CN212533713U - Multifunctional shock-absorbing noise-reducing bridge expansion device - Google Patents

Abstract

The utility model discloses a multifunctional shock-absorbing noise-reducing bridge expansion device, which comprises an upper steel plate and a lower steel plate, wherein a buffer element and two rubber seats are arranged between the upper steel plate and the lower steel plate, the two rubber seats are respectively arranged at two sides of the buffer element, the buffer element comprises a first support plate and a second support plate with elasticity, the first support plate and the second support plate are both arc-shaped structures, two ends of the second support plate are in sliding connection with the bottom of the upper steel plate, the bottom of the second support plate is in contact with the top of the lower steel plate, two strip-shaped ports are arranged on the arc-shaped inner wall of the second support plate, the two strip-shaped ports are respectively arranged at two sides of the axis of the second support plate, two ends of the first support plate respectively pass through the two strip-shaped ports and then are in sliding connection with the top of the lower steel plate, the top of the first support plate is in contact with the bottom of, both ends of first backup pad and second backup pad all can slide to the activity inslot.

Description

Multifunctional shock-absorbing noise-reducing bridge expansion device

Technical Field

The utility model relates to a bridge technical field, concretely relates to multi-functional vibration/noise reduction type bridge telescoping device.

Background

The bridge expansion device is one of important functional components of a bridge, and the expansion device is arranged between a beam end and a beam end of the bridge and between the beam end and an abutment, so that the problem of bridge damage caused by structural displacement caused by vehicle load, environmental characteristics and the self physical properties of bridge building materials can be effectively solved. The telescopic device should satisfy the following conditions: the displacement of the upper structure of the bridge under the action of external force is fully met; must be firm, reliable and durable; mechanical abrasion and collision can be resisted; the stability and the safety of the traffic are ensured; preventing rainwater and garbage from infiltrating; the installation is convenient, and the maintenance is easy to check. The existing expansion joint device is lack of a corresponding damping device for the expansion joint of the bridge at present, vibration formed when a vehicle runs easily causes corresponding damage to the bridge, and corresponding noise is easily formed when the vehicle passes through the expansion joint to influence a corresponding running environment, while the existing corresponding expansion joint damping device has the limitations that the corresponding structure is not stable enough, the damping force is not enough to reduce the noise and the like; and current telescoping device's rotation broach steel sheet receives vibrations, when leading to rotating the broach steel sheet and moving towards fixed broach steel sheet direction, impurity on the bridge floor drops easily to the gap that produces between rotation broach steel sheet and the roof beam body in, the influence rotates the normal removal of broach steel sheet on the horizontal direction to the shock attenuation effect of telescoping device to the bridge has been reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that overcome not enough among the prior art, aim at provides a multi-functional vibration/noise reduction type bridge telescoping device, reduces vibrations, the noise of telescoping device in the use, improves the stability of bridge, can improve the stability of rotating the broach steel sheet in the horizontal direction simultaneously.

The utility model discloses a following technical scheme realizes:

a multifunctional shock-absorbing noise-reducing bridge expansion device comprises a first beam body and a second beam body, wherein a gap is formed between the first beam body and the second beam body, a first reserved groove is formed in the top of the first beam body, a second reserved groove is formed in the top of the second beam body, a rotating comb steel plate is arranged in the first reserved groove, a fixed comb steel plate matched with the rotating comb steel plate is arranged in the second reserved groove, an upper steel plate and a lower steel plate are further arranged in the first reserved groove, the upper steel plate is fixed to the bottom of the rotating comb steel plate through a second fixing bolt, a buffer element and two rubber seats are arranged between the upper steel plate and the lower steel plate, the two rubber seats are respectively located on two sides of the buffer element, the buffer element comprises a first support plate and a second support plate which are elastic, the first support plate and the second support plate are both arc-shaped structures, and two ends of the second support plate are slidably connected with the bottom of the upper steel plate, the bottom of the second supporting plate is in contact with the top of the lower steel plate, two strip-shaped openings are formed in the arc-shaped inner wall of the second supporting plate and are respectively located on two sides of the axis of the second supporting plate, two ends of the first supporting plate penetrate through the two strip-shaped openings respectively and then are in sliding connection with the top of the lower steel plate, the top of the first supporting plate is in contact with the bottom of the upper steel plate, movable grooves are formed in the end faces, facing the direction of the buffer piece, of the rubber seat, and two ends of the first supporting plate and the second supporting plate can slide into the movable grooves; still be equipped with the standing groove on the inner wall that the second reservation groove direction was kept away from to first reservation groove, the standing groove is close to in the top of the first roof beam body, be equipped with the third elastic component in the standing groove, third elastic component one end and standing groove inner wall connection are equipped with the dog on the other end, the top of dog still is equipped with a plurality of telescopic links.

Aiming at the problems that the telescopic device of the bridge in the prior art has poor damping effect and the vibration generated when a vehicle runs on the bridge deck easily generates corresponding damage to the bridge, the technical scheme is that a displacement component is arranged below a rotating comb steel plate of the telescopic device, wherein an upper steel plate is connected with the rotating comb steel plate of the telescopic device through a second fixing bolt, so that the device is stably fixed below the rotating comb steel plate, a lower steel plate is positioned in a mounting groove reserved for precast concrete of the bridge, a rubber seat and a buffer piece are arranged between the upper steel plate and the lower steel plate, when the telescopic device on the bridge is vibrated by the vehicle, the vibration received by the rotating comb steel plate of the telescopic device is transmitted to the rubber seat and the buffer piece, and the rubber seat is made of rubber, so that the vibration received by the telescopic device can be reduced, the service life of the bridge is prolonged, and a certain noise reduction effect can be realized on the bridge, noise generated by the telescopic device when the vehicle runs is reduced; and the bolster adoption that sets up has elastic first steel sheet and second steel sheet, when the telescoping device produced vibrations, utilizes the steel sheet in the in-process that pushes down, forces the first backup pad and the second backup pad of arc structure to take place deformation for the both ends of first backup pad and second backup pad slide towards the rubber seat direction of both sides, make the bending amplitude of first backup pad and second backup pad reduce gradually, thereby absorb the purpose that vibrations produced the ability.

Meanwhile, when the traditional bridge is stretched and contracted in the horizontal direction, the rotating comb-tooth steel plate can generate a certain gap with the first beam body when moving towards the direction of the fixed comb-tooth steel plate, but hard impurities such as broken stones exist on the first beam body, so that the hard impurities can easily fall into the gap between the rotating comb-tooth steel plate and the first beam body, when the hard impurities fall into the gap, the hard impurities can easily block the normal return of the rotating comb-tooth steel plate, thereby reducing the damping effect of the stretching device, in order to achieve the aim, the technical scheme is that the first reserved groove is provided with the standing groove, the standing groove is internally provided with the third elastic element and the stop block, when the stretching device is vibrated in the horizontal direction to move towards the direction of the fixed comb-tooth steel plate, the stop block can be pushed out from the standing groove under the action of the third elastic element, and temporary blocking is carried out on the gap formed between the rotating comb-tooth steel plate and the first beam body, avoid the stereoplasm impurity on the first roof beam body to drop to this clearance in to play the certain protection architecture to the telescoping device, when rotating the broach steel sheet and moving back simultaneously, rotate the broach steel sheet and can compress the third elastic component, impress the dog again to the standing groove in, and the third elastic component that utilizes the setting can also improve and rotate the shock attenuation effect of broach steel sheet on the horizontal direction.

Further, all be equipped with two supporting element in the rubber seat, the supporting element is located the both sides of activity groove, the supporting element includes fixed block, second elastic component and bracing piece, the fixed block is located the top of steel sheet down, is equipped with the cavity in the fixed block, and the second elastic component is located the cavity, bracing piece one end is located the bottom of steel sheet, and the other end is vertical to be inserted and is connected with the second elastic component in the fixed block.

The supporting element who sets up in the rubber seat can improve the holistic intensity of rubber seat on the one hand, guarantee that the rubber seat is difficult for breaking off in the process of using, on the other hand can further improve the shock attenuation effect of rubber seat, specifically, when the vehicle on the bridge floor traveles and causes the vibrations of telescoping device, go up steel sheet and push down rubber seat and bracing piece, partly energy is absorbed by the rubber seat, the energy transmission of the other party to the bracing piece, force bracing piece compression second elastic component, because the second elastic component is the spring, certain cushioning effect has, thereby can absorb the energy of transmission to bracing piece department, and then the holistic shock attenuation purpose of rubber seat has been improved.

Furthermore, the top of fixed block still is equipped with the connector that is communicateing with the fixed block cavity, and the diameter of connector is less than the internal diameter of fixed block cavity, the bracing piece passes the connector and stretches into to the cavity in, the both sides of bracing piece all are equipped with spacing ball, and spacing ball is located the cavity of fixed block.

Because the telescopic device is at the in-process of vibrations, the steel feeding plate can make a round trip to swing from top to bottom, in order to avoid the board of going on duty when taking place great luffing motion, the bracing piece drops out from the cavity of fixed block, so set up spacing ball on the bracing piece, utilize the spacing ball that sets up can restrict the bracing piece and mark from the connector of fixed block department to restricted the bracing piece maximum displacement that shifts up, avoided the second elastic component by tensile great range, improve the stability of internal stay component.

Further, first backup pad and second backup pad all adopt the spring steel to make and form, and the both ends of first backup pad and second backup pad all are equipped with the chimb, be equipped with the slider on the chimb, the slider is connected with the chimb through first fixing bolt, all be equipped with the spout on going up steel sheet and the lower steel sheet, the inner wall both sides of spout all are equipped with the spacing groove, the slider is located the spout, and the both sides of slider all are equipped with the guide ball that matches with the spacing groove, and the guide ball is located the spacing inslot.

First backup pad and second backup pad all adopt the spring steel to make and form, make and have certain elasticity, simultaneously in order to guarantee the in-process that the steel sheet is pushing down, the both ends homoenergetic of the first backup pad that sets up and second backup pad can move on last steel sheet and lower steel sheet respectively, the event all is equipped with the spout on last steel sheet and lower steel sheet, when deformation takes place for first backup pad and second backup pad, the slider in first backup pad and the second backup pad can remove towards the activity groove direction in the spout, thereby make first backup pad and second backup pad take place deformation smoothly, simultaneously in order to avoid the slider to drop out from the spout, the event has set up the spacing groove on the inner wall of spout, and set up the guide ball that matches with the spacing groove in the both sides of slider, utilize spacing groove and guide ball to restrict the slider in the spout.

Further, still be equipped with the connecting rod between last steel sheet and the lower steel sheet, the steel sheet is gone up to the vertical penetration of connecting rod one end, and the steel sheet is down run through to the other end is vertical, and the both ends of connecting rod all are equipped with fixation nut.

The connecting rod and the fixation nut that set up are used for rotating the broach steel sheet, go up steel sheet, buffer element and lower steel sheet and link together, guarantee that this subassembly that shifts can stably fix in the below of rotating the broach steel sheet.

Furthermore, still be equipped with first elastic component on the connecting rod, first elastic component is located between first backup pad and the second backup pad.

The first elastic component that sets up can further improve the shock attenuation effect of buffering component, and when last steel sheet forced first backup pad and second backup pad to take place to warp, first elastic component can absorb partly energy, reaches the absorbing purpose that improves buffering component, simultaneously because first elastic component cover is established on the connecting rod, utilizes the connecting rod of setting to avoid first elastic component to take place the distortion, guarantees that first elastic component can follow and erects to the direction and take place deformation.

Further, rubber layers are arranged in the upper steel plate and the lower steel plate.

In order to reduce the noise generated by the upper steel plate and the lower steel plate during vibration, the rubber layers are filled in the upper steel plate and the lower steel plate, so that the purpose of further improving noise reduction is achieved.

Furthermore, a corner gasket is arranged in the first preformed groove and is positioned at the bottom of the rotating comb-tooth steel plate, a third fixing bolt is arranged at the top of the rotating comb-tooth steel plate, and the third fixing bolt penetrates through the rotating comb-tooth steel plate and the corner gasket in sequence and extends into the first beam body; still be equipped with the shock pad in the second preformed groove, the shock pad is located the bottom of rotating broach steel sheet and fixed broach steel sheet, the top of fixed broach steel sheet still is equipped with the fourth bolt to the fourth bolt runs through shock pad and second roof beam body coupling.

The arranged corner piece is used for protecting the rotating comb tooth steel plate to a certain extent and reducing abrasion to the rotating comb tooth steel plate when the rotating comb tooth steel plate rotates on the first beam body, and the arranged third fixing bolt is an L-shaped anchoring bolt and is embedded in the first beam body and used for stably fixing the corner gasket on the first beam body; the shock attenuation gasket that sets up is used for reducing the collision of rotating the broach steel sheet and fixed broach steel sheet to the second roof beam body, and then improves the shock attenuation effect to the bridge.

Further, the top of dog still is equipped with a plurality of blind holes, is equipped with a plurality of fourth elastic component in the blind hole, the one end of telescopic link is equipped with the inclined plane, and the other end is connected with the fourth elastic component, still be equipped with the skew wall in the standing groove, skew wall and first preformed groove intercommunication, when the dog removed towards the third elastic component direction, the skew wall can impress the telescopic link to the blind hole in.

Because the arrangement groove has a certain distance with the top of the first beam body, when the stop block in the arrangement block temporarily blocks the gap between the rotating comb tooth steel plate and the first beam body, the stop block has a certain gap with the top of the first beam body, so that part of small hard impurities are easy to fall above the stop block to cause the stop of the rotating comb-tooth steel plate, therefore, the technical proposal is that the stop block is also provided with the telescopic rod, when the stop block moves out of the placing groove, under the action of the fourth elastic piece, the telescopic rod can be extended to be flush with the top of the first beam body, thereby preventing hard impurities from falling above the stop block, and simultaneously, when the comb tooth steel plate is rotated to move back, under the effect of standing groove skew wall, be used in the inclined plane of telescopic link to impress the telescopic link in to the dog from new, guarantee that the dog can retract smoothly to the standing groove.

Compared with the prior art, the utility model, following advantage and beneficial effect have:

1. when the telescopic device on the bridge is vibrated, the rubber seat arranged on the bridge can reduce the vibration of the telescopic device, prolong the service life of the bridge, reduce the noise and further improve the damping effect on the bridge by using the arranged buffer element;

2. the supporting element arranged in the rubber seat can not only improve the overall strength of the rubber seat and avoid the condition that the rubber seat is broken, but also absorb a part of the capacity of the rubber seat when the rubber seat shakes, thereby improving the anti-shock effect of the rubber seat;

3. the utility model discloses when telescoping device's rotation broach steel sheet when vibrations towards fixed broach steel sheet direction, can release the dog from the standing groove under the effect of third elastic component, temporarily shelter from the clearance between rotation broach steel sheet and the first roof beam body temporarily to avoid stereoplasm impurity to drop to the condition in this clearance takes place, improved the stability when rotating the broach steel sheet and shaking.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the displacement assembly of the present invention

FIG. 3 is a schematic structural view of the cross section of the upper steel plate and the lower steel plate of the present invention;

fig. 4 is a schematic structural diagram of the first support plate of the present invention;

fig. 5 is a top view of a second support plate of the present invention;

FIG. 6 is a schematic structural view of the support member of the present invention;

FIG. 7 is an enlarged view of part A of FIG. 1;

fig. 8 is a schematic structural view of the telescopic rod of the present invention.

Reference numbers and corresponding part names in the drawings:

2-upper steel plate, 3-fixing nut, 4-rubber layer, 5-first supporting plate, 6-supporting element, 7-rubber seat, 9-connecting rod, 10-first elastic element, 11-second supporting plate, 12-lower steel plate, 13-movable groove, 14-limiting groove, 15-sliding groove, 17-guiding ball, 18-sliding block, 19-convex edge, 20-first fixing bolt, 21-fixing block, 22-limiting ball, 23-supporting rod, 24-second elastic element, 25-strip-shaped opening, 26-third elastic element, 27-stop block, 28-placing groove, 29-telescopic rod, 30-inclined wall, 31-inclined surface, 32-fourth elastic element, 33-deflection component, 34-second fixing bolt, 35-corner gaskets, 36-rotating comb steel plates, 38-shock absorption pads, 39-fourth fixing bolts, 40-fixing comb steel plates, 41-first beam bodies, 42-third fixing bolts and 43-second beam bodies.

Detailed Description

To make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the following examples and drawings, and the exemplary embodiments and descriptions thereof of the present invention are only used for explaining the present invention, and are not intended as limitations of the present invention.

Example 1

As shown in fig. 1 to 8, the utility model comprises a first beam body 41 and a second beam body 43, a gap is formed between the first beam body 41 and the second beam body 43, a first pre-groove is arranged on the top of the first beam body 41, a second pre-groove is arranged on the top of the second beam body 43, a rotating comb steel plate 36 is arranged in the first pre-groove, a fixed comb steel plate 40 matched with the rotating comb steel plate 36 is arranged in the second pre-groove, a deflection assembly 33 is arranged in the first pre-groove, the deflection assembly 33 comprises an upper steel plate 2 and a lower steel plate 12, the upper steel plate 2 is fixed on the bottom of the rotating comb steel plate 36 through a second fixing bolt 34, a buffer element and two rubber seats 7 are arranged between the upper steel plate 2 and the lower steel plate 12, the two rubber seats 7 are respectively arranged on two sides of the buffer element, the buffer element comprises a first support plate 5 and a second support plate 11 with elasticity, the first support plate 5 and the second support plate 11 are both arc structures, the two ends of the second support plate 11 are slidably connected with the bottom of the upper steel plate 2, the bottom of the second support plate 11 is in contact with the top of the lower steel plate 12, the arc-shaped inner wall of the second support plate 11 is provided with two strip-shaped openings 25, the two strip-shaped openings 25 are respectively positioned on the two sides of the axis of the second support plate 11, the two ends of the first support plate 5 respectively penetrate through the two strip-shaped openings 25 and then are slidably connected with the top of the lower steel plate 12, the top of the first support plate 5 is in contact with the bottom of the upper steel plate 2, the end faces, facing the buffer piece, of the rubber seats 7 are respectively provided with movable grooves 13, and the two ends of the first support plate 5 and the second support plate 11 can slide into; still be equipped with standing groove 28 on the inner wall that the second preformed groove direction was kept away from to first preformed groove, standing groove 28 is close to in the top of first roof beam body 41, be equipped with third elastic component 26 in the standing groove 28, third elastic component 26 one end and standing groove 28 inner wall connection are equipped with dog 27 on the other end, dog 27's top still is equipped with a plurality of telescopic links 29.

Example 2

On the basis of embodiment 1, all be equipped with two supporting element 6 in the rubber seat 7, supporting element 6 is located the both sides of activity groove 13, supporting element 6 includes fixed block 21, second elastic component 24 and bracing piece 23, fixed block 21 is located the top of lower steel sheet 12, is equipped with the cavity in the fixed block 21, and second elastic component 24 is located the cavity, bracing piece 23 one end is located the bottom of last steel sheet 2, and the other end is connected with second elastic component 24 in vertically inserting to fixed block 21.

Example 3

On the basis of embodiment 2, the top of the fixed block 21 is further provided with a connector communicated with the cavity of the fixed block 21, the diameter of the connector is smaller than the inner diameter of the cavity of the fixed block 21, the support rod 23 penetrates through the connector and extends into the cavity, the two sides of the support rod 23 are both provided with limiting balls 22, and the limiting balls 22 are located in the cavity of the fixed block 21.

Example 4

On embodiment 1's basis, first backup pad 5 and second backup pad 11 all adopt the spring steel to make and form, and the both ends of first backup pad 5 and second backup pad 11 all are equipped with chimb 19, be equipped with slider 18 on chimb 19, slider 18 is connected with chimb 19 through first fixing bolt 20, all be equipped with spout 15 on going up steel sheet 2 and the lower steel sheet 12, the inner wall both sides of spout 15 all are equipped with spacing groove 14, slider 18 is located spout 15, and slider 18's both sides all are equipped with the guide ball 17 that matches with spacing groove 14, and guide ball 17 is located spacing groove 14.

Example 5

On the basis of embodiment 1, still be equipped with connecting rod 9 between last steel sheet 2 and the lower steel sheet 12, connecting rod 9 one end is vertical to be run through last steel sheet 2, and the other end is vertical to be run through lower steel sheet 12, and the both ends of connecting rod 9 all are equipped with fixation nut 3.

Example 6

On the basis of embodiment 5, the connecting rod 9 is further provided with a first elastic member 10, and the first elastic member 10 is located between the first support plate 5 and the second support plate 11.

Example 7

On the basis of the embodiment 1, the rubber layer 4 is arranged in each of the upper steel plate 2 and the lower steel plate 12.

Example 8

On the basis of embodiment 1, a corner gasket 35 is further arranged in the first preformed groove, the corner gasket 35 is located at the bottom of the rotating comb-tooth steel plate 36, a third fixing bolt 42 is further arranged at the top of the rotating comb-tooth steel plate 36, and the third fixing bolt 42 sequentially penetrates through the rotating comb-tooth steel plate 36 and the corner gasket 35 and extends into the first beam body 41; still be equipped with the shock pad 38 in the second preformed groove, the shock pad 38 is located the bottom of rotating broach steel sheet 36 and fixed broach steel sheet 40, the top of fixed broach steel sheet 40 still is equipped with fourth bolt 39 to fourth bolt 39 runs through shock pad 38 and is connected with second roof beam body 43.

Example 9

On the basis of embodiment 1, the top of the stopper 27 is further provided with a plurality of blind holes, a plurality of fourth elastic members 32 are arranged in the blind holes, one end of the telescopic rod 29 is provided with an inclined surface 31, the other end of the telescopic rod is connected with the fourth elastic members 32, the placing groove 28 is further provided with an inclined wall 30, the inclined wall 30 is communicated with the first reserved groove, and when the stopper 27 moves towards the third elastic members 32, the inclined wall can press the telescopic rod 29 into the blind holes.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above description is only the embodiments of the present invention, and is not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (9)

1. A multifunctional shock-absorbing noise-reducing bridge expansion device comprises a first beam body (41) and a second beam body (43), a gap is formed between the first beam body (41) and the second beam body (43), a first preformed groove is formed in the top of the first beam body (41), a second preformed groove is formed in the top of the second beam body (43), a rotating comb steel plate (36) is arranged in the first preformed groove, a fixed comb steel plate (40) matched with the rotating comb steel plate (36) is arranged in the second preformed groove, the multifunctional shock-absorbing noise-reducing bridge expansion device is characterized in that an upper steel plate (2) and a lower steel plate (12) are further arranged in the first preformed groove, the upper steel plate (2) is fixed at the bottom of the rotating comb steel plate (36) through a second fixing bolt (34), a buffer element and two rubber seats (7) are arranged between the upper steel plate (2) and the lower steel plate (12), and the two rubber seats (7) are respectively located on two sides of the buffer element, the buffer element comprises a first support plate (5) and a second support plate (11) which are elastic, the first support plate (5) and the second support plate (11) are both arc-shaped structures, two ends of the second support plate (11) are slidably connected with the bottom of the upper steel plate (2), the bottom of the second support plate (11) is contacted with the top of the lower steel plate (12), two strip-shaped openings (25) are arranged on the arc-shaped inner wall of the second support plate (11), the two strip-shaped openings (25) are respectively positioned at two sides of the axis of the second support plate (11), two ends of the first supporting plate (5) respectively penetrate through the two strip-shaped openings (25) and then are connected with the top of the lower steel plate (12) in a sliding way, and the top of the first supporting plate (5) is contacted with the bottom of the upper steel plate (2), the end faces, facing the direction of the buffer piece, of the rubber seats (7) are provided with movable grooves (13), and two ends of the first supporting plate (5) and the second supporting plate (11) can slide into the movable grooves (13); still be equipped with standing groove (28) on the inner wall that second standing groove direction was kept away from to first standing groove, standing groove (28) are close to in the top of the first roof beam body (41), be equipped with third elastic component (26) in standing groove (28), third elastic component (26) one end and standing groove (28) inner wall connection are equipped with dog (27) on the other end, the top of dog (27) still is equipped with a plurality of telescopic links (29).

2. The multifunctional shock-absorbing noise-reducing bridge expansion device according to claim 1, wherein two supporting elements (6) are arranged in each rubber seat (7), the supporting elements (6) are located on two sides of each movable groove (13), each supporting element (6) comprises a fixed block (21), a second elastic member (24) and a supporting rod (23), the fixed block (21) is located at the top of the lower steel plate (12), a cavity is arranged in each fixed block (21), the second elastic member (24) is located in each cavity, one end of each supporting rod (23) is located at the bottom of the upper steel plate (2), and the other end of each supporting rod is vertically inserted into the corresponding fixed block (21) and connected with the corresponding second elastic member (24).

3. The multifunctional shock-absorbing noise-reducing bridge expansion device according to claim 2, wherein a connector communicated with the cavity of the fixed block (21) is further arranged at the top of the fixed block (21), the diameter of the connector is smaller than the inner diameter of the cavity of the fixed block (21), the support rod (23) passes through the connector and extends into the cavity, the two sides of the support rod (23) are respectively provided with a limiting ball (22), and the limiting balls (22) are located in the cavity of the fixed block (21).

4. The multifunctional shock-absorbing noise-reducing bridge expansion device according to claim 1, wherein the first support plate (5) and the second support plate (11) are both made of spring steel, flanges (19) are respectively arranged at both ends of the first support plate (5) and the second support plate (11), a sliding block (18) is arranged on the flanges (19), the sliding block (18) is connected with the flanges (19) through a first fixing bolt (20), sliding grooves (15) are respectively arranged on the upper steel plate (2) and the lower steel plate (12), limiting grooves (14) are respectively arranged on both sides of the inner wall of each sliding groove (15), the sliding block (18) is located in the corresponding sliding groove (15), guide balls (17) matched with the limiting grooves (14) are respectively arranged on both sides of the sliding block (18), and the guide balls (17) are located in the corresponding limiting grooves (14).

5. The multifunctional shock-absorbing noise-reducing bridge expansion device according to claim 1, wherein a connecting rod (9) is further arranged between the upper steel plate (2) and the lower steel plate (12), one end of the connecting rod (9) vertically penetrates through the upper steel plate (2), the other end of the connecting rod (9) vertically penetrates through the lower steel plate (12), and fixing nuts (3) are arranged at two ends of the connecting rod (9).

6. A multifunctional shock-absorbing and noise-reducing type bridge expansion device according to claim 5, characterized in that the connecting rod (9) is further provided with a first elastic member (10), and the first elastic member (10) is located between the first support plate (5) and the second support plate (11).

7. The multifunctional shock-absorbing and noise-reducing type bridge expansion device is characterized in that a rubber layer (4) is arranged in each of the upper steel plate (2) and the lower steel plate (12).

8. The multifunctional shock-absorbing noise-reducing bridge expansion device according to claim 1, wherein a corner gasket (35) is further arranged in the first preformed groove, the corner gasket (35) is located at the bottom of the rotating comb-tooth steel plate (36), a third fixing bolt (42) is further arranged at the top of the rotating comb-tooth steel plate (36), and the third fixing bolt (42) sequentially penetrates through the rotating comb-tooth steel plate (36) and the corner gasket (35) and extends into the first beam body (41);

still be equipped with shock pad (38) in the second preformed groove, shock pad (38) are located the bottom of rotating broach steel sheet (36) and fixed broach steel sheet (40), the top of fixed broach steel sheet (40) still is equipped with fourth bolt (39) to fourth bolt (39) run through shock pad (38) and are connected with second roof beam body (43).

9. The multifunctional shock-absorbing noise-reducing bridge expansion device according to claim 1, wherein the top of the stopper (27) is further provided with a plurality of blind holes, a plurality of fourth elastic members (32) are arranged in the blind holes, one end of the telescopic rod (29) is provided with an inclined surface (31), the other end of the telescopic rod is connected with the fourth elastic members (32), an inclined wall (30) is further arranged in the placing groove (28), the inclined wall (30) is communicated with the first reserved groove, and when the stopper (27) moves towards the third elastic member (26), the inclined wall (30) can press the telescopic rod (29) into the blind holes.

Images