초록 ▼

A threat resistant access port is disclosed, including a resistant panel having an access aperture formed therein. A resistant cover is movably coupled to the panel, the cover being pivotally slideable relative to the panel so as to cover the aperture in a closed position and to uncover the aperture

A threat resistant access port is disclosed, including a resistant panel having an access aperture formed therein. A resistant cover is movably coupled to the panel, the cover being pivotally slideable relative to the panel so as to cover the aperture in a closed position and to uncover the aperture in an open position. The resistant cover comprises an outer member, the outer member being threat resistant and located proximate an outer side of the panel. The resistant cover further comprises an inner member, the inner member coupled to the outer member and located proximate an inner side of the panel opposite the outer side of the panel.

대표청구항 ▼

1. A threat resistant access port, comprising: a resistant panel having an outer side and an inner side that is opposite the outer side, the resistant panel including an access aperture extending from the outer side to the inner side; anda resistant cover configured to be coupled to the resistant pa

1. A threat resistant access port, comprising: a resistant panel having an outer side and an inner side that is opposite the outer side, the resistant panel including an access aperture extending from the outer side to the inner side; anda resistant cover configured to be coupled to the resistant panel, such that the resistant cover is pivotally slidable relative to the resistant panel so as to cover the aperture in a closed position and to uncover at least a portion of the aperture in an open position, the resistant cover comprising: a first member including an outer surface that is threat resistant and an inner surface opposite the outer surface, the inner surface facing the outer side of the resistant panel when the resistant cover is coupled to the resistant panel and the resistant cover is in both the open position and the closed position; anda second member configured to be coupled to the inner surface of the first member such that the second member and the first member are both pivotally slidable relative to the resistant panel as the resistant cover is moved from the open position to the closed position, the second member extending from the inner surface of the first member through the access aperture when the resistant cover is coupled to the resistant panel. 2. The threat resistant access port of claim 1, further comprising a pivot member configured to pivotally couple the resistant cover to the resistant panel. 3. The threat resistant access port of claim 2, wherein the pivot member defines a pivot axis, and the resistant panel is pivotable about the pivot axis relative to the resistant cover. 4. The threat resistant access port of claim 3, wherein the pivot axis is substantially perpendicular to the outer surface of the first member. 5. The threat resistant access port of claim 3, wherein the resistant panel comprises a panel outer surface that at least partially defines the outer side, and the pivot axis is substantially perpendicular to the panel outer surface. 6. The threat resistant access port of claim 1, wherein the second member comprises a post that extends through the access aperture when the cover is in both the open position and the closed position. 7. The threat resistant access port of claim 1, wherein the resistant panel comprises a first side wall and a second side wall facing the first side wall, the first side wall defining a first edge of the access aperture, and the second side wall defining a second edge of the access aperture. 8. The threat resistant access port of claim 7, wherein the second member abuts the first side wall when the resistant cover is in the open position. 9. The threat resistant access port of claim 8, wherein the second member abuts the second side wall when the resistant cover is in the closed position. 10. The threat resistant access port of claim 1, wherein the second member is coupled to the inner surface of the first member such that the second member is elongate in a direction extending away from the inner surface of the first member. 11. The threat resistant access port of claim 10, wherein the direction is substantially normal to the inner surface of the first member. 12. A threat resistant access port, comprising: a resistant panel having an outer side and an inner side that is opposite the outer side, the panel including an access aperture extending from the outer side to the inner side; anda resistant cover configured to be coupled to the panel, such that the cover is pivotally slidable relative to the panel so as to cover the aperture in a closed position and to uncover at least a portion of the aperture in an open position, the resistant cover comprising: a first member including an outer surface that is threat resistant and an inner surface opposite the outer surface, the outer surface facing the inner side of the panel when the cover is coupled to the panel and the cover is in both the open position and the closed position; anda second member coupled to the inner surface of the first member such that the second member and first member are both pivotally slidable relative to the panel as the cover is moved from the open position to the closed position; anda pivot member configured to pivotally couple the cover to the panel. 13. The threat resistant access port of claim 12, wherein the pivot member defines a pivot axis, and the resistant cover is pivotable about the pivot axis relative to the resistant panel. 14. The threat resistant access port of claim 13, wherein the pivot axis is substantially perpendicular to the outer surface of the resistant cover. 15. The threat resistant access port of claim 14, wherein the resistant panel comprises a panel outer surface that at least partially defines the outer side, and the pivot axis is substantially perpendicular to the panel outer surface. 16. A threat resistant fortification assembly, comprising: a resistant panel including a first side and a second side, the resistant panel defining a sensing aperture extending through the resistant panel from the first side to the second side;a resistant sensory pane configured to be positioned over at least a portion of the sensing aperture; anda sensory pane frame configured to be mounted to the resistant panel, the sensory pane frame configured to secure the resistant sensory pane in a position over at least a portion of the sensing aperture; anda threat resistant access port including: an access aperture formed in the panel; anda resistant cover configured to be movably coupled to the panel, the cover being pivotally slidable relative to the panel so as to cover the aperture in a closed position and to uncover at least a portion of the aperture in an open position, the cover including: a threat resistant first member configured to be located on a first side of the resistant panel, the first member being larger than the access aperture such that when in the closed position the first member partially overlaps the first side of the panel; anda second member coupled to the first member such that the second member extends away from the first member in a direction. 17. The threat resistant fortification assembly of claim 16, further comprising a pivot member configured to pivotally couple the resistant cover to the resistant panel. 18. The threat resistant fortification assembly of claim 17, wherein the pivot member defines a pivot axis, and the resistant panel is pivotable about the pivot axis relative to the resistant cover. 19. The threat resistant fortification assembly of claim 18, wherein the first member comprises an inner surface facing the first side of the resistant panel, and the first member comprises an outer surface opposite the inner surface, and the pivot axis is substantially perpendicular to the outer surface of the first member. 20. The threat resistant fortification assembly of claim 18, wherein the resistant panel comprises a panel outer surface that at least partially defines the first side, and the pivot axis is substantially perpendicular to the panel outer surface. 21. The threat resistant fortification assembly of claim 16, wherein the second member comprises a post that extends through the access aperture when the resistant cover is in both the open position and the closed position. 22. The threat resistant fortification assembly of claim 16, wherein the resistant panel comprises a first side wall, and a second side wall facing the first side wall, the first side wall defining a first edge of the access aperture, and the second side wall defining a second edge of the access aperture. 23. The threat resistant fortification assembly of claim 22, wherein the second member abuts the first side wall when the resistant cover is in the open position. 24. The threat resistant fortification assembly of claim 23, wherein the second member abuts the second side wall when the resistant cover is in the closed position. 25. A barrier, comprising: a resistant panel including an outer side and an inner side that is opposite the outer side, the outer side extending substantially in a first plane; anda resistant access port comprising: an access aperture extending through the resistant panel from the inner side to the outer side; anda resistant cover movably coupled to the panel, the cover being pivotally slidable relative to the panel in a plane substantially parallel to the first plane so as to cover the aperture in a closed position and to uncover at least a portion of the aperture in an open position, the resistant cover comprising: a resistant first member including an inner surface and an outer surface that is opposite the inner surface, the resistant first member configured to be located adjacent the outer side of the resistant panel such that the inner surface faces the outer side; anda second member coupled to the first member. 26. The barrier of claim 25, wherein the second member is coupled to the inner surface of the first member such that the second member and first member are both pivotally slidable relative to the resistant panel as the resistant cover is moved from the open position to the closed position, and the second member extends from the inner surface of the first member through the access aperture when the resistant cover is coupled to the resistant panel. 27. The barrier of claim 26, wherein the second member is elongate in a direction substantially normal to the inner surface of the first member. 28. The barrier of claim 25, further comprising a pivot member configured to pivotally couple the resistant cover to the resistant panel, and the pivot member defines a pivot axis that the resistant panel is pivotable about relative to the resistant cover. 29. The barrier of claim 28, wherein the pivot axis is substantially perpendicular to the first plane. 30. The barrier of claim 25, wherein the resistant panel comprises a first side wall and a second side wall facing the first side wall, the first side wall defining a first edge of the access aperture, and the second side wall defining a second edge of the access aperture. 31. The barrier of claim 30, wherein the second member abuts the first side wall when the resistant cover is in the open position. 32. The barrier of claim 31, wherein the second member abuts the second side wall when the resistant cover is in the closed position.