Damping combined type building seismic isolation rubber support and manufacturing method thereof

A technology of vibration isolation rubber and high damping rubber layer, which is applied in building structures, buildings, building components, etc., can solve the problem of the decrease of the ultimate shear deformation capacity of the bearing, the large area of ​​the lead core and the rubber body, and the overall performance of the bearing. and other problems, to achieve excellent fatigue resistance and flexural resistance and weather resistance, comprehensive and excellent horizontal performance, and the effect of improving yield force

Active Publication Date: 2014-10-08
柳州东方工程橡胶制品有限公司
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] In the field of construction, the rubber shear modulus of seismic isolation rubber bearings is very low, and it is very difficult to increase the damping ratio of the bearing itself to achieve ultra-high damping performance by improving the rubber damping performance; The wind test calculation is generally controlled by the isolation layer (that is, the isolation support). Sometimes the isolation support requires a large yield force. In this way, even if the damping ratio of the support achieves 0.2 level performance, due to the rubber elasticity If the modulus is too small, the yield force of the high damping rubber bearing alone is not enough; for the building lead core isolation rubber bearing, if the equivalent damping ratio needs to be increased, it can be achieved by increasing the diameter of the lead core, but If the diameter of the lead core is too large, the area ratio between the lead core and the rubber body will be too large, which will lead to a decrease in the ultimate shear deformation capacity of the support and a decrease in the overall performance of the support, so that it cannot be used in some important buildings.

Method used

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  • Damping combined type building seismic isolation rubber support and manufacturing method thereof
  • Damping combined type building seismic isolation rubber support and manufacturing method thereof
  • Damping combined type building seismic isolation rubber support and manufacturing method thereof

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Effect test

Embodiment 1

[0051] Such as Figure 5 ~ Figure 6 , oneA damping combined type building shock-isolation rubber bearing, comprising an upper outer connecting steel plate 6, a lower outer connecting steel plate 8 and a bearing core, the bearing core includes a sealing plate 2, a stiffening steel plate 3, a high damping rubber layer 4 and The rubber protection layer 7, the sealing plate, the stiffened steel plate, the high damping rubber layer and the rubber protection layer are integrated into a whole through thermal vulcanization molding, and the support core is connected with the upper outer connecting plate 6 and the lower outer through connecting bolts 1 The steel plate 8 is connected, and the center of the support core body is provided with 4 rod holes along the axial direction, and a high damping metal material rod 5 is installed in the rod hole, and the high damping metal material rod is combined with the support core body.

[0052] The outer connecting steel plate is circular, and th...

Embodiment 2

[0059] one A kind of damping combination type building shock-isolation rubber bearing, its basic structure is identical with embodiment 1, and the component weight portion that forms high damping rubber layer is as follows:

[0060] a. 60g of natural rubber, b. 40g of neoprene, c. 0.1g of stearic acid,

[0061] d. Accelerator CBS 0.5g, e. Anti-aging agent RD 3g, f. Zinc oxide 5g,

[0062] g. protective wax 2g, h. N234 carbon black 12g, i. silane 5g, j. sulfur 1g.

Embodiment 3 Embodiment 10

[0064] one The basic structure of this damping combined building shock-isolation rubber bearing is the same as that of Embodiment 1. For the components by weight of the high-damping rubber layer of each embodiment, see Attached Table 1.

[0065] The above-mentioned embodiment 1 to embodiment 10 are preferred implementation solutions of the present invention, but the technical solution of the present invention is not limited to the above-mentioned embodiments, as a transformation of the above-mentioned embodiment 1 to embodiment 10:

[0066] 1. The number of rod holes opened by the core body of the support for installation of high-damping metal rods can be determined according to the actual needs of construction engineering design, or one (see attached Figure 1 ~ Figure 2 ), or for 3 (see attached Figure 3 ~ Figure 4 ), generally 1 to 4;

[0067] 2. The high damping metal material rod can also be made of tin, or Mn-Cu alloy or Mg alloy material;

[0068] 3. above. The s...

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Abstract

A damping combined type building seismic isolation rubber support comprises an outer connection steel plate and a support core body. The support core body comprises a sealing plate, a stiffening steel plate, a high-damping rubber layer and a rubber protective layer which are formed into a whole through heat vulcanization, the high-damping rubber layer is made of ultrahigh-damping rubber, n bar holes are formed in the support core body in the axis direction, high-damping metal bars are arranged in the bar holes, and the high-damping metal bars and the support core body are fused into a whole. The manufacturing method of the seismic isolation rubber support is simple in process. The manufactured high-damping rubber layer has excellent antifatigue performance, deflection resistance and weather ability, and the damping ratio reaches 20 percent. The seismic isolation rubber support combines performance advantages of a high-damping rubber support and a lead core seismic isolation rubber support, remarkable yield force and the equivalent damping ratio are increased greatly, the seismic isolation rubber support is more comprehensive and excellent in horizontal properties, antifatigue performance, deflection resistance and weather ability, seismic mitigation and isolation bearing analysis and using effect of building structures are achieved easily, and the application field is widened. The damping combined type building seismic isolation rubber support is long in service life and stable and safe.

Description

technical field [0001] The invention relates to a bridge engineering component and a manufacturing method, in particular to a damping combined building shock-isolation rubber bearing and a manufacturing method thereof. Background technique [0002] In the world, earthquakes and wind-induced disasters have caused a large number of building structures to be damaged, resulting in more casualties and huge economic losses. Therefore, it is very urgent to carry out effective seismic design protection for engineering structures. It is currently considered to be one of the most ideal anti-seismic design methods. The rubber support with certain damping performance used in engineering structure shock absorption and isolation technology generally improves the effect of shock absorption and isolation by increasing the damping of the support product. [0003] At present, the rubber supports used in building structures mainly include lead-core isolation rubber bearings and high-damping ru...

Claims

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Application Information

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IPC IPC(8): E01D19/04E04B1/98E04B1/36C08L7/00C08L11/00C08K13/02C08K3/22C08K3/04C08K5/09C08K3/06C08K3/08
Inventor 资道铭何家荣袁涌叶明坤莫曲浪
Owner 柳州东方工程橡胶制品有限公司
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