CN111560885A - Integrated six-stage three-beam metal beam column type guardrail for central separation zone of highway - Google Patents
Integrated six-stage three-beam metal beam column type guardrail for central separation zone of highway Download PDFInfo
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- CN111560885A CN111560885A CN202010553679.2A CN202010553679A CN111560885A CN 111560885 A CN111560885 A CN 111560885A CN 202010553679 A CN202010553679 A CN 202010553679A CN 111560885 A CN111560885 A CN 111560885A
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- 230000003014 reinforcing effect Effects 0.000 claims abstract description 28
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- E—FIXED CONSTRUCTIONS
- E01—CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
- E01F—ADDITIONAL WORK, SUCH AS EQUIPPING ROADS OR THE CONSTRUCTION OF PLATFORMS, HELICOPTER LANDING STAGES, SIGNS, SNOW FENCES, OR THE LIKE
- E01F15/00—Safety arrangements for slowing, redirecting or stopping errant vehicles, e.g. guard posts or bollards; Arrangements for reducing damage to roadside structures due to vehicular impact
- E01F15/02—Continuous barriers extending along roads or between traffic lanes
- E01F15/04—Continuous barriers extending along roads or between traffic lanes essentially made of longitudinal beams or rigid strips supported above ground at spaced points
- E01F15/0407—Metal rails
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- E—FIXED CONSTRUCTIONS
- E01—CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
- E01F—ADDITIONAL WORK, SUCH AS EQUIPPING ROADS OR THE CONSTRUCTION OF PLATFORMS, HELICOPTER LANDING STAGES, SIGNS, SNOW FENCES, OR THE LIKE
- E01F15/00—Safety arrangements for slowing, redirecting or stopping errant vehicles, e.g. guard posts or bollards; Arrangements for reducing damage to roadside structures due to vehicular impact
- E01F15/02—Continuous barriers extending along roads or between traffic lanes
- E01F15/04—Continuous barriers extending along roads or between traffic lanes essentially made of longitudinal beams or rigid strips supported above ground at spaced points
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- E—FIXED CONSTRUCTIONS
- E01—CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
- E01F—ADDITIONAL WORK, SUCH AS EQUIPPING ROADS OR THE CONSTRUCTION OF PLATFORMS, HELICOPTER LANDING STAGES, SIGNS, SNOW FENCES, OR THE LIKE
- E01F15/00—Safety arrangements for slowing, redirecting or stopping errant vehicles, e.g. guard posts or bollards; Arrangements for reducing damage to roadside structures due to vehicular impact
- E01F15/02—Continuous barriers extending along roads or between traffic lanes
- E01F15/04—Continuous barriers extending along roads or between traffic lanes essentially made of longitudinal beams or rigid strips supported above ground at spaced points
- E01F15/0407—Metal rails
- E01F15/0423—Details of rails
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- E—FIXED CONSTRUCTIONS
- E01—CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
- E01F—ADDITIONAL WORK, SUCH AS EQUIPPING ROADS OR THE CONSTRUCTION OF PLATFORMS, HELICOPTER LANDING STAGES, SIGNS, SNOW FENCES, OR THE LIKE
- E01F15/00—Safety arrangements for slowing, redirecting or stopping errant vehicles, e.g. guard posts or bollards; Arrangements for reducing damage to roadside structures due to vehicular impact
- E01F15/02—Continuous barriers extending along roads or between traffic lanes
- E01F15/04—Continuous barriers extending along roads or between traffic lanes essentially made of longitudinal beams or rigid strips supported above ground at spaced points
- E01F15/0407—Metal rails
- E01F15/0438—Spacers between rails and posts, e.g. energy-absorbing means
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- E—FIXED CONSTRUCTIONS
- E01—CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
- E01F—ADDITIONAL WORK, SUCH AS EQUIPPING ROADS OR THE CONSTRUCTION OF PLATFORMS, HELICOPTER LANDING STAGES, SIGNS, SNOW FENCES, OR THE LIKE
- E01F15/00—Safety arrangements for slowing, redirecting or stopping errant vehicles, e.g. guard posts or bollards; Arrangements for reducing damage to roadside structures due to vehicular impact
- E01F15/02—Continuous barriers extending along roads or between traffic lanes
- E01F15/04—Continuous barriers extending along roads or between traffic lanes essentially made of longitudinal beams or rigid strips supported above ground at spaced points
- E01F15/0461—Supports, e.g. posts
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Abstract
The invention discloses an integral six-level three-beam metal beam column type guardrail for a central division strip of a highway, which comprises a concrete surface layer, upright posts, beams, beam longitudinal supporting components and beam transverse connection reinforcing components, wherein the concrete surface layer is arranged on the central division strip of the highway, the lower ends of the upright posts are arranged in the concrete surface layer and extend to the ground layer, three beams are sequentially arranged on two sides of the upright posts facing two driving directions of the highway from top to bottom, each beam is connected with the upright posts through the beam longitudinal supporting components in the longitudinal direction, and each beam is connected and extended in the transverse direction through the beam transverse connection reinforcing components. The invention meets the requirements on the strength, deformation control, snow resistance and material consumption control of the guardrail, can block accident vehicles, has better guiding function to lead the vehicles out smoothly, ensures the safety of passengers in the vehicles, does not cause serious damage or life danger due to overlarge deceleration and acceleration, and has the guardrail protection grade reaching six grades.
Description
Technical Field
The invention belongs to the technical field of highway central banks, and particularly relates to an integral six-level three-beam metal beam column type guardrail for a highway central bank.
Background
The central separation zone guardrail is a guardrail arranged in the central separation zone of the highway, is used for physically separating opposite traffic flows of a high-grade highway and preventing an out-of-control vehicle from crossing the central separation zone and driving into the opposite lane to cause secondary damage, and the safety performance of the guardrail plays an important role in improving the driving safety of the highway, reducing the severity of accidents, lightening the damage degree of passengers, reducing the property loss of vehicles and improving the traffic safety level of the highway. The arrangement of the central dividing strip guardrail of the project relates to two aspects, namely, the selection of the protection grade of the central dividing strip guardrail, and the influence factors comprise road traffic characteristics (running speed, traffic volume and truck proportion) and linear indexes; secondly, the form of the guardrail of the central dividing zone is selected, and the influence factors comprise the snow-blocking prevention function requirement of a high-altitude area, the control requirement of the maximum transverse dynamic deformation value of the guardrail under the condition of the narrow central dividing zone and the economic requirement (construction cost and maintenance cost).
In the aspect of guardrail protection grade, according to the related requirements of road traffic safety facility design Specification (JTG D81-2017) (hereinafter referred to as 'current design Specification'), the basic protection grade of the central division strip of the highway subgrade section is not lower than three grades (Am grades), and as the construction project predicts that the ratio of the heavy vehicles with the total vehicle mass of more than or equal to 25t in traffic volume exceeds 20%, the selection of the guardrail protection grade is improved by one grade on the basis of the basic protection grade, namely the lowest protection grade is not lower than four grades (SBm).
The guardrail form that at present china commonly used in the aspect of guardrail form mainly has three kinds of forms of rigid guardrail, semi-rigid guardrail and flexible guardrail, and wherein rigid guardrail mainly uses the concrete guardrail as the representative, and semi-rigid guardrail mainly includes wave form guardrail and beam column type metal guardrail, and flexible guardrail mainly uses the cable guardrail as the representative. In terms of standard specifications, most of the recommended forms of central dividing belt guardrails in the existing road traffic safety facility design rules (JTG/T D81-2017) (hereinafter referred to as the existing design rules) in China are designed according to the condition that the width of the central dividing belt in China is generally 2-3 m. Of these preferred forms of guardrail, the three-level (Am level) composite type corrugated beam guardrail is generally suitable for highway central banks having a width of not less than 1.5m, and the four-level (SBm) -seven-level (HBm level) corrugated beam guardrail is generally suitable for central banks having a width in the range of 2 m-3 m for semi-rigid guardrails. For rigid guardrails, the integral concrete guardrail of each protection grade is generally suitable for the condition that the width of the central separation belt of the expressway is not less than 1.5m, and the separated concrete guardrail is generally suitable for the condition that the width of the central separation belt ranges from 2m to 3 m. From the aspect of application, at present, the central separation belt of the domestic expressway mostly adopts a corrugated beam guardrail, and a part of high-risk road sections or road sections with smaller width of the central separation belt adopt concrete guardrails.
The concrete guardrail has the advantages of good applicability to different widths of the central separation belts, strong protection capability, little deformation after collision, little damage and the like. However, concrete guardrails are mostly solid walls, the guardrail structure is not transparent, and drivers and passengers are prone to generating a sense of depression in the driving process; meanwhile, the concrete guardrail can easily block snow, is not beneficial to blowing off and discharging the snow on the expressway, and in the Qinghai-Tibet plateau area, the problems of icing on the pavement, poor salt corrosion resistance of the concrete guardrail, large maintenance difficulty after daily maintenance and collision and the like caused by snow blocking are faced.
The corrugated beam steel guardrail is superior to a concrete guardrail in the aspects of buffer performance, snow resistance, corrosion resistance and the like, but has smaller rigidity, and the maximum transverse dynamic deformation value of the guardrail is relatively larger when a vehicle collides, so the requirement on the width of a central separation belt of the guardrail is higher, except for a three-level (Am level) combined type corrugated beam guardrail, the corrugated beam guardrails of other levels recommended in the existing design rules are not suitable for a road section with the width of the central separation belt of a highway being 2m, but for the project, according to the existing design specifications, under the conditions that the design speed is 120km/h and the width of the central separation belt is 2m, the protection level of the integral guardrail needs to reach six levels (SS levels), and therefore, the recommended form in the existing design rules cannot be suitable for the project.
Disclosure of Invention
In view of the above, the main object of the present invention is to provide an integral six-level three-beam metal beam column guardrail for a central dividing strip of an expressway.
In order to achieve the purpose, the technical scheme of the invention is realized as follows:
the embodiment of the invention provides an integral six-level three-beam metal beam column type guardrail for a central division strip of a highway, which comprises a concrete surface layer, upright posts, beams, beam longitudinal supporting components and beam transverse connection reinforcing components, wherein the concrete surface layer is arranged on the central division strip of the highway, the lower ends of the upright posts are arranged in the concrete surface layer and extend to the ground layer, three beams are sequentially arranged on two sides of the upright posts facing two driving directions of the highway from top to bottom, each beam is connected with the upright posts through the beam longitudinal supporting components in the longitudinal direction, and each beam is connected and extended in the transverse direction through the beam transverse connection reinforcing components.
In the above scheme, the longitudinal beam supporting assembly comprises an L-shaped supporting piece, a first connecting bolt and a second connecting bolt, the L-shaped supporting piece is arranged on the upper side and the lower side of the beam, and the vertical surface of the L-shaped supporting piece is fixedly connected with the upright post through the first connecting bolt.
In the above scheme, the transverse beam connection reinforcing component comprises an inner sleeve and splicing bolts, wherein the inner sleeve is transversely arranged in the two sections of transverse beams and is fixedly connected with the two sections of transverse beams through the splicing bolts.
In the scheme, the concrete structure further comprises a stand column reinforcing beam, the stand column reinforcing beam is embedded in the lower portion of the inside of the stand column and connected with the stand column through bolts, and one portion of the stand column reinforcing beam is located in the concrete surface layer.
In the scheme, the cross beams positioned on two sides of the top of the upright post are fixedly connected with the upright post through the top plate and the bolts.
In the scheme, the two sides of the root part of the upright post facing to the two driving directions of the expressway are provided with the root reinforcing ribs, and part of the root reinforcing ribs extend into the concrete surface layer.
In the above scheme, the distance between the beam positioned at the top of the upright post and the beam positioned below the upright post is greater than the distance between the other two beams, and the distance between the other two beams, the distance between the beam positioned at the bottom and the top surface of the concrete surface layer are equidistant.
In the above scheme, still include the stand supporting component, the stand supporting component sets up the downside that is located the crossbeam of the top for after the stand is strikeed by the vehicle and the slope carries out the support.
In the above scheme, stand supporting component is including freely flexible bracing piece, magnetic force stopper, elastic component, freely flexible bracing piece one end articulates the downside at the crossbeam of the top to be located the stand towards one side of highway, the magnetic force stopper sets up on the stand and passes through magnetic force with the freely flexible bracing piece towards one side of freely flexible bracing piece and adsorb, the elastic component is located magnetic force stopper below to one end is connected with the stand, and the other end is connected with the freely flexible bracing piece downside.
In the scheme, the cross beam is a square beam, the top of the square beam is inclined towards the corresponding expressway, and the upper side in the cross beam is horizontally provided with the reinforcing plate.
Compared with the prior art, the invention simultaneously meets the requirements on the strength, the deformation control, the snow resistance and the material consumption control of the guardrail, can block accident vehicles, has better guiding function to lead the vehicles out smoothly, ensures the safety of passengers in the vehicles, can not cause serious damage or endanger life due to overlarge deceleration and acceleration, has the guardrail protection grade reaching six grades (SS grade), and simultaneously has good snow resistance effect.
Drawings
Fig. 1 is a schematic structural view of an integral six-level three-beam metal beam column guardrail for a central division strip of an expressway according to an embodiment of the invention;
FIG. 2 is a top view of FIG. 1;
FIG. 3 is a side view of FIG. 1;
FIG. 4 is a cross-sectional view of a middle cross beam of an integrated six-level three-cross beam metal beam column type guardrail for a central division strip of a highway according to an embodiment of the invention;
FIG. 5 is a diagram showing simulation analysis results of a small and medium-sized automobile before colliding with the present invention in a simulation experiment;
FIG. 6 is a schematic diagram of simulation analysis results of a small and medium-sized automobile after collision with the present invention in a simulation experiment;
FIG. 7 is a schematic diagram of simulation analysis results before a bus collides with the present invention in a simulation experiment;
FIG. 8 is a schematic diagram of a simulation analysis result after a bus collides with the present invention in a simulation experiment;
FIG. 9 is a schematic diagram of simulation analysis results of a large truck before collision with the present invention in a simulation experiment;
fig. 10 is a schematic diagram of a simulation analysis result after a large truck collides with the present invention in a simulation experiment.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
The embodiment of the invention provides an integral six-level three-beam metal beam column guardrail for a central division strip of an expressway, which comprises a concrete surface layer 1, upright posts 2, beams 3, beam longitudinal supporting components 4 and beam transverse connecting and reinforcing components 5, wherein the concrete surface layer 1 is arranged on the central division strip of the expressway, the lower ends of the upright posts 2 are arranged in the concrete surface layer 1 and extend to the ground layer, three beams 3 are sequentially arranged on two sides of each upright post 2 facing two driving directions of the expressway from top to bottom, each beam 3 is connected with each upright post 2 in the longitudinal direction through the beam longitudinal supporting components 4, each beam 3 is connected and extended in the transverse direction through the beam transverse connecting and reinforcing components 5, the guardrail disclosed by the invention simultaneously meets the requirements on guardrail strength, deformation control, snow resistance and material consumption control, can block accident vehicles and has a better guiding function, the vehicle is led out smoothly, the safety of passengers in the vehicle is ensured, the serious damage or life danger caused by overlarge deceleration and acceleration is avoided, the guardrail protection grade reaches six grade (SS grade), and the snow-blocking prevention effect is good.
The beam longitudinal support assembly 4 comprises an L-shaped support member 41, a first connecting bolt 42 and a second connecting bolt 43, the L-shaped support member 41 is arranged on the upper side and the lower side of the beam 3, and the vertical surface of the L-shaped support member 41 is fixedly connected with the upright post 2 through the first connecting bolt 42 and the second connecting bolt 43 which are arranged side by side.
Each cross beam 3 is reinforced through the L-shaped supporting piece 41, and the longitudinal strength of the guardrail is improved.
The transverse beam transverse connection reinforcing assembly 5 comprises an inner sleeve 51 and splicing bolts 52, wherein the inner sleeve 51 is transversely arranged in the two sections of transverse beams 3 and is fixedly connected with the two sections of transverse beams 3 through the splicing bolts 52.
Each cross beam 3 is composed of a plurality of cross beams 3 which are connected in the transverse direction, and the transverse strength of the guardrail is enhanced through the inner sleeve 51 and the splicing bolt 52.
Further, the concrete structure also comprises a column reinforcing beam 6, wherein the column reinforcing beam 6 is embedded in the lower part of the column 2 and is connected with the column 2 through bolts, and a part of the column reinforcing beam 6 is positioned in the concrete surface layer 1.
The connecting strength of the upright post 2 and the concrete surface layer 1 is enhanced through the upright post reinforcing beam 6, and when an accident vehicle collides with the guardrail, the upright post 2 does not incline to one side or the inclination angle is reduced as much as possible.
The cross beams 3 positioned on two sides of the top of the upright post 2 are fixedly connected with the upright post 2 through a top plate 7 and bolts.
Root reinforcing ribs 8 are arranged on two sides of the root of the upright post 2 facing two driving directions of the highway, and part of the root reinforcing ribs 8 extend into the concrete surface layer 1.
The connection strength of the upright post 2 and the concrete surface layer 1 is further enhanced through the root reinforcing ribs 8.
The distance between the beam 3 positioned at the uppermost part of the upright post 2 and the beam 3 positioned below the upright post is larger than the distance between the other two beams 3, and the distance between the other two beams 3 and the distance between the beam 3 positioned at the lowermost part and the top surface of the concrete surface layer 1 are equal.
For example, three beams 3 are sequentially arranged from top to bottom along the longitudinal direction of the upright 2, the distance between the first beam 3 and the second beam 3 is 460mm, the distance between the second beam 3 and the third beam 3 is 350mm, and the distance between the third beam 3 and the concrete surface layer 1 is 350mm, so that the protection capability of the beams 3 in protection of different vehicle types is realized through the arrangement of the intervals.
The interval between the first cross beam 3 and the second cross beam 3 is large, and the protection of a large-scale passenger car and a large-scale truck is mainly realized, so that the vehicle can be prevented from being turned over along the top surface of the guardrail due to high gravity center while the protection capability is ensured.
The second beam 3 and the third beam 3 mainly prevent the guard bar from being penetrated under the small-sized vehicle, and can provide better buffer effect and prevent the acceleration of passengers from exceeding the standard when the passenger car collides with the guard bar.
Further, a pillar support assembly 9 is further included, the pillar support assembly 9 being provided on the lower side of the uppermost cross member 3 for support after the pillar 2 is hit by the vehicle and tilted.
Stand supporting component 9 includes freely flexible bracing piece 91, magnetic force stopper 92, elastic component 93, freely flexible bracing piece 91 one end articulates the downside at the crossbeam 3 of the top to be located stand 2 towards one side of highway, magnetic force stopper 92 sets up on stand 2 and adsorbs through magnetic force towards freely flexible bracing piece 91 one side and freely flexible bracing piece 91, elastic component 93 is located magnetic force stopper 92 below to one end is connected with stand 2, and the other end is connected with freely flexible bracing piece 91 downside.
It is assumed that when a vehicle strikes the guard rail from the right, the basic shielding effect is provided by the uprights 2 and cross-members 3. Because vehicle speed is too high, stand 2 can incline to one side left to a certain extent, at this moment, under the effect of impact in the twinkling of an eye, be located 2 left crossbeam 3 under freely flexible bracing piece 91 and the separation of magnetic force stopper 92 to open in the twinkling of an eye, reduce simultaneously under the contractile force of elastic component 93 with stand 2 between the angle, make its just perpendicular to road surface, play the supporting role to stand 2, prevent that it from continuing to incline to the left side road surface and surpass the safe C value in the standard.
And the freely telescopic supporting rod 91 below the cross beam 3 on the right side of the upright 2 cannot rotate to the left side under the limitation of the magnetic limiting block 92, so that the function of protecting the vehicle by the auxiliary cross beam 3 is achieved.
The cross beam 3 is a square beam.
Or, the cross beam 3 is a square beam, the top of the cross beam is inclined towards the corresponding expressway, and a reinforcing plate 31 is horizontally arranged on the upper side in the cross beam 3.
The two sides of the top plate 7 are obliquely matched with the top of the cross beam 3, and meanwhile, bolts are obliquely arranged to enable the top plate 7, the cross beam 3 and the L-shaped supporting piece 41 to be fixed.
At the highway in plateau area, can prevent through the slope at top that snow on the guardrail increases guardrail weight, and then influences the intensity of guardrail when the vehicle bumps.
The guardrail structure is modeled and simulated by adopting a finite element simulation method, and the stress performance is ensured under the SS-level collision condition.
As shown in figures 5 and 6, after the small passenger car collides with the guardrail protection device, the vehicle does not pass through, turn over, ride and downwards pass through the guardrail and is smoothly guided out, the vehicle does not turn over, and the guardrail is basically not deformed. The wheel track of the vehicle does not exceed the limited range, and the boundary requirement is met. During vehicle collision, the guardrail component does not fall off and invade the passenger compartment of the vehicle, and the maximum values of the longitudinal and transverse components of the gravity center acceleration of the small passenger car are notOver 200m/s2。
As shown in fig. 7 and 8, after the large bus collides with the present invention, the vehicle does not cross, turn over or straddle the guard rail, the vehicle is normally guided out, and the driving posture is normal. The wheel track of the vehicle does not exceed the limited range, and the boundary requirement is met. The guardrail member does not intrude into the vehicle passenger compartment during a vehicle collision. After the vehicle is collided, the guardrail generates transverse deformation under the action of collision force. The maximum lateral dynamic deformation value of the edge of the cross member on the opposite side after the vehicle collision is 260 mm.
As shown in fig. 9 and 10, after the large truck collides with the present invention, the vehicle does not cross, turn over or straddle the guard rail, the vehicle is normally guided out, and the driving posture is normal. The wheel track of the vehicle does not exceed the limited range, and the boundary requirement is met. The guardrail member does not intrude into the vehicle passenger compartment during a vehicle collision. After the vehicle collides, under the action of collision force, the guardrail generates transverse deformation, and the maximum transverse dynamic deformation value of the edge of the beam on the opposite side after the vehicle collides is 290 mm.
Comprehensively, the results of the three computer simulation crash tests show that the vehicle crash test system can effectively protect vehicles under SS-level crash test conditions, and all evaluation indexes meet the requirements of the safety performance evaluation standard of road guardrails (JTG B05-01-2013). The test result shows that when a vehicle collides with the guardrail, the guardrail deforms under the action of the collision force, and the maximum transverse dynamic deformation value of the opposite cross beam does not basically enter the C value range of the opposite lane.
The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention.
Claims (10)
1. The utility model provides an integral three crossbeam metal beam column type guardrails of six grades of expressway central separation area, a serial communication port, including concrete surface course, stand, crossbeam, the vertical supporting component of crossbeam, crossbeam transverse connection reinforcement assembly, the concrete surface course sets up on expressway central separation area, the lower extreme setting of stand is in the concrete surface course and extend to the stratum, the stand sets gradually three crossbeams towards the both sides from the top down of two driving directions of expressway, and every crossbeam is connected with the stand through the vertical supporting component of crossbeam on vertical, and every crossbeam passes through crossbeam transverse connection reinforcement assembly on horizontal and connects the extension.
2. The integral six-stage three-beam metal beam column guardrail of a central division strip of a highway according to claim 1, wherein the longitudinal beam supporting assembly comprises L-shaped supporting pieces, first connecting bolts and second connecting bolts, the L-shaped supporting pieces are arranged at the upper side and the lower side of the beam, and the vertical surface of each L-shaped supporting piece is fixedly connected with the upright post through the first connecting bolts.
3. The integral six-stage three-beam metal beam column guardrail for the central separation zone of the highway according to claim 1 or 2, wherein the transverse beam transverse connection reinforcing assembly comprises an inner sleeve and splicing bolts, wherein the inner sleeve is transversely arranged in the two sections of transverse beams and is fixedly connected with the two sections of transverse beams through a plurality of splicing bolts.
4. The integral six-grade three-beam metal beam column guardrail of a central division strip of a highway according to claim 3, further comprising a column reinforcing beam embedded in the lower part of the column and connected with the column through a bolt, wherein a part of the column reinforcing beam is positioned in the concrete surface layer.
5. The integral six-level three-beam metal beam column guardrail of a central division strip of a highway according to claim 4, wherein the beams positioned at two sides of the top of the upright post are fixedly connected with the upright post through a top plate and bolts.
6. The highway central divider integral six-grade three-beam metal beam column guardrail according to claim 5, wherein root reinforcing ribs are arranged at two sides of the root of the upright post facing to two driving directions of a highway, and a part of the root reinforcing ribs extend into the concrete surface layer.
7. The integral six-level three-beam metal column guardrail of a central division strip of a highway of claim 6, wherein the distance between the beam positioned at the top of the upright and the beam positioned below the upright is larger than the distance between the other two beams, and the distance between the other two beams and the distance between the lowest beam and the top surface of the concrete surface layer are equal.
8. The highway center divider monolithic six-level three-beam metal beam column guardrail of claim 7 further comprising a post support assembly disposed on the underside of the uppermost beam for support after the post is struck by a vehicle and tilted.
9. The integral six-level three-beam metal beam column guardrail of a central division strip of a highway according to claim 8, wherein the upright post supporting component comprises a freely telescopic supporting rod, a magnetic force limiting block and an elastic part, one end of the freely telescopic supporting rod is hinged at the lower side of the uppermost beam and is positioned at one side of the upright post facing the highway, the magnetic force limiting block is arranged on the upright post and is adsorbed by the freely telescopic supporting rod towards one side of the freely telescopic supporting rod, the elastic part is positioned below the magnetic force limiting block, one end of the elastic part is connected with the upright post, and the other end of the elastic part is connected with the lower side of the freely telescopic supporting rod.
10. The highway central divider integral six-grade three-beam metal beam column guardrail according to claim 9, wherein the beams are square beams, the top parts of the beams are inclined towards the corresponding highway, and reinforcing plates are horizontally arranged on the inner upper sides of the beams.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN111560886A (en) * | 2020-06-17 | 2020-08-21 | 中交第一公路勘察设计研究院有限公司 | Beam column type guardrail transition section of central division strip of highway |
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