 and the pressing plate 7, and the nano silicon composite fireproof glass is clamped by the bolts 3; when a fire occurs, the first fireproof expansion sealing strip 1 and the second fireproof expansion sealing strip 12 expand rapidly, gaps around the fire expansion sealing strip are completely filled, a good heat insulation layer is formed, the fire and smoke are effectively prevented, the fire clay 6 filled in the frame is light in weight and is cured after being heated, on one hand, the whole section bar is fixedly supported and prevented from deforming under the condition of a fire scene, on the other hand, heat conduction can be slowed down, and the high-temperature blocking effect is achieved; the nano silicon composite fireproof glass adopts the float glass layer 14 and the nano silicon fireproof material interlayer 11 to be alternately arranged, the nano silicon fireproof material interlayer 11 foams and expands when meeting fire, and a fireproof rubber plate with a porous structure is formed, so that the flame is effectively blocked, and the nano silicon composite fireproof glass plays a role in fireproof and heat insulation. The A-class nano silicon composite fireproof glass can meet the requirements of fire-resistant integrity and fire-resistant heat insulation for 60-180 minutes. The fireproof system can ensure that the fire-resistant integrity and fire-resistant heat insulation can be realized within 60-180 minutes, smoke and fire are effectively prevented and heat are effectively prevented, the maximum deformation of the back fire surface section bar within 180 minutes is not more than 4% of the section bar surface width, and the fire penetration caused by the deformation and the breakage of the extruded glass of the integral frame or the integral collapse caused by the loss of the supporting property of the nano silicon fireproof glass due to the long-time high-temperature softening of the section bar is avoided.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (5)

1. The utility model provides a deformation-resistant fire prevention glass partition wall which characterized in that: comprises a steel frame, nano silicon composite fireproof glass, fireproof sealing auxiliary materials and a decorative buckle cover; the frame is arranged between two nano silicon composite fireproof glass, the frame comprises a main keel (2) and a clamping mechanism, the main keel (2) is connected with the clamping mechanism through a bolt (3), and the nano silicon composite fireproof glass is arranged between the main keel (2) and the clamping mechanism; the main keel (2) comprises two symmetrically arranged trapezoid steel structures, sliding grooves (4) matched with the bolts (3) are formed in the main keel (2), first grooves (9) are formed in two sides of the bottom of the main keel (2), and first fireproof expansion sealing strips (1) corresponding to the first grooves (9) are arranged on the upper surface of the nano-silicon composite fireproof glass; the outside of main joist (2) is equipped with first buckle closure (5), and gap packing fire-proof mud (6) of first buckle closure (5) and main joist (2).

2. A deformation resistant fire resistant glass partition as recited in claim 1 wherein: the clamping mechanism comprises a pressing plate (7) and a second buckle cover (8), a through hole corresponding to the bolt (3) is formed in the pressing plate (7), second grooves (10) are formed in two sides of the pressing plate (7), and a second fireproof expansion sealing strip (12) corresponding to the second grooves (10) is arranged on the lower surface of the nano-silicon composite fireproof glass; the second fireproof expansion sealing strip (12) is arranged between the nano-silicon composite fireproof glass and the pressing plate (7).

3. A deformation resistant fire resistant glass partition as claimed in claim 2, wherein: and gaps between the second buckle cover (8) and the pressing plate (7) are filled with fire-proof mud (6).

4. A deformation resistant fire resistant glass partition as recited in claim 1 wherein: the first buckle closure (5) and the second buckle closure (8) are provided with reinforcing angle steel (13), the reinforcing angle steel (13) is provided with through holes, and the reinforcing angle steel (13) is fixedly connected with the first buckle closure (5) and the second buckle closure (8) through screws.

5. A deformation resistant fire resistant glass partition as recited in claim 1 wherein: the nano silicon composite fireproof glass comprises a plurality of float glass layers (14), and the float glass layers (14) are connected through a nano silicon fireproof material interlayer (11).