CN214302174U - Anti-seismic energy-saving building structure - Google Patents

Abstract

The utility model belongs to the technical field of building structure and specifically relates to an energy-conserving building structure of antidetonation, including main building frame, ground face, first side post, second side post, anti-wind post, roof beam and supporting beam, equal fixed mounting all around of main building frame has shingle nail, the top surface fixed mounting of main building frame has the roof boarding, main building frame is including ground face, first side post, second side post, anti-wind post and roof beam, and just first side post, second side post and anti-wind post are arranged in between ground face and the roof beam, the both sides, the bottom of first side post, second side post and anti-wind post are equallyd divide do not fixed mounting have head rod, second connecting rod, the utility model discloses the whole device simple structure, all-round buffering, the antidetonation effect is good, can effectively reduce the organism loss that external force brought, and more environmental protection green energy-saving time limit for a project weak point, while intensity is high, The self-weight is light, the integral rigidity is good, the deformation resistance is strong, and the popularization effect is certain.

Description

Anti-seismic energy-saving building structure

Technical Field

The utility model relates to a building structure field specifically is an energy-conserving building structure of antidetonation.

Background

The steel structure is a structure formed by steel materials, is one of main building structure types, mainly comprises steel beams, steel columns, steel trusses and other members made of section steel, steel plates and the like, and adopts rust removing and preventing processes of silanization, pure manganese phosphating, washing and drying, galvanization and the like. The components or parts are usually connected by welding lines, bolts or rivets, and the components or parts are light in self weight and simple and convenient to construct, so that the components or parts are widely applied to the fields of large-scale plants, venues, super-high buildings and the like, and great body loss is generated after the components or parts meet earthquakes or strong wind weather in the process of construction and use, so that an earthquake-resistant energy-saving building structure is needed to improve the problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an energy-conserving building structure of antidetonation to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

an earthquake-resistant energy-saving building structure comprises a main building frame, a foundation surface, a first side column, a second side column, a wind-resistant column, a roof beam and a supporting cross beam, wherein wall panels are fixedly arranged on the periphery of the main building frame, a roof panel is fixedly arranged on the top surface of the main building frame, the main building frame comprises the foundation surface, the first side column, the second side column, the wind-resistant column and the roof beam, the first side column, the second side column and the wind-resistant column are arranged between the foundation surface and the roof beam, two sides and the bottom of the first side column, the second side column and the wind-resistant column are respectively and fixedly provided with a first connecting rod and a second connecting rod, the bottom of the main building frame, which is close to the bottom of the first side column, the second side column and the wind-resistant column, is provided with a supporting cross beam, the supporting cross beam is internally provided with a movable cavity, and the bottoms of the first side column, the second side column and the wind-resistant column are arranged inside the movable cavity, the movable cavity is characterized in that a fixing bolt penetrates through the bottom surface of the movable cavity, telescopic grooves are formed in the bottom surface of the movable cavity and the two sides of the inner wall of the movable cavity, a first connecting rod and a second connecting rod are close to one end of the supporting cross beam and are arranged inside the telescopic grooves, and the first connecting rod, the second connecting rod and the telescopic grooves are fixedly connected through damping springs.

Preferably, the damping spring and the supporting beam are welded.

Preferably, the main building frame is made of a steel structure in a customized mode and is processed through a hot galvanizing process.

Preferably, the first side column of supporting beam top surface, second side column and anti-wind post bottom have all seted up the installation notch, and just first side column, second side column and anti-wind post bottom all pass the inside of installation notch.

Preferably, first side column, second side column and anti-wind post parallel arrangement, and the anti-wind post is arranged in between first side column and the second side column, and first side column, second side column, anti-wind post and ground face, roof beam are equallyd divide simultaneously and do not pass through rivet fixed connection.

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

1. in the utility model, when in use, the main building frame is customized by adopting a steel structure, and the first side column, the second side column, the wind-resistant column, the ground plane and the roof beam are respectively fixedly connected by rivets, on one hand, the installation and the disassembly are convenient, the time and the labor are saved compared with the building structure of reinforced concrete, on the other hand, the whole device can be recycled, the building structure of reinforced concrete is more environment-friendly and energy-saving, the strength is high, the dead weight is light, the whole rigidity is good, the deformation resistance is strong, meanwhile, the whole device can not be directly contacted with the ground by the supporting beam arranged at the bottom of the main building frame, thereby the device has the damp-proof function, and after earthquake or windy weather occurs, the first side column, the second side column and the bottom end of the wind-resistant column can move in the movable cavity, and the first connecting rod and the second connecting rod are driven to press the damping spring in the telescopic groove, thereby obtain the pressure buffering to this reaches antidetonation effect, in this while, equallyd divide evenly head rod, second connecting rod and do not install in the both sides of first limit post, second limit post, anti-wind post, bottom, and all-round buffering, the antidetonation effect is better, can effectively reduce the organism loss that external force brought, and can make between first limit post, second limit post, anti-wind post and the supporting beam more firm.

Drawings

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

FIG. 2 is a schematic view of the overall front view of the internal structure of the present invention;

FIG. 3 is a schematic view of a partially enlarged structure A of the present invention;

in the figure: 1. a main building frame; 2. a ground plane; 3. a first side column; 4. a second side column; 5. a wind-resistant column; 6. a roof girder; 7. a wall panel; 8. a roof panel; 9. a support beam; 10. a first connecting rod; 11. a second connecting rod; 12. a telescopic groove; 13. a damping spring; 14. a movable cavity; 15. and (5) fixing the bolt.

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:

an earthquake-resistant energy-saving building structure comprises a main building frame 1, a foundation surface 2, a first side column 3, a second side column 4, a wind-resistant column 5, a roof beam 6 and a supporting cross beam 9, wherein all the peripheries of the main building frame 1 are fixedly provided with wall panels 7, the top surface of the main building frame 1 is fixedly provided with a roof panel 8, the main building frame 1 comprises the foundation surface 2, the first side column 3, the second side column 4, the wind-resistant column 5 and the roof beam 6, the first side column 3, the second side column 4 and the wind-resistant column 5 are arranged between the foundation surface 2 and the roof beam 6, the two sides and the bottom of the first side column 3, the second side column 4 and the wind-resistant column 5 are respectively and fixedly provided with a first connecting rod 10 and a second connecting rod 11, the bottom of the main building frame 1 is close to the bottom of the first side column 3, the second side column 4 and the wind-resistant column 5 and is provided with the supporting cross beam 9, a movable cavity 14 is arranged inside the supporting cross beam 9, and the bottom ends of the first side column 3, the second side column 4 and the wind-resistant column 5 are all arranged in the movable cavity 14, the bottom surface of the movable cavity 14 is provided with a fixing bolt 15 in a penetrating way, the bottom surface and the two sides of the inner wall of the movable cavity 14 are respectively provided with a telescopic groove 12, one end of the first connecting rod 10 and one end of the second connecting rod 11, which are close to the supporting beam 9, are all arranged in the telescopic grooves 12, the first connecting rod 10, the second connecting rod 11 and the telescopic grooves 12 are all fixedly connected through a damping spring 13, when in use, the main building frame 1 is customized by adopting a steel structure, and the first side column 3, the second side column 4, the wind-resistant column 5, the ground plane 2 and the roof beam 6 are respectively fixedly connected through rivets, so that on one hand, the installation and disassembly are convenient, the time and labor are saved compared with the building structure of reinforced concrete, on the other hand, the wind-resistant column can be recycled, and is more environment-friendly and energy-saving compared with the building structure of reinforced concrete, the strength is high, the dead weight is light, the integral rigidity is good, the deformation resistance is strong, meanwhile, the supporting cross beam 9 arranged at the bottom of the main building frame 1 can ensure that the integral device can not be in direct contact with the ground, so that the integral device has a damp-proof function, and after an earthquake or a strong wind weather occurs, the bottom ends of the first side column 3, the second side column 4 and the wind-resistant column 5 can move in the movable cavity 14, and the first connecting rod 10 and the second connecting rod 11 are driven to press the damping spring 13 in the telescopic groove 12, so that the pressure buffering is obtained, the shock-resistant effect is achieved, meanwhile, the first connecting rod 10 and the second connecting rod 11 are respectively arranged at the two sides and the bottom of the first side column 3, the second side column 4 and the wind-resistant column 5, the buffering and the shock-resistant effects are better, the loss caused by external force can be effectively reduced, and the first side column 3 can be ensured, The second side column 4, the wind-resistant column 5 and the supporting cross beam 9 are more stable.

The utility model discloses the theory of operation: when the anti-seismic wind-resistant device is used, the main building frame 1 is customized by a steel structure, the first side column 3, the second side column 4, the wind-resistant column 5, the ground plane 2 and the roof beam 6 are fixedly connected through rivets, on one hand, the anti-seismic wind-resistant device is convenient to mount and dismount, short in construction working hours and time-saving and labor-saving compared with a reinforced concrete building structure, on the other hand, the anti-seismic wind-resistant device can be recycled, is more environment-friendly and energy-saving compared with the reinforced concrete building structure, high in strength, light in dead weight, good in overall rigidity and strong in deformation resistance, meanwhile, the overall device can not be directly contacted with the ground through the supporting cross beam 9 arranged at the bottom of the main building frame 1, so that the anti-seismic wind-resistant device has a damp-proof function, and after an earthquake or a strong wind weather occurs, the bottom ends of the first side column 3, the second side column 4 and the wind-resistant column 5 can move inside the movable cavity 14 and drive the first connecting rod 10 and the second connecting rod 11 to press the shock-absorbing spring 13 inside the telescopic groove 12, thereby obtain pressure buffering to this reaches antidetonation effect, and the integrated device simple structure, all-round buffering, the antidetonation effect is good, can effectively reduce the organism loss that external force brought, and more green energy-conserving time limit for a project is short, and intensity is high, dead weight is light, the bulk rigidity is good, resistance to deformation ability reinforce simultaneously, has certain spreading value.

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 (5)

1. The utility model provides an energy-conserving building structure of antidetonation, includes main building frame (1), ground face (2), first side column (3), second side column (4), anti-wind post (5), roof beam (6) and supporting beam (9), its characterized in that: all fixed mounting all around main building frame (1) has shingle (7), the top surface fixed mounting of main building frame (1) has roof boarding (8), and main building frame (1) is including ground face (2), first side column (3), second side column (4), anti-wind post (5) and roof beam (6), and just ground face (2) and roof beam (6) are arranged in to first side column (3), second side column (4) and anti-wind post (5) between, the both sides of first side column (3), second side column (4) and anti-wind post (5), bottom are equallyd divide and are do not fixed mounting have first connecting rod (10), second connecting rod (11), the bottom of main building frame (1) is close to the bottom department of first side column (3), second side column (4), anti-wind post (5) and all is provided with supporting beam (9), movable cavity (14) has been seted up to supporting beam (9), and the inside of activity cavity (14) is all arranged in to first limit post (3), second limit post (4) and anti-wind post (5) bottom, it is provided with fixing bolt (15) to run through on activity cavity (14) bottom surface, flexible groove (12) have all been seted up to activity cavity (14) bottom surface, inner wall both sides, and head rod (10) and second connecting rod (11) are close to the inside that supporting beam (9) one end all arranged flexible groove (12), head rod (10), second connecting rod (11) and flexible groove (12) all are through damping spring (13) fixed connection.

2. An earthquake-resistant energy-saving building structure according to claim 1, characterized in that: the damping spring (13) is welded with the supporting cross beam (9).

3. An earthquake-resistant energy-saving building structure according to claim 1, characterized in that: the main building frame (1) is made of a steel structure in a customized mode and is processed through a hot galvanizing process.

4. An earthquake-resistant energy-saving building structure according to claim 1, characterized in that: the installation notch has all been seted up to supporting beam (9) top surface first limit post (3), second limit post (4) and anti-wind post (5) bottom, and just first limit post (3), second limit post (4) and anti-wind post (5) bottom all pass the inside of installation notch.

5. An earthquake-resistant energy-saving building structure according to claim 1, characterized in that: first side column (3), second side column (4) and anti-wind post (5) parallel arrangement, and anti-wind post (5) are arranged in between first side column (3) and second side column (4), and first side column (3), second side column (4), anti-wind post (5) and ground face (2), roof beam (6) are equallyd divide and do not pass through rivet fixed connection simultaneously.

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