CN217734416U - Earthquake-resistant device for multi-storey building - Google Patents

Abstract

The utility model discloses a multi-storey building antidetonation device in building antidetonation field, spacing spout through the design, the i-shaped stopper, fixation nut, the shock attenuation steel sheet, the ribbon, spacing flat board, the plug-in components, separation blade and fixture block, the bottom plate upper end is provided with two spacing spouts, bottom plate upper end mid-mounting has a plurality of shock attenuation steel sheets, two ribbons are installed in the shock attenuation steel sheet outside, the shock attenuation steel sheet is when the installation, need slide a plurality of shock attenuation steel sheets into the bottom plate upper end from the bottom plate side, all block into spacing spout with the plug-in components and the fixture block of the spacing dull and stereotyped inside of bottom shock attenuation steel sheet both sides, then all slide into the bottom plate middle part with fixture block and shock attenuation steel sheet, accomplish the installation of shock attenuation steel sheet, and be convenient for the use of shock attenuation steel sheet, then all block into the inside both ends of spacing spout with a plurality of i-shaped stoppers, then screw up fixation nut downwards, it is fixed to fix the i-shaped stopper, prevent fixture block and shock attenuation steel sheet roll-off when using, improve the stability of shock attenuation steel sheet and antidetonation device.

Description

Earthquake-resistant device for multi-storey building

Technical Field

The utility model relates to a building antidetonation field specifically is a multi-storey building antidetonation device.

Background

The multi-storey building is a building with a building height of more than 10 meters and less than 24 meters, and the building number of the building is more than 3 and less than 7, but people generally generalize buildings with more than 2 stories into the multi-storey building, one to three stories are low-storey houses, four to six stories are multi-storey houses, seven to nine stories are medium-high-storey houses, ten and more than ten stories are high-storey houses, the civil buildings except the residential buildings with a building height of not more than 24m are single-storey and multi-storey buildings, the civil buildings with a building height of more than 24m are high-storey buildings, and the civil buildings with a building height of more than 100m are super high-storey buildings.

In the prior art, when a multi-storey building encounters natural disasters such as an earthquake, because the building is high, the bottom foundation of the multi-storey building needs to be provided with an anti-seismic component, and when the existing multi-storey building encounters the earthquake, dangers such as collapse easily occur, threatens the life safety of residents, and reduces the safety and the stability of an anti-seismic device.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a multi-storey building antidetonation device to solve the problem that proposes in the above-mentioned background art.

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

the utility model provides a multi-storey building antidetonation device, comprises a base plate, bottom plate upper end mid-mounting has a plurality of shock attenuation steel sheets, two ribbons, lower extreme are all installed in the shock attenuation steel sheet outside the shock attenuation steel sheet both sides all are provided with spacing dull and stereotyped, spacing dull and stereotyped inside all is provided with two spacing holes, plug-in components are all installed to spacing downthehole portion, the equal fixed mounting in plug-in components upper end has the separation blade, the equal fixed mounting of plug-in components lower extreme has the fixture block.

As a further aspect of the present invention: the bottom plate upper end is provided with two spacing spouts, need slide into the bottom plate upper end with a plurality of shock attenuation steel sheets from the bottom plate side, all block in the spacing dull and stereotyped inside plug-in components and the fixture block of bottom shock attenuation steel sheet both sides in the spacing spout, then all slide into the bottom plate middle part with fixture block and shock attenuation steel sheet, accomplish the installation of shock attenuation steel sheet.

As a further aspect of the present invention: i-shaped limiting blocks are arranged on two inner sides of the two limiting chutes respectively, fixing nuts are arranged on the front and rear portions of the upper ends of the I-shaped limiting blocks in a threaded mode, the I-shaped limiting blocks can be clamped into the two inner ends of the limiting chutes respectively, then the fixing nuts are screwed downwards to fix the I-shaped limiting blocks, and the clamping blocks and the damping steel plate are prevented from sliding out when the damping steel plate is used.

As a further aspect of the present invention: the utility model discloses a multi-storey building, including bottom plate, first telescopic link, backup pad, the equal fixed mounting in bottom plate upper end four corners has first telescopic link, first spring is all installed in the first telescopic link outside, the equal fixed mounting in first telescopic link upper end has the backup pad, and the backup pad is fixed in the bottom plate upper end through first telescopic link and first spring, and the backup pad of can being convenient for is spacing, and when the multi-storey building suffered to strike or natural disasters such as earthquake, through the support of first spring and first telescopic link, can effectively the shock attenuation.

As a further aspect of the present invention: the utility model discloses a damping device for building, including backup pad, recess, connecting piece, damping plate, first spring, second telescopic link, connection piece upper end, damping plate, shock attenuation plate, second telescopic link, connecting piece upper end and second spring, the inside recess that is provided with in backup pad upper end, recess bottom fixed mounting has a plurality of second telescopic links, the second spring is all installed in the second telescopic link outside, the equal fixed mounting in second telescopic link upper end has the connection piece, connection piece upper end fixed mounting has the damping plate, and the damping plate passes through a plurality of second telescopic links and the second spring is fixed inside the backup pad, and the building is installed in the damping plate upper end, and when the building vibrations, a plurality of second telescopic links and second spring can effectively carry out a shock attenuation work to the building, and when vibration amplitude is great, the shock attenuation steel sheet and the first spring of backup pad lower extreme can carry out the secondary shock attenuation.

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

the utility model discloses in, spacing spout through the design, the i-shaped stopper, fixation nut, the shock attenuation steel sheet, the ribbon, spacing flat board, the plug-in components, separation blade and fixture block, the bottom plate upper end is provided with two spacing spouts, bottom plate upper end mid-mounting has a plurality of shock attenuation steel sheets, two ribbons are installed in the shock attenuation steel sheet outside, lower extreme shock attenuation steel sheet both sides all are provided with spacing flat board, spacing dull and stereotyped inside all is provided with spacing hole, plug-in components are all installed to spacing downthehole portion, the separation blade is all installed to the plug-in components upper end, the fixture block is all installed to plug-in components lower extreme, the i-shaped stopper is all installed to spacing spout both sides, fixation nut is all installed to stopper upper end front and back portion, the shock attenuation steel sheet when the installation, need slide into the bottom plate upper end with a plurality of shock attenuation steel sheets from the bottom plate side, go into spacing spout with plug-in components and the equal card of the spacing dull and inboard of bottom shock attenuation steel sheet both sides, then all slide into the fixture block in the bottom plate, accomplish the installation of shock attenuation steel sheet, and be convenient for the use of shock attenuation steel sheet, then all block go into the inside both ends of spacing spout, then tighten fixation nut, fix the i-shaped stopper, prevent fixture block and shock attenuation steel sheet roll-off when using, improve the stability of shock attenuation steel sheet and shock attenuation device.

The utility model discloses in, backup pad through the design, the second telescopic link, the second spring, connection piece and shock attenuation board, the backup pad is installed to the bottom plate upper end, the inside recess that is provided with of backup pad, a plurality of second telescopic links are installed to the recess bottom, the second spring is all installed in the second telescopic link outside, the connection piece is all installed to second telescopic link upper end, the shock attenuation board is installed to the connection piece upper end, the building is fixed in shock attenuation board upper end, the shock attenuation board is fixed inside the backup pad through a plurality of second telescopic links and second spring, when the building vibrations, a plurality of second telescopic links and second spring can effectively carry out a shock attenuation work to the building, when the vibration range is great, secondary shock attenuation can be carried out to shock attenuation steel sheet and the first spring of backup pad lower extreme, effectively improve multi-layer building's antidetonation effect.

Drawings

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

FIG. 2 is a schematic structural view of a middle damping steel plate according to the present invention;

FIG. 3 is a schematic structural view of the middle bottom plate of the present invention;

fig. 4 is a schematic view of the internal structure of the middle support plate of the present invention.

In the figure: 1. a base plate; 2. a limiting chute; 3. a first telescopic rod; 4. a first spring; 5. a support plate; 6. a damping steel plate; 7. binding; 8. a limiting flat plate; 9. a limiting hole; 10. a plug-in; 11. a baffle plate; 12. a clamping block; 13. an I-shaped limiting block; 14. fixing a nut; 15. a groove; 16. a second telescopic rod; 17. a second spring; 18. connecting sheets; 19. a shock absorbing plate.

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 efforts all belong to the protection scope of the present invention.

Please refer to fig. 1-4, in the embodiment of the utility model, a multi-storey building anti-seismic device, including bottom plate 1, 1 upper end mid-mounting of bottom plate has a plurality of shock attenuation steel sheets 6, and two ribbons 7 are all installed in the 6 outsides of shock attenuation steel sheet, and 6 both sides of lower extreme shock attenuation steel sheet all are provided with spacing dull and stereotyped 8, and spacing dull and stereotyped 8 is inside all to be provided with two spacing holes 9, and insert 10 is all installed to spacing hole 9 inside, and insert 10 upper end equal fixed mounting has separation blade 11, and insert 10 lower extreme equal fixed mounting has fixture block 12.

Wherein, 1 upper end of bottom plate is provided with two spacing spouts 2, during the use, need slide into 1 upper end of bottom plate with a plurality of shock attenuation steel sheet 6 from 1 side of bottom plate, all block into spacing spout 2 with the inside plug-in components 10 of the spacing dull and stereotyped 8 of 6 both sides of bottom shock attenuation steel sheet and fixture block 12 in, then all slide into 1 middle part of bottom plate with fixture block 12 and shock attenuation steel sheet 6, accomplish the installation of shock attenuation steel sheet 6, and the use of the shock attenuation steel sheet 6 of being convenient for.

I-shaped limiting blocks 13 are mounted on two inner sides of the two limiting chutes 2, fixing nuts 14 are mounted on the front and rear portions of the upper ends of the I-shaped limiting blocks 13 in a threaded mode, when the shock absorption device is used, the I-shaped limiting blocks 13 can be clamped into two inner ends of the limiting chutes 2, then the fixing nuts 14 are screwed down, the I-shaped limiting blocks 13 are fixed, the clamping blocks 12 and the shock absorption steel plate 6 are prevented from sliding out when the shock absorption device is used, and stability of the shock absorption steel plate 6 is improved.

Equal fixed mounting in bottom plate 1 upper end four corners has first telescopic link 3, first spring 4 is all installed in the 3 outsides of first telescopic link, the equal fixed mounting in 3 upper ends of first telescopic link has backup pad 5, during the use, backup pad 5 is fixed in 1 upper end of bottom plate through first telescopic link 3 and first spring 4, the spacing of backup pad 5 of can being convenient for, and when multilayer building suffered natural disasters such as striking or earthquake, through the support of first spring 4 and first telescopic link 3, effective shock attenuation, be favorable to the protection to the building.

Inside recess 15 that is provided with in 5 upper ends of backup pad, recess 15 bottom fixed mounting has a plurality of second telescopic links 16, second spring 17 is all installed in the 16 outside of second telescopic link, the equal fixed mounting in 16 upper ends of second telescopic link has connection piece 18, connection piece 18 upper end fixed mounting has shock attenuation board 19, during the use, shock attenuation board 19 is fixed inside backup pad 5 through a plurality of second telescopic links 16 and second spring 17, the building is installed in shock attenuation board 19 upper end, when the building vibrations, a plurality of second telescopic links 16 and second spring 17 can effectively carry out a shock attenuation work to the building, when vibration amplitude is great, secondary shock attenuation can be carried out to shock attenuation steel sheet 6 and first spring 4 of 5 lower extremes of backup pad, effectively improve multi-storey building's antidetonation effect.

The utility model discloses a theory of operation is: the building is fixed on the upper end of a damping plate 19, the damping plate 19 is fixed inside a supporting plate 5 through a plurality of second telescopic rods 16 and second springs 17, when the building vibrates, the plurality of second telescopic rods 16 and second springs 17 can effectively perform primary damping work on the building, when the vibration amplitude is large, the damping steel plate 6 and first spring 4 at the lower end of the supporting plate 5 can perform secondary damping, the anti-vibration effect of the multi-layer building is effectively improved, when the damping steel plate 6 is installed, the damping steel plates 6 need to slide into the upper end of a bottom plate 1 from the side end of the bottom plate 1, the plug-in components 10 and the clamping blocks 12 inside the limiting flat plates 8 at two sides of the damping steel plate 6 are clamped into a limiting sliding groove 2, then the clamping blocks 12 and the damping steel plate 6 are slide into the middle of the bottom plate 1, the installation of the damping steel plate 6 is completed, the damping steel plate 6 is convenient to use, then the I-shaped limiting blocks 13 are clamped into two ends inside the limiting sliding grooves 2, then the fixing nuts 14 are screwed down, the I-shaped limiting blocks 13 are fixed, the clamping blocks 12 and the damping steel plate 6 are prevented from sliding out when in use, and the stability of the damping steel plate 6 and the anti-vibration device is improved.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (5)

1. A multi-storey building antidetonation device, includes bottom plate (1), its characterized in that: a plurality of shock attenuation steel sheet (6) are all installed bottom plate (1) upper end middle part, two ribbons (7) are all installed shock attenuation steel sheet (6) outside, spacing dull and stereotyped (8) all set up in the lower extreme shock attenuation steel sheet (6) both sides, two spacing holes (9) all set up in inside spacing dull and stereotyped (8), plug-in components (10) are all installed inside spacing hole (9), separation blade (11) are all installed through the fixed connection mode plug-in components (10) upper end, fixture block (12) are all installed through the fixed connection mode plug-in components (10) lower extreme.

2. An earthquake-resistant arrangement for multistoried building according to claim 1 characterised in that: two limiting sliding grooves (2) are arranged at the upper end of the bottom plate (1).

3. A earthquake-resistant arrangement for multistoried building according to claim 2 characterised in that: i-shaped limiting blocks (13) are arranged on two sides of the inner parts of the two limiting sliding grooves (2), and fixing nuts (14) are arranged on the front and rear parts of the upper ends of the I-shaped limiting blocks (13) in a threaded connection mode.

4. A multi-storey building earthquake-resistant arrangement as claimed in claim 1 wherein: first telescopic link (3) all install through fixed connection mode bottom plate (1) upper end four corners, first spring (4) are all installed first telescopic link (3) outside, backup pad (5) are installed through fixed connection mode first telescopic link (3) upper end.

5. A earthquake-resistant arrangement for multistoried building according to claim 4 characterised in that: recess (15) set up in inside backup pad (5) upper end, a plurality of second telescopic links (16) are all installed through fixed connection mode recess (15) bottom, and second spring (17) are all installed the second telescopic link (16) outside, connection piece (18) are all installed through fixed connection mode second telescopic link (16) upper end, shock attenuation board (19) are installed through fixed connection mode connection piece (18) upper end.

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