TONNEAU COVER DEVICE AND SYSTEM FOR A VEHICLE
TECHNICAL FIELD
The invention relates to vehicle with tonneau cover device, and a tonneau cover device and system for a vehicle.
BACKGROUND
Thoughtful tonneau cover device design considers device function, cost, ease-of-use, removability, and stability during vehicle. Automotive designers will balance these considerations as they develop features for market-winning automobiles.
Tonneau cover devices function to enclose items stored in the rear compartment of a vehicle when needed. Such cover devices have a cover therein configured to move between an extended position, wherein the stored items are covered, and a retracted position, wherein the cover is contained in the device itself. Various mechanisms allow the cover to move between these two positions. These devices, regardless of the final design, should comply with various industry standards, government regulations, cost constraints and consumer preferences.
Ease of use is an aspect of cover device design that ensures a user can efficiently operate the device without too much effort or difficulty. When the user wants to cover stored items, the cover should be easy to pull and secure in the extended position. When the user needs access to the stored items covered, the cover should be easy to release for quick retraction.
Removability may also be an important design feature. Removability will be important for users who want to install the cover device in the vehicle only when needed to enclose items in the compartment. For example, the user may want to remove the device to create more storage space in the rear compartment. Various mechanisms are available to make tonneau cover devices removable.
Stability ensures that the cover device operates as it is intended to operate. Specifically, when the user wants the cover in the extended position, the cover should remain in the extended position. When the cover retracts, it should remain retracted. In some cases, however the cover dislodges from the extended position when the vehicle is moving over a rough road surface, for
example. At best, the user is annoyed by this incident, at worst; the unintended cover retraction can cause driver distraction.
SUMMARY
There is need for an improved tonneau cover device that addresses the aforementioned design considerations. The following exemplary embodiments address this need and the aforementioned design considerations.
An exemplary embodiment of the invention is a vehicle comprising a cabin with a rear compartment having an interior side. A tonneau cover device is used in the rear compartment of the vehicle. The tonneau cover device comprises a retraction device and a cover engaged with the retraction device and capable of moving between a retracted position and an extended position, the cover having a distal end, the cover forming a plane (P) along which a retraction force (F) is applied to the cover by the retraction device. A pin extends from the cover, the pin having an axis (X) that is offset a distance (D) from the plane (P). The tonneau cover device has an endboard arranged at the distal end of the cover that is capable of pivoting about the axis (X). The vehicle has a nesting device on the interior side of the rear compartment and configured to receive the pin when the cover is in the extended position. Further, the offset distance (D) increases the force required to release the pin from the nesting device to minimize release of the pin when the vehicle is moving.
An exemplary embodiment of the invention may include a tonneau cover device wherein the pin has a base portion and a projection, and the projection extends from the base portion to engage the nesting device.
Further, the projection may be offset from a center of the base portion to position the pin axis (X) the offset distance (D) from the cover plane (P).
In an exemplary embodiment of the invention, the pin axis (X) has an offset distance (D) that is at least 2 mm from the cover plane (P). In another exemplary embodiment of the invention, the pin axis (X) has an offset distance (D) that is at least 2 mm below the cover plane (P). In another exemplary embodiment of the invention, for example, where desirable to tilt the endboard upward to initiate retraction, the pin axis (X) has an offset distance D that is at least 2 mm above the cover plane (P).
According to some embodiments of the present disclosure the pin axis (X) has an offset distance (D) that is at least 2 mm from an endboard edge of the pin, also referred to as a "horizontal offset." As used herein, the endboard edge of the pin is that edge which is closest to the interface between the pin and the endboard.
A horizontal offset may be used alone or in conjunction with an offset from the cover plane (P), and may be combined with any embodiment described herein, unless otherwise stated or in cases of clear incompatibility.
In an exemplary embodiment of the disclosure, the endboard is configured to pivot about the pin axis (X) to release each pin from their respective nesting devices to move the cover into the retracted position.
In an exemplary embodiment of the disclosure, the retraction device comprises may include a housing with the retraction device (e.g., the cassette) therein. The retraction device configured to apply the retraction force (F) for moving the cover at least partially into the housing when each pin is released from their respective nesting devices.
Another exemplary embodiment of the disclosure is a tonneau cover device for use in a vehicle. As described above, such a vehicle may have a cabin with a rear compartment having an interior side, and a nesting device in the interior side of the rear compartment. In such an exemplary embodiment, the tonneau cover device comprises a retraction device and a cover engaged with the retraction device. The cover is capable of moving between a retracted position and an extended position. The cover as a distal end and the cover forms a plane (P) along which a retraction force (F) is applied to the cover by the retraction device. A pin extends from the cover and has an axis (X) that is offset a distance (D) from the plane (P). The pin is configured to engage the nesting device when the cover is in the extended position. The device includes an endboard arranged at the distal end of the cover that is capable of pivoting about the axis (X). Further, the offset distance (D) increases the force required, as a result of a modified moment, to release the pin from the nesting device to minimize release of the pin when the vehicle is moving when the tonneau cover device is placed in the rear compartment of a vehicle.
In another exemplary embodiment, the tonneau cover device has a pin with a base portion and a projection and the projection extends from the base portion to engage the nesting device.
In an exemplary embodiment of the disclosure, the projection is offset from a center of the base portion to position the pin axis (X) the offset distance (D) from the cover plane (P).
In an exemplary embodiment of the disclosure, the pin axis (X) has an offset distance (D) that is at least 2 mm from the cover plane (P). In another exemplary embodiment, the pin axis (X) has an offset distance (D) that is at least 2 mm below the cover plane (P). In another exemplary device embodiment, e.g., where desirable to tilt the endboard upward to initiate retraction, the pin axis (X) has an offset distance D that is at least 2 mm above the cover plane (P). In another exemplary embodiment, the endboard is configured to pivot about the pin axis (X) to release each pin from their respective nesting devices to move the cover into the retracted position.
In an exemplary embodiment of the disclosure, the retraction device (e.g., the cassette) comprises a housing. The retraction device configured to apply the retraction force (F) for moving the cover at least partially into the housing when each pin is released from their respective nesting devices.
Another exemplary embodiment of the disclosure is a tonneau cover device system for use in a vehicle (referred to herein as the system embodiment). As described above, such a vehicle may have a cabin with a rear compartment having an interior side. The tonneau cover device comprises a retraction device and a cover engaged with the retraction device and capable of moving between a retracted position and an extended position. The cover has distal end. The cover forms a plane (P) along which a retraction force (F) is applied to the cover by the retraction device. The device includes a pin extending from the cover, the pin having an axis (X) that is offset a distance (D) from the plane (P). An endboard is arranged at the distal end of the cover and is endboard capable of pivoting about the axis (X). The system embodiment also includes a nesting device positionable on the interior side of the rear compartment and configured to receive the pin when the cover is in the extended position. The offset distance (D) increases the force required to release the pin from the nesting device to minimize release of the pin when the vehicle is moving.
In an exemplary embodiment of the system, the pin has a base portion and a projection, the projection extending from the base portion to engage the nesting device.
In an exemplary embodiment of the system, the projection is offset from a center of the base portion to position the pin axis (X) the offset distance (D) from the cover plane (P).
In an exemplary embodiment of the system, the pin axis (X) has an offset distance (D) that is at least 2 mm from the cover plane (P). In another exemplary embodiment, the pin axis (X) has an offset distance (D) that is at least 2 mm below the cover plane (P). In another exemplary embodiment, the pin axis (X) has an offset distance D that is at least 2 mm above the cover plane (P).
In an exemplary embodiment of the system, the endboard is configured to pivot about the pin axis (X) to release each pin from their respective nesting devices to move the cover into the retracted position.
In an exemplary embodiment of the system, the retraction device comprises a housing. The retraction device configured to apply the retraction force (F), for example, at the endboard end, for moving the cover at least partially into the housing when each pin is released from their respective nesting devices.
The above summary of some particular exemplary aspects is not intended to describe each disclosed vehicle, device and system embodiment or every implementation of the disclosure. In particular, selected features of any illustrative embodiment within this specification may be incorporated into additional embodiments unless clearly stated to the contrary.
BRIEF DESCRIPTION OF THE DRAWINGS
The disclosure may be more completely understood in consideration of the following detailed description of various embodiments in connection with the accompanying drawings.
FIG. 1 is a rear perspective view of a vehicle according to an embodiment of the disclosure;
FIG. 2 illustrates a tonneau cover device positioned in the rear compartment of the vehicle shown in FIG. 1;
FIG. 3 illustrates a tonneau cover device with the cover in an extended position enclosing a portion of the rear compartment of the vehicle shown in FIG. 1;
FIG. 4 is a perspective view of a schematic of a tonneau cover device with a cover in the retracted position;
FIG. 5 is a perspective view of a schematic of a tonneau cover device with a cover in the extended position illustrating engagement with nesting devices shown in dashed lines;
FIGS. 6A, 6B, and 6C are end, plan, and side views, respectively, of an embodiment of a pin used to engage a nesting device according to an embodiment of the disclosure;
FIG. 6D is a schematic diagram demonstrating engagement/ disengagement of a pin according to embodiments of the present disclosure;
FIG. 7 is a detailed schematic view illustrating how the cover engages the nesting devices as shown in FIG. 5; and
FIGS. 8A and 8B illustrate how the pins dislodge for the nesting devices according to an embodiment of the disclosure.
While the disclosure is amenable to various modifications and alternative forms, specifics thereof have been shown by way of example in the drawings and will be described in detail. It should be understood, however, that the intention is not to limit aspects of the disclosure to the particular embodiments described. On the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the scope of the disclosure.
DETAILED DESCRIPTION
The following detailed description should be read with reference to the drawings in which similar elements in different drawings are numbered the same. The detailed description and the drawings, which are not necessarily to scale, depict illustrative embodiments and are not intended to limit the scope of the disclosure. The illustrative embodiments depicted are intended only as exemplary. Selected features of any illustrative embodiment may be incorporated into an additional embodiment unless clearly stated to the contrary.
FIG. 1 is an example of a vehicle 1 having a tonneau cover device therein. The vehicle 1 shown is 5-door wagon-style automobile. Other types of automobiles, such as a sedan, wagon, hatchback, SUV, cross-over, or any other type of 5-door type automobile can be used as described herein. The vehicle 1 has front 2, back 4, passenger cabin 8, and a back door 6 that may be opened
for access to a rear compartment 10 (not shown in FIG. 1). For clarification, the term "back door" 6 shall be understood to refer to a door permitting access to rear compartment 10 (e.g., luggage space), while a "rear door" permits access to a rear passenger compartment, e.g., a rear side door.
Turning to FIGS. 2 and 3, the rear compartment 10 has a forward end 12, rearward end 14, bottom 18 and opposing interior sides 20. The rearward end 14 of the rear compartment 10 corresponds to the back 4 of the vehicle. The forward end 12 is the portion of the rear compartment 10 proximate the rear passenger seats (not numbered). The phrase "forward end" or "forward direction" means the end, or direction toward, the front 2 of the vehicle. Conversely, the phrase "rearward end" or "rearward direction" means the end, or direction, toward the rear or back 4 of the vehicle.
Continuing with FIGS. 2 and 3, the tonneau cover device 40 is shown removably positioned in the rear compartment 10. The tonneau cover device 40 has first 47 and second 49 ends configured to engage (removably) opposing sides 20 of the rear compartment 10. The tonneau cover device 40 may be fixed to opposing sides 20 of the rear compartment 10. The tonneau cover device 40 is also shown elevated above the rear compartment floor 18 proximate to the shoulder rests of the rear passengers seats (not numbered in FIGS. 2 and 3). Alternate positions and configurations of the tonneau cover device 40 in the rear compartment 10 are possible.
FIGS. 4 and 5 illustrate operation of the tonneau cover device 40. FIG. 4 shows the cover device in the retracted position A while FIG. 5 shows the device in an extended position B.
As shown in FIG. 5, the tonneau cover device 40 has a retraction device
50, a moveable cover 42 (FIG. 5), two pins 60 extend from opposing sides of the moveable cover 42 and an endboard 54 connected to the distal end 43 of the moveable cover 42. When the cover device is in the retracted position A, a user can pull the endboard 54 to the extended position whereby the pins 60 engage the nesting devices 70 (detailed below). To move the cover 42 into the retracted position A, the endboard 54 is deflected so as to release the pins 60 from the nesting devices 70, allowing the retraction means 54 to pulls the cover 42 back to the retracted position A.
Continuing with FIGS. 4 and 5, the retraction device 50 has a housing 48 with a retraction means 46 therein (not shown). The retraction means 46 is
connected to a first end (not shown) of the cover 42 and applies a retraction force F (FIG. 7) along a plane P formed by the moveable cover 42. When each pin 60 is released from their respective nesting devices 70, the retraction means moves the cover 42 into the retracted position A within housing 48. An exemplary embodiment of the retraction means 46 is a spiral spring connected to the first end (not shown) of the moveable cover 42. In such an embodiment, the retraction means 46 can wind the moveable cover 42 up inside the housing 48 when the pins 60 are released from the nesting devices 70. Any other suitable mechanism may also be used to retract the cover.
The two pins 60 are configured to engage and cooperate with nesting devices 70 positioned on opposing sides 20 of rear compartment 10 (nesting devices show in FIG. 7 and detailed below). Specifically, the pins 60 extend from the sides of the moveable cover 42 where the moveable cover 42 and endboard 54 are connected. Further, each pin 60 has an axis X, the axis X being perpendicular to the extension direction of the moveable cover 42. The axis X is also the endboard 54 rotation axis. A user can rotate or deflect the endboard 54 about the axis X, which causes the pins 60 to dislodge from the nesting device 70. When the pins 60 engage the nesting devices 70, the moveable cover 20 is in the extended position B shown in FIG. 5. When the pins 60 are released from the nesting device 70 via rotation of endboard 54, the retraction means 46 pulls the moveable cover 42 into the retracted position A shown in FIG. 4.
FIGS. 6A to 6C shows further details of exemplary pins 60 according to an embodiment of the disclosure. For purposes of clarity, only one pin and nesting device is described below. The pin and nesting devices on each side of cover are similar.
The pin 60 is on opposing ends of a rod 69, the rod 69 being enclosed within, or secured to, the moveable cover 42 and endboard 54 so that the pins 60 extend past either side of the cover 42. In other embodiments, however, the pins 60 may be separate structures that are directly secured to the moveable cover 42.
Further, as shown in FIG. 6C, the pin 60 and rod 69 are configured to be secured to the cover 42 and endboard 54 so that when the endboard 54 is deflected, the pin 60 and rod 69 rotate to effect dislodgement of the pin from the nesting device 70 (see FIG. 6D).
Further, as shown in FIGS. 6A through 6C, the pin 60 has a base portion 62 (which is the end of rod 69) and a projection 64. The projection 64 extends from the surface 63 of the base portion 62.
The pin 60 is illustrated with the projection 64 having a first perimeter CI and the base portion 62 with a second perimeter C2. The first perimeter CI (the projection 64 perimeter) is contained within the second perimeter C2 of the base portion 62. Importantly, however, CI may also be outside of the second perimeter C2, as desired.
Further, the projection 64 has an upper surface 65 and a lower surface 66, both surfaces offset distances El and E2 from the perimeter C2 of the base portion 62. The offset distances El and E2 are selected so that the projection 64 is offset from the center (not numbered) of base portion 62. Specifically, in the embodiment shown in FIGS. 6A and 6C, El is greater than E2 so that the projection 64 is offset toward a lower edge 68 of the base portion 62. The lower surface 66 of projection 64, however, can rest on the nesting device 70 as detailed below. The specific distances El, E2 are not critical; El and E2 can range between approximately 0.1 mm and 50 mm as desired. Further, perimeters CI, C2, and thus the shapes of the projection 64 and base portion 62, may be modified as well.
Turning to FIG. 6C, each projection 64 has a pin axis X which is at the geometric center of the projection 64. Further, the projection 64 is offset from a center of the base portion 62 to position the pin axis X the distance D from the cover plane P (FIG. 7). In other embodiments, however, the pin axis X may be in other locations of the projection 64.
While a particular pin 60 design is shown and described herein, the pin 60 can have variations on the illustrated design. Specifically, in embodiments where the projection 64 has a size, shape, and position that is different from that which is shown in FIGS. 6A through 6C, the pin 60 and cover 42 are configured so that the pin axis X remains the endboard 54 rotation axis, as described above.
FIG. 7 is a schematic illustrating how the tonneau cover device 40 engages a nesting device 70. Specifically, FIG. 7 is a detailed side schematic view of the tonneau cover device 40 and nesting device 70 shown in FIG. 4, with portions of the nesting device 70 removed for illustrative purposes. The nesting device 70 has a hook portion 72 and a channel 76 positioned forward
(toward the front of the vehicle) and above the hook portion 72. The hook portion 72 includes a ridge 74 extending over a hook platform 73 to create a space for the pin 60 to rest within. Specifically, the lower surface 66 of the projection 64 can rest on hook platform 73.
Continuing with FIG. 7, the channel 76 is formed between upper surface
75 of the ridge 74 and the rail 78. The channel 76 engages and guides movement of pin 60 during operation of the tonneau cover device 40. When the pin 60 is released from the hook portion 72 (this mechanism being caused by the endboard 54 deflection), the moveable cover 42 retracts and the pin 60 slides within the channel 76. While the nesting device 70 shown is a horizontal- type nesting device, a vertical-type nesting device is possible, and such a vertical nesting device can be similar or even identical to the horizontal-type, albeit with an altered orientation. In vertical-type nesting device, (not shown), the rail 78 and channel 76 can be positioned at an upwardly extending angle with respect hook platform 73 that the cover 42 moves upwardly and retracts when the pins 60 are dislodged from the hook portion 72 of the nesting device.
FIGS. 8A and 8B illustrate how the pin 60 dislodges from the nesting device 70 to allow the cover 42 to retract. Specifically, rotating the endboard 54 in the direction R as shown in FIG. 8A applies a torque (detailed below) to the pin 60, rotating the pin 60 within hook portion 72. The pin side 67 moves upwardly from the hook platform 72 to engage hook ridge 74. As the torque exceeds a certain magnitude, the pin side 67 bears against and is then urged past the ridge 74, dislodging the pin 60 from the hook portion 72, as shown in FIG. 8B. When the pin 60 exits the hook portion 72, the retracting means 46(not shown in FIG. 7), by applying the force F to the cover 42, pulls the cover 42 in a forward direction (back within the housing 48) while the pin 60 is guided within the channel 76 (shown in dashed lines in FIG. 8B).
Returning to FIG. 7, the pin 60 is configured to engage the nesting device 70 so that the pin axis X (which is rotation of axis of the endboard 54) is offset a distance D from the cover plane P. The offset distance D is preferably greater than zero. More preferably, the offset distance D is at least 2 mm. In preferred embodiments, the offset distance D is between approximately 5 mm and 20 mm, although any suitable offset may be implemented. The offset distance D may vary depending on the type of vehicle, the size of the endboard, etc.
Pin axis X may present a horizontal offset such that pin axis X is offset by a particular distance from an endboard edge of pin 60. Such a horizontal offset may be at least 2 mm, and may be implemented alone or in conjunction with any offset from the cover plane P.
The offset distance D is selected to minimize unintended pin dislodgement from the nesting device. For example, when the offset distance D is greater than zero, the torque required to dislodge the pin 60 from then nesting device 70 is increased. More specifically, the counter torque (T) resulting from cover 42 can be described by the following equation (1): T = F · D, where F is the retraction force applied to the cover 42 and the D is the offset distance as described herein. The torque T is partly countered by the weight torque Tw of the endboard 54, which is given by the following equation (2): Tw = M · Y, wherein, M is the mass in grams of the endboard 54, and Y is defined by the distance the pin axis X and the center of gravity 55. Dislodge torque TD (i.e., the torque to dislodge pin 60) can then be described by the following equation (3): TD=TDo + T - Tw, where TDo equals the dislodge torque with an offset of D=0. Thus, as the offset distance D increases, the torque required to dislodge the pin 60 from the nesting device 70 also increases. Further, when the offset distance D is equal to 0, the torque required to dislodge the pin 60 is lower compared to the situation when the offset distance D is greater than zero.
Typical tonneau cover devices have an endboard rotation axis (pin axis) that is positioned one or substantially near the plane P (i.e., D = 0) of the moveable cover 42. The force and/or torque required to dislodge the pin 60 from the nesting device is somewhat low for such typical devices. Any sufficient significant force applied to the endboard 54, such as that which occurs when traveling over a bumpy road surface resulting in endboard swinging, can cause the pin 60 to dislodge and the cover 42 to retract.
In contrast, when the tonneau cover device 40 is configured as described herein to have an offset distance D between the plane P and the pin axis X, and the vehicle is travelling over a bumpy road surface, pin 60 dislodgement is minimized because the required torque to dislodge the pin 60 is increased. Such a tonneau cover device 40 has improved stability and performance.
In other embodiments, that is for other nesting device configurations, the offset distance D can be above the plane P. That is, a tonneau cover device
systems (nesting device 70 and tonneau cover device 40) can be configured so that the endboard 54 is pulled upwardly by the user to operate. In such a system, the pin 60 is positioned above the cover 42 and plane P. Accordingly, the pin axis X is offset a distance D above the plane P. In this system, the offset distance D is preferably greater than zero. More preferably, the offset distance D is at least 2 mm. In a preferred embodiments, the offset distance D is between approximately 5 mm and 20 mm, although any suitable offset may be implemented.
While the embodiments describe illustrate a specific pin and cover design for creating an offset distance D, any other configuration that moves the endboard rotation axis X above or below the moveable cover 42 would fall within the scope of the disclosure as described herein.
Further, the scope of the disclosure as described herein includes a tonneau cover device alone, any vehicle comprising a tonneau cover device and a nesting device (s), and a system that includes a tonneau cover device and a nesting device (s). In any aspect of the any single embodiment disclosed herein, any feature and/or elements disclosed in one embodiment can be used in any combination with any particular or specific feature of another embodiment. For example, any single specific feature or combination of features of the pin 60 can be used to with any specific features of cover device, nesting device, and/or moveable cover.
Throughout the description, including the claims, the term "comprising a" should be understood as being synonymous with "comprising at least one" unless otherwise stated. In addition, any range set forth in the description, including the claims should be understood as including its end value(s) unless otherwise stated. Specific values for described elements should be understood to be within accepted manufacturing or industry tolerances known to one of skill in the art, and any use of the terms "substantially" and/or "approximately" and/or "generally" should be understood to mean falling within such accepted tolerances.
Where any standards of national, international, or other standards body are referenced (e.g., ISO, etc.), such references are intended to refer to the standard as defined by the national or international standards body as of the priority date of the present specification. Any subsequent substantive changes
to such standards are not intended to modify the scope and/or definitions of the present disclosure and/or claims.
Those skilled in the art will recognize that the present invention may be manifested in a variety of forms other than the specific embodiments described and contemplated herein. Accordingly, departure in form and detail may be made without departing from the scope of the present invention as described in the appended claims.