CN218880584U - Bridge wind-resistant high-damping alloy saddle - Google Patents

Abstract

The utility model relates to a bridge wind-resistant high damping alloy saddle, include: the saddle comprises a bottom plate, wherein a saddle body is fixed to the top of the bottom plate, L-shaped plates are arranged on two sides of the saddle body respectively and comprise vertical plates and bottom side plates, and the bottom side plates are fixed to the bottom plate. Still be connected with first deep bead on the bottom side board of two L templates respectively sliding connection, the vertical setting of first deep bead just is located the outside of the vertical board of corresponding L template. The saddle further comprises a high-damping shock absorber which is arranged between the L-shaped plate vertical plate and the corresponding first wind shield. The utility model discloses a set up first deep bead in the both sides of saddle body, form and block wind-force to the cladding of saddle body, under the effect of high damping bumper shock absorber, can cushion the wind-force that first deep bead received to reduce the effect of wind-force to the saddle body, strengthened the anti-wind effect of saddle body.

Description

Bridge wind-resistant high-damping alloy saddle

Technical Field

The utility model relates to a bridge anti-wind high damping alloy saddle belongs to bridge engineering technical field.

Background

The cable saddle is an important component in a suspension bridge system, key stress structures in the suspension bridge structure comprise a bridge tower, a main cable and a stiffening truss girder, and the cable saddle is the only working component for connecting and coupling the bridge tower and the main cable, can smoothly change the main cable and transmit the whole bridge load to the bridge tower through the main cable. But the alloy saddle that uses lacks the protection component that blocks wind-force in the bridge construction at present, and the anti-wind effect is not good, and the alloy saddle is installed high position behind the top of bridge tower, and its stability receives the influence of wind-force very easily after the installation.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model aims to provide a bridge anti-wind high damping alloy saddle.

A bridge wind-resistant high damping alloy saddle comprises:

the bottom plate is positioned at the bottom of the saddle;

the saddle body is fixed on the top of the bottom plate;

the two L-shaped plates are respectively positioned on two sides of the saddle body and respectively comprise a vertical plate and a bottom side plate, and the bottom side plate is fixed on the bottom plate;

the two first wind shields are respectively connected to the bottom side plate of the L-shaped plate in a sliding mode, and are vertically arranged and respectively positioned on the outer side of the vertical plate of the L-shaped plate;

and the high-damping shock absorber is arranged between the L-shaped plate vertical plate and the corresponding first wind shield.

Furthermore, a reinforcing support plate is arranged on the inner side of the first wind deflector.

Furthermore, the high-damping shock absorbers are multiple in number and fixed at equal intervals between the reinforcing support plate and the L-shaped plate vertical plate.

Furthermore, still include the second deep bead, it is fixed at the top of first deep bead, the second deep bead is the arc, and crooked direction orientation the saddle body.

Furthermore, fan-shaped reinforcing ribs are fixed on two sides of the saddle body.

Furthermore, the two ends of the two first baffles are fixed with third baffles which are arc-shaped and used for blocking the wind at the two ends of the saddle body.

Furthermore, the bottom side plate of the L-shaped plate is equidistantly provided with sliding grooves, and the bottom of the first wind shield is provided with sliding blocks matched with the sliding grooves.

Furthermore, a plurality of mounting holes are formed in the bottom plate and used for mounting the saddle on the top of the bridge tower.

The utility model has the advantages that:

the utility model discloses be provided with first deep bead in the both sides of saddle body, form the cladding to the saddle body and block wind-force, slide the back when first deep bead receiving wind-force, under the effect of high damping bumper shock absorber, can cushion the wind-force that first deep bead received to reduce the effect of wind-force to the saddle body, strengthened the anti-wind effect of saddle body.

Drawings

FIG. 1 is a schematic view of the whole structure of the wind-resistant high-damping alloy saddle for a bridge of the present invention;

FIG. 2 is a schematic structural view of the saddle body of the present invention;

FIG. 3 is a schematic view of a local structure of the wind-resistant high-damping alloy saddle for a bridge of the present invention;

the device comprises a base plate 1, a saddle body 2, a L-shaped plate 3, a first wind shield 4, a second wind shield 5, a reinforcing support plate 6, a high-damping shock absorber 7, a fan-shaped reinforcing rib 8, a third baffle 9, a sliding groove 10, a sliding block 11 and a mounting hole 12.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

A bridge wind-resistant high-damping alloy saddle is shown in figure 1 and comprises

And the bottom plate 1 is positioned at the bottom of the saddle. The saddle body 2 is fixed at the top of the bottom plate 1, the L-shaped plates 3 are respectively arranged on two sides of the saddle body 2, each L-shaped plate 3 comprises a vertical plate and a bottom side plate, and the bottom side plates are fixed on the bottom plate 1. Still have first deep bead 4 on the bottom side board of two L templates 3 respectively sliding connection, the vertical setting of first deep bead 4 just is located the outside of the vertical board of corresponding L template 3. The saddle further comprises a high damping shock absorber 7 arranged between the vertical plate of the L-shaped plate 3 and the corresponding first wind deflector 4. When using this alloy saddle, at first install saddle body 2 at the top of bridge tower, because its mounted position is higher, when it receives wind-force, first deep bead 4 blocks wind-force, simultaneously when it receives blowing back of wind-force, can slide on L template 3, and under the effect of high damping bumper shock absorber 7, cushions the wind-force that first deep bead 4 received, consequently reinforcing saddle body 2's anti-wind effect.

In an alternative embodiment, the inner side of the first wind deflector 4 is provided with a reinforcing support plate 6, which is arranged approximately parallel to the first wind deflector 4, for enhancing the wind resistance of the first wind deflector.

In an alternative embodiment, as shown in fig. 3, one end of the high damping shock absorber 7 is fixed on the reinforced support plate 6, and the other end is fixedly connected with the vertical plate of the L-shaped plate 3. High damping bumper shock absorber 7 can be equipped with a plurality ofly, and the equidistance is fixed strengthen between backup pad 6 and the vertical board of L template 3.

In an alternative embodiment, the saddle further comprises a second wind deflector 5 fixed on top of the first wind deflector 4, the second wind deflector 5 being arc-shaped and bent towards the saddle body 2 for deflecting the wind from the top position of the saddle body. Design into the arc with the second deep bead, it is excessive that the side deep bead of saddle body has the arc to the top deep bead promptly, avoids the right angle design to reinforcing deep bead anti-wind ability.

In an alternative embodiment, as shown in fig. 2, fan-shaped reinforcing ribs 8 are fixed on both sides of the saddle body 2, and play a role in enhancing the strength and rigidity of the saddle body 2.

An optional implementation mode, both ends of two first baffles are all fixed with third baffle 9, third baffle 9 is the arc, and crooked direction is towards saddle body 2 for keep out the wind to saddle body 2's both ends. Alternatively, the third baffle 9 may be configured as an arc-shaped hollow structure, which includes a flat inner wall and an arc-shaped outer wall, and the interior of the third baffle is hollow. The flat inner wall can enhance the stability of the third baffle 9, and the hollow structure can reduce the weight of the whole structure. Similarly, the third baffle 9 is designed into an arc shape, namely the side wind shield of the saddle body is connected with the left end baffle and the right end baffle in an arc shape, so that the right-angle design is avoided, and the wind resistance of the wind shield is enhanced. The first wind deflector 4, the second wind deflector 5 and the third wind deflector 9 are combined to form a coating for the saddle body, so that wind power is blocked.

In an alternative embodiment, in order to realize the movement of the first wind deflector 4 so as to buffer the received wind force, sliding grooves 10 are equidistantly formed in the bottom side plate of the L-shaped plate 3, and a sliding block 11 adapted to the sliding grooves 10 is arranged at the bottom of the first wind deflector 4. Optionally, the sliding groove may be a T-shaped groove, and the sliding block may be a T-shaped block adapted to the T-shaped groove.

In an alternative embodiment, the bottom plate 1 is provided with a plurality of mounting holes 12 for mounting the saddle on the top of the bridge tower.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides a bridge wind-resistant high damping alloy saddle which characterized in that includes:

a bottom plate located at the bottom of the saddle;

the saddle body is fixed on the top of the bottom plate;

the two L-shaped plates are respectively positioned on two sides of the saddle body and respectively comprise a vertical plate and a bottom side plate, and the bottom side plate is fixed on the bottom plate;

the two first wind shields are respectively connected to the bottom side plate of the L-shaped plate in a sliding manner, and are vertically arranged and respectively positioned on the outer sides of the vertical plates of the L-shaped plate;

and the high-damping shock absorber is arranged between the L-shaped plate vertical plate and the corresponding first wind shield.

2. The bridge wind-resistant high-damping alloy saddle according to claim 1, wherein a reinforcing support plate is provided on the inner side of said first wind deflector.

3. The alloy saddle for bridges according to claim 2, wherein said high damping shock absorbers are provided in plurality and fixed at equal intervals between said reinforcing support plate and the vertical plate of the L-shaped plate.

4. The bridge wind-resistant high-damping alloy saddle according to claim 1, further comprising a second wind deflector fixed on top of the first wind deflector, wherein the second wind deflector is arc-shaped and is bent towards the saddle body.

5. The bridge wind-resistant high-damping alloy saddle according to claim 1, wherein fan-shaped reinforcing ribs are fixed on both sides of the saddle body.

6. The bridge wind-resistant high-damping alloy saddle according to claim 1, wherein a third baffle is fixed to each of two ends of the first baffles, and the third baffles are arc-shaped and used for shielding wind at two ends of the saddle body.

7. The bridge wind-resistant high-damping alloy saddle according to claim 1, wherein sliding grooves are formed in the bottom side plates of the L-shaped plates at equal intervals, and sliding blocks adapted to the sliding grooves are arranged at the bottom of the first wind deflector.

8. The bridge wind-resistant high-damping alloy saddle according to claim 1, wherein a plurality of mounting holes are formed in the bottom plate for mounting the saddle on the top of a bridge tower.

Images