CN212295744U - Shock-absorbing structure is consolidated to building - Google Patents

Abstract

The utility model relates to the technical field of building reinforcement, in particular to a building reinforcement shock absorption structure which reduces the occurrence of the situation of overall collapse caused by vibration and improves the stability; the top of base is provided with the multiunit support frame, the top of base is connected with the bottom of multiunit support frame, be provided with the multiunit crossbeam on the multiunit support frame, the multiunit support frame is connected with the multiunit crossbeam, the top of multiunit crossbeam is provided with the layer, the top of multiunit crossbeam is connected with the bottom on layer, the bottom of base is provided with the first mount of multiunit, the bottom of base is connected with the top of the first mount of multiunit, the bottom of the first mount of multiunit all is provided with the buffer beam, the top of the first mount of multiunit is connected with the top of multiunit buffer beam respectively, the bottom of the first mount of multi.

Description

Shock-absorbing structure is consolidated to building

Technical Field

The utility model relates to a building reinforcement's technical field especially relates to a building reinforcement shock-absorbing structure.

Background

It is known that the construction of concrete structures often has cracks, which have a serious impact on the safety performance of the construction structures. Therefore, if people can adopt a reinforcement mode adaptive to the functions of buildings in the construction and transformation processes, the quality of construction engineering is greatly improved, and the safety and stability of daily life of people are ensured.

The reasons for the need for reinforcement of building structures are many and mainly manifest in several areas:

1. building design is not proper, and seismic design is not proper.

2. The designer designs the construction according to the limit state design method of the building, and the reinforced concrete structure and the masonry structure of the building cannot meet the requirements of strength, rigidity and durability of the building structure due to various reasons, such as insufficient structural bearing capacity and rigidity caused by the improvement of design specification requirements and construction defects, so that the building structure needs to be identified and reinforced.

3. The existing building structure can not meet the current use requirements or the safety of the building is not high due to the damage and the damage of the building structure caused by improper use or long-term overhaul of the building or the damage of the building structure caused by the occurrence of disastrous events, and the building needs to be identified and reinforced.

4. Because the original design can not meet the current requirements of residents for a long time, the household requirements can change the floor arrangement and the use functions of the building, but once the use of the building is changed, the building structure is changed, so that the building structure is inconsistent with the originally designed table, the strength and the rigidity of the original structure can not meet the current requirements, and the structure needs to be identified and reinforced.

Principle of building structure reinforcement

1. Before the building structure is reinforced, the structural reliability and the earthquake resistance of the building structure must be identified, and a reinforcement design scheme must be determined according to the identification conclusion.

2. When the reinforcement calculation is performed, the calculation should be determined according to the actual stress condition of the building structure. In addition, the reinforcing section area must adopt an actual effective sectional area, and the reinforcing stress hysteresis characteristic is combined, so that the reinforcing part and the original structure can work in a cooperative manner, the building is easy to collapse under the condition of earthquake, and the stability is poor.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a condition that leads to whole collapse when reducing vibrations takes place, improves a building reinforcement shock-absorbing structure of stability.

The utility model discloses a building reinforcing and shock-absorbing structure, the top of base is provided with multiunit support frame, the top of base is connected with the bottom of multiunit support frame, be provided with the multiunit crossbeam on the multiunit support frame, multiunit support frame is connected with the multiunit crossbeam, the top of multiunit crossbeam is provided with the roof, the top of multiunit crossbeam is connected with the bottom of roof, the bottom of base is provided with multiunit first mount, the bottom of base is connected with the top of multiunit first mount, the bottom of multiunit first mount all is provided with the buffer beam, the top of multiunit first mount is connected with the top of multiunit buffer beam respectively, the bottom of multiunit first mount all is provided with the spring, the bottom of multiunit first mount is connected with the top of multiunit spring, the bottom of multiunit buffer beam all is provided with the second mount, the top of multiunit buffer beam is connected, the bottom of multiunit spring is connected with the top of multiunit second mount respectively, and the bottom of multiunit second mount all is provided with founds the mound, and the bottom of multiunit second mount is connected with the top that the mound was found to the multiunit respectively.

The utility model discloses a shock-absorbing structure is consolidated to building all is provided with two sets of first triangle fixed plates on the multiunit support frame, and the multiunit support frame is connected with the first triangle fixed plate of multiunit respectively, and the bottom of multiunit crossbeam is connected with the top of the first triangle fixed plate of multiunit.

The utility model discloses a shock-absorbing structure is consolidated to building, the bottom of base are provided with the flexible protection casing of multiunit, and the bottom of base is connected with the top of the flexible protection casing of multiunit, and the bottom of the flexible protection casing of multiunit is connected with the top of the mound is found to the multiunit respectively.

The utility model discloses a shock-absorbing structure is consolidated to building, all be provided with two sets of triangle mounts on the top of the flexible protection casing of multiunit, the flexible protection casing of multiunit is connected with multiunit triangle mount respectively, the top of the flexible protection casing of multiunit all is provided with the first fixed plate of multiunit, the top and the first fixed plate of multiunit of the flexible protection casing of multiunit are connected, multiunit triangle mount and the first fixed plate of multiunit and pedestal connection, the bottom of the flexible protection casing of multiunit all is provided with multiunit second fixed plate, the bottom and the multiunit second fixed plate of the flexible protection casing of multiunit are connected, the multiunit founds the.

The utility model discloses a shock-absorbing structure is consolidated to building, the bottom of base is provided with the wiring pipeline, and the wiring pipeline passes the soil layer, and the wiring pipeline be provided with the light, and the bottom of wiring pipeline is connected with the top of light, and the top of light is provided with the electric wire, and the electric wire on light top passes the wiring pipeline and is connected with the battery.

The utility model discloses a shock-absorbing structure is consolidated to building all is provided with multiunit second triangle fixed plate on the multiunit crossbeam, and the multiunit crossbeam is connected with multiunit second triangle fixed plate, and the bottom on room layer is connected with the top of multiunit second triangle fixed plate.

The utility model discloses a shock-absorbing structure is consolidated to building, the bottom of multiunit support frame all are provided with the third fixed plate, and the bottom of multiunit support frame is connected with the top of multiunit third fixed plate, and the bottom of multiunit third fixed plate is connected with the top of base.

The utility model discloses a shock-absorbing structure is consolidated to building, the bottom of many groups founding the mound all is provided with the fourth fixed plate, and the bottom of multiunit founding the mound is connected with the top of multiunit fourth fixed plate.

Compared with the prior art, the beneficial effects of the utility model are that: cushion through buffer beam and spring when the whole vibrations that take place of base, the condition that leads to whole collapse takes place when reducing vibrations, improves stability.

Drawings

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

fig. 2 is a schematic view of the structure of the present invention in partial section;

FIG. 3 is a schematic view of the axial measurement structure of the present invention;

in the drawings, the reference numbers: 1. a base; 2. a support frame; 3. a cross beam; 4. a roof layer; 5. a first fixing frame; 6. a buffer rod; 7. a spring; 8. a second fixing frame; 9. erecting a pier; 10. a first triangular fixing plate; 11. a telescopic protective cover; 12. a triangular fixing frame; 13. a first fixing plate; 14. a second fixing plate; 15. an illuminating lamp; 16. a second triangular fixing plate; 17. a third fixing plate; 18. and a fourth fixing plate.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

As shown in FIGS. 1 to 3, the utility model relates to a building reinforcing and shock-absorbing structure, the top of a base 1 is provided with a plurality of groups of supporting frames 2, the top of the base 1 is connected with the bottom of the plurality of groups of supporting frames 2, a plurality of groups of cross beams 3 are arranged on the plurality of groups of supporting frames 2, the plurality of groups of supporting frames 2 are connected with the plurality of groups of cross beams 3, the top of the plurality of groups of cross beams 3 is provided with a roof layer 4, the top of the plurality of groups of cross beams 3 is connected with the bottom of the roof layer 4, the bottom of the base 1 is provided with a plurality of groups of first fixing frames 5, the bottom of the base 1 is connected with the top of the plurality of groups of first fixing frames 5, the bottom of the plurality of groups of first fixing frames 5 is provided with a buffer rod 6, the top of the plurality of groups of first fixing frames 5 is respectively connected with the top of the plurality of buffer, the top ends of the groups of buffer rods 6 are respectively connected with the top ends of the groups of second fixing frames 8, the bottom ends of the groups of springs 7 are respectively connected with the top ends of the groups of second fixing frames 8, the bottom ends of the groups of second fixing frames 8 are respectively provided with vertical piers 9, and the bottom ends of the groups of second fixing frames 8 are respectively connected with the top ends of the groups of vertical piers 9; when the base 1 is vibrated integrally, the buffer rod 6 and the spring 7 are used for buffering, so that the integral collapse caused by vibration is reduced, and the stability is improved.

The utility model discloses a building reinforcing and shock absorbing structure, the multiunit support frame 2 is all provided with two sets of first triangle fixed plates 10, the multiunit support frame 2 is respectively connected with the multiunit first triangle fixed plates 10, the bottom of the multiunit crossbeam 3 is connected with the top of the multiunit first triangle fixed plates 10; can consolidate crossbeam 3 through setting up first triangle fixed plate 10, reduce crossbeam 3 and take place the condition that drops, improve the fastness.

The utility model discloses a building reinforcing and shock absorbing structure, the bottom of base 1 is provided with the flexible protection casing of multiunit 11, the bottom of base 1 is connected with the top of the flexible protection casing of multiunit 11, the bottom of the flexible protection casing of multiunit 11 is connected with the top of the mound 9 of multiunit respectively; the condition that the foreign matter causes the jam to spring 7 can be reduced through setting up flexible protection casing 11 and take place, improves the practicality.

The utility model discloses a building reinforcing and shock absorbing structure, all be provided with two sets of triangle mount 12 on the top of multiunit flexible protection casing 11, multiunit flexible protection casing 11 is connected with multiunit triangle mount 12 respectively, the top of multiunit flexible protection casing 11 all is provided with multiunit first fixed plate 13, the top of multiunit flexible protection casing 11 is connected with multiunit first fixed plate 13, multiunit triangle mount 12 and multiunit first fixed plate 13 are connected with base 1, the bottom of multiunit flexible protection casing 11 all is provided with multiunit second fixed plate 14, the bottom of multiunit flexible protection casing 11 is connected with multiunit second fixed plate 14, multiunit founds mound 9 and is connected with multiunit second fixed plate 14 respectively; can fix flexible protection casing 11 through setting up triangle mount 12, first fixed plate 13 and second fixed plate 14, reduce the condition emergence of the downward slippage of flexible protection casing 11, improve the fastness.

The utility model discloses a building reinforcing and shock absorbing structure, the bottom of base 1 is provided with the wiring pipeline, and the wiring pipeline passes through the soil layer, and the wiring pipeline is provided with light 15, and the bottom of wiring pipeline is connected with the top of light 15, and the top of light 15 is provided with the electric wire, and the electric wire on the top of light 15 passes the wiring pipeline and is connected with the battery; through setting up light 15 can be more convenient when opposition mound 9, first triangle fixed plate 10, flexible protection casing 11, triangle mount 12, first fixed plate 13 and the inspection of second fixed plate 14 are maintained, the convenience improves.

The utility model discloses a building reinforcing and shock absorbing structure, the multiunit crossbeam 3 is all provided with multiunit second triangle fixed plate 16, multiunit crossbeam 3 is connected with multiunit second triangle fixed plate 16, the bottom of roof layer 4 is connected with the top of multiunit second triangle fixed plate 16; the second triangular fixing plate 16 can be used for reinforcing the connection between the bottom ends of the plurality of groups of cross beams 3 and the roof layer 4, and the firmness is improved.

The utility model discloses a building reinforcing and shock-absorbing structure, the bottom of the multiple groups of supporting frames 2 are all provided with third fixed plates 17, the bottom of the multiple groups of supporting frames 2 is connected with the top of the multiple groups of third fixed plates 17, and the bottom of the multiple groups of third fixed plates 17 is connected with the top of the base 1; the third fixing plate 17 can reduce the rollover of the support frame 2 from the base 1, and the firmness is improved.

In the building reinforcing and shock absorbing structure of the utility model, the bottom ends of the multiple groups of vertical piers 9 are provided with the fourth fixing plates 18, and the bottom ends of the multiple groups of vertical piers 9 are connected with the top ends of the multiple groups of fourth fixing plates 18; the fourth fixing plate 18 can reduce the deviation of the multiple groups of vertical piers 9, and improve the firmness.

The utility model discloses a shock-absorbing structure is consolidated to building, it is at the during operation, and buffer beam 6 and spring 7 push down when at first taking place vibrations, alleviate holistic vibrations can.

The installation mode, the connection mode or the arrangement mode of the building reinforcing and damping structure of the utility model are common mechanical modes, and the building reinforcing and damping structure can be implemented as long as the beneficial effects can be achieved; the utility model discloses a building reinforcement shock-absorbing structure's crossbeam 3 for purchase on the market, this technical staff in the industry only need according to its subsidiary instructions install and operate can.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (8)

1. A building reinforcing and shock-absorbing structure is characterized in that a plurality of groups of supporting frames (2) are arranged at the top end of a base (1), the top end of the base (1) is connected with the bottom ends of the plurality of groups of supporting frames (2), a plurality of groups of cross beams (3) are arranged on the plurality of groups of supporting frames (2), the plurality of groups of supporting frames (2) are connected with the plurality of groups of cross beams (3), a roof layer (4) is arranged at the top end of the plurality of groups of cross beams (3), a plurality of groups of first fixing frames (5) are arranged at the bottom end of the base (1), the bottom end of the base (1) is connected with the top ends of the plurality of groups of first fixing frames (5), buffer rods (6) are arranged at the bottom ends of the plurality of groups of first fixing frames (5), the top ends of the plurality of groups of first fixing frames (5) are respectively connected with the top ends of the plurality of buffer, the bottom of the first mount of multiunit (5) is connected with the top of multiunit spring (7), the bottom of multiunit buffer beam (6) all is provided with second mount (8), the bottom of multiunit buffer beam (6) is connected with the top of multiunit second mount (8) respectively, the bottom of multiunit spring (7) is connected with the top of multiunit second mount (8) respectively, the bottom of multiunit second mount (8) all is provided with upright mound (9), the bottom of multiunit second mount (8) is connected with the top that the mound (9) were found to the multiunit respectively.

2. The building reinforcing and shock absorbing structure of claim 1, wherein two sets of first triangular fixing plates (10) are disposed on each of the plurality of sets of supporting frames (2), the plurality of sets of supporting frames (2) are respectively connected to the plurality of sets of first triangular fixing plates (10), and the bottom ends of the plurality of sets of cross beams (3) are connected to the top ends of the plurality of sets of first triangular fixing plates (10).

3. The building reinforcing and shock absorbing structure of claim 2, wherein the bottom end of the base (1) is provided with a plurality of groups of telescopic protection covers (11), the bottom end of the base (1) is connected with the top ends of the plurality of groups of telescopic protection covers (11), and the bottom ends of the plurality of groups of telescopic protection covers (11) are respectively connected with the top ends of the plurality of groups of vertical piers (9).

4. The building reinforcing and shock absorbing structure of claim 3, wherein two sets of triangular fixing frames (12) are disposed on top ends of the plurality of sets of telescopic protection covers (11), the plurality of sets of telescopic protection covers (11) are respectively connected with the plurality of sets of triangular fixing frames (12), a plurality of sets of first fixing plates (13) are disposed on top ends of the plurality of sets of telescopic protection covers (11), top ends of the plurality of sets of telescopic protection covers (11) are connected with the plurality of sets of first fixing plates (13), the plurality of sets of triangular fixing frames (12) and the plurality of sets of first fixing plates (13) are connected with the base (1), a plurality of sets of second fixing plates (14) are disposed on bottom ends of the plurality of sets of telescopic protection covers (11), bottom ends of the plurality of sets of telescopic protection covers (11) are connected with the plurality of sets of second fixing plates (14), and the.

5. The building reinforcing and shock absorbing structure of claim 4, wherein the bottom end of the base (1) is provided with a wiring pipeline, the wiring pipeline passes through the soil layer, the wiring pipeline is provided with a lighting lamp (15), the bottom end of the wiring pipeline is connected with the top end of the lighting lamp (15), the top end of the lighting lamp (15) is provided with an electric wire, and the electric wire at the top end of the lighting lamp (15) passes through the wiring pipeline to be connected with the storage battery.

6. The building reinforcing and shock absorbing structure of claim 5, wherein a plurality of sets of second triangular fixing plates (16) are arranged on each set of cross beams (3), the plurality of sets of cross beams (3) are connected with the plurality of sets of second triangular fixing plates (16), and the bottom ends of the roof layers (4) are connected with the top ends of the plurality of sets of second triangular fixing plates (16).

7. The building reinforcing and shock absorbing structure of claim 6, wherein the bottom ends of the multiple groups of supporting frames (2) are provided with third fixing plates (17), the bottom ends of the multiple groups of supporting frames (2) are connected with the top ends of the multiple groups of third fixing plates (17), and the bottom ends of the multiple groups of third fixing plates (17) are connected with the top end of the base (1).

8. A shock-absorbing and reinforcing structure for buildings according to claim 7, wherein the bottom ends of the multiple sets of the vertical piers (9) are provided with the fourth fixing plates (18), and the bottom ends of the multiple sets of the vertical piers (9) are connected with the top ends of the multiple sets of the fourth fixing plates (18).

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