CN106760839A - A kind of superelevation steel megastructure vibration damping integrated system - Google Patents

Abstract

The present invention relates to a kind of superelevation steel megastructure vibration damping integrated system, it is applied in super high rise building, unit is equipped including superelevation steel megastructure unit and the vibration damping being arranged on superelevation steel megastructure unit, superelevation steel megastructure unit is made up of main structure subdivision and the secondary structure subdivision being arranged on main structure unit, main structure subdivision includes giant-scale steel frame and the steel Core Walls Structure being arranged in giant-scale steel frame, giant-scale steel frame is made up of multiple huge posts and the annulus truss being arranged on huge post, shock mounts unit includes viscous damping mechanism or/and tuning damper mechanism.Compared with prior art, the present invention has the advantages of structure economics and wind-induced vibrating comfort are good, and structure efficiency is high, and structures under wind and anti-seismic performance are strong, and structural steel consumption is low, flexibly, speed of application is fast for building arrangements, damping efficiency is high.

Description

A kind of superelevation steel megastructure vibration damping integrated system

Technical field

The invention belongs to technical field of structural engineering, and in particular to a kind of superelevation being applied in super high rise building is huge Steel construction vibration damping integrated system.

Background technology

At present, known super high rise structure system is Frame-Shear wall, and material is armored concrete or steel and reinforcing bar The mixing of concrete and combined member, from great, situ wet operation is more, and speed of application is slow；Known structure resists lateral load Mode be to improve the rigidity of structure by improving structural material consumption, without consider vibration damping equipment effect, cause structural wood The waste of material and social resources；The vertical member of known structure transmission vertical load is continuous up and down, without considering that sectional is passed Load is passed, causes the column section of all outer frameworks larger, influence the flexibility of building arrangements and the open property in the space visual field.It is public The structural vibration reduction change system known, is made up of, it is impossible to have with the water tank of building and sightseeing space the vibration damping equipment of single principle Effect is combined, and arrangement quantity is more, and position is dumb.The vibration damping target of vibration damping change system sets single, i.e., can not same time control Wind-induced vibrating comfort processed, reduction geological process reduce wind load.

The content of the invention

The purpose of the present invention is exactly to provide a kind of with structure economics for the defect for overcoming above-mentioned prior art to exist Property and wind-induced vibrating comfort it is good, structure efficiency is high, and structures under wind and anti-seismic performance are strong, and structural steel consumption is low, and building arrangements flexibly, are applied Work speed is fast, superelevation steel megastructure vibration damping integrated system the advantages of damping efficiency is high.

The purpose of the present invention can be achieved through the following technical solutions：

A kind of superelevation steel megastructure vibration damping integrated system, is applied in super high rise building, including superelevation Huge Steel Open knot Structure unit and the vibration damping equipment unit being arranged on superelevation steel megastructure unit, described superelevation steel megastructure unit is by leading Structure subdivision and the secondary structure subdivision composition being arranged on main structure unit, described main structure subdivision includes huge Steel frame and the steel Core Walls Structure being arranged in giant-scale steel frame, described giant-scale steel frame is by multiple huge posts and is arranged on huge post Annulus truss composition, described shock mounts unit includes viscous damping mechanism or/and tuning damper mechanism.

Used as preferred technical scheme, described annulus truss is arranged on the mechanical floor or refuge story of super high rise building, 1~2 layer of floor height is occupied, is a section between two neighboring annulus truss, described giant-scale steel frame is used to resist lateral Load, while each annulus truss undertakes its one gravity laod of section in top, and passes to huge post by the gravity laod.

Used as preferred technical scheme, described huge post is provided with 4~12, undertaken while lateral load weight for undertaking Power load.

Used as preferred technical scheme, described secondary structure subdivision includes that superstructure, gravity beam, gravity post and deformation are released Device is put, described gravity beam and gravity post sectional are set, separate between each section, the gravity beam and weight of each section Power post only undertakes the gravity laod in this section, and deformation release device is arranged on top, bottom or the middle part of gravity post.

Used as preferred technical scheme, described deformation release device is a Flexible Node, and the section gravity post is by top Gravity post and bottom gravity post connect to be formed by the Flexible Node, and described Flexible Node includes being separately positioned on top gravity Post lower end and the screw and connecting plate of bottom gravity post upper end, described connecting plate are provided with screw and slotted hole；

When deformation release device is arranged on the top of gravity post, the spiral shell of screw and top gravity post lower end on connecting plate Hole is bolted, and the slotted hole on connecting plate is bolted with the screw of bottom gravity post upper end；

When deformation release device is arranged on the bottom of gravity post, the spiral shell of screw and bottom gravity post upper end on connecting plate Hole connects, and the slotted hole on connecting plate is bolted with the screw of top gravity post lower end；

When deformation release device is arranged on the middle part of gravity post, the spiral shell of screw and top gravity post lower end on connecting plate Hole is bolted, and the slotted hole on connecting plate is bolted with the screw of bottom gravity post upper end；

Described slotted hole is vertically arranged, and bolt initial makeup location is located at the centre of slotted hole, and top gravity post is with Be provided with interval between portion's gravity post, should at intervals of slotted hole hole it is long 1/2.

Used as preferred technical scheme, described steel Core Walls Structure is made up of steel-frame beam and Steel Frame Column, and as needed Bracing members are set in the position without door opening, described steel Core Walls Structure is used to undertake lateral load, while undertaking steel Core Walls Structure model Enclose interior gravity laod.

As preferred technical scheme, semi-girder truss, institute are also associated between described giant-scale steel frame and steel Core Walls Structure The semi-girder truss stated floor according to where Structure Calculation needs to be arranged on annulus truss, described semi-girder truss is used to coordinate steel core Deformation between heart cylinder and giant-scale steel frame, is mainly used in resisting lateral load.

Used as preferred technical scheme, described viscous damping mechanism includes being arranged on steel Core Walls Structure or semi-girder truss Viscous damping shock absorber, described viscous damping shock absorber is used to improve structure comfort property rigidity under wind action Can, rigidity of structure performance, tribute of the main structure subdivision according to viscous damping shock absorber additional damping ratio are improved under geological process Offering carries out Integrated design.

Used as preferred technical scheme, described viscous damping mechanism is toggle joint type deformation amplifying device, and the toggle joint type becomes As disclosed in Zl201520886649.8, described viscous damping shock absorber deforms amplifying device to shape amplifying device as toggle joint type Damper use.

Used as preferred technical scheme, described tuning damper mechanism is by tuned mass damper, Tuned Liquid Or one or more in tuning slosh damping device are constituted, described tuned mass damper is placed on works top, also serves as Sightseeing function, Tuned Liquid and tuning slosh damping device are by the water tank dual-purpose transformed, described tuning damper mechanism For improving structure comfort property under wind action.

Compared with prior art, the invention has the advantages that：

(1) structure economics and wind-induced vibrating comfort performance are improved.

(2) structures under wind and anti-seismic performance are improved, reduces scantling, structural steel amount is low.

(3) due to using two grades of mega-structure systems, huge post quantity is few, and gravity column section is small, structural construction flexible arrangement, Structural elements influences small to building function.

(4) have that dead load is light, speed of application fast, construction industries degree is high and situ wet is made using steel structure system The advantages of industry is few.The structural system reduces about 20% compared to general concrete structure or mixed structure deadweight, compared to coagulation The engineering time of every layer of soil structure or mixed structure saves 1~2 day, is imitated for the super high rise structure that total number of plies is generally higher than 50 layers It is beneficial obvious.

(5) because shock mounts unit can combine deformation amplifying device application, and subtracting using different vibration attenuation mechanisms Shake the mode of equipment mixing application, with damping efficiency it is high, arrangement quantity is few, influence small and good economy performance spy to building function Point.

Brief description of the drawings

Fig. 1 is the axonometric schematic diagram of giant-scale steel frame of the present invention；

Fig. 2 is floor map of the invention；

Fig. 3 is the elevational schematic view of the steel Core Walls Structure of the embodiment of the present invention 1；

Fig. 4 is the schematic diagram that deck type deformation release device of the invention sets form；

Fig. 5 is the schematic diagram that suspension type deformation release device of the invention sets form；

Fig. 6 is the schematic diagram that stage casing deformation release type deformation release device of the invention sets form；

Fig. 7 is the scheme of installation that toggle joint type of the present invention deforms amplifying device.

In figure, 1 is huge post, and 2 is annulus truss, and 3 is semi-girder truss, and 4 is steel Core Walls Structure, and 41 is steel-frame beam, and 42 is steel Frame column, 5 is bracing members, and 6 is superstructure, and 7 is gravity post, and 71 is top gravity post, and 72 is bottom gravity post, and 8 is gravity beam, 9 It is deformation release device, 10 is viscous damping mechanism, and 11 is connecting plate, and 12 is slotted hole.

Specific embodiment

The present invention is described in detail with specific embodiment below in conjunction with the accompanying drawings.

Embodiment 1

A kind of superelevation steel megastructure vibration damping integrated system, as shown in Figures 1 to 3, is applied in super high rise building, including Superelevation steel megastructure unit and the vibration damping equipment unit being arranged on superelevation steel megastructure unit, superelevation steel megastructure list Unit is made up of main structure subdivision and the secondary structure subdivision being arranged on main structure unit, and main structure subdivision includes huge Steel frame and the steel Core Walls Structure 4 (in the range of Fig. 2 dotted line frames) being arranged in giant-scale steel frame, giant-scale steel frame is by multiple huge posts 1 And the annulus truss 2 being arranged on huge post 1 is constituted, shock mounts unit includes viscous damping mechanism 10 or/and tuning vibration damping machine Structure.

The annulus truss 2 of giant-scale steel frame is arranged on the mechanical floor or refuge story of super high rise building, occupies 1~2 layer Floor height, is a section between two neighboring annulus truss 2, and giant-scale steel frame is used to resist lateral load, while each annulus Truss 2 undertakes its one gravity laod of section in top, and the gravity laod is passed into huge post 1.Huge post 1 is provided with 4~12, Set with reference to the characteristics of building function requirement and building arrangements, undertaken in the range of outer framework while lateral load for being undertaken Gravity laod.Secondary structure subdivision includes superstructure 6, gravity beam 7, gravity post 8 and deformation release device 9, gravity beam 7 and gravity The sectional of post 8 is set, and separate between each section, the gravity beam 7 and gravity post 8 of each section only undertake the weight in this section Power load, deformation release device 9 is arranged on top, bottom or the middle part of the post of gravity 8.

Deformation release device 9 is a Flexible Node, and the section gravity post is led to by top gravity post 71 and bottom gravity post 72 Cross the Flexible Node to connect to be formed, Flexible Node includes being separately positioned on the lower end of top gravity post 71 and the upper end of bottom gravity post 72 Screw and connecting plate 11, described connecting plate is provided with screw and slotted hole 12；

When deforming release device 9 and being arranged on the top of gravity post 7, the length of top gravity post 71 is much smaller than bottom gravity The length of post 72, screw on connecting plate 11 is bolted with the screw of the lower end of top gravity post 71, on connecting plate 11 Slotted hole 12 is bolted with the screw of the upper end of bottom gravity post 72, during the release deformation of top, because gravity laod is under Portion gravity post 72 is pressurized and undertakes, and the Flexible Node is referred to as deck type node, as shown in Figure 4；

When deforming release device and being arranged on the bottom of gravity post, the length of top gravity post 71 is much larger than bottom gravity post 72 length, screw on connecting plate 11 is connected with the screw of the upper end of bottom gravity post 72, the slotted hole 12 on connecting plate 11 with The screw of the lower end of top gravity post 71 is bolted, this with deck type node conversely, referred to as suspension type node, such as Fig. 5 institutes Show；

When deforming release device and being arranged on the middle part of gravity post, the length of top gravity post 71 and bottom gravity post 72 Equal length is approximate, and the screw on connecting plate 11 is bolted with the screw of the lower end of top gravity post 71, connecting plate 11 On slotted hole be bolted with the screw of the upper end of bottom gravity post 72, the release deformation of section gravity post middle part, referred to as in Section deformation release type node, as shown in Figure 6；

Described slotted hole 12 is vertically arranged, and bolt initial makeup location is located at the centre of slotted hole, top gravity post 71 Be provided with interval and bottom gravity post 72 between, should at intervals of the hole of slotted hole 12 it is long 1/2.

Steel Core Walls Structure 4 is made up of steel-frame beam 41 and Steel Frame Column 42, as shown in figure 3, steel-frame beam 41 is arranged on steel framework On trestle 42, and the multiple cylindrical spaces of formation are combined with Steel Frame Column 42.Steel branch is set in the position without door opening as needed Support 5, bracing members 5 can use central supported or accentric support.Steel Core Walls Structure 4 is used to undertake lateral load, while undertaking steel core Gravity laod in the range of heart cylinder 4.Semi-girder truss 3, semi-girder truss 3 are also associated between giant-scale steel frame and steel Core Walls Structure 4 Need to be arranged on the place floor of annulus truss 2 according to Structure Calculation, semi-girder truss 3 is used to coordinate steel Core Walls Structure 4 and giant-scale steel frame Between deformation, be mainly used in resist lateral load.

Viscous damping mechanism 10 is made up of the viscous damping shock absorber on steel Core Walls Structure 4 or semi-girder truss 3, viscous Damping shock absorber is used to improve structure comfort property rigidity property under wind action, and the rigidity of structure is improved under geological process Performance, main structure subdivision carries out Integrated design according to the contribution of viscous damping shock absorber additional damping ratio.The present embodiment enters one Step using toggle joint type deform amplifying device as viscous damping mechanism 10, the toggle joint type deform amplifying device by Disclosed in Zl201520886649.8, used viscous damping shock absorber as the damper of toggle joint type deformation amplifying device, can Amplify with by the deformation of damper, be larger than stratified deformation, improve energy efficiency, as shown in Figure 7.Tuning damper mechanism is by adjusting One or more compositions, tuned mass damper in humorous mass damper, Tuned Liquid or tuning slosh damping device Works top is placed on, sightseeing function is also served as, Tuned Liquid and tuning slosh damping device are simultaneous by the water tank transformed With tuning damper mechanism is used to improve structure comfort property under wind action.Shock mounts unit uses various combination, such as When structure comfort level overrun issues are protruded, the quality of tuning damper mechanism can be increased, with control structure comfort level.As structure does not have There is comfort level problem, then can be only with the lift structure rigidity of viscous damping mechanism 10 and strength character, without being subtracted using tuning Shake mechanism.

Claims (10)

1. a kind of superelevation steel megastructure vibration damping integrated system, is applied in super high rise building, it is characterised in that including superelevation Steel megastructure unit and the vibration damping equipment unit being arranged on superelevation steel megastructure unit, described superelevation steel megastructure Unit is made up of main structure subdivision and the secondary structure subdivision being arranged on main structure unit, described main structure subdivision Including giant-scale steel frame and the steel Core Walls Structure being arranged in giant-scale steel frame, described giant-scale steel frame is by multiple huge posts and setting Annulus truss composition on huge post, described shock mounts unit includes viscous damping mechanism or/and tuning damper mechanism.

2. a kind of superelevation steel megastructure vibration damping integrated system according to claim 1, it is characterised in that described annulus Truss is arranged on the mechanical floor or refuge story of super high rise building, 1~2 layer of floor height is occupied, between two neighboring annulus truss It is a section, described giant-scale steel frame is used to resist lateral load, while each annulus truss undertakes its one area in top The gravity laod of section, and the gravity laod is passed into huge post.

3. a kind of superelevation steel megastructure vibration damping integrated system according to claim 1 and 2, it is characterised in that described Huge post is provided with 4~12, and gravity laod is undertaken while lateral load for undertaking.

4. a kind of superelevation steel megastructure vibration damping integrated system according to claim 2, it is characterised in that described secondary Structure subdivision includes superstructure, gravity beam, gravity post and deformation release device, and described gravity beam and gravity post sectional sets Put, separate between each section, the gravity beam and gravity post of each section only undertake the gravity laod in this section, and deformation is released Put top, bottom or middle part that device is arranged on gravity post.

5. a kind of superelevation steel megastructure vibration damping integrated system according to claim 4, it is characterised in that

Described deformation release device is a Flexible Node, and the section gravity post is by top gravity post and bottom gravity post by being somebody's turn to do Flexible Node connects to be formed, and described Flexible Node includes being separately positioned on top gravity post lower end and bottom gravity post upper end Screw and connecting plate, described connecting plate are provided with screw and slotted hole；

When deformation release device is arranged on the top of gravity post, the screw on connecting plate leads to the screw of top gravity post lower end Bolt connection is crossed, the slotted hole on connecting plate is bolted with the screw of bottom gravity post upper end；

When deformation release device is arranged on the bottom of gravity post, the screw on connecting plate connects with the screw of bottom gravity post upper end Connect, the slotted hole on connecting plate is bolted with the screw of top gravity post lower end；

When deformation release device is arranged on the middle part of gravity post, the screw on connecting plate leads to the screw of top gravity post lower end Bolt connection is crossed, the slotted hole on connecting plate is bolted with the screw of bottom gravity post upper end；

Described slotted hole is vertically arranged, and bolt initial makeup location is located at the centre of slotted hole, top gravity post and bottom weight Interval is provided between power post, should at intervals of slotted hole hole it is long 1/2.

6. a kind of superelevation steel megastructure vibration damping integrated system according to claim 1, it is characterised in that described steel core Heart cylinder is made up of steel-frame beam and Steel Frame Column, and as needed in the position setting bracing members without door opening, described steel core Heart cylinder is used to undertake lateral load, while undertaking the gravity laod in the range of steel Core Walls Structure.

7. a kind of superelevation steel megastructure vibration damping integrated system according to claim 1, it is characterised in that described is huge Semi-girder truss is also associated between steel frame and steel Core Walls Structure, described semi-girder truss needs to be arranged on annulus according to Structure Calculation Floor where truss, described semi-girder truss is used to coordinate the deformation between steel Core Walls Structure and giant-scale steel frame, be mainly used in Anti- lateral load.

8. a kind of superelevation steel megastructure vibration damping integrated system according to claim 7, it is characterised in that described is viscous Damping mechanism includes the viscous damping shock absorber on steel Core Walls Structure or semi-girder truss, and described viscous damping shock absorber is used In the raising structure comfort property rigidity property under wind action.

9. a kind of superelevation steel megastructure vibration damping integrated system according to claim 8, it is characterised in that described is viscous Damping mechanism is that toggle joint type deforms amplifying device, and described viscous damping shock absorber deforms the damping of amplifying device as toggle joint type Device is used.

10. a kind of superelevation steel megastructure vibration damping integrated system according to claim 1, it is characterised in that described tune Humorous damper mechanism is made up of one or more in tuned mass damper, Tuned Liquid or tuning slosh damping device.