US20070252124A1 - Guardrail System - Google Patents
Guardrail System Download PDFInfo
- Publication number
- US20070252124A1 US20070252124A1 US11/380,484 US38048406A US2007252124A1 US 20070252124 A1 US20070252124 A1 US 20070252124A1 US 38048406 A US38048406 A US 38048406A US 2007252124 A1 US2007252124 A1 US 2007252124A1
- Authority
- US
- United States
- Prior art keywords
- cable
- sled
- guardrail
- post
- base
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Abandoned
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Classifications
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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
- E01F15/025—Combinations of at least two of the barrier member types covered by E01F15/04 - E01F15/08, e.g. rolled steel section or plastic strip backed up by cable, safety kerb topped by rail barrier
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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
Definitions
- the present invention relates to guardrail systems having impact absorbing end units.
- Guardrails are commonly provided along the sides of roadways to prevent vehicles from going off the roadway in the event of the driver losing control of the vehicle.
- a guardrail can save the lives of a vehicle's occupants by preventing the vehicle from going over the edge of the precipice in the event of the driver losing control of the vehicle.
- the impact absorbing properties of the guardrail system are particularly important at these end or terminal portions of the guardrail system because vehicles can potentially impact the terminus of the guardrail system head on resulting in far higher impact energies that are further concentrated by a relatively small impact area at the terminus of the guardrail system. Consequently, the potential for catastrophic injuries to a vehicle's occupants are far greater at the terminus of a guardrail system. For this reason guardrail systems having impact absorbing terminal portions have been proposed in the art. However, none are seen to have the unique structure and advantages of the present invention as will become apparent from the detailed description below.
- the present invention is directed to a guardrail system having an impact absorbing terminal portion and to novel components parts useful with a guardrail system.
- the present invention includes a sled designed to receive the impact of a vehicle.
- the sled forms part of the terminal portion of the guardrail system.
- the terminal portion of the guardrail system also includes one or more cables that are anchored to the ground and pass through the sled.
- the sled supports a cable break that is in engagement with the cable.
- the sled is supported by a releasable post that is released from its base upon the impact of a vehicle.
- the cable or cables extend for some distance from the sled along the guardrail system. Once the post supporting the sled is released from its base due to the impact of a vehicle, the sled can move along the cable with the friction between the cable brake and the cable gradually dissipating the energy from the impact.
- the guardrail system greatly reduces the effect of the impact on the vehicle and its occupants, which in turn reduces the likelihood of serious injury to the occupants of the vehicle.
- An advantage of the impact absorbing guardrail terminal portion according to the present invention over the prior art is that the cable of the present invention is routed along a non-tortuous path as it passes through the cable brake.
- the known prior art maintains the cable in a tortuous configuration such that upon impact the cable is subjected to severe bends or changes in direction that can excessively strain the cable, which can lead to breakage and fraying of the cable.
- the invention also encompasses several novel and unique components that could have utility in various other contexts in addition to the guardrail system of the present invention. These unique components include a cable brake system, a releasable guardrail post, and a frangible guardrail post.
- Another object of the present invention is to provide an impact-absorbing guardrail terminal portion that includes a cable and a cable brake means, in which the cable follows a non-tortuous path through the cable brake means.
- Another object of the present invention is to provide a guardrail system that incorporates an impact absorbing terminal portion.
- a further object of the present invention is to provide a cable brake system.
- Yet another object of the present invention is to provide a releasable guardrail post.
- Yet another object of the present invention is to provide a yieldable guardrail post.
- FIG. 1 is a view in side elevation of a guardrail system according to the present invention.
- FIG. 2 is a top plan view of a guardrail system according to the present invention.
- FIG. 3 is an isometric view from the left of a guardrail system according to the present invention.
- FIG. 4 is an isometric view from the right of a guardrail system according to the present invention.
- FIG. 5 is a fragmentary view showing the sled and ground anchor structure of a guardrail system according to the present invention.
- FIG. 6 is a fragmentary view showing the cable guide of a guardrail system according to the present invention.
- FIG. 7 is a fragmentary view showing a mounting bracket of a guardrail system according to the present invention having means for anchoring the ends of the cables of the guardrail system.
- FIG. 8 is a view in side elevation of the sled of a guardrail system according to the present invention.
- FIG. 9 is an isometric view of the sled of a guardrail system according to the present invention.
- FIG. 10 is an isometric view of the sled of a guardrail system according to the present invention with the protective cover removed.
- FIG. 11 is a cross section of a view in side elevation of the sled of a guardrail system according to the present invention with the catch member in the lowered position.
- FIG. 12 is a cross section of a view in side elevation of the sled of a guardrail system according to the present invention with the catch member in the raised position.
- FIG. 13 is a top plan view of the sled of a guardrail system according to the present invention.
- FIG. 14 is a top plan view of the sled of a guardrail system according to the present invention with the protective cover removed and the cable brake pads positioned near the cable inlet of the upper cable brake housing.
- FIG. 15 is a top plan view of the sled of a guardrail system according to the present invention with the protective cover removed and the cable brake pads positioned near the cable outlet of the upper cable brake housing.
- FIG. 16 is a top plan view of the upper cable brake housing of a guardrail system according to the present invention the tapering sides of the cable brake housing.
- FIG. 17 is a top plan view of an assembly including the brake pads, collar, and wedges of a cable brake of a guardrail system according to the present invention.
- FIG. 18 is an isometric view of an assembly including the brake pads, collar, and wedges of a cable brake of a guardrail system according to the present invention.
- FIG. 19 is an exploded view of an assembly including the brake pads, collar, and wedges of a cable brake of a guardrail system according to the present invention.
- FIG. 20 is an exploded view of an assembly including the brake pads, collar, and wedges of a cable brake of a guardrail system according to the present invention shown in relation to one of the cables of a guardrail system.
- FIG. 21 is an isometric view of a brake pad of a cable brake of a guardrail system according to the present invention.
- FIG. 22 is a top plan view of the ground anchor structure of a guardrail system according to the present invention.
- FIG. 23 is a cross section of a view in side elevation of the ground anchor structure of a guardrail system according to the present invention.
- FIG. 24 is an isometric view of the ground anchor structure of a guardrail system according to the present invention.
- FIG. 25 is another isometric view of the ground anchor structure of a guardrail system according to the present invention.
- FIG. 26 is a fragmentary isometric view of the ground anchor structure of a guardrail system according to the present invention showing the angled plates of the ground anchor structure in greater detail.
- FIG. 27 is an isometric view of the cable guide of a guardrail system according to the present invention.
- FIG. 28 is an isometric view of the mounting bracket of a guardrail system according to the present invention with means for anchoring the ends of the cables of the guardrail system.
- FIG. 29 is an exploded view showing the mounting bracket of a guardrail system according to the present invention having means for anchoring the ends of the cables of the guardrail system and shown in relation to the ends of the cables.
- FIG. 30 is an isometric view of a yieldable guardrail post of a guardrail system according to the present invention.
- FIG. 31 is a view in side elevation of a yieldable guardrail post of a guardrail system according to the present invention.
- FIG. 32 is a head-on view of a yieldable guardrail post of a guardrail system according to the present invention.
- FIG. 33 is a view in side elevation of a second embodiment of the guardrail system according to the present invention.
- FIG. 34 is a top plan view of a second embodiment of the guardrail system according to the present invention.
- FIG. 35 is an isometric view from the left of a second embodiment of the guardrail system according to the present invention.
- FIG. 36 is an isometric view from the right of a second embodiment of the guardrail system according to the present invention.
- FIG. 37 is a view in side elevation of a releasable guardrail post according to the present invention.
- FIG. 38 is an isometric view of a releasable guardrail post according to the present invention.
- FIG. 39 is a top plan view of a releasable guardrail post according to the present invention.
- FIG. 40 is a view in side elevation of the catch member and lever arm of a releasable guardrail post according to the present invention.
- FIG. 41 is an isometric view of the catch member and lever arm of a releasable guardrail post according to the present invention.
- FIG. 42 is a head-on view of the catch member and lever arm of a releasable guardrail post according to the present invention.
- FIG. 43 is a view in side elevation of the catch member of a releasable guardrail post according to the present invention.
- FIG. 44 is a view in side elevation from the left of the beam of the releasable guardrail post according to the present invention.
- FIG. 45 is an isometric view of the beam of a releasable guardrail post according to the present invention.
- FIG. 46 is a top plan view of the beam of a releasable guardrail post according to the present invention.
- FIG. 47 is a head-on view of the beam of a releasable guardrail post according to the present invention.
- FIG. 48 is an isometric view of the base plate of a releasable guardrail post according to the present invention.
- FIG. 49 is a view in side elevation of the base plate of a releasable guardrail post according to the present invention.
- FIG. 50 is a head-on view of the base plate of a releasable guardrail post according to the present invention.
- FIG. 51 is a top plan view of the base plate of a releasable guardrail post according to the present invention.
- FIG. 52 is a view in side elevation from the right of the beam of the releasable guardrail post according to the present invention.
- FIG. 53 is a view in side elevation from the right of the sled of a guardrail system according to the present invention.
- FIG. 54 is a view in side elevation from the left of the sled of a guardrail system according to the present invention.
- FIG. 55 is a view in side elevation from the right of the catch member and lever arm of a guardrail system according to the present invention.
- FIG. 56 is a view in side elevation from the left of the catch member and lever arm of a guardrail system according to the present invention.
- FIG. 57 is a view from the vantage point of oncoming traffic showing the beam of a guardrail system according to the present invention with an alternative type of guide.
- the present invention is directed to a guardrail system 100 having an impact absorbing terminal portion.
- the invention also includes a yieldable post design and a releasable post design that may be used as part of the guardrail system or separately.
- the guardrail system 100 comprises a sled 102 , one or more guardrail posts 104 , 106 , one or more cables 108 , 110 , and one or more cable brakes 112 , 114 corresponding in number to the cables 108 , 110 .
- the illustrated guardrail posts 104 , 106 are each adapted for being fixed to the ground by having an elongated portion that can be buried at least in part in or below the ground to thereby fix or anchor the guardrail post to the ground.
- the guardrail system 100 is provided with two cables 108 and 110 .
- the cables 108 , 110 are preferably steel cables that are made from multiple strands of steel wire that are woven, twisted or braided together to form a steel cable.
- Each of the cables 108 , 110 has a portion extending between the sled 102 and the guardrail post 104 closest to the sled 102 .
- Each of the cables 108 , 110 also has a portion extending between the sled 102 and a respective ground anchor location 116 , 118 .
- the sled 102 is positioned between the guardrail post 104 that is closest to the sled and the ground anchor locations 116 , 118 .
- the cable brakes 112 and 114 are supported by the sled 102 .
- the cable brakes 112 and 114 are structurally identical to one another.
- Each of the cable brakes 112 and 114 comprise at least a first brake pad 120 and a second brake pad 122 positioned on opposite sides of a respective one of the cables 108 , 110 .
- the first brake pad 120 and the second brake pad 122 of each of the cable brakes 112 and 114 frictionally engage a respective one of the cables 108 , 110 in use.
- the sled 102 When the guardrail system is installed on a side of a road, the sled 102 can move along the cables 108 , 110 upon impact of a vehicle (not shown) on the sled 102 .
- the vehicle would impact the sled 102 with kinetic energy that must be dissipated gradually in order to bring the vehicle to a stop in a manner that reduces the likelihood and severity of injuries to the occupants of the vehicle.
- Each of the cable brakes 112 , 114 includes a cable brake housing 124 , 126 , respectively, that is incorporated in the sled 102 .
- the first brake pad 120 and the second brake pad 122 for each of the cable brakes 112 , 114 are received in the respective cable brake housing 124 , 126 .
- Each of the cable brake housings 124 , 126 has a cable inlet 128 , a cable outlet 130 , and opposing sidewall portions 132 and 134 that are tapering from the cable inlet 128 to the cable outlet 130 such that the opposing sidewall portions 132 , 134 are closer together near the cable outlet 130 as compared to the opposing sidewall portions 132 , 134 near the cable inlet 128 .
- the tapering sidewall portions 132 , 134 of each cable brake housing 124 , 126 engage the first and second brake pads 120 , 122 of the respective cable brake 112 , 114 as the sled 102 moves along the cables 108 , 110 upon impact of a vehicle on the sled 102 .
- each cable brake housing 124 , 126 engages with the first and second brake pads 120 , 122 of the respective cable brake 112 , 114 moves the first and second brake pads 120 , 122 of the cable brakes 112 , 114 with the sled 102 along the cables 108 , 110 as the sled 102 moves along the cables 108 , 110 upon impact of a vehicle on the sled 102 .
- each cable brake housing 124 , 126 tend to more forcefully squeeze the respective first and second brake pads 120 , 122 toward one another such that the frictional forces between the respective cable 108 , 110 and the respective first and second brake pads 120 , 122 are increased.
- the first brake pad 120 of each cable brake 112 , 114 has a threaded hole 136 provided at a location that is at spaced separation from a surface portion 138 of the first brake pad that is in contact with the respective cable 108 , 110 when the cable brake is in use.
- the second brake pad 122 of each cable brake 112 , 114 has a threaded hole 140 provided at a location that is at spaced separation from a surface portion 142 of the second brake pad 122 that is in contact with the respective cable 108 , 110 when the cable brake is in use.
- the surface portions 138 and 142 are in the form of tapering channels that are narrower at their end closest to the cable outlet of the respective brake housing 124 , 126 as compared to their end that is farthest from the cable outlet of the respective brake housing 124 , 126 .
- the surface portions 138 and 142 have cross sections that are in the form of circular arcs.
- Each of the cable brakes 112 , 114 further includes a collar 144 , a pair of wedges 146 , 148 , and a pair of bolts 150 , 152 .
- the collar 144 has a first surface 154 that faces away from the first and second brake pads 120 , 122 when the respective cable brake 112 or 114 is fully assembled.
- the first surface 154 of the collar 144 is inclined from the centerline 156 toward either side 158 , 160 of the first surface 154 , such that the centerline 156 of the first surface 154 of the collar 144 is depressed relative to both of the sides 158 , 160 of the first surface 154 of the collar 144 .
- the first surface 154 of the collar 144 slopes forward toward the nearest guardrail post 104 on either side of the centerline 156 .
- the collar 144 also has an elongated slot 162 extending on either side of the centerline 156 .
- the slot 162 has a widened middle portion 164 through which the respective cable 108 or 110 passes when the cable brakes 112 , 114 are in operation.
- the widened middle portion 164 has an outline that follows a circular arc on either side of the slot 162 .
- the widened middle portion 164 has a diameter that is large enough to allow the cable 108 or 110 to pass through the middle portion of the slot 162 .
- Each of the pair of bolts 150 , 152 has a head 166 and a shaft 168 that is threaded at least in part.
- Each of the pair of wedges 146 , 148 has a hole 170 , 172 , respectively, that is sized to provide clearance for the shaft 168 of a respective one of the pair of bolts 150 , 152 .
- the slot 162 is sized to provide clearance for the shaft 168 of each of the pair of bolts 150 , 152 and a respective one of the cables 108 , 110 , such that the shaft 168 of each of the pair of bolts 150 , 152 can pass through the hole 170 , 172 of a respective one of the pair of wedges 146 , 148 and the slot 162 to engage a respective one of the threaded holes 136 , 140 of the first and second brake pads 120 , 122 .
- the slot 162 is sized to be wide enough on either side of the middle portion 164 to provide clearance for the shaft 168 of a respective one of the pair of bolts 150 , 152 .
- each of the pair of wedges 146 , 148 is positioned in contact with a respective sloping portion of the first surface 154 of the collar 144 on either side of the centerline 156 of the first surface 154 of the collar. Then each of the pair of bolts 150 , 152 is positioned such that its shaft 168 passes through the hole 170 , 172 of the respective one of the pair of wedges 146 , 148 and the slot 162 and engages a respective one of the threaded hole 136 of the first brake pad 120 and the threaded hole 140 of the second brake pad 122 .
- Tightening the pair of bolts 150 , 152 with the head 166 of each of the bolts 150 , 152 being in contact with the respective one of the pair of wedges 146 , 148 tends to force the first and second brake pads 120 , 122 toward one another such that frictional forces between the cable 108 or 110 and the first and second brake pads 120 , 122 of the respective cable brake are increased.
- Each of the cables 108 , 110 has a longitudinal axis 182 , 184 , respectively.
- Each of the pair of wedges 146 , 148 of each cable brake 112 , 114 has a thick side 174 and a thin side 176 .
- the thin side 176 is thinner or narrower than the thick side 174 and can be so narrow as to form a sharp edge.
- the pair of wedges 146 , 148 are positioned on opposite sides of the centerline 156 of the first surface 154 of the collar 144 with a respective one of the cables 108 , 110 passing between the pair of wedges 146 , 148 .
- Each of the pair of wedges 146 , 148 is placed in contact with the respective sloping portion of the first surface 154 of the collar 144 with its thick side 174 being positioned closer to the centerline 156 of the first surface 154 of the collar compared to its thin side 176 , such that in operation the head 166 of each of the pair of bolts 150 , 152 is in contact with a front surface 178 , 180 of a respective one of the pair of wedges 146 , 148 that is essentially perpendicular to the longitudinal axis 182 , 184 of the respective cable 108 , 110 .
- the cable brakes could be assembled with the surface 154 facing the first and second brake pads 120 , 122 , if the brake pads 120 , 122 are provided with beveled surfaces that match the slope of the inclined surfaces on either side of the centerline of the surface 154 of the collar 144 .
- the bolts 150 , 152 can extend through the collar 144 and engage the threaded holes in the brake pads 120 , 122 directly in order to provide the required clamping action upon tightening of the bolts.
- the collar 144 could be provided surfaces on both sides that are bilaterally inclined in relation to the centerline of the surface like the surface 154 .
- brake pads having the beveled surfaces would be positioned on one side of the collar and the wedges 146 , 148 would be positioned on the other side of the collar.
- the bolts 150 , 152 can then extend through the wedges 146 , 148 and the collar 144 and engage the threaded holes in the brake pads in order to provide the required clamping action upon tightening of the bolts.
- the guardrail system 100 further includes a base 186 adapted for being anchored or fixed to the ground.
- the base 186 includes a base plate 188 and an elongated base post 190 .
- the base post 190 is adapted for being buried at least in part in the ground to thereby anchor the base 186 to the ground in the illustrated embodiment.
- the base post 190 has a top that remains above ground.
- the base plate 188 can be attached to the top of the base post 190 by, for example, welding.
- the base plate 188 has a sleeve 187 welded to its bottom surface.
- the sleeve 187 fits into the top of the base post 190 , and the sleeve 187 and the base post 190 each have one or more holes such that the holes of the sleeve 187 register with the holes of the base post 190 to allow pins, rivets, bolts or the like to be used to attach the base plate 188 to the base post 190 .
- the sled 102 further includes at least one skid plate 192 capable of being supported on top of the base plate 188 for essentially rectilinear movement parallel to the base plate 188 upon the impact of a vehicle on the sled 102 .
- the cables 108 , 110 will be in tension.
- the base plate 188 is inclined such that it slopes upward or rises in the direction of oncoming traffic shown by arrow T.
- the base plate 188 is provided with a guide 194 that assists in guiding the skid plate 192 , and thus the sled 102 , during the initial rectilinear movement of the skid plate 192 and sled 102 relative to the base plate 188 due to the impact of a vehicle.
- the guide 194 can take a variety of forms as shown in the drawings.
- the guide 194 can be in the form of a channel 196 that receives a portion of the skid plate 192 once the guardrail system 100 is installed at a given site.
- the channel 196 is provided on one side of the base plate 188 and is coextensive with the side of the base plate 188 that is substantially perpendicular to the cables 108 , 110 and is upstream of the other sides of the base plate 188 in relation to the direction of flow of traffic.
- the channel 196 is coextensive with the side of the base plate 188 that is closest to the ground anchor locations 116 , 118 after installation.
- the ends of the channel 196 can be closed off as shown in the drawings to form a pocket 196 .
- the channel or pocket 196 receives the portion of the skid plate 192 that includes the side or edge of the skid plate 192 that is closest to the ground anchor locations 116 , 118 after installation.
- the pocket 196 and the sloping base plate 188 can cooperate to keep the sled 102 in position over the base 186 during assembly and thus can facilitate the installation of the guardrail system 100 .
- the guide 194 is in the form of a channel 198 that receives a portion of the skid plate 192 once the guardrail system 100 is installed at a given site.
- the guide 194 is in the form of two opposing channels 198 provided on either side of the base plate 188 that receive portions of the skid plate 192 on either side of the skid plate 192 .
- the opposing channels 198 are provided on either side of the base plate 188 such that they extend substantially parallel to the cables 108 , 110 .
- the sled 102 further includes a beam 200 .
- the beam 200 supports the cable brake housings 124 , 126 and the skid plate 192 is attached to the beam 200 at the lower end of the beam 200 .
- the guardrail system 100 further includes a catch member 202 that is pivotally attached to the beam 200 .
- the catch member 202 pivots about a horizontal pivot axis and the catch member 202 is pivotally movable between a raised position and a lowered position.
- the sled 102 is mounted on the base 186 with the catch member 202 positioned substantially on the side of the beam 200 that faces toward oncoming traffic.
- the catch member 202 When the catch member 202 is in the lowered position, the catch member 202 has a portion 204 that overlaps at least a portion of the base 186 , such as the base plate 188 , as seen from the view of oncoming traffic such that movement of the sled 102 relative to the base 186 in the same direction as oncoming traffic would essentially be prevented by interference between the catch member 202 and the base 186 .
- the guardrail system 100 further includes a lever arm 206 that is attached to the catch member 202 such that lever arm 206 and the catch member 202 move as a unit.
- the catch member 202 is movable between the lowered position and the raised position responsive to the lever arm 206 moving between a first position and a second position.
- the catch member 202 is in the lowered position when the lever arm 206 is in the first position.
- the catch member 202 moves toward the raised position as the lever arm 206 is moved toward the second position which is closer to the beam 200 compared to the first position.
- the sled 102 After installation of the guardrail system 100 at a site, the sled 102 is mounted on the base 186 with the catch member 202 positioned substantially on the side of the beam 200 that faces toward oncoming traffic.
- the catch member 202 is normally in the lowered position and the cables 108 , 110 are in engagement with the cable brakes 112 , 114 .
- the vehicle When vehicle is about to collide with the sled 102 , the vehicle first impacts the lever arm 206 and moves it to the second position before the vehicle impacts the sled 102 . Therefore, the catch member 202 is moved to the raised position before the vehicle impacts the sled 102 .
- the sled 102 is first freed for rectilinear motion relative to the base 186 before the vehicle impacts the sled 102 , such that the sled 102 can move relative to the base due to impact energy being imparted to the sled 102 by the vehicle and thus gradually slow down the vehicle.
- the catch member 202 includes two parallel plates 208 , 210 that are spaced apart from one another and a catch plate 212 that extends between the parallel plates 208 , 210 .
- Each of the parallel plates 208 , 210 is provided with a hole 214 and 216 , respectively.
- the hole 214 of the first one of the parallel plates 208 is in registry with the hole 216 of the second one of the parallel plates 210 .
- Each hole 214 , 216 in each parallel plate 208 , 210 is located at spaced separation from the catch plate 212 .
- One or more shafts or pins 218 pass through one or more openings, there are two openings 220 , 221 in the illustrated example, in the beam 200 and through each hole 214 , 216 in each parallel plate 208 , 210 to thereby pivotally attach the catch member 202 to the beam 200 .
- An impact plate 222 is preferably attached to the lever arm 206 to provide a larger surface area over which the impact of a vehicle can operate the lever arm 206 and consequently the catch member 202 .
- the guardrail system 100 may also include one or more guardrail sections 224 .
- the guardrail sections 224 are preferably of the type having a W-shaped cross section.
- Each guardrail section has a front side 226 and a back side 228 .
- the front side 226 has a central valley or trough 230 that extends longitudinally along the length of the guardrail section 224 and the front side 226 also has a pair of peaks 232 , 234 on either side of the valley that also extend along the length of the guardrail section.
- the back side 228 has a central peak 236 that extends longitudinally along the length of the guardrail section 224 and the back side 228 also has a pair of valleys 238 , 240 on either side of the peak 236 that also extend along the length of the guardrail section 224 .
- Each of the cables 108 , 110 has a first end and a second end.
- the first end of each cable 108 , 110 is anchored to the ground at the respective ground anchor location 116 , 118 and the second end of each cable 108 , 110 is anchored in place at a location 242 , 244 , respectively, over the back side 228 of the guardrail section 224 when the guardrail system is installed on the side of a road.
- the guardrail system 100 includes a plurality of guardrail sections 224 . At least one of the guardrail sections 224 is supported at least in part by the guardrail post 104 nearest to the sled 102 .
- the second end of each cable 108 , 110 , near the locations 242 , 244 , respectively, is anchored in position in the respective trough 238 , 240 of one of the plurality of guardrail sections 224 when the guardrail system 100 is installed on the side of a road.
- the guardrail system 100 further includes a mounting bracket 250 .
- the mounting bracket 250 is used for attaching at least one of the plurality of guardrail sections 224 to one of the guardrail posts 104 , 106 .
- the mounting bracket 250 is used for attaching at least one of the guardrail sections 224 to one of the guardrail posts 104 , 106 corresponding to the locations 242 , 244 where the second ends of the cables 108 , 110 are anchored.
- the mounting bracket 250 includes at least one sleeve having a bore with a diameter that is large enough to allow one of the threaded shafts 246 , 248 to extend through the bore of the sleeve.
- the mounting bracket 250 includes two sleeves 252 , 254 , corresponding to the two cables 108 , 110 .
- Each sleeve 252 , 254 has a bore 256 , 258 , respectively, with a diameter that is large enough to allow a respective one of the threaded shafts 246 , 248 to extend through the bore of the sleeve 252 , 254 .
- Each nut 260 , 262 is too large to pass through the bore 256 , 258 of the respective sleeve 252 , 254 .
- Each nut 260 , 262 engages the respective threaded shaft 246 , 248 with the cables 108 , 110 extending toward the sled 102 , on an opposite side of the sleeves 252 , 254 relative to the nuts, to thereby anchor the second end of each of the cables 108 , 110 in position over the back side of one of the guardrail sections 224 , when the guardrail system 100 is installed on the side of a road.
- the mounting bracket 250 has a bottom plate 251 and two side plates 253 , 255 on either side of the bottom plate 251 .
- the two side plates 253 , 255 are at angles of greater than 90° with respect to the bottom plate 251 to give the mounting bracket 250 an approximately V-shaped cross section.
- the mounting bracket 250 is dimensioned and configured to fit over the middle peak 236 of the back side 228 of the guardrail sections 224 .
- the bottom plate 251 has holes that allow it to be bolted to the guardrail posts 104 , 106 .
- the side plates 253 , 255 have holes that allow the guardrail sections 224 to be bolted to the mounting bracket 250 .
- the mounting bracket 250 also has flanges 257 , 259 provided at the edges of the side plates 253 , 255 that are distal from the bottom plate 251 .
- the flanges 257 , 259 are positioned approximately in the valleys 238 , 240 on either side of the middle peak of the back side 228 of the guardrail sections 224 when a guardrail section 224 is bolted to the mounting bracket 250 .
- Each of the sleeves 252 , 254 is attached, for example by welding, to the mounting bracket 250 at the angle formed between a respective one of the flanges 257 , 259 and a respective one of the side plates 253 , 255 .
- the guardrail system 100 also includes an anchor structure 264 for anchoring the first end of each of the cables 108 , 110 to the ground at the ground anchor locations 116 , 118 , respectively, when the guardrail system 100 is installed on the side of a road.
- the anchor structure 264 includes an anchor post 266 , a pair of bars 268 and 270 , and at least one angled plate. In the illustrated embodiment, there are two angled plates 272 and 274 , one provided for each of the cables 108 , 110 .
- the anchor post 266 is adapted for being buried at least in part below ground to thereby anchor the anchor post 266 to the ground. In use the anchor post 266 is positioned upstream of the base post 190 relative to the direction of traffic flow in a lane of the road nearest the guardrail system 100 as indicated by the arrow T.
- the bars 268 , 270 extend in parallel between the anchor post 266 and the base post 190 .
- Each of the pair of bars 268 , 270 has a longitudinal axis, a first end, and a second end.
- Each of the pair of bars 268 , 270 is attached to the anchor post 266 proximate its first end, and each of the pair of bars 268 , 270 is attached to the base post 190 proximate its second end.
- the pair of bars 268 , 270 can be attached to the anchor post 266 and the base post 190 using means that include but are not limited to bolts, rivets, and welding.
- the pair of bars 268 , 270 are attached to a cap 267 that fits over the top of the anchor post 266 .
- the cap 267 has three sides and the pair of bars 268 , 270 are welded to the cap 267 on either side to for a five sided box that fits over the top of the anchor post 266 .
- the pair of bars 268 , 270 and the top of the anchor post 266 have holes that register with one another, and one or more bolts or rivets can be used to attach the pair of bars 268 , 270 , the cap 267 , and the anchor post 266 together.
- the cap 267 can be five sided and also have holes that register with the holes in the pair of bars 268 , 270 and the top of the anchor post 266 .
- the angled plates 272 , 274 extend like rungs in a ladder between the pair of bars 268 , 270 at positions intermediate the anchor post 266 and the base post 190 .
- the angled plates 272 , 274 are spaced apart from one another.
- Each of the angled plates 272 , 274 has an inclined portion 276 , 278 , respectively, that is angled relative to the longitudinal axis of each of the pair of bars 268 , 270 such that in use the inclined portion rises upward relative to the ground with decreasing horizontal distance from the anchor post 266 .
- the inclined portions 276 , 278 can be attached to the pair of bars 268 , 270 using means that include but are not limited to bolts, rivets, and welding.
- Each of the cables 108 , 110 is provided with a threaded shaft 280 , 282 , respectively, at its first end.
- Each of the inclined portions 276 , 278 has an opening 284 , 286 , respectively, that is large enough to allow the respective threaded shafts 280 , 282 to extend through the openings 284 , 286 of the inclined portions 276 , 278 .
- a pair of threaded nuts 288 and 290 capable of engaging the threaded shafts 280 , 282 , respectively, are provided for anchoring the first ends of the cables 108 , 110 at the ground anchor locations 116 , 118 .
- the threaded nuts 288 , 290 are too large to pass through the respective openings 284 , 286 of the inclined portions 276 , 278 .
- Each of the nuts 288 , 290 engages a respective one of the threaded shafts 280 , 282 at the first ends of the cables 108 , 110 with the cables 108 , 110 extending between the inclined portions 276 , 278 and the sled 102 on the sides of the inclined portions 276 , 278 opposite the sides on which the nuts 288 , 290 are located to thereby anchor the first ends of the cables 108 , 110 in position at the ground anchor locations 116 , 118 once the guardrail system 100 is installed on the side of a roadway.
- the openings 284 , 286 in the inclined portions 276 , 278 are in the form of U-shaped slots to provide for greater ease of assembly of the guardrail system 100 .
- the manner in which the base post 190 or any of the guardrail posts 104 , 106 , or the anchor post 266 are fixed to the ground can vary depending upon the requirements of the particular location where the guardrail system 100 is being installed, especially the nature of the surface over which the guardrail system 100 is to be installed. For example, if the guardrail system 100 is being installed over a concrete foundation, the elongated portions of the base post 190 , the guardrail posts 104 , 106 , and the anchor post 266 that are intended for being buried under the ground surface can be replaced by a flange or plate having a plurality of holes attached to the bottom of these various posts.
- Each of these various posts can then be positioned on the concrete foundation such that anchor bolts embedded in the concrete foundation extend through the holes in the flange or plate attached to the bottom of the post. Threaded nuts engaging the anchor bolts can then be tightened down over the flange or plate attached to the bottom of the post in order to secure or fix the post in place over the concrete foundation.
- the elongated portions of the base post 190 , the guardrail posts 104 , 106 , and the anchor post 266 that are intended for being buried under the ground surface can be placed in holes in the ground that are backfilled with concrete.
- one or more of the various modes for securing or fixing the various posts in place that are mentioned above can be combined as conditions require in a given installation of the guardrail system 100 .
- the cable 108 , the cable 110 , the cable brake 112 , the cable brake 114 , the sleeve 252 , the sleeve 254 , the angled plate 272 , the angled plate 274 , the threaded shaft 246 , the threaded shaft 280 , the threaded shaft 248 , the threaded shaft 282 , the nut 260 , the nut 288 , the nut 262 , the nut 290 , the ground anchor location 116 , the location 242 , the ground anchor location 118 , the location 244 , the brake pad 120 of the cable brake 112 , the brake pad 122 of the cable brake 112 , the brake pad 120 of the cable brake 114 , and the brake pad 122 of the cable brake 114 are respectively referred to as the first cable, the second cable, the first cable brake, the second cable brake, the first sleeve, the second sleeve, the first sleeve, the second s
- one or more of the guardrail posts nearest the sled 102 are yieldable guardrail post 104 designed to yield at a predetermined impact force.
- the guardrail posts 106 are standard guardrail posts.
- the use of yieldable guardrail post 104 for the several guardrail posts nearest the sled 102 provides an added measure of safety in the event that the energy from the impact of the vehicle is not completely dissipated before the sled 102 reaches the nearest guardrail post 104 by providing for continued gradual dissipation of the impact energy.
- vehicles with a wider range weights and speeds can more safely be brought to a stop in head-on collisions with the end unit or portion of the guardrail system 100 .
- Each yieldable guardrail post 104 includes a first elongated member 292 , a second elongated member 294 , and a reinforcement plate 296 .
- the first elongated member 292 has an elongated back plate 298 and two side plates 300 , 302 that are parallel to one another.
- the side plates 300 , 302 project at right angles to the back plate 298 on either side of the back plate 298 to thereby give the first elongated member 292 a channel-shaped cross section.
- the second elongated member 294 has an elongated back plate 304 and two side plates 306 , 308 that are parallel to one another.
- the side plates 306 , 308 of the second elongated member 294 project at right angles to the back plate 304 of the second elongated member 294 on either side of the back plate 304 of the second elongated member 294 to thereby give the second elongated member 294 a channel-shaped cross section
- the first elongated member 292 and the second elongated member 294 are attached together with their respective back plates 298 , 304 in abutting contact so as to form a beam 310 having an H-shaped cross section.
- the second elongated member 294 has a slit 312 transverse to the longitudinal axis of the second elongated member 294 that transects the second elongated member. When the post 104 is installed, the side with the slit 312 faces toward oncoming traffic.
- the reinforcement plate 296 is attached to the back plate 298 , 304 of one of the elongated members 292 , 294 proximate the slit 312 in the second elongated member 294 .
- the reinforcement plate 296 is attached to the back plate 304 of one of the second elongated member 294 and faces toward oncoming traffic when the beam 104 is installed.
- two rows of rivets 314 , 316 distributed along the length of the beam 310 and passing through back plates 298 , 304 are used to attach the first elongated member 292 and the second elongated member 294 together.
- the reinforcement plate 296 is attached to the back plate 304 of the second elongated member 294 by two rows of rivets 318 , 320 .
- the two rows of rivets 318 , 320 are distributed along the length of the reinforcement plate 296 and pass through back plate 304 .
- the two rows of rivets 318 , 320 are spaced more closely together compared to the rows of rivets 314 , 316 .
- the gauge i.e.
- the thickness, of the steel used and the dimensions of the first elongated member 292 , the second elongated member 294 , and the reinforcement plate 296 can be varied to determine the predetermined threshold impact energy at which the post 104 will yield.
- a specific predetermined threshold impact energy at which the post 104 will yield can be determined for a specific application by routine experimentation.
- each of the guardrail sections 224 overlaps a portion of each adjacent guardrail section 224 over at least one guardrail post 104 , 106 that is a common support for both adjacent guardrail sections 224 . Beginning with the guardrail section 224 that is closest to the sled 102 , a portion of each guardrail section 224 covers over a portion of the front side 226 of the succeeding guardrail section 224 .
- the guardrail sections 224 are attached to the guardrail posts 104 and at least the guardrail post 106 nearest to the guardrail posts 104 by frangible fasteners such that the guardrail sections 224 will collapse in a roughly telescoping fashion in the event that the energy from the impact of the vehicle is not completely dissipated before the sled 102 reaches the nearest guardrail post 104 and the sled 102 is pushed beyond the nearest guardrail post 104 by the impacting vehicle. Thus the spearing of the impacting vehicle by the guardrail sections 224 is prevented.
- the cables 108 , 110 should extend from about the ground anchor locations 116 , 118 to at least the guardrail post 104 that is nearest the sled 102 .
- the cables 108 , 110 extend from proximate the ground anchor locations 116 , 118 to the guardrail post 104 that is nearest the sled 102 and continue to extend over the distance covered by the guardrail sections 224 that are supported in whole or in part by the yieldable guardrail posts 104 . Accordingly, the cables 108 , 110 extend from proximate the ground anchor locations 116 , 118 to the guardrail post 106 that is nearest the guardrail posts 104 .
- the guardrail system 100 also includes a cable guide 322 .
- the cable guide 322 includes a wedge-shaped cap 324 and two tubular sleeves 326 , 328 .
- the cap 324 is made of sheet metal and has a wide end 330 and a narrow end 332 with the cap 324 tapering from the wide end to the narrow end.
- the wide end 330 of the cap 324 is dimensioned and configured to fit over the end nearest the sled 102 of the guardrail section 224 nearest the sled 102 , and the cap 324 is fixed to that end of that guardrail section using nuts and bolts.
- the sleeves 326 , 328 With the cap 324 fixed to the end of the guardrail section, the sleeves 326 , 328 will be in registry with the interior of the valleys 238 , 240 , respectively, on the back side 228 of the guardrail nearest the sled 102 . Accordingly, the cables 108 , 110 can be routed through the sleeves 326 , 328 , respectively, so that the cables 108 , 110 can be maintained in a close relationship to the back side of the guardrail section 224 nearest the sled 102 .
- the guardrail system 100 is also provided with a protective sheet metal covering 334 that covers the cable brakes 112 , 114 .
- the covering 334 provides some measure of protection from the elements to the cable brakes 112 , 114 .
- the guardrail system 100 has the desirable feature that the cables 108 , 110 follows a non-tortuous path as they pass through the cable brakes 112 , 114 . Subjecting the cables 108 , 110 to extreme bends or changes in direction, particularly upon vehicle impact, can excessively strain the strands in the cables 108 , 110 . Such excessive strain can lead to the fatigue and breakage of the strands, which would ultimately lead to the fraying of the cables 108 , 110 .
- non-tortuous means that any bends at least in the portion of the cables 108 , 110 passing through the sled 102 and within at least six inches of the sled 102 , as measured along the respective cable, form internal angles that are all greater than or equal to 100° and less than or equal to 180°. More preferably the internal angles formed by any bends in the aforementioned portion of the cables 108 , 110 are in the range of greater than or equal to 110° to less than or equal to 180°. Of course, the definition of “non-tortuous” includes the case where there are no bends in the aforementioned portion of the cables 108 , 110 .
- the portion of the cables 108 , 110 passing through the cable brake housings 124 , 126 follow a substantially straight path, the only significant bend in this portion of each cable occurring near the cable outlet 130 of each respective cable brake housing 124 , 126 .
- the internal angle formed by any bend in the cables 108 , 110 should be readily apparent.
- the angle formed by the bends is more complex to define.
- a portion of a cable follows a “non-tortuous” path when there are no two points along the portion of the cable such that direction vectors corresponding to the direction of the central longitudinal axis t of the portion of the cable at each of the two points, respectively, that are both directed in the direction of increasing distance measured along the cable from a common origin point that is located outside the portion of cable in question and corresponds to a distance of zero along the cable, when translated while preserving their direction to be placed in tip to tail relationship define an internal angle that is acute.
- the guardrail is constructed in the normal except for the terminal portion of the guardrail.
- One or more, preferably several, guardrail posts 104 are fixed to the surface proximate the roadway upstream of the last guardrail post 106 in relation to the direction of flow of traffic.
- the guardrail sections 224 are mounted to the guardrail posts 104 , 106 such that at least all the distances between the guardrail posts are spanned by guardrail sections 224 .
- the guardrail sections 224 should be mounted to one or more of the guardrail posts 106 near the guardrail posts 104 with a mounting bracket 250 having the sleeves 252 , 254 .
- a mounting bracket similar to the mounting bracket 250 but lacking the sleeves 252 , 254 is used to attach the particular guardrail section 224 to the guardrail post 104 , 106 .
- a mounting bracket 250 is used to attach the guardrail section 224 to the guardrail posts 106 nearest the guardrail posts 104 .
- the cable guide 322 can now be fixed to the end of the guardrail section 224 that is farthest upstream of the other guardrail sections 224 in relation to the direction of the flow of traffic in the lane nearest the guardrail system 100 , i.e. the guardrail section 224 that is to eventually be the closest to the sled 102 .
- the guardrail posts 104 , 106 are fixed to the surface proximate the roadway downstream of the sled 102 in relation to the direction of the flow of traffic in the lane nearest the guardrail system 100 . Accordingly, the base 186 is fixed to the surface proximate the roadway upstream of the guardrail posts 104 , 106 in relation to the direction of the flow of traffic in the lane nearest the guardrail system 100 .
- the anchor structure 264 can then be fixed to the surface proximate the roadway upstream of the base 186 in relation to the direction of the flow of traffic.
- the base 186 and the anchor structure 264 may be prefabricated into a single assembly prior to being fixed to the surface proximate the roadway.
- the sled 102 can then be positioned atop the base plate 188 .
- the shafts 246 , 248 at the second ends of the cables 108 , 110 are then inserted through the sleeves 252 , 254 of the mounting bracket 250 that is located farthest from the sled 102 and the nuts 260 , 262 are engaged to the shafts 246 , 248 , respectively, to thereby anchor the second ends of the cables 108 , 110 at an anchor location corresponding to the location of the mounting bracket 250 that is located farthest from the sled 102 .
- the cables 108 , 110 are then routed through the valleys 238 , 240 on the back side 228 of the guardrail sections 224 and through the sleeves 326 , 328 of the cable guide 322 .
- Each of the collars 144 is then placed around a respective one of the cables 108 , 110 and then each of the cables 108 , 110 is routed through the respective cable brake housing 124 , 126 of the sled 102 .
- the cables 108 , 110 are routed through the sled 102 .
- Each of the collars 144 is placed around a respective one of the cables 108 , 110 such that the first surface 154 of the collar 144 faces away from the sled 102 .
- the shafts 280 , 282 at the first ends of the cables 108 , 110 are then positioned so as to extend through the slots 284 , 286 in the angled plates 272 , 274 and the nuts 288 , 290 are engaged to the shafts 280 , 282 , respectively, to thereby anchor the first ends of the cables 108 , 110 at an anchor location near the surface proximate the roadway and upstream of the sled 102 relative to the direction of traffic flow in a lane of the road nearest the guardrail system 100 . Accordingly, a portion of the cables 108 , 110 extends between the sled 102 and the guardrail post 104 nearest the sled 102 .
- the collars 144 are positioned intermediate the sled 102 and the cable guide 322 .
- a pair of brake pads 120 , 122 are placed around the cable 108 such that the brake pads 120 , 122 are positioned at least in part in the brake housing 124 .
- the collar 144 on cable 108 is then brought into contact with the brake pads 120 , 122 on either side of the cable 108 , with the first surface 154 of the collar 144 facing away from the brake pads 120 , 122 .
- the pair of wedges 146 , 148 of the cable brake 112 are each positioned in contact with a respective sloping portion of the first surface 154 of the collar 144 on either side of the centerline of the first surface 154 of the collar 144 .
- Each of the pair of bolts 150 , 152 of the cable brake 112 is positioned such that its shaft passes through the hole 170 , 172 of the respective one of the pair of wedges 146 , 148 and the slot 162 of the collar 144 and engages a respective one of the threaded holes 136 , 140 of the first and second brake pads 120 , 122 .
- the pair of bolts 150 , 152 are tightened, with the head of each of the bolts being in contact with the respective one of the pair of wedges, to force the first and second brake pads 120 , 122 toward one another such that the cable 108 is clamped between the first and second brake pads 120 , 122 of the cable brake 112 , and thus frictional forces between the cable 108 and the first and second brake pads 120 , 122 of the cable brake 112 are set at a predetermined level.
- a pair of brake pads 120 , 122 are placed around the cable 110 such that the brake pads 120 , 122 are positioned at least in part in the brake housing 126 .
- the collar 144 on cable 110 is then brought into contact with the brake pads 120 , 122 on either side of the cable 110 , with the first surface 154 of the collar 144 facing away from the brake pads 120 , 122 .
- the pair of wedges 146 , 148 of the cable brake 114 are each positioned in contact with a respective sloping portion of the first surface 154 of the collar 144 on either side of the centerline of the first surface 154 of the collar 144 .
- Each of the pair of bolts 150 , 152 of the cable brake 114 is positioned such that its shaft passes through the hole 170 , 172 of the respective one of the pair of wedges 146 , 148 and the slot 162 of the collar 144 and engages a respective one of the threaded holes 136 , 140 of the first and second brake pads 120 , 122 .
- the pair of bolts 150 , 152 are tightened, with the head of each of the bolts being in contact with the respective one of the pair of wedges, to force the first and second brake pads 120 , 122 toward one another such that the cable 110 is clamped between the first and second brake pads 120 , 122 of the cable brake 114 , and thus frictional forces between the cable 110 and the first and second brake pads 120 , 122 of the cable brake 114 are set at a predetermined level.
- the pair of wedges 146 , 148 are positioned on opposite sides of the centerline of the first surface 154 of the collar 144 with the respective cable 108 , 110 passing between the pair of wedges 146 , 148 , and such that each of the pair of wedges 146 , 148 is placed in contact with the respective sloping portion of the first surface 154 of the collar 144 with its thick side being positioned closer to the centerline of the first surface 154 of the collar than its thin side.
- each of the pair of bolts 150 , 152 is in contact with a front surface of a respective one of the pair of wedges 146 , 148 that is essentially perpendicular to the longitudinal axis of the respective cable 108 , 110 .
- Loosening the nuts 260 , 262 and tightening the nuts 288 , 290 moves the brake pads 120 , 122 of the cable brake 112 and the brake pads 120 , 122 of the cable brake 114 such that the brake pads 120 , 122 of the cable brake 112 and the brake pads 120 , 122 of the cable brake 114 are positioned snugly within the respective brake housings 124 , 126 .
- the brake pads 120 , 122 of the cable brake 112 and the brake pads 120 , 122 of the cable brake 114 are frictionally engaged to the cables 108 , 110 , respectively, with the brake pads 120 , 122 of the cable brake 112 and the brake pads 120 , 122 of the cable brake 114 positioned relative to the sled 102 such that the brake pads 120 , 122 of the cable brake 112 and the brake pads 120 , 122 of the cable brake 114 would interfere with movement of the sled 102 toward the guardrail post 104 nearest the sled 102 over at least a substantial portion of a distance between the sled 102 and the nearest guardrail post 104 upon impact of a vehicle on the sled 102 .
- the interference with the movement of the sled 102 toward the nearest guardrail post 104 due to the engagement of the brake pads 120 , 122 of the cable brakes 112 , 114 is of such a nature that the sled 102 can move along the cables 108 , 110 upon the impact of a vehicle on the sled 102 , when the vehicle impacts the sled 102 with energy above a predetermined threshold level, while the frictional forces between the cables 108 , 110 and the brake pads 120 , 122 of the cable brakes 112 , 114 dissipate at least a portion of the energy from the impact.
- the distance between the sled 102 and the nearest yieldable post 104 , the threshold impact energy level for overcoming the friction due to the cable brakes 112 , 114 , the number of yieldable guardrail posts 104 that should be used and the distance that they cover, can all be determined by routine experimentation involving crash testing and taking into account the applicable mandatory safety regulations and if necessary the average speed and weight of vehicles expected at a particular site.
- a second embodiment 400 of the present invention can be seen.
- the guardrail systems 100 and 400 are identical.
- the guardrail sections 224 completely span the distance between the sled 402 and the nearest guardrail post 404 .
- the guardrail posts 404 are wooden and are drilled at locations 403 and 405 to make them frangible in a head-on collision of a vehicle with the terminal end of the guardrail system 400 .
- the guardrail system 400 does not have a cable guide 322 .
- the sled 402 does not have a protective cover 334 , and the sled 402 lacks the catch member 202 and lever arm 206 .
- the sled 402 is provided with a fixed impact plate 522 .
- the base plate 488 lacks any kind of guide like guide 194 .
- the sled 402 , and consequently the skid plate 492 simply rests atop the base plate 488 .
- the skid plate 492 has a forward portion that is turned up in a manner resembling skis to prevent the sled 402 from digging into the ground and getting stuck after impact.
- guardrail system 400 the angled plates 272 , 274 are replaced by tubular structures 572 , 574 that function in a manner similar to tubular sleeves 252 , 254 .
- the various components and features from the guardrail systems 100 and 400 can be used in any combination to construct a variety of guardrail systems within the scope of the appended claims.
- the releasable post 700 that can be substituted for the yieldable posts 104 can be seen.
- the releasable post 700 includes a base 786 , a beam 800 , a skid plate 792 , and a catch member 802 .
- the base 786 includes an elongated base post 790 adapted for being buried at least in part below ground to thereby anchor the releasable post 700 to the ground.
- the base post 790 can be replaced by other structures depending on the nature of the surface to which the releasable post 700 is to be fixed.
- the base 786 also includes a base plate 788 that is attached to the top of the base post 790 .
- the base plate 788 has a sleeve 787 welded to its bottom surface.
- the sleeve 787 fits into the top of the base post 790 , and the sleeve 787 and the base post 790 each have one or more holes such that the holes of the sleeve 787 register with the holes of the base post 790 to allow pins, rivets, bolts or the like to be used to attach the base plate to the base post 790 .
- the base plate 788 can be directly welded to the top of the base post 790 .
- the skid plate 792 is attached to the lower end of the beam 800 .
- the catch member 802 is pivotally attached to the beam 800 such that the catch member 802 pivots about a pivot axis.
- the catch member 802 is pivotally movable between a raised position and a lowered position.
- the catch member 802 When the base post 790 is buried at least in part below ground and the beam 800 is mounted on the base plate 788 with the skid plate 792 supported by the base plate 788 and the catch member 802 is in the lowered position, the catch member 802 has a portion that overlaps at least a portion of at least one of the base plate 788 and the base post 790 such that rectilinear movement of the beam 800 relative to the base post 790 in a predetermined direction would essentially be prevented by interference between the catch member 802 and at least one of the base plate 788 and the base post 790 .
- a lever arm 806 is attached to the catch member 802 .
- the catch member 802 is movable between the lowered position and the raised position responsive to the lever arm 806 moving between a first position and a second position.
- the catch member 802 moves toward the raised position as the lever arm 806 is moved toward the second position which is closer to the beam 800 as compared to the first position.
- the catch member 802 is similar to the catch member 202 and the catch member 802 includes two parallel plates 808 , 810 that are spaced apart from one another and a catch plate 812 that extends between the parallel plates 808 , 810 .
- Each of the parallel plates 808 , 810 is provided with a hole 814 and 816 , respectively.
- the hole 814 of the first one of the parallel plates 808 is in registry with the hole 816 of the second one of the parallel plates 810 .
- Each hole 814 , 816 in each parallel plate 808 , 810 is located at spaced separation from the catch plate 812 .
- One or more shafts or pins 818 pass through one or more openings, there are two openings 820 , 821 in the illustrated example, in the beam 800 and through each hole 814 , 816 in each parallel plate 808 , 810 to thereby pivotally attach the catch member 802 to the beam 800 .
- a bumper 822 is preferably attached to the lever arm 806 to minimize damage to the releasable post 700 .
- the base plate 788 is inclined such that it slopes upward in the predetermined direction when the base post 790 is buried at least in part below ground.
- the base plate 788 is provided with a guide 794 that guides the skid plate 792 during the rectilinear movement of the skid plate 792 relative to the base plate 788 . All the same types of guides 194 discussed in relation to the base plate 188 may also be used with the base plate 788 .
- the guide 794 is in the form of a pocket 796 that receives a portion of the skid plate 792 .
- the guardrail sections 224 can be attached to the beam 800 in the same manner in which they are attached to the guardrail posts 104 and 106 .
- the beams 200 and 800 , the lever arms 206 , 806 , the skid plates 192 and 792 , the catch members 202 and 802 , the impact plate 222 , and the bumper 822 may be provided with various slots, holes, or openings, for example the slots 824 , 826 , 828 and 830 , as necessary to provide clearance for cables that may be part of the guardrail system in which these components are used.
- washers between the nuts 260 , 262 , 288 , or 290 and the corresponding sleeves or angled plates.
- the washers may prevent damage to contact surfaces when the nuts are tightened, may provide greater surface area for better distribution of forces, and may be needed to enhance the size of the nuts where the nuts are smaller than would be desirable relative to the size of the corresponding openings in the sleeves and angled plates.
- the sled and cable brake system of the present invention can be used in conjunction with a variety of barrier systems.
- the sled and cable brake system of the present invention can be used with barriers in the form of corrugated metal beams including “W-Beam” or “Thrie-Beam” barriers such as shown in FIG. 1 .
- the impact-absorbing sled and cable brake system of the present invention can be used with wire ripe cable barriers—tensioned or un-tensioned.
- the sled and cable brake system of the present invention can be used with concrete barriers such as bridge parapets, piers or columns. In the case of use with concrete barriers, the cable guide 322 and mounting bracket 250 would have to be modified accordingly in order to attach or anchor the cables 108 , 110 to the particular concrete barrier.
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Abstract
A guardrail system including a sled designed to absorb the impact of a vehicle is disclosed. The sled forms part of the terminal portion of the guardrail system. The terminal portion of the guardrail system also includes one or more cables that are anchored to the ground and pass through the sled. The sled supports a cable break that is in engagement with the cable. The sled is supported by a releasable post that is released from its base upon the impact of a vehicle. The cable or cables extend for some distance from the sled along the guardrail system. Once the post supporting the sled is released from its base due to the impact of a vehicle, the sled can move along the cable with the friction between the cable brake and the cable gradually dissipating the energy from the impact.
Description
- 1. Field of the Invention
- The present invention relates to guardrail systems having impact absorbing end units.
- 2. Description of the Prior Art
- Guardrails are commonly provided along the sides of roadways to prevent vehicles from going off the roadway in the event of the driver losing control of the vehicle. In particular, where a precipice is located adjacent the roadway a guardrail can save the lives of a vehicle's occupants by preventing the vehicle from going over the edge of the precipice in the event of the driver losing control of the vehicle. It is desirable for guardrail systems to also have impact absorbing properties to minimize the risk of injury to the occupants of a vehicle that impacts the guardrail system. Where one roadway intersects another roadway, for example, a break is created in the guardrail system resulting in the creation of guardrail system terminal portions. The impact absorbing properties of the guardrail system are particularly important at these end or terminal portions of the guardrail system because vehicles can potentially impact the terminus of the guardrail system head on resulting in far higher impact energies that are further concentrated by a relatively small impact area at the terminus of the guardrail system. Consequently, the potential for catastrophic injuries to a vehicle's occupants are far greater at the terminus of a guardrail system. For this reason guardrail systems having impact absorbing terminal portions have been proposed in the art. However, none are seen to have the unique structure and advantages of the present invention as will become apparent from the detailed description below.
- The present invention is directed to a guardrail system having an impact absorbing terminal portion and to novel components parts useful with a guardrail system.
- The present invention includes a sled designed to receive the impact of a vehicle. The sled forms part of the terminal portion of the guardrail system. The terminal portion of the guardrail system also includes one or more cables that are anchored to the ground and pass through the sled. The sled supports a cable break that is in engagement with the cable. The sled is supported by a releasable post that is released from its base upon the impact of a vehicle. The cable or cables extend for some distance from the sled along the guardrail system. Once the post supporting the sled is released from its base due to the impact of a vehicle, the sled can move along the cable with the friction between the cable brake and the cable gradually dissipating the energy from the impact. Thus the guardrail system greatly reduces the effect of the impact on the vehicle and its occupants, which in turn reduces the likelihood of serious injury to the occupants of the vehicle.
- An advantage of the impact absorbing guardrail terminal portion according to the present invention over the prior art is that the cable of the present invention is routed along a non-tortuous path as it passes through the cable brake. The known prior art maintains the cable in a tortuous configuration such that upon impact the cable is subjected to severe bends or changes in direction that can excessively strain the cable, which can lead to breakage and fraying of the cable.
- The invention also encompasses several novel and unique components that could have utility in various other contexts in addition to the guardrail system of the present invention. These unique components include a cable brake system, a releasable guardrail post, and a frangible guardrail post.
- Accordingly, it is an object of the present invention to provide a terminal portion for a guardrail system that has impact absorbing properties.
- Another object of the present invention is to provide an impact-absorbing guardrail terminal portion that includes a cable and a cable brake means, in which the cable follows a non-tortuous path through the cable brake means.
- Another object of the present invention is to provide a guardrail system that incorporates an impact absorbing terminal portion.
- A further object of the present invention is to provide a cable brake system.
- Yet another object of the present invention is to provide a releasable guardrail post.
- Yet another object of the present invention is to provide a yieldable guardrail post.
- These and other objects of the present invention will become apparent from the detailed description below.
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FIG. 1 is a view in side elevation of a guardrail system according to the present invention. -
FIG. 2 is a top plan view of a guardrail system according to the present invention. -
FIG. 3 is an isometric view from the left of a guardrail system according to the present invention. -
FIG. 4 is an isometric view from the right of a guardrail system according to the present invention. -
FIG. 5 is a fragmentary view showing the sled and ground anchor structure of a guardrail system according to the present invention. -
FIG. 6 is a fragmentary view showing the cable guide of a guardrail system according to the present invention. -
FIG. 7 is a fragmentary view showing a mounting bracket of a guardrail system according to the present invention having means for anchoring the ends of the cables of the guardrail system. -
FIG. 8 is a view in side elevation of the sled of a guardrail system according to the present invention. -
FIG. 9 is an isometric view of the sled of a guardrail system according to the present invention. -
FIG. 10 is an isometric view of the sled of a guardrail system according to the present invention with the protective cover removed. -
FIG. 11 is a cross section of a view in side elevation of the sled of a guardrail system according to the present invention with the catch member in the lowered position. -
FIG. 12 is a cross section of a view in side elevation of the sled of a guardrail system according to the present invention with the catch member in the raised position. -
FIG. 13 is a top plan view of the sled of a guardrail system according to the present invention. -
FIG. 14 is a top plan view of the sled of a guardrail system according to the present invention with the protective cover removed and the cable brake pads positioned near the cable inlet of the upper cable brake housing. -
FIG. 15 is a top plan view of the sled of a guardrail system according to the present invention with the protective cover removed and the cable brake pads positioned near the cable outlet of the upper cable brake housing. -
FIG. 16 is a top plan view of the upper cable brake housing of a guardrail system according to the present invention the tapering sides of the cable brake housing. -
FIG. 17 is a top plan view of an assembly including the brake pads, collar, and wedges of a cable brake of a guardrail system according to the present invention. -
FIG. 18 is an isometric view of an assembly including the brake pads, collar, and wedges of a cable brake of a guardrail system according to the present invention. -
FIG. 19 is an exploded view of an assembly including the brake pads, collar, and wedges of a cable brake of a guardrail system according to the present invention. -
FIG. 20 is an exploded view of an assembly including the brake pads, collar, and wedges of a cable brake of a guardrail system according to the present invention shown in relation to one of the cables of a guardrail system. -
FIG. 21 is an isometric view of a brake pad of a cable brake of a guardrail system according to the present invention. -
FIG. 22 is a top plan view of the ground anchor structure of a guardrail system according to the present invention. -
FIG. 23 is a cross section of a view in side elevation of the ground anchor structure of a guardrail system according to the present invention. -
FIG. 24 is an isometric view of the ground anchor structure of a guardrail system according to the present invention. -
FIG. 25 is another isometric view of the ground anchor structure of a guardrail system according to the present invention. -
FIG. 26 is a fragmentary isometric view of the ground anchor structure of a guardrail system according to the present invention showing the angled plates of the ground anchor structure in greater detail. -
FIG. 27 is an isometric view of the cable guide of a guardrail system according to the present invention. -
FIG. 28 is an isometric view of the mounting bracket of a guardrail system according to the present invention with means for anchoring the ends of the cables of the guardrail system. -
FIG. 29 is an exploded view showing the mounting bracket of a guardrail system according to the present invention having means for anchoring the ends of the cables of the guardrail system and shown in relation to the ends of the cables. -
FIG. 30 is an isometric view of a yieldable guardrail post of a guardrail system according to the present invention. -
FIG. 31 is a view in side elevation of a yieldable guardrail post of a guardrail system according to the present invention. -
FIG. 32 is a head-on view of a yieldable guardrail post of a guardrail system according to the present invention. -
FIG. 33 is a view in side elevation of a second embodiment of the guardrail system according to the present invention. -
FIG. 34 is a top plan view of a second embodiment of the guardrail system according to the present invention. -
FIG. 35 is an isometric view from the left of a second embodiment of the guardrail system according to the present invention. -
FIG. 36 is an isometric view from the right of a second embodiment of the guardrail system according to the present invention. -
FIG. 37 is a view in side elevation of a releasable guardrail post according to the present invention. -
FIG. 38 is an isometric view of a releasable guardrail post according to the present invention. -
FIG. 39 is a top plan view of a releasable guardrail post according to the present invention. -
FIG. 40 is a view in side elevation of the catch member and lever arm of a releasable guardrail post according to the present invention. -
FIG. 41 is an isometric view of the catch member and lever arm of a releasable guardrail post according to the present invention. -
FIG. 42 is a head-on view of the catch member and lever arm of a releasable guardrail post according to the present invention. -
FIG. 43 is a view in side elevation of the catch member of a releasable guardrail post according to the present invention. -
FIG. 44 is a view in side elevation from the left of the beam of the releasable guardrail post according to the present invention. -
FIG. 45 is an isometric view of the beam of a releasable guardrail post according to the present invention. -
FIG. 46 is a top plan view of the beam of a releasable guardrail post according to the present invention. -
FIG. 47 is a head-on view of the beam of a releasable guardrail post according to the present invention. -
FIG. 48 is an isometric view of the base plate of a releasable guardrail post according to the present invention. -
FIG. 49 is a view in side elevation of the base plate of a releasable guardrail post according to the present invention. -
FIG. 50 is a head-on view of the base plate of a releasable guardrail post according to the present invention. -
FIG. 51 is a top plan view of the base plate of a releasable guardrail post according to the present invention. -
FIG. 52 is a view in side elevation from the right of the beam of the releasable guardrail post according to the present invention. -
FIG. 53 is a view in side elevation from the right of the sled of a guardrail system according to the present invention. -
FIG. 54 is a view in side elevation from the left of the sled of a guardrail system according to the present invention. -
FIG. 55 is a view in side elevation from the right of the catch member and lever arm of a guardrail system according to the present invention. -
FIG. 56 is a view in side elevation from the left of the catch member and lever arm of a guardrail system according to the present invention. -
FIG. 57 is a view from the vantage point of oncoming traffic showing the beam of a guardrail system according to the present invention with an alternative type of guide. - Similar reference characters denote corresponding features consistently throughout the drawings.
- Referring to
FIGS. 1-32 and 53-57, the present invention is directed to aguardrail system 100 having an impact absorbing terminal portion. The invention also includes a yieldable post design and a releasable post design that may be used as part of the guardrail system or separately. Theguardrail system 100 comprises asled 102, one or more guardrail posts 104, 106, one ormore cables more cable brakes cables - In the illustrated example, the
guardrail system 100 is provided with twocables cables cables sled 102 and theguardrail post 104 closest to thesled 102. Each of thecables sled 102 and a respectiveground anchor location sled 102 is positioned between theguardrail post 104 that is closest to the sled and theground anchor locations - The
cable brakes sled 102. Thecable brakes cable brakes first brake pad 120 and asecond brake pad 122 positioned on opposite sides of a respective one of thecables first brake pad 120 and thesecond brake pad 122 of each of thecable brakes cables - When the guardrail system is installed on a side of a road, the
sled 102 can move along thecables sled 102. The vehicle would impact thesled 102 with kinetic energy that must be dissipated gradually in order to bring the vehicle to a stop in a manner that reduces the likelihood and severity of injuries to the occupants of the vehicle. The frictional forces between thecables second brake pads cable brakes sled 102 moves along thecables guardrail post 104 nearest thesled 102. By selecting a sufficiently large predetermined value for the frictional forces between thecables second brake pads cable brakes sled 102 and theguardrail post 104 nearest thesled 102, a very substantial portion of the kinetic energy of the vehicle on impact can be dissipated by the frictional engagement between thecables brake pads - Each of the
cable brakes cable brake housing sled 102. Thefirst brake pad 120 and thesecond brake pad 122 for each of thecable brakes cable brake housing - Each of the
cable brake housings cable inlet 128, acable outlet 130, and opposingsidewall portions cable inlet 128 to thecable outlet 130 such that the opposingsidewall portions cable outlet 130 as compared to the opposingsidewall portions cable inlet 128. The taperingsidewall portions cable brake housing second brake pads respective cable brake sled 102 moves along thecables sled 102. Furthermore, the engagement of the taperingsidewall portions cable brake housing second brake pads respective cable brake second brake pads cable brakes sled 102 along thecables sled 102 moves along thecables sled 102. - As the
sled 102 moves along thecables sled 102, the tapering opposingsidewall portions cable brake housing second brake pads respective cable second brake pads - The
first brake pad 120 of eachcable brake hole 136 provided at a location that is at spaced separation from asurface portion 138 of the first brake pad that is in contact with therespective cable second brake pad 122 of eachcable brake hole 140 provided at a location that is at spaced separation from asurface portion 142 of thesecond brake pad 122 that is in contact with therespective cable surface portions respective brake housing respective brake housing surface portions - Each of the
cable brakes collar 144, a pair ofwedges bolts collar 144 has afirst surface 154 that faces away from the first andsecond brake pads respective cable brake first surface 154 of thecollar 144 is inclined from thecenterline 156 toward eitherside first surface 154, such that thecenterline 156 of thefirst surface 154 of thecollar 144 is depressed relative to both of thesides first surface 154 of thecollar 144. Therefore, thefirst surface 154 of thecollar 144 slopes forward toward thenearest guardrail post 104 on either side of thecenterline 156. Thecollar 144 also has an elongatedslot 162 extending on either side of thecenterline 156. Theslot 162 has a widenedmiddle portion 164 through which therespective cable cable brakes middle portion 164 has an outline that follows a circular arc on either side of theslot 162. The widenedmiddle portion 164 has a diameter that is large enough to allow thecable slot 162. - Each of the pair of
bolts head 166 and ashaft 168 that is threaded at least in part. Each of the pair ofwedges hole shaft 168 of a respective one of the pair ofbolts slot 162 is sized to provide clearance for theshaft 168 of each of the pair ofbolts cables shaft 168 of each of the pair ofbolts hole wedges slot 162 to engage a respective one of the threadedholes second brake pads slot 162 is sized to be wide enough on either side of themiddle portion 164 to provide clearance for theshaft 168 of a respective one of the pair ofbolts - To assemble one of the
cable brakes wedges first surface 154 of thecollar 144 on either side of thecenterline 156 of thefirst surface 154 of the collar. Then each of the pair ofbolts shaft 168 passes through thehole wedges slot 162 and engages a respective one of the threadedhole 136 of thefirst brake pad 120 and the threadedhole 140 of thesecond brake pad 122. Tightening the pair ofbolts head 166 of each of thebolts wedges second brake pads cable second brake pads - Each of the
cables wedges cable brake thick side 174 and athin side 176. Thethin side 176 is thinner or narrower than thethick side 174 and can be so narrow as to form a sharp edge. The pair ofwedges centerline 156 of thefirst surface 154 of thecollar 144 with a respective one of thecables wedges wedges first surface 154 of thecollar 144 with itsthick side 174 being positioned closer to thecenterline 156 of thefirst surface 154 of the collar compared to itsthin side 176, such that in operation thehead 166 of each of the pair ofbolts front surface wedges respective cable - As an alternative to the illustrated example, the cable brakes could be assembled with the
surface 154 facing the first andsecond brake pads brake pads surface 154 of thecollar 144. Thus, thebolts collar 144 and engage the threaded holes in thebrake pads collar 144 could be provided surfaces on both sides that are bilaterally inclined in relation to the centerline of the surface like thesurface 154. In this case brake pads having the beveled surfaces would be positioned on one side of the collar and thewedges bolts wedges collar 144 and engage the threaded holes in the brake pads in order to provide the required clamping action upon tightening of the bolts. - The
guardrail system 100 further includes a base 186 adapted for being anchored or fixed to the ground. Thebase 186 includes abase plate 188 and anelongated base post 190. Thebase post 190 is adapted for being buried at least in part in the ground to thereby anchor the base 186 to the ground in the illustrated embodiment. Thebase post 190 has a top that remains above ground. Thebase plate 188 can be attached to the top of thebase post 190 by, for example, welding. In the illustrated example, thebase plate 188 has asleeve 187 welded to its bottom surface. Thesleeve 187 fits into the top of thebase post 190, and thesleeve 187 and thebase post 190 each have one or more holes such that the holes of thesleeve 187 register with the holes of thebase post 190 to allow pins, rivets, bolts or the like to be used to attach thebase plate 188 to thebase post 190. - The
sled 102 further includes at least oneskid plate 192 capable of being supported on top of thebase plate 188 for essentially rectilinear movement parallel to thebase plate 188 upon the impact of a vehicle on thesled 102. Once theguardrail system 100 is installed at a site, thecables base plate 188 is inclined such that it slopes upward or rises in the direction of oncoming traffic shown by arrow T. - The
base plate 188 is provided with aguide 194 that assists in guiding theskid plate 192, and thus thesled 102, during the initial rectilinear movement of theskid plate 192 andsled 102 relative to thebase plate 188 due to the impact of a vehicle. Theguide 194 can take a variety of forms as shown in the drawings. Theguide 194 can be in the form of achannel 196 that receives a portion of theskid plate 192 once theguardrail system 100 is installed at a given site. Thechannel 196 is provided on one side of thebase plate 188 and is coextensive with the side of thebase plate 188 that is substantially perpendicular to thecables base plate 188 in relation to the direction of flow of traffic. In other words, thechannel 196 is coextensive with the side of thebase plate 188 that is closest to theground anchor locations channel 196 can be closed off as shown in the drawings to form apocket 196. The channel orpocket 196 receives the portion of theskid plate 192 that includes the side or edge of theskid plate 192 that is closest to theground anchor locations pocket 196 and the slopingbase plate 188 can cooperate to keep thesled 102 in position over the base 186 during assembly and thus can facilitate the installation of theguardrail system 100. - In another one of the illustrated embodiments, the
guide 194 is in the form of achannel 198 that receives a portion of theskid plate 192 once theguardrail system 100 is installed at a given site. In this instance, theguide 194 is in the form of two opposingchannels 198 provided on either side of thebase plate 188 that receive portions of theskid plate 192 on either side of theskid plate 192. The opposingchannels 198 are provided on either side of thebase plate 188 such that they extend substantially parallel to thecables - The
sled 102 further includes abeam 200. Thebeam 200 supports thecable brake housings skid plate 192 is attached to thebeam 200 at the lower end of thebeam 200. Theguardrail system 100 further includes acatch member 202 that is pivotally attached to thebeam 200. Thecatch member 202 pivots about a horizontal pivot axis and thecatch member 202 is pivotally movable between a raised position and a lowered position. - The
sled 102 is mounted on the base 186 with thecatch member 202 positioned substantially on the side of thebeam 200 that faces toward oncoming traffic. When thecatch member 202 is in the lowered position, thecatch member 202 has aportion 204 that overlaps at least a portion of thebase 186, such as thebase plate 188, as seen from the view of oncoming traffic such that movement of thesled 102 relative to the base 186 in the same direction as oncoming traffic would essentially be prevented by interference between thecatch member 202 and thebase 186. - The
guardrail system 100 further includes alever arm 206 that is attached to thecatch member 202 such thatlever arm 206 and thecatch member 202 move as a unit. Thecatch member 202 is movable between the lowered position and the raised position responsive to thelever arm 206 moving between a first position and a second position. Thecatch member 202 is in the lowered position when thelever arm 206 is in the first position. Thecatch member 202 moves toward the raised position as thelever arm 206 is moved toward the second position which is closer to thebeam 200 compared to the first position. - After installation of the
guardrail system 100 at a site, thesled 102 is mounted on the base 186 with thecatch member 202 positioned substantially on the side of thebeam 200 that faces toward oncoming traffic. Thecatch member 202 is normally in the lowered position and thecables cable brakes sled 102, the vehicle first impacts thelever arm 206 and moves it to the second position before the vehicle impacts thesled 102. Therefore, thecatch member 202 is moved to the raised position before the vehicle impacts thesled 102. Accordingly, thesled 102 is first freed for rectilinear motion relative to the base 186 before the vehicle impacts thesled 102, such that thesled 102 can move relative to the base due to impact energy being imparted to thesled 102 by the vehicle and thus gradually slow down the vehicle. - The
catch member 202 includes twoparallel plates catch plate 212 that extends between theparallel plates parallel plates hole hole 214 of the first one of theparallel plates 208 is in registry with thehole 216 of the second one of theparallel plates 210. Eachhole parallel plate catch plate 212. One or more shafts orpins 218 pass through one or more openings, there are twoopenings beam 200 and through eachhole parallel plate catch member 202 to thebeam 200. Animpact plate 222 is preferably attached to thelever arm 206 to provide a larger surface area over which the impact of a vehicle can operate thelever arm 206 and consequently thecatch member 202. - The
guardrail system 100 may also include one ormore guardrail sections 224. Theguardrail sections 224 are preferably of the type having a W-shaped cross section. Each guardrail section has afront side 226 and aback side 228. Thefront side 226 has a central valley ortrough 230 that extends longitudinally along the length of theguardrail section 224 and thefront side 226 also has a pair ofpeaks back side 228 has acentral peak 236 that extends longitudinally along the length of theguardrail section 224 and theback side 228 also has a pair ofvalleys guardrail section 224. - Each of the
cables cable ground anchor location cable location back side 228 of theguardrail section 224 when the guardrail system is installed on the side of a road. - In the illustrated embodiment, the
guardrail system 100 includes a plurality ofguardrail sections 224. At least one of theguardrail sections 224 is supported at least in part by theguardrail post 104 nearest to thesled 102. The second end of eachcable locations respective trough guardrail sections 224 when theguardrail system 100 is installed on the side of a road. - The second end of each
cable locations shaft respective cable guardrail system 100 further includes a mountingbracket 250. The mountingbracket 250 is used for attaching at least one of the plurality ofguardrail sections 224 to one of the guardrail posts 104, 106. In particular, the mountingbracket 250 is used for attaching at least one of theguardrail sections 224 to one of the guardrail posts 104, 106 corresponding to thelocations cables bracket 250 includes at least one sleeve having a bore with a diameter that is large enough to allow one of the threadedshafts bracket 250 includes twosleeves cables sleeve shafts sleeve - One threaded
nut shaft shaft nut respective sleeve nut shaft cables sled 102, on an opposite side of thesleeves cables guardrail sections 224, when theguardrail system 100 is installed on the side of a road. - The mounting
bracket 250 has abottom plate 251 and twoside plates bottom plate 251. The twoside plates bottom plate 251 to give the mountingbracket 250 an approximately V-shaped cross section. The mountingbracket 250 is dimensioned and configured to fit over themiddle peak 236 of theback side 228 of theguardrail sections 224. Thebottom plate 251 has holes that allow it to be bolted to the guardrail posts 104, 106. Theside plates guardrail sections 224 to be bolted to the mountingbracket 250. Standard or frangible bolts may be used as necessary, both to bolt theguardrail sections 224 to the mountingbracket 250 and to bolt the mountingbracket 250 to the guardrail posts 104, 106, depending upon the location of the mountingbracket 250 in theguardrail system 100 as will be described later. The mountingbracket 250 also hasflanges side plates bottom plate 251. Theflanges valleys back side 228 of theguardrail sections 224 when aguardrail section 224 is bolted to the mountingbracket 250. Each of thesleeves bracket 250 at the angle formed between a respective one of theflanges side plates - The
guardrail system 100 also includes ananchor structure 264 for anchoring the first end of each of thecables ground anchor locations guardrail system 100 is installed on the side of a road. Theanchor structure 264 includes ananchor post 266, a pair ofbars angled plates cables anchor post 266 is adapted for being buried at least in part below ground to thereby anchor theanchor post 266 to the ground. In use theanchor post 266 is positioned upstream of thebase post 190 relative to the direction of traffic flow in a lane of the road nearest theguardrail system 100 as indicated by the arrow T. - The
bars anchor post 266 and thebase post 190. Each of the pair ofbars bars anchor post 266 proximate its first end, and each of the pair ofbars base post 190 proximate its second end. The pair ofbars anchor post 266 and thebase post 190 using means that include but are not limited to bolts, rivets, and welding. In the illustrated example, the pair ofbars cap 267 that fits over the top of theanchor post 266. Thecap 267 has three sides and the pair ofbars cap 267 on either side to for a five sided box that fits over the top of theanchor post 266. The pair ofbars anchor post 266 have holes that register with one another, and one or more bolts or rivets can be used to attach the pair ofbars cap 267, and theanchor post 266 together. Alternatively, thecap 267 can be five sided and also have holes that register with the holes in the pair ofbars anchor post 266. Again, one or more bolts or rivets can be used to attach the pair ofbars cap 267, and theanchor post 266 together. Theangled plates bars anchor post 266 and thebase post 190. Theangled plates angled plates inclined portion bars anchor post 266. Theinclined portions bars cables shaft inclined portions opening shafts openings inclined portions - A pair of threaded
nuts shafts cables ground anchor locations nuts respective openings inclined portions nuts shafts cables cables inclined portions sled 102 on the sides of theinclined portions nuts cables ground anchor locations guardrail system 100 is installed on the side of a roadway. In the illustrated embodiment, theopenings inclined portions guardrail system 100. - The manner in which the
base post 190 or any of the guardrail posts 104, 106, or theanchor post 266 are fixed to the ground can vary depending upon the requirements of the particular location where theguardrail system 100 is being installed, especially the nature of the surface over which theguardrail system 100 is to be installed. For example, if theguardrail system 100 is being installed over a concrete foundation, the elongated portions of thebase post 190, the guardrail posts 104, 106, and theanchor post 266 that are intended for being buried under the ground surface can be replaced by a flange or plate having a plurality of holes attached to the bottom of these various posts. Each of these various posts can then be positioned on the concrete foundation such that anchor bolts embedded in the concrete foundation extend through the holes in the flange or plate attached to the bottom of the post. Threaded nuts engaging the anchor bolts can then be tightened down over the flange or plate attached to the bottom of the post in order to secure or fix the post in place over the concrete foundation. As yet another alternative, the elongated portions of thebase post 190, the guardrail posts 104, 106, and theanchor post 266 that are intended for being buried under the ground surface can be placed in holes in the ground that are backfilled with concrete. Furthermore, one or more of the various modes for securing or fixing the various posts in place that are mentioned above can be combined as conditions require in a given installation of theguardrail system 100. - As a way of conveniently referencing parts of the invention, the cable 108, the cable 110, the cable brake 112, the cable brake 114, the sleeve 252, the sleeve 254, the angled plate 272, the angled plate 274, the threaded shaft 246, the threaded shaft 280, the threaded shaft 248, the threaded shaft 282, the nut 260, the nut 288, the nut 262, the nut 290, the ground anchor location 116, the location 242, the ground anchor location 118, the location 244, the brake pad 120 of the cable brake 112, the brake pad 122 of the cable brake 112, the brake pad 120 of the cable brake 114, and the brake pad 122 of the cable brake 114 are respectively referred to as the first cable, the second cable, the first cable brake, the second cable brake, the first sleeve, the second sleeve, the first angled plate, the second angled plate, the first threaded shaft, the second threaded shaft, the third threaded shaft, the fourth threaded shaft, the first threaded nut, the second threaded nut, the third threaded nut, the fourth threaded nut, the first anchor location, the second anchor location, the third anchor location, the fourth anchor location, the first brake pad, the second brake pad, the third brake pad, and the fourth brake pad in some of the appended claims.
- In the illustrated embodiments of the guardrail system, one or more of the guardrail posts nearest the
sled 102 areyieldable guardrail post 104 designed to yield at a predetermined impact force. The guardrail posts 106 are standard guardrail posts. The use ofyieldable guardrail post 104 for the several guardrail posts nearest thesled 102 provides an added measure of safety in the event that the energy from the impact of the vehicle is not completely dissipated before thesled 102 reaches thenearest guardrail post 104 by providing for continued gradual dissipation of the impact energy. Thus vehicles with a wider range weights and speeds can more safely be brought to a stop in head-on collisions with the end unit or portion of theguardrail system 100. - Each
yieldable guardrail post 104 includes a firstelongated member 292, a secondelongated member 294, and areinforcement plate 296. The firstelongated member 292 has anelongated back plate 298 and twoside plates side plates back plate 298 on either side of theback plate 298 to thereby give the first elongated member 292 a channel-shaped cross section. The secondelongated member 294 has anelongated back plate 304 and twoside plates side plates elongated member 294 project at right angles to theback plate 304 of the secondelongated member 294 on either side of theback plate 304 of the secondelongated member 294 to thereby give the second elongated member 294 a channel-shaped cross section The firstelongated member 292 and the secondelongated member 294 are attached together with theirrespective back plates beam 310 having an H-shaped cross section. The secondelongated member 294 has aslit 312 transverse to the longitudinal axis of the secondelongated member 294 that transects the second elongated member. When thepost 104 is installed, the side with theslit 312 faces toward oncoming traffic. - The
reinforcement plate 296 is attached to theback plate elongated members slit 312 in the secondelongated member 294. In the illustrated embodiment, thereinforcement plate 296 is attached to theback plate 304 of one of the secondelongated member 294 and faces toward oncoming traffic when thebeam 104 is installed. In the illustrated embodiment, two rows ofrivets beam 310 and passing throughback plates elongated member 292 and the secondelongated member 294 together. There is a gap in the rows ofrivets reinforcement plate 296 along thebeam 310. Thereinforcement plate 296 is attached to theback plate 304 of the secondelongated member 294 by two rows ofrivets rivets reinforcement plate 296 and pass throughback plate 304. The two rows ofrivets rivets elongated member 292, the secondelongated member 294, and thereinforcement plate 296 can be varied to determine the predetermined threshold impact energy at which thepost 104 will yield. A specific predetermined threshold impact energy at which thepost 104 will yield can be determined for a specific application by routine experimentation. - In the illustrated embodiment, each of the
guardrail sections 224 overlaps a portion of eachadjacent guardrail section 224 over at least oneguardrail post adjacent guardrail sections 224. Beginning with theguardrail section 224 that is closest to thesled 102, a portion of eachguardrail section 224 covers over a portion of thefront side 226 of the succeedingguardrail section 224. Theguardrail sections 224 are attached to the guardrail posts 104 and at least theguardrail post 106 nearest to the guardrail posts 104 by frangible fasteners such that theguardrail sections 224 will collapse in a roughly telescoping fashion in the event that the energy from the impact of the vehicle is not completely dissipated before thesled 102 reaches thenearest guardrail post 104 and thesled 102 is pushed beyond thenearest guardrail post 104 by the impacting vehicle. Thus the spearing of the impacting vehicle by theguardrail sections 224 is prevented. Thecables ground anchor locations guardrail post 104 that is nearest thesled 102. In the illustrated example, thecables ground anchor locations guardrail post 104 that is nearest thesled 102 and continue to extend over the distance covered by theguardrail sections 224 that are supported in whole or in part by the yieldable guardrail posts 104. Accordingly, thecables ground anchor locations guardrail post 106 that is nearest the guardrail posts 104. - The
guardrail system 100 also includes acable guide 322. Thecable guide 322 includes a wedge-shapedcap 324 and twotubular sleeves cap 324 is made of sheet metal and has awide end 330 and anarrow end 332 with thecap 324 tapering from the wide end to the narrow end. Thewide end 330 of thecap 324 is dimensioned and configured to fit over the end nearest thesled 102 of theguardrail section 224 nearest thesled 102, and thecap 324 is fixed to that end of that guardrail section using nuts and bolts. With thecap 324 fixed to the end of the guardrail section, thesleeves valleys back side 228 of the guardrail nearest thesled 102. Accordingly, thecables sleeves cables guardrail section 224 nearest thesled 102. - The
guardrail system 100 is also provided with a protective sheet metal covering 334 that covers thecable brakes cable brakes - The
guardrail system 100 has the desirable feature that thecables cable brakes cables cables cables cables sled 102 and within at least six inches of thesled 102, as measured along the respective cable, form internal angles that are all greater than or equal to 100° and less than or equal to 180°. More preferably the internal angles formed by any bends in the aforementioned portion of thecables cables cables cable brake housings cable outlet 130 of each respectivecable brake housing - In cases were the bend is well defined, as in the illustrated examples, the internal angle formed by any bend in the
cables cable portion 105 in question if thedirection vector 107 of the cable at a selected end point a of the cable portion in question is placed in tip to tale relationship with thedirection vector 109 of the cable at the point β within the cable portion in question then the two vectors would define an obtuse internal angle θ. This of course requires that the two direction vectors are both directed in the direction of increasing distance measured along the cable from a common origin point that is located outside the portion of cable in question (seeFIGS. 58 and 59 ). The same preferred ranges of angles mentioned previously also apply to the internal angle θ defined when the direction vector of the cable at the selected end point a of the cable portion in question is placed in tip to tale relationship with the direction vector of thecable cable portion 105. - An optional method for installing the
guardrail system 100, provided as an example of final assembly and constructability, will now be described. The guardrail is constructed in the normal except for the terminal portion of the guardrail. One or more, preferably several, guardrail posts 104 are fixed to the surface proximate the roadway upstream of thelast guardrail post 106 in relation to the direction of flow of traffic. Theguardrail sections 224 are mounted to the guardrail posts 104, 106 such that at least all the distances between the guardrail posts are spanned byguardrail sections 224. Theguardrail sections 224 should be mounted to one or more of the guardrail posts 106 near the guardrail posts 104 with a mountingbracket 250 having thesleeves sleeves bracket 250 but lacking thesleeves particular guardrail section 224 to theguardrail post bracket 250 is used to attach theguardrail section 224 to the guardrail posts 106 nearest the guardrail posts 104. Thecable guide 322 can now be fixed to the end of theguardrail section 224 that is farthest upstream of theother guardrail sections 224 in relation to the direction of the flow of traffic in the lane nearest theguardrail system 100, i.e. theguardrail section 224 that is to eventually be the closest to thesled 102. - The guardrail posts 104, 106 are fixed to the surface proximate the roadway downstream of the
sled 102 in relation to the direction of the flow of traffic in the lane nearest theguardrail system 100. Accordingly, thebase 186 is fixed to the surface proximate the roadway upstream of the guardrail posts 104, 106 in relation to the direction of the flow of traffic in the lane nearest theguardrail system 100. - The
anchor structure 264 can then be fixed to the surface proximate the roadway upstream of the base 186 in relation to the direction of the flow of traffic. Thebase 186 and theanchor structure 264 may be prefabricated into a single assembly prior to being fixed to the surface proximate the roadway. Thesled 102 can then be positioned atop thebase plate 188. - The
shafts cables sleeves bracket 250 that is located farthest from thesled 102 and thenuts shafts cables bracket 250 that is located farthest from thesled 102. Thecables valleys back side 228 of theguardrail sections 224 and through thesleeves cable guide 322. Each of thecollars 144 is then placed around a respective one of thecables cables cable brake housing sled 102. Thus thecables sled 102. Each of thecollars 144 is placed around a respective one of thecables first surface 154 of thecollar 144 faces away from thesled 102. - The
shafts cables slots angled plates nuts shafts cables sled 102 relative to the direction of traffic flow in a lane of the road nearest theguardrail system 100. Accordingly, a portion of thecables sled 102 and theguardrail post 104 nearest thesled 102. Thecollars 144 are positioned intermediate thesled 102 and thecable guide 322. - Next a pair of
brake pads cable 108 such that thebrake pads brake housing 124. Thecollar 144 oncable 108 is then brought into contact with thebrake pads cable 108, with thefirst surface 154 of thecollar 144 facing away from thebrake pads wedges cable brake 112 are each positioned in contact with a respective sloping portion of thefirst surface 154 of thecollar 144 on either side of the centerline of thefirst surface 154 of thecollar 144. Each of the pair ofbolts cable brake 112 is positioned such that its shaft passes through thehole wedges slot 162 of thecollar 144 and engages a respective one of the threadedholes second brake pads bolts second brake pads cable 108 is clamped between the first andsecond brake pads cable brake 112, and thus frictional forces between thecable 108 and the first andsecond brake pads cable brake 112 are set at a predetermined level. - Similarly, a pair of
brake pads cable 110 such that thebrake pads brake housing 126. Thecollar 144 oncable 110 is then brought into contact with thebrake pads cable 110, with thefirst surface 154 of thecollar 144 facing away from thebrake pads wedges cable brake 114 are each positioned in contact with a respective sloping portion of thefirst surface 154 of thecollar 144 on either side of the centerline of thefirst surface 154 of thecollar 144. Each of the pair ofbolts cable brake 114 is positioned such that its shaft passes through thehole wedges slot 162 of thecollar 144 and engages a respective one of the threadedholes second brake pads bolts second brake pads cable 110 is clamped between the first andsecond brake pads cable brake 114, and thus frictional forces between thecable 110 and the first andsecond brake pads cable brake 114 are set at a predetermined level. - In each of the
cable brakes wedges first surface 154 of thecollar 144 with therespective cable wedges wedges first surface 154 of thecollar 144 with its thick side being positioned closer to the centerline of thefirst surface 154 of the collar than its thin side. Thus, in operation the head of each of the pair ofbolts wedges respective cable - Loosening the
nuts nuts brake pads cable brake 112 and thebrake pads cable brake 114 such that thebrake pads cable brake 112 and thebrake pads cable brake 114 are positioned snugly within therespective brake housings - Thus the
brake pads cable brake 112 and thebrake pads cable brake 114 are frictionally engaged to thecables brake pads cable brake 112 and thebrake pads cable brake 114 positioned relative to thesled 102 such that thebrake pads cable brake 112 and thebrake pads cable brake 114 would interfere with movement of thesled 102 toward theguardrail post 104 nearest thesled 102 over at least a substantial portion of a distance between thesled 102 and thenearest guardrail post 104 upon impact of a vehicle on thesled 102. - Furthermore, the interference with the movement of the
sled 102 toward thenearest guardrail post 104 due to the engagement of thebrake pads cable brakes sled 102 can move along thecables sled 102, when the vehicle impacts thesled 102 with energy above a predetermined threshold level, while the frictional forces between thecables brake pads cable brakes - The distance between the
sled 102 and the nearestyieldable post 104, the threshold impact energy level for overcoming the friction due to thecable brakes - Referring to
FIGS. 33-36 , asecond embodiment 400 of the present invention can be seen. In the interest of brevity only the differences between theguardrail systems guardrail systems guardrail system 400 theguardrail sections 224 completely span the distance between thesled 402 and thenearest guardrail post 404. The guardrail posts 404 are wooden and are drilled atlocations guardrail system 400. Theguardrail system 400 does not have acable guide 322. - The
sled 402 does not have aprotective cover 334, and thesled 402 lacks thecatch member 202 andlever arm 206. Thesled 402 is provided with afixed impact plate 522. Thebase plate 488 lacks any kind of guide likeguide 194. Thesled 402, and consequently theskid plate 492, simply rests atop thebase plate 488. Theskid plate 492 has a forward portion that is turned up in a manner resembling skis to prevent thesled 402 from digging into the ground and getting stuck after impact. - In the
guardrail system 400 theangled plates tubular structures tubular sleeves guardrail systems - Referring to
FIGS. 37-52 , areleasable post 700 that can be substituted for theyieldable posts 104 can be seen. Thereleasable post 700 includes abase 786, abeam 800, askid plate 792, and acatch member 802. In the illustrated example, thebase 786 includes anelongated base post 790 adapted for being buried at least in part below ground to thereby anchor thereleasable post 700 to the ground. As discussed previously with respect to thebase 186 and theposts base post 790 can be replaced by other structures depending on the nature of the surface to which thereleasable post 700 is to be fixed. The base 786 also includes abase plate 788 that is attached to the top of thebase post 790. In the illustrated example, thebase plate 788 has asleeve 787 welded to its bottom surface. Thesleeve 787 fits into the top of thebase post 790, and thesleeve 787 and thebase post 790 each have one or more holes such that the holes of thesleeve 787 register with the holes of thebase post 790 to allow pins, rivets, bolts or the like to be used to attach the base plate to thebase post 790. Alternatively, thebase plate 788 can be directly welded to the top of thebase post 790. - The
skid plate 792 is attached to the lower end of thebeam 800. Thecatch member 802 is pivotally attached to thebeam 800 such that thecatch member 802 pivots about a pivot axis. Thecatch member 802 is pivotally movable between a raised position and a lowered position. When thebase post 790 is buried at least in part below ground and thebeam 800 is mounted on thebase plate 788 with theskid plate 792 supported by thebase plate 788 and thecatch member 802 is in the lowered position, thecatch member 802 has a portion that overlaps at least a portion of at least one of thebase plate 788 and thebase post 790 such that rectilinear movement of thebeam 800 relative to thebase post 790 in a predetermined direction would essentially be prevented by interference between thecatch member 802 and at least one of thebase plate 788 and thebase post 790. Alever arm 806 is attached to thecatch member 802. Thecatch member 802 is movable between the lowered position and the raised position responsive to thelever arm 806 moving between a first position and a second position. Thecatch member 802 moves toward the raised position as thelever arm 806 is moved toward the second position which is closer to thebeam 800 as compared to the first position. - When the
catch member 802 is in the lowered position, an impact on thelever arm 806 that moves thelever arm 806 to the second position frees thebeam 800 for rectilinear motion relative to thebase post 790 in the predetermined direction. In most applications the predetermined direction would be the same as the direction of on-coming traffic. - The
catch member 802 is similar to thecatch member 202 and thecatch member 802 includes twoparallel plates catch plate 812 that extends between theparallel plates parallel plates hole hole 814 of the first one of theparallel plates 808 is in registry with thehole 816 of the second one of theparallel plates 810. Eachhole parallel plate catch plate 812. One or more shafts orpins 818 pass through one or more openings, there are twoopenings beam 800 and through eachhole parallel plate catch member 802 to thebeam 800. Abumper 822 is preferably attached to thelever arm 806 to minimize damage to thereleasable post 700. - In the illustrated example, the
base plate 788 is inclined such that it slopes upward in the predetermined direction when thebase post 790 is buried at least in part below ground. Thebase plate 788 is provided with a guide 794 that guides theskid plate 792 during the rectilinear movement of theskid plate 792 relative to thebase plate 788. All the same types ofguides 194 discussed in relation to thebase plate 188 may also be used with thebase plate 788. In the illustrated example, the guide 794 is in the form of apocket 796 that receives a portion of theskid plate 792. Theguardrail sections 224 can be attached to thebeam 800 in the same manner in which they are attached to the guardrail posts 104 and 106. - The
beams lever arms skid plates catch members impact plate 222, and thebumper 822 may be provided with various slots, holes, or openings, for example theslots - In some applications it may be desirable to use washers between the nuts 260, 262, 288, or 290 and the corresponding sleeves or angled plates. The washers may prevent damage to contact surfaces when the nuts are tightened, may provide greater surface area for better distribution of forces, and may be needed to enhance the size of the nuts where the nuts are smaller than would be desirable relative to the size of the corresponding openings in the sleeves and angled plates.
- It should be noted that the sled and cable brake system of the present invention can be used in conjunction with a variety of barrier systems. The sled and cable brake system of the present invention can be used with barriers in the form of corrugated metal beams including “W-Beam” or “Thrie-Beam” barriers such as shown in
FIG. 1 . The impact-absorbing sled and cable brake system of the present invention can be used with wire ripe cable barriers—tensioned or un-tensioned. The sled and cable brake system of the present invention can be used with concrete barriers such as bridge parapets, piers or columns. In the case of use with concrete barriers, thecable guide 322 and mountingbracket 250 would have to be modified accordingly in order to attach or anchor thecables - It is to be understood that the present invention is not limited to the embodiments described above, but encompasses any and all embodiments within the scope of the following claims.
Claims (60)
1. An impact absorbing system for use with a barrier positioned proximate a pathway for use by vehicular traffic, the impact absorbing system comprising:
a sled;
at least one cable having a portion extending between the barrier and said sled and a portion extending between said sled and a first anchor location proximate the pathway, in use said sled being positioned between the barrier and said first anchor location; and
a cable brake supported by said sled, wherein a portion of said cable passing through said sled and extending at least six inches on either side of said sled follows a non-tortuous path,
whereby when the impact absorbing system is installed proximate the pathway, said sled can move along said cable upon impact of a vehicle on said sled, the vehicle impacting said sled with energy, and with frictional forces between said cable and said cable brake dissipating at least a portion of the energy from the impact.
2. The impact absorbing system of claim 1 , wherein for each and every point within said portion of said cable passing through said sled and extending at least six inches on either side of said sled if a direction vector of said cable at a selected end point of said portion of said cable is placed in tip to tale relationship with a direction vector of said cable at a point within said portion of said cable then said direction vector of said cable at said selected end point and said direction vector of said cable at said point within said portion of said cable define an internal angle in the range of 100° to 180°.
3. The impact absorbing system of claim 1 , wherein internal angles formed by any bends in said portion of said cable passing through said sled and extending at least six inches on either side of said sled are in the range of greater than or equal to 100° to less than or equal to 180°.
4. The impact absorbing system of claim 1 , wherein internal angles formed by any bends in said portion of said cable passing through said sled and extending at least six inches on either side of said sled are in the range of greater than or equal to 110° to less than or equal to 180°.
5. A guardrail system having an impact absorbing terminal portion comprising:
a sled according to claim 1;
a barrier comprising at least one guardrail post adapted for being fixed to a surface proximate a roadway;
at least one cable having a portion extending between said guardrail post and said sled and a portion extending between said sled and a first anchor location near the surface proximate the roadway, in use said sled being positioned between said guardrail post and said first anchor location; and
a cable brake supported by said sled, said cable brake comprising at least a first brake pad and a second brake pad positioned on opposite sides of said cable, said first brake pad and said second brake pad frictionally engaging said cable in use,
whereby when the guardrail system is installed on a side of the roadway, said sled can move along said cable upon impact of a vehicle on said sled, the vehicle impacting said sled with energy, with frictional forces between said cable and said first and second brake pads dissipating at least a portion of the energy from the impact.
6. The guardrail system of claim 5 , wherein said cable brake further comprises a cable brake housing incorporated in said sled, and wherein said first brake pad and said second brake pad are received in said cable brake housing.
7. The guardrail system of claim 6 , wherein said cable brake housing has a cable inlet, cable outlet, and opposing sidewall portions that are tapering from said cable inlet to said cable outlet such that said opposing sidewall portions are closer together near said cable outlet as compared to said opposing sidewall portions near said cable inlet
whereby as said sled moves along said cable upon impact of a vehicle on said sled, said tapering opposing sidewall portions tend to more forcefully squeeze said first and second brake pads toward one another such that said frictional forces between said cable and said first and second brake pads are increased.
8. The guardrail system of claim 7 , wherein said first brake pad has a threaded hole provided at a location that is at spaced separation from a surface portion of said first brake pad that is in contact with said cable when in use, wherein said second brake pad has a threaded hole provided at a location that is at spaced separation from a surface portion of said second brake pad that is in contact with said cable when in use, and wherein said cable brake further comprises:
a collar having a first surface facing away from said first and second brake pads when said cable brake is fully assembled, said first surface of said collar declining from either side of said collar toward a centerline of said first surface of said collar such that said centerline of said first surface of said collar is depressed relative to either side of said first surface of said collar with said first surface of said collar sloping forward on either side of said centerline, said collar having an elongated slot extending on either side of said centerline,
a pair of bolts each having a head and a shaft that is threaded at least in part; and
a pair of wedges each having a hole that is sized to provide clearance for said shaft of a respective one of said pair of bolts and said slot being sized to provide clearance for said shaft of each of said pair of bolts and said cable such that said shaft of each of said pair of bolts can pass through said hole of a respective one of said pair of wedges and said slot to engage a respective one of said threaded hole of said first brake pad and said threaded hole of said second brake pad,
wherein when each of said pair of wedges is positioned in contact with a respective sloping portion of said first surface of said collar on either side of said centerline of said first surface of said collar, and when each of said pair of bolts is positioned such that its shaft passes through said hole of said respective one of said pair of wedges and said slot and engages a respective one of said threaded hole of said first brake pad and said threaded hole of said second brake pad, tightening said pair of bolts with said head of each of said bolts being in contact with said respective one of said pair of wedges tends to force said first and second brake pads toward one another such that frictional forces between said cable and said first and second brake pads are increased.
9. The guardrail system according to claim 8 , wherein said cable has a longitudinal axis, wherein each of said pair of wedges has a thick side and a thin side, wherein said pair of wedges are positioned on opposite sides of said centerline of said first surface of said collar with said cable passing between said pair of wedges, and wherein each of said pair of wedges is placed in contact with said respective sloping portion of said first surface of said collar with its thick side being positioned closer to said centerline of said first surface of said collar than its thin side such that in operation said head of each of said pair of bolts is in contact with a front surface of a respective one of said pair of wedges that is essentially perpendicular to said longitudinal axis of said cable.
10. The guardrail system according to claim 9 , wherein said slot has a widened middle portion through which said cable passes in operation, said widened middle portion having an outline that follows a circular arc on either side of said slot.
11. The guardrail system according to claim 5 , wherein the guardrail system comprises a base adapted for being fixed to the surface proximate the roadway, wherein said base comprises a base plate, and wherein said sled further comprises at least one skid plate capable of being supported on top of said base plate for essentially rectilinear movement parallel to said base plate upon impact of the vehicle on said sled.
12. The guardrail system according to claim 11 , wherein when in use said base plate is inclined such that it slopes upward in the direction of oncoming traffic.
13. The guardrail system according to claim 11 , wherein said base plate is provided with a guide that guides said skid plate during said rectilinear movement of said skid plate relative to said base plate.
14. The guardrail system according to claim 13 , wherein said guide is in the form of a channel that receives a portion of said skid plate.
15. The guardrail system according to claim 13 , wherein said guide is in the form of opposing channels on either side of said base plate that receive portions of said skid plate on either side of said skid plate.
16. The guardrail system according to claim 13 , wherein said guide is in the form of a pocket that receives a portion of said skid plate.
17. The guardrail system according to claim 11 , wherein said sled further comprises a beam, said beam has a lower end, said beam supports said cable brake housing and said skid plate is attached to said beam at said lower end of said beam.
18. The guardrail system according to claim 17 , further comprising a catch member pivotally attached to said beam such that said catch member pivots about a horizontal pivot axis, said catch member being pivotally movable between a raised position and a lowered position,
when said sled is mounted on said base with said catch member positioned substantially on the side of said beam that faces toward oncoming traffic and with said catch member in the lowered position, said catch member has a portion that overlaps at least a portion of said base as seen from the view of oncoming traffic such that movement of said sled relative to said base in the same direction as oncoming traffic would essentially be prevented by interference between said catch member and said base.
19. The guardrail system according to claim 18 , further comprising a lever arm attached to said catch member, said catch member being movable between said lowered position and said raised position responsive to said lever arm moving between a first position and a second position such that said catch member moves toward said raised position as said lever arm is moved toward said second position which is closer to said beam compared to said first position,
whereby when said sled is mounted on said base with said catch member positioned substantially on the side of said beam that faces toward oncoming traffic and with said catch member in the lowered position and with said cable being in engagement with said cable brake, said lever arm is moved to said second position by a vehicle in the process of colliding with said sled before the vehicle has an impact upon said sled to thereby free said sled for rectilinear motion relative to said base such that said sled can move relative to said base due to the impact energy imparted to said sled by the vehicle and gradually slow down the vehicle.
20. The guardrail system according to claim 19 , wherein said catch member comprises two parallel plates that are spaced apart from one another and a catch plate extending between said parallel plates, each of said parallel plates being provided with a hole and with said hole of a first one of said parallel plates being in registry with said hole of a second one of said parallel plates, wherein each said hole in each of said parallel plates is located at spaced separation from said catch plate, wherein the guardrail system further comprises a shaft passing through an opening in said beam and through each said hole in each of said parallel plates to thereby pivotally attach said catch member to said beam, and
wherein when said sled is mounted on said base with said catch member positioned substantially on the side of said beam that faces toward oncoming traffic and with said catch member in the lowered position, a portion of said catch plate overlaps at least a portion of said base as seen from the view of oncoming traffic such that movement of said sled relative to said base in the same direction as oncoming traffic would essentially be prevented by interference between said catch member and said base.
21. The guardrail system according to claim 11 , further comprising a catch member pivotally attached to said sled such that said catch member pivots about a horizontal pivot axis, said catch member being pivotally movable between a raised position and a lowered position,
when said sled is mounted on said base with said catch member positioned substantially on the side of said sled that faces toward oncoming traffic and with said catch member in the lowered position, said catch member has a portion that overlaps at least a portion of said base as seen from the view of oncoming traffic such that movement of said sled relative to said base in the same direction as oncoming traffic would essentially be prevented by interference between said catch member and said base.
22. The guardrail system according to claim 21 , further comprising a lever arm attached to said catch member, said catch member being movable between said lowered position and said raised position responsive to said lever arm moving between a first position and a second position such that said catch member moves toward said raised position as said lever arm is moved toward said second position which is closer to said brake housing compared to said first position,
whereby when said sled is mounted on said base with said catch member positioned substantially on the side of said sled that faces toward oncoming traffic and with said catch member in the lowered position and with said cable being in engagement with said cable brake, said lever arm is moved to said second position by a vehicle in the process of colliding with said sled before the vehicle has an impact upon said sled to thereby free said sled for rectilinear motion relative to said base such that said sled can move relative to said base due to the impact energy imparted to said sled by the vehicle and gradually slow down the vehicle.
23. The guardrail system according to claim 22 , further comprising an impact plate attached to said lever arm.
24. The guardrail system according to claim 21 , wherein said catch member comprises two parallel plates that are spaced apart from one another and a catch plate extending between said parallel plates, each of said parallel plates being provided with a hole and with said hole of a first one of said parallel plates being in registry with said hole of a second one of said parallel plates, wherein each said hole in each of said parallel plates is located at spaced separation from said catch plate, wherein the guardrail system further comprises a shaft passing through an opening in said sled and through each said hole in each of said parallel plates to thereby pivotally attach said catch member to said sled, and
wherein when said sled is mounted on said base with said catch member positioned substantially on the side of said sled that faces toward oncoming traffic and with said catch member in the lowered position, a portion of said catch plate overlaps at least a portion of said base as seen from the view of oncoming traffic such that movement of said sled relative to said base in the same direction as oncoming traffic would essentially be prevented by interference between said catch member and said base.
25. The guardrail system according to claim 24 , further comprising a lever arm attached to said catch member, said catch member being movable between said lowered position and said raised position responsive to said lever arm moving between a first position and a second position such that said catch member moves toward said raised position as said lever arm is moved toward said second position which is closer to said brake housing compared to said first position,
whereby when said sled is mounted on said base with said catch member positioned substantially on the side of said sled that faces toward oncoming traffic and with said catch member in the lowered position and with said cable being in engagement with said cable brake, said lever arm is moved to said second position by a vehicle in the process of colliding with said sled before the vehicle has an impact upon said sled to thereby free said sled for rectilinear motion relative to said base such that said sled can move relative to said base due to the impact energy imparted to said sled by the vehicle and gradually slow down the vehicle.
26. The guardrail system according to claim 25 , further comprising an impact plate attached to said lever arm.
27. The guardrail system according to claim 11 , wherein the guardrail system further comprises at least one guardrail section, wherein said guardrail section has a front side and a back side, wherein said cable has a first end and a second end, said first end of said cable is anchored to the surface proximate the roadway at said first anchor location and said second end of said cable is anchored in place at a second anchor location over said back side of said guardrail section, when the guardrail system is installed on the side of the roadway.
28. The guardrail system according to claim 27 , wherein said guardrail section is one of a plurality of guardrail sections included in the guardrail system, wherein at least one of said plurality of guardrail sections is supported at least in part by said guardrail post, wherein each of said plurality of guardrail sections has a front side, a back side, and a cross sectional shape that provides at least one trough on said back side of each of said plurality of guardrail sections, and wherein said second end of said cable is anchored in position in said trough of one of said plurality of guardrail sections, when the guardrail system is installed on the side of the roadway.
29. The guardrail system according to claim 28 , wherein said second end of said cable is provided with a threaded shaft that is essentially coaxial with said cable and the guardrail system further comprises:
a mounting bracket for attaching one of said plurality of guardrail sections to said guardrail post, wherein said mounting bracket includes at least one sleeve having a bore with a diameter that is large enough to allow said threaded shaft to extend through said bore of said sleeve; and
a threaded nut capable of engaging said threaded shaft, said nut being too large to pass through said bore of said sleeve, said nut engaging said threaded shaft with said cable extending toward said sled on an opposite side of said sleeve relative to said nut to thereby anchor said second end of said cable in position over said back side of one of said plurality of guardrail sections, when said threaded nut is engaged to said threaded shaft and the guardrail system is installed on the side of the roadway.
30. The guardrail system according to claim 27 , wherein said guardrail section is supported at least in part by said guardrail post, wherein said guardrail section has a cross sectional shape that provides at least one trough on said back side of said guardrail section, and wherein said second end of said cable is anchored in position in said trough of said guardrail section, when the guardrail system is installed on the side of the roadway.
31. The guardrail system according to claim 30 , wherein said second end of said cable is provided with a threaded shaft that is essentially coaxial with said cable and the guardrail system further comprises:
a mounting bracket for attaching said guardrail section to said guardrail post, wherein said mounting bracket includes at least one sleeve having a bore with a diameter that is large enough to allow said threaded shaft to extend through said bore of said sleeve; and
a threaded nut capable of engaging said threaded shaft, said nut being too large to pass through said bore of said sleeve, said nut engaging said threaded shaft with said cable extending toward said sled on an opposite side of said sleeve relative to said nut to thereby anchor said second end of said cable in position over said back side of said guardrail section, when said threaded nut is engaged to said threaded shaft and the guardrail system is installed on the side of the roadway.
32. The guardrail system according to claim 31 , wherein said base has a base post adapted for being fixed to the surface proximate the roadway to thereby anchor said base to the surface proximate the roadway, wherein said base post has a top, and wherein said base plate is attached to said top of said base post, the guardrail system further comprising:
an anchor structure for anchoring said first end of said cable to the surface proximate the roadway at said first anchor location when the guardrail system is installed on a side of the roadway.
33. The guardrail system according to claim 32 , wherein said threaded nut is a first threaded nut and said threaded shaft is a first threaded shaft, wherein said first end of said cable is provided with a second threaded shaft that is essentially coaxial with said cable and said anchor structure comprises:
an anchor post adapted for being fixed to the surface proximate the roadway, in use said anchor post being positioned upstream of said base post relative to the direction of traffic flow in a lane of the roadway nearest the guardrail system;
a pair of bars extending in parallel between said anchor post and said base post, each of said pair of bars having a longitudinal axis, each of said pair of bars having a first end and a second end, each of said pair of bars being attached to said anchor post proximate said first end thereof, and each of said pair of bars being attached to said base post proximate said second end thereof;
at least one angled plate extending between said pair of bars at a position intermediate said anchor post and said base post, said angled plate having an inclined portion that is angled relative to said longitudinal axis of each of said pair of bars such that in use said inclined portion rises upward relative to the surface proximate the roadway with decreasing horizontal distance from said anchor post, said inclined portion having an opening that is large enough to allow said second threaded shaft at said first end of said cable to extend through said opening of said inclined portion; and
a second threaded nut capable of engaging said second threaded shaft at said first end of said cable, said second threaded nut being too large to pass through said opening of said inclined portion, said second nut engaging said second threaded shaft at said first end of said cable with said cable extending toward said sled on an opposite side of said inclined portion relative to said second nut to thereby anchor said first end of said cable in position at said first anchor location, when said second threaded nut is engaged to said second threaded shaft at said first end of said cable and the guardrail system is installed on the side of the roadway.
34. The guardrail system according to claim 33 , wherein said opening in said inclined portion is in the form of a U-shaped slot.
35. The guardrail system according to claim 33 , wherein said cable is a first cable, said cable brake is a first cable brake, said sleeve is a first sleeve, and said angled plate is a first angled plate, wherein said mounting bracket includes a second sleeve, and the guardrail system further comprises:
a second cable provided to extend substantially in parallel with said first cable, said second cable having a first end and a second end, wherein said second end of said second cable is provided with a third threaded shaft that is essentially coaxial with said second cable, wherein said first end of said second cable is provided with a fourth threaded shaft that is essentially coaxial with said second cable, wherein said second sleeve has a bore with a diameter that is large enough to allow said third threaded shaft to extend through said bore of said second sleeve;
a second cable brake supported by said sled, said second cable brake comprising at least a third brake pad and a fourth brake pad positioned on opposite sides of said second cable, said third brake pad and said fourth brake pad frictionally engaging said second cable in use;
a third threaded nut capable of engaging said third threaded shaft, said third threaded nut being too large to pass through said bore of said second sleeve, said third threaded nut engaging said third threaded shaft with said second cable extending toward said sled on an opposite side of said second sleeve relative to said third threaded nut to thereby anchor said second end of said second cable in position over said back side of said guardrail section, when said third threaded nut is engaged to said third threaded shaft and the guardrail system is installed on the side of the roadway;
a second angled plate extending between said pair of bars at a position intermediate said first angled plate and one of said anchor post and said base post, said second angled plate having an inclined portion that is angled relative to said longitudinal axis of each of said pair of bars such that in use said inclined portion of said second angled plate rises upward relative to the surface proximate the roadway with decreasing horizontal distance from said anchor post, said inclined portion of said second angled plate having an opening that is large enough to allow said fourth threaded shaft at said first end of said second cable to extend through said opening of said inclined portion of said second angled plate; and
a fourth threaded nut capable of engaging said fourth threaded shaft at said first end of said second cable, said fourth threaded nut being too large to pass through said opening of said inclined portion of said second angled plate, said fourth threaded nut engaging said fourth threaded shaft at said first end of said second cable with said second cable extending toward said sled on an opposite side of said inclined portion of said second angled plate relative to said fourth threaded nut to thereby anchor said first end of said second cable in position at a third anchor location, when said fourth threaded nut is engaged to said fourth threaded shaft at said first end of said second cable and the guardrail system is installed on the side of the roadway.
36. The guardrail system of claim 35 , wherein said guardrail post is a yieldable guardrail post designed to yield at a predetermined impact force, said yieldable guardrail post comprising:
a first elongated member having an elongated back plate and two side plates that are parallel two one another, said side plates projecting at right angles to said back plate on either side of said back plate to thereby give said first elongated member a channel-shaped cross section;
a second elongated member having an elongated back plate and two side plates that are parallel two one another, said side plates of said second elongated member projecting at right angles to said back plate of said second elongated member on either side of said back plate of said second elongated member to thereby give said second elongated member a channel-shaped cross section, said first elongated member and said second elongated member being attached together with their respective back plates in abutting contact so as to form a beam having an H-shaped cross section, said first and second elongated members each having a longitudinal axis, said second elongated member having a slit transverse to said longitudinal axis thereof that transects said second elongated member; and
a reinforcement plate attached to said back plate of one of said first elongated member and said second elongated member proximate said slit in each of said side plates of said second elongated member.
37. The guardrail system according to claim 29 , wherein said base has a base post adapted for being fixed to the surface proximate the roadway to thereby anchor said base to the surface proximate the roadway, wherein said base post has a top, and wherein said base plate is attached to said top of said base post, the guardrail system further comprising:
an anchor structure for anchoring said first end of said cable to the surface proximate the roadway at said first anchor location when the guardrail system is installed on the side of the roadway.
38. The guardrail system according to claim 37 , wherein said threaded nut is a first threaded nut and said threaded shaft is a first threaded shaft, wherein said first end of said cable is provided with a second threaded shaft that is essentially coaxial with said cable and said anchor structure comprises:
an anchor post adapted for being fixed to the surface proximate the roadway, in use said anchor post being positioned upstream of said base post relative to the direction of traffic flow in a lane of the roadway nearest the guardrail system;
a pair of bars extending in parallel between said anchor post and said base post, each of said pair of bars having a longitudinal axis, each of said pair of bars having a first end and a second end, each of said pair of bars being attached to said anchor post proximate said first end thereof, and each of said pair of bars being attached to said base post proximate said second end thereof;
at least one angled plate extending between said pair of bars at a position intermediate said anchor post and said base post, said angled plate having an inclined portion that is angled relative to said longitudinal axis of each of said pair of bars such that in use said inclined portion rises upward relative to the surface proximate the roadway with decreasing horizontal distance from said anchor post, said inclined portion having an opening that is large enough to allow said second threaded shaft at said first end of said cable to extend through said opening of said inclined portion; and
a second threaded nut capable of engaging said second threaded shaft at said first end of said cable, said second threaded nut being too large to pass through said opening of said inclined portion, said second nut engaging said second threaded shaft at said first end of said cable with said cable extending toward said sled on an opposite side of said inclined portion relative to said second nut to thereby anchor said first end of said cable in position at said first anchor location, when said second threaded nut is engaged to said second threaded shaft at said first end of said cable and the guardrail system is installed on the side of the roadway.
39. The guardrail system according to claim 38 , wherein said opening in said inclined portion is in the form of a U-shaped slot.
40. The guardrail system according to claim 38 , wherein said cable is a first cable, said cable brake is a first cable brake, said sleeve is a first sleeve, and said angled plate is a first angled plate, wherein said mounting bracket includes a second sleeve, and the guardrail system further comprises:
a second cable provided to extend substantially in parallel with said first cable, said second cable having a first end and a second end, wherein said second end of said second cable is provided with a third threaded shaft that is essentially coaxial with said second cable, wherein said first end of said second cable is provided with a fourth threaded shaft that is essentially coaxial with said second cable, wherein said second sleeve has a bore with a diameter that is large enough to allow said third threaded shaft to extend through said bore of said second sleeve;
a second cable brake supported by said sled, said second cable brake comprising at least a third brake pad and a fourth brake pad positioned on opposite sides of said second cable, said third brake pad and said fourth brake pad frictionally engaging said second cable in use;
a third threaded nut capable of engaging said third threaded shaft, said third threaded nut being too large to pass through said bore of said second sleeve, said third threaded nut engaging said third threaded shaft with said second cable extending toward said sled on an opposite side of said second sleeve relative to said third threaded nut to thereby anchor said second end of said second cable in position over said back side of said one of said plurality of guardrail sections, when said third threaded nut is engaged to said third threaded shaft and the guardrail system is installed on the side of the roadway;
a second angled plate extending between said pair of bars at a position intermediate said first angled plate and one of said anchor post and said base post, said second angled plate having an inclined portion that is angled relative to said longitudinal axis of each of said pair of bars such that in use said inclined portion of said second angled plate rises upward relative to the surface proximate the roadway with decreasing horizontal distance from said anchor post, said inclined portion of said second angled plate having an opening that is large enough to allow said fourth threaded shaft at said first end of said second cable to extend through said opening of said inclined portion of said second angled plate; and
a fourth threaded nut capable of engaging said fourth threaded shaft at said first end of said second cable, said fourth threaded nut being too large to pass through said opening of said inclined portion of said second angled plate, said fourth threaded nut engaging said fourth threaded shaft at said first end of said second cable with said second cable extending toward said sled on an opposite side of said inclined portion of said second angled plate relative to said fourth threaded nut to thereby anchor said first end of said second cable in position at a third anchor location, when said fourth threaded nut is engaged to said fourth threaded shaft at said first end of said second cable and the guardrail system is installed on the side of the roadway.
41. The guardrail system of claim 40 , wherein said guardrail post is a yieldable guardrail post designed to yield at a predetermined impact force, said yieldable guardrail post comprising:
a first elongated member having an elongated back plate and two side plates that are parallel two one another, said side plates projecting at right angles to said back plate on either side of said back plate to thereby give said first elongated member a channel-shaped cross section;
a second elongated member having an elongated back plate and two side plates that are parallel two one another, said side plates of said second elongated member projecting at right angles to said back plate of said second elongated member on either side of said back plate of said second elongated member to thereby give said second elongated member a channel-shaped cross section, said first elongated member and said second elongated member being attached together with their respective back plates in abutting contact so as to form a beam having an H-shaped cross section, said first and second elongated members each having a longitudinal axis, said second elongated member having a slit transverse to said longitudinal axis thereof that transects said second elongated member; and
a reinforcement plate attached to said back plate of one of said first elongated member and said second elongated member proximate said slit in each of said side plates of said second elongated member.
42. The guardrail system of claim 5 , wherein said guardrail post is a yieldable guardrail post designed to yield at a predetermined impact force, said yieldable guardrail post comprising:
a first elongated member having an elongated back plate and two side plates that are parallel two one another, said side plates projecting at right angles to said back plate on either side of said back plate to thereby give said first elongated member a channel-shaped cross section;
a second elongated member having an elongated back plate and two side plates that are parallel two one another, said side plates of said second elongated member projecting at right angles to said back plate of said second elongated member on either side of said back plate of said second elongated member to thereby give said second elongated member a channel-shaped cross section, said first elongated member and said second elongated member being attached together with their respective back plates in abutting contact so as to form a beam having an H-shaped cross section, said first and second elongated members each having a longitudinal axis, said second elongated member having a slit transverse to said longitudinal axis thereof that transects said second elongated member; and
a reinforcement plate attached to said back plate of one of said first elongated member and said second elongated member proximate said slit in each of said side plates of said second elongated member.
43. A yieldable guardrail post designed to yield at a predetermined impact force, said yieldable guardrail post comprising:
a first elongated member having an elongated back plate and two side plates that are parallel two one another, said side plates projecting at right angles to said back plate on either side of said back plate to thereby give said first elongated member a channel-shaped cross section;
a second elongated member having an elongated back plate and two side plates that are parallel two one another, said side plates of said second elongated member projecting at right angles to said back plate of said second elongated member on either side of said back plate of said second elongated member to thereby give said second elongated member a channel-shaped cross section, said first elongated member and said second elongated member being attached together with their respective back plates in abutting contact so as to form a beam having an H-shaped cross section, said first and second elongated members each having a longitudinal axis, said second elongated member having a slit transverse to said longitudinal axis thereof that transects said second elongated member; and
a reinforcement plate attached to said back plate of one of said first elongated member and said second elongated member proximate said slit in each of said side plates of said second elongated member.
44. A releasable post comprising:
a base post adapted for being fixed to a surface to thereby anchor the releasable post to the surface, wherein said base post has a top;
a base plate attached to said top of said base post;
a beam having a lower end;
a skid plate attached to said beam at said lower end of said beam;
a catch member pivotally attached to said beam such that said catch member pivots about a pivot axis, said catch member being pivotally movable between a raised position and a lowered position,
when said base post is fixed to the surface, said beam is mounted on said base plate with said skid plate supported by said base plate, and said catch member is in said lowered position, said catch member has a portion that overlaps at least a portion of at least one of said base plate and said base post such that rectilinear movement of said beam relative to said base post in a predetermined direction would essentially be prevented by interference between said catch member and at least one of said base plate and said base post; and
a lever arm attached to said catch member, said catch member being movable between said lowered position and said raised position responsive to said lever arm moving between a first position and a second position such that said catch member moves toward said raised position as said lever arm is moved toward said second position which is closer to said beam compared to said first position,
whereby when said base post is fixed to the surface, said beam is mounted on said base plate with said skid plate supported by said base plate, and said catch member is in said lowered position, an impact on said lever arm that moves said lever arm to said second position frees said beam for rectilinear motion relative to said base post in said predetermined direction.
45. The releasable post according to claim 44 , wherein said catch member comprises two parallel plates that are spaced apart from one another and a catch plate extending between said parallel plates, each of said parallel plates being provided with a hole and with said hole of a first one of said parallel plates being in registry with said hole of a second one of said parallel plates, wherein each said hole in each of said parallel plates is located at spaced separation from said catch plate, wherein the releasable post further comprises a shaft passing through an opening in said beam and through each said hole in each of said parallel plates to thereby pivotally attach said catch member to said beam, and
wherein when said base post is fixed to the surface, said beam is mounted on said base plate with said skid plate supported by said base plate, and said catch member is in said lowered position, a portion of said catch plate overlaps at least a portion of at least one of said base plate and said base post such that rectilinear movement of said beam relative to said base post in said predetermined direction would essentially be prevented by interference between said catch member and at least one of said base plate and said base post.
46. The releasable post according to claim 45 , wherein said base plate is inclined such that it slopes upward in said predetermined direction when said base post is fixed to the surface.
47. The releasable post according to claim 45 , wherein said base plate is provided with a guide that guides said skid plate during said rectilinear movement of said skid plate relative to said base plate.
48. The releasable post according to claim 47 , wherein said guide is in the form of a channel that receives a portion of said skid plate.
49. The releasable post according to claim 47 , wherein said guide is in the form of opposing channels on either side of said base plate that receive portions of said skid plate on either side of said skid plate.
50. The releasable post according to claim 47 , wherein said guide is in the form of a pocket that receives a portion of said skid plate.
51. A guardrail system having an impact absorbing terminal portion comprising:
a sled;
a guardrail post adapted for being fixed to a surface proximate a roadway;
at least one cable having a portion extending between said guardrail post and said sled and a portion extending between said sled and a first anchor location, in use said sled being positioned between said guardrail post and said first anchor location; and
a cable brake supported by said sled, said cable brake frictionally engaging said cable in use,
wherein a portion of said cable passing through said cable brake follows a non-tortuous path,
whereby when the guardrail system is installed on a side of the roadway, said sled can move along said cable upon impact of a vehicle on said sled, the vehicle impacting said sled with energy, with frictional forces between said cable and said first and second brake pads dissipating at least a portion of the energy from the impact.
52. The guardrail system of claim 51 , wherein said portion of said cable passing through said cable brake has bends such that internal angles formed by said bends of said portion of said cable passing through said cable brake are all obtuse.
53. The guardrail system of claim 52 , wherein said internal angles formed by said bends of said portion of said cable passing through said cable brake are in the range of greater than or equal to 110° to less than or equal to 180°.
54. The guardrail system of claim 51 , wherein said portion of said cable passing through said cable brake follows a substantially straight path.
55. A method for providing a guardrail system having an impact absorbing terminal portion on a surface proximate a roadway, the roadway having a lane nearest the guardrail system, traffic in the lane nearest the guardrail system defining a direct of flow of traffic, the method comprising the steps of:
providing a base adapted for being fixed to the surface proximate the roadway, the base having a base plate;
fixing the base to the surface proximate the roadway;
providing at least one guardrail post adapted for being fixed to the surface proximate the roadway;
fixing the guardrail post to the surface proximate the roadway downstream of the base in relation to the direction of flow of traffic;
providing an anchor structure;
fixing the anchor structure to the surface proximate the roadway upstream of the base in relation to the direction of flow of traffic;
providing a sled;
positioning the sled on the base plate;
providing at least one cable having a first end and a second end;
anchoring the first end of the cable to the anchor structure at a first anchor location upstream of the sled in relation to the direction of flow of traffic;
routing the cable through the sled;
anchoring the second end of the cable at a second anchor location downstream of the sled in relation to the direction of flow of traffic, such that a portion of the cable extends between the guardrail post and the sled;
providing a cable brake comprising at least a first brake pad and a second brake pad; and
frictionally engaging the first brake pad and the second brake pad to the cable with the first brake pad and the second brake pad positioned on opposite sides of the cable and with the first brake pad and the second brake pad positioned relative to the sled such that the first brake pad and the second brake pad would interfere with movement of the sled toward the guardrail post over at least a substantial portion of a distance between the sled and the guardrail post upon impact of a vehicle on the sled, and
interference with the movement of the sled toward the guardrail post due to the engagement of the first brake pad and the second brake pad with the cable being of such a nature that the sled can move along the cable upon the impact of the vehicle on the sled, when the vehicle impacts the sled with energy above a predetermined threshold level, with frictional forces between the cable and the first and second brake pads dissipating at least a portion of the energy from the impact.
56. The method of claim 55 , wherein the cable brake further comprises a cable brake housing incorporated in the sled, and wherein said step of frictionally engaging the first brake pad and the second brake pad to the cable comprises the step of positioning the first brake pad and the second brake pad such that the first brake pad and the second brake pad are received in the cable brake housing.
57. The method of claim 56 , further comprising the step of providing the cable brake housing with a cable inlet, a cable outlet, and opposing sidewall portions that are tapering from the cable inlet to the cable outlet such that the opposing sidewall portions are closer together near the cable outlet as compared to the opposing sidewall portions near the cable inlet.
58. The method of claim 55 , further comprising the steps of:
providing the first brake pad with a threaded hole at a location that is at spaced separation from a surface portion of the first brake pad that is in contact with the cable when in use;
providing the second brake pad with a threaded hole at a location that is at spaced separation from a surface portion of the second brake pad that is in contact with the cable when in use;
providing a collar having a first surface facing away from the first and second brake pads when the cable brake is fully assembled, the first surface of the collar declining from either side of the collar toward a centerline of the first surface of the collar such that the centerline of the first surface of the collar is depressed relative to either side of the first surface of the collar with the first surface of the collar sloping forward on either side of the centerline, the collar having an elongated slot extending on either side of the centerline;
providing a pair of bolts each having a head and a shaft that is threaded at least in part; and
providing a pair of wedges each having a hole that is sized to provide clearance for the shaft of a respective one of the pair of bolts and the slot being sized to provide clearance for the shaft of each of the pair of bolts and the cable such that the shaft of each of the pair of bolts can pass through the hole of a respective one of the pair of wedges and the slot to engage a respective one of the threaded hole of the first brake pad and the threaded hole of the second brake pad;
positioning each of the pair of wedges in contact with a respective sloping portion of the first surface of the collar on either side of the centerline of the first surface of the collar;
positioning each of the pair of bolts such that its shaft passes through the hole of the respective one of the pair of wedges and the slot and engages a respective one of the threaded hole of the first brake pad and the threaded hole of the second brake pad; and
tightening the pair of bolts with the head of each of the bolts being in contact with the respective one of the pair of wedges to force the first and second brake pads toward one another such that frictional forces between the cable and the first and second brake pads are set at a predetermined level.
59. The method according to claim 58 , wherein the cable has a longitudinal axis, wherein each of the pair of wedges has a thick side and a thin side, wherein said step of positioning each of the pair of wedges in contact with a respective sloping portion of the first surface of the collar comprises positioning the pair of wedges on opposite sides of the centerline of the first surface of the collar with the cable passing between the pair of wedges, and such that each of the pair of wedges is placed in contact with the respective sloping portion of the first surface of the collar with its thick side being positioned closer to the centerline of the first surface of the collar than its thin side, and such that in operation the head of each of the pair of bolts is in contact with a front surface of a respective one of the pair of wedges that is essentially perpendicular to the longitudinal axis of the cable.
60. The method according to claim 59 , further comprising the step of providing the slot with a widened middle portion through which the cable passes and with the widened middle portion having an outline that follows a circular arc on either side of the slot.
Priority Applications (1)
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US11/380,484 US20070252124A1 (en) | 2006-04-27 | 2006-04-27 | Guardrail System |
Applications Claiming Priority (1)
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US11/380,484 US20070252124A1 (en) | 2006-04-27 | 2006-04-27 | Guardrail System |
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