CN-224200075-U - Building structure design shock insulation fireproof structure

Abstract

The utility model relates to the field of constructional engineering, in particular to a shock insulation fireproof structure for a constructional structure design. The utility model provides a building structural design shock insulation fireproof structure which can conduct fireproof, cooling and heat insulation treatment on a rubber shock insulation support when the temperature is overheated and maintain structural integrity. The utility model provides a building structure design shock insulation fireproof structure, including PLASTIC LAMINATED, cooling plate, circulation pipeline and thermal insulation board etc. the PLASTIC LAMINATED is equipped with upper and lower two, and one side that the PLASTIC LAMINATED is close to each other all is connected with the cooling plate, all is connected with circulation pipeline on the cooling plate. According to the utility model, the rubber shock insulation support is prevented from being fire by the fireproof plate and the fireproof corrugated pipe, the external temperature is isolated by the heat insulation layer and the heat insulation plate, and when the temperature sensor detects that the temperature is too high, water can enter the circulating pipeline to cool, so that the effects of preventing fire, cooling and insulating the rubber shock insulation support when the temperature is overheated and maintaining the structural integrity are achieved.

Inventors

• XIONG JUNQIANG

Assignees

• 熊军强

Dates

Publication Date

20260505

Application Date

20250603

Claims (6)

1. 1. The utility model provides a building structure design shock insulation fireproof structure, a serial communication port, including PLASTIC LAMINATED (1), cooling board (3), circulating line (4), hose (5), thermal-insulated board (6), rubber shock insulation support (7), fire prevention bellows (13), insulating layer (14) and temperature sensor (15), PLASTIC LAMINATED (1) are equipped with upper and lower two, one side that PLASTIC LAMINATED (1) is close to each other all is connected with cooling board (3), all be connected with circulating line (4) on cooling board (3), all be connected with hose (5) between circulating line (4) left and right sides, one side that cooling board (3) are close to each other all is connected with insulating board (6), one side that insulating board (6) are close to each other all is equipped with the backup pad, be connected with rubber shock insulation support (7) between the backup pad, be connected with fire prevention bellows (13) between the cooling board (3) outside, fire prevention bellows (13) internally connected with insulating layer (14), backup pad left part downside on upper portion is connected with temperature sensor (15).
2. 2. A building structure design shock insulation and fire protection structure according to claim 1, characterized in that the hoses (5) are all corrugated.
3. 3. The earthquake-proof and fire-proof structure for building structural design according to claim 1, wherein the rubber earthquake-proof support (7) is formed by overlapping rubber and steel plates.
4. 4. The building structure design shock insulation and fire prevention structure according to claim 1, wherein the heat insulation layer (14) is made of elastic material.
5. 5. The earthquake-proof and fire-proof structure for building structural design according to claim 1, further comprising mounting blocks (2), wherein the left side and the right side of the fire-proof plate (1) are respectively connected with a front mounting block (2) and a rear mounting block (2).
6. 6. The building structure design shock insulation fireproof structure according to claim 1, further comprising a first rotating block (8), a connecting block (9), shock absorbers (10), a second rotating block (11) and connecting pieces (12), wherein the front, back, left and right four parts of the supporting plate are all connected with two first rotating blocks (8) in a rotating mode, the first rotating blocks (8) are all connected with the connecting blocks (9) in a rotating mode, shock absorbers (10) are all connected between the upper and lower adjacent connecting blocks (9) in a rotating mode, a plurality of second rotating blocks (11) are all connected with one side, close to each other, of the supporting plate in a rotating mode, two connecting pieces (12) are all connected with each other in a rotating mode, and the shock absorbers (10) are also all connected between the upper and lower adjacent connecting pieces (12) in a rotating mode.

Description

Building structure design shock insulation fireproof structure Technical Field The utility model relates to the field of constructional engineering, in particular to a shock insulation fireproof structure for a constructional structure design. Background The rubber vibration isolation support is widely applied to building structures as an effective vibration isolation device, and by arranging a vibration isolation layer between a building foundation and an upper structure, the self-vibration period of the structure is prolonged, and the transmission of earthquake energy to the upper structure is reduced, so that the damage degree of the earthquake to the building is obviously reduced, the life safety and property safety of personnel in the building are ensured, the key effect is played in building projects in a plurality of earthquake-prone areas, but when the building is in fire, the rubber vibration isolation support is quickly heated by a high-temperature environment, and once the temperature exceeds the heat resistance limit of rubber, the rubber is softened, deformed or even burnt, the integrity of the rubber vibration isolation support structure is affected, the mechanical property of the vibration isolation support is rapidly reduced, and the original vibration isolation function is lost. Therefore, it is necessary to design a building structural design shock insulation fireproof structure capable of performing fireproof, cooling and heat insulation treatment on the rubber shock insulation support when the temperature is overheated, and maintaining structural integrity. Disclosure of utility model In order to overcome the defect that when a building is in fire disaster, a high-temperature environment can quickly heat a rubber shock-insulation support, once the temperature exceeds the heat-resistant limit of rubber, the rubber can soften, deform or even burn to influence the structural integrity of the rubber shock-insulation support, so that the mechanical property of the shock-insulation support is rapidly reduced and the original shock-insulation function is lost. The technical scheme is that the building structural design shock insulation fireproof structure comprises fireproof plates, cooling plates, circulating pipelines, hoses, heat insulation plates, rubber shock insulation supports, fireproof corrugated pipes, heat insulation layers and temperature sensors, wherein the fireproof plates are provided with an upper part and a lower part, one sides of the fireproof plates, which are close to each other, are connected with the cooling plates, the cooling plates are connected with the circulating pipelines, the hoses are connected between the left part and the right part of the circulating pipelines, one sides of the cooling plates, which are close to each other, are connected with the heat insulation plates, the supporting plates are arranged on one sides of the heat insulation plates, which are close to each other, rubber shock insulation supports are connected between the supporting plates, the fireproof corrugated pipes are connected between the outer sides of the cooling plates, the heat insulation layers are connected inside the fireproof corrugated pipes, and the temperature sensors are connected to the lower sides of the left parts of the supporting plates on the upper parts. Further, the hoses are all corrugated. Further, the rubber shock insulation support is formed by overlapping rubber and steel plates in a staggered mode. Further, the heat insulation layer is made of elastic materials. Further, the fire-proof plate also comprises mounting blocks, and the left side and the right side of the fire-proof plate are respectively connected with a front mounting block and a rear mounting block. Further, still including first rotatory piece, the connecting block, the bumper shock absorber, second rotatory piece and connecting piece, four parts are all rotated around the backup pad and are connected with two first rotatory pieces, all rotate on the first rotatory piece and be connected with the connecting block, all rotate between two upper and lower adjacent connecting blocks and be connected with the bumper shock absorber, one side that the backup pad is close to each other is all rotated and is connected with a plurality of second rotatory pieces, all rotate on the second rotatory piece and be connected with two connecting pieces, also all rotate between two upper and lower adjacent connecting pieces and be connected with the bumper shock absorber. The utility model has the beneficial effects that 1, the rubber shock insulation support is prevented from being fire by the fireproof plate and the fireproof corrugated pipe, the external temperature is isolated by the heat insulation layer and the heat insulation plate, and when the temperature sensor detects that the temperature is too high, water can enter the circulating pipeline to cool, so that the effects of preventing fire, cooling and ins