Patent Application
20080150311
The present invention relates to storage systems and more particularly to a storage system for a vehicle having an articulating fascia.
Conventional trucks and sport utilities may include an access panel such a tailgate that permits selective entry to a storage area of the vehicle. The access panel is typically movable between a closed position and an open position and may be rotatably attached to a side or rear portion of the vehicle by a pivot. The pivot may be disposed adjacent to a bottom portion of the access panel to allow the access panel to articulate relative to the vehicle between the closed position and the horizontal position.
Movement of the access panel is accommodated by providing a gap generally between a bottom portion of the access panel and a top surface of a bumper of the vehicle to provide sufficient clearance for movement of the access panel between the closed position and the open position. While the gap sufficiently permits movement of the access panel relative to the vehicle, the gap is visible when the access panel is in the closed position and therefore detracts from the overall appearance of the vehicle.
As noted above, when an access panel is in a closed position, a rear portion of a truck or a sport utility vehicle is open such that large objects may be loaded into a storage space of the vehicle. For example, when the access panel is moved from the closed position to the open position, a surface of the access panel is generally flush with the surface of a storage space of the vehicle to permit large items to be slid over the access panel and into the storage space. While cooperation between the storage space and the access panel permits large objects to be stored in the storage space of the vehicle, rotation of the access panel from the closed position to the open position is typically limited to ninety degrees. Further rotation of the access panel relative to the vehicle beyond the initial ninety degrees is not permitted due to interference between the access panel and the bumper of the vehicle.
While conventional trucks and sport utility vehicles permit large objects to be loaded into a storage space of the vehicle when the access panel is in an open position, the ability of the vehicle to store a large and/or bulky items is generally limited to the size of the storage space. Conventional vehicles do not include a separate compartment within or around the vehicle to store large and/or bulky items other than the storage space accessible by articulation of the access panel from the closed position to the open position.
A vehicle includes a closure panel movable between an open position and a closed position and a fascia disposed adjacent to the closure panel and movable between a closed position and an open position. The fascia is articulated into the open position prior to the closure panel being moved from the closed position to the open position.
A vehicle includes a storage compartment having a load floor and a closure panel movable relative to the storage compartment between a closed position and an open position. The closure panel is positioned at an angle substantially equal to ninety degrees relative to the load floor when the closure panel is in the closed position and is rotated greater than ninety degrees from the closed position into the open position.
The present invention will become more fully understood from the detailed description and the accompanying drawings, wherein:
The following description of the preferred embodiment(s) is merely exemplary in nature and is in no way intended to limit the invention, its application, or uses.
With reference to the figures, a vehicle 10 is provided and includes a closure panel 12, a storage compartment 14, and a fascia 16. The fascia 16 is movable between an open position allowing access to the storage compartment 14 and a closed position restricting access to the storage compartment 14. The fascia 16 cooperates with the closure panel 12 and engages at least one surface of the closure panel 12 when the closure panel 12 is in a closed position and the fascia 16 is in the closed position. The fascia 16 is rotated relative to the vehicle into the open position prior to the closure panel 12 being rotated from the closed position to an open position and permits the closure panel 12 to be rotated greater than ninety degrees relative to the vehicle 10 from the closed position to the open position.
The closure panel 12 is disposed adjacent to a load floor 18 of the vehicle and is supported by a hinge 20. The closure panel 12 includes a bottom surface 22, a load surface 24, a top surface 26, and an outer surface 28. The bottom surface 22 is positioned adjacent to the fascia 16 while the load surface 24 is positioned adjacent to the load floor 18. The top surface 26 is positioned on an opposite side of the closure panel 12 from the bottom surface 22 while the outer surface 28 is positioned on an opposite side of the closure panel 12 from the load surface 24.
The closure panel 12 may also be attached to the vehicle 10 by a series of cables 30 that cooperate with the hinge 20 to support the closure panel 12 when the closure panel 12 is in the open position. While a hinge 20 is disclosed, any mechanism that allows rotation of the closure panel 12 relative to the vehicle 10 such as a pair of hinges 20 located on opposite sides of the closure panel 12, should be considered within the scope of the present invention.
The closure panel 12 may also include an extension 32 movably attached to the load surface 24 of the closure panel 12. The extension 32 may be pivotably or slidably attached to the closure panel 12 and may be movable between a stowed position (
The storage compartment 14 is located under the load floor 18 of the vehicle 10 and is accessible when the fascia 16 is moved from the closed position to the open position. The storage compartment 14 may be defined by a frame 34 of the vehicle 10, whereby side rails 36 of the frame 34 define a pair of opposing channels 36 that cooperate to define the overall shape and size of the storage compartment 14. In one configuration, the load floor 18 of the vehicle 10 is a floor of a truck bed 40. In this configuration, the storage compartment 14 is located generally under the truck bed 40 on an opposite side of the truck bed from the load floor 18.
The frame 34 extends under the truck bed 40 such that the side rails 36 are positioned adjacent to a pair of rear wheels 42 of the vehicle 10. Providing the vehicle 10 with the storage compartment 14 located between the rear wheels 42 and under the truck bed 40 utilizes space that is typically not used in a conventional vehicle. The position of the side rails 36 relative to one another and the overall size of the channels 38 cooperate to accommodate large and/or bulky items such as, for example, four-foot by eight-foot sheets of plywood and/or drywall (schematically represented by reference number 44). The channels 38 may be of a sufficient height to accommodate more than one sheet of plywood and/or drywall 44 such that the sheets of plywood and/or drywall 44 may be stacked within the channels 38 and transported within the storage compartment 14 under the truck bed 40. Positioning such material within the storage compartment 14 under the truck bed 40 allows other cargo to be placed in the vehicle 10 generally within the truck bed 40 and on the load floor 18.
The fascia 16 may be moved between the closed position restricting entry into the storage compartment 14 and the open position permitting entry into the storage compartment 14. When the fascia 16 is in the open position, the closure panel 12 may be rotated from the closed position into the open position relative to the vehicle 10. The fascia 16 is rotatably attached to the vehicle 10 by a pair of hinges 46 and includes an engagement surface 48 that selectively contacts at least one of the bottom surface 22 and the outer surface 28 of the closure panel 12 when the closure panel 12 is in the closed position and the fascia 16 is in the closed position. Contact between the engagement surface 48 of the fascia 16 and at least one of the bottom surface 22 of the closure panel 12 and the outer surface 28 of the closure panel 12 provides the vehicle 10 with a streamlined and aesthetically pleasing exterior surface when the closure panel 12 is in the closed position and the fascia 16 is in the closed position. Furthermore, such engagement between the fascia 16 and the closure panel 12 hides the hinge 20 of the closure panel 12 from view when the closure panel 12 is in the closed position. Similarly, engagement between the fascia 16 and the closure panel 12 also hides from view the hinges 46 of the fascia 16 when the fascia 16 is in the closed position.
As shown in
With particular reference to
The closure panel 12 may be rotted a distance greater than ninety degrees relative to the vehicle 10 such that the load surface 24 of the closure panel 12 is positioned at an angle relative to the load floor 18 of the vehicle 10. Rotating the closure panel 12 a distance greater than ninety degrees relative to the vehicle 10 allows the top surface 26 of the closure panel 12 to generally oppose the ground and allows the extension 32 to be moved into the extended position and engage the ground such that the extension 32 cooperates with the closure panel 12 to provide a ramp leading to the load floor 18 (
While the closure panel 12 is described above as being rotated greater than ninety degrees relative to the vehicle 10 into the open position, the closure panel 12 may also be rotated into an intermediate position between the closed position and the open position (
In any of the above configurations, the cables 30 cooperate with the hinge 20 of the closure panel 12 to support the closure panel 12 in either the intermediate position or the open position. The cables 30 extend from side panels 50 of the vehicle 10 and may be rotatably attached to the side panels 50 and/or rotatably attached to the closure panel 12 generally proximate to the top surface 26 of the closure panel 12.
To return the closure panel 12 to the closed position, the extension 32 (if in the extended position) is first moved into the retracted position either by rotating or translating the extension 32 relative to the closure panel 12. Once the extension 32 is returned to the retracted position, the closure panel 12 may be rotated from the open position or the intermediate and into the closed position by applying a force to the closure panel 12 and rotating the closure panel 12 relative to the vehicle 10. Upon returning the closure panel 12 to the closed position, a force may be applied to the fascia 16 either manually or by an electrically controlled system such as an electric motor to move the fascia 16 from the open position to the closed position. As described above, when the fascia 16 is returned to the closed position, the engagement surface 48 of the fascia 16 is in contact with at least one of the bottom surface 22 and the outer surface 28 of the closure panel 12.
When the fascia 16 is in the closed position, access to the storage compartment 14 is restricted. To access the storage compartment 14, a force is applied to the fascia 16 either manually or via an electrically controlled device to rotate the fascia 16 from the closed position to the open position. Once the fascia 16 is moved sufficiently into the open position, access to the storage compartment 14 is permitted.
As described above, the side rails 36 of the vehicle 10 are positioned relative to one another such that large and/or bulky objects may be received within the storage compartment 14 and stored generally under the truck bed 40. The channels 38 are positioned relative to one another such that multiple sheets such as plywood and/or drywall 44 may be stacked within the storage compartment 14 and transported with the vehicle 10 generally under the truck bed 40.
Upon loading material into the storage compartment 14, a force may be applied to the fascia 16 to rotate the fascia 16 from the open position to the closed position. Rotating the fascia 16 from the open position to the closed position causes the engagement surface 48 of the fascia 16 to once again engage at least one of the bottom surface 22 and the outer surface 28 of the closure panel 12 to restrict entry into the storage compartment 14. Engagement between the fascia 16 and a closure panel 12 also assists in preventing objects disposed within the storage compartment 14 from being removed from the storage compartment 14 when the fascia 16 is in the closed position and in engagement with the closure panel 12.
The description of the invention is merely exemplary in nature and, thus, variations that do not depart from the gist of the invention are intended to be within the scope of the invention. Such variations are not to be regarded as a departure from the spirit and scope of the invention.
