Patent Publication Number: US-2023136740-A1

Title: Adjustable vehicle rack

Description:
FIELD 
     This application claims benefit to U.S. Provisional Application No. 63/273,496, filed on Oct. 29, 2021, all of which is incorporated by reference herein in its entirety for all purposes. 
    
    
     FIELD 
     The present teachings generally relate to a vehicle rack, and more specifically, to an adjustable vehicle rack for a vehicle bed. 
     BACKGROUND 
     Vehicle accessories, and particularly, accessories for vehicles having a cargo box, have become increasingly prominent. Often times, vehicle having a cargo box, such as a pickup truck, will have one or more accessories fixed directly to a portion of the cargo box. The accessories may be fixed within the confines of the vehicle, may be secured along walls defining the cargo box, or both. For example, a vehicle rack may be disposed substantially across a width of the cargo box and secured along a top edge and/or an inner panel of the cargo box by one or more brackets. The rack may be positioned behind a cab of the vehicle and over the cargo box to support and/or secure one or more items. As a result, such items may be secured to the rack instead of being located within the confines of the cargo box, thereby providing additional storage capabilities for the vehicle. 
     Often times vehicle racks may be secured using conventional attachment mechanisms. Such attachment may often require permanent modification to the cargo box or laborious installation to install the rack to the cargo box. For example, a top edge and/or inner panel of the cargo box may often need to be permanently drilled, welded, or otherwise modified to receive and secure a vehicle rack. As a result, a vehicle may be permanently deformed if the vehicle rack is to ever be removed. Similarly, a user of the rack may also have difficulty installing the vehicle rack initially, thereby requiring the user to seek outside expertise, such as a mechanic. Moreover, frequently no common mounting structure may exist between various vehicles. As a result, mounting of vehicle racks may often be insecure and cause rattling or damage to the accessories mounted thereon, potentially resulting in the accessories of even the vehicle rack from disconnecting from the cargo box. 
     Additionally, vehicle racks may frequently be fixed in a single position along the cargo box. In such a case, a user may be unable to modify or otherwise adjust the rack to provide additional customization for securing accessories. Similarly, conventional vehicle racks may often require complex or non-planar structures between various members of the rack. As a result, accessories may frequently not fit or be properly secured to a plurality of mounting points along the rack. 
     Therefore, there remains a need for a vehicle rack that provides an optimized means for assembly. What is needed is a vehicle rack that easily mounts to one or more features of the cargo box free of laborious assembly. Additionally, there remains a need for a vehicle rack that requires minimal or no fabrication of the vehicle cargo box for installation that may permanently deform portions of the cargo box. As such, what is needed is a vehicle rack that may mount to one or more existing features of the cargo box free of fabrication. Moreover, what is needed is a vehicle rack that provides improved customization and/or adjustability. Thus, what is needed is a vehicle rack having one or more adjustable members to adapt to various accessories being secured to the vehicle rack. 
     SUMMARY 
     The present teachings meet one or more of the present needs by providing a vehicle rack comprising: (a) a lateral member; (b) a crossmember extending transversely relative to the lateral member; and (c) a leg, wherein the lateral member, the crossmember, or both are secured to the leg; wherein the crossmember is movable along a longitudinal axis of the lateral member and the crossmember is adapted to mount to the lateral member. 
     The lateral member may include a first channel and the crossmember may be secured to the first channel of the lateral member. The crossmember may include a mounting plate positioned between an end cap of the crossmember and the first channel of the lateral member to secure the crossmember. 
     Additionally, the vehicle rack may include a panel mounted to the lateral member, and the panel may be configured to secure an accessory. The panel may include a mounting opening to secure the panel to a second channel of the lateral member via a fastener. The panel may include a first flange that abuts the lateral member, and the fastener may extend through a mounting hole of the first flange to secure the panel to a second channel of the lateral member. The first channel may be located on a first face of the lateral member and the second channel may be located on a second face of the lateral member, and the first face and the second face may be nonplanar. The panel may include a plurality of openings to secure the accessory. The panel may include a second flange that abuts a flange of an adjacent panel to secure the panels to each other. 
     Moreover, the leg may include a cover that at least partially encloses an inner cavity of the leg. One or more fasteners may extend through a surface of the inner cavity to secure the lateral member, the crossmember, or both. The leg may include a base adapted to mount the vehicle rack to a cargo box of a vehicle. The lateral member, the crossmember, or both may each include interconnected faces, and at least a portion of the interconnected faces may include a channel therein. The channel may include opposing flanges that extend inward towards one another. The lateral member, the crossmember, or both may include a cavity extending at least partially along a length of the lateral member, the crossmember, or both. The cavity may include a boss adapted to receive a fastener. 
     Additionally, the vehicle rack may include a mounting plate that is connected to the leg by a bolt. The vehicle rack may be secured to a cargo box of a vehicle by positioning the mounting plate within a stake pocket of the cargo box and positioning an upper surface of the cargo box between the leg of the vehicle rack and the mounting plate. The mounting plate may include a notch that receives a lip of the stake pocket. Moreover, the upper surface of the cargo box may be compressible secured between the leg and the mounting plate by tightening the bolt extending between the mounting plate and the leg. 
     Furthermore, the present teachings may also meet the present needs by providing a vehicle rack that: provides an optimized means for assembly; easily mounts to one or more features of the cargo box free of laborious assembly; requires minimal or no fabrication of the vehicle cargo box for installation that may permanently deform portions of the cargo box; mounts to one or more existing features of the cargo box free of fabrication; provides improved customization and/or adjustability; includes one or more adjustable members to adapt to various accessories being secured to the vehicle rack; or a combination thereof. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         FIG.  1    is a perspective view of a vehicle rack in accordance with the present teachings. 
         FIG.  2 A  is a perspective view of a vehicle rack having crossmembers in a first position. 
         FIG.  2 B  is a perspective view of the vehicle rack of  FIG.  2 B  having the crossmembers in a second position. 
         FIG.  3    is close-up view  3  of the vehicle rack of  FIG.  2 A . 
         FIG.  4    is a perspective view of the profile of a lateral member or crossmember of a vehicle rack in accordance with the present teachings. 
         FIG.  5    is an end view of the profile of  FIG.  4   . 
         FIG.  6    is a close-up view of a vehicle rack panel in accordance with the present teachings. 
         FIG.  7    is a close-up perspective view of a vehicle rack in accordance with the present teachings. 
         FIG.  8    is a perspective view of a vehicle rack secured to a cargo box of a vehicle. 
         FIG.  9    is a close-up view of a leg of a vehicle rack secured within a stake pocket of a cargo box. 
         FIG.  10    is a perspective view of a vehicle rack in accordance with the present teachings. 
         FIG.  11    is a close-up perspective view of a vehicle rack in accordance with the present teachings. 
         FIG.  12    is a close-up perspective view of a vehicle rack in accordance with the present teachings. 
     
    
    
     DETAILED DESCRIPTION 
     The explanations and illustrations presented herein are intended to acquaint others skilled in the art with the teachings, its principles, and its practical application. Those skilled in the art may adapt and apply the teachings in its numerous forms, as may be best suited to the requirements of a particular use. Accordingly, the specific embodiments of the present teachings as set forth are not intended as being exhaustive or limiting of the teachings. The scope of the teachings should, therefore, be determined not with reference to the description herein, but should instead be determined with reference to the appended claims, along with the full scope of equivalents to which such claims are entitled. The disclosures of all articles and references, including patent applications and publications, are incorporated by reference herein in their entirety for all purposes. Other combinations are also possible as will be gleaned from the following claims, which are also hereby incorporated by reference in their entirety into this written description. 
     The teachings herein generally relate to a vehicle and a system for a vehicle. The vehicle may be any type of automobile, such as a car, truck, SUV, commercial vehicle, or a combination thereof. The vehicle may include a system integrating one or more accessories into the vehicle. The accessories may be assembly as part of the vehicle by the Original Equipment Manufacturer (OEM), may be provided as a secondary aftermarket component, or a combination thereof. The components may include one or more lights, one or more latches, one or more mechanical disconnects, one or more actuators, one or more mirrors, one or more doors, one or more interior components, one or more exterior components, or a combination thereof. 
     The components may be located near or along a cargo box of the vehicle. The cargo box may be defined as a storage portion of the vehicle adjacent to a cabin of the vehicle. The cargo box may be partially enclosed, fully enclosed, or both. The cargo box may include one or more openings, one or more doors, or a combination thereof. The cargo box may be formed from one or more side rails, one or more fenders, one or more panels, or a combination thereof. The side rails may extend parallel to each other and may be further enclosed by the fenders, panels, or both. 
     The cargo box may include a tailgate. The tailgate may function to at least partially enclose the cargo box. The tailgate may function as an access point into the cargo box. The tailgate may be considered a component or accessory of the cargo box. The tailgate may be moveable between an open position and a closed position. The open position may be when the tailgate is substantially parallel to the ground and provides an open access point into the cargo box. The closed position may be when the tailgate is substantially perpendicular to the ground and substantially encloses at least a portion of the cargo box. The tailgate may also move and/or be secured in one or more positions between the open position and the closed position. The tailgate may be manually operated by a user or may be actuated by one or more powered actuators. The tailgate may operate with physical user interaction or may be actuated remotely. 
     The tailgate and/or cargo box may be used in conjunction with a vehicle rack. The vehicle rack may function to secure one or more accessories or items to the vehicle. The one or more accessories may be construction equipment (e.g., tools, supplies, etc.), recreational equipment (e.g., kayaks, bicycles, canoes, etc.), other equipment, or a combination thereof. The vehicle rack may be disposed along any portion of the vehicle, such as a vehicle roof. However, it is envisioned that the vehicle rack may be particularly well-suited for mounting to a cargo box of a vehicle. As such, the vehicle rack may beneficially allow a user full use of the both the vehicle rack and the cargo box when mounted. Similarly, the vehicle rack may be used in conjunction with one or more accessories or components of the cargo box. For example, a tonneau cover disposed over the cargo box may be fully operation due to sufficient clearance provided by the vehicle rack mounted to the cargo box. 
     As discussed in further detail below, the vehicle rack may be mounted to any portion of the cargo box. The vehicle rack may be mounted to the fenders, a bulkhead of the cargo box, the tailgate, a floor panel of the cargo box, inner panels of the cargo box, or a combination thereof. However, to facilitate ease of installation, the vehicle rack may rest along an upper edge or lip of the cargo box and be installed through the upper edge or lip. For example, a bed cap may be integrated into or otherwise disposed along the upper edge of the cargo box, and the vehicle rack may rest along the bed cap. Similarly, the vehicle rack may be secured directly through the bed caps, thereby minimizing or eliminating modification of the cargo box for installation. 
     The vehicle rack may include a lateral member. The lateral member may function as a structural support of the vehicle rack. The lateral member may provide a mounting structure to secure one or more accessories. The lateral member may be oriented or otherwise positioned in any desired position along the rack. However, it is envisioned that the lateral member may extend lengthwise along or near a longitudinal axis of the bed caps of the cargo box, a longitudinal axis of the fender or upper portion of the cargo box, or both. The lateral members may be integrally (i.e., monolithically) formed. For example, the lateral members may be extruded, pultruded, stamped, or molded to define a profile of the lateral members. As a result, the lateral members may be solid or hollow (e.g., includes one or more cavities or one or more chambers therein). 
     The lateral member may comprise one or more faces. The faces may substantially form an overall structure of the lateral member. The faces may form a cavity extending through all or a portion of the lateral member. The faces may be any desired size and/or shape. Similarly, the faces may be positioned at any desired angle relative to one another. Thus, it may be gleaned from the present teachings that an overall profile of the lateral member may be defined by the faces and may be formed into any desired profile. 
     One or more of the faces may include a channel. The channel may function to secure one or more crossmembers of the vehicle rack. The channel may similarly function to secure one or more accessories to the lateral member and thus the vehicle rack. The channel may include an opening to receive one or more connection features of a crossmember, an accessory, or both. For example, the channel may receive a fastener, block, plate, clip, other mechanical connection means, or a combination thereof to secure the crossmember, the accessory, or both. 
     The channel may extend along a length of the face and/or a length of the lateral member. The channel may extend along a partial distance of the face and/or the lateral member. The channel may be substantially linear or may include one or more arcuate portions or undulations. The channel may terminate at opposing terminal ends (e.g., end caps) of the lateral member or the face or may terminate somewhere therebetween. Termination of the opening may include an opening along the end caps to receive a portion of a connection means within the channel. Conversely, the channel may instead be closed or otherwise capped. 
     One or more of the channels may include an opening along the channel to receive a portion of the crossmember, the accessory, a mechanical attachment means thereof, or a combination thereof. The opening may define a width of the channel as measured substantially perpendicular to a length of the channel. However, the opening may also be wider or narrower than a width of the channel. For example, the opening may include one or more inwardly turned flanges extending toward a central portion of the channel, thereby narrowing the opening of the channel to a width less than a width of the channel. 
     Each face may include a channel, or some faces may be free of any channel. Similarly, one or more faces may each include a plurality of channels. For example, a face may include two or more channels, three or more channels, or four or more channels. A face may include six or less channels, five or less channels, or four or less channels. Thus, configurations of the lateral members may vary based upon a given application. 
     It is envisioned that the lateral members may also include a mounting means. The lateral members may be mounted or secured to another portion of the vehicle rack by a boss. The boss may function to receive a fastener extending from and/or through another portion of the vehicle rack. The boss may receive and secure the fastener to join the lateral member to an additional portion of the vehicle rack. The boss may be positioned anywhere along the lateral members. However, it may be particularly beneficial to position the boss within a cavity of the lateral member, thereby ensuring the faces and/or channels of the lateral member remain unobstructed. As such, a boss may include an open end located near an end cap of the lateral member to receive the fastener. Thus, the boss may extend along an entire length or a partial length of the lateral member. The boss may secure the lateral member to an additional component of the vehicle rack, such as a leg. 
     The leg may function to secure the vehicle rack to a vehicle. The leg may secure the vehicle rack to a cargo box of a vehicle. The leg may secure the vehicle rack to a roof of the vehicle. A plurality of legs may be positioned along the vehicle rack to provide additional securement points of the vehicle rack, thereby improving the structural rigidity. The leg may be positioned near a corner of the vehicle rack or may be positioned anywhere between corners (e.g., near a midpoint of the vehicle rack). The leg may extend transversely relative to the lateral member. For example, the lateral member may be substantially parallel to an upper surface of a fender of a vehicle while the leg extends substantially orthogonally to the lateral member towards the upper surface of the fender. As such, the leg may provide a contact point between the vehicle rack and a portion of the vehicle. 
     The leg may beneficially provide an easier and less-intrusive means for securing a vehicle rack when compared to a conventional vehicle rack mounting structure. That is, the legs may provide mounting of the vehicle rack free of fabrication or permanent deformation of the vehicle, such as by fabricating or deforming a cargo box of the vehicle. Such deformation and/or fabrication may include, but is not limited to, welding, cutting, melting, bending, adhering, tearing, or a combination thereof a portion of the vehicle, including a cargo box of the vehicle. 
     To facilitate such installation, the leg may work in conjunction with a mounting plate. The mounting plate may function to communicate with the leg to secure the vehicle rack to a vehicle. The mounting plate may at least partially exhibit a compression force on the vehicle when the vehicle rack is mounted. For example, the mounting plate in conjunction with the leg may compressibly sandwich an upper portion of a cargo box of a vehicle between the mounting plate and the leg. 
     To create such attachment, the mounting plate may be adapted for positioning within a stake pocket of a vehicle. The stake pocket may include an opening along an upper portion of the cargo box, such as along an upper edge of a fender through or beneath a bedcap of the cargo box. Beneficially, the mounting plate may be inserted into the stake pocket through an existing opening of the stake pocket yet be oriented once inserted into the stake pocket to abut a region around the opening of the stake pocket. That is, the mounting plate may advantageously be oversized relative to the opening of the stake pocket to press against a surface of the stake pocket after installation of the vehicle rack. 
     The mounting plate may also include one or more notches along an outer perimeter of the mounting plate. The notches may function to engage one or more lips of the stake pocket. The lips may be any inwardly turned portion of the stake pocket near or adjacent to the opening of the stake pocket. Such lips may be created during manufacturing of the stake pocket. For example, a stamping or piercing process my create the opening of the stake pocket, thereby deflecting portions of the material into the stake pocket near or around the opening of the stake pocket. As a result, such lips may extend at least partially within the notches of the mounting plate to prevent rotation of the mounting plate during and/or after installation of the vehicle rack. 
     To mount the vehicle rack, the mounting plate may be used in conjunction with a base of the leg to compress opposing sides of the surface around the opening of the mounting pocket. The base of the leg may rest or otherwise abut a portion of an outer surface of the upper surface of the fender (e.g., along a bed cap) while the mounting plate abuts an inner surface around the opening of the stake pocket. Once the stake pocket and the base of the leg are substantially coaxial or otherwise aligned, a bolt extending from the mounting plate, through the base, and into the leg may be tightened to create the compression force, thereby securing the vehicle rack. The bolt may extend into a cavity of the leg through a hole, aperture, slot, or a combination thereof of the leg. Once received, a nut or other tightening mechanism may tighten the bolt to secure the vehicle rack. 
     The vehicle rack may also include a crossmember. The crossmember may be positioned substantially transverse to the lateral member. That is, the lateral member may extend laterally along or near the one or more bed caps of the cargo box while the crossmember extends substantially across a width of the cargo box between opposing sides of the cargo box. The crossmember may be in communication with the lateral member. For example, the crossmember may be secured directly to the lateral member. The crossmember may be secured either directly or indirectly to the lateral member. For example, a crossmember plate secured to the crossmember (e.g., near or along an end cap of the crossmember) may connect the crossmember to the lateral member. 
     Advantageously, it is envisioned that the crossmember may be movably secured to the lateral member. Due to the channels along the lateral member, the crossmember may be secured to the channels yet may be guided along the channels to any number of positions. For example, as discussed in further detail below, the crossmember may be fastened to the channel using one or more fasteners. When the crossmember is located in a desired position, the fasteners may be tightened to secure the crossmember and maintain a position of the crossmember relative to the lateral member. However, if the crossmember were to be moved for any desired reason, the fasteners may be loosened slightly yet not removed from the channel to guide the crossmember along the channel to another desired location. It should also be noted that the crossmember may be secured to any number of channels of the same lateral member or a plurality of lateral members. Additionally, the crossmembers may also be secured to one or more legs of the vehicle rack in a static position of a crossmember is desired. Thus, it may be gleaned from the present teachings that the vehicle rack may be highly customizable. 
     The crossmember may also provide a means for adjusting a width of the vehicle rack. To do so, the crossmember may include one or more movable portions so that a width of the crossmember may be adjusted, thereby adjusting an overall width of the vehicle rack. In doing so, the crossmember may beneficially provide a way for the vehicle rack to mount to a variety of cargo box widths, further providing customization and/or adjustability of the vehicle rack. 
     The crossmember may include an inner crossmember and an outer crossmember. The inner crossmember may be at least partially positioned within the outer crossmember to allow the outer crossmember to slide along or otherwise move relative to the inner crossmember, or vice versa. The inner crossmember may be positioned within a cavity or channel of the outer crossmember so that the inner crossmember may at least partially protrude from the outer crossmember to engage and/or connect the crossmember to a lateral member, a leg of the vehicle rack, or both. As such, the communication between the inner crossmember and the outer crossmember may provide telescoping movement of the crossmember to adjust a length of the crossmember. However, it should also be noted that any number of movable pieces may make up the crossmember (i.e., two or more members, three or more members, or four or more members). 
     It is also important to note that the crossmember may have a profile similar to the lateral member. That is, the crossmember may include similar faces, may include one or more channels, etc., when compared to a lateral member of the vehicle rack. However, the crossmember may also have a different profile than the lateral member. Moreover, some lateral members may have a similar profile to some crossmembers while other lateral members and/or crossmembers may have a different profile. As such, it may be gleaned that any number of lateral members and/or crossmembers may be utilized in the vehicle rack based upon various applications. 
     The vehicle rack may also include one or more panels. The panels may function to secure an accessory to the vehicle rack. The panels may function to provide structural integrity to the vehicle rack. The panels may at least partially define a shape of the vehicle rack. Moreover, the panels may also be secured or positioned anywhere along the vehicle rack. For example, the panels may be secured to one or more lateral members, one or more crossmembers, or both. Additionally, the panels may be adapted to connect to each other. 
     The panels may include one or more flanges. The flanges may function to communicate with the crossmember, the lateral member, other flanges of additional panels, or a combination thereof. The flanges may extend from a face of the panel at any desired angle to mate and/or abut with the crossmember, the lateral member, other flanges of additional panels, or a combination thereof. The face of the panel may be defined as a surface engaging and/or securing an accessory to the panel and/or the vehicle rack. 
     Turning now to the figures,  FIG.  1    illustrates a perspective view of a vehicle rack  30  in accordance with the present teachings. The vehicle rack  30  may include opposing lateral members  32 . The lateral members  32  may be configured to extend along a length of a cargo box of a vehicle (see  FIG.  8   ). That is, the lateral members  32  may extend along a longitudinal axis of a bed cap or upper edge of the cargo box. As such, the lateral members  32  may have a longitudinal axis parallel to a longitudinal axis of the bed cap or upper edge of the cargo box. 
     The vehicle rack  30  may also include a pair of crossmembers  34 . The crossmembers  34  may extend transversely relative to one or more of the lateral members  32 . Thus, the crossmembers  34  in communication with the lateral members  32  may substantially form a frame of the vehicle rack  30 , thereby at least partially defining an overall shape of the vehicle rack  30 . 
     The lateral members  32 , the crossmembers  34 , or both may be secured to one or more legs  36  of the vehicle rack  30 . The legs  36  may be positioned at or near corners of the vehicle rack  30 . However, it is envisioned that the legs  36  may be positioned anywhere along the vehicle rack  30  to communicate with a portion of the vehicle (e.g., the cargo box) to secure the vehicle rack  30  to the vehicle. As further discussed below, the legs  36  may receive a portion of the lateral members  32  and/or the crossmembers  34  to secure the lateral members  32  and/or the crossmembers  34  using one or more fasteners. For example, as shown in  FIG.  1   , each leg may receive a plurality of lateral members  32 , one or more crossmembers  34 , or a combination thereof. Thus, it may be gleaned from the present teachings that the vehicle rack  30  may provide a variety of configurations to meet packaging constraints or requirements. 
     To secure the vehicle rack  30  to a vehicle (e.g., a cargo box of the vehicle), one or more of the legs  36  may include a base  38 . The base  38  may provide a mounting surface that contacts a portion of the vehicle, such as an upper surface (e.g., a bed cap) of an outer edge of the cargo box of the vehicle (see  FIGS.  8  and  9   ). While each leg  36  is shown having a base  38 , it is envisioned that one or more of the legs  36  may also be free of a base  38  or may include an additional mounting feature when needed. 
     The vehicle rack  30  may be adapted to secure one or more accessories to a vehicle. For example, one or more accessories may beneficially be secured to the lateral members  32 , the crossmembers  34 , or both. Similarly, one or more accessories may be secured to a panel  42  of the vehicle rack  30 . As shown, a plurality of panels  42  may between and/or along adjacent lateral members  32  to form a network of panels  42 . As discussed in further detail below, the panels  42  may include mounting features to secure the panels  42  to the lateral members  32  along with attachment features to secure one or more accessories to the vehicle rack  30 . 
     The panels  42  may extend along a length of the vehicle rack  30  which may be measured along a longitudinal axis of one or more of the lateral members. Beneficially, each side of the vehicle rack  30  may include a pair of lateral members  32  positioned adjacent to and spaced apart from one another. As a result, the panels  32  may span a distance between the adjacent lateral members  32  to secure the panels  32 . 
       FIGS.  2 A and  2 B  illustrate a perspective view of a vehicle  30  having crossmembers  34  in a first position and a second position, respectively. 
     As shown in  FIG.  2 A , the vehicle rack  30  may include opposing lateral members  32  adapted to span along opposing sides of a cargo box of a vehicle. The lateral members  32  may extend between legs  36  of the vehicle rack  30 . The crossmembers  34  may extend substantially transverse to the lateral members  32  to define a substantially box-like structure. However, it should be noted that any desired shape of the vehicle rack  30  may be configured. 
     The crossmembers  34  may be secured to the legs  36  of the vehicle rack  30  in a similar fashion. However, the crossmembers  34  may also advantageously be secured to the lateral members  32  themselves. As discussed in further detail below, the crossmembers  34  may extend between opposing lateral members  32  so that opposing end caps of the crossmembers  34  may be secured to the opposing lateral members  32 , thereby forming an overall shape or frame of the vehicle rack  30 . 
     Additionally, it should be noted that, when compared to the vehicle rack shown in  FIG.  1   , the vehicle rack  30  may include any desired number of lateral members  32 , crossmembers  34 , or both. For example, the vehicle rack  30  as shown in  FIG.  1    may include a pair of lateral members  32  on each side of the vehicle rack  30  to secure an upper and lower portion of each panel  42 . Conversely, the vehicle rack  30  shown in  FIGS.  2 A and  2 B  may include a single lateral member  32  on each side of the vehicle rack  30 , whereby a plurality of panels  42  are interconnected and secured to a single lateral member  32 , one or more legs  36 , or both. 
     As discussed above, the vehicle rack  30  may be secured to a vehicle—or a cargo box thereof—by mounting bases  38  of each leg to the vehicle. Once mounted, a user may secure one or more accessories to the vehicle rack for transportation. Beneficially, as may be seen in  FIGS.  2 A and  2 B , the lateral members  32  and the crossmembers  34  may form a substantially planar top surface of the vehicle rack  30 . Thus, a user may advantageously secure any number of accessories along the top surface of the vehicle rack  30  using the lateral members  32 , the crossmembers  34 , or both. As such, accessory mounting may not be constrained to a span between the crossmembers  34 , the lateral members  32 , or both. That is, the accessories being mounting along the top surface of the vehicle rack may extend beyond an outer perimeter as defined by the lateral members  32  and crossmembers  34  while still being secured in a substantially level position due to the substantially planar surface formed by the lateral members  32  and the crossmembers  34 . 
     To further accommodate mounting accessories to the vehicle rack  30 , the crossmembers  34  may be movably mounted to the lateral members  32 . As discussed in further detail below, the lateral members  32  may include one or more channels that secure the crossmembers  34 . As a result, the crossmembers  34  may maintain a substantially transverse position relative to the lateral members  32  yet be moved along the channels of the lateral members  32 . That is, the crossmembers  34  may be moved along all or a portion of the length of the lateral members  32 . 
     For example, as shown in  FIG.  2 A , the crossmembers  34  may be located in a first position near opposing ends of the lateral members  32 . The crossmembers  34  may be secured within channels of the lateral members  32  or may be secured to the legs  36  of the vehicle rack  30  (see  FIG.  1   ). However, if a user wishes to adjust the position of the crossmembers  34 , the crossmembers may be moved in a direction (D) along the lateral members  32  to any desired position. As shown in  FIG.  2 B , the crossmembers  34  may be moved in the direction (D) to reach a second position positioned nearer a midpoint along the length of the lateral members  32 . Thus, it may be gleaned from the present teachings that a user may position the crossmembers  34  in any number of locations while the vehicle rack  30  remains structurally intact. 
     As shown in  FIG.  2 B , the crossmembers  34  may be guided along the lateral members  32  by crossmember plates  50 . The crossmember plates  50  may be secured to end caps of the crossmembers  34  to mate or otherwise communicate with the lateral members  32 . As such, the crossmember plates  50  may beneficially at least partially guide the crossmembers  34  along the lateral members  32 . 
       FIG.  3    illustrates close-up view  3  of the vehicle rack  30  of  FIG.  2 A . As discussed above, the vehicle rack  30  may include a crossmember  34  transversely positioned relative to a lateral member  32  of the vehicle rack  30 . While the crossmember  34  may be secured to the lateral member  32 , the crossmember  34  and the lateral member  32  may both be secured to a leg  36  of the vehicle rack  30  by a plurality of fasteners  82  extending from an inner housing of the leg  36 . 
     The leg  36  may also include a cover  40 . The cover  40  may be disposed over the leg  36  and secured to the leg  36  by one or more cover fasteners  84  so that the cover  40  at least partially encloses the housing of the leg  36 . As such, a user may beneficially remove the cover  40  when disassembly or movement of one or more lateral members  32 , crossmembers  34 , or both is desired. Similarly, the cover  40  may provide protection to the fasteners  82 ,  84  or any other component located within the housing of the leg  36  by preventing moisture and/or debris from degrading the fasteners  82 ,  84  or any other component within the housing. 
     As mentioned above, the legs  36  of the vehicle rack  30  may be secured to a vehicle or cargo box thereof using a base  38  mounted to the leg  36 . The base  38  may abut or be positioned adjacent to a portion of the cargo box so that a bolt  86  may extend through the base  38  and a mounting hole  60  of the leg  36  to interconnect the leg  36  and the cargo box. As discussed in further detail below, the bolt  86  may also be secured to a mounting plate  54 , thereby allowing a compressive force to be applied to a portion of the cargo box to secure the vehicle rack  30 . During such mounting, a spacer  52  may also be positioned between the base  38  and the cargo box to further aid in securing the leg  36  to the cargo and/or to help maintain a desired position of the vehicle rack  30  relative to the cargo box (see  FIGS.  8  and  9   ). 
     Additionally, the vehicle rack  30  may include one or more interconnected panels  42 . The panels  42  may include a plurality of openings  46  to secure one or more accessories to the vehicle rack  30 . Beneficially, the panels  42  may include a plurality of flanges  44  to secure the panels  42  to the lateral member  32 , the leg  36 , or each other. 
       FIG.  4    is a perspective view illustrating the profile of an exemplary lateral member  32 . It should be noted that the lateral members  32  and the crossmembers may have a similar or identical profile. That is, the profile as described with respect to  FIG.  4    may also apply to one or more of the crossmembers described herein. However, the crossmembers may also have a different profile than the lateral members  32 . 
     The lateral member  32  may include a plurality of interconnected faces  70  that at least partially define an overall shape of the lateral member  32 . The lateral member  32  may include any number of faces  70 . For example, the lateral member  32  may include one or more faces, two or more faces, or three or more faces. The lateral member  32  may include six or less faces, five or less faces, or four or less faces. Similarly, the lateral members  32  may include the same number of faces  70  or may each include a different number of faces  70 . 
     As shown, one or more of the faces  70  may include a channel  72 . As discussed above, the channel  72  may be adapted to secure the crossmember in a movable manner. A movable manner may be defined as the crossmember being adapted for securement to one or more channels  72  of the lateral member  32  to maintain a position of the crossmember yet may be adjusted to move along one or more of the channels  72  of the lateral member  32 . 
     The channels  72  may also be configured to receive one or more accessories or mounting features thereof. For example, one or more of the channels  72  may be configured to receive a lighting strip therein, may receiving one or more mounting features of a tool, etc. As shown, the channels  72  may extend between opposing end caps  78  of the lateral member  32 . However, it is also envisioned that the channels  72  may also only extend partially along a length of the lateral member  32  so that the channels  72  may terminate a position between the end caps  78 . 
       FIG.  5    illustrates an end view of the lateral member  32  of  FIG.  4   . As discussed above, the lateral member  32  may include a plurality of interconnected faces  70 , whereby one or more of the faces  70  includes one or more channels  72 . That is, a portion of the faces  70  may be free of a channel  72 . 
     The channels  72  may vary in size and/or shape. For example, a portion of the channels  72  include a flange  74 . The flanges  74  may turn inwardly toward each other to at least partially enclose an opening  72 A of the channel  72 , thereby forming a T-Slot. Additionally, a portion of the channels  72  may also be free of any flanges  74  to provide a larger opening into the channel  72 . Thus, the lateral members  32  may beneficially provide a variety of attachment means for a user. 
     The plurality of faces  70  may also form a cavity  80  of the lateral member  32 . The cavity  80  may extending entirely or partially along a length of the lateral member  32 . The cavity  80  may include one or more bosses  76 . The bosses  76  may also extend entirely or partially along a length of the lateral member  32  within the cavity  80 . The bosses  76  may be adapted to receive one or more fasteners. For example, when the lateral member  32  is secured to a leg of the vehicle rack, the fasteners may extend through an inner surface of the leg and into the bosses  76 . Thus, the lateral member  32  may be secured to the leg without encumbrance on the channels  72  of the lateral member  32 . 
       FIG.  6    is a close-up view of a panel  42  of a vehicle rack in accordance with the present teachings. As discussed above, one or more panels  42  may be secured along the vehicle rack. As shown, the panel  42  may extend between a pair of lateral members  32  to secure the panel  42  to the lateral members  32 . For example, one or more fasteners may extend through mounting openings  46 A along the panel  42  that align with a portion of each lateral member  32  (e.g., a channel of the lateral member  32 ). The mounting openings  46 A may be a hole, aperture, slot, or other opening to facilitate securing the panel  42  to one or more lateral members  32 . It should also be noted that such panels  42  may also be secured to one or more crossmembers in a similar fashion. Additionally, the panel  42  may include a plurality of openings  46  adapted to secure one or more accessories to the vehicle rack. The openings may vary in size and/or shape, may include one or more cutouts, one or more slots, one or more circular holes, one or more rectangular openings, etc. Thus, the panels  42  may advantageously allow for various attachment means for one or more accessories, thereby even further allowing for customization of the vehicle rack. 
       FIG.  7    is a close-up perspective view of a portion of a vehicle rack as discussed herein. As mentioned above, the vehicle rack may include one or more crossmembers  34  secured to a lateral member  32  using a crossmember plate  50 . The lateral members  32  may be secured to one or more legs  36  of the vehicle rack to mount the vehicle rack to a vehicle. Additionally, flanges  44  of the one or more panels  42  may abut a face of the lateral member  32  to secure the panels  42  to the lateral member  32  using one or more fasteners (not shown) extending through mounting holes  48  of the panels  42 . Similarly, additional flanges  44  of the panels  42  may abut one another so that mounting holes  48  of the panels align with each to receive a fastener therethrough, thereby securing the panels  42  to each other. In a similar manner, flanges  44  of the panels  42  may abut the leg  36  so that a fastener  82  may extend through the leg  36  and into a mounting hole  48  of the panel  42 . 
       FIG.  8    is a perspective view of a vehicle rack  30 . As discussed above, the vehicle rack  30  may include a plurality of lateral members  32  and crossmembers  34  that form at least a portion of the overall structure. The lateral members  32  and/or crossmembers  34  may be secured to legs  36  of the vehicle rack  30 . Panels  42  may be disposed along one or more sides of the vehicle rack  30  and secured to the lateral members  32 , the crossmembers  34 , the legs,  36 , or a combination thereof. 
     As shown, the vehicle rack  30  may be mounted to a cargo box  20  of a vehicle. The vehicle has been omitted from the drawing for simplicity. The cargo box  20  may be defined by a plurality of fenders  21  positioned on opposing sides of a tailgate  22 . A bulkhead (not shown) may also form an additional panel of the cargo box  20  to create a storage area within the cargo box  20 . To allow for full use of the cargo box  20 , the vehicle rack  30  may beneficially be mounted along an upper edge of the fenders  21 . However, it should be noted that other mounting positioning may also be possible, such as mounting directly to the fenders  21  or an inner panel thereof, mounting to the tailgate  22 , mounting to a bulkhead, or a combination thereof. 
     To secure the vehicle rack  30 , the legs  36  or a base thereof (see, e.g.,  FIG.  3   ) may be located on the upper edge of the fenders  21 . For example, the cargo box  20  may include bed caps  24  along the upper portion of the fenders  21 . The bed caps  24  may thus support the legs  36  or a base of the legs. As a result, a mounting feature may extend through the bed caps  24  and into stake pockets  26  located beneath the bed caps  24  (see  FIG.  9   ). Thus, the vehicle rack  30  may advantageously allow for mounting free of fabrication of the cargo box  20  or permanent deformation. That is, a user may simply remove a cap or a small portion of the bed cap  24  positioned above the stake pockets  26  so that the mounting features of the vehicle rack  30  are received by the stake pockets  26  and the legs  36  of the vehicle rack  30  are at least partially positioned over the stake pockets  26 . 
       FIG.  9    illustrates a close-up view of a leg  36  of the vehicle rack of  FIG.  8   . As discussed above, the leg  36  may be positioned to at least partially align with a stake pocket  26  of the cargo box. A base  38  of the leg  36  may abut an upper surface of the bed cap  24 . Additionally, a spacer  52  may be positioned between the base  38  and the upper surface of the bed cap  24  to determine a desired height of the vehicle rack  30 . For example, the bed caps  24  may have an uneven upper surface with one or more undulations, ribs, beads, etc. As such, the spacer  52  along with the base  38  may ensure the vehicle rack is mounted in a level manner relative to the cargo box, the ground, or both, thereby maintaining the substantially planar upper surface of the vehicle rack  30  for mounting one or more accessories. 
     To secure the leg  36  of the vehicle rack  30 , a mounting plate  54  may be positioned within the stake pocket  26  to abut an inner side of the upper surface of the bed cap  24 , fender  21 , or other portion of the cargo box  20 . A bolt  86  may extend through the mounting plate  54  and into the leg  36  of the vehicle rack  30  so that the bolt may be tightened within a cavity of the leg  36  (see  FIG.  3   ). As a result, a compression force may be exhibited on the bed cap  24  and/or upper surface of the cargo box  20  so that the bed cap  24  and/or upper surface of the cargo box  20  are sandwiched between the leg  36  (e.g., the base  38  and/or spacer  52 ) and the mounting plate  54 . Additionally, the mounting plate  54  may include one or more notches  56  that align with and at least partially receiver inwardly turned lips  28  of the stake pocket  26 . As a result, the mounting plate is prevented from unwanted rotation during installation of the vehicle rack  30 . Similarly, such mounting structure may beneficially allow a user to install the vehicle rack  30  in a simple and efficient manner without any fabrication of the cargo box. 
       FIG.  10    illustrates a perspective view of a vehicle rack  30  in accordance with the present teachings. The vehicle rack  30  may include opposing lateral members  32 . The lateral members  32  may be configured to extend along a length of a cargo box of a vehicle (see, e.g.,  FIG.  8   ). That is, the lateral members  32  may extend along a longitudinal axis of a bed cap or upper edge of the cargo box. 
     The vehicle rack  30  may also include a pair of crossmembers  34 . The crossmembers  34  may extend transversely relative to the lateral members  32  to at least partially form a perimeter of the vehicle rack  30 . Advantageously, the crossmembers  34  may facilitate adjustment of a width (e.g., as measured substantially along a length of the crossmembers  34  transverse to the lateral members  32 ) of the vehicle rack  30 . To do so, the crossmembers  34  may include an inner crossmember  34 A and an outer crossmember  34 B in communication with one another to provide telescoping movement of the crossmember  34  (see  FIG.  11   ). Therefore, the crossmembers  34  may telescope to adjust a width of the vehicle rack  30  for mounting to a variety of cargo box widths of a vehicle, thereby providing even further customization and/or tunability. Additionally, as detailed above, the crossmembers  34  may also be mounted anywhere along the lateral members  32  to accommodate various cargo dimensions. 
     The lateral members  32 , the crossmembers  34 , or both may be secured to one or more legs  36  of the vehicle rack  30 . The legs  36  may be positioned at or near corners of the vehicle rack  30 . However, it is envisioned that the legs  36  may be positioned anywhere along the vehicle rack  30  to communicate with a portion of the vehicle (e.g., the cargo box) to secure the vehicle rack  30  to the vehicle. The legs  36  may receive a portion of the lateral members  32  and/or the crossmembers  34  to secure the lateral members  32  and/or the crossmembers  34  using one or more fasteners. 
     To secure the vehicle rack  30  to a vehicle (e.g., a cargo box of the vehicle), one or more of the legs  36  may include a base  38 . The base  38  may provide a mounting surface the abuts a portion of the vehicle, such as an upper surface of an outer edge of the cargo box of the vehicle (see, e.g.,  FIGS.  8  and  9   ). For example, the base  38  may be supports by a bed cap located along the outer edge of the cargo box. 
     Advantageously, mounting of the bases  38  to the cargo box may be completed in a variety of configurations based upon the vehicle being mounted to. In certain circumstances, the bases  38  may be in communication with a plate or bracket located within a stake pocket of the cargo box so that the bases  38  may be secured (e.g., fastened) to the plate or bracket to secure the bases  38  above the stake pockets. Similarly, the bases  38  may include, or be connected to, one or more brackets that mount to an inner fender or an inner lip of the cargo box to secure the vehicle rack  30  in place. Examples of various mounting schemes can be found in U.S. Pat. No. 11,034,307, all of which is incorporated herein in its entirety for all purposes. 
     The vehicle rack  30  may be adapted to secure one or more accessories to a vehicle. For example, one or more accessories may be secured to the lateral members  32 , the crossmembers  34 , or both. Similarly, one or more accessories may be secured to a panel  42  of the vehicle rack  30 . As shown, a plurality of panels  42  may be located along the lateral members  32  to form a network of adjacent panels  42 . 
       FIGS.  11  and  12    illustrate close-up perspective views of a vehicle rack  30  in accordance with the present teachings. As discussed above, the vehicle rack  30  may include a crossmember  34  transversely positioned relative to a lateral member  32  of the vehicle rack  30 . The crossmember  34  may include an inner crossmember  34 A in movable communication with an outer crossmember  34 B so that the inner crossmember  34 A and the outer crossmember  34 B may move in an adjustment direction (A) relative to each other. As a result, the crossmembers  34  may advantageously adjust a width of the vehicle rack based upon a position of the outer crossmember  34 B relative to the inner cross member  34 A. More specifically, the inner crossmember  34 A may include or be secured to a crossmember plate  50  of the crossmember  34 . The crossmember plate  50  may include a plurality of crossmember plate holes  50 A that facilitate mounting of the crossmember  34  to the lateral members  32 . That is, the crossmember  34  may slide along a length of the lateral member  32  to various positions and be secure in place by the crossmember plate  50 . Moreover, as the inner crossmember  34 A is secured to the crossmember plate  50 , the outer crossmember  34 B may be slidably engaged to the inner crossmember  34 A so that the outer crossmember  34 B may move along the inner crossmember  34 A. Once a desired width is selected, the outer crossmember  34 B may be secured to the inner crossmember  34 A by one or more fasteners extending through locking holes  88  of the crossmember  34 . 
     While the crossmember  34  may be secured to the lateral members  32 , the crossmember  34  and/or the lateral member  32  may also be secured to a leg  36  of the vehicle rack  30  by a plurality of fasteners extending through fastener holes  82 A. Beneficially, the leg  36  may include a window  92  therein that facilitates access to one or more channels  72  of the crossmember  34 , the lateral member  32 , or both. As a result, one or more fasteners or secondary features may be slid into the channel  72  without requiring that the crossmember  34 , the lateral member  32 , or both be disconnected from the leg  36 . For example, the channel  72  may be a t-slot that allows for one or more fasteners to be slid into the t-slot through the window  92 . Additionally, the leg  36  may also include a cover  40  secured to the leg  36  by additional fasteners extending through cover fastener holes  84 A along the leg  36 . 
     The legs  36  of the vehicle rack  30  may be secured to a vehicle or cargo box thereof using a base  38  of the leg  36 . The base  38  may abut or be positioned adjacent to a portion of the cargo box so that a bolt or other fastener may extend through the one or more mounting holes  60  of the base  38  and into the cargo box to secure the leg  36  to the cargo box. For example, as stated above, the base  38  may be in communication with a portion of the cargo box, one or more brackets, a stake pocket of the cargo box, or a combination thereof to secure the leg  36  to the cargo box. As such, the base  38  may be in direct communication with the cargo box or may include one or more intermediary components positioned between the base  38  and the cargo box (e.g., a spacer, plate, bracket, etc.). 
     Additionally, the vehicle rack  30  may include one or more interconnected panels  42 . The panels  42  may include a plurality of openings  46  to secure one or more accessories to the vehicle rack  30 . The panels  42  may also include a plurality of flanges  44  to mount the panels  42  to the lateral members  32 , the leg  36 , the crossmembers  34 , or a combination thereof using fasteners that extend through mounting holes  48  of the panels  42 . 
     ELEMENT LIST 
       20  Cargo Box 
       21  Fender 
       22  Tailgate 
       24  Bed Cap 
       26  Stake Pocket 
       28  Lip 
       30  Vehicle Rack 
       32  Lateral Member 
       34  Crossmember 
       34 A Inner Crossmember 
       34 B Outer Crossmember 
       36  Leg 
       38  Base 
       40  Cover 
       42  Panel 
       44  Panel Flange 
       46  Panel Opening 
       46 A Mounting Opening 
       48  Mounting Hole 
       50  Crossmember Plate 
       50 A Crossmember Plate Hole 
       52  Spacer 
       54  Mounting Plate 
       56  Notch 
       60  Leg Mounting Hole 
       70  Face 
       72  Channel 
       74  Channel Flange 
       76  Boss 
       78  End Cap 
       80  Cavity 
       82  Fastener 
       82 A Fastener Hole 
       84  Cover Fastener 
       84 A Cover Fastener Hole 
       86  Bolt 
       88  Locking Hole 
       90  Crossmember Slot 
       92  Leg Window 
     D Direction of Movement of the Crossmember 
     A Adjustment Direction of the Crossmember 
     The explanations and illustrations presented herein are intended to acquaint others skilled in the art with the invention, its principles, and its practical application. The above description is intended to be illustrative and not restrictive. Those skilled in the art may adapt and apply the invention in its numerous forms, as may be best suited to the requirements of a particular use. 
     Accordingly, the specific embodiments of the present invention as set forth are not intended as being exhaustive or limiting of the teachings. The scope of the teachings should, therefore, be determined not with reference to this description, but should instead be determined with reference to the appended claims, along with the full scope of equivalents to which such claims are entitled. The omission in the following claims of any aspect of subject matter that is disclosed herein is not a disclaimer of such subject matter, nor should it be regarded that the inventors did not consider such subject matter to be part of the disclosed inventive subject matter. 
     Plural elements or steps can be provided by a single integrated element or step. Alternatively, a single element or step might be divided into separate plural elements or steps. 
     The disclosure of “a” or “one” to describe an element or step is not intended to foreclose additional elements or steps. 
     While the terms first, second, third, etc., may be used herein to describe various elements, components, regions, layers and/or sections, these elements, components, regions, layers and/or sections should not be limited by these terms. These terms may be used to distinguish one element, component, region, layer or section from another region, layer or section. Terms such as “first,” “second,” and other numerical terms when used herein do not imply a sequence or order unless clearly indicated by the context. Thus, a first element, component, region, layer or section discussed below could be termed a second element, component, region, layer or section without departing from the teachings. 
     Spatially relative terms, such as “inner,” “outer,” “beneath,” “below,” “lower,” “above,” “upper,” and the like, may be used herein for ease of description to describe one element or feature&#39;s relationship to another element(s) or feature(s) as illustrated in the figures. Spatially relative terms may be intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements described as “below” or “beneath” other elements or features would then be oriented “above” the other elements or features. Thus, the example term “below” can encompass both an orientation of above and below. The device may be otherwise oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly. 
     Unless otherwise stated, a teaching with the term “about” or “approximately” in combination with a numerical amount encompasses a teaching of the recited amount, as well as approximations of that recited amount. By way of example, a teaching of “about 100” encompasses a teaching of 100+/−15. 
     The disclosures of all articles and references, including patent applications and publications, are incorporated by reference herein in their entirety for all purposes. Other combinations are also possible as will be gleaned from the following claims, which are also hereby incorporated by reference in their entirety into this written description.