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Rubber damper capable of adjusting early-stage rigidity

A damper and adjustable technology, applied in the direction of shock absorber, shock absorber, spring/shock absorber, etc., can solve the problem of increasing the volume of the anti-seismic structure, poor tensile capacity, and it is difficult to ensure the same characteristics of the shock-isolation bearing and other issues to achieve the effect of shortening the length and reducing the cost of isolation

Active Publication Date: 2016-12-21
ANHUI XINZE TECH CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] The strong bearing capacity of the rubber shock-isolating pad is mainly reflected in the compressive capacity, while the tensile capacity is often poor. Under the action of high tensile load, the rubber shock-isolating pad is easy to be torn, precisely because of the weak tensile capacity. Defects lead to certain restrictions on the application of rubber shock-isolating pads in the field of shock-isolation technology
[0004] The invention patent application with the publication number CN101769015A discloses a "Laminated Rubber Shock Isolation Bearing Tensile Mechanism", which includes an upper connecting seat, a lower connecting seat and a laminated rubber clamped between the upper and lower connecting seats. The shock isolation support, the upper connection seat is provided with an "L" shaped upper reaction force arm, the lower connection seat is provided with an inverted "L" shaped lower reaction force arm, and the "L" shaped upper reaction force arm Between the reaction force arm and the horizontal lateral side of the inverted "L"-shaped lower reaction force arm, there is a laminated rubber shock-isolation support clamped by the two in reverse; when the tensile structure is compressed, The pressure is borne by the shock-isolation support clamped between the upper and lower connecting seats; when the tensile structure is pulled, the tension is supported by the "L"-shaped upper reaction force arm and the inverted "L"-shaped lower reaction force arm. The force arm is converted into the pressure on the seismic isolation bearing clamped between the two directions; although this makes the structure have tensile capacity, it still has the following disadvantages: (1) the isolation bearings are divided by different isolation bearings. Bear bi-directional loads, so at least two laminated rubber seismic isolation bearings are required, which not only costs more, but also increases the volume of the seismic structure; (2) When a seismic isolation bearing is compressed, there must be a seismic isolation bearing The bearing is under tension, and the seismic isolation bearing under tension also has the risk of tearing; (3) It is difficult to ensure that the characteristics of the two isolation bearings are the same in technology, so the isolation effect is different in different directions of force
Since the deformation element of the rubber shock absorber is rubber, the above three means of changing the effective working length of the spring are obviously not suitable for the rubber shock absorber; Can only compress energy dissipation and vibration reduction, not stretch energy dissipation and vibration reduction

Method used

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  • Rubber damper capable of adjusting early-stage rigidity
  • Rubber damper capable of adjusting early-stage rigidity
  • Rubber damper capable of adjusting early-stage rigidity

Examples

Experimental program
Comparison scheme
Effect test

example 1

[0039] see figure 1 , the rubber damper with adjustable early stiffness in this example is an energy-dissipating device that can be used for seismic reinforcement of building structures. Cover 3, wherein, the first end cover 2 and the second end cover 3 are respectively fixedly connected to the two ends of the guide sleeve by screws. A rubber shock-isolating pad 4 is arranged in the axial direction in the guide sleeve 1, and a driving member extends from the center of the first end cover 2 into the guide sleeve 1 and presses on the rubber shock-isolating pad 4; wherein, The driving member is composed of a dynamic pressure plate 5 located at the upper end of the rubber vibration-isolating pad 4 and movingly matched with the guide sleeve 1, and a driving rod 5-1 extending upward from the upper surface of the dynamic pressure plate 5 out of the guide sleeve 1. The driving rod 5 The end of -1 located outside the guide sleeve 1 is provided with a connecting ring 5-2 with a hinged...

example 2

[0056] see Figures 14 to 18 , this example has the following differences from Example 1:

[0057]Both the first group of preloaded steel cables 8 and the second group of preloaded steel cables 9 are composed of three steel cables. The number of the steel cable self-locking tensioning anchors 16 is six.

[0058] The implementation method of this example except the above is the same as Example 1.

example 3

[0060] see Figures 19-23 , the rubber damper with adjustable early stiffness in this example is a vibration isolation device (also called seismic isolation support) that can be used for vertical isolation of buildings. Compared with Example 2, this example mainly has the following differences:

[0061] 1. As a vibration-isolation support, in order to facilitate installation, the connecting lugs provided on the second end cover 3 are omitted in this example, and the second end cover 3 is extended axially downward from the edge and then radially outward Extended, and the connecting bolt holes 18 are uniformly arranged at the edge, and the second end cover 3 is used as the base of the shock-isolation support, wherein the length extending downward axially needs to be greater than that of the self-locking tensioning anchor 16 of the steel cable high. The driving rod 5-1 of the driving member is a metal tube fixedly connected to the upper surface of the dynamic pressure plate 5 by...

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Abstract

The invention discloses a rubber damper capable of adjusting early-stage rigidity. The rubber damper is characterized in that a guide sleeve is internally further provided with a backward pressing device; the backward pressing device comprises two groups of pre-pressing steel ropes with the quantity of at least three, and two floating pressing plates, wherein the two groups of pre-pressing steel ropes are distributed in an annular space at a linear state; one end of each of one group of pre-pressing steel ropes is fixed on the floating pressing plate adjacent to a second end cover, and the other ends of the pre-pressing steel ropes penetrate through the floating pressing plate adjacent to a driving component to be anchored on the driving component through steel rope self-locking tensioning anchoring devices; one end of each of the other group of pre-pressing steel ropes is fixed on the floating pressing plate adjacent to driving component, and the other ends of the pre-pressing steel ropes penetrate through the floating pressing plate adjacent to the second end cover to be anchored on the driving component through the steel rope self-locking tensioning anchoring devices; and the two groups of pre-pressing steel ropes are tensioned, so that a rubber vibration absorption pad is clamped between the two floating pressing plates all the time.

Description

technical field [0001] The invention relates to a shock absorbing device, in particular to a damper using a rubber shock-absorbing pad. Background technique [0002] Rubber shock-isolating pad is a kind of shock-isolating device with rubber as the deformation element. Due to the advantages of low cost, strong bearing capacity and low natural vibration frequency, rubber shock-isolating pad is widely used in heavy-duty occasions such as buildings and bridges. [0003] The strong bearing capacity of the rubber shock-isolating pad is mainly reflected in the compressive capacity, while the tensile capacity is often poor. Under the action of high tensile load, the rubber shock-isolating pad is easy to be torn, precisely because of the weak tensile capacity. Defects lead to certain restrictions on the application of rubber shock-absorbing pads in the field of shock-isolation technology. [0004] The invention patent application with the publication number CN101769015A discloses a ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): E04B1/98F16F7/108
CPCE04B1/98F16F7/108
Inventor 沈珊胡济福胡济全
Owner ANHUI XINZE TECH CO LTD
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