Variable-friction damper
A damper, variable friction technology, applied in building components, shockproof and other directions, can solve the problems of unfavorable seismic resistance and large stiffness change of building structures, and achieve the effects of simple structure, collision avoidance and good shock absorption performance.
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Embodiment 1
[0066] Such as Figure 1 to Figure 7 As shown, the first embodiment is a flat plate variable friction damper, which includes five stacked steel plates, of which the core plate 1 is located in the middle, and two first steel plates are separated on both sides of the core plate 1 2. The second steel plate 3 is located outside the first steel plate 2 .
[0067] Such as figure 1 , figure 2 and Figure 5 As shown, both sides of the core plate 1 are bonded with a friction material 4, and the friction material 4 is a heavy-duty friction material. One end of the core board 1 has a core board connecting part 11 connected with the building structure, and the fixing part 12 of the core board 1 is connected with the core board connecting part 11, and three rows of fixing holes 15 are arranged on the fixing part 12, and the other parts are core boards. The friction part 13 of the plate 1 is provided with two rows of connecting holes 14 (of course, the friction material 4 also has two ...
Embodiment 2
[0073] Such as Figure 8 to Figure 10 As shown, Embodiment 2 is a hinge point variable friction damper, which includes eight steel plates, such as Figure 8 As shown, among the eight steel plates, the first, third, fifth and seventh steel plates form a group, and the second, fourth, sixth and eighth steel plates form a group. Stacked together, the middle part between the fourth steel plate 100 and the fifth steel plate 101 is a slope contact, that is, a concave-convex surface contact, (same as the slope of Embodiment 1, and will not be repeated here). Friction material 102 is bonded between the remaining two adjacent steel plates. Corresponding connecting holes (not shown in the figure) are opened on the two groups of steel plates and the friction material 102 bonded thereon, and bolts 103 that hinge the eight steel plates together are pierced in the connecting holes. The other ends of the two groups of steel plates are respectively connected to different building components...
Embodiment 3
[0077] Such as Figure 11 and Figure 12 As shown, Embodiment 3 is a circular cross-section support type variable friction damper, which includes a plurality of ring-shaped steel plates that are set together, that is, the inner steel plate 200, the middle steel plate 201 and the outer steel plate 202, the inner steel plate 200 and the middle steel plate 201 The friction material 203 is bonded to the side that is attached to each other. The friction surface is formed between the middle steel plate 201 and the friction material 203, and it slides relative to each other in the working state. Contact (the structure and principle of the concave-convex surface are the same as those in Embodiment 1, and will not be repeated here). Both ends are in planar contact. Outer steel plate 202, inner steel plate 200 and the friction material 203 bonded thereon are provided with multiple sets of corresponding connecting holes (not shown in the figure), and the middle steel plate 201 is provi...
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