GB2419623A

GB2419623A - Parapet upright

Info

Publication number: GB2419623A
Application number: GB0423783A
Authority: GB
Inventors: Darren Copeland
Original assignee: Varley and Gulliver Ltd
Current assignee: Varley and Gulliver Ltd
Priority date: 2004-10-27
Filing date: 2004-10-27
Publication date: 2006-05-03
Anticipated expiration: 2024-10-27
Also published as: GB0423783D0; GB2419623B; IE20050713A1

Abstract

The parapet upright, for use on bridges etc. to prevent vehicles crashing over an edge, comprises a base plate 16 and an upstanding column 22 for supporting one or more rails off a front face of the column, wherein the upright includes an L-shaped gusset 26 having a substantially horizontal arm 28 welded to the base plate and a substantially vertical arm 30 welded to the front face, and wherein the vertical arm of the gusset extends less that 100mm above the base plate. The gusset preferably has a width which is slightly less than a width of the front face of the column and, where the vertical and horizontal arms of the gusset meet a chamfered edge 32 is provided to allow for a weld fillet between the column and the base to pass underneath the gusset. The upright is preferably tapered from close to the base plate towards the top of the column, and may have an inclined back face and a substantially vertical front face. Also claimed is a parapet rail supporting cleat and a parapet rail support system.

Description

1 IS..

I S. * I I * * IS

PARAPET * I

The present invention relates to a parapet. In particular, the present invention relates to a parapet upright of a fabricated metal construction and to I...

a parapet rail support system.

Parapets are used, for example, on bridges as a safety barrier to prevent vehicles from crashing over the edge. A parapet will normally include at least one, and usually two or more, horizontal rails supported by uprights II..

spaced at intervals along an edge of the bridge. The parapet uprights are * : fixed to the bridge using a suitable anchorage arrangement. The rails are * :: :* ...I supported off the uprights using a support system, details of which will be: **.

described in more detail hereafter.

II'S..

I S... S. 5*

* .s,.

In Europe, parapets are designed to meet European standards, which require SI..

crash testing. In the standard tests, a length of parapet is constructed on a S'S.

ground base, and an unmanned vehicle is propelled towards and into the parapet. The spacing of the uprights is such that when a large vehicle strikes the parapet, two or more uprights absorb the force of the impact. In the tests, the parapet has to be strong enough to prevent the large vehicle from breaking through. However, when a small vehicle strikes the parapet, it only impacts directly on one upright. If the upright is too strong, the entire parapet will be too rigid, increasing the severity of the impact. This means that the uprights must be designed to break so as to allow flexing of the rails, but without the rails breaking. S... * S S. . S. * * S S * S.

It is a further requirement that the upright breaks, rather than tearing out the:...:.

anchorage, which would damage the fabric (e.g. concrete) of the bridge.

Therefore, the upright is designed to fracture at a position above the s anchorage. : S...

Even with systems that meet the European standards, there can be further problems arising from the design of the uprights and rail support systems.

Firstly, to provide the required strength of the parapet support, the upright has a substantial depth (i.e. front to back distance) at its base, but tapers along its height above the base. However, in many cases this is not sufficient. . : to provide the required strength of the upright. Increased strength is * :: :,* S. S Ss provided in a short parallel section extending upwards from the base below:: . S.....

the tapered section. As well as increasing the amount, and therefore the * 55..S.

weight, of metal used in the parapet upright, a further problem arises because the upright tends to fracture at or above the parallel section. This means that *. S...

after a vehicle has struck the parapet and broken an upright, there remains an ** S...

upstanding section of metal, which may have a jagged or sharp edge where.. :.

the upright has fractured. This upstanding section is a hazard because it may cause damage to the vehicle especially if it penetrates the vehicle body.

The second problem with known systems that meet the standard occurs when the upright is not sufficiently rigid. If the flexing of the parapet, when struck by a vehicle, is sufficient for one or two wheels of the vehicle to pass beyond the edge of the bridge, then the vehicle starts to roll. The rolling of the vehicle greatly increases the amount of damage that it receives from the parapet structure. This problem is not apparent from the standard tests, which are performed with the parapet at ground level.

3 - :: * S *SS*S*

S

Another problem arises with known rail support systems. In these systems, a:...:.

cleat arrangement is used to secure the rail to the upright. The cleat arrangement is relatively rigid, so that when a vehicle strikes the rails, a S...

significant shear force is applied through the rail. This can cause the rails to fracture at the cleat position, thereby reducing the effectiveness of the parapet, and increasing the chances of a damaged rail penetrating the vehicle body. * S **S.

It is an object of the present invention to provide a parapet that substantially * . : alleviates the aforementioned problems. .*. *5* * S

%S S SS . * * S. * . *SSS..

According to a first aspect of the present invention there is provided a * Se....

parapet upright of a fabricated metal construction, having a base plate and an. . * "S I'S

S S...

upstanding column for supporting one or more rails off a front face of the..:. *SS.

column, wherein the upright includes an L-shaped gusset having a *..* substantially horizontal arm welded to the base plate and a substantially vertical arm welded to the front face, and wherein the vertical arm of the gusset extends less than 100 mm above the base plate.

It is an advantage that the L-shaped gusset increases the strength of the upright, but that after the upright has fractured, the portion that remains attached to the rails is rigid enough to prevent the parapet from flexing too far (but not so rigid that the parapet does not flex far enough). The flexing of the parapet is related to time. The weaker the upright, the quicker it breaks and more deflection of the parapet occurs because there has not been enough time for the direction of travel of the vehicle to be re-directed, and S...

-4- ::": for energy to be transmitted through the parapet into the bridge. The. .1:1 stronger the upright, the slower it breaks, and less deflection occurs. The vehicle is redirected quicker due to a stiffer parapet and more energy is transmitted into the bridge. There is a balance to be found in obtaining the S...

correct strength to accommodate flexibility for a light vehicle and rigidity for re-directing a heavy vehicle.

Embodiments of the present invention have the advantage of providing the balance between flexibility on the one hand, and rigidity on the other. This

S

means that in an impact, the vehicle's wheels will not pass beyond the edge. * : of the bridge, reducing the likelihood of the vehicle rolling as it strikes the *. *%SSS

parapet. Furthermore, although the gusset significantly increases the strength::.

S.....

of the parapet upright, the upright will fracture at a position close to the base. * *S...

The fractured metal remaining fixed to the bridge does not stand up far above.. * .%s

the ground, and so presents less of a danger to a vehicle or its occupants, S...

than other known uprights. S...

S S...

It will be appreciated that the exact dimensions of the gusset, in particular the lengths of the vertical and horizontal arms, are a matter for design optimisation. All four of the gusset dimensions: height of the vertical arm, length of the horizontal arm, thickness of metal, and width have an effect on the strength of the upright. Nevertheless, in a preferred embodiment, the gusset has a vertical arm that extends less than 80 mm, but more than 40 mm above the base. Preferably, the gusset has a horizontal arm that is less than mm long. The thickness of the metal is preferably in the range 8mm to 12mm. In an exemplary embodiment, the thickness of the gusset metal is 10mm, the vertical arm is 60 mm long and the horizontal arm is 30 mm long.

- * *

S.....

Preferably, the gusset has a width that is slightly less than a width of the front face of the column. * * S...

Preferably, the vertical and horizontal arms of the gusset meet at a corner, . .:.

which is provided with a chamfered edge to allow for a weld fillet between the column and the base to pass underneath the gusset.

In a preferred embodiment, the upright is tapered from close to the base plate towards the top of the column. Preferably, the tapered column has an ** : inclined back face and a substantially vertical front face. 0*** * .

S * S. * .

S.....

Preferably, the taper starts a short distance above the base plate to allow for a * S.....

weld fillet between the column and the base plate. Typically, the short distance is about 30 mm. ..: * . *SS. S...

According to a second aspect of the present invention, there is provided a parapet rail support cleat formed of a length of metal of uniform cross section including a front face provided with a recess for receiving a clamp bar, and a back face, wherein the metal cross section comprises a single web of metal having a thickness between the back face and the recess, and wherein one or more holes is provided through the web for fasteners to secure the cleat to the rail and to an upright.

It is an advantage that the cleat may be manufactured from a length of extruded metal section, and, because the cleat cross section has only a single web, the fastener holes may be formed in a single punching operation S... * S'S. S. * * . * S. * .

IS....

According to a third aspect of the present invention, there is provided a parapet rail support system comprising a clamp bar and a cleat, wherein the cleat is formed of a length of metal of uniform cross section including a front:. III.

face provided with a recess for receiving the clamp bar, and a back face, the metal cross section comprising a single web of metal having a thickness between the back face and the recess, and fastener means for securing the cleat and clamp bar to the rail, wherein the cleat extends along the rail a first distance from the upright. S... * * S S

Preferably, the cleat is welded to the upright. Alternatively, the cleat may be *.

,. e. e secured to the upright with a fastening means. The fastening means may be: ..

S.....

one or more bolts. . . *S.ss. * S...

S. * S * In a preferred embodiment, the clamp bar extends along the rail a second *..* distance from the upright. The second distance may be greater than the first S...

distance. ..:.

It is an advantage that, because the cleats are formed of a metal cross section having a single thickness web, the cleat is able to bend when the rail is subjected to an impact. The bending of the cleat reduces the shear force on the rail and reduces the likelihood of a rail fracture. Similarly, because the ends of the cleat and the clamp bar are at different distances from the upright, the shear forces through the rail caused by an impact occur at two different positions, further reducing the likelihood of a rail fracture. I... *

I ***.

/ S. * * S * * S. In preferred embodiments, any or all of the upright, the rails, the cleat and * the clamp bar is aluminium.

* S. S Embodiments of the invention will now be described with reference to the ** S...

accompanying drawings, in which: Figure 1 is a vertical cross-section through a parapet; Figure 2 is a horizontal section through an upright of the parapet of Figure 1; S... * * S 5

Figure 3 is a detailed view of part of the parapet of Figure 1; ** *** S * S. * a S.....

Figure 4a depicts a known parapet upright design, showing a typical fracture * *SS... IS..

location, * . I. S...

S *.*. *5SS

Figure 4b depicts the parapet upright of Figure 1, showing a typical fracture * S...

location; ..:.

Figure 5 is a plan view of a parapet rail support system; Figure 6 is a view of the rail support system of Figure 5, from behind an upright; and Figure 7 is sectional view through the parapet rail in the direction of arrows B-B of Figure 6.

of Figure 4. * *

Q **.. S. * * . t * *.

Referring to Figures 1 and 2, three rails 11, 12, 13 of a parapet are supported:..:.

by an upright 14, off a front face 15. Each of the rails 11, 12, 13 extend:..,:.

from the front face 15 of the upright to a respective traffic face ha, 12a, 13a, which would be the first point of contact with a vehicle impacting the ** parapet.

The upright 14 has a base plate 16, which is anchored by an anchorage system 18 to a concrete beam 20 that forms an edge of a bridge, or raised roadway. The anchorage system 18 includes four anchor bolts 19a-19d. The * *.

upright 14 has a column 22 extending upwards from the base plate 16. The * * : base plate 16 and the colun-in 22 are welded to each other along a weld line *.

*,*qS S 24. As shown in Figure 2, the column 22 is a hollow box section. The: ..

column 22 is tapered along its height from a point 23 just above the weld line *.

24. The point 23 is typically about 20mm, and preferably no more than 30mm above the base plate 16. S... * I a... S...

The upright 14 also includes an L-shaped gusset 26, which is welded to both the base plate 16 and the column 22 at a lower end of the front face 15.

Referring to Figure 3, the gusset 26 has a horizontal arm 28 and a vertical arm 30. The gusset 26 also has a chamferred corner 32 so that it can be positioned between the base plate 16 and the column 22 without interference from the weld line 24. As shown in Figure 2, the gusset 26 is slightly narrower than the width of the front face 15 of the column 22.

The dimensions of the gusset 26 are selected to provide a required strength of the upright 14. In known designs various attempts have been made to provide an upright having the required strength to resist an impact, but * * which, once fractured, allows the right amount of flexibility in the parapet. :. . In many cases, the strengthening of the upright results in too much rigidity in:..:.

the parapet so that the parapet will not meet the crash test standards for flexibility. In other cases, after fracture of the upright, the parapet flexes so far that the wheels of the vehicle will pass over the edge of the bridge, causing the aforementioned problems of rolling. It has been found that, by selecting the correct dimensions of the gusset 26, the upright will be strong enough to meet the crash test standards; after fracture, the parapet will flex far enough to meet the standards, but not so far that the vehicle will cross the edge of the bridge. S..-

S S... * 4

Another problem with known upright designs is shown with reference to:: 4*Ss*5 Figure 4a. A known upright 40, is strengthened near its base by providing a.

short parallel section 42 below a tapered section 44. Although this may provide the required strength and flexibility for the parapet to meet the 4.5 standards, the upright fractures above the parallel section 42, as shown by the " **5* broken line 46. The result is that, after fracture, a substantial portion of the upright 40 below the broken line 46 remains anchored to the bridge.

Moreover, the upright will not usually fracture with a clean break, but will leave a sharp, jagged edge that could cause further damage to the vehicle, or even penetrate the vehicle body.

In contrast, the upright 14 of the present invention is shown in Figure 4b.

The provision of the gusset 26 not only provides the required strengthening and flexibility of the upright 14, but ensures that, when the upright fractures, it does so much closer to the base plate 16. In fact, it has been found that the upright tends to fracture at just above or along the weld line 24, as shown by I..- * - 10- 5. * S S * I.

the broken line 48. This means that, after fracture, the highest point of the *SS*, upright that remains anchored to the bridge is the top of the vertical arm 30 is: of the gusset 26. * 5a * S S..' 45.S

As stated above, the dimensions of the gusset 26 depend on the particular strength requirements for the upright. However, it has been found that a gusset having a metal section thickness of 10mm, a 30mm long horizontal arm and a 60mm long vertical arm, is suitable to meet the standards for many vehicle bridge parapet designs. It is clearly desirable for the vertical arm to S...

be as low as possible so that the upright will fracture at a low position. For. * : this reason it is not envisaged that the gusset height would exceed 100mm. *" ISS.... SI. * * S.

Referring to Figure 5, 6 and 7, an arrangement for supporting and securing a S.....

rail 50 to an upright 52 includes a clamp bar 54, a cleat 56 and four bolts *s*Is.

58a-d, secured with associated nuts 60a-d. As can be seen in Figure 7, the *4se rail 50 is formed of an extruded metal section, which includes opposing .5 channel portions 60a, 60b. The channel portions 60a, 60b are proportioned.. : to slide over upper and lower flange portions 62a, 62b on the clamp bar 54.

The clamp bar 54 has a central portion 64 between the upper and lower flange portions. Four holes 66a-d at spaced apart locations through the clamp bar 54 receive the bolts 58a-d.

Also shown in Figure 7, the cleat 56 has a cross-section with a flat rear face 68 and upper and lower front faces 70a, 70b. A recess 72 between the upper and lower front faces 70a, 70b receives the central portion 64 of the clamp bar. The cross-section of the cleat is such that there is a single web 74 of metal between the back face 68 and the recess 72. Four slot-holes 76a-d are - 11 - provided through the web 74, spaced for alignment with the holes 66a-d in the clamp bar. The four slot-holes 76a-d receive the bolts 58a-d for securing the clamp bar 54 to the cleat 56, but allowing for slight variations in vertical alignment where the parapet is on a slope. The cleat 56 is shown welded to the upright 52 along a weld-line 78 on the rear face 68. However, in some cases the cleat 56 may be secured to the upright 52 using bolts or other

suitable fasteners. SI..

As can be seen in Figures 5 and 6, the cleat 56 extends a first distance on either side of the upright 52. The clamp bar 54 extends a further, second I: distance beyond the ends of the cleat 56. :...:. S5*S

There are two reasons for this configuration of the cleat 56. Firstly, the *5*5 provision of a single web 74 means that the manufacturing operation is.. :.

greatly simplified when compared with other known cleats. In particular the holes 76a-d can be formed in a single punching operation. Other known cleats have a more complex cross-section which involves punching or drilling holes through more than one thickness of metal. Secondly, the single web section 74 is not as stiff as other known cleat sections. This, together with the different lengths of the cleat 54 and clamp bar 56, greatly reduces the likelihood of a rail 50 fracturing during an impact. The different lengths mean that there are two different locations at which shear forces resulting from the impact are transmitted through the rail 50. The lower stiffness means that the cleat 56 may bend under the impact loading, thereby absorbing more of the impact force and reducing the shear force through the rail 50.

Claims

- 12 - Claims 1. A parapet upright of a fabricated metal construction,

having a base plate and an upstanding column for supporting one or more rails off a front face of the column, wherein the upright includes an L-shaped gusset having a substantially horizontal arm welded to the base plate and a substantially vertical arm welded to the front face, and wherein the vertical arm of the gusset extends less than 100 mm above the base plate.

*
2. A parapet upright according to claim 1, wherein the gusset has a IS..

vertical arm that extends less than 80 mm, but more than 40 mm above the base. * . *.S*

I.....
3. A parapet upright according to claim 2, wherein the gusset has a horizontal arm that is less than 50 mm long.
4. A parapet upright according to any preceding claim, wherein the thickness of the metal is in the range 8mm to 12mm.
5. A parapet upright according to any preceding claim, wherein the gusset has a width that is slightly less than a width of the front face of the column.
6. A parapet upright according to any preceding claim, wherein the vertical and horizontal arms of the gusset meet at a corner, which is provided with a chamfered edge to allow for a weld fillet between the column and the base to pass underneath the gusset.

- 13 -
7. A parapet upright according to any preceding claim, wherein the upright is tapered from close to the base plate towards the top of the column.
8. A parapet upright according to claim 7, wherein the tapered column has an inclined back face and a substantially vertical front face.
9. A parapet upright according to claim 7 or claim 8, wherein the taper starts a short distance above the base plate to allow for a weld fillet between .: :* the column and the base plate. *S.. I *

ISIS
10. A parapet upright according to claim 9, wherein the short distance is S...

about 30 mm.

S..... * I * S

::.
11. A parapet rail support cleat formed of a length of metal of uniform * cross section including a front face provided with a recess for receiving a clamp bar, and a back face, wherein the metal cross section comprises a single web of metal having a thickness between the back face and the recess, and wherein one or more holes is provided through the web for fasteners to secure the cleat to the rail and to an upright.
12. A parapet rail support cleat according to claim 11, wherein the cleat is manufactured from a length of extruded metal section.
13. A parapet rail support cleat according to claim 11 or claim 12 comprising fastener holes in the cleat, formed in a single punching operation.

-
14 - 14. A parapet rail support system comprising a clamp bar and a cleat, wherein the cleat is formed of a length of metal of uniform cross section including a front face provided with a recess for receiving the clamp bar, and a back face, the metal cross section comprising a single web of metal having a thickness between the back face and the recess, and fastener means for securing the cleat and clamp bar to the rail, wherein the cleat extends along the rail a first distance from the upright.
15. A parapet rail support system according to clam 14, wherein the cleat is welded to the upright. *..S S *

* S. S
16. A parapet rail support system according to claim 14, wherein the cleat S...

is secured to the upright with a fastening means. * S
17. A parapet rail support system according to claim 16, wherein the * fastening means comprises one or more bolts.
18. A parapet rail support system according to any one of claims 14 to 17, wherein the clamp bar extends along the rail a second distance from the upright.
19. A parapet rail support system according to claim 18, wherein the second distance is greater than the first distance.
20. A parapet comprising a plurality of uprights according to any one of claims 1 to 10, and one or more rails supported from the uprights by way of a support system according to any one of claims 14 to 29.

- 15 -
21. A parapet upright according to any of claims 1 to 10, or a parapet rail support cleat according to any of claims 11 to 13, or a parapet rail support system according to any of claims 14 to 18, or a parapet according to claim 20, wherein any or all of the upright, the rails, the cleat and the clamp bar is formed of aluminium.
22. A parapet upright, or a parapet rail support cleat, or a parapet rail support system, or a parapet substantially as hereinbefore described with * reference to the accompanying drawings. S...

S *S.. *.. * S *S.. *

*S.... * S * S * S 5 5*S S *S S

S S *S