CN212427782U - Assembled reinforced support fireproof wallboard - Google Patents

Abstract

The utility model provides an assembled additional strengthening fireproof wall panel that supports belongs to the building technology field, including fire prevention adiabatic panel, lateral part backup pad, tip shrouding, foam concrete, antidetonation restraint power consumption backup pad, connecting plate A, connecting plate B, the continuous, elasticity restraint stiffener of melamine bubble, fire prevention adiabatic panel, lateral part backup pad and tip shrouding enclose into the wallboard frame, set up the continuous melamine bubble along fire prevention adiabatic panel inboard, are V-arrangement antidetonation restraint power consumption backup pad in succession around between the fire prevention adiabatic panel, the beneficial effects of the utility model are that improve assembled efficiency, wholly in coordination with stable good, fire prevention heat resistance is good, effectively reduces the earthquake reaction that building structure vibration arouses, reinforcing structure cling compound rigidity and power consumption ability, construction convenience, construction speed are fast.

Description

Assembled reinforced support fireproof wallboard

Technical Field

The utility model belongs to the technical field of the building, in particular to support fire resistive wall board is strengthened to assembled.

Background

In oil depots and various flammable and explosive petrochemical industry and other product processing factories, huge casualties and economic losses are often caused by fire disasters, and in order to control the loss of the fire disasters to the maximum extent, a series of projects such as a wallboard structure with strong fire prevention function are necessary to be built. Meanwhile, earthquake disasters are sudden and destructive, and when an earthquake happens, the ground vibration causes the earthquake reaction of the structure. In order to avoid the above-mentioned disasters, one must control the seismic response of the structural system and eliminate the "amplifier" effect of the structural system. When the wind or earthquake is small, the energy dissipation rod pieces and the structure have enough lateral rigidity to meet the use requirement, and the structure is in an elastic state; when a major earthquake or a major wind occurs, along with the increase of the lateral deformation of the structure, the energy dissipation component or the energy dissipation device starts to work first to generate larger damping, a large amount of earthquake or wind vibration energy input into the structure is consumed, so that the energy of the structure, such as kinetic energy or elastic potential energy, is converted into heat energy and the like to be dissipated, the earthquake or wind vibration reaction of the structure is quickly attenuated, the main body structure is prevented from generating an obvious inelastic state, the main body structure and the component are protected from being damaged in the strong earthquake or the major wind, the factors such as materials used in the structure part of the existing building wallboard are unreasonable, the practicability is poor, the implementation is difficult in many occasions, most of the cost is high, the construction method is restricted by the level of consumers, the popularization and the use in large area are impossible, some have large weight, the mechanical construction method is complex, some cannot insulate heat, prevent fire and have poor corrosion resistance, the safety coefficient is also lower, therefore, it is necessary to research and develop the defects of poor stress performance and poor earthquake resistance and fire resistance of the existing building wallboard structure in an industrialized and systematic manner, so that the whole process of the building industry in China is green, recyclable and sustainable really, and therefore, the building wallboard structure with good stress performance and excellent earthquake resistance and fire resistance needs to be designed to solve the problems.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem that exists, the utility model provides an assembled enhancement support fire wallboard improves assembled efficiency, increases building structure system's the supporting role that bears, has both strengthened structural anti rigidity and the power consumption ability of sliding, has strengthened structural integrity and stability again, is applicable to high-rise building in high intensity area and builds and consolidate, has solved traditional building wallboard structure antidetonation and has born, the power consumption bracing performance is relatively poor and the weak point of durability.

In order to realize the purpose, the utility model discloses a technical scheme be:

an assembled reinforced supporting fireproof wallboard comprises fireproof heat-insulating panels, side supporting plates, end sealing plates, foam concrete, earthquake-resistant constraint energy consumption supporting plates, a connecting plate A, a connecting plate B, melamine foam and elastic constraint reinforcing rods, wherein the end sealing plates are arranged at the upper end and the lower end of the assembled reinforced supporting fireproof wallboard, the side supporting plates are arranged at two sides, the fireproof heat-insulating panels are arranged at the front side and the rear side, the fireproof heat-insulating panels, the side supporting plates and the end sealing plates form a wallboard outer frame in a surrounding mode, side plate reserved through holes are formed in the side supporting plates, the side supporting plates and the fireproof heat-insulating panels are covered by the edges of the end sealing plates, the melamine foam is arranged along the inner sides of the fireproof heat-insulating panels, the earthquake-resistant constraint energy consumption supporting plates are continuously arranged in a V shape between the front fireproof heat-insulating panels and the rear fireproof heat-, A support plate reserved through hole is arranged in the middle, and foam concrete is arranged in an inner cavity of the assembled reinforced support fireproof wallboard;

the connecting plate A and the connecting plate B are both provided with connecting screw holes, and the connecting plate A and the connecting plate B are connected with the end sealing plate by adopting connecting screws; the connecting ends of the upper supporting plates of the anti-seismic restraint energy-consumption supporting plates positioned at the left side and the right side of the wallboard are connected with the connecting part A of the connecting plate A, the connecting ends of the lower supporting plates are connected with the connecting part B of the connecting plate B, and the connecting ends of the supporting plates of the anti-seismic restraint energy-consumption supporting plates positioned at the middle part of the wallboard are connected with the connecting part B of the connecting plate B; the elastic restraint reinforcing rods are arranged to penetrate through the side plate reserved through holes and the supporting plate reserved through holes to connect the side supporting plates with the anti-seismic restraint energy dissipation supporting plates on the left side and the right side of the wallboard, the elastic restraint reinforcing rods are arranged to penetrate through the supporting plate reserved through holes to connect the adjacent anti-seismic restraint energy dissipation supporting plates, and the two ends of each elastic restraint reinforcing rod are provided with fixing screw pieces for fixing.

Furthermore, the end sealing plates are connected with the fireproof heat-insulation panel and the side supporting plate in a rivet mode.

Furthermore, the anti-seismic restraint energy consumption supporting plate is made of a low-yield-point energy consumption steel plate.

Furthermore, the connecting end of the supporting plate is connected with the connecting part A and the connecting part B by welding.

Furthermore, the anti-seismic restraint energy consumption supporting plate, the connecting screw, the connecting plate A and the connecting plate B are subjected to anti-corrosion treatment.

Furthermore, the fireproof heat-insulation panel adopts a calcium silicate board with strong fireproof heat resistance.

Furthermore, thermal insulation mortar is arranged between the fireproof heat-insulation panel and the melamine foam for bonding.

The utility model has the advantages that:

the beneficial effects of the utility model are that the assembled efficiency has been improved, the characteristics that have whole synergistic performance and stability can be good, the fire prevention adiabatic panel and the melamine bubble silk floss of use can play and show the fire prevention heat-resisting effect, show and reduce conflagration production calamity, when the earthquake takes place, the earthquake reaction that the vibration of building structure arouses can effectively be reduced to a plurality of antidetonation restraint power consumption backup pads that set up, can prevent that the wallboard from taking place whole slip or deformation easily when bearing, and increase the bearing support effect of building structure system, both strengthened structure anti-sliding rigidity and power consumption ability, the structure wholeness has been strengthened and stability, construction convenience, characteristics that the construction speed is fast, be applicable to high-rise building construction and reinforcement in high intensity area, have that fire behavior is good, the antidetonation is good, the durability is good, the bearing capacity is big, the ductility is good, the high characteristics of power consumption ability, it bears, Poor energy dissipation support performance.

Drawings

Fig. 1 is the utility model discloses assembled enhancement is supported and is prevented hot wall plate front view schematic diagram.

Fig. 2 is a schematic sectional view taken along line a-a of fig. 1.

Fig. 3 is the utility model discloses assembled enhancement support fire wall board top view schematic diagram.

Fig. 4 is a schematic sectional view taken along line B-B of fig. 3.

Fig. 5 is a schematic structural view of the anti-seismic restraining energy dissipation support plate.

Fig. 6 is a schematic structural view of the connecting plate a.

Fig. 7 is a schematic structural view of the connecting plate B.

FIG. 8 is a schematic diagram of a side brace structure.

Fig. 9 is a schematic view of a side view of the assembled reinforced supporting firewall plate of the present invention.

In the figure: 1 is a fireproof heat-insulating panel; 2 is a side supporting plate; an end sealing plate is arranged at the 3 position; 4 is foam concrete; 5 is an anti-seismic restraint energy consumption support plate; 6 is a round hole; 7 is an energy consumption rib; 8 is a supporting plate connecting end; 9 is a connecting screw; 10 is a connecting plate A; 11 is a connecting plate B; 12 is a connecting screw hole; 13 is a junction site A; 14 is a junction site B; 15 is melamine foam; a perforation is reserved for the supporting plate 16; 17, reserving a through hole for the side plate; 18 is an elastic force constraint reinforcing rod; and 19 is a fixed screw.

Detailed Description

For further explanation of the present invention, the following detailed description of the present invention is provided with reference to the drawings and examples, which should not be construed as limiting the scope of the present invention.

Example (b): as shown in fig. 1 to 9, an assembled reinforced supporting fireproof wall panel comprises a fireproof heat insulation panel 1, side supporting plates 2, end sealing plates 3, foam concrete 4, an anti-seismic restraining energy consumption supporting plate 5, a connecting plate a10, a connecting plate B11, melamine foam 15, elastic restraining reinforcing rods 18,

the upper end and the lower end of the assembled reinforced supporting fireproof wallboard are provided with end sealing plates 3, two sides are provided with side supporting plates 2, the front and the back are provided with fireproof heat-insulating panels 1 and fireproof heat-insulating panels 1, the side supporting plates 2 and the end sealing plates 3 form a wallboard outer frame in an enclosing mode, the side supporting plates 2 are provided with side plate reserved through holes 17, the edges of the end sealing plates 3 cover the side supporting plates 2 and the fireproof heat insulation panels 1, melamine foam 15 is arranged along the inner sides of the fireproof heat insulation panels 1, anti-seismic restraint energy dissipation supporting plates 5 are continuously arranged between the front fireproof heat insulation panels 1 and the rear fireproof heat insulation panels in a V-shaped mode, round holes 6 are formed in the anti-seismic restraint energy dissipation supporting plates 5, energy dissipation ribs 7 are arranged between the adjacent round holes 6, supporting plate connecting ends 8 are arranged at two ends of each anti-seismic restraint energy dissipation supporting plate 5, supporting plate reserved through holes 16 are formed in the middle;

the connecting plate A10 and the connecting plate B11 are both provided with connecting screw holes 12, and the connecting plate A10 and the connecting plate B11 are connected with the end sealing plate 3 by adopting connecting screws 9; the upper support plate connecting ends 8 of the anti-seismic restraint energy-consumption support plates 5 positioned at the left side and the right side of the wallboard are connected with a connecting part A13 of a connecting plate A10, the lower support plate connecting ends 8 are connected with a connecting part B14 of a connecting plate B11, and the support plate connecting ends 8 of the anti-seismic restraint energy-consumption support plates 5 positioned at the middle part of the wallboard are connected with a connecting part B14 of the connecting plate B11; an elastic force restraint reinforcing rod 18 is arranged to penetrate through the side plate reserved through hole 17 and the support plate reserved through hole 16 to connect the side support plate 2 with the anti-seismic restraint energy dissipation support plates 5 on the left side and the right side of the wallboard, the elastic force restraint reinforcing rod 18 is arranged to penetrate through the support plate reserved through hole 16 to connect the adjacent anti-seismic restraint energy dissipation support plates 5, and fixing screw pieces 19 are arranged at two ends of the elastic force restraint reinforcing rod 18 to fix the elastic force restraint reinforcing rod.

The end sealing plate 3 is connected with the fireproof heat-insulation panel 1 and the side supporting plate 2 in a rivet mode.

The anti-seismic restraint energy consumption supporting plate 5 is made of a low-yield-point energy consumption steel plate.

The support plate connecting end 8 is connected with the connecting part A13 and the connecting part B14 by welding.

The anti-seismic restraint energy consumption support plate 5, the connecting screw 9, the connecting plate A10 and the connecting plate B11 are subjected to anti-corrosion treatment.

The fireproof heat-insulation panel 1 is a calcium silicate board with strong fireproof heat resistance.

And thermal insulation mortar is arranged between the fireproof heat-insulation panel 1 and the melamine foam 15 for bonding.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (7)

1. The utility model provides an assembled reinforced support fire-proof wall board, includes fire-proof heat insulation panel (1), lateral part backup pad (2), tip shrouding (3), foam concrete (4), antidetonation restraint power consumption backup pad (5), connecting plate A (10), connecting plate B (11), melamine bubble silk floss (15), elasticity restraint stiffener (18), its characterized in that: assembled strengthening support fire-proof wall panel's upper end and lower extreme set up tip shrouding (3), both sides set up lateral part backup pad (2), preceding and back set up fire-proof heat insulation panel (1), and fire-proof heat insulation panel (1), lateral part backup pad (2) and tip shrouding (3) enclose into the wallboard frame, set up curb plate on lateral part backup pad (2) and reserve perforation (17), the edge of tip shrouding (3) covers lateral part backup pad (2) and fire-proof heat insulation panel (1), sets up melamine bubble silk floss (15) along fire-proof heat insulation panel (1) inboard, is V-arrangement antidetonation restraint power consumption backup pad (5) in succession around between fire-proof heat insulation panel (1), set up round hole (6) on antidetonation restraint power consumption backup pad (5), set up between adjacent round hole (6) power consumption rib (7), and the both ends of antidetonation restraint power consumption backup pad (, A support plate reserved through hole (16) is arranged in the middle, and foam concrete (4) is arranged in an inner cavity of the assembled reinforced support fireproof wallboard; the connecting plate A (10) and the connecting plate B (11) are both provided with connecting screw holes (12), and the connecting plate A (10) and the connecting plate B (11) are connected with the end sealing plate (3) by adopting connecting screws (9); the upper supporting plate connecting ends (8) of the anti-seismic restraint energy-consumption supporting plates (5) positioned at the left side and the right side of the wallboard are connected with a connecting part A (13) of a connecting plate A (10), the lower supporting plate connecting ends (8) are connected with a connecting part B (14) of a connecting plate B (11), and the supporting plate connecting ends (8) of the anti-seismic restraint energy-consumption supporting plates (5) positioned in the middle of the wallboard are connected with the connecting part B (14) of the connecting plate B (11); the elastic restraint reinforcing rods (18) penetrate through the side plate reserved through holes (17) and the support plate reserved through holes (16) to connect the side support plates (2) with the anti-seismic restraint energy-consumption support plates (5) on the left side and the right side of the wallboard, the elastic restraint reinforcing rods (18) penetrate through the support plate reserved through holes (16) to connect the adjacent anti-seismic restraint energy-consumption support plates (5), and the two ends of each elastic restraint reinforcing rod (18) are fixed through fixing screw pieces (19).

2. The prefabricated reinforced supporting fire rated wall panel of claim 1, wherein: the end sealing plates (3) are connected with the fireproof heat-insulation panel (1) and the side supporting plates (2) in a rivet mode.

3. The prefabricated reinforced supporting fire rated wall panel of claim 1, wherein: the anti-seismic restraint energy consumption supporting plate (5) is made of a low-yield-point energy consumption steel plate.

4. The prefabricated reinforced supporting fire rated wall panel of claim 1, wherein: the support plate connecting end (8) is connected with the connecting part A (13) and the connecting part B (14) by welding.

5. The prefabricated reinforced supporting fire rated wall panel of claim 1, wherein: the anti-seismic restraint energy consumption support plate (5), the connecting screw (9), the connecting plate A (10) and the connecting plate B (11) are subjected to anti-corrosion treatment.

6. The prefabricated reinforced supporting fire rated wall panel of claim 1, wherein: the fireproof heat-insulation panel (1) adopts a calcium silicate board with strong fireproof heat resistance.

7. The prefabricated reinforced supporting fire rated wall panel of claim 1, wherein: thermal insulation mortar is arranged between the fireproof heat-insulation panel (1) and the melamine foam (15) for bonding.

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