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Three-dimensional shock isolation device capable of presetting vertical early-stage rigidity

A technology of vertical shock isolation and rigidity, applied in the direction of shock resistance, building components, building types, etc., can solve the problems of reducing the cost of shock isolation, shortening the effective working length of the spring, not being able to stretch, energy consumption and shock absorption, etc., to achieve buffer stretching and compression shock, reduce the cost of wind and earthquake resistance, and reduce the risk of overturning

Pending Publication Date: 2017-01-04
ANHUI XINZE TECH CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Although the scheme described in this patent application can improve the tensile strength of the three-dimensional seismic isolation device to resist the huge tension generated by the swaying or even overturning of high-rise buildings in an earthquake, the following deficiencies still exist: 1. The spring isolation The support can only be compressed for energy consumption and shock absorption, but cannot be stretched for energy consumption and shock absorption; 2. The spring isolation support cannot preset the early stiffness, which is not convenient for presetting the seismic intensity to reduce the cost of isolation
However, this invention still has the following disadvantages: 1. The load connecting rod is balanced under the joint action of two groups of disc springs. Although the preload of the two groups of disc springs can be adjusted, no matter how they are adjusted, the The force of the disc spring on the load connecting rod is a set of equal and opposite forces. Just applying any external force on the load connecting rod will destroy this balance and deform the two sets of disc springs. Therefore, the 2. In this invention, two sets of disk springs must be used together to provide damping when the damper is under compression or tension load, which not only causes a certain waste, but also makes the damper greatly increased in length
It can be seen that although the stiffness of the spring in the patent application scheme can be changed, the effective working length of the spring is not only significantly shortened, but also can only be compressed for energy consumption and vibration reduction, and cannot be stretched for energy consumption and vibration reduction.

Method used

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  • Three-dimensional shock isolation device capable of presetting vertical early-stage rigidity
  • Three-dimensional shock isolation device capable of presetting vertical early-stage rigidity
  • Three-dimensional shock isolation device capable of presetting vertical early-stage rigidity

Examples

Experimental program
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Effect test

example 1

[0038] see figure 1 , the three-dimensional isolation device in this example consists of laminated rubber isolation bearings and vertical isolation bearings connected in series up and down.

[0039] see figure 1 and Figure 4 , the laminated rubber shock-isolation bearing includes an upper connecting plate 14, a lower connecting plate 15, a laminated rubber pad 17 clamped between the upper and lower connecting plates and six tensile steel cables 16; wherein, the upper Both the connecting plate 14 and the lower connecting plate 15 are disc-shaped, and the edge of the upper connecting plate 14 is provided with mounting holes 13; the main body of the laminated rubber pad 17 is alternately composed of a layer of rubber 17-1 and a layer of steel plate 17-2 After lamination, it is molded and vulcanized, and a rubber protective layer 17-3 is naturally formed around it during the process of molded vulcanization. The upper and lower end surfaces of the main body of the laminated r...

example 2

[0048] This example has the following differences from Example 1:

[0049] see Figure 7-9 , the first group of preloaded steel cables 8 and the second group of preloaded steel cables 7 are composed of three preloaded steel cables.

[0050] see Figure 7-9 , the lower ends of the first set of preloaded steel cables 8 and the upper ends of the second set of preloaded steel cables 7 are respectively fixed on the lower end plate 3 and the upper end by using cable self-locking anchors 18 instead of the eyebolts in Example 1 plate 2. The middle part of the lower end plate 3 is thickened and bulges upwards to form an inverted washbasin shape, so as to facilitate the installation of the cable self-locking anchor 18 . In order to prevent dust and other sundries from falling on the cylindrical helical compression spring 4 and affect the normal operation of the damper, a protective cover 19 of rubber is wrapped on the outside of the back pressure device, and the two ends of the prote...

example 3

[0055] see Figures 13 to 15, The difference between this example and Example 2 is that the first group of preloaded steel cables 8 and the second group of preloaded steel cables 7 are composed of five preloaded steel cables. The upper end of the guide rod 1 is welded together with the middle part of the upper end plate 2, and the lower end extends downward along the central hole of the cylindrical helical compression spring 4 to the upwardly raised middle part of the lower end plate 3; the lower end The plate 3 is in dynamic fit with the outer surface of the guide rod 1 . Between the lower surface of the raised middle part of the lower end plate 3 and the lower surface of the edge of the lower end plate 3 is formed a flexible space 11 for the lower end of the guide rod 1 to expand and contract.

[0056] Other implementations of this example other than the above are the same as Example 2.

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Abstract

The invention discloses a three-dimensional shock isolation device capable of presetting vertical early-stage rigidity. The three-dimensional shock isolation device comprises a laminated rubber shock insulation support and a vertical shock insulation support which are connected in series from top to bottom sequentially. The three-dimensional shock isolation device is characterized in that a back pressure device is further arranged between two end plates of the vertical shock insulation support and comprises two groups of prepressing steel cables and two floating pressure plates, wherein the two floating pressure plates are arranged on a guide rod between one end plate and a cylindrical spiral compression spring, in a sleeving manner separately; the two groups of prepressing steel cables are symmetrically distributed at the periphery of the cylindrical spiral compression spring in a straight line state and around the axis of the guide rod respectively, and one end of each prepressing steel cable in each group of prepressing steel cables is fixed on one floating pressure plate, and the other end of the prepressing steel cable penetrates through the other floating pressure plate and is fixed on the end plate adjacent to the floating pressure plate; the two groups of prepressing steel cables are tensioned, so as to keep the cylindrical spiral compression spring always held between the two floating pressure plates.

Description

technical field [0001] The invention relates to a building anti-vibration (or shock) device, in particular to a three-dimensional shock-isolation device in which a sandwich steel plate rubber pad is connected in series with a vertical shock-isolation support. Background technique [0002] The seismic isolation device is an anti-seismic isolation device installed between the building and the foundation. The early seismic isolation devices were mainly two-dimensional isolation bearings (laminated rubber isolation bearings) composed of rubber and thin steel plates alternately laminated, which could only isolate the horizontal component of seismic waves. With the improvement of people's understanding of the multi-dimensional characteristics of earthquakes, three-dimensional seismic isolation devices have gradually attracted the attention of researchers in this field. The most common three-dimensional isolation device is composed of laminated rubber isolation bearings connected ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): E04B1/98E04H9/02
CPCE04H9/022
Inventor 沈珊胡济福胡济全
Owner ANHUI XINZE TECH CO LTD
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