CN113202186A

CN113202186A - Steel construction antidetonation frame construction and steel construction assembled earthquake-resistant building

Info

Publication number: CN113202186A
Application number: CN202110489508.2A
Authority: CN
Inventors: 李建飞
Original assignee: Jiangsu Hua Mu Space Structure Co ltd
Current assignee: Jiangsu Hua Mu Space Structure Co ltd
Priority date: 2021-04-30
Filing date: 2021-04-30
Publication date: 2021-08-03
Anticipated expiration: 2041-04-30
Also published as: CN113202186B

Abstract

The invention discloses a steel structure anti-seismic frame structure and a steel structure fabricated anti-seismic building, which comprise a plurality of groups of support columns vertically arranged on a horizontal substrate, wherein the adjacent support columns are connected through steel beams to form a frame structure; the steel beam comprises an upper support plate and a lower support plate which are parallel to each other, and the upper support plate and the lower support plate are vertically connected through a connecting plate in the middle to form an I-shaped structure; a plurality of groups of positioning grooves for accommodating the supporting blocks are formed in the horizontal planes corresponding to the upper supporting plate and the lower supporting plate at equal intervals; the positions of the steel beams far away from the two ends are provided with damping steel beams capable of moving upwards; the two ends of the steel beam are movably sleeved with adjusting blocks through the arranged sliding grooves, and the other ends of the adjusting blocks are connected with connecting blocks. According to the invention, the scissor type truss structure consisting of the connecting rods and the supporting blocks is arranged on the two sides of the I-shaped steel beam, so that when the truss structure is in a compressed state, good support can be provided to the radial direction through the supporting blocks.

Description

Steel construction antidetonation frame construction and steel construction assembled earthquake-resistant building

Technical Field

The invention relates to the technical field of anti-seismic steel structure equipment, in particular to a steel structure anti-seismic frame structure and a steel structure assembled anti-seismic building.

Background

The steel structure fabricated building is a residential structure which is assembled on site with a cast-in-place floor slab by taking a steel member prefabricated in a factory as a basic structural member and additionally arranging an inner wall slab and an outer hanging wall slab. The steel structure prefabricated house has the obvious advantages of high strength, light weight, short construction period, good anti-seismic performance, high industrialization degree and the like, and the prefabricated building adopting the prefabricated steel structure is superior to the existing reinforced concrete house in terms of function, cost performance, comfort and safety. The steel structure assembly type building is an ideal development trend of the assembly type building in the future. Chinese patent publication No.: CN107842242A discloses a steel structure anti-seismic frame structure, which can effectively reinforce radial load and buffer axial load by arranging a corrugated structure formed by bending elastic steel bars on a box girder, and has a certain anti-seismic effect, however, the corrugated structure formed by bending the elastic steel bars is already in a compression stress state when being installed so as to generate the supporting and anti-seismic effects, and the elasticity of the corrugated structure is greatly reduced after long-term use, so that the supporting and anti-seismic effects are greatly weakened; what is more deficient is that the wave-shaped structure formed by bending the elastic steel bars has poor radial support and axial shock absorption, and the anti-seismic effect is not obvious.

Disclosure of Invention

The invention aims to provide a steel structure anti-seismic frame structure and a steel structure assembled anti-seismic building, and aims to solve the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme:

a steel structure anti-seismic frame structure comprises a plurality of groups of support columns vertically arranged on a horizontal base plate, wherein adjacent support columns are connected through steel beams to form a frame structure;

the steel beam comprises an upper support plate and a lower support plate which are parallel to each other, and the upper support plate and the lower support plate are vertically connected through a connecting plate in the middle to form an I-shaped structure;

a plurality of groups of positioning grooves for containing supporting blocks are equidistantly formed in the horizontal planes corresponding to the upper supporting plate and the lower supporting plate, connecting lugs are arranged on the supporting blocks, the connecting lugs at the upper and lower adjacent positions of the upper supporting plate and the lower supporting plate are connected through connecting rods, and springs which are in the original length under the normal state are connected between the supporting blocks at the upper and lower opposite positions of the upper supporting plate and the lower supporting plate;

the damping steel beam comprises a T-shaped structure formed by a horizontal support plate and a vertical support plate, the horizontal support plate and the vertical support plate respectively correspond to the upper support plate and the connecting plate, a plurality of groups of connecting shafts are arranged at the lower part of the vertical support plate at equal intervals, and a plurality of groups of connecting holes corresponding to the connecting shafts are formed in the connecting plate;

the adjustable steel beam is characterized in that adjusting blocks are movably sleeved at two ends of the steel beam through the arranged sliding grooves, the other ends of the adjusting blocks are connected with the connecting blocks, adjusting screw rods used for adjusting the positions of the connecting blocks at two ends of the steel beam are arranged between the adjusting blocks and the connecting blocks, and connecting support columns can be detached at the other ends of the connecting blocks.

Preferably, a plurality of groups of connecting holes are formed in the adjusting block, and a plurality of groups of connecting columns corresponding to the connecting holes are arranged on the connecting block.

Preferably, an upper clamping block is arranged at the other end of the connecting block, and a lower clamping block corresponding to the upper clamping block is arranged on the supporting column.

Preferably, the link is an elastic member.

Preferably, the sliding groove is formed in the upper support plate and the lower support plate and located on two sides of the connecting plate.

Preferably, the other end of the adjusting block is connected with a connecting lug located on the outermost side of the steel beam.

The application still provides a steel construction assembled earthquake-resistant building, including the aforesaid a steel construction earthquake-resistant frame construction.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, the scissor type truss structure consisting of the connecting rods and the supporting blocks is arranged on the two sides of the I-shaped steel beam, so that when the truss structure is in a compressed state, good support can be provided to the radial direction through the supporting blocks; more importantly, when the whole steel beam is transversely loaded inwards, the truss structure can drive the damping steel beam to move upwards, the transverse inwards load is buffered through the gravity of the damping steel beam, and the transverse inwards load is further buffered through the extension spring after the damping steel beam exceeds the movement distance; when a transversely outward load is applied, the length of the truss structure is extended, the upper and lower corresponding supporting blocks are close to each other, and then the spring is compressed, so that the transversely outward load is buffered, and the truss structure has good radial supporting and transverse buffering anti-seismic effects; meanwhile, the spring is not subjected to external force in a normal state and is in an original long state, so that the elasticity of the spring is slowly weakened, and a long-term effective buffering effect can be guaranteed.

Drawings

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

FIG. 2 is an enlarged view of the area A in FIG. 1;

FIG. 3 is a schematic view of the structure of the steel beam and the shock-absorbing steel beam of the present invention;

FIG. 4 is a schematic view of the adjusting block structure of the present invention;

fig. 5 is a schematic structural diagram of a connection block according to the present invention.

In the figure: the damping device comprises a base plate 1, a supporting column 2, a steel beam 3, an upper supporting plate 31, a connecting plate 32, a lower supporting plate 33, a positioning groove 4, a supporting block 5, a connecting lug 6, a connecting rod 7, a spring 8, a damping steel beam 9, a horizontal supporting plate 91, a vertical supporting plate 92, a connecting shaft 10, a connecting hole 11, a sliding groove 12, an adjusting block 13, a connecting hole 14, a connecting block 15, a connecting column 151, an upper clamping block 152, a lower clamping block 16 and an adjusting screw 17.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution:

a steel structure anti-seismic frame structure comprises a plurality of groups of supporting columns 2 vertically arranged on a horizontal base plate 1, wherein the horizontal base plate 1 is of a concrete structure and forms the lower part of the whole device to be stably connected, and the arrangement number and the arrangement positions of the supporting columns 2 can be set according to actual spatial arrangement and overall stress configuration; the adjacent supporting columns 2 are connected through the steel beams 3 to form a frame structure, and the frame structure can enhance the structural strength of the whole device and avoid the defect of overlarge weight caused by integral pouring;

the steel beam 3 comprises an upper support plate 31 and a lower support plate 33 which are parallel to each other, and the upper support plate 31 and the lower support plate 33 are vertically connected through a connecting plate 32 at the middle part to form an I-shaped structure;

a plurality of groups of positioning grooves 4 for containing the supporting blocks 5 are equidistantly formed in the horizontal planes corresponding to the upper supporting plate 31 and the lower supporting plate 33, the supporting blocks 5 are arranged in the positioning grooves 4, the positioning grooves 4 can limit the supporting blocks 5, so that the positions of the supporting blocks 5 cannot change when the steel beam 3 is subjected to corresponding loads, the stress points of the upper supporting plate 31 and the lower supporting plate 33 cannot change, the supporting and buffering stability is enhanced, a left connecting lug and a right connecting lug 6 are arranged on each group of supporting blocks 5, the connecting lugs 6 at the vertically adjacent positions of the upper supporting plate 31 and the lower supporting plate 33 are connected through a connecting rod 7, a shear type truss structure is further formed, the connecting rod 7 is an elastic member, and the buffering effect can be further improved through the deformation of the elastic member when the steel beam 3 is subjected to transverse loads; the shear type truss structure is shortened when the truss structure is in a compressed state, so that the upper and lower corresponding supporting blocks 5 have a movement trend of being far away from each other in the vertical direction, and can provide good support for the upper supporting plate 31 and the lower supporting plate 33 in the radial direction; the springs 8 which are in the original length in the normal state are connected between the supporting blocks 5 which are in the upper and lower opposite positions of the upper support plate 31 and the lower support plate 33, when the steel beam 3 is subjected to a transverse outward load, the length of the whole truss is lengthened, so that the supporting blocks 5 which correspond up and down have a vertical direction approaching movement trend to further compress the springs 8, the transverse outward load is buffered, and a good transverse buffering and anti-seismic effect is achieved; meanwhile, the spring 8 is not subjected to external force in a normal state and is in an original long state, so that the elasticity is slowly weakened, and a long-term effective buffering effect can be ensured;

the positions of the steel beam 3 far away from the two ends are provided with damping steel beams 9 capable of moving upwards, each damping steel beam 9 comprises a T-shaped structure formed by a horizontal support plate 91 and a vertical support plate 92, the horizontal support plate 91 and the vertical support plate 92 respectively correspond to the upper support plate 31 and the connecting plate 32, a plurality of groups of connecting shafts 10 are arranged at the lower part of the vertical support plate 92 at equal intervals, a plurality of groups of connecting holes 11 corresponding to the connecting shafts 10 are arranged on the connecting plate 32, the damping steel beams 9 are arranged on the steel beam 3 through the connecting shafts 10 and the connecting holes 11, when the truss structure is in a compression state, the supporting block 5 has a vertical upward movement state, so that good supporting of the horizontal supporting plate 91 is realized, and when the load is overlarge, the damping steel beam 9 is jacked up, buffering is achieved through the gravity of the damping steel beam 9, and when the upward movement distance of the damping steel beam 9 is exceeded, buffering is further achieved through the extension spring 8 under the action of elasticity;

adjusting blocks 13 are movably sleeved at two ends of the steel beam 3 through a sliding groove 12, the other end of each adjusting block 13 is connected with a connecting lug 6 located on the outermost side of the steel beam 3, the sliding grooves 12 are formed in an upper supporting plate 31 and a lower supporting plate 33 and located on two sides of a connecting plate 32, the other end of each adjusting block 13 is connected with a connecting block 15, a plurality of groups of connecting holes 14 are formed in each adjusting block 13, a plurality of groups of connecting columns 151 corresponding to the connecting holes 14 are arranged on each connecting block 15, and adjusting screws 17 used for adjusting the positions of the connecting blocks 15 at the two ends of the steel beam 3 are arranged between the adjusting blocks 13 and the connecting blocks 15; the positions of the adjusting blocks 13 at the two ends are adjusted by rotating the screw rods 17, so that the length of the whole truss is adjusted, and further the radial supporting force is adjusted; connecting support column 2 can be dismantled to the connecting block 15 other end, and the connecting block 15 other end is provided with fixture block 152, is provided with on the support column 2 with the corresponding lower fixture block 16 of last fixture block 152, through fixture block 152 and fixture block 16 that set up can joint each other, can realize heightening dismouting efficiency to whole frame construction's quick assembly.

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

1. The utility model provides a steel construction antidetonation frame construction which characterized in that: the device comprises a plurality of groups of supporting columns (2) vertically arranged on a horizontal substrate (1), wherein the adjacent supporting columns (2) are connected through steel beams (3) to form a frame structure;

the steel beam (3) comprises an upper support plate (31) and a lower support plate (33) which are parallel to each other, and the upper support plate (31) and the lower support plate (33) are vertically connected through a connecting plate (32) in the middle to form an I-shaped structure;

a plurality of groups of positioning grooves (4) for containing the supporting blocks (5) are formed in the horizontal planes corresponding to the upper supporting plate (31) and the lower supporting plate (33) at equal intervals, connecting lugs (6) are arranged on the supporting blocks (5), the connecting lugs (6) at the upper and lower adjacent positions of the upper supporting plate (31) and the lower supporting plate (33) are connected through connecting rods (7), and springs (8) which are in the original length in a normal state are connected between the supporting blocks (5) at the upper and lower opposite positions of the upper supporting plate (31) and the lower supporting plate (33);

the shock absorption steel beam (9) capable of moving upwards is arranged at a position, far away from two ends, of the steel beam (3), the shock absorption steel beam (9) comprises a T-shaped structure formed by a horizontal support plate (91) and a vertical support plate (92), the horizontal support plate (91) and the vertical support plate (92) respectively correspond to the upper support plate (31) and the connecting plate (32), a plurality of groups of connecting shafts (10) are arranged at the lower part of the vertical support plate (92) at equal intervals, and a plurality of groups of connecting holes (11) corresponding to the connecting shafts (10) are formed in the connecting plate (32);

the steel beam (3) both ends have movably through the spout (12) that offer and have cup jointed regulating block (13), connecting block (15) are connected to the regulating block (13) other end, be provided with between regulating block (13) and connecting block (15) and be used for adjusting connecting block (15) and be located adjusting screw (17) of steel beam (3) both ends position, connecting support post (2) can be dismantled to the connecting block (15) other end.

2. A steel structural seismic frame structure according to claim 1, wherein: a plurality of groups of connecting holes (14) are formed in the adjusting block (13), and a plurality of groups of connecting columns (151) corresponding to the connecting holes (14) are arranged on the connecting block (15).

3. A steel structural seismic frame structure according to claim 2, wherein: an upper clamping block (152) is arranged at the other end of the connecting block (15), and a lower clamping block (16) corresponding to the upper clamping block (152) is arranged on the supporting column (2).

4. A steel structural seismic frame structure according to claim 1, wherein: the connecting rod (7) is an elastic component.

5. A steel structural seismic frame structure according to claim 1, wherein: the sliding grooves (12) are formed in the upper support plate (31) and the lower support plate (33) and are located on two sides of the connecting plate (32).

6. A steel structural seismic frame structure according to claim 1, wherein: the other end of the adjusting block (13) is connected with a connecting lug (6) positioned on the outermost side of the steel beam (3).

7. The utility model provides a steel construction assembled earthquake-resistant building which characterized in that: a steel structural seismic frame structure comprising any of claims 1-6.