CN203807945U - Sling damping frame - Google Patents

Abstract

The utility model discloses a sling damping frame used for increasing the damp of a sling of a suspension bridge. The sling damping frame comprises a box-type damping frame and sling clamps. The sling clamps are used for connecting the strands of the sling, and the box-type damping frame is tightly connected to the strands through the sling clamps and is in a box structure provided with a cavity inside filled with viscous fluid; the cavity is further provided with at least one inertial weight ball used for absorbing vibrations, the inertial weight ball is soaked in the viscous fluid entirely or partly. The sling damping frame is used for increasing the damp of the sling of the suspension bridge and can serve as a vibration absorbing frame and damper so as to reduce vibration response of the sling. The sling damping frame is free of mechanical moving parts, and the problem of fatigue damage when a general viscoelastic damper or viscous damper is used for absorbing vibrations of the sling.

Description

A kind of damping vibration attenuation frame for hoist cable

Technical field

The utility model relates to hoist cable vibration damping field, is specifically related to a kind of damping vibration attenuation frame for hoist cable that simultaneously plays vibration-absorbing mounting and damper effect.

Background technology

In suspension bridge, hoist cable upper end is connected in main push-towing rope by cord clip, and bridge floor beam is fixed on by anchor head in lower end.Bridge floor deadweight and mobile load etc. are delivered to main push-towing rope by hoist cable, and the reliability of hoist cable is directly connected to the safety of bed rearrangement bridge.Hoist cable can be one group of single strand, or one group of double joint, four strands.Along with the increase of suspended span, sling length is corresponding growth also.The natural frequency of longer hoist cable is low, and damping is little, and larger vibration easily occurs under wind action, even jeopardizes the safety of hoist cable and whole bridge construction.

In order to reduce hoist cable vibration, generally several strands are coupled together with vibration-absorbing mounting, but its effectiveness in vibration suppression is less.Viscous damper, viscoelastic damper and MR damper also are often used to suppress the vibration of hoist cable.But in the time that hoist cable is very long, be difficult to suppress this vibration by being placed in the conventional damper of hoist cable root.In addition,, under wind load long term, also often there is fatigue failure in these dampers by relative motion vibration damping between rope.

Therefore, develop a kind of damping vibration attenuation frame for hoist cable that can add to hoist cable integral damping, machinery-free moving component, simple structure, easy construction, for the damping that increases hoist cable, reduce the vibratory response of hoist cable under wind action, the safety that improves hoist cable and bridge has important practical significance.

Utility model content

For solving the problems of the technologies described above, the purpose of this utility model is to provide a kind of damping vibration attenuation frame for hoist cable, for increasing the damping of sling of suspension bridge, reduces the vibratory response of hoist cable.

For achieving the above object, the technical solution of the utility model is as follows: a kind of damping vibration attenuation frame for hoist cable, for increasing the damping of sling of suspension bridge, comprise box vibration-absorbing mounting and cord clip, described cord clip is for connecting the strand of hoist cable, and described box vibration-absorbing mounting is fastenedly connected by described cord clip and described strand, and described box vibration-absorbing mounting is body structure, inside is provided with cavity, in described cavity, is filled with viscous fluid; In described cavity, be also provided with at least one inertia mass ball for vibration damping, described inertia mass ball is immersed in or is partially submerged in described viscous fluid.

Preferably, the space arc-shaped curved surface that the bottom surface of described cavity is variable curvature, space arc-shaped curved surface or the plane of non-variable curvature.

Preferably, the side wall surface of described cavity is space arc-shaped curved surface or the face of cylinder.

Preferably, the end face of described cavity is space arc-shaped curved surface or plane.

Preferably, described box-structure includes top cover and casing, and described top cover is connected with described casing is dismountable.

Preferably, described box vibration-absorbing mounting is fixedly connected with one or more strand by described cord clip.

Adopt the beneficial effect of above technical scheme to be: box vibration-absorbing mounting is fixedly connected with one or more strand by cord clip, make to be rigidly connected between each strand, reduce the vibratory response of each strand, and reduce the possibility of colliding between each strand; Cavity inside in box vibration-absorbing mounting is perfused with viscous fluid, makes to be immersed in or to be partially submerged in when inertia mass ball in viscous fluid moves in box vibration-absorbing mounting, to play damping action; When the bottom surface of box vibration-absorbing mounting is the space arc-shaped curved surface of the space arc-shaped curved surface of variable curvature or non-variable curvature, certain recovery rigidity is provided can to inertia mass ball, make inertia mass ball have better effectiveness in vibration suppression, this damping vibration attenuation framework is made and is not needed mechanical connection, also can avoid the problem of fatigue damage of vibration absorber under long-term wind action, reduce the vibratory response of hoist cable under wind action.

Brief description of the drawings

In order to be illustrated more clearly in the technical scheme in the utility model embodiment technology, to the accompanying drawing of required use in embodiment technical description be briefly described below, apparently, accompanying drawing in the following describes is only embodiment more of the present utility model, for those of ordinary skill in the art, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Fig. 1 is the structural representation of the embodiment 1 of damping vibration attenuation frame of the present utility model;

Fig. 2 is the schematic top plan view of the damping vibration attenuation frame in the utility model embodiment 1;

Fig. 3 is the sectional view of the box vibration-absorbing mounting in the damping vibration attenuation frame in the utility model embodiment 1;

Fig. 4 is damping vibration attenuation frame in the utility model embodiment 1 and the connection diagram of strand;

The represented corresponding component title of numeral in figure:

1, box vibration-absorbing mounting 11, top cover 12, casing 2, cord clip 3, cavity 4, inertia mass ball 5, strand.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtaining under creative work prerequisite, all belong to the scope of the utility model protection.

Embodiment 1

As Figure 1-4, a kind of damping vibration attenuation frame for hoist cable, for increasing the damping of sling of suspension bridge, comprise box vibration-absorbing mounting 1 and cord clip 2, cord clip 2 is for connecting the strand 5 of hoist cable, box vibration-absorbing mounting 1 clamps four strands 5 together with cord clip 2 by bolt, bolt used can be embedded in box vibration-absorbing mounting 1, and can be with the built-in fitting for strengthening connecting.In actual applications, also can be in box vibration-absorbing mounting 1 prepared screw-bolt hole, and clamp strand 5 by bolt together with cord clip 2.Box vibration-absorbing mounting 1 is body structure, and inside is provided with cavity 3, is provided with an inertia mass ball 4 for vibration damping in cavity 3.

In cavity 3, be filled with viscous fluid, in the present embodiment, viscous fluid is water, inertia mass ball is immersed in water, in the time that box vibration-absorbing mounting 1 vibrates, inertia mass ball 4 rolls in water, water can increase the resistance of inertia mass ball 4, certain damping action is provided to inertia mass ball 4, reaches better effectiveness in vibration suppression.

The bottom surface of cavity 3 is the space arc-shaped curved surface of variable curvature, side wall surface is the face of cylinder, and in the time that box vibration-absorbing mounting 1 vibrates, inertia mass ball 4 rolls along the bottom surface of cavity 3, the bottom surface of cavity 3 provides certain recovery rigidity to inertia mass ball 4, makes box vibration-absorbing mounting 1 have good effectiveness in vibration suppression.

Box vibration-absorbing mounting 1 includes top cover 11 and casing 12, and top cover 11 is connected with casing 12 is dismountable, and casing 12 structure that is formed in one, also can assemble machine-shaping in the later stage.Top cover 11 is for fill water and place inertia mass ball 4, after having placed, top cover 11 is fixedly connected with casing 12, keeps the sealing of box vibration-absorbing mounting 1.

Embodiment 2

All the other are identical with embodiment 1, and difference is, in the present embodiment, viscous fluid is oil, and inertia mass ball portion is immersed in oil, and oil viscosity is higher, more obvious to the damping action of inertia mass ball.Box vibration-absorbing mounting and a strand are fastenedly connected, and strand is arranged in box house, and its two ends adopt cord clip and casing to be fixed; The bottom surface of cavity is the space arc-shaped curved surface of not variable curvature, and side wall surface is space arc-shaped curved surface, and in the time that box vibration-absorbing mounting vibrates with strand, inertia mass ball rolls along bottom surface and the side wall surface of cavity, makes box vibration-absorbing mounting have good effectiveness in vibration suppression.

Embodiment 3

All the other are identical with embodiment 1, difference is, box vibration-absorbing mounting is fastenedly connected by cord clip and two strands, the bottom surface of box vibration-absorbing mounting internal cavity and end face are the not space arc-shaped curved surface of variable curvature, side wall surface is the face of cylinder, and in the time that box vibration-absorbing mounting vibrates, inertia mass ball is in the time that cavity inside is movable, inertia mass ball rolls along the inner surface of cavity, makes box vibration-absorbing mounting 1 have good effectiveness in vibration suppression.

In the above-described embodiments, viscous fluid can be any one mobility liquid, and can select according to actual needs, and this is not restricted.

Adopt the beneficial effect of above technical scheme to be: box vibration-absorbing mounting is fixedly connected with one or more strand by cord clip, make to be rigidly connected between each strand, reduce the vibratory response of each strand, and reduce the possibility of colliding between each strand; Cavity inside in box vibration-absorbing mounting is perfused with viscous fluid, makes to be immersed in or to be partially submerged in when inertia mass ball in viscous fluid moves in box vibration-absorbing mounting, to play damping action; When the bottom surface of box vibration-absorbing mounting is the space arc-shaped curved surface of the space arc-shaped curved surface of variable curvature or non-variable curvature, certain recovery rigidity is provided can to inertia mass ball, make inertia mass ball have better effectiveness in vibration suppression, this damping vibration attenuation framework is made and is not needed mechanical connection, also can avoid the problem of fatigue damage of vibration absorber under long-term wind action, reduce the vibratory response of hoist cable under wind action.

Damping vibration attenuation frame for hoist cable of the present utility model, except having the coupling stiffness of common vibration-absorbing mounting, also can, to hoist cable additional damping, be conducive to reduce the vibratory response of hoist cable; The damping vibration attenuation frame for hoist cable of institute's utility model does not adopt mechanical moving element in structure, has solved well the problem of fatigue damage under long-term wind action such as conventional viscous damper, viscoelastic damper; The damping vibration attenuation frame of institute's utility model, simple structure, easy for installation, there is very high practicality.

To the above-mentioned explanation of the disclosed embodiments, make professional and technical personnel in the field can realize or use the utility model.To be apparent for those skilled in the art to the multiple amendment of these embodiment, General Principle as defined herein can, in the situation that not departing from spirit or scope of the present utility model, realize in other embodiments.Therefore, the utility model will can not be restricted to these embodiment shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (6)

1. the damping vibration attenuation frame for hoist cable, for increasing the damping of sling of suspension bridge, it is characterized in that, comprise box vibration-absorbing mounting and cord clip, described cord clip is for connecting the strand of hoist cable, and described box vibration-absorbing mounting is fastenedly connected by described cord clip and described strand, and described box vibration-absorbing mounting is body structure, inside is provided with cavity, in described cavity, is filled with viscous fluid; In described cavity, be also provided with at least one inertia mass ball for vibration damping, described inertia mass ball is immersed in or is partially submerged in described viscous fluid.

2. damping vibration attenuation frame according to claim 1, is characterized in that, the space arc-shaped curved surface that the bottom surface of described cavity is variable curvature, space arc-shaped curved surface or the plane of non-variable curvature.

3. damping vibration attenuation frame according to claim 2, is characterized in that, the side wall surface of described cavity is space arc-shaped curved surface or the face of cylinder.

4. damping vibration attenuation frame according to claim 3, is characterized in that, the end face of described cavity is space arc-shaped curved surface or plane.

5. according to the arbitrary described damping vibration attenuation frame of claim 1-4, it is characterized in that, described box-structure includes top cover and casing, and described top cover is connected with described casing is dismountable.

6. damping vibration attenuation frame according to claim 5, is characterized in that, described box vibration-absorbing mounting is fixedly connected with one or more strand by described cord clip.