CN208748835U - A kind of compound energy consumption lamination shock mount - Google Patents

A kind of compound energy consumption lamination shock mount Download PDF

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Publication number
CN208748835U
CN208748835U CN201821404933.7U CN201821404933U CN208748835U CN 208748835 U CN208748835 U CN 208748835U CN 201821404933 U CN201821404933 U CN 201821404933U CN 208748835 U CN208748835 U CN 208748835U
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steel plate
energy consumption
circular steel
energy
hole
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CN201821404933.7U
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张延年
杨森
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Shenyang Jianzhu University
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Shenyang Jianzhu University
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Abstract

The utility model provides a kind of compound energy consumption lamination shock mount, belongs to field of shock isolation and absorption control of building structure.Connecting plate is respectively set in the integrally-built upper and lower ends of compound energy consumption lamination shock mount, is set gradually from top to bottom between two connecting plates and squeezes Wasted-energy steel plate, the first energy consumption circular steel plate, squeeze Wasted-energy steel plate, the second energy consumption circular steel plate, squeeze Wasted-energy steel plate, third energy consumption circular steel plate, squeeze Wasted-energy steel plate, the 4th energy consumption circular steel plate, squeeze Wasted-energy steel plate, the first energy consumption circular steel plate, squeeze Wasted-energy steel plate, the second energy consumption circular steel plate, squeeze Wasted-energy steel plate, third energy consumption circular steel plate, squeeze Wasted-energy steel plate, the 4th energy consumption circular steel plate.Beneficial effect is the energy consumption effect for making support possess rotary damping using energy consumption circular steel plate stack-design, seat structure is set to possess multi-functional and multidirectional anti-seismic performance, there is reasonable horizontal and vertical initial stiffness simultaneously, with enough vertically pulling-resistant abilities, meet the requirement of support vertical bearing requirements and vertical earthquake isolating.

Description

A kind of compound energy consumption lamination shock mount
Technical field
The utility model belongs to field of shock isolation and absorption control of building structure, more particularly to a kind of compound energy consumption lamination damping Support.
Background technique
Support shock insulation belongs to passive control technology, is filled by the way that shock insulation is arranged between superstructure and lower support system It sets to reduce the seismic response of superstructure.Annual in the world to occur ruinous earthquake nearly thousand times, a violent earthquake can cause The economic loss of $ 100 billion causes hundreds of thousands people dead or severe disability.China is located in two most active earthquakes in the world It takes, is the one of the countries with the most serious ... that suffers disaster from an earthquake, casualties caused by earthquake occupies first place in the world, economic loss also ten Divide huge.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 earthquake isolating equipment.In small wind or small shake, these every Shaking device has enough lateral rigidities to meet requirement, and structure is in elastic stage;When there is big shake or strong wind, with The increase of structure lateral deformation, earthquake isolating equipment take the lead in starting to work, generate larger damping, a large amount of earthquakes for consuming input structures Or wind shake energy, so that the energy such as kinetic energy or the elastic potential energy of structure is converted to the forms such as thermal energy and dissipates, rapid attenuating structure Earthquake or Wind Vibration Response (displacement, speed, acceleration etc.), make main structure avoid the occurrence of apparent inelastic state, protection Main structure and component are in macroseism or strong wind from destroying.Because the reasons such as earthquake are transferred to the external energy of building structure, It is the root that structure generates vibration, so earthquake isolating equipment is arranged in the structure, increases energy consumption, it will the vibration for reducing structure is anti- It answers.The earthquake isolating equipment researched and developed at present is easily crushed and ineffective, its energy dissipation capacity is caused to be greatly reduced.Therefore, one There is still a need for further improvements for the manufacturing process of a little earthquake isolating equipments and energy-dissipating property etc..
Utility model content
In order to solve above-mentioned technical problem, the utility model provides a kind of compound energy consumption lamination shock mount, adopts With the structure of energy consumption circular steel plate stack-design, seat structure is made to possess multi-functional and multidirectional anti-seismic performance, while had rationally Horizontal and vertical initial stiffness, have enough vertically pulling-resistant abilities, can satisfy the vertical bearing requirements of support and vertically every The requirement of shake.
To achieve the goals above, the technical solution adopted in the utility model are as follows:
A kind of compound energy consumption lamination shock mount, including the first energy consumption circular steel plate, energy consumption rib, interior set circular hole, squeeze and consume It can plate, connecting plate, connecting plate screw, lead dot hole, the second energy consumption circular steel plate, lead dot, center hole, third energy consumption circular steel plate With the 4th energy consumption circular steel plate, connecting plate is respectively set in the integrally-built upper and lower ends of compound energy consumption lamination shock mount, two It is set gradually from top to bottom between a connecting plate and squeezes Wasted-energy steel plate, the first energy consumption circular steel plate, squeezes Wasted-energy steel plate, the second energy consumption circle Shape steel plate squeezes Wasted-energy steel plate, third energy consumption circular steel plate, squeezes Wasted-energy steel plate, the 4th energy consumption circular steel plate, squeezes Wasted-energy steel plate, the One energy consumption circular steel plate squeezes Wasted-energy steel plate, the second energy consumption circular steel plate, squeezes Wasted-energy steel plate, third energy consumption circular steel plate, squeezes consumption Energy plate, the 4th energy consumption circular steel plate are attached the first energy consumption circular steel plate and connecting plate using several groups lead dot, if using Dry group lead dot is attached the second energy consumption circular steel plate and the first energy consumption circular steel plate, is consumed energy using several groups lead dot to third Circular steel plate and the second energy consumption circular steel plate are attached, using several groups lead dot to third energy consumption circular steel plate and the 4th energy consumption Circular steel plate is attached, and is attached using several groups lead dot to the first energy consumption circular steel plate and the 4th energy consumption circular steel plate, The first energy consumption circular steel plate and the second energy consumption circular steel plate are attached using several groups lead dot, using several groups lead dot to the Two energy consumption circular steel plates and third energy consumption circular steel plate are attached, and are consumed energy circular steel plate and the using several groups lead dot to third Four energy consumption circular steel plates are attached, and are attached using several groups lead dot to the 4th energy consumption circular steel plate and connecting plate, the One energy consumption circular steel plate, the second energy consumption circular steel plate, the center difference of third energy consumption circular steel plate and the 4th energy consumption circular steel plate It is provided with center hole, is provided with around center hole in several circles and sets circular hole and lead dot hole, the quantity of circular hole is set in every circle It is equal with every circle quantity in lead dot hole, circular hole is set inside and interior set is equipped with energy consumption rib between circular hole, and a circle is set on connecting plate A circle connecting plate screw is arranged in lead dot hole on the connecting plate of lead dot hole outer ring.
Wherein, the size of the lead dot is configured according to the size in lead dot hole.
Wherein, several connecting plate screws are equidistantly opened up in the connecting plate outer ring.
Wherein, the first energy consumption circular steel plate, the second energy consumption circular steel plate, third energy consumption circular steel plate and the 4th energy consumption Circular steel plate is all made of low yield point steel plate and is made.
Wherein, the extruding Wasted-energy steel plate is made using high-damping rubber.
Wherein, the lead dot quantity for connecting adjacent energy consumption circular steel plate is equal to connection connecting plate and energy consumption adjacent thereto is round The lead dot quantity of steel plate.
Wherein, it is equipped in two circles in the first energy consumption circular steel plate next to center hole and sets circular hole, inside set outside circular hole Two circle lead dot hole of setting.
Wherein, it is respectively equipped with next to center hole with the position far from center hole in the second energy consumption circular steel plate Circular hole is set in one circle, is set in two circles and is equipped with two circle lead dot holes between circular hole.
Wherein, two circle lead dot holes are equipped with next to center hole in the third energy consumption circular steel plate, be arranged outside lead dot hole Circular hole is set in two circles.
Wherein, it is set respectively next to center hole with the position far from center hole in the 4th energy consumption circular steel plate There is a circle lead dot hole, is equipped in two circles between two circle lead dot holes and sets circular hole.
The utility model has the beneficial effects that using the structure of energy consumption circular steel plate stack-design, in support by past rehydration When flat shear action, the connecting plate of setting can drive energy consumption circular steel plate to carry out reciprocal horizontal shear energy dissipation, and consume energy circular steel plate Adjacent energy consumption circular steel plate can be driven to carry out reciprocal horizontal shear energy dissipation, and reciprocating friction consumption can be carried out with Wasted-energy steel plate is squeezed Can, keep seat structure horizontal direction energy consumption effect more preferable, when support is by vertical direction squeezing action, connecting plate and energy consumption circle Shape steel plate can carry out extruding energy consumption to Wasted-energy steel plate is squeezed, while possess support using the structure of energy consumption circular steel plate stack-design The energy consumption of rotary damping acts on, and seat structure is made to possess multi-functional and multidirectional anti-seismic performance, while having reasonable horizontal and perpendicular To initial stiffness, there is enough vertically pulling-resistant abilities, can satisfy the requirement of support vertical bearing requirements and vertical earthquake isolating.
Detailed description of the invention
The compound energy consumption lamination shock mount in the utility model is described further with reference to the accompanying drawing:
Fig. 1 faces for the compound energy consumption lamination shock mount of the utility model and schematic side view.
Fig. 2 is the compound energy consumption lamination shock mount schematic top plan view of the utility model.
Fig. 3 is the A-A diagrammatic cross-section of Fig. 2.
Fig. 4 is connecting plate schematic elevation view.
Fig. 5 is the first energy consumption circular steel plate schematic elevation view.
Fig. 6 is the second energy consumption circular steel plate schematic elevation view.
Fig. 7 is third energy consumption circular steel plate schematic elevation view.
Fig. 8 is the 4th energy consumption circular steel plate schematic elevation view.
In figure: 1 is the first energy consumption circular steel plate;2 be energy consumption rib;3 set circular hole to be interior;4 be extruding Wasted-energy steel plate;5 be connection Plate;6 be connecting plate screw;7 be lead dot hole;8 be the second energy consumption circular steel plate;9 be lead dot;10 be center circular hole;11 be third Consume energy circular steel plate;12 be the 4th energy consumption circular steel plate.
Specific embodiment
In order to further illustrate the utility model, the utility model is retouched in detail with reference to the accompanying drawings and embodiments It states, but they cannot be interpreted as to the restriction to scope of protection of the utility model.
A kind of compound energy consumption lamination shock mount, as shown in Fig. 1 ~ Fig. 8, including the first energy consumption circular steel plate 1, the rib 2 that consumes energy, Inside set circular hole 3, squeeze Wasted-energy steel plate 4, connecting plate 5, connecting plate screw 6, lead dot hole 7, second consume energy circular steel plate 8, lead dot 9, in Heart circular hole 10, third energy consumption circular steel plate 11 and the 4th energy consumption circular steel plate 12, it is compound energy consumption lamination shock mount structure in, Connecting plate 5 is respectively set in integrally-built upper and lower ends, the first energy consumption circle is respectively set between two connecting plates 5 from top to bottom Shape steel plate 1, second consume energy circular steel plate 8, the third energy consumption energy consumption circular steel plate 12, first of circular steel plate the 11, the 4th consume energy round The energy consumption of steel plate 1, second circular steel plate 8, the third energy consumption energy consumption circular steel plate 12 of circular steel plate the 11, the 4th, and in energy consumption circular steel It is arranged between plate and between energy consumption circular steel plate and connecting plate 5 and squeezes Wasted-energy steel plate 4, if overall structure is respectively adopted from top to bottom Dry group lead dot 9 is attached the first energy consumption circular steel plate 1 and connecting plate 5, using several groups lead dot 9 to the second energy consumption circular steel Plate 8 and the first energy consumption circular steel plate 1 are attached, using several groups lead dot 9 to third energy consumption circular steel plate 11 and the second energy consumption Circular steel plate 8 is attached, and is carried out using several groups lead dot 9 to third energy consumption circular steel plate 11 and the 4th energy consumption circular steel plate 12 Connection is attached the first energy consumption circular steel plate 1 and the 4th energy consumption circular steel plate 12 using several groups lead dot 9, and use is several Group lead dot 9 is attached the first energy consumption circular steel plate 1 and the second energy consumption circular steel plate 8, is consumed using several groups lead dot 9 to second Energy circular steel plate 8 and third energy consumption circular steel plate 11 are attached, using several groups lead dot 9 to third energy consumption 11 He of circular steel plate 4th energy consumption circular steel plate 12 is attached, and is connected using several groups lead dot 9 to the 4th energy consumption circular steel plate 12 and connecting plate 5 It connects, in the first energy consumption energy consumption of circular steel plate 1, second circular steel plate 8, third energy consumption circular steel plate 11 and the 4th energy consumption circular steel plate 12 are provided centrally with center hole 10, are provided in several circles around center hole 10 and set circular hole 3 and lead dot hole 7, every circle The quantity of the quantity and every circle lead dot hole 7 that inside set circular hole 3 is equal, sets be equipped with energy consumption rib 2 between circular hole 3 inside, in connecting plate 5 One circle lead dot hole 7 of setting, outer one circle connecting plate screw 6 of setting.
The size of lead dot 9 is configured according to the size in lead dot hole 7.Several connections are equidistantly opened up in 5 outer ring of connecting plate Plate screw hole 6.The first energy consumption energy consumption of circular steel plate 1, second circular steel plate 8, third energy consumption circular steel plate 11 and the 4th energy consumption are round Steel plate 12 is all made of low yield point steel plate and is made.Wasted-energy steel plate 4 is squeezed to be made using high-damping rubber.Connect adjacent consumption 9 quantity of lead dot of energy circular steel plate is equal to 9 quantity of lead dot of connection connecting plate 5 and energy consumption circular steel plate adjacent thereto.
The above is only the preferred embodiment of the utility model, it is noted that for the common skill of the art For art personnel, without departing from the principle of this utility model, several improvements and modifications can also be made, these improve and Retouching also should be regarded as the protection scope of the utility model.

Claims (10)

1. a kind of compound energy consumption lamination shock mount, including the first energy consumption circular steel plate (1), consume energy rib (2), it is interior set circular hole (3), Squeeze Wasted-energy steel plate (4), connecting plate (5), connecting plate screw (6), lead dot hole (7), second energy consumption circular steel plate (8), lead dot (9), Center hole (10), third energy consumption circular steel plate (11) and the 4th energy consumption circular steel plate (12), it is characterised in that: in compound energy consumption The integrally-built upper and lower ends of lamination shock mount are respectively set connecting plate (5), between two connecting plates (5) from top to bottom successively Setting squeezes Wasted-energy steel plate (4), the first energy consumption circular steel plate (1), squeezes Wasted-energy steel plate (4), the second energy consumption circular steel plate (8), squeezes Wasted-energy steel plate (4), third energy consumption circular steel plate (11) squeeze Wasted-energy steel plate (4), the 4th energy consumption circular steel plate (12), squeeze Wasted-energy steel plate (4), the first energy consumption circular steel plate (1), extruding Wasted-energy steel plate (4), the second energy consumption circular steel plate (8), extruding Wasted-energy steel plate (4), third It consumes energy circular steel plate (11), squeeze Wasted-energy steel plate (4), the 4th energy consumption circular steel plate (12), consumed using several groups lead dot (9) to first Energy circular steel plate (1) and connecting plate (5) are attached, using several groups lead dot (9) to the second energy consumption circular steel plate (8) and first Energy consumption circular steel plate (1) is attached, round to third energy consumption circular steel plate (11) and the second energy consumption using several groups lead dot (9) Steel plate (8) is attached, using several groups lead dot (9) to third energy consumption circular steel plate (11) and the 4th energy consumption circular steel plate (12) It is attached, the first energy consumption circular steel plate (1) and the 4th energy consumption circular steel plate (12) is connected using several groups lead dot (9) It connects, the first energy consumption circular steel plate (1) and the second energy consumption circular steel plate (8) is attached using several groups lead dot (9), if using Dry group lead dot (9) is attached the second energy consumption circular steel plate (8) and third energy consumption circular steel plate (11), using several groups lead dot (9) to third energy consumption circular steel plate (11) and the 4th consume energy circular steel plate (12) be attached, using several groups lead dot (9) to the Four energy consumptions circular steel plate (12) and connecting plate (5) are attached, in the first energy consumption circular steel plate (1), the second energy consumption circular steel plate (8), the center of third energy consumption circular steel plate (11) and the 4th energy consumption circular steel plate (12) is respectively arranged with center hole (10), It is provided in several circles around center hole (10) and sets circular hole (3) and lead dot hole (7), the quantity and often of circular hole (3) is set in every circle The quantity for enclosing lead dot hole (7) is equal, sets circular hole (3) inside and interior set is equipped with energy consumption rib (2) between circular hole (3), in connecting plate (5) Upper one circle lead dot hole (7) of setting, is arranged circle connecting plate screw (6) on the connecting plate (5) of lead dot hole (7) outer ring.
2. a kind of compound energy consumption lamination shock mount according to claim 1, it is characterised in that: the size of the lead dot (9) Size according to lead dot hole (7) is configured.
3. a kind of compound energy consumption lamination shock mount according to claim 1, it is characterised in that: the connecting plate (5) outside Circle equidistantly opens up several connecting plate screws (6).
4. a kind of compound energy consumption lamination shock mount according to claim 1, it is characterised in that: the first energy consumption circular steel Plate (1), the second energy consumption circular steel plate (8), third energy consumption circular steel plate (11) and the 4th energy consumption circular steel plate (12) are all made of low Yield point steel plate is made.
5. a kind of compound energy consumption lamination shock mount according to claim 1, it is characterised in that: the extruding Wasted-energy steel plate (4) It is made using high-damping rubber.
6. a kind of compound energy consumption lamination shock mount according to claim 1, it is characterised in that: connect adjacent energy consumption circular steel Lead dot (9) quantity of plate is equal to lead dot (9) quantity of connection connecting plate (5) and energy consumption circular steel plate adjacent thereto.
7. a kind of compound energy consumption lamination shock mount according to claim 1, it is characterised in that: the first energy consumption circular steel It is equipped in two circles on plate (1) next to center hole (10) and sets circular hole (3), inside set circular hole (3) and two circles lead dot hole (7) are set outside.
8. a kind of compound energy consumption lamination shock mount according to claim 1, it is characterised in that: the second energy consumption circular steel Position on plate (8) next to center hole (10) and far from center hole (10), which is respectively equipped in a circle, to be set circular hole (3), two circles It inside sets and is equipped with two circles lead dot hole (7) between circular hole (3).
9. a kind of compound energy consumption lamination shock mount according to claim 1, it is characterised in that: the third energy consumption circular steel Two circles lead dot hole (7) are equipped with next to center hole (10) on plate (11), lead dot hole (7), which are arranged outside in two circles, sets circular hole (3).
10. a kind of compound energy consumption lamination shock mount according to claim 1, it is characterised in that: the 4th energy consumption is round Position on steel plate (12) next to center hole (10) and far from center hole (10) is respectively equipped with a circle lead dot hole (7), It is equipped between two circles lead dot hole (7) in two circles and sets circular hole (3).
CN201821404933.7U 2018-08-29 2018-08-29 A kind of compound energy consumption lamination shock mount Active CN208748835U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201821404933.7U CN208748835U (en) 2018-08-29 2018-08-29 A kind of compound energy consumption lamination shock mount

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201821404933.7U CN208748835U (en) 2018-08-29 2018-08-29 A kind of compound energy consumption lamination shock mount

Publications (1)

Publication Number Publication Date
CN208748835U true CN208748835U (en) 2019-04-16

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ID=66081456

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Application Number Title Priority Date Filing Date
CN201821404933.7U Active CN208748835U (en) 2018-08-29 2018-08-29 A kind of compound energy consumption lamination shock mount

Country Status (1)

Country Link
CN (1) CN208748835U (en)

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