CN104611997B - A kind of dispensing support track structure with vibration and noise reducing function - Google Patents

Abstract

The invention discloses a kind of dispensing support track structure with vibration and noise reducing function, including: track girder, track and organize vibration damping support device more, track girder includes: two track girder bodies, and it is set to parallel, rectangular in cross-section, bearing of trend arranges identical with the bearing of trend of two tracks；Connecting plate is set between track girder body, comprising: the top board being arranged between track girder body and base plate, top board and base plate keep concordant with the end face of track girder body and bottom surface respectively；Top board, base plate and track girder body enclosing become cross section to be the body structure of rectangular shape；Vibration damping support device includes: the plurality of steel plates of interlaced arrangement and be fastened on the rubber bodies of subregion between adjacent two steel plates, and plurality of steel plates is equidistantly evenly arranged.The present invention has the dispensing support track structure of vibration and noise reducing function, while increasing lateral connection rigidity and the cross section bending resistance the moment of inertia of track girder, can greatly reduce ambient vibration and noise.

Description

A kind of dispensing support track structure with vibration and noise reducing function

Technical field

The present invention relates to engineering field, particularly relate to a kind of dispensing support track structure with vibration and noise reducing function.

Background technology

Continuous expansion along with China's city size, the strongest to the growth requirement of public transport, occurring in that the most newly-built transit's routes on city map, urban track traffic, as the most effective way of alleviation urban traffic pressure, had obtained swift and violent development in recent years.The version that current track traffic uses mainly has slab track structure, trapezoidal track structure, sleeper track structure.

Slab track globality is relatively good, and it there is the problem that concrete usage amount is relatively big, and construction costs is higher, and dead weight is relatively big simultaneously, especially for use in time on bridge, adds the deadweight of bridge top；In order to ensure the safety of bridge, on bridge, other sectional dimension of members also to increase therewith, adds the cost of bridge itself accordingly.

Trapezoidal track structure has the advantage of lightness, and is easy at trapezoidal track damping element disposed below, its there is the problem that trapezoidal track structure use during the most cracking situation of connecting portion at trapezoidal track connecting rod two ends.Cracking reason mainly due to track when train passes through, the problem such as track irregularity, cause train to there is oscillation crosswise, and the connecting rod of trapezoidal track be located in the track girder centre position along short transverse.Under the effect of rail level cross force, the rod end of connecting rod produces Moment.Less due to the sectional dimension of connecting rod again, resist torque ability is the most weak, and then plastic hinge occurs in the end in connecting rod.When plastic hinge Stiffness Deterioration is more serious, the constraint rigidity that connecting rod is horizontal to track girder will be affected, jeopardize the traffic safety of train.

Sleeper track structure there is the problem that structure comparison disperses, and is unfavorable for that factory is integral prefabricated, is unfavorable for the layout of damping element.

Additionally, architecture ensemble in the past is the most sparse, the vibration that rail traffic vehicles causes does not becomes problem of concern to the impact of surrounding；And it is present, fast development along with urban construction, elevated rail traffic, Underground Rail Transit, rail on ground traffic gradually from underground, ground and be progressively deep into residential area, commercial center and industrial occupancy intensive city in the air, the environmental problem that track traffic causes is more and more significant.For being chronically at the building in closely vibration and noise circumstance, and they internal residents and the work of staff and life, create the biggest impact.

Being in particular in: on the one hand along with the increase of volume of transport, ambient vibration problem is day by day serious, and on the other hand, people are more and more higher to the requirement of quality of life, and the ambient vibration problem that track traffic causes more and more causes the kickback of the public.Noise reduction technology is used in the construction of rail line, eliminate society's complaint of the ambient vibration initiation that track traffic causes as far as possible, making subway nearby residents satisfied, building the quiet track traffic of environmental protection will be demand and the inexorable trend of social harmonious development of people.Therefore, it is necessary to existing track beam structure is improved, to solve the problems referred to above.

Summary of the invention

The technical problem to be solved is, it is provided that a kind of dispensing support track structure with vibration and noise reducing function, while increasing lateral connection rigidity and the cross section bending resistance the moment of inertia of track girder, can greatly reduce ambient vibration and noise.

In order to solve above-mentioned technical problem, The embodiment provides a kind of dispensing support track structure with vibration and noise reducing function, including: track girder, two tracks be arrangeding in parallel being fastened on track girder top and the many groups vibration damping support device flexibly supported for Transit Equipment offer, track girder includes: in order to trapped orbit and the two track girder bodies that are oppositely arranged, two track girder bodies are set to parallel, its rectangular in cross-section, and bearing of trend setting is identical with the bearing of trend of two tracks；Between track girder body arrange in order to increase the track girder connecting plate in lateral cross section bending resistance the moment of inertia, wherein: connecting plate includes: be arranged on the top board between track girder body and base plate, top board and base plate and keep concordant with the end face of track girder body and bottom surface respectively；Top board, base plate and track girder body enclosing become cross section to be the body structure of rectangular shape, and track girder body is provided with chamfering with the junction of top board and base plate；Vibration damping support device includes: the plurality of steel plates of interlaced arrangement and be fastened on the rubber bodies of subregion between adjacent two steel plates, and plurality of steel plates is equidistantly evenly arranged, and rubber bodies uses high-damping rubber material to make.

Wherein, vibration damping support device also includes the securing member in order to plurality of steel plates and rubber layer to carry out under shear load effect lateral confinement, and securing member is arranged on the periphery of vibration damping support device lateral body, and it is connected with rubber layer with plurality of steel plates respectively.

Wherein, securing member uses stainless steel material to make.

Wherein, vibration damping support device also includes the sleeve in order to protect vibration damping support device; sleeve is located at the periphery of vibration damping support device, and sleeve includes the upper cover plate being made up of stainless steel material, lower cover, outer panel and the interior plate being connected on vibration damping support device top, bottom and lateral body.

Wherein, arrange between outer panel and interior plate to make sleeve slideway moving up and down.

Wherein, upper cover plate is connected as a single entity with interior plate weldering, and lower cover is connected as a single entity with outer panel weldering.

Wherein, sleeve is connected with steel plate chien shih.

Wherein, top board and base plate are integrated poured molding with track girder body.

Wherein, top board and base plate are armoured concrete slab or steel-concrete compoboard.

The dispensing support track structure with vibration and noise reducing function provided by the present invention, has the advantages that

First, the connecting plate increasing track girder in lateral cross section bending resistance the moment of inertia is set between track girder body, lateral connection rigidity and the lateral cross section bending resistance the moment of inertia of track girder can be increased, improve cross section anti-bending strength, overall performance is preferable, being more conducive to the flexible arrangement of damping element, and track structure lighter weight, construction cost is controlled.Wherein: the body structure of track girder can reduce the later stage and reinforce the expense safeguarded, it is simple to prefabrication, can be greatly improved construction speed, and construction quality is also easier to be protected, and is also beneficial to the evacuation of personnel when Transit Equipment breaks down, and security performance is higher.

Second, owing to vibration and noise reducing device includes the many groups vibration damping support device for Transit Equipment offer vertical elastic support, can be that track structure provides vertical elastic to support, and can be according to rigidity and the requirement of bearing capacity, it is possible to carry out flexible design according to the parameter such as track structure and vehicular load；Can be widely applied on the structure such as slab track, trapezoidal track, ambient vibration and noise can be reduced greatly；Can change, facilitate later maintenance and management.

Accompanying drawing explanation

In order to be illustrated more clearly that the embodiment of the present invention or technical scheme of the prior art, the accompanying drawing used required in embodiment or description of the prior art will be briefly described below, apparently, accompanying drawing in describing below is only some embodiments of the present invention, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the cross section structure schematic diagram that the present invention has vibration and noise reducing function dispensing support track structure embodiment one.

Fig. 2 is the cross section structure schematic diagram that the present invention has vibration and noise reducing function dispensing support track structure embodiment two.

Fig. 3 is the schematic perspective view of box track beam structure in the embodiment of the present invention one.

Fig. 4 is the schematic cross-section of box track beam structure in the embodiment of the present invention one.

Fig. 5 is the schematic perspective view of Double layer Bar supporting track structure in the embodiment of the present invention two.

Fig. 6 is the schematic cross-section of Double layer Bar supporting track structure in the embodiment of the present invention two.

Fig. 7 is the cross section structure schematic diagram that the present invention has the vibration damping support device embodiment one of vibration and noise reducing function dispensing support track structure.

Fig. 8 is the cross section structure schematic diagram that the present invention has the vibration damping support device embodiment two of vibration and noise reducing function dispensing support track structure.

Fig. 9 is the cross section structure schematic diagram that the present invention has the vibration damping support device embodiment three of vibration and noise reducing function dispensing support track structure.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is only a part of embodiment of the present invention rather than whole embodiments.Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art are obtained under not making creative work premise, broadly fall into the scope of protection of the invention.

In conjunction with seeing Fig. 1, Fig. 3-Fig. 4, there is for the present invention embodiment one of vibration and noise reducing function dispensing support track structure.

The present embodiment has vibration and noise reducing function dispensing support track structure, including box track girder and be laid on the bottom of box track girder and the vibration and noise reducing device of both sides, wherein: the vibration and noise reducing device of box track girder both sides is horizontal vibration damping denoising device 3a, vibration and noise reducing device bottom box track girder is vertical vibration and noise reducing device 3b, and box track girder is fastenedly connected with horizontal vibration damping denoising device 3a and vertical vibration and noise reducing device 3b respectively.Box track girder described further below and the concrete structure of vibration and noise reducing device.

In conjunction with seeing shown in Fig. 3 and Fig. 4, box track beam structure in the present embodiment, the connecting plate of track beam structure or connecting rod are in order to increase the lateral connection rigidity of track girder, including: track girder 11 and two tracks be arrangeding in parallel 12 being fastened on track girder 11 top, track girder 11 includes: in order to trapped orbit 12 and the two track girder bodies 111 that are oppositely arranged, its bearing of trend arranges identical with the bearing of trend of two tracks 12；The connecting plate (not shown) increasing track girder 11 in lateral cross section bending resistance the moment of inertia is set between track girder body 111, wherein:

Connecting plate includes: the top board 112 being arranged between track girder body 111 and base plate 113, top board 112 and base plate 113 keep concordant with the end face 111a of track girder body 111 and bottom surface 111b respectively；Top board 112, base plate 113 and track girder body 111 enclosing become cross section to be the body structure of rectangular shape, and track girder body 111 does chamfered with top board 112 and base plate 113 link position.

Specifically, two tracks 12 are set to parallel, and track girder body 111 is the pedestal in order to trapped orbit 12, and the bearing of trend of track girder body 111 is identical with the bearing of trend of track 12, the matrix that two positions that is that be square type for cross section and that can infinitely extend is relative.Track 12 is fastened on the end face 111a of track girder body 111, as shown in Figure 4.

The connecting plate increasing track girder 11 in lateral cross section bending resistance the moment of inertia is set between track girder body 111, it includes top board 112 and base plate 113, two plate bodys extend from the end face 111a and bottom surface 111b of track girder body 111 respectively, and keep concordant with the end face 111a of track girder body 111 and bottom surface 111b respectively, that is, top board 112 and base plate 113 are parallel, making top board 112, base plate 113 and track girder body 111 enclosing become cross section to be the body structure of rectangular shape, track girder body 111 does chamfered with top board 112 and base plate 113 link position.

Preferably, top board 112 and base plate 113 are armoured concrete slab or steel-concrete compoboard.

The effect of this body structure is: set body structure can increase the lateral connection rigidity of track girder body 111, and set top board 112 and base plate 113 add the bending resistance the moment of inertia of lateral cross section, improve cross section anti-bending strength.When being embodied as, top board 112 and base plate 113 are integrated poured molding with track girder body 111, namely use the version that factory's segmentation is prefabricated, which is lower than the cost of cast-in-site, ensureing while construction quality, can effective reduction of erection time, it is possible to preferably control engineering cost.It is of course also possible to top board 112, base plate 113 and track girder body 111 to be carried out on-the-spot one cast, do not affect implementation result.

Further, the overall performance of set body structure is preferable, compared to problems such as the cracking of the connecting rod that trapezoidal track structure occurs instantly and destructions, it is possible to decrease the later stage reinforces the expense safeguarded；Being also more suited for prefabrication, can be greatly improved construction speed, construction quality is also easier to be protected.Meanwhile, this body structure is also more conducive to the flexible arrangement of damping element, and track structure lighter weight, better economy；Simultaneously as top board 112 keeps concordant with the end face 111a of track girder body 111, this smooth upper surface is also more conducive to the evacuation of personnel when Transit Equipment breaks down, and security performance is higher.

In conjunction with seeing Fig. 2, Fig. 5-Fig. 6, there is for the present invention embodiment two of vibration and noise reducing function dispensing support track structure.

As shown in Figure 5, Double layer Bar supporting track structure in the present embodiment, in order to increase the lateral connection rigidity of track girder, including: track girder 11 and two tracks be arrangeding in parallel 12 being fastened on track girder 11 top, track girder 11 includes: in order to trapped orbit 12 and the two track girder bodies 111 that are oppositely arranged, its bearing of trend arranges identical with the bearing of trend of two tracks 12；The connecting rod (not shown) increasing track girder 11 in lateral cross section bending resistance the moment of inertia is set between track girder body 111, wherein:

Connecting rod is multiple rows of concordant with the end face 111a of track girder body 111 and bottom surface 111b holding respectively, and cross sectional shape is set to identical double-deck connecting rod 114, the plane at arbitrary row's bilayer connecting rod 114 place is perpendicular with the side 111a of track girder body 111, and track girder body 111 is provided with chamfering with the junction of connecting rod 114 or is set to curved changeover portion.

Specifically, two tracks 12 are identical with the set-up mode of above-described embodiment with the set-up mode of track girder body 111, and here is omitted.Connecting rod 114 is concrete filled steel tubular member or armored concrete component, it extends from the end face 111a and bottom surface 111b of track girder body 111 respectively, and keep concordant with the end face 111a of track girder body 111 and bottom surface 111b respectively, that is two row's connecting rods 114 of top and bottom are parallel, and track girder body 111 is provided with chamfering or curved changeover portion with the junction of connecting rod 114.In addition, multiple rows of double-deck connecting rod 114 is equidistantly uniformly arranged, and the plane at arbitrary row's bilayer connecting rod 114 place is perpendicular with the side 111a of track girder body 111, this arrangement can make the stress of track beam structure more stable, can increase the lateral connection rigidity of track girder body 111.Multiple rows of double-deck connecting rod 114 can add the bending resistance the moment of inertia of lateral cross section, improves cross section anti-bending strength.When being embodied as, multiple rows of double-deck connecting rod 114 is integrated poured molding with track girder body 111, the version namely using factory's segmentation prefabricated is (the most pre-buried, then pour into a mould the mode of concrete), which is lower than the cost of cast-in-site, ensureing while construction quality, can effective reduction of erection time, it is possible to preferably control engineering cost.It is of course also possible to multiple rows of double-deck connecting rod 114 and track girder body 111 are carried out on-the-spot one cast, do not affect implementation result.

Preferably, the cross section of connecting rod 114 is circular or rectangle.Using the track beam structure of this multiple rows of double-deck connecting rod 114 structure, overall performance is preferable, the more conducively flexible arrangement of damping element, and track structure lighter weight, better economy.

In other embodiments, connecting rod 114 can be assembled by other layout type, such as three layers or multilamellar, the modes such as layout of can also interlocking, as long as meeting connecting rod 114 set between track girder body 111 can increase the lateral connection rigidity of track girder body 111.

Horizontal vibration damping denoising device 3a in above-mentioned enforcement one and embodiment two uses block rubber, and vertical vibration and noise reducing device 3b is vibration damping support device, and according to architectural difference, it can be implemented, specifically by following three kinds of embodiments:

As it is shown in fig. 7, have the cross section structure schematic diagram of the vibration damping support device embodiment one of vibration and noise reducing function dispensing support track structure for the present invention.

Vibration and noise reducing device in the present embodiment, including: many groups vibration damping support device of vertical elastic support is provided for Transit Equipment, wherein: vibration damping support device includes: the plurality of steel plates 31 of interlaced arrangement and be fastened on the rubber bodies 32 of subregion between adjacent two steel plates 31, plurality of steel plates 31 is equidistantly evenly arranged, and rubber bodies 32 uses high-damping rubber material to make.

Specifically, steel plate 31 interlaced arrangement, and the specification of each block plate 31 is consistent, the central region between adjacent two block plates 31 arranges rubber bodies 32, and steel plate 31 uses sulfuration to be connected with rubber bodies 32.Rubber bodies 32 effect is: owing to rubber has preferable reset capability, and anti-fatigue performance is good, provides vertical elastic to support, in order to reduce ambient vibration and noise by the rubber bodies 32 vertical shearing deformability between steel plate 31.

Preferably, rubber bodies 32 uses high-damping rubber material to make, and its effect is: owing to high-damping rubber material has damping characteristic, and it is more preferable to the attenuating of vibration.

Shown in Figure 8, there is the cross section structure schematic diagram of the vibration damping support device embodiment two of vibration and noise reducing function dispensing support track structure for the present invention.

The present embodiment is with the difference of above-mentioned embodiment illustrated in fig. 7: vibration damping support device also includes the securing member 33 in order to retrain plurality of steel plates 31 and rubber layer 32 under shear load effect, securing member 33 is arranged on the periphery of vibration damping support device lateral body, and it is connected with vibration damping support device both sides steel plate respectively.

Specifically, securing member 33 can increase the stability of vibration damping support device, and it can provide a constraint in the outside of vibration damping support device, it is ensured that stability during vibration damping support device vertical deformation.Securing member 33 uses stainless steel material to make.

Shown in Figure 9, there is the cross section structure schematic diagram of the vibration damping support device embodiment three of vibration and noise reducing function dispensing support track structure for the present invention.

The present embodiment and the difference assembling securing member 33 embodiment above-mentioned Fig. 8 Suo Shi are: vibration damping support device also includes the sleeve 34 in order to protect vibration damping support device, and sleeve 34 is located at the periphery of vibration damping support device.

Specifically, sleeve 34 ensure that the safety in use of whole device and durability, and under Vehicle Load, sleeve 34 can produce relative motion.The upper cover plate 341 being made up of stainless steel material that sleeve 34 includes being connected on vibration damping support device top, bottom and lateral body, lower cover 342, outer panel 343, interior plate 344.Preferably, upper cover plate 341 is connected as a single entity with outer panel 343 weldering with interior plate 344, lower cover 342, and interior plate 344 is connected with steel plate 31 chien shih.

Further, arranging to make sleeve 34 slideway moving up and down 35 between outer panel 343 and interior plate 344, it can ensure can to slide smoothly in the top and the bottom of sleeve 34.

In other embodiments of vibration and noise reducing device of the present invention: when the Lack of support of vibration damping support device, can be adjusted by increasing the group number of steel plate 31 and rubber layer 32, such as: as the rigidity of vibration damping support device need to be reduced, the thickness of rubber layer 31 can be increased；As increased the rigidity of vibration damping support device, the thickness that can reduce rubber layer 32 changes to adapt to said structure, does not the most change the essence of the present invention.

Implement the vibration and noise reducing device of the present invention, have the advantages that

First: between track girder body, arrange to increase connecting plate or the connecting rod of track girder bending resistance the moment of inertia in its cross-wise direction, lateral connection rigidity and the lateral cross section bending resistance the moment of inertia of track girder can be increased, improve lateral cross section anti-bending strength, overall performance is preferable, it is more conducive to the flexible arrangement of damping element, and track structure lighter weight, construction cost is controlled.Wherein: the body structure of track girder can reduce the later stage and reinforce the expense safeguarded, it is simple to prefabrication, can be greatly improved construction speed, and construction quality is also easier to be protected, and is also beneficial to the evacuation of personnel when Transit Equipment breaks down, and security performance is higher.

Second: owing to vibration and noise reducing device includes the many groups vibration damping support device for Transit Equipment offer vertical elastic support, can be that track structure provides vertical elastic to support, and can be according to rigidity and the requirement of bearing capacity, it is possible to carry out flexible design according to the parameter such as track structure and vehicular load；Can be widely applied on the structure such as slab track, trapezoidal track, ambient vibration and noise can be reduced greatly；Can change, facilitate later maintenance and management.

Claims (9)

1. a dispensing support track structure with vibration and noise reducing function, it is characterised in that including: track Beam, be fastened on described track girder top two tracks be arrangeding in parallel and for Transit Equipment provide bullet Property support many groups vibration damping support device, described track girder includes:

In order to fix described track and the two track girder bodies being oppositely arranged, described two track girder bodies are set to put down OK, its rectangular in cross-section, and bearing of trend setting is identical with the bearing of trend of described two tracks；At described rail Between road beam body arrange in order to increase the connection of bending resistance the moment of inertia on lateral cross section direction of described track girder Plate, wherein:

Described connecting plate includes: be arranged on the top board between described track girder body and base plate, described top board and Described base plate keeps concordant with the end face of described track girder body and bottom surface respectively；Described top board, described base plate And described track girder body enclosing becomes cross section to be the body structure of rectangular shape, described track girder body is with described The junction of top board and described base plate is provided with chamfering；

Described vibration damping support device includes: the plurality of steel plates of interlaced arrangement and be fastened on described adjacent two steel plates it Between the rubber bodies of subregion, described plurality of steel plates is equidistantly evenly arranged, and described rubber bodies uses high-damping rubber Glue material is made.

Having the dispensing support track structure of vibration and noise reducing function the most as claimed in claim 1, its feature exists In, described vibration damping support device also includes in order to make with described rubber layer described plurality of steel plates at shear load Carrying out the securing member of lateral confinement under with, described securing member is arranged on the periphery of described vibration damping support device lateral body, It is connected with described rubber layer with described plurality of steel plates respectively.

Having the dispensing support track structure of vibration and noise reducing function the most as claimed in claim 2, its feature exists In, described securing member uses stainless steel material to make.

Having the dispensing support track structure of vibration and noise reducing function the most as claimed in claim 1, its feature exists In, described vibration damping support device also includes the sleeve in order to protect described vibration damping support device, described Sleeve is located at the periphery of described vibration damping support device, and described sleeve includes being connected to described vibration reduction support dress The upper cover plate being made up of stainless steel material on top set portion, bottom and lateral body, lower cover, outer panel and Interior plate.

Having the dispensing support track structure of vibration and noise reducing function the most as claimed in claim 4, its feature exists In, arrange between described interior plate and described outer panel to make described sleeve slideway moving up and down.

Having the dispensing support track structure of vibration and noise reducing function the most as claimed in claim 4, its feature exists In, described upper cover plate is welded as a whole with described outer panel, and described lower cover is linked as one with the weldering of described interior plate Body.

Having the dispensing support track structure of vibration and noise reducing function the most as claimed in claim 4, its feature exists In, described sleeve is connected with described steel plate chien shih.

Having the dispensing support track structure of vibration and noise reducing function the most as claimed in claim 1, its feature exists In, described top board and described base plate are integrated poured molding with described track girder body.

Having the dispensing support track structure of vibration and noise reducing function the most as claimed in claim 1, its feature exists In, described top board and described base plate are armoured concrete slab or steel-concrete compoboard.