CN213953170U - Steel construction assembled earthquake-resistant building - Google Patents

Abstract

The utility model discloses a steel construction assembled earthquake-resistant building, include girder steel down, go up steel roof beam and wall body, the bottom of wall body is provided with stable structure, the top of wall body is fixed with the roof, the inside on roof is provided with thermal-insulated structure, the bottom of going up the girder steel all is provided with mosaic structure, the inside of connecting seat all is provided with the draw-in groove, the inside that leads to the groove is provided with the bolt, the nut is installed to the one end of bolt. The utility model discloses a be provided with mosaic structure, the connecting seat is aimed at respectively to the one end of girder steel and last girder steel down, then places the inside of draw-in groove with the fixture block, places the inside of leading to the groove with the bolt again, then screws up the nut from the other end of bolt, can fix the concatenation with girder steel down, last girder steel and connecting seat this moment, realized being convenient for assemble girder steel and last girder steel down to greatly increased this building practicality when using.

Description

Steel construction assembled earthquake-resistant building

Technical Field

The utility model relates to a steel construction earthquake-resistant construction technical field specifically is a steel construction assembled earthquake-resistant construction.

Background

Along with the development of economy and the improvement of the living standard of people, steel structures have the advantages of uniform texture, high strength, high construction speed and the like, so that the steel structures are widely used in the construction industry, more and more steel structure houses are needed, and special steel structure earthquake-resistant buildings are needed in order to ensure better earthquake-resistant effect of the houses;

however, when the existing steel structure earthquake-resistant building on the market is used, the steel structure is inconvenient to assemble and splice conveniently, and the efficiency of the steel structure in use is reduced, so that the steel structure assembled earthquake-resistant building is developed to solve the problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a steel construction assembled earthquake-resistant building to propose the inconvenient problem of carrying out convenient assembly concatenation to the steel construction in solving above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a steel construction assembled earthquake-resistant building, includes girder steel, last girder steel and wall body down, the bottom of wall body is provided with stable structure, the top of wall body is fixed with the roof, the inside on roof is provided with thermal-insulated structure, the inside bottom of wall body all is fixed with girder steel down, the girder steel is all installed on the top of girder steel down, the bottom of going up the girder steel all is provided with mosaic structure, mosaic structure includes connecting seat, bolt, draw-in groove, fixture block, nut and logical groove, the fixture block all is fixed in the both sides of girder steel and last girder steel down, the connecting seat all sets up in the one end of girder steel and last girder steel down, the inside of connecting seat all is provided with the draw-in groove, it all sets up in the inside of connecting seat and last girder steel to lead to the groove, the nut is installed to the one end of bolt.

Preferably, stable structure includes spud pile, steady rest, staple and fixed plate, the fixed plate all is fixed in the bottom of wall body, the staple has all been run through to four corners of fixed plate, the bottom mounting of fixed plate has the spud pile, the both sides of spud pile all are fixed with the steady rest.

Preferably, the fixing nails are arranged in four groups, and the fixing nails are symmetrically distributed among the fixing nails in relation to the central axis of the wall body.

Preferably, the lower steel beam is provided with a plurality of steel beams which are distributed in the wall body at equal intervals.

Preferably, the heat insulation structure comprises a waterproof plate, a heat absorption plate and a heat insulation plate, the waterproof plate is fixed at the bottom end of the roof, the heat absorption plate is fixed at the bottom end of the waterproof plate, and the heat insulation plate is arranged at the bottom end of the heat absorption plate.

Preferably, the cross section of the through groove is larger than that of the plug pin, and a sliding structure is formed between the plug pin and the through groove.

Compared with the prior art, the beneficial effects of the utility model are that: the steel structure assembly type earthquake-resistant building not only realizes convenient assembly and splicing of the steel structure, realizes enhancement of the stability of the building in use, but also realizes convenient waterproof and heat insulation of the building, so that the interior of the building is not easy to change along with the external temperature difference;

(1) the splicing structure is arranged at the bottom end of the upper steel beam, one end of the lower steel beam and one end of the upper steel beam are respectively aligned to the connecting seat, the clamping block is placed in the clamping groove, the bolt is placed in the through groove, the nut is screwed down from the other end of the bolt, and at the moment, the lower steel beam, the upper steel beam and the connecting seat can be fixedly spliced, so that the lower steel beam and the upper steel beam can be conveniently assembled, and the practicability of the building in use is greatly improved;

(2) the bottom end of the wall body is provided with the stabilizing structure, the fixing nails are placed in the four corners of the fixing plate, and the use of the fixing piles and the stabilizing frames enables the stability of the wall body to be better when the wall body is used, the wall body is not easy to collapse in earthquake or strong wind weather, the stability of the building is enhanced, and the safety of the building in use is greatly improved;

(3) the heat insulation structure is arranged in the roof, so that the living environment in the wall is more comfortable under the common cooperation of the waterproof plate, the heat absorption plate and the heat insulation plate when the heat insulation structure is used, the building has certain heat insulation capacity due to the use of the heat insulation plate, and the waterproof and heat insulation of the building are realized, so that the comfort of the building when the building is used is improved;

drawings

Fig. 1 is a schematic view of a front view partial section structure of the present invention;

FIG. 2 is a side view of the stable structure of the present invention with a partial cross-section;

fig. 3 is a schematic view of the top view of the partial cross-sectional structure of the splicing structure of the present invention;

fig. 4 is a schematic view of the front view partial section structure of the heat insulation structure of the present invention.

In the figure: 1. stabilizing the structure; 101. fixing the pile; 102. a stabilizer frame; 103. fixing nails; 104. a fixing plate; 2. a lower steel beam; 3. mounting a steel beam; 4. a wall body; 5. a roof; 6. a thermally insulating structure; 601. a waterproof sheet; 602. a heat absorbing plate; 603. a heat insulation plate; 7. splicing structures; 701. a connecting seat; 702. a bolt; 703. a card slot; 704. a clamping block; 705. a nut; 706. a through groove.

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. 1-4, the present invention provides an embodiment: a steel structure assembly type earthquake-resistant building comprises a lower steel beam 2, an upper steel beam 3 and a wall body 4, wherein a stable structure 1 is arranged at the bottom end of the wall body 4, the stable structure 1 comprises fixing piles 101, stabilizing frames 102, fixing nails 103 and fixing plates 104, the fixing plates 104 are all fixed at the bottom end of the wall body 4, the fixing nails 103 penetrate through four corners of the fixing plates 104, the fixing piles 101 are fixed at the bottom end of the fixing plates 104, the stabilizing frames 102 are fixed on two sides of each fixing pile 101, four groups of fixing nails 103 are arranged, and the fixing nails 103 are symmetrically distributed around the central axis of the wall body 4;

specifically, as shown in fig. 1 and fig. 2, when the mechanism is used, the fixing nails 103 are firstly taken out, and the fixing nails 103 are placed into four corners of the fixing plate 104, so that the fixing of the wall 4 is enhanced, and meanwhile, the stability of the wall 4 in use is better due to the use of the fixing piles 101 and the stabilizing frames 102, and the wall is not easy to collapse in earthquake or strong wind weather, so that the stability of the building is enhanced, and the safety of the building in use is greatly improved;

a roof 5 is fixed at the top end of the wall 4, a heat insulation structure 6 is arranged inside the roof 5, the heat insulation structure 6 comprises a waterproof board 601, a heat absorption board 602 and a heat insulation board 603, the waterproof board 601 is fixed at the bottom end of the roof 5, the heat absorption board 602 is fixed at the bottom end of the waterproof board 601, and the heat insulation board 603 is arranged at the bottom end of the heat absorption board 602;

specifically, as shown in fig. 1 and 4, when the mechanism is used, the waterproof board 601, the heat absorbing board 602 and the heat insulating board 603 are arranged inside the roof 5, so that the waterproof and heat insulating performance of the building is better, when the mechanism is used, the living environment inside the wall 4 is more comfortable under the cooperation of the waterproof board 601, the heat absorbing board 602 and the heat insulating board 603, meanwhile, the building has certain waterproof capability due to the use of the waterproof board 601, and the building has certain heat insulating capability due to the use of the heat insulating board 603, so that the temperature inside the building is not easy to rise along with the rise of the temperature outside, the waterproof and heat insulating of the building are realized, and the comfort of the building in use is improved;

the bottom end of the interior of the wall 4 is fixedly provided with a lower steel beam 2, the lower steel beam 2 is provided with a plurality of lower steel beams 2, the lower steel beams 2 are distributed in the interior of the wall 4 at equal intervals, the top end of each lower steel beam 2 is provided with an upper steel beam 3, the bottom end of each upper steel beam 3 is provided with a splicing structure 7, each splicing structure 7 comprises a connecting seat 701, a bolt 702, a clamping groove 703, a clamping block 704, a nut 705 and a through groove 706, the clamping blocks 704 are fixed on two sides of the lower steel beams 2 and the upper steel beams 3, the connecting seats 701 are arranged at one ends of the lower steel beams 2 and the upper steel beams 3, the clamping grooves 703 are arranged in the connecting seats 701, the through grooves 706 are arranged in the connecting seats 701 and the upper steel beams 3, the bolts 702 are arranged in the through grooves 706, the cross sections of the through grooves 706 are larger than the cross sections of the bolts 702, sliding structures are formed between the bolts 702 and the through grooves 706, and the nuts 705 are arranged at one ends of the bolts 702;

specifically, as shown in fig. 1 and 3, when the lower steel beam 2 and the upper steel beam 3 need to be assembled and spliced by using the mechanism, a worker firstly aligns one end of the lower steel beam 2 and one end of the upper steel beam 3 with the connecting seat 701 respectively, then places the fixture block 704 into the inside of the clamping groove 703, at this time, the fixture block 704 slides inside the clamping groove 703, takes out the bolt 702, places the bolt 702 into the inside of the through groove 706, then screws the nut 705 from the other end of the bolt 702, and at this time, the lower steel beam 2, the upper steel beam 3 and the connecting seat 701 can be fixedly spliced, so that the lower steel beam 2 and the upper steel beam 3 can be conveniently assembled, and the practicability of the building in use is greatly increased.

The working principle is as follows: when the building is used, firstly, a worker moves the building to a proper position, one end of the lower steel beam 2 and one end of the upper steel beam 3 are respectively aligned with the connecting seat 701, then the fixture block 704 is placed in the clamping groove 703, the fixture block 704 slides in the clamping groove 703, the bolt 702 is taken out, the bolt 702 is placed in the through groove 706, then the nut 705 is screwed down from the other end of the bolt 702, and at the moment, the lower steel beam 2, the upper steel beam 3 and the connecting seat 701 can be fixedly spliced to complete the assembly of the lower steel beam 2 and the upper steel beam 3;

then, the fixing nails 103 are taken out, the fixing nails 103 are placed into the four corners of the fixing plate 104, the fixing of the wall body 4 is enhanced, and meanwhile, the use of the fixing piles 101 and the stabilizing frames 102 enables the stability of the wall body 4 to be better when the wall body 4 is used, and the wall body is not easy to collapse when an earthquake or a strong wind weather occurs;

finally, the waterproof plate 601, the heat absorbing plate 602 and the heat insulating plate 603 are fixed inside the roof 5 through bolts, when the heat insulating plate is used, the living environment inside the wall 4 is more comfortable under the cooperation of the waterproof plate 601, the heat absorbing plate 602 and the heat insulating plate 603, meanwhile, the building has certain waterproof capacity due to the use of the waterproof plate 601, the building has certain heat insulating capacity due to the use of the heat insulating plate 603, and finally the use work of the building is finished.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides a steel construction assembled earthquake-resistant building, includes girder steel (2), upper beam (3) and wall body (4) down, its characterized in that: the heat insulation structure is characterized in that a stable structure (1) is arranged at the bottom end of the wall body (4), a roof (5) is fixed at the top end of the wall body (4), a heat insulation structure (6) is arranged inside the roof (5), lower steel beams (2) are fixed at the bottom end inside the wall body (4), upper steel beams (3) are installed at the top ends of the lower steel beams (2), splicing structures (7) are arranged at the bottom ends of the upper steel beams (3), each splicing structure (7) comprises a connecting seat (701), a bolt (702), a clamping groove (703), a clamping block (704), a nut (705) and a through groove (706), the clamping blocks (704) are fixed at two sides of the lower steel beam (2) and the upper steel beam (3), the connecting seats (701) are arranged at one ends of the lower steel beam (2) and the upper steel beam (3), the clamping grooves (703) are arranged inside the connecting seats (701), and the through grooves (706) are arranged inside the connecting seats (701) and the upper steel beam (3), a bolt (702) is arranged in the through groove (706), and a nut (705) is installed at one end of the bolt (702).

2. The steel structure fabricated earthquake-resistant building of claim 1, wherein: stabilizing structure (1) includes spud pile (101), steady rest (102), staple (103) and fixed plate (104), the bottom of wall body (4) is all fixed in fixed plate (104), staple (103) have all been run through to four corners of fixed plate (104), the bottom mounting of fixed plate (104) has spud pile (101), the both sides of spud pile (101) all are fixed with steady rest (102).

3. The steel structure fabricated earthquake-resistant building of claim 2, wherein: the fixing nails (103) are arranged in four groups, and the fixing nails (103) are symmetrically distributed around the central axis of the wall body (4).

4. The steel structure fabricated earthquake-resistant building of claim 1, wherein: girder steel (2) are provided with a plurality of down, a plurality of girder steel (2) are equidistant distribution in the inside of wall body (4) down.

5. The steel structure fabricated earthquake-resistant building of claim 1, wherein: the heat insulation structure (6) comprises a waterproof plate (601), a heat absorption plate (602) and a heat insulation plate (603), wherein the waterproof plate (601) is fixed at the bottom end of the roof (5), the heat absorption plate (602) is fixed at the bottom end of the waterproof plate (601), and the heat insulation plate (603) is arranged at the bottom end of the heat absorption plate (602).

6. The steel structure fabricated earthquake-resistant building of claim 1, wherein: the cross section of the through groove (706) is larger than that of the plug pin (702), and a sliding structure is formed between the plug pin (702) and the through groove (706).

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