CN204510476U - A kind of multidimensional shock mount - Google Patents

A kind of multidimensional shock mount Download PDF

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Publication number
CN204510476U
CN204510476U CN201520064304.4U CN201520064304U CN204510476U CN 204510476 U CN204510476 U CN 204510476U CN 201520064304 U CN201520064304 U CN 201520064304U CN 204510476 U CN204510476 U CN 204510476U
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CN
China
Prior art keywords
shock mount
lead extrusion
middle cylinder
central pillar
multidimensional shock
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Expired - Fee Related
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CN201520064304.4U
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Chinese (zh)
Inventor
刘建文
杨凌皓
国巍
朱洁
曾宪诚
屈俊楠
朱迪
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Central South University
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Central South University
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Abstract

The utility model discloses a kind of multidimensional shock mount, described multidimensional shock mount comprises upper plate and lower shoe, is fixedly installed on the multiple spring spool on upper plate soffit and middle cylinder, and is fixedly installed the central pillar of lower shoe upper surface; Described central pillar part is placed in middle cylinder, and has gap between the top of central pillar and upper plate, has gap between described middle cylinder bottom and lower shoe; Vertical damping system is provided with between described spring spool and lower shoe; Horizontal damping system is provided with between described middle cylinder and central pillar.Bearing of the present utility model provides restoring force and the damping of level and torsional direction under earthquake; it has each to the feature of certainly replying, energy-dissipating property is strong; upper building can be protected in earthquake, solve the ability that conventional base bearing cannot realize multidirectional damping under larger earthquake effect.

Description

A kind of multidimensional shock mount
Technical field
The utility model relates to a kind of for technical field of civil engineering, is specifically related to a kind of shock mount of building.
Background technology
Building structure basis subtracts seismic isolation technology and has obtained the achievement in research attracted people's attention, and is widely used in Practical Project.Domestic and international at present to subtract shock insulation research to level comparatively dark, and being much applied to the actual seismic isolation technology that subtracts also is that level subtracts seismic isolation technology, relevant very few for vertical earthquake isolating research.And earthquake is often need to consider when vertically acting on design, the Earthquake damages of many earthquakes shows, in high intensity Zone, especially near earthquake, to the chief destructive power of building from vertical acceleration, and the impact of horizontal direction is less, according to a large amount of STRONG MOTION DATA obtained both at home and abroad, when earthquake, vertical acceleration peak value probably meets or exceeds horizontal acceleration peak value, so the multidimensional shock mount that research and design comprises vertical damping is extremely necessary with significant.
Although developed several multidimensional shock mounts at present, but still there is different problem.Therefore, be necessary to propose a kind of novel multidimensional shock mount, the recovery capacity of horizontal direction can not only be realized, good and stable vertical, level can also be provided to the frictional damping with torsional direction, reach the object of energy-absorbing damping.
Utility model content
In order to make up the defect of prior art, the utility model aims to provide a kind of multidimensional shock mount, this bearing adopts disperse graphite complex tissue steel, multidirectional cushioning effect can be realized under geological process, while larger vertical rigidity is provided, effective absorption can be stablized and consume vertical and horizontal direction seismic energy.
In order to realize above-mentioned technical purpose, the technical solution of the utility model is,
A kind of multidimensional shock mount, its design feature is, comprises upper plate and lower shoe, is fixedly installed on the multiple spring spool on upper plate soffit and middle cylinder, and is fixedly installed the central pillar of lower shoe upper surface; Described central pillar part is placed in middle cylinder, and has gap between the top of central pillar and upper plate, has gap between described middle cylinder bottom and lower shoe; Vertical restoring force when being provided with between described spring spool and lower shoe for bearing top-out load and providing earthquake and the vertical damping system of damping; Level and the restoring force of torsional direction and the horizontal damping system of damping when being provided with between described middle cylinder and central pillar for providing earthquake.
Technical scheme below for improving further the utility model:
Described vertical damping system comprises the first lead extrusion damper being arranged on vertical layout in spring spool, is arranged on the spring between the first lead extrusion damper and spring spool inwall, and is fixed on the slide block of the first lead extrusion damper bottom; The position that described lower shoe is positioned at below slide block has pit part, and the bottom face of described slide block has the shape coordinated with described pit part, and described slide block to be placed in this pit part and to form pendulum-type structure.Thus, because slide block is placed in spherical pit, can move to all directions in level.
Described pit part upper surface is provided with backing plate, and upper surface and the described slide block of this backing plate are tangent, and thus, the backing plate inscribe in the sphere pit of slide block and lower shoe forms pendulum-type structure, when bearing horizontal movement, utilizes building to conduct oneself with dignity for horizontal restoring force.Preferably, described backing plate is polyfluortetraethylene plate.
Described horizontal damping system comprises and is contained in many compositions on described central pillar to the second lead extrusion damper arranged, many groups the second lead extrusion damper horizontal arrangement all from top to bottom, and neighbouring two group of second lead extrusion damper is vertically arranged mutually; Often organize the flexible member that the second lead extrusion damper comprises two the second lead extrusion dampers and is connected between two the second lead extrusion dampers; The outer end of described second lead extrusion damper and described middle cylinder contact internal walls.Thus, owing to vertically arranging between phase adjacency pair, and only there is axial crimp in horizontal relevance lead extrusion damper, can move in level to all directions, also can play good function for twist motion during earthquake.
The spherical ball being convenient to described second lead extrusion damper movement is provided with between the outer end of described second lead extrusion damper and described middle cylinder inwall.Thus, connect with horizontal spring between two horizontal relevance lead extrusion dampers of the symmetry of multidimensional shock mount, pressure ram rod end arranges spherical ball and is close to middle cylinder inwall, make horizontal lead extrusion damper rod end can be close to middle cylinder all the time in the sideward motion of earthquake, ensure that lead extrusion damper normally works in horizontal movement.
Between described spring and spring spool inwall, there is gap.
Described spring spool bottom and slide block top all have the position limiting structure that anti-limited slip block departs from spring spool, and thus, disk spring and vertical lead extrusion damper are all limited in disk spring sleeve.
Described position limiting structure comprises the first bayonet socket being arranged on spring spool bottom, and is arranged on second bayonet socket on slide block top, thus, can effectively in oscillating motion, depart from sleeve and cause structural failure by anti-limited slip block.
Described central pillar has cavity, this central pillar is made up of disperse graphite complex tissue steel, improve the damping capacity of steel on the one hand, this steel is not containing the special anti-resin of alloying element etc. on the other hand, in manufacture, use, recycling etc., be all conducive to environmental protection.
Described spring is butterfly spring, and thus, multidimensional shock mount disk spring under vertical seismic force effects can produce certain vertical deformation, thus produces vertical earthquake isolating effect; Disk spring can also provide certain vertical restoring force, and drives vertical lead extrusion damper normally to work to provide damping energy dissipation.
Multidimensional shock mount can change the logarithm of spring spool and horizontal relevance lead extrusion damper as required, thus is applied on building bottom, the multiple civil structure of middle Seismic Isolation of Isolation Layer, the bridge etc. of highrise building.
Below in conjunction with embodiment, the utility model is further described:
A kind of multidimensional shock mount, shock mount is made up of upper and lower two parts, and steel used are disperse graphite complex tissue steel.Upper part is made up of upper plate, middle cylinder, disk spring sleeve, disk spring, vertical lead extrusion damper, slide block.Upper plate bears the load from building structure, and be welded with symmetrical disk spring sleeve at its soffit, disk spring is placed in spring spool, to provide vertical restoring force, lead extrusion damper is placed in disk spring center pillar cavity, slide block upper surface is connected with disk spring, soffit (sphere) is placed in bearing lower part sphere pit, and pad is with polyfluortetraethylene plate, tilting movement is done thereon when being subject to horizontal vibrating, slide block and socket port are provided with bayonet socket, and anti-limited slip block ejects and lost efficacy.Lower part is made up of horizontal relevance lead extrusion damper, spherical ball, central steel column, polyfluortetraethylene plate, lower shoe and horizontal spring.Lower shoe soffit is connected with architecture basics, upper surface is by sphere pit and horizontal plane two parts, sphere pit to be fitted polyfluortetraethylene plate, reduce the frictional resistance on slide plane, horizontal plane upper surface welds with central steel column, symmetrical horizontal relevance lead extrusion damper is provided with in central authorities' steel column, connect with horizontal spring between two symmetrical lead extrusion dampers, pressure ram rod end there is spherical ball, ball opposite side is close on the inwall of middle cylinder, horizontal lead extrusion damper rod end is made to be close to middle cylinder, ensure that lead extrusion damper normally works in horizontal movement, horizontal relevance lead extrusion damper arranges logarithm as required, becomes vertical and arrange between phase adjacency pair.
Under geological process, the motion in structural vertical direction is caused to provide restoring force by the disk spring spreading all over surrounding, upper plate drives the disk spring sleeve that welds with it and middle cylinder that vertical displacement occurs, thus produce vertical relative displacement with bearing lower part, vertical lead extrusion damper work, completes plumbous extruding power consumption.Under geological process, the slide block causing the motion in structure level direction can be divided by holder top slide on sphere pit and generation level to relative displacement, horizontal relevance lead extrusion damper works, complete plumbous extruding power consumption, and the slippage that slide block produces on sphere pit utilizes building conduct oneself with dignity level reply.
Compared with prior art, the beneficial effects of the utility model are: the utility model improves the service behaviour of general multidimensional shock mount under unpredictable earthquake effectively, solve the problem that vertical rigidity is little, can stablize effective absorption and consume vertical and horizontal direction seismic energy, the disperse graphite complex tissue steel of employing effectively can improve the anti-seismic performance of bearing compared with traditional steel; In addition, the utility model also has batch production and makes the advantages such as simple and easy for installation, has preferably practical value and economic benefit.
Accompanying drawing explanation
Fig. 1 is the sectional drawing of the multidimensional shock mount of the utility model embodiment;
Fig. 2 is upper part (except the middle cylinder 2) stereogram of the multidimensional shock mount of the utility model embodiment;
Fig. 3 is spring spool bayonet socket and the slide block bayonet socket detail drawing of the multidimensional shock mount of the utility model embodiment;
Fig. 4 is the lower shoe top view of the multidimensional shock mount of the utility model embodiment;
Fig. 5 is central steel column and the horizontal relevance lead extrusion damper stereogram of the multidimensional shock mount of the utility model embodiment.
Detailed description of the invention
Further illustrating below to the utility model technology contents, but the restriction not to the utility model flesh and blood.
A kind of multidimensional shock mount, Fig. 1 is the sectional drawing of the multidimensional shock mount of the utility model embodiment, Fig. 2 is upper part (except the middle cylinder 2) stereogram of the multidimensional shock mount of the utility model embodiment, Fig. 3 is the spring spool bayonet socket of the multidimensional shock mount of the utility model embodiment and the detail drawing of slide block bayonet socket, Fig. 4 is lower shoe top view, and Fig. 5 is central steel column and horizontal relevance lead extrusion damper stereogram.
As shown in Figure 1, slide block 6 is placed in and is arranged with on the polyfluortetraethylene plate 10 of multiple spherical pit, polyfluortetraethylene plate 10 and lower shoe 11 are fitted, disk spring 4 and vertical first lead extrusion damper 5 lower end of slide block 6 and disk spring sleeve 3 inside are welded, the inwall that vertical first lead extrusion damper 5 is close to by disk spring 4 also and between spring spool 3 wall leaves certain deformation gap, middle cylinder 2 is welded with upper plate 1 soffit, central authorities' steel column 9 and lower shoe 11 are welded as a whole, its inner interting arranges horizontal relevance second lead extrusion damper 7, two, the left and right of its symmetry is a pair, logarithm requires the needs carrying out arranging to adapt to different earthquake feature according to horizontal shock-absorbing, vertically arrange between phase adjacency pair, the middle springs 12 of proper stiffness can be selected, and what make middle springs 12 has certain initial compression amount, the elastic force that now middle springs provides is substantially equal to the yield force of lead extrusion damper, can ensure that horizontal relevance lead extrusion damper works orderly.As shown in Figure 2, slide block 6 is placed in sleeve 3, and sleeve 3 is welded on upper plate 1 soffit.As shown in Figure 3, can disk spring 4 rigidity in regulating spring sleeve 3, ensure slide block bayonet socket 13 and sleeve bayonet socket 14 at regular intervals under Gravitative Loads, make vertical deformation leave certain displacement space.As shown in Figure 4, the sphere pit of bearing lower shoe 11 setting.As shown in Figure 5, horizontal relevance second lead extrusion damper 7 that central steel column 9 and the upper and lower square crossing of level are arranged, the spherical ball 8 that pressure ram rod end is provided with.
The content that above-described embodiment is illustrated should be understood to these embodiments only for being illustrated more clearly in the utility model, and be not used in restriction scope of the present utility model, after having read the utility model, the amendment of those skilled in the art to the various equivalent form of value of the present utility model has all fallen into the application's claims limited range.

Claims (11)

1. a multidimensional shock mount, it is characterized in that, comprise upper plate (1) and lower shoe (11), be fixedly installed on the multiple spring spools (3) on upper plate (1) soffit and middle cylinder (2), and be fixedly installed the central pillar (9) of lower shoe (11) upper surface; Described central pillar (9) part is placed in middle cylinder (2), and has gap between the top of central pillar (9) and upper plate (1), has gap between described middle cylinder (2) bottom and lower shoe (11); Vertical restoring force when being provided with for bearing top-out load and providing earthquake between described spring spool (3) and lower shoe (11) and the vertical damping system of damping; Level and the restoring force of torsional direction and the horizontal damping system of damping when being provided with between described middle cylinder (2) and central pillar (9) for providing earthquake.
2. multidimensional shock mount according to claim 1, it is characterized in that, described vertical damping system comprises the first lead extrusion damper (5) being arranged on vertical layout in spring spool (3), be arranged on the spring (4) between the first lead extrusion damper (5) and spring spool (3) inwall, and be fixed on the slide block (6) of the first lead extrusion damper (5) bottom; The position that described lower shoe (11) is positioned at slide block (6) below has pit part, and the bottom face of described slide block (6) has the shape coordinated with described pit part, and described slide block (6) to be placed in this pit part and to form pendulum-type structure.
3. multidimensional shock mount according to claim 2, is characterized in that, described pit part upper surface is provided with backing plate, and upper surface and the described slide block (6) of this backing plate are tangent.
4. multidimensional shock mount according to claim 3, is characterized in that, described backing plate is polyfluortetraethylene plate.
5. multidimensional shock mount according to claim 1, it is characterized in that, described horizontal damping system comprises and is contained in many compositions on described central pillar (9) to the second lead extrusion damper (7) arranged, many groups of the second lead extrusion dampers (7) horizontal arrangement all from top to bottom, neighbouring two group of second lead extrusion damper (7) is mutually vertical to be arranged; Often organize the flexible member that the second lead extrusion damper (7) comprises two the second lead extrusion dampers (7) and is connected between two the second lead extrusion dampers (7); The outer end of described second lead extrusion damper (7) and described middle cylinder (2) contact internal walls.
6. multidimensional shock mount according to claim 5, is characterized in that, is provided with the spherical ball (8) being convenient to the movement of described second lead extrusion damper (7) between the outer end of described second lead extrusion damper (7) and described middle cylinder (2) inwall.
7. multidimensional shock mount according to claim 1, is characterized in that, has gap between described spring (4) and spring spool (3) inwall.
8. according to the multidimensional shock mount one of claim 1-7 Suo Shu, it is characterized in that, described spring spool (3) bottom and slide block (6) top all have the position limiting structure that anti-limited slip block (6) departs from spring spool (3).
9. multidimensional shock mount according to claim 8, is characterized in that, described position limiting structure comprises the first bayonet socket (14) being arranged on spring spool (3) bottom, and is arranged on second bayonet socket (13) on slide block (6) top.
10. according to the multidimensional shock mount one of claim 1-7 Suo Shu, it is characterized in that, described central pillar (9) has cavity, and this central pillar is made up of disperse graphite complex tissue steel.
11. multidimensional shock mounts according to claim 2, is characterized in that, described spring (4) is butterfly spring.
CN201520064304.4U 2015-01-29 2015-01-29 A kind of multidimensional shock mount Expired - Fee Related CN204510476U (en)

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104309632A (en) * 2014-09-29 2015-01-28 济南金牛砖瓦机械有限公司 Outer side braking brake device for double-rail vehicle
CN104594504A (en) * 2015-01-29 2015-05-06 中南大学 Multi-dimensional shock-absorption support
CN105569205A (en) * 2016-02-05 2016-05-11 福州市规划设计研究院 Electromagnetic permanent magnet combination suspension vibration isolation device
CN107780444A (en) * 2017-09-19 2018-03-09 昆明理工大学 A kind of band recovers the seismic isolation and reduction structure and its design method of function
CN108867350A (en) * 2018-08-13 2018-11-23 华东交通大学 A kind of assembled arthitecutral structure shock mount

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104309632A (en) * 2014-09-29 2015-01-28 济南金牛砖瓦机械有限公司 Outer side braking brake device for double-rail vehicle
CN104309632B (en) * 2014-09-29 2017-03-08 济南金牛砖瓦机械有限公司 A kind of automobile-used outside braking device of double track
CN104594504A (en) * 2015-01-29 2015-05-06 中南大学 Multi-dimensional shock-absorption support
CN105569205A (en) * 2016-02-05 2016-05-11 福州市规划设计研究院 Electromagnetic permanent magnet combination suspension vibration isolation device
CN105569205B (en) * 2016-02-05 2018-04-24 福州市规划设计研究院 A kind of electromagnet and permanent magnet combined suspension isolation mounting
CN107780444A (en) * 2017-09-19 2018-03-09 昆明理工大学 A kind of band recovers the seismic isolation and reduction structure and its design method of function
CN108867350A (en) * 2018-08-13 2018-11-23 华东交通大学 A kind of assembled arthitecutral structure shock mount

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C14 Grant of patent or utility model
GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20150729

Termination date: 20160129

EXPY Termination of patent right or utility model