CN108824668A - A kind of lead dot interlocks locking-type isolation structure - Google Patents
A kind of lead dot interlocks locking-type isolation structure Download PDFInfo
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- CN108824668A CN108824668A CN201810997820.0A CN201810997820A CN108824668A CN 108824668 A CN108824668 A CN 108824668A CN 201810997820 A CN201810997820 A CN 201810997820A CN 108824668 A CN108824668 A CN 108824668A
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- Prior art keywords
- steel plate
- wasted
- staggeredly
- locking
- energy steel
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04H—BUILDINGS OR LIKE STRUCTURES FOR PARTICULAR PURPOSES; SWIMMING OR SPLASH BATHS OR POOLS; MASTS; FENCING; TENTS OR CANOPIES, IN GENERAL
- E04H9/00—Buildings, groups of buildings or shelters adapted to withstand or provide protection against abnormal external influences, e.g. war-like action, earthquake or extreme climate
- E04H9/02—Buildings, groups of buildings or shelters adapted to withstand or provide protection against abnormal external influences, e.g. war-like action, earthquake or extreme climate withstanding earthquake or sinking of ground
- E04H9/021—Bearing, supporting or connecting constructions specially adapted for such buildings
Abstract
The invention belongs to building construction vibration control field, interlock locking-type isolation structure more particularly to a kind of lead dot.Including staggeredly locking Wasted-energy steel plate one, consume energy rib, inside set elliptical aperture, foam aluminium extrusion Wasted-energy steel plate, connecting plate, connecting plate screw, lead dot hole, staggeredly locking connection Wasted-energy steel plate, lead dot and staggeredly locking Wasted-energy steel plate two, a kind of lead dot interlocks the middle part setting staggeredly locking connection Wasted-energy steel plate of locking-type shock insulation knot, foaming aluminium extrusion Wasted-energy steel plate and staggeredly locking Wasted-energy steel plate one are set above staggeredly locking connection Wasted-energy steel plate, foaming aluminium extrusion Wasted-energy steel plate and staggeredly locking Wasted-energy steel plate two are set below staggeredly locking connection Wasted-energy steel plate, overall structure of the invention has multi-direction shock insulation energy consumption effect, anti seismic efficiency is more abundant, there is reasonable level and vertical initial stiffness simultaneously, it can satisfy multi-direction carrying support to require and multi-direction shock insulation requirement.
Description
Technical field
The invention belongs to building construction vibration control field, interlock locking-type isolation structure more particularly to a kind of lead dot.
Background technique
Earthquake disaster have it is sudden and crushing, seriously threaten the safety of human life, property.Annual hair in the world
Raw ruinous earthquake nearly thousand times, a violent earthquake can cause the economic loss of more than one hundred billion dollar, cause hundreds of thousands people dead or tight
It is severely injured residual.In earthquake the considerable damage of building with collapse, be the immediate cause for causing earthquake disaster.When earthquake occurs, ground
Vibration causes the earthquake response of structure.It is fixed in the building structure on ground for basis, reacts along highly from top to bottom
Successively amplification.Since the earthquake response (acceleration, speed or displacement) of works a part is excessive, make main body load-carrying members
Serious destroy even is collapsed;Or although main structure is not destroyed, architectural coating, finishing or other non-structural accessories etc. damage and
Lead to heavy losses;Or indoor expensive instrument, damage of facilities lead to serious loss or secondary disaster.In order to avoid above-mentioned disaster
Generation, people must control the earthquake response of structural system, and eliminate " amplifier " effect of structural system, structure
Energy-eliminating shock-absorbing technology be certain nonload bearing elements (such as shear wall, connector) of structure are designed to energy dissipating rod piece, or
Certain positions (interlayer space, node, connecting sewing etc.) of structure are installed by energy dissipator.In small wind or small shake, these disappear
Energy rod piece (or energy dissipator) and structure itself have enough lateral rigidities to meet requirement, and structure is in elastic shape
State;When there is big shake or strong wind, with the increase of structure lateral deformation, energy dissipation component or energy dissipator take the lead in starting to work,
Larger damping is generated, a large amount of earthquakes for consuming input structure or wind shake energy turn the energy such as kinetic energy or the elastic potential energy of structure
The forms such as chemical conversion thermal energy dissipate, and the earthquake of rapid attenuating structure or Wind Vibration Response (displacement, speed, acceleration etc.) make to lead
Body structure avoids the occurrence of apparent inelastic state, protects main structure and component in macroseism or strong wind from destroying.Because
The reasons such as earthquake are transferred to the external energy of building structure, are the roots that structure generates vibration, so setting energy consumption in the structure
Device increases energy consumption, it will reduce the dynamic respons of structure.The constraint coagulation of the anti-buckling energy-consumption component researched and developed at present
Soil is easily crushed and loses constraint and anti-buckling effect, its energy dissipation capacity is caused to be greatly reduced.Therefore, some dissipative members
Manufacturing process, there is still a need for further improvements for energy-dissipating property etc..
Summary of the invention
In order to solve above-mentioned technical problem, the present invention provides a kind of lead dot and interlocks locking-type isolation structure, whole
Structure has multi-direction shock insulation energy consumption effect, and anti seismic efficiency is more abundant, while having reasonable level and vertical initial stiffness, can
Meet multi-direction carrying support to require and multi-direction shock insulation requirement.
To achieve the goals above, the technical solution adopted by the present invention is:
A kind of lead dot interlocks locking-type isolation structure, including staggeredly locking Wasted-energy steel plate one, energy consumption rib, interior set elliptical aperture, foaming
Aluminium extrusion Wasted-energy steel plate, connecting plate, connecting plate screw, lead dot hole, staggeredly locking connection Wasted-energy steel plate, lead dot and staggeredly locking energy consumption
Steel plate two, a kind of lead dot interlock the middle part setting staggeredly locking connection Wasted-energy steel plate of locking-type shock insulation knot, in staggeredly locking connection
Setting foaming aluminium extrusion Wasted-energy steel plate and the locking Wasted-energy steel plate one that interlocks above Wasted-energy steel plate, under staggeredly locking connection Wasted-energy steel plate
Side's setting foaming aluminium extrusion Wasted-energy steel plate and staggeredly locking Wasted-energy steel plate two, and using several groups lead dot to staggeredly locking energy consumption steel
Plate one and the locking that interlocks connect Wasted-energy steel plate and are attached, using several groups lead dot to staggeredly locking Wasted-energy steel plate two and staggeredly lock
Surely connection Wasted-energy steel plate is attached, and connection staggeredly locks Wasted-energy steel plate one and staggeredly the several groups lead of locking connection Wasted-energy steel plate
Pin and connection staggeredly locking Wasted-energy steel plate two and the staggeredly several groups lead dot alternate intervals setting of locking connection Wasted-energy steel plate, are being handed over
Be arranged on mistake locking connection Wasted-energy steel plate several columns lead dot hole and it is interior set elliptical aperture, set in each column lead dot hole and each column between elliptical aperture
Every setting, elliptical aperture is set in adjacent and interior set is equipped with energy consumption rib between elliptical aperture, is set in staggeredly locking Wasted-energy steel plate one
It is equipped with several columns lead dot hole, is arranged in several columns between the lead dot hole of adjacent column and sets elliptical aperture, sets elliptical aperture in adjacent
And interior set is equipped with energy consumption rib between elliptical aperture, be provided in several columns in staggeredly locking Wasted-energy steel plate two and set elliptical aperture and lead dot
Hole, elliptical aperture is set in adjacent and interior set is equipped with energy consumption rib between elliptical aperture;Staggeredly lock the left and right sides of Wasted-energy steel plate one
Connecting plate is symmetrically respectively set with the left and right sides of staggeredly locking Wasted-energy steel plate two, connecting plate screw is set in connecting plate.
Further, the size of the lead dot is configured according to the size in lead dot hole.
Further, several connecting plate screws are equidistantly opened up on the connecting plate.
Further, staggeredly locking Wasted-energy steel plate one, staggeredly locking connection Wasted-energy steel plate and the staggeredly locking energy consumption
Steel plate two is made using low yield point steel plate.
Further, the connection staggeredly locks Wasted-energy steel plate one and staggeredly the several groups lead of locking connection Wasted-energy steel plate
The group number of pin staggeredly locks Wasted-energy steel plate two and staggeredly the group number of the several groups lead dot of locking connection Wasted-energy steel plate more than connection.
The beneficial effects of the invention are as follows:
The advantages of the present invention are that initial stiffness is larger, steel surrender area is big, energy consumption effect is good, are handed over by connection
Mistake locks Wasted-energy steel plate one and the staggeredly several groups lead dot of locking connection Wasted-energy steel plate and connects staggeredly locking two He of Wasted-energy steel plate
The staggeredly combination of the several groups lead dot alternate intervals setting of locking connection Wasted-energy steel plate, when drawing of the structure by horizontal direction
When pressure acts on, the locking connection Wasted-energy steel plate that interlocks is driven using staggeredly locking Wasted-energy steel plate one, drives the locking energy consumption that interlocks indirectly
The structure design of the deformation energy consumption of steel plate two, keeps the energy consumption of overall structure horizontal direction more abundant, when structure is squeezed by vertical direction
When pressure acts on, staggeredly locks Wasted-energy steel plate one and staggeredly locking Wasted-energy steel plate two can carry out extruding consumption to foaming aluminium extrusion Wasted-energy steel plate
Can, make overall structure that there is multi-direction shock insulation energy consumption effect, anti seismic efficiency is more abundant, while having reasonable horizontal and vertical first
Beginning rigidity can satisfy multi-direction carrying support and require and multi-direction shock insulation requirement.
Detailed description of the invention
Fig. 1 is that a kind of lead dot of the present invention interlocks locking-type isolation structure schematic elevation view.
Fig. 2 is the A-A diagrammatic cross-section of Fig. 1.
Fig. 3 is connecting plate and the schematic elevation view that staggeredly locking Wasted-energy steel plate 1 connects.
Fig. 4 is that staggeredly locking connects Wasted-energy steel plate schematic elevation view.
Fig. 5 is connecting plate and the schematic elevation view that staggeredly locking Wasted-energy steel plate 2 connects.
In figure:1 is staggeredly locking Wasted-energy steel plate one;2 be energy consumption rib;3 set elliptical aperture to be interior;4 be foaming aluminium extrusion energy consumption
Plate;5 be connecting plate;6 be connecting plate screw;7 be lead dot hole;8 be staggeredly locking connection Wasted-energy steel plate;9 be lead dot;10 is staggeredly
Lock Wasted-energy steel plate two.
Specific embodiment
In order to further illustrate the present invention, the present invention is described in detail with reference to the accompanying drawings and embodiments, but not
They can be interpreted as limiting the scope of the present invention.
Embodiment:As shown in Fig. 1 ~ 5, a kind of lead dot interlocks locking-type isolation structure, including staggeredly locking Wasted-energy steel plate one
1, consume energy rib 2, it is interior set elliptical aperture 3, foaming aluminium extrusion Wasted-energy steel plate 4, connecting plate 5, connecting plate screw 6, lead dot hole 7, staggeredly lock
Connect Wasted-energy steel plate 8, lead dot 9 and staggeredly locking Wasted-energy steel plate 2 10, a kind of lead dot interlocks the middle part setting of locking-type shock insulation knot
Staggeredly locking connection Wasted-energy steel plate 8 is staggeredly locking setting foaming aluminium extrusion Wasted-energy steel plate 4 above connection Wasted-energy steel plate 8 and is interlocking
Wasted-energy steel plate 1 is locked, in staggeredly locking connects that foaming aluminium extrusion Wasted-energy steel plate 4 is arranged below Wasted-energy steel plate 8 and staggeredly locks and consume
Can steel plate 2 10, and using several groups lead dot 9 to staggeredly locking Wasted-energy steel plate 1 and staggeredly locking connection Wasted-energy steel plate 8 into
Row connection, using several groups lead dot 9, to staggeredly locking Wasted-energy steel plate 2 10 and staggeredly, locking connection Wasted-energy steel plate 8 is attached,
Connection staggeredly locking Wasted-energy steel plate 1 and the staggeredly several groups lead dot 9 of locking connection Wasted-energy steel plate 8 and connection staggeredly locking energy consumption
9 alternate intervals of the several groups lead dot setting of steel plate 2 10 and staggeredly locking connection Wasted-energy steel plate 8, in staggeredly locking connection energy consumption steel
On plate 8 be arranged several columns lead dot hole 7 and it is interior set elliptical aperture 3, set in each column lead dot hole 7 and each column elliptical aperture 3 interval setting, in phase
Elliptical aperture 3 is set in adjacent and interior set is equipped with energy consumption rib 2 between elliptical aperture 3, is provided in staggeredly locking Wasted-energy steel plate 1 several
Column lead dot hole 7, is arranged in several columns between the lead dot hole 7 of adjacent column and sets elliptical aperture 3, and elliptical aperture 3 and interior is set in adjacent
If being equipped with energy consumption rib 2 between elliptical aperture 3, it is provided in several columns in staggeredly locking Wasted-energy steel plate 2 10 and sets elliptical aperture 3 and lead
Pin hole 7, elliptical aperture 3 is set in adjacent and interior set is equipped with energy consumption rib 2 between elliptical aperture 3;Staggeredly lock a left side for Wasted-energy steel plate 1
Connecting plate 5 is symmetrically respectively set in right two sides and the left and right sides for staggeredly locking Wasted-energy steel plate 2 10, and connecting plate is arranged in connecting plate 5
Screw hole 6.
The size of lead dot 9 is configured according to the size in lead dot hole 7.Several connecting plates are equidistantly opened up on connecting plate 5
Screw hole 6.It staggeredly locks Wasted-energy steel plate 1, staggeredly locking connection Wasted-energy steel plate 8 and staggeredly locking Wasted-energy steel plate 2 10 is bent using low
Clothes point steel plate is made.Connection staggeredly locks Wasted-energy steel plate 1 and staggeredly the several groups lead dot 9 of locking connection Wasted-energy steel plate 8
Group number more than connection staggeredly locking Wasted-energy steel plate 2 10 and staggeredly locking connection Wasted-energy steel plate 8 several groups lead dot 9 group number.
The above is only a preferred embodiment of the present invention, it is noted that for the ordinary skill people of the art
For member, various improvements and modifications may be made without departing from the principle of the present invention, these improvements and modifications are also answered
It is considered as protection scope of the present invention.
Claims (5)
- The locking-type isolation structure 1. a kind of lead dot interlocks, including staggeredly locking Wasted-energy steel plate one (1), energy consumption rib (2), interior set ellipse Hole (3), foaming aluminium extrusion Wasted-energy steel plate (4), connecting plate (5), connecting plate screw (6), lead dot hole (7), staggeredly locking connection energy consumption Steel plate (8), lead dot (9) and staggeredly locking Wasted-energy steel plate two (10), it is characterised in that:A kind of lead dot interlocks middle part setting staggeredly locking connection Wasted-energy steel plate (8) of locking-type shock insulation knot, in staggeredly locking connection Setting foaming aluminium extrusion Wasted-energy steel plate (4) and staggeredly locking Wasted-energy steel plate one (1) above Wasted-energy steel plate (8), in staggeredly locking connection Setting foaming aluminium extrusion Wasted-energy steel plate (4) and staggeredly locking Wasted-energy steel plate two (10) below Wasted-energy steel plate (8), and use several groups Lead dot (9) is attached staggeredly locking Wasted-energy steel plate one (1) and staggeredly locking connection Wasted-energy steel plate (8), using several groups lead Pin (9) is attached staggeredly locking Wasted-energy steel plate two (10) and locking connection Wasted-energy steel plate (8) that interlocks, and connection staggeredly locks consumption Energy steel plate one (1) and staggeredly locking connect the several groups lead dot (9) of Wasted-energy steel plate (8) and connect the locking Wasted-energy steel plate two that interlocks (10) and staggeredly several groups lead dot (9) alternate intervals of locking connection Wasted-energy steel plate (8) are arranged, in staggeredly locking connection energy consumption steel Be arranged on plate (8) several columns lead dot hole (7) and it is interior set elliptical aperture (3), set in each column lead dot hole (7) and each column between elliptical aperture (3) Every setting, elliptical aperture (3) is set in adjacent and interior set is equipped with energy consumption rib (2) between elliptical aperture (3), in staggeredly locking energy consumption steel It is provided with several columns lead dot hole (7) in plate one (1), is arranged in several columns between the lead dot hole (7) of adjacent column and sets elliptical aperture (3), elliptical aperture (3) is set in adjacent and interior set is equipped with energy consumption rib (2) between elliptical aperture (3), in staggeredly locking Wasted-energy steel plate It is provided in two (10) in several columns and sets elliptical aperture (3) and lead dot hole (7), elliptical aperture (3) is set in adjacent and interior set ellipse Energy consumption rib (2) is equipped between hole (3);It staggeredly locks the left and right sides of Wasted-energy steel plate one (1) and staggeredly locks Wasted-energy steel plate two (10) the left and right sides is symmetrically respectively set connecting plate (5), and connecting plate screw (6) are arranged in connecting plate (5).
- 2. a kind of lead dot interlocks locking-type isolation structure according to claim 1, it is characterised in that:The size of lead dot (9) according to It is configured according to the size of lead dot hole (7).
- 3. a kind of lead dot interlocks locking-type isolation structure according to claim 1, it is characterised in that:It is first-class in connecting plate (5) Spacing opens up several connecting plate screws (6).
- 4. a kind of lead dot interlocks locking-type isolation structure according to claim 1, it is characterised in that:Staggeredly lock Wasted-energy steel plate One (1), staggeredly locking connection Wasted-energy steel plate (8) and staggeredly locking Wasted-energy steel plate two (10) using low yield point steel plate production and At.
- 5. a kind of lead dot interlocks locking-type isolation structure according to claim 1, it is characterised in that:Connection staggeredly locking energy consumption Steel plate one (1) and staggeredly the group number of the several groups lead dot (9) of locking connection Wasted-energy steel plate (8) are more than connection staggeredly locking energy consumption steel Plate two (10) and staggeredly the group number of the several groups lead dot (9) of locking connection Wasted-energy steel plate (8).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201810997820.0A CN108824668A (en) | 2018-08-29 | 2018-08-29 | A kind of lead dot interlocks locking-type isolation structure |
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Application Number | Priority Date | Filing Date | Title |
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CN201810997820.0A CN108824668A (en) | 2018-08-29 | 2018-08-29 | A kind of lead dot interlocks locking-type isolation structure |
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CN108824668A true CN108824668A (en) | 2018-11-16 |
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CN201810997820.0A Withdrawn CN108824668A (en) | 2018-08-29 | 2018-08-29 | A kind of lead dot interlocks locking-type isolation structure |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113531023A (en) * | 2021-06-10 | 2021-10-22 | 北京工业大学 | Overturning type horizontal shock-insulation trigger |
-
2018
- 2018-08-29 CN CN201810997820.0A patent/CN108824668A/en not_active Withdrawn
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113531023A (en) * | 2021-06-10 | 2021-10-22 | 北京工业大学 | Overturning type horizontal shock-insulation trigger |
CN113531023B (en) * | 2021-06-10 | 2022-08-16 | 北京工业大学 | Overturning type horizontal shock-insulation trigger |
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Application publication date: 20181116 |