CN219621962U - Shock insulation support of super high-rise building - Google Patents

Abstract

The utility model discloses a shock insulation support of a super high-rise building, which comprises an upper fixing plate, wherein the lower end of a mounting sleeve groove is fixedly connected with a lower fixing plate, a reinforcing bolt is arranged at the center of the lower end of the lower fixing plate, mounting buckle grooves are arranged at the lower end of the upper fixing plate and the upper end of the lower fixing plate, fixing bolts are inserted into the inner walls of the mounting buckle grooves, and a hydraulic pull rod is arranged between movable balls. This super high-rise building's shock insulation support can carry out multilayer shock insulation through last shock absorber and lower shock absorber, and lower shock absorber can carry out horizontal buffering support through spacing slider, spacing spout and second supporting spring in addition, and lower fixed plate can carry out hydraulic support through hydraulic pressure pull rod, installation catching groove, locking lantern ring and movable ball between the upper fixed plate in addition, and it is more stable to go up down the fixed plate and can carry out the composite installation through strengthening bolt, support cylinder, installation cover groove and spacing locking piece between the fixed plate.

Description

Shock insulation support of super high-rise building

Technical Field

The utility model relates to the technical field of shock insulation supports, in particular to a shock insulation support for a super high-rise building.

Background

The vibration isolation support is a supporting device with a structure for meeting the vibration isolation requirement, a vibration isolation layer is added between an upper structure and a foundation, the rubber vibration isolation support is installed to achieve soft connection with the ground, and about 80% of energy of an earthquake can be counteracted through the technology. Such as laminated rubber mounts (or shock-insulating rubber mounts, sandwich rubber pads, etc.). The structural member has smaller horizontal rigidity and larger vertical rigidity, can bear large horizontal deformation, and can be used as a part of a bearing system. Such anti-knock technology comes from the development of rocket engines.

The prior CN201362978Y is formed by alternately laminating and vulcanizing rubber layers and fiber layers, and in the practical use process, the rubber vibration isolation support is capable of absorbing vibration through the buffer deformation of the rubber layers, but is not convenient to assemble and install, and can generate transverse shearing force during transverse vibration absorption, and the transverse shearing force can damage the laminated structure, so that the vibration isolation effect is poor, and the vibration isolation support for super high-rise buildings is required to solve the problems.

Disclosure of Invention

The utility model aims to provide a shock insulation support for a super high-rise building, which solves the problems that the rubber shock insulation support in the background art is inconvenient to assemble and mount, and can generate transverse shearing force during transverse shock absorption, and the transverse shearing force can damage an overlapped structure and has poor shock insulation effect.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a shock insulation support of super high-rise building, includes the fixed plate, the shock insulation storehouse is installed to the fixed plate lower extreme, and the shock insulation storehouse lower extreme installs down the fixed plate, go up fixed plate lower extreme central point and put and install the support cylinder, and support cylinder outer wall fixedly connected with spacing latch segment, spacing latch segment outer wall nest mounting has the installation cover groove, and the first supporting spring of installation cover groove outer wall fixedly connected with, the shock absorber is installed to the first supporting spring other end, and goes up shock absorber lower extreme and distribute and have down the shock absorber, shock absorber lower extreme fixedly connected with spacing slider, and spacing slider side mounting has the second supporting spring, second supporting spring outer wall and spacing spout inner wall fixed connection, and spacing spout is seted up and is located the shock insulation storehouse inner wall, installation cover groove lower extreme and fixed plate fixed connection down, and fixed plate lower extreme central point installs the strengthening bolt down, install the mounting buckle groove down and install the first supporting spring of mounting buckle groove inner wall cartridge, the installation buckle groove outer wall closes the shock absorber, and install the movable ball lock sleeve collar between the movable ball is installed to the locking collar.

Preferably, the upper fixing plate is fixedly installed on the supporting column body through a reinforcing bolt and is in a plugging bolt with the lower fixing plate.

Preferably, the upper fixing plate is in hydraulic support connection with the lower fixing plate through a hydraulic pull rod, and the hydraulic pull rod is distributed in an annular position between the upper fixing plate and the lower fixing plate.

Preferably, the upper shock absorber and the lower shock absorber are distributed at four groups of symmetrical positions on the inner wall of the shock insulation bin, the lower shock absorber is transversely elastically supported and connected with the shock insulation bin in a limiting sliding groove through a second supporting spring, and the second supporting spring is distributed at an annular position on the outer wall of the limiting sliding block.

Preferably, the support column body is in spacing insertion installation with the installation sleeve groove through spacing locking piece, and the support column body is elastic support connection with last shock absorber through first support spring, first support spring is annular position distribution in the installation sleeve groove outer wall.

Preferably, the hydraulic pull rod is connected with the installation buckle groove in an overturning way through the movable ball, the movable ball is in locking fit with the installation buckle groove through the locking lantern ring, the fixing bolt is in screw insertion fit with the upper fixing plate and the lower fixing plate through the installation buckle groove, and the shape of one end of the fixing bolt is matched with the shape of the movable ball.

Compared with the prior art, the utility model has the beneficial effects that: this super high-rise building's shock insulation support can carry out multilayer shock insulation through last shock absorber and lower shock absorber, and lower shock absorber can carry out horizontal buffering support through spacing slider, spacing spout and second supporting spring in addition, and lower fixed plate can carry out hydraulic support through hydraulic pressure pull rod, installation catching groove, locking lantern ring and movable ball between the upper fixed plate in addition, and it is more stable to go up down the fixed plate and can carry out the composite installation through strengthening bolt, support cylinder, installation cover groove and spacing locking piece between the fixed plate.

Drawings

FIG. 1 is a front view of a shock insulation support for a super high rise building according to the present utility model;

FIG. 2 is a cross-sectional view of a shock-insulating support for super high-rise buildings according to the present utility model;

FIG. 3 is a schematic view showing the connection of a support column of a shock insulation support and a mounting sleeve groove of a super high-rise building;

FIG. 4 is an enlarged view of the shock insulation support of the super high-rise building of FIG. 2A;

FIG. 5 is an enlarged view of the shock insulation support of the super high-rise building of the present utility model at B in FIG. 2;

fig. 6 is an enlarged view of the shock insulation support of the super high-rise building of fig. 2 at C.

In the figure: 1. the hydraulic shock absorber comprises an upper fixing plate, 2, a lower fixing plate, 3, a shock isolation bin, 4, a fixing bolt, 5, an upper shock absorber, 6, a lower shock absorber, 7, a reinforcing bolt, 8, a supporting column body, 9, a hydraulic pull rod, 10, a mounting sleeve groove, 11, a limiting locking block, 12, a mounting buckle groove, 13, a locking sleeve ring, 14, a movable ball, 15, a first supporting spring, 16, a limiting sliding block, 17, a limiting sliding groove, 18 and a second supporting spring.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-6, the present utility model provides a technical solution: the shock insulation support for the super high-rise building comprises an upper fixing plate 1, a lower fixing plate 2, a shock insulation bin 3, a fixing bolt 4, an upper shock absorber 5, a lower shock absorber 6, a reinforcing bolt 7, a supporting column 8, a hydraulic pull rod 9, a mounting sleeve groove 10, a limit locking block 11, a mounting buckle groove 12, a locking collar 13, a movable ball 14, a first supporting spring 15, a limit sliding block 16, a limit sliding groove 17 and a second supporting spring 18, wherein the shock insulation bin 3 is arranged at the lower end of the upper fixing plate 1, the lower fixing plate 2 is arranged at the lower end of the shock insulation bin 3, the upper fixing plate 1 is fixedly arranged on the supporting column 8 through the reinforcing bolt 7 and is fixedly arranged with the lower fixing plate 2 through an inserting bolt, so that the upper fixing plate 1 and the lower fixing plate 2 are more convenient to install, the upper fixing plate 1 is in hydraulic supporting connection with the lower fixing plate 2 through the hydraulic pull rod 9, the hydraulic pull rod 9 is distributed between the upper fixing plate 1 and the lower fixing plate 2 in an annular position, so that the upper fixing plate 1 and the lower fixing plate 2 can be hydraulically supported through the hydraulic pull rod 9, the installation is more stable, the supporting column body 8 is installed at the central position of the lower end of the upper fixing plate 1, the outer wall of the supporting column body 8 is fixedly connected with the limiting locking block 11, the supporting column body 8 is in limiting insertion installation with the installation sleeve groove 10 through the limiting locking block 11, the supporting column body 8 is in elastic supporting connection with the upper shock absorber 5 through the first supporting spring 15, the first supporting spring 15 is distributed at the annular position on the outer wall of the installation sleeve groove 10, the supporting column body 8 is convenient to carry out limiting insertion installation, and can carry out transverse elastic supporting through the first supporting spring 15, auxiliary shock insulation is carried out, the installation sleeve groove 10 is sleeved on the outer wall of the limiting locking block 11, the first supporting spring 15 is fixedly connected with the outer wall of the installation sleeve groove 10, the other end of the first supporting spring 15 is provided with an upper shock absorber 5, the lower end of the upper shock absorber 5 is provided with a lower shock absorber 6, the upper shock absorber 5 and the lower shock absorber 6 are distributed at four groups of symmetrical positions on the inner wall of the shock insulation bin 3, the lower shock absorber 6 is transversely elastically supported and connected with the shock insulation bin 3 in a limiting sliding groove 17 on the limiting sliding block 16 through a second supporting spring 18, the second supporting spring 18 is distributed at an annular position on the outer wall of the limiting sliding block 16, thus the upper shock absorber 5 and the lower shock absorber 6 can carry out multiple groups of rear side support, and can carry out transverse auxiliary buffer support through the second supporting spring 18, the lower end of the lower shock absorber 6 is fixedly connected with the limiting sliding block 16, the side surface of the limiting sliding block 16 is provided with the second supporting spring 18, the outer wall of the second supporting spring 18 is fixedly connected with the inner wall of the limiting sliding groove 17, the limiting sliding groove 17 is arranged on the inner wall of the shock insulation bin 3, the lower end of the installation sleeve groove 10 is fixedly connected with the lower fixed plate 2, the center position of the lower end of the lower fixed plate 2 is provided with a reinforcing bolt 7, the lower end of the upper fixed plate 1 and the upper end of the lower fixed plate 2 are provided with installation buckle grooves 12, the inner wall of each installation buckle groove 12 is provided with a fixing bolt 4 in a plugging manner, the outer wall of each installation buckle groove 12 is provided with a locking collar 13 in a plugging manner, the inner wall of each locking collar 13 is provided with a movable ball 14 in a plugging manner, a hydraulic pull rod 9 is arranged between the movable balls 14, the hydraulic pull rod 9 is in overturning connection with the installation buckle grooves 12 through the movable balls 14, the movable balls 14 are in locking sleeving installation with the installation buckle grooves 12 through the locking collars 13, the fixing bolts 4 are in screw plugging installation with the upper fixed plate 1 and the lower fixed plate 2 through the installation buckle grooves 12, the shape of one end of each fixing bolt 4 is matched with the shape of the movable ball 14, so that the hydraulic pull rod 9 is convenient for bolt sleeving installation, the turnover adjustment is conveniently carried out through the movable ball 14.

Working principle: when the shock insulation support of the super high-rise building is used, the upper fixing plate 1 is firstly inserted into the mounting sleeve groove 10 through the supporting column body 8 and the limit locking block 11, and is fixedly mounted with the lower fixing plate 2 through the reinforcing bolt 7, then the lower fixing plate 2 is fixedly mounted with the base through the fixing bolt 4, then the fixing bolt 4 is inserted into the mounting sleeve groove 12 and is mounted with the mounting sleeve groove 12 through the locking sleeve ring 13, when the shock insulation support is subjected to shock, multiple groups of shock absorption can be carried out through the upper shock absorption body 5 and the lower shock absorption body 6, and hydraulic support can be carried out through the hydraulic pull rod 9, and when the shock insulation support is subjected to transverse shock absorption, elastic support can be carried out through the supporting column body 8 and the first supporting spring 15, and transverse elastic support can be carried out through the limit sliding block 16, the limit sliding groove 17 and the second supporting spring 18, so that the auxiliary transverse shock insulation is carried out, and the shock insulation support is the use process of the shock insulation support of the super high-rise building.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (6)

1. The utility model provides a shock insulation support of super high-rise building, includes fixed plate (1), shock insulation storehouse (3) are installed to last fixed plate (1) lower extreme, and fixed plate (2), its characterized in that are installed to shock insulation storehouse (3) lower extreme: the utility model discloses a shock insulation device, including upper fixed plate (1), lower extreme central point put and install support cylinder (8), and support cylinder (8) outer wall fixedly connected with spacing locking piece (11), spacing locking piece (11) outer wall cover is installed and is installed installation cover groove (10), and installation cover groove (10) outer wall fixedly connected with first supporting spring (15), upper shock absorber (5) are installed to first supporting spring (15) other end, and upper shock absorber (5) lower extreme distribution has lower shock absorber (6), lower shock absorber (6) lower extreme fixedly connected with spacing slider (16), and spacing slider (16) side-mounting have second supporting spring (18), second supporting spring (18) outer wall and spacing spout (17) inner wall fixedly connected, and spacing spout (17) are seted up in shock insulation storehouse (3) inner wall, installation cover groove (10) lower extreme and lower fixed plate (2) fixed connection, and lower fixed plate (2) lower extreme central point put and are installed reinforcing bolt (7), upper fixed plate (1) lower extreme and lower fixed plate (2) lower extreme are distributed has lower shock absorber (6), lower shock absorber (6) lower extreme fixedly connected with spacing slider (16), and spacing slider (16) side-mounting have second supporting spring (17), second supporting spring (17) outer wall fixedly connected with spacing spout (17) inner wall, and all install sleeve (12) inner wall (12) fixed collar (12) and install, inner wall (13) fixed collar (12) are installed in the fixed collar (12), a hydraulic pull rod (9) is arranged between the movable balls (14).

2. The super high-rise building shock-insulating support according to claim 1, wherein: the upper fixing plate (1) is fixedly arranged on the supporting column body (8) through a reinforcing bolt (7) and is in inserted bolt connection with the lower fixing plate (2).

3. The super high-rise building shock-insulating support according to claim 2, wherein: the upper fixing plate (1) is in hydraulic supporting connection with the lower fixing plate (2) through a hydraulic pull rod (9), and the hydraulic pull rod (9) is distributed in an annular position between the upper fixing plate (1) and the lower fixing plate (2).

4. A shock insulation support for super tall buildings as claimed in claim 3 wherein: the upper shock absorber (5) and the lower shock absorber (6) are distributed at four groups of symmetrical positions on the inner wall of the shock insulation bin (3), the lower shock absorber (6) is transversely elastically supported and connected with the shock insulation bin (3) in a limiting sliding groove (17) on a limiting sliding block (16) through a second supporting spring (18), and the second supporting spring (18) is distributed at an annular position on the outer wall of the limiting sliding block (16).

5. The super high-rise building vibration isolation support according to claim 4, wherein: the support column body (8) is in limit insertion installation with the installation sleeve groove (10) through the limit locking block (11), and the support column body (8) is in elastic support connection with the upper shock absorber (5) through the first support spring (15), and the first support spring (15) is distributed in an annular position on the outer wall of the installation sleeve groove (10).

6. The super high-rise building vibration isolation support according to claim 5, wherein: the hydraulic pull rod (9) is connected with the installation buckling groove (12) in an overturning mode through the movable ball (14), the movable ball (14) is in locking sleeve installation with the installation buckling groove (12) through the locking sleeve ring (13), the fixing bolt (4) is in spiral insertion installation with the upper fixing plate (1) and the lower fixing plate (2) through the installation buckling groove (12), and the shape of one end of the fixing bolt (4) is matched with the shape of the movable ball (14).