Abstract
A crash guard configured to resist intrusion of a vehicle from a traffic lane into an area and to resist intrusion into an area of debris caused by an impact of a vehicle into the crash guard or into another vehicle.
Claims
1. A crash guard to resist intrusion of a motorized vehicle from a traffic lane into an area and to resist intrusion into said area of debris caused by an impact of said motorized vehicle into said crash guard, said crash guard comprising: two or more front bollards anchored into the ground between said traffic lane and said area, said front bollards defining at least one perimeter of said area and being constructed and anchored to the ground so as to resist the intrusion of motorized vehicles across said perimeter into said area; at least one guard rail, the first end of said guard rail attached to a first front bollard and the second end of said guard rail attached to a second front bollard, said guard rail resisting intrusion across said perimeter; and at least one vertical debris shield attached above said front bollards, said vertical debris shield extending along a vertical plane of said perimeter.
2. The crash guard of claim 1 further comprising: at least one debris shield attached between two of said front bollards.
3. The crash guard of claim 1 further comprising: two or more rear bollards defining a second perimeter of said area; roof decking support beams extending vertically from said rear bollards; and roof decking extending over said area.
4. The crash guard of claim 3 further comprising: at least one debris shield between two of said front bollards.
5. The crash guard of claim 1 further comprising: two or more rear bollards defining a second perimeter of said area; roof decking support beams extending vertically from said rear bollards; roof decking extending over a rear portion of said area; and canopy debris shields extending over a front portion of said area.
6. The crash guard of claim 5 further comprising: at least one debris shield between two of said front bollards.
7. The crash guard of claim 1 further comprising: canopy debris shields extending over said area, said canopy debris shields being attached to an existing structure.
8. The crash guard of claim 1 further comprising: roof decking extending over said area, said roof decking being attached to an existing structure.
9. A rest area structure proximate to a street for motorized vehicles comprising: two or more front bollards anchored into the ground between said street and said rest area, said front bollards supporting a lower horizontal guard rail and an upper horizontal guard rail, said two or more front bollards defining at least one perimeter of said rest area and being constructed and anchored to the ground so as to resist the intrusion of motorized vehicles across said perimeter into said rest area; and at least one vertical debris shield attached above said two or more front bollards, said vertical debris shield extending along a vertical plane of said perimeter.
10. The crash guard of claim 9 further comprising: two or more rear bollards defining a second perimeter of said area; roof decking support beams extending vertically from said rear bollards; and roof decking extending over said area.
11. The crash guard of claim 9 further comprising: two or more rear bollards defining a second perimeter of said area; roof decking support beams extending vertically from said rear bollards; roof decking extending over a rear portion of said area; and canopy debris shields extending over a front portion of said area.
12. The crash guard of claim 9 further comprising: canopy debris shields extending over said area, said canopy debris shields being attached to an existing structure.
13. The crash guard of claim 9 further comprising: roof decking extending over said area, said roof decking being attached to an existing structure.
Description
BRIEF DESCRIPTION OF THE DRAWINGS
(1) These and other features and advantages will become appreciated as the same becomes understood with reference to the description, claims and drawings wherein:
(2) FIG. 1 is an exterior front perspective view of one embodiment of the invention;
(3) FIG. 2 is a top plan view of one embodiment of the invention;
(4) FIG. 3 is an exterior side perspective view of one embodiment of the invention;
(5) FIG. 4 is an exterior rear perspective view of one embodiment of the invention;
(6) FIG. 5 is a side view of one aspect of the invention;
(7) FIG. 6 is an exterior front perspective view of another embodiment of the invention; and
(8) FIG. 7 is a top plan view of another embodiment of the invention.
DESCRIPTION
(9) Turning to FIGS. 1-4, there is shown a first embodiment of a bus stop crash guard of the invention generally designated by reference number 10. In this embodiment, an interior space is defined by a crash guard 10 the components of which include front bollards 12, rear bollards 13, guard rails 14, debris shields 16, canopy debris shields 18 and roof decking 26 all connected via various framework components as described in more detail below. As best seen in FIGS. 3 and 4, the crash guard 10 may define thresholds 28 on either side of the crash guard 10 through which ingress and egress may be made. The crash guard components and the framework components of the crash guard 10 may be made of a variety of materials so long as adequate crash and debris protection is provided. In one embodiment shown in FIGS. 1-5, the materials and construction are as follows.
(10) As seen in FIG. 5, the bollards 12 are preferably made of steel tubes 30 filled with concrete 32. The bollards 12 are approximately three feet six and one-quarter inches high above the ground and are sunk approximately six feet into concrete foundations 32 below the sidewalk 34 or other area upon which the crash guard 10 may be located. Steel plate end caps 36 are attached to the top of each bollard and galvanized steel debris shield supports 24 are attached to the steel plate end caps 36. In this embodiment, the steel tubes 30 are constructed of galvanized steel TS66 and filled with 2500 psi concrete. The guardrails 14 are TOGA galvanized, for example Grainger #1CWR3. There are preferably two guardrails 14 placed on the front of the crash guard 10 with the center of the lower guardrail approximately ten and one-half inches above grade and the center of the upper guardrail approximately one foot nine inches above the center of the lower guardrail. The end caps 36 on the bollards 12 may be made of steel plate. In the embodiment just described, the bollards 12 are designed for a 10,000-pound maximum horizontal point load located at two feet eight inches above grade. The rear bollards 13 may be constructed similarly to the front bollards 12 but it may not be necessary if crash protection is not needed or needed minimally from the rear side of the crash guard 10. If no protection or only minimal protection is needed, the rear bollards 13 need only be strong enough to structurally support the roof decking support beams 42 and the roof decking 26. Depending on local codes, ordinances and the like and/or the degree of intrusion protection desired with respect to a particular location, the bollards 12, 13 and the guardrails 14 may be of different materials, construction and installation than as just described above with respect to this particular embodiment. For example, embodiments could include only one guardrail or three or more guard rails. The guard rails need not be of galvanized steel but could be of sufficiently strong rubber, plastic or composite or otherwise constructed to meet the varying codes, ordinances, regulations or building practices of various locales in which the crash guard 10 may be deployed. Likewise, the bollards could be constructed entirely of concrete or other materials or may have different combinations of steel and concrete than as specified above.
(11) Continuing with FIGS. 1 through 4, the debris shields 16 are attached to the debris shield supports 24 by flat bar tabs 38 and via weld to a flat bar frame 22. The flat bar frame is also welded to the debris shield supports 24. The canopy debris shields 18 are attached to the debris shield supports 24 by blade brackets 40 and to the truss frame 20 by flat bar tabs 38. The roof decking 26 is attached to the crash guard 10 via the truss frame 20 and the roof decking support beams 42. The roof decking support beams 42 are inserted into the rear bollards 13.
(12) In the embodiment shown, the debris shield supports 24 are galvanized steel such as TS22 3/16. The truss frame 20 is 22 steel. The flat bar frames 22 are 2 steel. In the embodiment shown, the debris shields 16 and the canopy debris shields 18 are made of metal wire mesh screen such as a square opening wire mesh plain steel square weave with an opening size of approximately two inches and -inch wire diameter. The roof decking 26 is made of metal. The debris shields are attached to the debris shield supports 24 via steel flat bar tabs 38 with bolts or other suitably strong attachment methods or devices. The canopy screens 18 are attached to the truss frame 20 via steel flat bar tabs 38 with bolts or other suitably strong attachment methods or devices and to the screen supports 24 via steel blade brackets 40 or other suitably strong attachment methods or devices. The canopy screens may also be made of a wire mesh screen similar to that of the debris shields. Both, the debris shields and canopy screens may be made of other sufficiently strong materials including wire mesh made of materials other than steel or solid materials such as metal plate, plexiglass, rubber, plastics, etc.
(13) The method and means of attachment of the various components of the crash guard 10 shown in FIGS. 1 through 5 and described above is just one such method of attaching the various components. Other methods of attachment and materials as is known in the trade of engineering, architecture, building and construction could be used without departing from the basic operating principles and concepts of this disclosure.
(14) It can also be seen that alternative embodiments are available depending on the degree of protection needed, local site factors and cost. If additional protection is desired from debris intruding into the interior space by passing between the bollards 12 or the guardrails 14, additional debris shields 16 may be attached either to the bollards 12 or to the guardrails 14. In some crash scenarios it is possible that debris could be thrown over the debris shields. Accordingly, the embodiment shown in FIGS. 1-4 includes canopy debris shields 18. However, if protection from debris intruding into the interior space defined by the crash guard by going over the debris shields 16 is not desired or deemed to be of minimal risk, the crash guard 10 need not include the canopy debris shields 18. Alternatively, if additional protection from very small debris or liquid debris is desired the debris shields 16, whether attached to the debris shield supports 20, to the bollards 12 or to the guardrails 14 may instead of being constructed of wire mesh may be constructed of a suitably strong solid material such as steel plate, plexi-glass, or like materials that provide the desired degree of protection from intrusion of small debris and liquids. Likewise, various combinations of different types of debris shields 16 and canopy screens 18 may be used depending on the risks for which protection is sought. Thus, the debris shields attached to the bollards 12 or guardrails 14 could be of a solid material to protect against a greater likelihood of liquid debris that may occur at the point of impact with the crash guard 10 while the debris shields 18 attached to the debris shield supports 24 may be of a mesh or screen type material to protect against solid debris only. Likewise the canopy debris shields 18 may be of solid material to provide additional protection from the weather or the less likely liquid debris from the point of impact or may be of a lighter screen or mesh material to protect only from the relatively smaller sized debris that would be thrown up from the point of impact to that height. In another embodiment, there may be no canopy debris shields 18 but the roof decking 26 could nonetheless extend from the rear decking support beams 42 across the entire structure to overhang in front of the debris shields 16 and the debris shield supports 24. In such an embodiment the roof could be either entirely constructed of canopy debris shields 18 or, preferably, solid roof decking 26 to protect against weather and debris. The roof could also include or be comprised of photovoltaic (solar) panels and the crash guard could include equipment to store power to power lights, advertising and the like that are associated with the crash guard or the bus stop or other area, businesses, etc. that the crash guard protects. The crash guard may also include equipment to connect the crash guard to an existing power grid either to take power from the grid to power lights, advertising, etc., or to feed/sell power back to the grid or some combination thereof.
(15) Yet other embodiments may depend on local site factors. For example, FIG. 6 shows an embodiment that could be used where the local site already has an existing bus stop shelter 44 and FIG. 7 shows an embodiment where the local site already has an existing bench 46. In these embodiments shown in FIGS. 6 and 7, the components of the crash guard 10 include front bollards 12, guardrails 14, debris shield supports 24, and debris shields 22. In the embodiment shown in FIG. 6, the crash guard could optionally include canopy debris shields 18 attached to the existing shelter 44.
(16) While I have shown and described certain embodiments of the present invention, it should be understood that the same is subject to many modifications and changes by those skilled in the art without departing from the basic concepts and operating principles of the disclosure.
