CN213115077U - Novel building shock insulation rubber support is fire prevention device - Google Patents

Abstract

The utility model discloses a novel building shock insulation rubber support fire prevention device, paste the adhesive coating including last pier stud and high temperature resistant, the below of going up the pier stud is provided with the PLASTIC LAMINATED, and the below of going up the PLASTIC LAMINATED is provided with the rubber layer, the below on rubber layer is provided with the support, and the below of support is provided with down the PLASTIC LAMINATED, the below of PLASTIC LAMINATED is provided with down the pier stud, the outside of support is provided with the aluminum silicate composite sheet, and the inboard of aluminum silicate composite sheet is provided with the asbestos board. This novel building shock insulation rubber support fire prevention device is provided with the pier stud, goes up for fixed connection between pier stud and the last PLASTIC LAMINATED, goes up the PLASTIC LAMINATED and is convenient for form relative confined fire protection layer with setting up of PLASTIC LAMINATED down, and fire-proof material has fire prevention, thermal-insulated, fine performance such as anticorrosive, improves the effect of fire protection, goes up the PLASTIC LAMINATED and reserves the clearance down between the PLASTIC LAMINATED, avoids influencing vertical and horizontal motion of support under daily and earthquake action.

Description

Novel building shock insulation rubber support is fire prevention device

Technical Field

The utility model relates to a building shock insulation rubber support fire protection technical field specifically is a novel building shock insulation rubber support fire prevention device.

Background

Nowadays, with the development of seismic isolation and reduction technologies of buildings, more and more buildings use the seismic isolation technology, in order to ensure the safety of structures in earthquakes and completely realize the special requirements on use functions, the seismic isolation technology is a brand-new seismic reinforcement idea for carrying out seismic isolation transformation on the buildings, the technology reduces the seismic energy input to the upper part by additionally arranging a seismic isolation layer at the lower part of the building so as to achieve the purpose of improving the seismic capacity of the building, wherein the seismic isolation rubber support is most commonly used and widely applied to various buildings, and the seismic isolation rubber support is usually directly arranged between an upper pier column and a lower pier column in practical application and becomes the most important supporting member of the seismic isolation building.

All lack fire protection around the shock insulation rubber support of building shock insulation rubber support firebreak device in use installation on market, and shock insulation rubber support comprises rubber and vulcanized steel sheet, and rubber belongs to inflammables, meets and burns very easily under the naked light condition, if rubber support is burnt, its mechanical properties will receive very big influence, leads to the building whole to collapse even, for this, we propose a novel building shock insulation rubber support firebreak device.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a novel building shock insulation rubber support fire prevention device to solve all lack fire protection around the shock insulation rubber support of building shock insulation rubber support fire prevention device in use installation that proposes in the above-mentioned background art, and shock insulation rubber support comprises rubber and vulcanized steel sheet, and rubber belongs to inflammables, meets and burns very easily under the naked light condition, if rubber support is burnt, its mechanical properties will receive very big influence, leads to the whole problem of collapsing of building even.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a novel building shock insulation rubber support fire prevention device, pastes the glue coating including last pier stud and high temperature resistant, the below of going up the pier stud is provided with the PLASTIC LAMINATED, and the below of going up the PLASTIC LAMINATED is provided with the rubber layer, the below on rubber layer is provided with the support, and the below of support is provided with down the PLASTIC LAMINATED, the below of PLASTIC LAMINATED is provided with down the pier stud, the outside of support is provided with the aluminum silicate composite sheet, and the inboard of aluminum silicate composite sheet is provided with the asbestos board, the front end outside of support is provided with the aluminum silicate fiber blanket, and the left side of aluminum silicate fiber blanket is provided with the steel wire card subassembly, the outside of support is provided with high silica fiber cloth, and the left side of high silica fiber cloth is provided with stainless steel rope card subassembly, the bottom.

Preferably, the upper pier column and the upper fireproof plate are fixedly connected, and the upper pier column and the lower pier column are symmetrically distributed.

Preferably, the support and the aluminum silicate composite plate are fixedly connected, and the aluminum silicate composite plate is bonded with the high-temperature-resistant adhesive coating.

Preferably, the aluminum silicate composite board is tightly attached to the asbestos board, and the shape of the aluminum silicate composite board is matched with that of the asbestos board.

Preferably, the support is attached to the aluminum silicate fiber blanket, and the support and the aluminum silicate fiber blanket form a clamping structure through the steel wire clamp assembly.

Preferably, laminate mutually between support outside and the high silica fiber cloth, and the support outside constitutes the block structure through stainless steel rope card subassembly and high silica fiber cloth.

Compared with the prior art, the beneficial effects of the utility model are that: the novel fireproof device for the shock-insulation rubber support of the building is provided with an upper pier stud, the upper pier stud is fixedly connected with an upper fireproof plate, the upper fireproof plate and a lower fireproof plate are arranged to form a relatively closed fireproof protective layer conveniently, a fireproof material has excellent performances of fire prevention, heat insulation, corrosion resistance and the like, the fireproof protection effect is improved, a gap is reserved between the upper fireproof plate and the lower fireproof plate, the influence on vertical and horizontal movement of the support under daily and earthquake action is avoided, the upper pier stud and the lower pier stud are both provided with two groups, and the upper pier stud and the lower pier stud of the support are connected through steel plates, so that the stability of the support is enhanced;

the periphery and the center of the aluminum silicate composite plate are respectively provided with the high-temperature-resistant adhesive coating which is convenient for adhering the aluminum silicate composite plate, the composite fireproof material of the aluminum silicate composite plate has low thermal conductivity, so that the excellent thermal stability and chemical stability of the composite fireproof material are improved, the asbestos plate has strong tensile strength, so that the bearing pressure outside the support is improved, the asbestos plate has a strong high-temperature-resistant effect at the same time, can bear about 1400 ℃, and plays a good open fire partition, and the aluminum silicate composite plate and the asbestos plate are adhered through the high-temperature-resistant adhesive coating, so that the stability between the aluminum silicate composite plate and the asbestos plate is enhanced;

the aluminum silicate fiber blanket has better heat resistance, so that the outer side of the support has a good heat insulation effect, the arrangement of 10 sets of the steel wire clamp assemblies enhances the laminating stability between the support and the aluminum silicate fiber blanket, the chemical performance of the high silica fiber cloth is good, the heat resistance and impact resistance performance is good, the support is convenient to surround into a relatively airtight fireproof protection layer, effective protection can be integrally provided for the support, the lap joint part of the high silica fiber cloth adopts a high-temperature-resistant adhesive coating, the thickness of the coating is 0.5mm, the stability of the lap joint part is convenient to improve, 5 sets of the stainless steel wire clamp assemblies are arranged, and the tightness between the outer part of the support and the high silica fiber cloth is enhanced.

Drawings

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

FIG. 2 is a schematic view of the top view structure of the aluminum silicate composite plate of the present invention;

fig. 3 is a schematic side view of the assembly of the wire clip of the present invention.

In the figure: 1. an upper pier stud; 2. an upper fireproof plate; 3. a rubber layer; 4. a support; 5. an aluminum silicate composite panel; 6. an asbestos sheet; 7. a stainless steel rope clip assembly; 8. a wire clip assembly; 9. a lower pier stud; 10. a lower fire protection plate; 11. an aluminum silicate fiber blanket; 12. high silica fiber cloth; 13. high temperature resistant adhesive coating.

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 novel building shock insulation rubber support fireproof device comprises an upper pier stud 1, an upper fireproof plate 2, a rubber layer 3, a support 4, an aluminum silicate composite plate 5, an asbestos plate 6, a stainless steel rope clamp assembly 7, a steel wire clamp assembly 8, a lower pier stud 9, a lower fireproof plate 10, an aluminum silicate fiber blanket 11, a high silica fiber cloth 12 and a high-temperature-resistant adhesive coating 13, wherein the upper fireproof plate 2 is arranged below the upper pier stud 1, the rubber layer 3 is arranged below the upper fireproof plate 2, the support 4 is arranged below the rubber layer 3, the lower fireproof plate 10 is arranged below the support 4, the lower pier stud 9 is arranged below the lower fireproof plate 10, the aluminum silicate composite plate 5 is arranged outside the support 4, the asbestos plate 6 is arranged inside the aluminum silicate composite plate 5, the aluminum silicate fiber blanket 11 is arranged outside the front end of the support 4, and the steel wire clamp assembly 8 is arranged on the left side of the aluminum silicate fiber blanket 11, a high silica fiber cloth 12 is arranged outside the support 4, a stainless steel rope clip component 7 is arranged on the left side of the high silica fiber cloth 12, and a high-temperature-resistant adhesive coating 13 is arranged at the bottom of the aluminum silicate composite plate 5;

the upper pier stud 1 and the upper fireproof plate 2 are fixedly connected, the upper pier stud 1 and the lower pier stud 9 are symmetrically distributed, the upper fireproof plate 2 and the lower fireproof plate 10 are arranged to form a relatively closed fireproof protective layer, fireproof materials have excellent performances of fire prevention, heat insulation, corrosion resistance and the like, the fireproof protection effect is improved, a gap is reserved between the upper fireproof plate 2 and the lower fireproof plate 10, the influence on vertical and horizontal movement of the support 4 under daily and earthquake action is avoided, the upper pier stud 1 and the lower pier stud 9 are both provided with two groups, the upper part and the lower part of the support 4 are connected with the upper pier stud 1 and the lower pier stud 9 through steel plates, and the stability of the support 4 is enhanced;

the support 4 is fixedly connected with the aluminum silicate composite board 5, the aluminum silicate composite board 5 is bonded with the high-temperature resistant adhesive coating 13, and the specific gravity of the aluminum silicate composite board 5 is 140kg/m³The periphery and the center of the aluminum silicate composite board 5 are respectively provided with the high-temperature-resistant adhesive coating 13, the thickness of the high-temperature-resistant adhesive coating 13 is 0.5mm, the coating area is not less than 25% of the board, the aluminum silicate composite board 5 is convenient to adhere, and the composite fireproof material of the aluminum silicate composite board 5 has low thermal conductivity, so that the excellent thermal stability and chemical stability of the composite fireproof material are improved;

the aluminum silicate composite board 5 is tightly attached to the asbestos board 6, the aluminum silicate composite board 5 is matched with the asbestos board 6 in shape, the asbestos board 6 is adopted for breaking between the aluminum silicate composite boards 5, the thickness of the asbestos board 6 is 0.8cm, the asbestos board 6 has strong tensile strength, so that the bearing pressure outside the support 4 is improved, the asbestos board 6 has strong high-temperature resistant effect at the same time, can bear about 1400 ℃, plays a good open fire partition, and the aluminum silicate composite board 5 and the asbestos board 6 are bonded through the high-temperature resistant adhesive coating 13, so that the stability between the aluminum silicate composite boards and the asbestos board 6 is enhanced;

the support 4 is attached to the aluminum silicate fiber blanket 11, the support 4 forms a clamping structure with the aluminum silicate fiber blanket 11 through the steel wire clamping assembly 8, the outer side of the support 4 is covered by the aluminum silicate fiber blanket 11, the aluminum silicate fiber blanket 11 has good heat resistance, the outer side of the support 4 has a good heat insulation effect, and the specific gravity of the aluminum silicate fiber blanket 11 is 80kg/m³The lapping length is 100mm, and the arrangement of 10 sets of the wire clamp assemblies 8 enhances the bonding stability between the support 4 and the aluminum silicate fiber blanket 11;

laminate mutually between 4 outsides of support and high silica fiber cloth 12, and 4 outsides of support constitute the block structure through stainless steel rope clip subassembly 7 and high silica fiber cloth 12, high silica fiber cloth 12's chemical properties is good and heat-resisting shock resistance is good, be convenient for enclose into relative inclosed fire protection layer with support 4, can be for 4 whole effectual protections that provide of support, high silica fiber cloth 12 overlap joint length is 100mm, the overlap joint position adopts high temperature resistant glue coating 13 of pasting, coating thickness 0.5mm, be convenient for improve the stability at overlap joint position, stainless steel rope clip subassembly 7 is provided with 5 sets altogether, the fastening nature between 4 outsides of reinforcing support and high silica fiber cloth 12.

The working principle is as follows: to this kind of novel building shock insulation rubber support fire prevention device, at first go up the setting of PLASTIC LAMINATED 2 and lower PLASTIC LAMINATED 10 and be convenient for form the relative confined fire protection layer, fire-proof material has good performance such as fire prevention, thermal-insulated, anticorrosive, go up and reserve the clearance between PLASTIC LAMINATED 2 and the lower PLASTIC LAMINATED 10, avoid influencing vertical and horizontal motion of support 4 under daily and earthquake action, it all is provided with two sets of with lower pier stud 1 to go up pier stud 1, support 4 is connected with last pier stud 1 and lower pier stud 9 from top to bottom through the steel sheet, the proportion that aluminium silicate composite sheet 5 adopted is 140kg/m³The periphery and the center of the aluminum silicate composite board 5 are respectively provided with a high-temperature resistant adhesive coating 13, the thickness of the high-temperature resistant adhesive coating 13 is 0.5mm, the coating area is not less than 25% of the board, the aluminum silicate composite board 5 is divided by the asbestos board 6, the thickness of the asbestos board 6 is 0.8cm, the asbestos board 6 has strong tension resistance, the asbestos board 6 has strong high-temperature resistant effect and can bear about 1400 ℃ to play a good open fire partition, the aluminum silicate composite board 5 and the asbestos board 6 are bonded by the high-temperature resistant adhesive coating 13, the outer side of the support 4 is covered by an aluminum silicate fiber blanket 11, the aluminum silicate fiber blanket 11 has good heat resistance, the specific gravity of the aluminum silicate fiber blanket 11 is 80kg/m3, the lap joint length is 100mm, the arrangement of 10 sets of the steel wire clamp assemblies 8 enhances the bonding stability between the support 4 and the aluminum silicate fiber blanket 11, the high silica fiber cloth 12 is good in chemical property and heat-resistant and impact-resistant performance, the lapping length of the high silica fiber cloth 12 is 100mm, the lapping part adopts a high-temperature-resistant adhesive coating 13, the thickness of the coating is 0.5mm, 5 sets of stainless steel rope clamp assemblies 7 are arranged, the tightness between the outside of the support 4 and the high silica fiber cloth 12 is enhanced, and the heat-insulating and fire-resistant parts are all assembled on site.

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 novel building shock insulation rubber support fire prevention device, includes pier stud (1) and high temperature resistant adhesive coating (13), its characterized in that: an upper fireproof plate (2) is arranged below the upper pier stud (1), a rubber layer (3) is arranged below the upper fireproof plate (2), a support (4) is arranged below the rubber layer (3), a lower fireproof plate (10) is arranged below the support (4), a lower pier stud (9) is arranged below the lower fireproof plate (10), an aluminum silicate composite plate (5) is arranged outside the support (4), an asbestos plate (6) is arranged on the inner side of the aluminum silicate composite plate (5), an aluminum silicate fiber blanket (11) is arranged on the outer side of the front end of the support (4), a wire clip component (8) is arranged on the left side of the aluminum silicate fiber blanket (11), high silica fiber cloth (12) is arranged outside the support (4), and the left side of the high silica fiber cloth (12) is provided with a stainless steel rope clip component (7), the bottom of the aluminum silicate composite board (5) is provided with a high-temperature resistant adhesive coating (13).

2. The novel building shock insulation rubber support fireproof device according to claim 1, characterized in that: go up and be fixed connection between pier stud (1) and last PLASTIC LAMINATED (2), and go up and be symmetrical distribution between pier stud (1) and lower pier stud (9).

3. The novel building shock insulation rubber support fireproof device according to claim 1, characterized in that: the support (4) is fixedly connected with the aluminum silicate composite plate (5), and the aluminum silicate composite plate (5) is bonded with the high-temperature-resistant adhesive coating (13).

4. The novel building shock insulation rubber support fireproof device according to claim 1, characterized in that: the aluminum silicate composite board (5) is tightly attached to the asbestos board (6), and the aluminum silicate composite board (5) is matched with the asbestos board (6) in shape.

5. The novel building shock insulation rubber support fireproof device according to claim 1, characterized in that: the support (4) is attached to the aluminum silicate fiber blanket (11), and the support (4) and the aluminum silicate fiber blanket (11) form a clamping structure through the steel wire clamp assembly (8).

6. The novel building shock insulation rubber support fireproof device according to claim 1, characterized in that: the outside of the support (4) is attached to the high silica fiber cloth (12), and the outside of the support (4) forms a clamping structure with the high silica fiber cloth (12) through a stainless steel rope clamping component (7).

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