CN116290980A - Anti-seismic steel structure device for assembled building - Google Patents

Abstract

The invention provides an anti-seismic steel structure device for an assembled building, which structurally comprises an anti-seismic outer seat group, wherein the upper end of a cavity of the anti-seismic outer seat group is provided with a pressing component, and the anti-seismic steel structure device also comprises a pressing component arranged at the lower end of the pressing component; the other end of the magnetic suspension type anti-vibration outer seat assembly penetrates through the anti-vibration inner seat assembly at the bottom of the anti-vibration outer seat assembly, and the plurality of first fixing pieces are arranged on the front side and the rear side of the upper end of the anti-vibration inner seat assembly.

Description

Anti-seismic steel structure device for assembled building

Technical Field

The invention relates to an anti-seismic steel structure device for an assembled building, and belongs to the field of anti-seismic steel structure devices.

Background

The building engineering refers to engineering entities formed by building various house buildings and auxiliary facilities thereof and installing and moving lines, pipelines and equipment matched with the building buildings.

However, the existing line pipeline is supported and fixed by adopting a fixed steel structure frame in general, after the line pipeline is subjected to vibration of an external environment, the connection end of the steel structure frame is easy to loose in structure or deform and crack integrally, so that the connection of the line pipeline is affected, and the falling potential safety hazard exists.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an anti-seismic steel structure device for an assembled building, so as to solve the existing problems.

In order to achieve the above object, the present invention is realized by the following technical scheme: the anti-seismic steel structure device for the assembled building structurally comprises an anti-seismic outer seat group, wherein a pressing component is arranged at the upper end of a cavity of the anti-seismic outer seat group, and the anti-seismic steel structure device also comprises a pressing component arranged at the lower end of the pressing component; the other end of the second fixing piece penetrates through the bottom of the anti-seismic outer seat group, a plurality of first fixing pieces arranged on the front and rear sides of the upper end of the anti-seismic inner seat group, a plurality of second fixing pieces arranged on the front and rear ends of the left and right sides of the anti-seismic inner seat group, and the middle of the anti-seismic inner seat group; the first magnets and the third magnets are mutually in the same level of repulsion, and the second magnets and the fourth magnets are mutually in the same level of repulsion.

The anti-vibration outer seat group comprises an outer seat body, a plurality of first magnet caulking grooves arranged at the left end and the right end of the inner side of the outer seat body, a second magnet caulking groove arranged at the lower end of the inner side of the outer seat body, and a plurality of movable grooves arranged beside the second magnet caulking groove, wherein a plurality of compression assembly screw holes are formed in the upper end of the inner side of the outer seat body.

The further improvement is, push down the subassembly including pushing down the frame, set up in pushing down the spring roof groove in frame bottom surface, link up the lift movable groove that sets up in spring roof groove middle part, run through the stabilizer bar that sets up on the lift movable groove down, stabilizer bar body of rod lower extreme cover is equipped with the spring.

The shock-resistant inner seat group comprises an inner seat body, a spring base groove arranged on the top surface of the inner seat body, a plurality of third magnet grooves arranged on the left side and the right side of the inner seat body, a fourth magnet groove arranged on the bottom surface of the inner seat body, a stabilizer bar screw hole arranged on the bottom surface of the spring base groove, and a plurality of first fixing piece screw holes arranged on the upper ends of the front side and the rear side surface of the inner seat body, wherein a plurality of first stabilizer bars are vertically arranged on the side surface of the bottom surface of the inner seat body.

The further improvement is that each first fixing piece comprises a fixing piece body, the fixing piece body is of an L-shaped structure, a plurality of adjusting screw grooves are formed in the upper end of the fixing piece body, and a plurality of fixing screw holes are formed in the lower end of the fixing piece body.

The further improvement is that each second fixing piece comprises a fixing seat, a fixing bolt connected to the fixing seat in a threaded mode and a fixing block arranged on one side of the fixing bolt.

Further improved is that the diameter of each movable groove is 5-8MM larger than the diameter of each first stabilizer bar.

Further improved is that the diameter of the lifting movable groove is 5-8MM larger than the diameter of the stabilizer bar.

Further improved is that the fixing block is made of plastic material.

Further improved is that the two sides of the pipeline are provided with pressing seats which are matched with the second fixing pieces to be pressed and fixed.

The further improvement is that the top end of the pipeline is provided with screw hole seats which are matched with the first fixing pieces to be locked and fixed by screws.

The beneficial effects of the invention are as follows:

the invention provides an anti-seismic steel structure device for an assembled building, which is designed by combining structures of a pressing component, an anti-seismic inner seat group, a first magnet, a second magnet, a third magnet and a fourth magnet in a cavity of an anti-seismic outer seat group, so that the anti-seismic inner seat group can realize magnetic suspension in the cavity of the anti-seismic outer seat group, and when a pipeline receives external environmental force, the repulsive magnetic acting force can quickly buffer and eliminate external force and adjust reset in time, thereby playing an anti-seismic effect, avoiding the problem that the external force directly and rigidly impacts a steel structure frame through the pipeline, effectively solving the problem that the connecting end easily generates structure loosening or integral deformation cracking after the existing steel structure frame receives the external environmental force, avoiding potential safety hazards.

Drawings

FIG. 1 is a schematic structural view of an earthquake-resistant steel structure for fabricated building, according to the present invention;

FIG. 2 is a schematic view of the structure of the anti-seismic outer seat assembly of the present invention;

FIG. 3 is a schematic view of a pressing assembly according to the present invention;

FIG. 4 is a schematic view of the structure of the anti-seismic inner seat assembly of the present invention;

FIG. 5 is a schematic view of a first fastener according to the present invention;

fig. 6 is a schematic structural view of a second fixing member according to the present invention.

Detailed Description

The invention is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

Referring to fig. 1-6, the present invention provides a schematic technical scheme of an earthquake-resistant steel structure device for an assembled building, which comprises: the anti-vibration outer seat assembly structurally comprises an anti-vibration outer seat assembly 1, wherein a pressing component 2 is arranged at the upper end of a cavity of the anti-vibration outer seat assembly 1, and the anti-vibration outer seat assembly also comprises a pressing component 2 arranged at the lower end of the pressing component 2; the other end of the second fixing piece penetrates through the earthquake-resistant inner seat group 3 at the bottom of the earthquake-resistant outer seat group 1, a plurality of first fixing pieces 4 arranged on the front and rear sides of the upper end of the earthquake-resistant inner seat group 3, a plurality of second fixing pieces 5 arranged on the front and rear ends of the left and right sides of the earthquake-resistant inner seat group 3, and the middle part of the earthquake-resistant inner seat group 3; the first magnets 7 and the third magnets 9 repel each other at the same stage, the second magnets 8 repel the fourth magnets 10 at the same stage, the anti-vibration outer seat 1 comprises an outer seat body 11, a plurality of first magnet caulking grooves 12 arranged at the left and right ends of the inner side of the outer seat body 11, a plurality of second magnet caulking grooves 13 arranged at the lower end of the inner side of the outer seat body 11, a plurality of movable grooves 14 arranged beside the second magnet caulking grooves 13, a plurality of compression assembly screw holes 15 are arranged at the upper end of the inner side of the outer seat body 11, the pressing component 2 comprises a pressing frame 21, a spring top groove 22 arranged on the bottom surface of the pressing frame 21, a lifting movable groove 23 penetrating through the middle of the spring top groove 22, and a stabilizer bar 24 penetrating through the lifting movable groove 23, wherein the lower end of the stabilizer bar 24 bar body is sleeved with a spring 25, the anti-vibration inner seat group 3 comprises an inner seat body 31, a spring bottom groove 32 arranged on the top surface of the inner seat body 31, a plurality of third magnet grooves 33 arranged on the left and right sides of the inner seat body 31, a fourth magnet groove 34 arranged on the bottom surface of the inner seat body 31, a stabilizer bar screw hole 35 arranged on the bottom surface of the spring bottom groove 32, a plurality of first fixing piece screw holes 36 arranged on the upper ends of the front and rear side surfaces of the inner seat body 31, a plurality of first stabilizer bars 37 are vertically arranged on the side of the bottom surface of the inner seat body 31, each first fixing piece 4 comprises a fixing piece body 41, the fixing member body 41 has an L-shaped structure, a plurality of adjusting screw grooves 42 are formed in the upper end of the fixing member body 41, a plurality of fixing screw holes 43 are formed in the lower end of the fixing member body 41, and each second fixing member 5 comprises a fixing seat 51, a fixing bolt 52 in threaded connection with the fixing seat 51, and a fixing block 53 arranged on one side of the fixing bolt 52.

Working principle:

firstly, each first magnet 7 and each second magnet 8 are attached to each first magnet caulking groove 12 and each second magnet caulking groove 13 of the anti-vibration outer seat group 1 in advance through glue, then each third magnet 9 and each fourth magnet 10 are attached to each third magnet groove 33 and each fourth magnet groove 34 of the anti-vibration inner seat group 3 through glue, then the anti-vibration inner seat group 3 is integrally and movably sleeved in the middle of the cavity of the anti-vibration outer seat group 1, at the moment, each first magnet 7 and each third magnet 9 and each second magnet 8 at the moment and the fourth magnet 10 are subjected to peer magnetic repulsion, then the pressing component 2 is placed at the upper end of the cavity of the anti-vibration outer seat group 1 and presses down to install and fix the anti-vibration inner seat group 3, and under the action of each movable groove 14 and each first stabilizer bar 37 and the lifting movable groove 23 and the stabilizer bar 24, the anti-vibration inner seat group 3 is realized in the cavity of the anti-vibration outer seat group 1, then the anti-vibration structure device is integrally installed on a building, then the pipeline 6 is installed on the anti-vibration inner seat group 3, and the pipeline is subjected to the direct displacement of the anti-vibration inner seat group 6 through the first guide piece and the second guide piece 4, the anti-vibration device is subjected to the direct displacement of the anti-vibration inner seat group 6, the anti-vibration device is subjected to the shock structure is not subjected to the direct displacement deformation, and the shock absorber is subjected to the shock absorber, and the shock absorber is subjected to the displacement deformation, and the shock absorber is subjected to the shock absorber deformation, and the shock absorber deformation is subjected to the shock absorber deformation, and the shock absorber deformation is the shock absorber deformation.

While the fundamental and principal features of the invention and advantages of the invention have been shown and described, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. 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.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (6)

1. The utility model provides an antidetonation steel construction device for assembled building, its structure includes antidetonation outer seat group (1), its characterized in that: the upper end of the cavity of the anti-seismic outer seat group (1) is provided with a pressing component (2), and the anti-seismic outer seat group also comprises a pressing component (2) arranged at the lower end; the other end of the second fixing piece penetrates through the earthquake-resistant inner seat group (3) at the bottom of the earthquake-resistant outer seat group (1), a plurality of first fixing pieces (4) arranged on the front side and the rear side of the upper end of the earthquake-resistant inner seat group (3), a plurality of second fixing pieces (5) arranged on the front side and the rear side of the left side and the right side of the earthquake-resistant inner seat group (3), and the middle part of the earthquake-resistant inner seat group (3) is penetrated through; and through each first mounting (4) and each pipeline (6) that second mounting (5) fixed, inlay locate a plurality of first magnetite (7) of antidetonation outside seat group (1) cavity left and right sides, inlay locate second magnetite (8) of antidetonation outside seat group (1) cavity lower extreme, inlay locate a plurality of third magnetite (9) of antidetonation inside seat group (3) left and right sides, inlay locate fourth magnetite (10) of antidetonation inside seat group (3) bottom surface, each first magnetite (7) and each third magnetite (9) are with the mutual homopolar repulsion, second magnetite (8) with fourth magnetite (10) are with the mutual homopolar repulsion.

2. An earthquake-resistant steel structure for a fabricated building as set forth in claim 1, wherein: the anti-seismic outer seat group (1) comprises an outer seat body (11), a plurality of first magnet caulking grooves (12) arranged at the left end and the right end of the inner side of the outer seat body (11), a second magnet caulking groove (13) arranged at the lower end of the inner side of the outer seat body (11), and a plurality of movable grooves (14) arranged beside the second magnet caulking groove (13), wherein a plurality of compression assembly screw holes (15) are formed in the upper end of the inner side of the outer seat body (11).

3. An earthquake-resistant steel structure for a fabricated building as set forth in claim 1, wherein: the pressing assembly (2) comprises a pressing frame (21), a spring top groove (22) arranged on the bottom surface of the pressing frame (21), a lifting movable groove (23) penetrating through the middle of the spring top groove (22) and a stabilizer bar (24) penetrating through the lifting movable groove (23), and a spring (25) is sleeved at the lower end of a rod body of the stabilizer bar (24).

4. An earthquake-resistant steel structure for a fabricated building as set forth in claim 1, wherein: the anti-seismic inner seat group (3) comprises an inner seat body (31), a spring base groove (32) arranged on the top surface of the inner seat body (31), a plurality of third magnet grooves (33) arranged on the left side and the right side of the inner seat body (31), a fourth magnet groove (34) arranged on the bottom surface of the inner seat body (31), a stabilizer bar screw hole (35) arranged on the bottom surface of the spring base groove (32), and a plurality of first fixing piece screw holes (36) arranged on the upper ends of the front side and the rear side surface of the inner seat body (31), wherein a plurality of first stabilizer bars (37) are vertically arranged on the side of the bottom surface of the inner seat body (31).

5. An earthquake-resistant steel structure for a fabricated building as set forth in claim 1, wherein: each first fixing piece (4) comprises a fixing piece body (41), the fixing piece body (41) is of an L-shaped structure, a plurality of adjusting screw grooves (42) are formed in the upper end of the fixing piece body (41), and a plurality of fixing screw holes (43) are formed in the lower end of the fixing piece body (41).

6. An earthquake-resistant steel structure for a fabricated building as set forth in claim 1, wherein: each second fixing piece (5) comprises a fixing seat (51), a fixing bolt (52) connected to the fixing seat (51) in a threaded mode, and a fixing block (53) arranged on one side of the fixing bolt (52).

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