A vehicle crash barrier constructed primarily of structural tube members having an energy-absorbing connection between horizontal rail members and vertical post members. Horizontal rail members are provided with one or more deformable flanges adjacent to each end to be connected to a vertical post m
A vehicle crash barrier constructed primarily of structural tube members having an energy-absorbing connection between horizontal rail members and vertical post members. Horizontal rail members are provided with one or more deformable flanges adjacent to each end to be connected to a vertical post member. Vertical post members include a channel adjacent a top end for receiving the rail end and flange. The rails are connected to the vertical members by downwardly sliding the flanged end into the vertical channel until the rail rests upon a bottom stop. A reinforcing cap is positioned on the top end of the vertical member to prevent upward movement of the rail and to strengthen the vertical post structure. Shims may be installed between the flange and the channel walls to limit horizontal rail movement.
대표청구항▼
1. An energy dissipating joint for connecting a rail to a post in a vehicle barrier fence comprising: a generally upstanding post having a top end and at least one side wall defining an interior cavity;an elongate rail having generally opposing ends, at least one of the ends being supported by the p
1. An energy dissipating joint for connecting a rail to a post in a vehicle barrier fence comprising: a generally upstanding post having a top end and at least one side wall defining an interior cavity;an elongate rail having generally opposing ends, at least one of the ends being supported by the post, the opposing ends defining a longitudinal axis therebetween;at least one deformable flange attached adjacent one end of the rail, the flange extending outwardly generally orthogonally around the rail; anda receiver disposed in the at least one side wall adjacent the top end, the receiver having a pair of generally spaced apart bearing ends defining an opening through the at least one side wall through which the rail may extend, the opening sized to inhibit longitudinal movement of the rail by interaction between the bearing ends and the at least one deformable flange causing deformation thereof, the energy dissipating joint being connected by positioning the rail in the receiver and the at least one deformable flange in the interior cavity. 2. The energy dissipating joint of claim 1, further comprising a stop flange generally orthogonally around the rail and disposed adjacent to the one end of the rail between the one end and the at least one deformable flange. 3. The energy dissipating joint of claim 2, wherein the rail has at least one wall surrounding a hollow interior space, the at least one wall having a wall thickness. 4. The energy dissipating joint of claim 3, wherein the at least one deformable flange has a thickness in the longitudinal axis that is less than the wall thickness. 5. The energy dissipating joint of claim 4, wherein the stop flange has a thickness that is equal to or greater than the wall thickness. 6. The energy dissipating joint of claim 5, wherein the upstanding post further comprises a cap encircling the at least one side wall adjacent to the top end and spanning bearing ends of the receiver. 7. The energy dissipating joint of claim 6, wherein the post member and the rail member are formed from structural tube having a generally rectangular cross section. 8. The energy dissipating joint of claim 7, further comprising a shim disposed between the at least one deformable flange and the bearing ends to limit longitudinal rail movement. 9. A structural tube based vehicle crash barrier having an energy absorbing connection for joining structural tubes comprising: a pair of spaced apart generally upstanding elongate posts each having a top end, and embedded end, and at least one side wall defining an interior cavity, the posts being partially ground embedded;a hollow elongate rail having generally opposing ends defining a longitudinal axis therebetween, the rail generally spanning the space between the pair of posts;at least one deformable flange attached adjacent each end of the rail, the flanges extending outwardly generally orthogonally around the rail; anda receiver disposed in the at least one side wall adjacent the top end of each post, each receiver having a pair of generally spaced apart bearing ends defining an opening in the at least one side wall through which the rail may extend, the opening sized to inhibit longitudinal movement of the rail by interaction between the bearing ends and the at least one deformable flange causing deformation thereof, the crash barrier being assembled by positioning the rail such that each end is disposed in a respective receiver and the at least one deformable flange of each end of the rail is disposed within the respective interior cavity, deformation of the flanges absorbing crash energy without disengaging from the respective receivers. 10. The crash barrier of claim 8, further comprising a stop flange generally orthogonally around the rail and disposed adjacent to each end of the rail between the end and the at least one deformable flange. 11. The crash barrier of claim 9, wherein each deformable flange has a thickness in the longitudinal axis that is less than the thickness of the at least one side wall. 12. The crash barrier of claim 10, wherein each upstanding post further comprises a cap encircling the at least one side wall adjacent to the top end and spanning bearing ends of the receiver. 13. The crash barrier of claim 10, wherein the post members and the rail member are formed from structural tube having a generally rectangular cross section. 14. The crash barrier of claim 13, further comprising a shim disposed between the at least one deformable flange and the bearing ends to limit longitudinal rail movement. 15. A method for creating a structural tube based vehicle crash barrier with an energy dissipating connection between tube members comprising the steps of: providing a plurality of generally upstanding posts, each having a top end and at least one side wall defining an interior cavity;providing a hollow elongate rail having generally opposing ends defining a longitudinal axis therebetween;providing at least one deformable flange attached adjacent each end of the rail, the at least one flange extending outwardly generally orthogonally around the rail;providing a receiver disposed in the at least one side wall adjacent the top end of each post, each receiver having a pair of generally spaced apart bearing ends defining an opening in the at least one side wall through which the rail may extend, the opening sized to inhibit longitudinal movement of the rail by interaction between the bearing ends and the at least one deformable flange, the interaction causing energy dissipation through deformation of the at least one flange;embedding the plurality of posts in the ground in a spaced-apart array;placing each end of the rail in respective receivers in adjacent posts in a manner such that each at least one deformable flange is received into the respective receptacle;providing plurality of caps, one for each of the plurality of posts, each cap configured to encircle the respective at least one side wall adjacent to the top end and spanning bearing ends of the receiver; andplacing one of the plurality of caps on the top end of each of the plurality of posts to retain the rail ends in the respective receivers. 16. The method of claim 15, further comprising the steps of: providing a stop flange generally orthogonally around the rail and disposed adjacent to each end of the rail between the end and the at least one deformable flange; andengaging the stop flange and the at least one deformable flange on each rail end in the respective receivers. 17. The method of claim 16 further comprising the steps of: providing a shim configured to be received in the receiver; andpositioning the shim between the at least one deformable flange and the bearing ends to limit longitudinal rail movement.
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이 특허에 인용된 특허 (11)
Thompson, Sean; Stanley, Jr., Samuel Ross; Leonhardt, Patrick A.; Pyde, Donald C., Energy absorbing vehicle barrier.
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