CN216380804U - Three-dimensional shock insulation of resistance to plucking type friction pendulum support - Google Patents

Abstract

The utility model discloses a pulling-resistant three-dimensional shock-insulation friction pendulum support which comprises an upper support plate (1), a lower support plate (8) and a vertical shock-insulation component arranged between the two support plates, wherein the vertical shock-insulation component is in smooth contact with the upper support plate (1), a friction material is arranged at the contact part of the vertical shock-insulation component and the lower support plate (8), and the two support plates are connected in the circumferential direction through a pulling-resistant spring (5). Aiming at the problem of damage to building structures and bridge structures caused by the action of three-dimensional earthquake, the disc springs and the anti-pulling springs are added reasonably on the basis of the friction pendulum, so that the support has certain anti-pulling capacity and enough vertical shock insulation performance on the basis of the original horizontal shock insulation performance.

Description

Three-dimensional shock insulation of resistance to plucking type friction pendulum support

Technical Field

The utility model belongs to the field of building shock insulation supports, and particularly relates to an anti-pulling type three-dimensional shock insulation friction pendulum support.

Background

Earthquake is a natural disaster which can not be avoided by human beings, and is caused by collapse of buildings due to casualties and economic losses caused by earthquakes from ancient times to present. The use of the basic seismic isolation technology enables the building not to collapse in the earthquake really, and the basic seismic isolation technology becomes one of the most effective means for lightening the earthquake disaster. The basic idea of base isolation is to provide a flexible isolation layer between the foundation and the superstructure with sufficient reliability to extend the period of the structure's natural vibration and to increase damping to reduce the transfer of seismic energy to the superstructure.

The conventional shock isolation device comprises a rubber support and a friction support. The friction pendulum support is developed by Zayas et al of Berkeley division of California university in 1985, and the vibration isolation and energy dissipation principle of the friction pendulum support is that a friction sliding layer is utilized to prolong the natural vibration period of a structure so as to greatly reduce the structure power amplification effect generated by the earthquake action. Meanwhile, the friction between the sliding surface of the friction pendulum and the sliding block can effectively consume seismic energy, and the structural seismic input is reduced.

Although the friction pendulum support has the capacity of efficiently isolating the horizontal earthquake action, the vertical shock isolation capacity of the friction pendulum support is weak and cannot bear the vertical drawing force, so that the wide application of the friction pendulum support is greatly limited.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an anti-pulling type three-dimensional shock-insulation friction pendulum support aiming at the technical defects. According to the utility model, the disc spring is added on the basis of the friction pendulum support, so that the vertical shock insulation capability of the support is enhanced, and the support can effectively isolate the horizontal and vertical seismic actions. Meanwhile, the four springs are arranged between the upper support plate and the lower support plate, so that the problem that the friction pendulum support cannot bear vertical drawing force is solved.

In order to achieve the purpose, the utility model is realized by adopting the following technical scheme:

the utility model provides a three-dimensional shock insulation friction pendulum support of resistance to plucking type, includes upper bracket board, undersetting board to and the vertical shock insulation component of setting between two support plates, vertical shock insulation component and the smooth contact of upper bracket board, vertical shock insulation component is provided with friction material with undersetting board contact department, be connected with the resistance to plucking spring all around between two support plates.

The vertical shock insulation component comprises a slide block upper part, a slide block lower part, a sleeve connected with the slide block lower part, and a disc spring arranged between the slide block upper part and the slide block lower part and in the sleeve, wherein the slide block upper part is in smooth contact with the upper support plate, and the slide block lower part is in contact with the lower support plate.

The utility model is further improved in that the lower part and the upper part of the sliding block are connected with the disc spring in a way that the protruding cylinders are inserted into the inner diameter of the disc spring.

The utility model has the further improvement that one side of the lower end of the upper support plate is provided with a first curved surface, one side of the upper end of the upper part of the sliding block is provided with a second curved surface, and the upper part of the sliding block can rotate relative to the upper support plate through the matching of the first curved surface and the second curved surface.

The utility model has the further improvement that one side of the lower end of the lower part of the sliding block is provided with a third curved surface, one side of the upper end of the lower support plate is provided with a fourth curved surface, the lower part of the sliding block can slide relative to the lower support plate through the matching of the third curved surface and the fourth curved surface, and the friction material is polytetrafluoroethylene material and is attached to the third curved surface.

The utility model is further improved in that the inner wall of the sleeve is adhered with damping materials.

The utility model is further improved in that the inner side of the edge of the lower support plate is provided with a limiting ring to prevent the lower part of the sliding block from sliding down the lower support plate.

The utility model is further improved in that the number of the anti-pulling springs connected between the two support plates is four, and the anti-pulling springs are uniformly distributed between the two support plates.

The utility model has at least the following beneficial technical effects:

the anti-pulling type three-dimensional shock-insulation friction pendulum support has three-dimensional shock insulation capability. The conventional friction pendulum support has weak vertical shock insulation capability. When vertical earthquake happens, the support and the structure are greatly damaged. The shock insulation support provides smaller vertical rigidity through the vertical disc spring and provides stronger vertical shock insulation capability for the structure.

The anti-pulling type three-dimensional shock-insulation friction pendulum support has anti-pulling capacity. When the conventional friction pendulum support is in horizontal displacement, because there is not the resistance to plucking device, can not provide vertical pulling force, maintain the support stable, the support takes place to topple easily, leads to support shock insulation to become invalid, arouses the shock insulation structure to damage. The anti-pulling spring can resist pulling and enhance the self-resetting capability at the same time.

Drawings

FIG. 1 is a sectional view of an anti-pulling type three-dimensional shock-insulation friction pendulum support provided by the utility model.

FIG. 2 is a sectional view of the anti-pulling type three-dimensional shock-insulation friction pendulum support in a swinging state.

FIG. 3 is a detailed view of a vertical shock-isolating member of the anti-pulling type three-dimensional shock-isolating friction pendulum support provided by the utility model.

FIG. 4 is a top view of the anti-pulling type three-dimensional shock-isolation friction pendulum support provided by the utility model.

In the figure, 1, an upper support plate, 2, an upper part of a sliding block, 3, a disc spring, 4, a lower part of the sliding block, 5, an anti-pulling spring, 6, a sleeve, 7, a damping material, 8 and a lower support plate.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments, which are provided for illustration only and are not to be construed as limiting the utility model.

As shown in fig. 1-4, the utility model discloses a pulling-resistant three-dimensional shock-insulation friction pendulum support which comprises an upper support plate 1, wherein a first curved surface is arranged on one surface of the lower end of the upper support plate 1, a vertical shock-insulation component drawing 3 is arranged below the upper support plate 1, a lower support plate 8 is arranged below the vertical shock-insulation component drawing 3, a fourth curved surface is arranged on one surface of the upper end of the lower support plate 8, and a pulling-resistant spring 5 is arranged between the upper support plate 1 and the lower support plate 8.

Specifically, as shown in fig. 1, 3, vertical shock insulation component includes slider upper portion 2, 2 upper ends on slider upper portion one side are equipped with the second curved surface, 2 lower extreme cylinders on slider upper portion insert in the central hole on 3 upper portions of belleville spring, 3 lower parts of belleville spring then are inserted in the upper end cylinder of slider lower part 4, 4 lower extreme one sides on slider lower part are equipped with the third curved surface, 4 tops on slider lower part even have sleeve 6, 6 inboard damping material 7 of pasting of sleeve, its space that is used for between packing sleeve 6 and belleville spring 3, belleville spring 3 and sleeve 6 so will leave the space because certain space is needed after 3 lateral deformation of belleville spring.

Specifically, the first curved surface and the second curved surface have the same radius of curvature, and the third curved surface and the fourth curved surface have the same radius of curvature.

Specifically, upper bracket board 1 upper end links to each other with building or bridge superstructure, and the first curved surface of upper bracket board 1 lower extreme and the second curved surface of 2 upper ends on slider upper portion are the rotation contact, and this contact makes superstructure can keep the level in shaking.

Specifically, the method comprises the following steps: the vertical shock insulation component composed of the upper part 2 of the sliding block, the disc spring 3, the lower part 4 of the sliding block, the sleeve 6 and the damping material 7 isolates vertical shock by utilizing the variable stiffness characteristic and the energy dissipation capability of the disc spring 3, and the vertical shock insulation component slides integrally in sliding and is equal to the sliding block in the friction pendulum support.

Specifically, the third curved surface at the lower end of the lower sliding block part 4 is in sliding contact with the fourth curved surface at the upper end of the lower support plate 8, the third curved surface at the lower end of the lower sliding block part 4 is attached with polytetrafluoroethylene serving as a friction material, and the third curved surface at the lower end of the lower sliding block part 4 and the fourth curved surface at the upper end of the lower support plate 8 consume horizontal seismic energy through sliding friction, so that the purpose of isolating a horizontal earthquake is achieved.

Specifically, the anti-pulling spring 5 between the upper support plate 1 and the lower support plate 8 is used for bearing vertical pulling force, so that the upper structure is not prone to support failure when being subjected to the vertical pulling force, and the self-recovery performance of the support can be enhanced.

The above description is only exemplary of the present invention and should not be taken as limiting the utility model, as any modification, equivalent replacement, or improvement made within the spirit and scope of the present invention should be included in the present invention.

Claims (8)

1. The utility model provides a three-dimensional shock insulation friction pendulum support of resistance to plucking type, its characterized in that includes upper bracket board (1), undersetting board (8) to and set up the vertical shock insulation component between two bedplate, vertical shock insulation component and upper bracket board (1) smooth contact, vertical shock insulation component is provided with friction material with undersetting board (8) contact department, be connected with resistance to plucking spring (5) all around between two bedplate.

2. The three-dimensional shock insulation friction pendulum support of resistance to plucking type of claim 1, characterized in that, vertical shock insulation component includes slider upper portion (2), slider lower part (4), set up the sleeve (6) that links to each other with slider lower part (4), set up belleville spring (3) between slider upper portion (2) and slider lower part (4) and in sleeve (6), slider upper portion (2) and upper bracket board (1) smooth contact, slider lower part (4) and lower bracket board (8) contact.

3. The anti-pulling type three-dimensional shock-insulation friction pendulum support according to claim 2, wherein the lower slider portion (4) and the upper slider portion (2) are connected with the disk spring (3) in such a way that their protruding cylinders are inserted into the inner diameter of the disk spring (3).

4. The anti-pulling type three-dimensional shock-insulation friction pendulum support seat as claimed in claim 1, wherein a first curved surface is arranged on one side of the lower end of the upper support plate (1), a second curved surface is arranged on one side of the upper end of the upper slide block portion (2), and the upper slide block portion (2) can rotate relative to the upper support plate (1) through the cooperation of the first curved surface and the second curved surface.

5. The three-dimensional shock-insulation friction pendulum support of a pulling-resistant type as claimed in claim 4, wherein a third curved surface is provided on one side of the lower end of the lower slider portion (4), a fourth curved surface is provided on one side of the upper end of the lower support plate (8), the lower slider portion (4) can slide relative to the lower support plate (8) through the cooperation of the third curved surface and the fourth curved surface, and the friction material is polytetrafluoroethylene material and is attached to the third curved surface.

6. The anti-pulling type three-dimensional shock-insulation friction pendulum support seat is characterized in that a damping material (7) is pasted on the inner wall of the sleeve (6).

7. The three-dimensional vibration-isolating friction pendulum support of a pulling-resistant type as claimed in claim 2, wherein the lower support plate (8) is provided with a limiting ring inside the edge to prevent the lower part (4) of the slide block from sliding down the lower support plate (8).

8. The three-dimensional vibration-isolating friction pendulum support of a pulling-resistant type as claimed in claim 1, wherein the number of the pulling-resistant springs (5) connected between the two support plates is four, and the four springs are uniformly distributed between the two support plates.

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