CN111139759B - Mounting structure - Google Patents

Abstract

The invention relates to an installation structure, which comprises a vertical sound insulation board, wherein the lower end of the vertical sound insulation board is detachably connected with an installation seat, the mounting seat and the guardrail form a detachable connection, the mounting seat comprises a groove plate which is integrally in a groove shape, the groove plates on the two sides of the groove plate are provided with clamping blocks, the groove plate moves downwards and enables the clamping blocks to clamp the two sides of the guardrail, when the installation seat and the upper end of the cement guardrail are installed, the groove plate is clamped at the upper end of the cement guardrail, and the clamping blocks are clamped at the two sides of the cement guardrail, when the clamping blocks clamp the cement guardrail, the groove plate moves downwards, thereby make press from both sides tight piece and can be with the tight operation of clamp of cement guardrail both sides to the realization is to the effective fixed of frid, avoids because vertical acoustic celotex board card is put behind the mount pad, because the center can't fall on cement guardrail top position and the problem of empting that appears.

Description

Mounting structure

Technical Field

The invention relates to the field of urban infrastructure equipment, in particular to an installation structure.

Background

The urban viaduct construction is increasingly increased, but the brought environmental problems are also increasingly prominent, which mainly brings noise pollution to buildings around the viaduct, and the noise pollution comprises high-frequency noise and low-frequency resonance pollution; the main source of the noise pollution is the noise generated when the automobile tires and the bridge floor pass at high speed, and the noise is transmitted upwards and vibrates in the buildings around the viaduct, so that residents of low-rise buildings and high-rise buildings around the viaduct are polluted; the resonance of low frequency is generated by noise oscillation on one hand and vibration generated by high-speed passing of automobile tires from the bridge deck on the other hand; in conclusion, the noise generated by the pollution has a great influence on the physical and mental health of residents of buildings around the viaduct. The viaduct sound barrier among the prior art is mostly the riser that organic glass and metal crate constitute, and set up sound-proof materials such as soundproof cotton in metal crate, sound-proof barrier among the prior art arranges along viaduct both sides, in order to realize the mesh that gives sound insulation, certain noise can be subducted to a certain extent to sound-proof barrier among the prior art, however, the amortization noise reduction effect is limited, can only have certain noise reduction effect of giving sound insulation to the building parallel with the viaduct or low floor, and the effect is still not ideal enough, the noise reduction effect of giving sound insulation to the building that is higher than the viaduct still can't be realized.

When the sound barrier is installed with the cement guardrail in the prior art, the installation hole is drilled through the cement guardrail, then the connection of the lower end of the sound barrier and the cement guardrail is realized by utilizing the bolt, the installation structure is low in construction efficiency, and great influence is generated on the structural strength of the cement guardrail.

Disclosure of Invention

The invention aims to provide an installation structure which can improve the installation efficiency of a sound barrier and avoid punching operation on a cement guardrail.

The technical scheme adopted by the invention is as follows.

The utility model provides a mounting structure, includes vertical acoustic celotex board, the lower extreme and the mount pad of vertical acoustic celotex board constitute detachable the connection, the mount pad constitutes detachable the connection with the guardrail, the mount pad is including the frid that wholly is the draw-in groove form, the both sides frid of frid is provided with presss from both sides tight piece, the frid moves down and makes and press from both sides tight piece implementation to the tight operation of clamp of guardrail both sides.

The invention also has the following features:

one side of the clamping block is connected with the clamping sliding block through a hinged shaft, the hinged shaft of the clamping block is horizontal and parallel to the length direction of the guardrail, the clamping sliding block is arranged on the clamping rail in a sliding mode, and included angles between the clamping rail and the two side plate surfaces of the groove plate are arranged.

The frid includes both sides cell wall and roof, both sides cell wall constitutes articulated connection with the roof, the articulated shaft level of both sides cell wall just is parallel with frid length direction, be provided with reset torsion spring on the articulated shaft of both sides cell wall, reset torsion spring's both ends lean on with roof and both sides cell wall respectively.

The clamping device is characterized in that a clamping clamp is arranged on the clamping block and used for clamping the clamping block, a jacking nut is arranged on the clamping clamp, a hole center of the jacking nut is vertically arranged, and the jacking nut is suspended to the position below the center of the top plate.

The clamping device comprises two clamping arms, wherein the two clamping arms are used for clamping the outer wall of the clamping block, a locking bolt is arranged between the two clamping arms, the length direction of the locking bolt is horizontal, the locking bolt and one of the clamping arms form rotation fit, and the locking bolt and the other clamping arm form screw rod nut fit.

The center position of roof is provided with the centre bore, be provided with the tight screw rod in the tight nut in top, the tight screw rod of top is vertical to be arranged and the pole body passes the protruding upper end position that reaches the roof of centre bore, the rod end of the tight screw rod of top is provided with fastening nut.

One side of the top plate is provided with a lap plate, the other side of the top plate is provided with a lap step, and when adjacent groove plates are abutted against each other, the lap plate is inserted into the lap step.

The upper plate surface of the top plate is provided with a clamping groove plate, a clamping interface for clamping the fixing pin plate is arranged on the clamping groove plate, the length direction of the clamping interface is horizontally arranged, the fixing pin plate is inserted into one end of the clamping interface, and the lower end of the vertical sound insulation plate is connected with the fixing pin plate.

The upper end of the clamping groove plate is provided with a strip-shaped opening, the fixed pin plate is provided with a pin opening, and a clamping opening at the lower end of the clamping vertical sound insulation plate is formed between the pin opening and the strip-shaped opening.

The vertical sound insulation board is characterized in that first strip-shaped openings are formed in two sides of the plug pin opening, second strip-shaped openings are formed in two sides of each strip-shaped opening and are concentric with the first strip-shaped openings, fastening bolts are arranged between the second strip-shaped openings and the first strip-shaped openings, the fastening bolts sequentially penetrate through the strip-shaped openings, the plug pin opening and the lower end board face of the vertical sound insulation board, and nuts are arranged at the extending ends of the fastening bolts.

The invention has the technical effects that: cement guardrail is used to the both sides guardrail of overpass more than selecting, the cement guardrail is the retarded soil prefab, need produce the back at manufacturing enterprise, transport to the both sides of overpass, the realization is established separating of overpass, the cement guardrail is whole to be frustum column structure, when implementing the upper end installation to mount pad and cement guardrail, put the frid card in the upper end position of cement guardrail, and press from both sides tight piece card and put the both sides position at the cement guardrail, when pressing from both sides tight piece and implementing the tight operation of clamp to the cement guardrail, make the frid move down, thereby make and press from both sides tight piece and can be with the tight operation of clamp of cement guardrail both sides, in order to realize effectively fixing the frid, avoid because vertical acoustic celotex card is put behind the mount pad, because the center can't fall the cement guardrail top position and the problem of empting that appears.

Drawings

Fig. 1 is a front view of a viaduct sound barrier;

FIGS. 2 and 3 are schematic views of two assembled perspective structures of the single-sided cement guardrail of the sound barrier of the viaduct;

FIGS. 4 to 7 are schematic views of four perspective structures of assembled parts of the single-sided cement guardrails of the sound barrier of the viaduct;

FIGS. 8 to 9 are schematic structural views of two viewing angles of the vertical sound insulation board installed on the upper end of the cement guardrail through the fixing seat;

FIG. 10 is a schematic side view of the vertical baffle assembled with the extended baffle;

FIGS. 11 and 12 are schematic views of two views of the extended end assembly of the extended acoustic panel;

FIG. 13 is a schematic structural view of the installation seat installed at the upper end of the cement guard rail;

fig. 14 to 16 are schematic views of three viewing angle structures of the mounting seat;

FIG. 17 is a schematic end view of the installation base installed on the upper end of the cement guard rail;

FIG. 18 is a schematic end view of a mount used with a clip.

Detailed Description

In order that the objects and advantages of the invention will be more clearly understood, the invention will now be described in detail with reference to the following examples. It is to be understood that the following text is merely illustrative of one or more specific embodiments of the invention and does not strictly limit the scope of the invention as specifically claimed. As used herein, the terms "parallel" and "perpendicular" are not limited to their strict geometric definitions, but include tolerances for machining or human error, legibility and inconsistency;

the mounting structure of the present invention will be explained in detail below with reference to the entire overpass sound barrier:

the overpass sound-insulating barrier of the present invention is described in detail below with reference to fig. 1 to 18:

a viaduct sound barrier comprises vertical sound insulation boards 10, wherein the vertical sound insulation boards 10 are arranged on two sides of a guardrail of a viaduct, extension sound insulation boards 20 are arranged at the upper ends of the vertical sound insulation boards 10, the extension ends of the extension sound insulation boards 20 on two sides of the viaduct are connected with each other to form a sound insulation cover, a sound insulation screen plate 11 is detachably arranged on the vertical sound insulation boards 10, the extension sound insulation boards 20 are detachably connected with the upper ends of the vertical sound insulation boards 10, and the extension ends of the extension sound insulation boards 20 are connected in a buckling manner;

referring to fig. 1 to 7, in the actual construction of the viaduct sound-insulating barrier, the vertical sound-insulating panels 10 are first installed on both sides of the guardrail, and then the installation of the extended sound-insulating panels 20 is performed by using a lifting device, and the extending ends of the extending sound insulation boards 20 are buckled into a whole, so that the vertical sound insulation boards 10 and the extending sound insulation boards 20 form a closed sound insulation device, thereby effectively realizing the isolation of noise, leading the noise to vibrate in the soundproof cover, utilizing the soundproof screen plate 11 to be arranged on the vertical soundproof plate 10, thereby effectively realizing the reflection and decomposition of the rapid vibration and noise generated by the wheel and the bridge deck, and stopping the noise and vibration generated by the decomposition and reflection by using the extension sound-insulating board 20, so as to realize the absorption of noise and vibration, reduce the influence of low-frequency vibration on surrounding buildings, the sound insulation barrier device is convenient to install and good in sound insulation and noise reduction effects on buildings around the viaduct.

As a preferred scheme of the invention, the whole vertical sound insulation board 10 is of a box-shaped structure, sound insulation guide rib plates 12 are arranged in a box cavity of the vertical sound insulation board 10, and the sound insulation guide rib plates 12 are arranged in a cavity of the vertical sound insulation board 10 at intervals;

the vertical sound insulation board 10 is of a box-shaped structure as a whole, the board surface positioned on the outermost side can play a role in isolating and protecting the first layer of noise and vibration, the noise can be effectively isolated through the cavity of the vertical sound insulation thin board 10, and then the sound insulation guide rib plate 12 arranged in the cavity can decompose and transmit the noise and vibration, so that the noise and vibration generated by the high-speed passing of the automobile wheels through the bridge floor can be further eliminated, the sound insulation cotton is arranged in the cavity of the sound insulation board 10, the noise can be further absorbed and the low-frequency vibration can be further decomposed, and the sound insulation and low-frequency vibration isolation effects of the common sound insulation board 10 can be further improved;

the arrangement mode of the sound insulation guide rib plates 12 is a random arrangement mode, namely the extension direction of the sound insulation guide rib plates 12 is uncertain, when noise enters a cavity through the first-layer vertical sound insulation plate 10, the noise is vibrated in the cavity, and under the insulation effect of the sound insulation guide rib plates 12, diffuse reflection of the noise and low-frequency vibration is realized, so that the influence caused by the noise is further eliminated.

As a further preferable scheme of the present invention, the inner side plate surface of the vertical sound insulation plate 10 is provided with a silencing hole 13, the silencing hole 13 is a special-shaped hole, and the silencing holes 13 are arranged at intervals along the plate surface of the vertical sound insulation plate 10;

the hole patterns of the silencing holes 13 are random and are arranged randomly, so that noise is oscillated after entering the chamber through the inner side plate surface of the vertical sound-insulating sheet 10, and the diffuse reflection generated thereby is used for further eliminating the noise, so that the frequencies of the noise are differentiated and are mutually interwoven, and the influence caused by the noise is further eliminated.

More specifically, rib plates 14 are arranged on the inner side plate surface of the vertical sound insulation plate 10, the rib plates 14 are arranged along the length direction of the vertical sound insulation plate 10, and adjacent rib plates and the inner side plate of the vertical sound insulation plate 10 form a noise guide groove;

the noise and the low frequency vibration that produce after automobile tire and overpass bridge floor roll are at first reflected to the inboard face of vertical acoustic celotex board 10 to the inboard face that is located vertical acoustic celotex board 10 produces the reflection, and the noise of reflection extends along the guide way is vertical upwards, thereby realizes carrying out the reflection in more routes to the noise that gets up of reflection, with the influence that further noise elimination produced.

Specifically, in the process of the upward reflecting traveling path of the guide groove, rib plates 15 are arranged at the bottom of the guide groove formed by the adjacent rib plates and the inner side plate of the vertical sound insulation plate 10, the cross sections of the rib plates 15 are in a special shape, a plurality of rib plates 15 are arranged at intervals along the length direction of the bottom of the guide groove, and the length extension directions of the rib plates 15 are different;

as shown in fig. 5 to 7, the rib plate 15 realizes diffuse reflection of noise and vibration, and eliminates the influence caused by concentrated reflection of noise, so that the reflection surface generated by noise and vibration is a uniform plane, thereby realizing elimination of noise and effective isolation.

In order to eliminate noise and vibration generated by the bridge deck in the first step, the sound insulation screen plate 11 is provided with a mounting plate 111, meshes of the sound insulation screen plate 11 are special-shaped holes, and the plate surface of the mounting plate 111 and the mounting plane 141 of the rib plate 14 are connected into a whole through bolts;

the sound insulation screen plate 11 is vertically arranged on the inner side of the vertical sound insulation plate 10, the sound insulation king board 11 is made of a sound insulation porous polymer material, when noise and vibration pass through the surface of the sound insulation screen plate 11, the first step of noise reduction is realized, and when part of the noise passes through meshes, more severe diffuse reflection is generated, so that the reflected noise presents planar diffuse reflection, the subsequent noise reduction structure is simplified, and the influence on the noise and the vibration is achieved.

Preferably, the upper end of the vertical acoustic panel 10 is provided with a hoisting socket 16, the hoisting socket 16 is horizontally arranged in the length direction, a reinforcing rib plate 21 is arranged in the hoisting socket 16, the reinforcing rib plate 21 is inserted from one end of the hoisting socket 16, an installation inserting strip 211 is arranged between the extended acoustic panels 20 through the reinforcing rib plate 21, and the extended acoustic panels 20 and the installation inserting strip 211 form an inserting fit;

in order to realize the stable installation between the vertical acoustic panel 10 and the extended acoustic panel 20, the rib plate 21 is inserted into the hanging socket 16 to improve the reliability of the combination between the extended acoustic panel 20 and the upper end of the vertical acoustic panel 10, and the insertion of the extended acoustic panel 20 is realized by the installation insertion strip 211, so that the detachable connection between the extended acoustic panel 20 and the upper end of the vertical acoustic panel 10 is realized, and the convenience of the detachment between the extended acoustic panel 20 and the vertical acoustic panel 10 is further simplified.

More specifically, a triangular bracket 30 is arranged between the vertical baffle board 10 and the extended baffle board 20, and two bracket sides of the triangular bracket 30 are respectively connected with the vertical baffle board 10 and the extended baffle board 20 through fastening bolts 31;

the triangular support 30 can effectively realize the reliability of connection between the vertical sound insulation board 10 and the extension sound insulation board 20, and the triangular support 30 is respectively arranged between the single vertical sound insulation board 10 and the extension sound insulation board 20 to effectively improve the reliability of connection between the opposite sound insulation board 10 and the extension sound insulation board 20.

Referring to fig. 6, in order to adapt to the effective installation of the triangular bracket 30 before the vertical baffle board 10 and the extended baffle board 20 to adapt to the undulation problem generated in the extending direction of the viaduct, a first installation rail 17 is provided on the vertical baffle board 10, the first installation rail 17 is arranged along the length direction of the vertical baffle board 10, a first installation block 171 is provided in the first installation rail 17, a second installation rail 22 is provided on the extended baffle board 20, the second installation rail 22 is arranged along the length direction of the extended baffle board 20, a second installation block 221 is provided in the second installation rail 22, and two bracket edges of the triangular bracket 30 are respectively connected with the first installation block 171 and the second installation block 221 through fastening bolts 31;

when the triangular bracket 20 is installed, the position of the first installation block 171 in the first installation rail 22 is adjusted, the position of the second installation block 221 in the second installation rail 22 is adjusted, so that the triangular bracket 20 can be conveniently installed between the vertical sound insulation board 10 and the extension sound insulation board 20 through the fastening bolt 31, the installation and the fixation of the extension sound insulation board 20 and the vertical sound insulation board 10 are realized, the extension sound insulation board 20 is ensured to abut against one right-angle edge of the triangular bracket 30, and the installation and the fixation operation of the extension sound insulation board 20 are realized.

Furthermore, the extended sound insulation boards 20 arranged at the upper ends of the vertical sound insulation boards 10 on both sides of the viaduct bridge are extended and buckled into a circular arc shape, the inner side board surfaces of the extended sound insulation boards 20 are provided with extended ribs 23, the extended ribs 23 are extended and arranged along the length direction of the extended sound insulation boards 20, and grooves are formed between the extended ribs 23;

extend acoustic celotex board 20's convex extension structure for whole sound-proof housing constitutes the top cap structure that the upper end is convex, can make noise and low frequency resonance be located this sound barrier and form effectual vibration, thereby can effectively eliminate noise and low frequency resonance, the noise can be circuitous shuttled back and forth along extending in the recess that rib 23 formed, and then reach further noise elimination and resonant influence.

More specifically, a first support plate 24 and a second support plate 25 are respectively arranged at the extending ends of the extending sound insulation plates 20 on two sides of the viaduct, the first support plate 24 and the second support plate 25 are arranged vertically at intervals, an assembling slide bar 26 is arranged between the first support plate 24 and the second support plate 25, the assembling slide bar 26 is horizontal and vertical to the first support plate 24, a bar body of the assembling slide bar 26 is in sliding fit with the first support plate 24 and the second support plate 25, a spring 261 is sleeved on the assembling slide bar 26, and two ends of the spring 261 are abutted against the first support plate 24 and the second support plate 25;

the first and second brackets 2425 respectively disposed at the extending ends of the extending baffle 20 can form effective support through the assembling slide bar 26, and the assembling of the extending baffle 20 can form a certain error accommodating space, so that the vertical baffle 10 and the extending baffle 20 can form effective assembling, thereby ensuring the assembling reliability of the viaduct barrier.

More specifically, buckling plates 27 are arranged at the upper positions of the extending ends of the extending sound insulation plates 20 at the two sides of the viaduct, the buckling plates 27 are made of flexible materials, the two ends of the buckling plates 27 are mutually inserted and arranged in a wave shape, and the two sides of the buckling plates 27 are in buckling fit with the upper positions of the extending ends;

after the extension sound insulation boards 20 are assembled together, the buckle plate 27 is buckled at the connecting position of the extension ends of the extension sound insulation boards 20, so that an effective water guide slope surface is formed at the top end position of the extension sound insulation boards 20, the effective inclination of rainwater is realized, and the accumulation of rainwater is avoided;

be provided with heating device in extending acoustic celotex board 20, heating device can select the heating wire etc. and distribute at the outer face that extends acoustic celotex board 20, when the top position that extends acoustic celotex board 20 has accumulated snow or ice, opens heating device through timely the staff of municipal administration department, avoids the problem of collapsing that the excessive and appearance of ceiling position snow.

Referring to fig. 13 to 18, in order to conveniently realize stable installation of the opposite vertical sound insulation board 10 and the upper end of the guardrail, the lower end of the vertical sound insulation board 10 is detachably connected with the installation base 40, the installation base 40 is detachably connected with the guardrail, the installation base 40 includes a groove board 41 which is integrally in a shape of a clamping groove, clamping blocks 42 are arranged on the groove boards on two sides of the groove board 41, and the groove board 41 moves downwards and enables the clamping blocks 42 to clamp two sides of the guardrail;

cement guardrails are selected from two sides of the viaduct, the cement guardrails are made of retarding soil prefabricated parts, and are required to be transported to two sides of the viaduct after being produced by a production enterprise, so that the viaduct is separated, the whole cement guardrail is of a frustum-shaped structure, when the installation base 40 and the upper end of the cement guardrail are installed, the groove plates 41 are clamped at the upper end positions of the cement guardrail, the clamping blocks 42 are clamped at two side positions of the cement guardrail, when the clamping blocks 42 clamp the cement guardrail, the groove plates 41 move downwards, so that the clamping blocks 42 can clamp two sides of the cement guardrail, the groove plates 41 are effectively fixed, and the problem that the vertical sound insulation plates 10 cannot fall above the cement guardrail due to the fact that the centers of the vertical sound insulation plates 10 are clamped at the installation base 40 is solved;

the installation is realized to the tight mode of aforesaid through mount pad 40 clamp, has effectively solved among the prior art through boring the drawback of establishing the mounting hole at the cement guardrail, when guaranteeing cement guardrail intensity, can also effectively improve the installation effectiveness, can not lead to the fact the harm to the cement guardrail.

In order to clamp and fix the whole mounting seat 40 and the cement guardrail and facilitate disassembly, one side of the clamping block 42 is connected with the clamping slide block 421 through a hinge shaft, the hinge shaft of the clamping block 42 is horizontal and parallel to the length direction of the guardrail, the clamping slide block 421 is arranged on the clamping track 411 in a sliding manner, and the clamping track 411 and the two side plate surfaces of the groove plate 41 are arranged at an included angle;

the clamping block 42 is connected with the clamping slide block 421 through a hinge shaft, so that the clamping block 42 can adapt to inclined planes on two sides of the cement guardrail, and a clamping side plate surface of the clamping block 42 and two sides of the cement guardrail form clamping operation all the time;

when the mounting base 40 is actually mounted, the clamping blocks 42 are located at the lowest ends under the action of gravity, when the clamping blocks 42 are located at the lowest ends, the distance between the clamping blocks 42 is the largest, so that the clamping blocks 42 are clamped at two sides of the cement guardrail, the primary clamping operation on the clamping blocks 42 is realized, after the positions of the clamping blocks 42 are adjusted, the groove plates 41 are clamped downwards and extruded through equipment, the clamping sliding blocks 421 slide along the clamping rails 411, the clamping rails 411 and two side plates of the groove plates 41 are arranged in an included angle, the distance between the clamping blocks 42 is reduced in the process that the clamping rails 411 move downwards, the clamping operation on the clamping blocks 42 and two side walls of the guardrail is realized, and the mounting operation of the whole mounting base 40 and the cement guardrail is ensured;

more preferably, the groove plate 41 includes two side groove walls 412 and a top plate 413, the two side groove walls 412 and the top plate 413 form a hinged connection, a hinged shaft of the two side groove walls 412 is horizontal and parallel to the length direction of the groove plate 41, a reset torsion spring is arranged on the hinged shaft of the two side groove walls 412, and two ends of the reset torsion spring respectively abut against the top plate 413 and the two side groove walls 412;

in the process that the distance between the two clamping blocks 42 is adjusted to be smaller when the groove plate 41 moves downwards, the reset torsion spring is overcome, so that the two side groove walls 412 positioned at the two sides of the top plate 413 generate certain rotary deformation, the groove plate 41 and the clamping blocks 42 can continuously move downwards for a certain distance, the upper end of the cement guardrail is abutted against the lower plate surface of the top plate 413 of the groove plate 41, the groove plate 41 can be installed in place, and the two side groove walls 412 and the clamping blocks 42 clamp the two side walls of the cement guardrail under the action of the elastic force of the reset torsion spring;

when the clamping blocks 42 clamp the outer walls of the two sides of the cement guardrail, the clamping blocks 42 clamp the two sides of the cement guardrail more tightly in the process of fine adjustment and downward movement of the groove plates 41.

As a further preferable scheme of the present invention, as shown in fig. 18, a clip 43 is provided on the clamping block 42, the clip 43 is used for clamping the clamping block 42, a tightening nut 431 is provided on the clip 43, the hole center of the tightening nut 431 is vertically arranged, and the tightening nut 431 is suspended to a position below the center of the top plate 413;

the clamp 43 comprises two clamp arms 432, the two clamp arms are used for clamping the outer wall of the clamp block 42, a locking bolt 433 is arranged between the two clamp arms 432, the length direction of the locking bolt 433 is horizontal, the locking bolt 433 forms a rotating fit with one of the clamp arms 432, and the locking bolt 433 forms a screw nut fit with the other clamp arm 432;

a central hole 4131 is formed in the central position of the top plate 413, a tightening screw 434 is arranged in the tightening nut 431, the tightening screw 434 is vertically arranged, a rod body passes through the central hole 4131 and protrudes to the upper end position of the top plate 413, and a fastening nut 435 is arranged at the rod end of the tightening screw 434;

the clamping 43 arranged on the clamping block 42 realizes the initial clamping of the clamping block 42, when in operation, the clamping arm 432 is clamped on the clamping block 42, the locking bolt 433 is screwed to realize the clamping operation of the clamping block 42, the random movement of the clamping block 42 in the vertical direction is avoided, then the tightening screw 434 passes through the central hole 4131, the fastening nut 435 is screwed on the tightening screw 434, the downward movement of the top plate 413 is realized by screwing the fastening nut 435, so that the downward movement of the whole groove plate 41 is realized, the clamping operation of the clamping block 42 is realized by utilizing the groove walls 412 on the two sides of the groove plate, when the groove plate 41 is downwards moved to adjust the distance to the position at one end, the fastening nut 435 is loosened, the locking bolt 433 is loosened, the dismounting of the clamping arm 43 is realized, the dismounting of the whole tightening adjusting mechanism is completed, and then the mounting between the vertical sound insulation plate 10 and the extension sound insulation plate 20 is realized, thereby accomplish the installation to the sound barrier of a section distance, then translate hoisting equipment to next section, and implement the installation to next fixing base 40, the circulation is reciprocal, until finishing the sound barrier installation of whole overpass position.

Further, one side of the top plate 413 is provided with an overlapping plate 4132, the other side of the top plate 413 is provided with an overlapping step 4133, and when the adjacent groove plates 41 are abutted together, the overlapping plate 4132 is inserted into the overlapping step 4133; so as to form a finished whole, and avoid the problem of poor sound insulation effect caused by gaps among sound insulation barriers;

vertical acoustic celotex board 10 and the one side edge of extending acoustic celotex board 20 all are provided with the elasticity buckled plate, and when adjacent vertical acoustic celotex board 10 and the extension acoustic celotex board 20 supported and lean on, hang the dress between the elasticity buckled plate together, when can filling the gap between the vertical acoustic celotex board 10, can also adapt to the undulation of overpass bridge floor to make the sound barrier form a complete whole.

More specifically, in order to ensure reliable installation between the vertical sound insulation board 10 and the installation base 40, a slot plate 44 is arranged on the upper surface of the top plate 413, a slot interface 441 for clamping and connecting a fixing pin plate 45 is arranged on the slot plate 44, the slot interface 441 is horizontally arranged in the length direction, the fixing pin plate 45 is inserted from one end of the slot interface 441, and the lower end of the vertical sound insulation board 10 is connected with the fixing pin plate 45;

when implementing installation to vertical acoustic celotex board 10, at first leading-in with fixed pin board 45 by joint interface 441 one end to constitute a complete and closely knit mount pad between the lower extreme of vertical acoustic celotex board 10 and the upper end draw-in groove board 44 of mount pad 40, thereby avoid appearing the problem of tearing apart between diaphragmatic board 10 and the mount pad 40, ensure the installation reliability.

In order to realize the connection between the lower ends of the opposite vertical sound insulation board 10 and the fixed pin board 45, the upper end of the slot board 44 is provided with a strip-shaped opening 442, the fixed pin board 45 is provided with a bolt hole 451, and a bayonet for clamping the lower end of the vertical sound insulation board 10 is formed between the bolt hole 451 and the strip-shaped opening 442.

More preferably, two sides of the bolt opening 451 are provided with first strip-shaped openings 452, two sides of the strip-shaped opening 442 are provided with second strip-shaped openings 4421, the second strip-shaped openings 4421 are concentric with the first strip-shaped openings 452, a fastening bolt is arranged between the second strip-shaped openings 4421 and the first strip-shaped openings 452, the fastening bolt sequentially penetrates through the strip-shaped openings 442, the bolt opening 451 and the lower end plate surface of the vertical sound insulation plate 10, and a nut is arranged at the extending end;

after the fixing pin plate 45 is led in from one end of the clamping interface 441, the first strip-shaped opening 452 on the fixing pin plate 45 is opposite to the second strip-shaped opening 4421 on the clamping groove plate 44, then the lower end of the vertical sound insulation plate 10 is inserted into the first strip-shaped opening 452, the fastening bolt passes through the second strip-shaped opening 4421, the first strip-shaped opening 452 and the plate surface of the vertical sound insulation plate 10 for one time and extends out from the first strip-shaped opening 452 and the second strip-shaped opening 4421 on the other side, and the fixing is realized by the locking bolt, so that the installation and the fixing of the vertical sound insulation plate 10 are completed.

The sound insulation method for the viaduct comprises the following steps:

firstly, mounting cement guardrails on two sides of a viaduct, so that the cement guardrails are neatly arranged along the length direction of the viaduct;

secondly, clamping the groove plates 41 of the mounting seat 40 at the two sides of the cement guardrail, and positioning the clamping blocks 42 of the mounting seat 40 at the lowest ends of the groove plates 41 so that the clamping blocks 42 are clamped at the two sides of the cement guardrail;

thirdly, clamping the clamping block 42 through the clamp 43, enabling the tightening nut 431 to be suspended to the position below the center of the top plate 413, arranging a tightening screw 434 in the tightening nut 431, enabling the shaft of the tightening screw 434 to penetrate through the center hole 4131 and protrude to the upper end position of the top plate 413, arranging a fastening nut 435 at the rod end of the tightening screw 434, and enabling the groove plate 41 of the mounting seat 40 to move downwards to the right position through screwing the fastening nut 435 to mount the mounting seat 40;

fourthly, clamping the lower end of the vertical sound insulation board 10 in the clamping groove board 44 of the mounting seat 40 to realize the mounting of the vertical sound insulation board 10;

fifthly, mounting the guard bar on the other side of the viaduct in the first step to the fourth step to mount the mounting seat 40 and the vertical sound insulation board 10;

sixthly, the extended sound insulation boards 20 are respectively installed at the upper ends of the vertical sound insulation boards 10 through fastening bolts;

seventhly, connecting two bracket sides of the triangular bracket 30 with the first mounting block 171 of the vertical sound insulation board 10 and the second mounting block 221 of the extension sound insulation board 20 through fastening bolts 31;

eighthly, adjusting the first support plate 24 and the second support plate 25 of the extension sound insulation plate 20 to be in a vertical state and close to each other, so that the first support plate 24 and the second support plate 25 are arranged vertically at intervals, sleeving the assembly slide rod 26 on the first support plate 24 and the second support plate 25 in a penetrating manner, sleeving the spring 261 on the assembly slide rod 26, enabling two ends of the spring 261 to abut against the first support plate 24 and the second support plate 25, and completing the installation of the extension end of the extension sound insulation plate 20;

ninthly, arranging a buckling plate 27 at the upper position of the extending end of the extending sound insulation plate 20, so that the two sides of the buckling plate 27 are in buckling fit with the upper position of the extending end, and the whole sound insulation barrier unit section is installed;

and step ten, repeating the steps from the first step to the ninth step until the installation of the whole viaduct sound barrier is finished.

Claims (5)

1. A mounting structure characterized in that: the vertical sound insulation board comprises a vertical sound insulation board (10), the lower end of the vertical sound insulation board (10) is detachably connected with an installation seat (40), the installation seat (40) is detachably connected with a guardrail, the installation seat (40) comprises a groove board (41) which is integrally in a clamping groove shape, clamping blocks (42) are arranged on the groove boards on two sides of the groove board (41), and the groove board (41) moves downwards and enables the clamping blocks (42) to clamp two sides of the guardrail;

one side of the clamping block (42) is connected with a clamping sliding block (421) through a hinge shaft, the hinge shaft of the clamping block (42) is horizontal and parallel to the length direction of the guardrail, the clamping sliding block (421) is arranged on the clamping rail (411) in a sliding manner, and the clamping rail (411) and the two side plate surfaces of the groove plate (41) are arranged at an included angle;

the groove plate (41) comprises two side groove walls (412) and a top plate (413), the two side groove walls (412) and the top plate (413) are hinged, hinged shafts of the two side groove walls (412) are horizontal and parallel to the length direction of the groove plate (41), reset torsion springs are arranged on the hinged shafts of the two side groove walls (412), and two ends of each reset torsion spring are abutted against the top plate (413) and the two side groove walls (412) respectively;

the clamping block (42) is provided with a clamp (43), the clamp (43) is used for clamping the clamping block (42), a jacking nut (431) is arranged on the clamp (43), the hole center of the jacking nut (431) is vertically arranged, and the jacking nut (431) is suspended to the position below the center of the top plate (413);

the clamp (43) comprises two clamping arms (432), the two clamping arms are used for clamping the outer wall of the clamping block (42), a locking bolt (433) is arranged between the two clamping arms (432), the length direction of the locking bolt (433) is horizontal, the locking bolt (433) forms a rotating fit with one clamping arm (432), and the locking bolt (433) forms a screw nut fit with the other clamping arm (432);

the center position of the top plate (413) is provided with a center hole (4131), a jacking screw rod (434) is arranged in the jacking nut (431), the jacking screw rod (434) is vertically arranged, a rod body penetrates through the center hole (4131) and protrudes to the upper end position of the top plate (413), and a fastening nut (435) is arranged at the rod end of the jacking screw rod (434).

2. The mounting structure according to claim 1, wherein: one side of the top plate (413) is provided with an overlapping plate (4132), the other side of the top plate (413) is provided with an overlapping step (4133), and when adjacent groove plates (41) abut against each other, the overlapping plate (4132) is inserted into the overlapping step (4133).

3. The mounting structure according to claim 2, wherein: the last face of roof (413) is provided with draw-in groove board (44), be provided with joint interface (441) of the fixed round pin board of joint (45) on draw-in groove board (44), joint interface (441) length direction level is arranged, fixed round pin board (45) are inserted by the one end of joint interface (441), the lower extreme and the fixed round pin board (45) of vertical acoustic celotex board (10) are connected.

4. The mounting structure according to claim 3, wherein: a strip-shaped opening (442) is formed in the upper end of the clamping groove plate (44), a bolt opening (451) is formed in the fixing pin plate (45), and a clamping opening at the lower end of the clamping vertical type sound insulation plate (10) is formed between the bolt opening (451) and the strip-shaped opening (442); first strip-shaped openings (452) are formed in two sides of the bolt opening (451), second strip-shaped openings (4421) are formed in two sides of the strip-shaped opening (442), the second strip-shaped openings (4421) are concentric with the first strip-shaped openings (452), fastening bolts are arranged between the second strip-shaped openings (4421) and the first strip-shaped openings (452), and the fastening bolts sequentially penetrate through the strip-shaped openings (442), the bolt opening (451) and the lower end plate surface of the vertical sound insulation plate (10) and are provided with nuts at the extending ends.

5. Viaduct sound barrier, its characterized in that: the elevated bridge sound barrier comprising the mounting structure of any one of claims 1 to 4.

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